if (!ef)
{
ERR("cannot open for reading: %s\n", file);
- exit(-1);
+ exit(-1);
}
+
list = eet_list(ef, "*", &num);
if (list)
{
- for (i = 0; i < num; i++)
- printf("%s\n",list[i]);
- free(list);
+ for (i = 0; i < num; i++)
+ printf("%s\n",list[i]);
+ free(list);
}
+
eet_close(ef);
}
static void
-do_eet_extract(const char *file, const char *key, const char *out, const char *crypto_key)
+do_eet_extract(const char *file,
+ const char *key,
+ const char *out,
+ const char *crypto_key)
{
Eet_File *ef;
void *data;
ef = eet_open(file, EET_FILE_MODE_READ);
if (!ef)
{
- ERR("cannot open for reading: %s\n", file);
- exit(-1);
+ ERR("cannot open for reading: %s\n", file);
+ exit(-1);
}
+
data = eet_read_cipher(ef, key, &size, crypto_key);
if (!data)
{
- ERR("cannot read key %s\n", key);
- exit(-1);
+ ERR("cannot read key %s\n", key);
+ exit(-1);
}
+
f = fopen(out, "wb");
if (!f)
{
- ERR("cannot open %s\n", out);
- exit(-1);
+ ERR("cannot open %s\n", out);
+ exit(-1);
}
+
if (fwrite(data, size, 1, f) != 1)
{
- ERR("cannot write to %s\n", out);
- exit(-1);
+ ERR("cannot write to %s\n", out);
+ exit(-1);
}
+
fclose(f);
free(data);
eet_close(ef);
}
static void
-do_eet_decode(const char *file, const char *key, const char *out, const char *crypto_key)
+do_eet_decode(const char *file,
+ const char *key,
+ const char *out,
+ const char *crypto_key)
{
Eet_File *ef;
FILE *f;
ef = eet_open(file, EET_FILE_MODE_READ);
if (!ef)
{
- ERR("cannot open for reading: %s\n", file);
- exit(-1);
+ ERR("cannot open for reading: %s\n", file);
+ exit(-1);
}
+
f = fopen(out, "wb");
if (!f)
{
- ERR("cannot open %s\n", out);
- exit(-1);
+ ERR("cannot open %s\n", out);
+ exit(-1);
}
+
if (!eet_data_dump_cipher(ef, key, crypto_key, do_eet_decode_dump, f))
{
- ERR("cannot write to %s\n", out);
- exit(-1);
+ ERR("cannot write to %s\n", out);
+ exit(-1);
}
+
fclose(f);
eet_close(ef);
}
static void
-do_eet_insert(const char *file, const char *key, const char *out, int compress, const char *crypto_key)
+do_eet_insert(const char *file,
+ const char *key,
+ const char *out,
+ int compress,
+ const char *crypto_key)
{
Eet_File *ef;
void *data;
ef = eet_open(file, EET_FILE_MODE_READ_WRITE);
if (!ef)
- ef = eet_open(file, EET_FILE_MODE_WRITE);
+ ef = eet_open(file, EET_FILE_MODE_WRITE);
+
if (!ef)
{
- ERR("cannot open for read+write: %s\n", file);
- exit(-1);
+ ERR("cannot open for read+write: %s\n", file);
+ exit(-1);
}
+
f = fopen(out, "rb");
if (!f)
{
- ERR("cannot open %s\n", out);
- exit(-1);
+ ERR("cannot open %s\n", out);
+ exit(-1);
}
+
fseek(f, 0, SEEK_END);
size = ftell(f);
rewind(f);
data = malloc(size);
if (!data)
{
- ERR("cannot allocate %i bytes\n", size);
- exit(-1);
+ ERR("cannot allocate %i bytes\n", size);
+ exit(-1);
}
+
if (fread(data, size, 1, f) != 1)
{
- ERR("cannot read file %s\n", out);
- exit(-1);
+ ERR("cannot read file %s\n", out);
+ exit(-1);
}
+
fclose(f);
eet_write_cipher(ef, key, data, size, compress, crypto_key);
free(data);
}
static void
-do_eet_encode(const char *file, const char *key, const char *out, int compress, const char *crypto_key)
+do_eet_encode(const char *file,
+ const char *key,
+ const char *out,
+ int compress,
+ const char *crypto_key)
{
Eet_File *ef;
char *text;
ef = eet_open(file, EET_FILE_MODE_READ_WRITE);
if (!ef)
- ef = eet_open(file, EET_FILE_MODE_WRITE);
+ ef = eet_open(file, EET_FILE_MODE_WRITE);
+
if (!ef)
{
- ERR("cannot open for read+write: %s\n", file);
- exit(-1);
+ ERR("cannot open for read+write: %s\n", file);
+ exit(-1);
}
+
f = fopen(out, "rb");
if (!f)
{
- ERR("cannot open %s\n", out);
- exit(-1);
+ ERR("cannot open %s\n", out);
+ exit(-1);
}
+
fseek(f, 0, SEEK_END);
textlen = ftell(f);
rewind(f);
text = malloc(textlen);
if (!text)
{
- ERR("cannot allocate %i bytes\n", size);
- exit(-1);
+ ERR("cannot allocate %i bytes\n", size);
+ exit(-1);
}
+
if (fread(text, textlen, 1, f) != 1)
{
- ERR("cannot read file %s\n", out);
- exit(-1);
+ ERR("cannot read file %s\n", out);
+ exit(-1);
}
+
fclose(f);
if (!eet_data_undump_cipher(ef, key, crypto_key, text, textlen, compress))
{
ERR("cannot parse %s\n", out);
- exit(-1);
+ exit(-1);
}
+
free(text);
eet_close(ef);
}
ef = eet_open(file, EET_FILE_MODE_READ_WRITE);
if (!ef)
{
- ERR("cannot open for read+write: %s\n", file);
- exit(-1);
+ ERR("cannot open for read+write: %s\n", file);
+ exit(-1);
}
+
eet_delete(ef, key);
eet_close(ef);
}
ef = eet_open(file, EET_FILE_MODE_READ);
if (!ef)
{
- ERR("checking signature of `%s` failed\n", file);
- exit(-1);
+ ERR("checking signature of `%s` failed\n", file);
+ exit(-1);
}
der = eet_identity_x509(ef, &der_length);
ef = eet_open(file, EET_FILE_MODE_READ_WRITE);
if (!ef)
{
- ERR("cannot open for read+write: %s.\n", file);
- exit(-1);
+ ERR("cannot open for read+write: %s.\n", file);
+ exit(-1);
}
key = eet_identity_open(public_key, private_key, NULL);
if (!key)
{
- ERR("cannot open key '%s:%s'.\n", public_key, private_key);
- exit(-1);
+ ERR("cannot open key '%s:%s'.\n", public_key, private_key);
+ exit(-1);
}
fprintf(stdout, "Using the following key to sign `%s`.\n", file);
main(int argc, char **argv)
{
if (!eet_init())
- return -1;
+ return -1;
_eet_main_log_dom = eina_log_domain_register("Eet_Main",EINA_COLOR_CYAN);
if(_eet_main_log_dom < -1)
{
- EINA_LOG_ERR("Impossible to create a log domain for eet_main.\n");
- eet_shutdown();
- return(-1);
+ EINA_LOG_ERR("Impossible to create a log domain for eet_main.\n");
+ eet_shutdown();
+ return(-1);
}
+
if (argc < 2)
{
- help:
- printf("Usage:\n"
- " eet -l FILE.EET list all keys in FILE.EET\n"
- " eet -x FILE.EET KEY OUT-FILE [CRYPTO_KEY] extract data stored in KEY in FILE.EET and write to OUT-FILE\n"
- " eet -d FILE.EET KEY OUT-FILE [CRYPTO_KEY] extract and decode data stored in KEY in FILE.EET and write to OUT-FILE\n"
- " eet -i FILE.EET KEY IN-FILE COMPRESS [CRYPTO_KEY] insert data to KEY in FILE.EET from IN-FILE and if COMPRESS is 1, compress it\n"
- " eet -e FILE.EET KEY IN-FILE COMPRESS [CRYPTO_KEY] insert and encode to KEY in FILE.EET from IN-FILE and if COMPRESS is 1, compress it\n"
- " eet -r FILE.EET KEY remove KEY in FILE.EET\n"
- " eet -c FILE.EET report and check the signature information of an eet file\n"
- " eet -s FILE.EET PRIVATE_KEY PUBLIC_KEY sign FILE.EET with PRIVATE_KEY and attach PUBLIC_KEY as it's certificate\n"
- );
- eet_shutdown();
- return -1;
+help:
+ printf(
+ "Usage:\n"
+ " eet -l FILE.EET list all keys in FILE.EET\n"
+ " eet -x FILE.EET KEY OUT-FILE [CRYPTO_KEY] extract data stored in KEY in FILE.EET and write to OUT-FILE\n"
+ " eet -d FILE.EET KEY OUT-FILE [CRYPTO_KEY] extract and decode data stored in KEY in FILE.EET and write to OUT-FILE\n"
+ " eet -i FILE.EET KEY IN-FILE COMPRESS [CRYPTO_KEY] insert data to KEY in FILE.EET from IN-FILE and if COMPRESS is 1, compress it\n"
+ " eet -e FILE.EET KEY IN-FILE COMPRESS [CRYPTO_KEY] insert and encode to KEY in FILE.EET from IN-FILE and if COMPRESS is 1, compress it\n"
+ " eet -r FILE.EET KEY remove KEY in FILE.EET\n"
+ " eet -c FILE.EET report and check the signature information of an eet file\n"
+ " eet -s FILE.EET PRIVATE_KEY PUBLIC_KEY sign FILE.EET with PRIVATE_KEY and attach PUBLIC_KEY as it's certificate\n"
+ );
+ eet_shutdown();
+ return -1;
}
+
if ((!strncmp(argv[1], "-h", 2)))
- {
- goto help;
- }
+ goto help;
else if ((!strcmp(argv[1], "-l")) && (argc > 2))
- {
- do_eet_list(argv[2]);
- }
+ do_eet_list(argv[2]);
else if ((!strcmp(argv[1], "-x")) && (argc > 4))
{
if (argc > 5)
- do_eet_extract(argv[2], argv[3], argv[4], argv[5]);
- else
- do_eet_extract(argv[2], argv[3], argv[4], NULL);
+ do_eet_extract(argv[2], argv[3], argv[4], argv[5]);
+ else
+ do_eet_extract(argv[2], argv[3], argv[4], NULL);
}
else if ((!strcmp(argv[1], "-d")) && (argc > 4))
{
if (argc > 5)
- do_eet_decode(argv[2], argv[3], argv[4], argv[5]);
- else
- do_eet_decode(argv[2], argv[3], argv[4], NULL);
+ do_eet_decode(argv[2], argv[3], argv[4], argv[5]);
+ else
+ do_eet_decode(argv[2], argv[3], argv[4], NULL);
}
else if ((!strcmp(argv[1], "-i")) && (argc > 5))
{
if (argc > 6)
- do_eet_insert(argv[2], argv[3], argv[4], atoi(argv[5]), argv[6]);
- else
- do_eet_insert(argv[2], argv[3], argv[4], atoi(argv[5]), NULL);
+ do_eet_insert(argv[2], argv[3], argv[4], atoi(argv[5]), argv[6]);
+ else
+ do_eet_insert(argv[2], argv[3], argv[4], atoi(argv[5]), NULL);
}
else if ((!strcmp(argv[1], "-e")) && (argc > 5))
{
if (argc > 6)
- do_eet_encode(argv[2], argv[3], argv[4], atoi(argv[5]), argv[6]);
- else
- do_eet_encode(argv[2], argv[3], argv[4], atoi(argv[5]), NULL);
+ do_eet_encode(argv[2], argv[3], argv[4], atoi(argv[5]), argv[6]);
+ else
+ do_eet_encode(argv[2], argv[3], argv[4], atoi(argv[5]), NULL);
}
else if ((!strcmp(argv[1], "-r")) && (argc > 3))
- {
- do_eet_remove(argv[2], argv[3]);
- }
+ do_eet_remove(argv[2], argv[3]);
else if ((!strcmp(argv[1], "-c")) && (argc > 2))
- {
- do_eet_check(argv[2]);
- }
+ do_eet_check(argv[2]);
else if ((!strcmp(argv[1], "-s")) && (argc > 4))
- {
- do_eet_sign(argv[2], argv[3], argv[4]);
- }
+ do_eet_sign(argv[2], argv[3], argv[4]);
else
- {
- goto help;
- }
+ goto help;
+
eina_log_domain_unregister(_eet_main_log_dom);
eet_shutdown();
return 0;
#include <unistd.h>
// complex real-world structures based on elmdentica database
-typedef struct {
+typedef struct
+{
const char *screen_name;
const char *name;
const char *message;
unsigned int timeline;
} My_Message;
-typedef struct {
+typedef struct
+{
const char *dm_to;
const char *message;
} My_Post;
-typedef struct {
+typedef struct
+{
unsigned int id;
const char *name;
Eina_List *messages;
Eina_List *posts;
} My_Account;
-typedef struct {
+typedef struct
+{
unsigned int version; // it is recommended to use versioned configuration!
Eina_List *accounts;
} My_Cache;
// Describe the members to be saved:
// Use a temporary macro so we don't type a lot, also avoid errors:
-#define ADD_BASIC(member, eet_type) \
- EET_DATA_DESCRIPTOR_ADD_BASIC \
- (_my_message_descriptor, My_Message, #member, member, eet_type)
+#define ADD_BASIC(member, eet_type) \
+ EET_DATA_DESCRIPTOR_ADD_BASIC \
+ (_my_message_descriptor, My_Message, # member, member, eet_type)
ADD_BASIC(screen_name, EET_T_STRING);
- ADD_BASIC(name, EET_T_STRING);
- ADD_BASIC(message, EET_T_STRING);
- ADD_BASIC(id, EET_T_UINT);
- ADD_BASIC(status_id, EET_T_UINT);
- ADD_BASIC(date, EET_T_UINT);
- ADD_BASIC(timeline, EET_T_UINT);
+ ADD_BASIC(name, EET_T_STRING);
+ ADD_BASIC(message, EET_T_STRING);
+ ADD_BASIC(id, EET_T_UINT);
+ ADD_BASIC(status_id, EET_T_UINT);
+ ADD_BASIC(date, EET_T_UINT);
+ ADD_BASIC(timeline, EET_T_UINT);
#undef ADD_BASIC
-#define ADD_BASIC(member, eet_type) \
- EET_DATA_DESCRIPTOR_ADD_BASIC \
- (_my_post_descriptor, My_Post, #member, member, eet_type)
- ADD_BASIC(dm_to, EET_T_STRING);
+#define ADD_BASIC(member, eet_type) \
+ EET_DATA_DESCRIPTOR_ADD_BASIC \
+ (_my_post_descriptor, My_Post, # member, member, eet_type)
+ ADD_BASIC(dm_to, EET_T_STRING);
ADD_BASIC(message, EET_T_STRING);
#undef ADD_BASIC
-#define ADD_BASIC(member, eet_type) \
- EET_DATA_DESCRIPTOR_ADD_BASIC \
- (_my_account_descriptor, My_Account, #member, member, eet_type)
+#define ADD_BASIC(member, eet_type) \
+ EET_DATA_DESCRIPTOR_ADD_BASIC \
+ (_my_account_descriptor, My_Account, # member, member, eet_type)
ADD_BASIC(name, EET_T_STRING);
- ADD_BASIC(id, EET_T_UINT);
+ ADD_BASIC(id, EET_T_UINT);
#undef ADD_BASIC
EET_DATA_DESCRIPTOR_ADD_LIST
- (_my_account_descriptor, My_Account, "messages", messages,
+ (_my_account_descriptor, My_Account, "messages", messages,
_my_message_descriptor);
EET_DATA_DESCRIPTOR_ADD_LIST
- (_my_account_descriptor, My_Account, "posts", posts,
+ (_my_account_descriptor, My_Account, "posts", posts,
_my_post_descriptor);
-#define ADD_BASIC(member, eet_type) \
- EET_DATA_DESCRIPTOR_ADD_BASIC \
- (_my_cache_descriptor, My_Cache, #member, member, eet_type)
+#define ADD_BASIC(member, eet_type) \
+ EET_DATA_DESCRIPTOR_ADD_BASIC \
+ (_my_cache_descriptor, My_Cache, # member, member, eet_type)
ADD_BASIC(version, EET_T_UINT);
#undef ADD_BASIC
EET_DATA_DESCRIPTOR_ADD_LIST
- (_my_cache_descriptor, My_Cache, "accounts", accounts,
+ (_my_cache_descriptor, My_Cache, "accounts", accounts,
_my_account_descriptor);
}
_eet_string_free(const char *str)
{
if (!str)
- return;
+ return;
+
if ((_my_cache_dict) && (eet_dictionary_string_check(_my_cache_dict, str)))
- return;
+ return;
+
eina_stringshare_del(str);
}
My_Message *msg = calloc(1, sizeof(My_Message));
if (!msg)
{
- fprintf(stderr, "ERROR: could not calloc My_Message\n");
- return NULL;
+ fprintf(stderr, "ERROR: could not calloc My_Message\n");
+ return NULL;
}
+
msg->message = eina_stringshare_add(message);
return msg;
}
My_Post *post = calloc(1, sizeof(My_Post));
if (!post)
{
- fprintf(stderr, "ERROR: could not calloc My_Post\n");
- return NULL;
+ fprintf(stderr, "ERROR: could not calloc My_Post\n");
+ return NULL;
}
+
post->message = eina_stringshare_add(message);
return post;
}
My_Account *acc = calloc(1, sizeof(My_Account));
if (!acc)
{
- fprintf(stderr, "ERROR: could not calloc My_Account\n");
- return NULL;
+ fprintf(stderr, "ERROR: could not calloc My_Account\n");
+ return NULL;
}
+
acc->name = eina_stringshare_add(name);
return acc;
}
_eet_string_free(acc->name);
EINA_LIST_FREE(acc->messages, m)
- _my_message_free(m);
+ _my_message_free(m);
EINA_LIST_FREE(acc->posts, p)
- _my_post_free(p);
+ _my_post_free(p);
free(acc);
}
My_Cache *my_cache = calloc(1, sizeof(My_Cache));
if (!my_cache)
{
- fprintf(stderr, "ERROR: could not calloc My_Cache\n");
- return NULL;
+ fprintf(stderr, "ERROR: could not calloc My_Cache\n");
+ return NULL;
}
my_cache->version = 1;
{
My_Account *acc;
EINA_LIST_FREE(my_cache->accounts, acc)
- _my_account_free(acc);
+ _my_account_free(acc);
free(my_cache);
}
My_Account *acc;
Eina_List *l;
EINA_LIST_FOREACH(my_cache->accounts, l, acc)
- if (strcmp(acc->name, name) == 0)
- return acc;
+ if (strcmp(acc->name, name) == 0)
+ return acc;
+
return NULL;
}
Eet_File *ef = eet_open(filename, EET_FILE_MODE_READ);
if (!ef)
{
- fprintf(stderr, "ERROR: could not open '%s' for read\n", filename);
- return NULL;
+ fprintf(stderr, "ERROR: could not open '%s' for read\n", filename);
+ return NULL;
}
my_cache = eet_data_read(ef, _my_cache_descriptor, MY_CACHE_FILE_ENTRY);
if (!my_cache)
{
- eet_close(ef);
- return NULL;
+ eet_close(ef);
+ return NULL;
}
if (my_cache->version < 1)
{
- fprintf(stderr,
- "WARNING: version %#x was too old, upgrading it to %#x\n",
- my_cache->version, 1);
+ fprintf(stderr,
+ "WARNING: version %#x was too old, upgrading it to %#x\n",
+ my_cache->version, 1);
- my_cache->version = 1;
+ my_cache->version = 1;
}
if (_my_cache_file)
- eet_close(_my_cache_file);
+ eet_close(_my_cache_file);
+
_my_cache_file = ef;
_my_cache_dict = eet_dictionary_get(ef);
len = eina_strlcpy(tmp, filename, sizeof(tmp));
if (len + 12 >= (int)sizeof(tmp))
{
- fprintf(stderr, "ERROR: file name is too big: %s\n", filename);
- return EINA_FALSE;
+ fprintf(stderr, "ERROR: file name is too big: %s\n", filename);
+ return EINA_FALSE;
}
i = 0;
do
{
- snprintf(tmp + len, 12, ".%u", i);
- i++;
+ snprintf(tmp + len, 12, ".%u", i);
+ i++;
}
while (stat(tmp, &st) == 0);
ef = eet_open(tmp, EET_FILE_MODE_WRITE);
if (!ef)
{
- fprintf(stderr, "ERROR: could not open '%s' for write\n", tmp);
- return EINA_FALSE;
+ fprintf(stderr, "ERROR: could not open '%s' for write\n", tmp);
+ return EINA_FALSE;
}
ret = eet_data_write
- (ef, _my_cache_descriptor, MY_CACHE_FILE_ENTRY, my_cache, EINA_TRUE);
+ (ef, _my_cache_descriptor, MY_CACHE_FILE_ENTRY, my_cache, EINA_TRUE);
// VERY IMPORTANT NOTE:
// after eet_close(), all strings mmaped from file will be GONE, invalid!
if (ret)
{
- unlink(filename);
- rename(tmp, filename);
+ unlink(filename);
+ rename(tmp, filename);
}
return ret;
if (argc < 3)
{
- fprintf(stderr,
- "Usage:\n\t%s <input> <output> [action] [action-params]\n\n"
- "Where actions and their parameters:\n"
- "\tacc <name>\n"
- "\tpost <account-name> <message>\n"
- "\tmessage <account-name> <message>\n"
- "\n",
- argv[0]);
- return -1;
+ fprintf(stderr,
+ "Usage:\n\t%s <input> <output> [action] [action-params]\n\n"
+ "Where actions and their parameters:\n"
+ "\tacc <name>\n"
+ "\tpost <account-name> <message>\n"
+ "\tmessage <account-name> <message>\n"
+ "\n",
+ argv[0]);
+ return -1;
}
eina_init();
my_cache = _my_cache_load(argv[1]);
if (!my_cache)
{
- printf("creating new cache.\n");
- my_cache = _my_cache_new();
- if (!my_cache)
- {
- ret = -2;
- goto end;
- }
+ printf("creating new cache.\n");
+ my_cache = _my_cache_new();
+ if (!my_cache)
+ {
+ ret = -2;
+ goto end;
+ }
}
if (argc > 3)
{
- if (strcmp(argv[3], "acc") == 0)
- {
- if (argc == 5)
- {
- My_Account *acc = _my_cache_account_find(my_cache, argv[4]);
- if (!acc)
- {
- acc = _my_account_new(argv[4]);
- my_cache->accounts = eina_list_append
- (my_cache->accounts, acc);
- }
- else
- fprintf(stderr, "ERROR: account '%s' already exists.\n",
- argv[4]);
- }
- else
- fprintf(stderr, "ERROR: wrong number of parameters (%d).\n",
- argc);
- }
- else if (strcmp(argv[3], "post") == 0)
- {
- if (argc == 6)
- {
- My_Account *acc = _my_cache_account_find(my_cache, argv[4]);
- if (acc)
- {
- My_Post *post = _my_post_new(argv[5]);
- acc->posts = eina_list_append(acc->posts, post);
- }
- else
- fprintf(stderr, "ERROR: unknown account: '%s'\n", argv[4]);
- }
- else
- fprintf(stderr, "ERROR: wrong number of parameters (%d).\n",
- argc);
- }
- else if (strcmp(argv[3], "message") == 0)
- {
- if (argc == 6)
- {
- My_Account *acc = _my_cache_account_find(my_cache, argv[4]);
- if (acc)
- {
- My_Message *msg = _my_message_new(argv[5]);
- acc->messages = eina_list_append(acc->messages, msg);
- }
- else
- fprintf(stderr, "ERROR: unknown account: '%s'\n", argv[4]);
- }
- else
- fprintf(stderr, "ERROR: wrong number of parameters (%d).\n",
- argc);
- }
- else
- fprintf(stderr, "ERROR: unknown action '%s'\n", argv[2]);
+ if (strcmp(argv[3], "acc") == 0)
+ {
+ if (argc == 5)
+ {
+ My_Account *acc = _my_cache_account_find(my_cache, argv[4]);
+ if (!acc)
+ {
+ acc = _my_account_new(argv[4]);
+ my_cache->accounts = eina_list_append
+ (my_cache->accounts, acc);
+ }
+ else
+ fprintf(stderr, "ERROR: account '%s' already exists.\n",
+ argv[4]);
+ }
+ else
+ fprintf(stderr,
+ "ERROR: wrong number of parameters (%d).\n",
+ argc);
+ }
+ else if (strcmp(argv[3], "post") == 0)
+ {
+ if (argc == 6)
+ {
+ My_Account *acc = _my_cache_account_find(my_cache, argv[4]);
+ if (acc)
+ {
+ My_Post *post = _my_post_new(argv[5]);
+ acc->posts = eina_list_append(acc->posts, post);
+ }
+ else
+ fprintf(stderr, "ERROR: unknown account: '%s'\n", argv[4]);
+ }
+ else
+ fprintf(stderr,
+ "ERROR: wrong number of parameters (%d).\n",
+ argc);
+ }
+ else if (strcmp(argv[3], "message") == 0)
+ {
+ if (argc == 6)
+ {
+ My_Account *acc = _my_cache_account_find(my_cache, argv[4]);
+ if (acc)
+ {
+ My_Message *msg = _my_message_new(argv[5]);
+ acc->messages = eina_list_append(acc->messages, msg);
+ }
+ else
+ fprintf(stderr, "ERROR: unknown account: '%s'\n", argv[4]);
+ }
+ else
+ fprintf(stderr,
+ "ERROR: wrong number of parameters (%d).\n",
+ argc);
+ }
+ else
+ fprintf(stderr, "ERROR: unknown action '%s'\n", argv[2]);
}
- printf("My_Cache:\n"
- "\tversion.: %#x\n"
- "\taccounts: %u\n",
- my_cache->version,
- eina_list_count(my_cache->accounts));
+ printf("My_Cache:\n"
+ "\tversion.: %#x\n"
+ "\taccounts: %u\n",
+ my_cache->version,
+ eina_list_count(my_cache->accounts));
EINA_LIST_FOREACH(my_cache->accounts, l_acc, acc)
- {
- const My_Post *post;
-
- printf("\t > %-#8x '%.20s' stats: m=%u, p=%u\n",
- acc->id, acc->name ? acc->name : "",
- eina_list_count(acc->messages),
- eina_list_count(acc->posts));
-
- if (eina_list_count(acc->messages))
- {
- const Eina_List *l;
- const My_Message *msg;
- printf("\t |messages:\n");
-
- EINA_LIST_FOREACH(acc->messages, l, msg)
- {
- printf("\t | %-8x '%s' [%s]: '%.20s'\n",
- msg->id,
- msg->name ? msg->name : "",
- msg->screen_name ? msg->screen_name : "",
- msg->message ? msg->message : "");
- }
- }
-
- if (eina_list_count(acc->posts))
- {
- const Eina_List *l;
- const My_Post *post;
- printf("\t |posts:\n");
-
- EINA_LIST_FOREACH(acc->posts, l, post)
- {
- if (post->dm_to)
- printf("\t | @%s: '%.20s'\n", post->dm_to, post->message);
- else
- printf("\t | '%.20s'\n", post->message);
- }
- }
- printf("\n");
- }
+ {
+ const My_Post *post;
+
+ printf("\t > %-#8x '%.20s' stats: m=%u, p=%u\n",
+ acc->id, acc->name ? acc->name : "",
+ eina_list_count(acc->messages),
+ eina_list_count(acc->posts));
+
+ if (eina_list_count(acc->messages))
+ {
+ const Eina_List *l;
+ const My_Message *msg;
+ printf("\t |messages:\n");
+
+ EINA_LIST_FOREACH(acc->messages, l, msg)
+ {
+ printf("\t | %-8x '%s' [%s]: '%.20s'\n",
+ msg->id,
+ msg->name ? msg->name : "",
+ msg->screen_name ? msg->screen_name : "",
+ msg->message ? msg->message : "");
+ }
+ }
+
+ if (eina_list_count(acc->posts))
+ {
+ const Eina_List *l;
+ const My_Post *post;
+ printf("\t |posts:\n");
+
+ EINA_LIST_FOREACH(acc->posts, l, post)
+ {
+ if (post->dm_to)
+ printf("\t | @%s: '%.20s'\n", post->dm_to, post->message);
+ else
+ printf("\t | '%.20s'\n", post->message);
+ }
+ }
+
+ printf("\n");
+ }
if (!_my_cache_save(my_cache, argv[2]))
- ret = -3;
+ ret = -3;
_my_cache_free(my_cache);
- end:
+end:
_my_cache_descriptor_shutdown();
eet_shutdown();
eina_shutdown();
// will be automatically handled. The other members will have their
// space reserved and zeroed (as it uses calloc()), but not
// saved or loaded from eet files.
-typedef struct {
+typedef struct
+{
unsigned int version; // it is recommended to use versioned configuration!
const char *name;
int id;
Eina_List *subs;
} My_Conf_Type;
-typedef struct {
+typedef struct
+{
const char *server;
int port;
} My_Conf_Subtype;
// Describe the members to be saved:
// Use a temporary macro so we don't type a lot, also avoid errors:
-#define MY_CONF_ADD_BASIC(member, eet_type) \
- EET_DATA_DESCRIPTOR_ADD_BASIC \
- (_my_conf_descriptor, My_Conf_Type, #member, member, eet_type)
-#define MY_CONF_SUB_ADD_BASIC(member, eet_type) \
- EET_DATA_DESCRIPTOR_ADD_BASIC \
- (_my_conf_sub_descriptor, My_Conf_Subtype, #member, member, eet_type)
+#define MY_CONF_ADD_BASIC(member, eet_type) \
+ EET_DATA_DESCRIPTOR_ADD_BASIC \
+ (_my_conf_descriptor, My_Conf_Type, # member, member, eet_type)
+#define MY_CONF_SUB_ADD_BASIC(member, eet_type) \
+ EET_DATA_DESCRIPTOR_ADD_BASIC \
+ (_my_conf_sub_descriptor, My_Conf_Subtype, # member, member, eet_type)
MY_CONF_SUB_ADD_BASIC(server, EET_T_STRING);
- MY_CONF_SUB_ADD_BASIC(port, EET_T_INT);
+ MY_CONF_SUB_ADD_BASIC(port, EET_T_INT);
MY_CONF_ADD_BASIC(version, EET_T_UINT);
- MY_CONF_ADD_BASIC(name, EET_T_STRING);
- MY_CONF_ADD_BASIC(id, EET_T_INT);
+ MY_CONF_ADD_BASIC(name, EET_T_STRING);
+ MY_CONF_ADD_BASIC(id, EET_T_INT);
MY_CONF_ADD_BASIC(enabled, EET_T_UCHAR);
// And add the sub descriptor as a linked list at 'subs' in the main struct
EET_DATA_DESCRIPTOR_ADD_LIST
- (_my_conf_descriptor, My_Conf_Type, "subs", subs, _my_conf_sub_descriptor);
+ (_my_conf_descriptor, My_Conf_Type, "subs", subs, _my_conf_sub_descriptor);
#undef MY_CONF_ADD_BASIC
#undef MY_CONF_SUB_ADD_BASIC
My_Conf_Subtype *sub;
if (!my_conf)
{
- fprintf(stderr, "ERROR: could not calloc My_Conf_Type\n");
- return NULL;
+ fprintf(stderr, "ERROR: could not calloc My_Conf_Type\n");
+ return NULL;
}
my_conf->version = 0x112233;
sub = calloc(1, sizeof(My_Conf_Subtype));
if (sub)
{
- sub->server = eina_stringshare_add("my-server.com");
- sub->port = 1234;
- my_conf->subs = eina_list_append(my_conf->subs, sub);
+ sub->server = eina_stringshare_add("my-server.com");
+ sub->port = 1234;
+ my_conf->subs = eina_list_append(my_conf->subs, sub);
}
return my_conf;
{
My_Conf_Subtype *sub;
EINA_LIST_FREE(my_conf->subs, sub)
- {
- eina_stringshare_del(sub->server);
- free(sub);
- }
+ {
+ eina_stringshare_del(sub->server);
+ free(sub);
+ }
eina_stringshare_del(my_conf->name);
free(my_conf);
Eet_File *ef = eet_open(filename, EET_FILE_MODE_READ);
if (!ef)
{
- fprintf(stderr, "ERROR: could not open '%s' for read\n", filename);
- return NULL;
+ fprintf(stderr, "ERROR: could not open '%s' for read\n", filename);
+ return NULL;
}
my_conf = eet_data_read(ef, _my_conf_descriptor, MY_CONF_FILE_ENTRY);
if (!my_conf)
- goto end;
+ goto end;
if (my_conf->version < 0x112233)
{
- fprintf(stderr,
- "WARNING: version %#x was too old, upgrading it to %#x\n",
- my_conf->version, 0x112233);
+ fprintf(stderr,
+ "WARNING: version %#x was too old, upgrading it to %#x\n",
+ my_conf->version, 0x112233);
- my_conf->version = 0x112233;
- my_conf->enabled = EINA_TRUE;
+ my_conf->version = 0x112233;
+ my_conf->enabled = EINA_TRUE;
}
- end:
+end:
eet_close(ef);
return my_conf;
}
len = eina_strlcpy(tmp, filename, sizeof(tmp));
if (len + 12 >= (int)sizeof(tmp))
{
- fprintf(stderr, "ERROR: file name is too big: %s\n", filename);
- return EINA_FALSE;
+ fprintf(stderr, "ERROR: file name is too big: %s\n", filename);
+ return EINA_FALSE;
}
i = 0;
do
{
- snprintf(tmp + len, 12, ".%u", i);
- i++;
+ snprintf(tmp + len, 12, ".%u", i);
+ i++;
}
while (stat(tmp, &st) == 0);
ef = eet_open(tmp, EET_FILE_MODE_WRITE);
if (!ef)
{
- fprintf(stderr, "ERROR: could not open '%s' for write\n", tmp);
- return EINA_FALSE;
+ fprintf(stderr, "ERROR: could not open '%s' for write\n", tmp);
+ return EINA_FALSE;
}
ret = eet_data_write
- (ef, _my_conf_descriptor, MY_CONF_FILE_ENTRY, my_conf, EINA_TRUE);
+ (ef, _my_conf_descriptor, MY_CONF_FILE_ENTRY, my_conf, EINA_TRUE);
eet_close(ef);
if (ret)
{
- unlink(filename);
- rename(tmp, filename);
+ unlink(filename);
+ rename(tmp, filename);
}
return ret;
if (argc != 3)
{
- fprintf(stderr, "Usage:\n\t%s <input> <output>\n\n", argv[0]);
- return -1;
+ fprintf(stderr, "Usage:\n\t%s <input> <output>\n\n", argv[0]);
+ return -1;
}
eina_init();
my_conf = _my_conf_load(argv[1]);
if (!my_conf)
{
- printf("creating new configuration.\n");
- my_conf = _my_conf_new();
- if (!my_conf)
- {
- ret = -2;
- goto end;
- }
+ printf("creating new configuration.\n");
+ my_conf = _my_conf_new();
+ if (!my_conf)
+ {
+ ret = -2;
+ goto end;
+ }
}
- printf("My_Conf_Type:\n"
- "\tversion: %#x\n"
- "\tname...: '%s'\n"
- "\tid.....: %d\n"
- "\tenabled: %hhu\n"
- "\tsubs...:\n",
- my_conf->version,
- my_conf->name ? my_conf->name : "",
- my_conf->id,
- my_conf->enabled);
+ printf("My_Conf_Type:\n"
+ "\tversion: %#x\n"
+ "\tname...: '%s'\n"
+ "\tid.....: %d\n"
+ "\tenabled: %hhu\n"
+ "\tsubs...:\n",
+ my_conf->version,
+ my_conf->name ? my_conf->name : "",
+ my_conf->id,
+ my_conf->enabled);
EINA_LIST_FOREACH(my_conf->subs, l, sub)
- printf("\t\tserver: '%s', port: %d\n",
- sub->server ? sub->server : "",
- sub->port);
+ printf("\t\tserver: '%s', port: %d\n",
+ sub->server ? sub->server : "",
+ sub->port);
if (!_my_conf_save(my_conf, argv[2]))
- ret = -3;
+ ret = -3;
_my_conf_free(my_conf);
- end:
+end:
_my_conf_descriptor_shutdown();
eet_shutdown();
eina_shutdown();
// will be automatically handled. The other members will have their
// space reserved and zeroed (as it uses calloc()), but not
// saved or loaded from eet files.
-typedef struct {
+typedef struct
+{
unsigned int version; // it is recommended to use versioned configuration!
const char *name;
int id;
// Describe the members to be saved:
// Use a temporary macro so we don't type a lot, also avoid errors:
-#define MY_CONF_ADD_BASIC(member, eet_type) \
- EET_DATA_DESCRIPTOR_ADD_BASIC \
- (_my_conf_descriptor, My_Conf_Type, #member, member, eet_type)
+#define MY_CONF_ADD_BASIC(member, eet_type) \
+ EET_DATA_DESCRIPTOR_ADD_BASIC \
+ (_my_conf_descriptor, My_Conf_Type, # member, member, eet_type)
MY_CONF_ADD_BASIC(version, EET_T_UINT);
- MY_CONF_ADD_BASIC(name, EET_T_STRING);
- MY_CONF_ADD_BASIC(id, EET_T_INT);
+ MY_CONF_ADD_BASIC(name, EET_T_STRING);
+ MY_CONF_ADD_BASIC(id, EET_T_INT);
MY_CONF_ADD_BASIC(enabled, EET_T_UCHAR);
#undef MY_CONF_ADD_BASIC
My_Conf_Type *my_conf = calloc(1, sizeof(My_Conf_Type));
if (!my_conf)
{
- fprintf(stderr, "ERROR: could not calloc My_Conf_Type\n");
- return NULL;
+ fprintf(stderr, "ERROR: could not calloc My_Conf_Type\n");
+ return NULL;
}
my_conf->version = 0x112233;
Eet_File *ef = eet_open(filename, EET_FILE_MODE_READ);
if (!ef)
{
- fprintf(stderr, "ERROR: could not open '%s' for read\n", filename);
- return NULL;
+ fprintf(stderr, "ERROR: could not open '%s' for read\n", filename);
+ return NULL;
}
my_conf = eet_data_read(ef, _my_conf_descriptor, MY_CONF_FILE_ENTRY);
if (!my_conf)
- goto end;
+ goto end;
if (my_conf->version < 0x112233)
{
- fprintf(stderr,
- "WARNING: version %#x was too old, upgrading it to %#x\n",
- my_conf->version, 0x112233);
+ fprintf(stderr,
+ "WARNING: version %#x was too old, upgrading it to %#x\n",
+ my_conf->version, 0x112233);
- my_conf->version = 0x112233;
- my_conf->enabled = EINA_TRUE;
+ my_conf->version = 0x112233;
+ my_conf->enabled = EINA_TRUE;
}
- end:
+end:
eet_close(ef);
return my_conf;
}
len = eina_strlcpy(tmp, filename, sizeof(tmp));
if (len + 12 >= (int)sizeof(tmp))
{
- fprintf(stderr, "ERROR: file name is too big: %s\n", filename);
- return EINA_FALSE;
+ fprintf(stderr, "ERROR: file name is too big: %s\n", filename);
+ return EINA_FALSE;
}
i = 0;
do
{
- snprintf(tmp + len, 12, ".%u", i);
- i++;
+ snprintf(tmp + len, 12, ".%u", i);
+ i++;
}
while (stat(tmp, &st) == 0);
ef = eet_open(tmp, EET_FILE_MODE_WRITE);
if (!ef)
{
- fprintf(stderr, "ERROR: could not open '%s' for write\n", tmp);
- return EINA_FALSE;
+ fprintf(stderr, "ERROR: could not open '%s' for write\n", tmp);
+ return EINA_FALSE;
}
ret = eet_data_write
- (ef, _my_conf_descriptor, MY_CONF_FILE_ENTRY, my_conf, EINA_TRUE);
+ (ef, _my_conf_descriptor, MY_CONF_FILE_ENTRY, my_conf, EINA_TRUE);
eet_close(ef);
if (ret)
{
- unlink(filename);
- rename(tmp, filename);
+ unlink(filename);
+ rename(tmp, filename);
}
return ret;
if (argc != 3)
{
- fprintf(stderr, "Usage:\n\t%s <input> <output>\n\n", argv[0]);
- return -1;
+ fprintf(stderr, "Usage:\n\t%s <input> <output>\n\n", argv[0]);
+ return -1;
}
eina_init();
my_conf = _my_conf_load(argv[1]);
if (!my_conf)
{
- printf("creating new configuration.\n");
- my_conf = _my_conf_new();
- if (!my_conf)
- {
- ret = -2;
- goto end;
- }
+ printf("creating new configuration.\n");
+ my_conf = _my_conf_new();
+ if (!my_conf)
+ {
+ ret = -2;
+ goto end;
+ }
}
- printf("My_Conf_Type:\n"
- "\tversion: %#x\n"
- "\tname...: '%s'\n"
- "\tid.....: %d\n"
- "\tenabled: %hhu\n",
- my_conf->version,
- my_conf->name ? my_conf->name : "",
- my_conf->id,
- my_conf->enabled);
+ printf("My_Conf_Type:\n"
+ "\tversion: %#x\n"
+ "\tname...: '%s'\n"
+ "\tid.....: %d\n"
+ "\tenabled: %hhu\n",
+ my_conf->version,
+ my_conf->name ? my_conf->name : "",
+ my_conf->id,
+ my_conf->enabled);
if (!_my_conf_save(my_conf, argv[2]))
- ret = -3;
+ ret = -3;
_my_conf_free(my_conf);
- end:
+end:
_my_conf_descriptor_shutdown();
eet_shutdown();
eina_shutdown();
#ifdef __cplusplus
extern "C" {
#endif
-
- /**
- * @file Eet.h
- * @brief The file that provides the eet functions.
- *
- * This header provides the Eet management functions.
- *
- */
+
+/**
+ * @file Eet.h
+ * @brief The file that provides the eet functions.
+ *
+ * This header provides the Eet management functions.
+ *
+ */
#define EET_VERSION_MAJOR 1
#define EET_VERSION_MINOR 3
- /**
- * @typedef Eet_Version
- *
- * This is the Eet version information structure that can be used at
- * runtiime to detect which version of eet is being used and adapt
- * appropriately as follows for example:
- *
- * @code
- * #if defined(EET_VERSION_MAJOR) && (EET_VERSION_MAJOR >= 1) && defined(EET_VERSION_MINOR) && (EET_VERSION_MINOR > 2)
- * printf("Eet version: %i.%i.%i\n",
- * eet_version->major,
- * eet_version->minor,
- * eet_version->micro);
- * if (eet_version->revision > 0)
- * {
- * printf(" Built from SVN revision # %i\n", eet_version->revision);
- * }
- * #endif
- * @endcode
- *
- * Note the #if check can be dropped if your program refuses to compile or
- * work with an Eet version less than 1.3.0.
- */
- typedef struct _Eet_Version
- {
- int major; /** < major (binary or source incompatible changes) */
- int minor; /** < minor (new features, bugfixes, major improvements version) */
- int micro; /** < micro (bugfix, internal improvements, no new features version) */
- int revision; /** < svn revision (0 if a proper rlease or the svn revsion number Eet is built from) */
- } Eet_Version;
-
- EAPI extern Eet_Version *eet_version;
-
- /**
- * @defgroup Eet_Group Top level functions
- * Functions that affect Eet as a whole.
- *
- * @{
- */
-
- /**
- * @enum _Eet_Error
- * All the error identifiers known by Eet.
- */
- typedef enum _Eet_Error
- {
- EET_ERROR_NONE, /**< No error, it's all fine! */
- EET_ERROR_BAD_OBJECT, /**< Given object or handle is NULL or invalid */
- EET_ERROR_EMPTY, /**< There was nothing to do */
- EET_ERROR_NOT_WRITABLE, /**< Could not write to file or fine is #EET_FILE_MODE_READ */
- EET_ERROR_OUT_OF_MEMORY, /**< Could not allocate memory */
- EET_ERROR_WRITE_ERROR, /**< Failed to write data to destination */
- EET_ERROR_WRITE_ERROR_FILE_TOO_BIG, /**< Failed to write file since it is too big */
- EET_ERROR_WRITE_ERROR_IO_ERROR, /**< Failed to write since generic Input/Output error */
- EET_ERROR_WRITE_ERROR_OUT_OF_SPACE, /**< Failed to write due out of space */
- EET_ERROR_WRITE_ERROR_FILE_CLOSED, /**< Failed to write because file was closed */
- EET_ERROR_MMAP_FAILED, /**< Could not mmap file */
- EET_ERROR_X509_ENCODING_FAILED, /**< Could not encode using X509 */
- EET_ERROR_SIGNATURE_FAILED, /**< Could not validate signature */
- EET_ERROR_INVALID_SIGNATURE, /**< Signature is invalid */
- EET_ERROR_NOT_SIGNED, /**< File or contents are not signed */
- EET_ERROR_NOT_IMPLEMENTED, /**< Function is not implemented */
- EET_ERROR_PRNG_NOT_SEEDED, /**< Could not introduce random seed */
- EET_ERROR_ENCRYPT_FAILED, /**< Could not encrypt contents */
- EET_ERROR_DECRYPT_FAILED /**< Could not decrypt contents */
- } Eet_Error; /**< Eet error identifiers */
-
- /**
- * @}
- */
-
- /**
- * Initialize the EET library.
- *
- * @return The new init count.
- *
- * @since 1.0.0
- * @ingroup Eet_Group
- */
- EAPI int eet_init(void);
-
- /**
- * Shut down the EET library.
- *
- * @return The new init count.
- *
- * @since 1.0.0
- * @ingroup Eet_Group
- */
- EAPI int eet_shutdown(void);
-
- /**
- * Clear eet cache
- *
- * Eet didn't free items by default. If you are under memory
- * presure, just call this function to recall all memory that are
- * not yet referenced anymore. The cache take care of modification
- * on disk.
- *
- * @since 1.0.0
- * @ingroup Eet_Group
- */
- EAPI void eet_clearcache(void);
-
-
- /**
- * @defgroup Eet_File_Group Eet File Main Functions
- *
- * Functions to create, destroy and do basic manipulation of
- * #Eet_File handles.
- *
- * @{
- */
-
- /**
- * @enum _Eet_File_Mode
- * Modes that a file can be opened.
- */
- typedef enum _Eet_File_Mode
- {
- EET_FILE_MODE_INVALID = -1,
- EET_FILE_MODE_READ, /**< File is read-only. */
- EET_FILE_MODE_WRITE, /**< File is write-only. */
- EET_FILE_MODE_READ_WRITE /**< File is for both read and write */
- } Eet_File_Mode; /**< Modes that a file can be opened. */
-
- /**
- * @typedef Eet_File
- * Opaque handle that defines an Eet file (or memory).
- *
- * @see eet_open()
- * @see eet_memopen_read()
- * @see eet_close()
- */
- typedef struct _Eet_File Eet_File;
-
- /**
- * @typedef Eet_Dictionary
- * Opaque handle that defines a file-backed (mmaped) dictionary of strings.
- */
- typedef struct _Eet_Dictionary Eet_Dictionary;
-
-
- /**
- * @}
- */
-
- /**
- * Open an eet file on disk, and returns a handle to it.
- * @param file The file path to the eet file. eg: @c "/tmp/file.eet".
- * @param mode The mode for opening. Either #EET_FILE_MODE_READ,
- * #EET_FILE_MODE_WRITE or #EET_FILE_MODE_READ_WRITE.
- * @return An opened eet file handle.
- * @ingroup Eet_File_Group
- *
- * This function will open an exiting eet file for reading, and build
- * the directory table in memory and return a handle to the file, if it
- * exists and can be read, and no memory errors occur on the way, otherwise
- * NULL will be returned.
- *
- * It will also open an eet file for writing. This will, if successful,
- * delete the original file and replace it with a new empty file, till
- * the eet file handle is closed or flushed. If it cannot be opened for
- * writing or a memory error occurs, NULL is returned.
- *
- * You can also open the file for read/write. If you then write a key that
- * does not exist it will be created, if the key exists it will be replaced
- * by the new data.
- *
- * Example:
- * @code
- * #include <Eet.h>
- * #include <stdio.h>
- * #include <string.h>
- *
- * int
- * main(int argc, char **argv)
- * {
- * Eet_File *ef;
- * char buf[1024], *ret, **list;
- * int size, num, i;
- *
- * eet_init();
- *
- * strcpy(buf, "Here is a string of data to save!");
- *
- * ef = eet_open("/tmp/my_file.eet", EET_FILE_MODE_WRITE);
- * if (!ef) return -1;
- * if (!eet_write(ef, "/key/to_store/at", buf, 1024, 1))
- * fprintf(stderr, "Error writing data!\n");
- * eet_close(ef);
- *
- * ef = eet_open("/tmp/my_file.eet", EET_FILE_MODE_READ);
- * if (!ef) return -1;
- * list = eet_list(ef, "*", &num);
- * if (list)
- * {
- * for (i = 0; i < num; i++)
- * printf("Key stored: %s\n", list[i]);
- * free(list);
- * }
- * ret = eet_read(ef, "/key/to_store/at", &size);
- * if (ret)
- * {
- * printf("Data read (%i bytes):\n%s\n", size, ret);
- * free(ret);
- * }
- * eet_close(ef);
- *
- * eet_shutdown();
- *
- * return 0;
- * }
- * @endcode
- *
- * @since 1.0.0
- */
- EAPI Eet_File *eet_open(const char *file, Eet_File_Mode mode);
-
- /**
- * Open an eet file directly from a memory location. The data are not copied,
- * so you must keep them around as long as the eet file is open. Their is
- * currently no cache for this kind of Eet_File, so it's reopen every time
- * you do use eet_memopen_read.
- *
- * @since 1.1.0
- * @ingroup Eet_File_Group
- */
- EAPI Eet_File *eet_memopen_read(const void *data, size_t size);
-
- /**
- * Get the mode an Eet_File was opened with.
- * @param ef A valid eet file handle.
- * @return The mode ef was opened with.
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI Eet_File_Mode eet_mode_get(Eet_File *ef);
-
- /**
- * Close an eet file handle and flush and writes pending.
- * @param ef A valid eet file handle.
- *
- * This function will flush any pending writes to disk if the eet file
- * was opened for write, and free all data associated with the file handle
- * and file, and close the file.
- *
- * If the eet file handle is not valid nothing will be done.
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI Eet_Error eet_close(Eet_File *ef);
-
- /**
- * Sync content of an eet file handle, flushing pending writes.
- * @param ef A valid eet file handle.
- *
- * This function will flush any pending writes to disk. The eet file must
- * be opened for write.
- *
- * If the eet file handle is not valid nothing will be done.
- *
- * @since 1.2.4
- * @ingroup Eet_File_Group
- */
- EAPI Eet_Error eet_sync(Eet_File *ef);
-
- /**
- * Return a handle to the shared string dictionary of the Eet file
- * @param ef A valid eet file handle.
- * @return A handle to the dictionary of the file
- *
- * This function returns a handle to the dictionary of an Eet file whose
- * handle is @p ef, if a dictionary exists. NULL is returned otherwise or
- * if the file handle is known to be invalid.
- *
- * @see eet_dictionary_string_check() to know if given string came
- * from the dictionary or it was dynamically allocated using
- * the #Eet_Data_Descriptor_Class instructrions.
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI Eet_Dictionary *eet_dictionary_get(Eet_File *ef);
-
- /**
- * Check if a given string comes from a given dictionary
- * @param ed A valid dictionary handle
- * @param string A valid 0 byte terminated C string
- * @return 1 if it is in the dictionary, 0 otherwise
- *
- * This checks the given dictionary to see if the given string is actually
- * inside that dictionary (i.e. comes from it) and returns 1 if it does.
- * If the dictionary handle is invlide, the string is NULL or the string is
- * not in the dictionary, 0 is returned.
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI int eet_dictionary_string_check(Eet_Dictionary *ed, const char *string);
-
- /**
- * Read a specified entry from an eet file and return data
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param size_ret Number of bytes read from entry and returned.
- * @return The data stored in that entry in the eet file.
- *
- * This function finds an entry in the eet file that is stored under the
- * name specified, and returns that data, decompressed, if successful.
- * NULL is returned if the lookup fails or if memory errors are
- * encountered. It is the job of the calling program to call free() on
- * the returned data. The number of bytes in the returned data chunk are
- * placed in size_ret.
- *
- * If the eet file handle is not valid NULL is returned and size_ret is
- * filled with 0.
- *
- * @see eet_read_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI void *eet_read(Eet_File *ef, const char *name, int *size_ret);
-
- /**
- * Read a specified entry from an eet file and return data
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param size_ret Number of bytes read from entry and returned.
- * @return The data stored in that entry in the eet file.
- *
- * This function finds an entry in the eet file that is stored under the
- * name specified, and returns that data if not compressed and successful.
- * NULL is returned if the lookup fails or if memory errors are
- * encountered or if the data is comrpessed. The calling program must never
- * call free() on the returned data. The number of bytes in the returned
- * data chunk are placed in size_ret.
- *
- * If the eet file handle is not valid NULL is returned and size_ret is
- * filled with 0.
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI const void *eet_read_direct(Eet_File *ef, const char *name, int *size_ret);
-
- /**
- * Write a specified entry to an eet file handle
- * @param ef A valid eet file handle opened for writing.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param data Pointer to the data to be stored.
- * @param size Length in bytes in the data to be stored.
- * @param compress Compression flags (1 == compress, 0 = don't compress).
- * @return bytes written on successful write, 0 on failure.
- *
- * This function will write the specified chunk of data to the eet file
- * and return greater than 0 on success. 0 will be returned on failure.
- *
- * The eet file handle must be a valid file handle for an eet file opened
- * for writing. If it is not, 0 will be returned and no action will be
- * performed.
- *
- * Name, and data must not be NULL, and size must be > 0. If these
- * conditions are not met, 0 will be returned.
- *
- * The data will be copied (and optionally compressed) in ram, pending
- * a flush to disk (it will stay in ram till the eet file handle is
- * closed though).
- *
- * @see eet_write_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI int eet_write(Eet_File *ef, const char *name, const void *data, int size, int compress);
-
- /**
- * Delete a specified entry from an Eet file being written or re-written
- * @param ef A valid eet file handle opened for writing.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @return Success or failure of the delete.
- *
- * This function will delete the specified chunk of data from the eet file
- * and return greater than 0 on success. 0 will be returned on failure.
- *
- * The eet file handle must be a valid file handle for an eet file opened
- * for writing. If it is not, 0 will be returned and no action will be
- * performed.
- *
- * Name, must not be NULL, otherwise 0 will be returned.
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI int eet_delete(Eet_File *ef, const char *name);
-
- /**
- * Alias a specific section to another one. Destination may exist or not,
- * no check are done.
- * @param ef A valid eet file handle opened for writing.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param destination Destionation of the alias. eg: "/base/the_real_stuff_i_want".
- * @param compress Compression flags (1 == compress, 0 = don't compress).
- * @return EINA_TRUE on success, EINA_FALSE on failure.
- *
- * Name and Destination must not be NULL, otherwhise EINA_FALSE will be returned.
- *
- * @since 1.3.3
- * @ingroup Eet_File_Group
- */
- EAPI Eina_Bool eet_alias(Eet_File *ef, const char *name, const char *destination, int compress);
-
-
- /**
- * List all entries in eet file matching shell glob.
- * @param ef A valid eet file handle.
- * @param glob A shell glob to match against.
- * @param count_ret Number of entries found to match.
- * @return Pointer to an array of strings.
- *
- * This function will list all entries in the eet file matching the
- * supplied shell glob and return an allocated list of their names, if
- * there are any, and if no memory errors occur.
- *
- * The eet file handle must be valid and glob must not be NULL, or NULL
- * will be returned and count_ret will be filled with 0.
- *
- * The calling program must call free() on the array returned, but NOT
- * on the string pointers in the array. They are taken as read-only
- * internals from the eet file handle. They are only valid as long as
- * the file handle is not closed. When it is closed those pointers in the
- * array are now not valid and should not be used.
- *
- * On success the array returned will have a list of string pointers
- * that are the names of the entries that matched, and count_ret will have
- * the number of entries in this array placed in it.
- *
- * Hint: an easy way to list all entries in an eet file is to use a glob
- * value of "*".
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI char **eet_list(Eet_File *ef, const char *glob, int *count_ret);
-
- /**
- * Return the number of entries in the specified eet file.
- * @param ef A valid eet file handle.
- * @return Number of entries in ef or -1 if the number of entries
- * cannot be read due to open mode restrictions.
- *
- * @since 1.0.0
- * @ingroup Eet_File_Group
- */
- EAPI int eet_num_entries(Eet_File *ef);
-
- /**
- * @defgroup Eet_File_Cipher_Group Eet File Ciphered Main Functions
- *
- * Most of the @ref Eet_File_Group have alternative versions that
- * accounts for ciphers to protect their content.
- *
- * @see @ref Eet_Cipher_Group
- *
- * @ingroup Eet_File_Group
- */
-
- /**
- * Read a specified entry from an eet file and return data using a cipher.
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param size_ret Number of bytes read from entry and returned.
- * @param cipher_key The key to use as cipher.
- * @return The data stored in that entry in the eet file.
- *
- * This function finds an entry in the eet file that is stored under the
- * name specified, and returns that data, decompressed, if successful.
- * NULL is returned if the lookup fails or if memory errors are
- * encountered. It is the job of the calling program to call free() on
- * the returned data. The number of bytes in the returned data chunk are
- * placed in size_ret.
- *
- * If the eet file handle is not valid NULL is returned and size_ret is
- * filled with 0.
- *
- * @see eet_read()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Cipher_Group
- */
- EAPI void *eet_read_cipher(Eet_File *ef, const char *name, int *size_ret, const char *cipher_key);
-
- /**
- * Write a specified entry to an eet file handle using a cipher.
- * @param ef A valid eet file handle opened for writing.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param data Pointer to the data to be stored.
- * @param size Length in bytes in the data to be stored.
- * @param compress Compression flags (1 == compress, 0 = don't compress).
- * @param cipher_key The key to use as cipher.
- * @return bytes written on successful write, 0 on failure.
- *
- * This function will write the specified chunk of data to the eet file
- * and return greater than 0 on success. 0 will be returned on failure.
- *
- * The eet file handle must be a valid file handle for an eet file opened
- * for writing. If it is not, 0 will be returned and no action will be
- * performed.
- *
- * Name, and data must not be NULL, and size must be > 0. If these
- * conditions are not met, 0 will be returned.
- *
- * The data will be copied (and optionally compressed) in ram, pending
- * a flush to disk (it will stay in ram till the eet file handle is
- * closed though).
- *
- * @see eet_write()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Cipher_Group
- */
- EAPI int eet_write_cipher(Eet_File *ef, const char *name, const void *data, int size, int compress, const char *cipher_key);
-
-
- /**
- * @defgroup Eet_File_Image_Group Image Store and Load
- *
- * Eet efficiently stores and loads images, including alpha
- * channels and lossy compressions.
- */
-
- /**
- * Read just the header data for an image and dont decode the pixels.
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param w A pointer to the unsigned int to hold the width in pixels.
- * @param h A pointer to the unsigned int to hold the height in pixels.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return 1 on successfull decode, 0 otherwise
- *
- * This function reads an image from an eet file stored under the named
- * key in the eet file and return a pointer to the decompressed pixel data.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pile is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns 1 indicating the header was read and
- * decoded properly, or 0 on failure.
- *
- * @see eet_data_image_header_read_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Group
- */
- EAPI int eet_data_image_header_read(Eet_File *ef, const char *name, unsigned int *w, unsigned int *h, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Read image data from the named key in the eet file.
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param w A pointer to the unsigned int to hold the width in pixels.
- * @param h A pointer to the unsigned int to hold the height in pixels.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return The image pixel data decoded
- *
- * This function reads an image from an eet file stored under the named
- * key in the eet file and return a pointer to the decompressed pixel data.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pile is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns a pointer to the image data decoded. The
- * calling application is responsible for calling free() on the image data
- * when it is done with it. On failure NULL is returned and the parameter
- * values may not contain any sensible data.
- *
- * @see eet_data_image_read_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Group
- */
- EAPI void *eet_data_image_read(Eet_File *ef, const char *name, unsigned int *w, unsigned int *h, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Read image data from the named key in the eet file.
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param src_x The starting x coordinate from where to dump the stream.
- * @param src_y The starting y coordinate from where to dump the stream.
- * @param d A pointer to the pixel surface.
- * @param w The expected width in pixels of the pixel surface to decode.
- * @param h The expected height in pixels of the pixel surface to decode.
- * @param row_stride The length of a pixels line in the destination surface.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return 1 on success, 0 otherwise.
- *
- * This function reads an image from an eet file stored under the named
- * key in the eet file and return a pointer to the decompressed pixel data.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pile is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns 1, and 0 on failure. On failure the
- * parameter values may not contain any sensible data.
- *
- * @see eet_data_image_read_to_surface_cipher()
- *
- * @since 1.0.2
- * @ingroup Eet_File_Image_Group
- */
- EAPI int eet_data_image_read_to_surface(Eet_File *ef, const char *name, unsigned int src_x, unsigned int src_y, unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Write image data to the named key in an eet file.
- * @param ef A valid eet file handle opened for writing.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param data A pointer to the image pixel data.
- * @param w The width of the image in pixels.
- * @param h The height of the image in pixels.
- * @param alpha The alpha channel flag.
- * @param compress The compression amount.
- * @param quality The quality encoding amount.
- * @param lossy The lossiness flag.
- * @return Success if the data was encoded and written or not.
- *
- * This function takes image pixel data and encodes it in an eet file
- * stored under the supplied name key, and returns how many bytes were
- * actually written to encode the image data.
- *
- * The data expected is the same format as returned by eet_data_image_read.
- * If this is not the case weird things may happen. Width and height must
- * be between 1 and 8000 pixels. The alpha flags can be 0 or 1 (0 meaning
- * the alpha values are not useful and 1 meaning they are). Compress can
- * be from 0 to 9 (0 meaning no compression, 9 meaning full compression).
- * This is only used if the image is not lossily encoded. Quality is used on
- * lossy compression and should be a value from 0 to 100. The lossy flag
- * can be 0 or 1. 0 means encode losslessly and 1 means to encode with
- * image quality loss (but then have a much smaller encoding).
- *
- * On success this function returns the number of bytes that were required
- * to encode the image data, or on failure it returns 0.
- *
- * @see eet_data_image_write_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Group
- */
- EAPI int eet_data_image_write(Eet_File *ef, const char *name, const void *data, unsigned int w, unsigned int h, int alpha, int compress, int quality, int lossy);
-
- /**
- * Decode Image data header only to get information.
- * @param data The encoded pixel data.
- * @param size The size, in bytes, of the encoded pixel data.
- * @param w A pointer to the unsigned int to hold the width in pixels.
- * @param h A pointer to the unsigned int to hold the height in pixels.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return 1 on success, 0 on failure.
- *
- * This function takes encoded pixel data and decodes it into raw RGBA
- * pixels on success.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pixel is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns 1 indicating the header was read and
- * decoded properly, or 0 on failure.
- *
- * @see eet_data_image_header_decode_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Group
- */
- EAPI int eet_data_image_header_decode(const void *data, int size, unsigned int *w, unsigned int *h, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Decode Image data into pixel data.
- * @param data The encoded pixel data.
- * @param size The size, in bytes, of the encoded pixel data.
- * @param w A pointer to the unsigned int to hold the width in pixels.
- * @param h A pointer to the unsigned int to hold the height in pixels.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return The image pixel data decoded
- *
- * This function takes encoded pixel data and decodes it into raw RGBA
- * pixels on success.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pixel is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns a pointer to the image data decoded. The
- * calling application is responsible for calling free() on the image data
- * when it is done with it. On failure NULL is returned and the parameter
- * values may not contain any sensible data.
- *
- * @see eet_data_image_decode_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Group
- */
- EAPI void *eet_data_image_decode(const void *data, int size, unsigned int *w, unsigned int *h, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Decode Image data into pixel data.
- * @param data The encoded pixel data.
- * @param size The size, in bytes, of the encoded pixel data.
- * @param src_x The starting x coordinate from where to dump the stream.
- * @param src_y The starting y coordinate from where to dump the stream.
- * @param d A pointer to the pixel surface.
- * @param w The expected width in pixels of the pixel surface to decode.
- * @param h The expected height in pixels of the pixel surface to decode.
- * @param row_stride The length of a pixels line in the destination surface.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return 1 on success, 0 otherwise.
- *
- * This function takes encoded pixel data and decodes it into raw RGBA
- * pixels on success.
- *
- * The other parameters of the image (alpha, compress etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pixel is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns 1, and 0 on failure. On failure the
- * parameter values may not contain any sensible data.
- *
- * @see eet_data_image_decode_to_surface_cipher()
- *
- * @since 1.0.2
- * @ingroup Eet_File_Image_Group
- */
- EAPI int eet_data_image_decode_to_surface(const void *data, int size, unsigned int src_x, unsigned int src_y, unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Encode image data for storage or transmission.
- * @param data A pointer to the image pixel data.
- * @param size_ret A pointer to an int to hold the size of the returned data.
- * @param w The width of the image in pixels.
- * @param h The height of the image in pixels.
- * @param alpha The alpha channel flag.
- * @param compress The compression amount.
- * @param quality The quality encoding amount.
- * @param lossy The lossiness flag.
- * @return The encoded image data.
- *
- * This function stakes image pixel data and encodes it with compression and
- * possible loss of quality (as a trade off for size) for storage or
- * transmission to another system.
- *
- * The data expected is the same format as returned by eet_data_image_read.
- * If this is not the case weird things may happen. Width and height must
- * be between 1 and 8000 pixels. The alpha flags can be 0 or 1 (0 meaning
- * the alpha values are not useful and 1 meaning they are). Compress can
- * be from 0 to 9 (0 meaning no compression, 9 meaning full compression).
- * This is only used if the image is not lossily encoded. Quality is used on
- * lossy compression and should be a value from 0 to 100. The lossy flag
- * can be 0 or 1. 0 means encode losslessly and 1 means to encode with
- * image quality loss (but then have a much smaller encoding).
- *
- * On success this function returns a pointer to the encoded data that you
- * can free with free() when no longer needed.
- *
- * @see eet_data_image_encode_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Group
- */
- EAPI void *eet_data_image_encode(const void *data, int *size_ret, unsigned int w, unsigned int h, int alpha, int compress, int quality, int lossy);
-
- /**
- * @defgroup Eet_File_Image_Cipher_Group Image Store and Load using a Cipher
- *
- * Most of the @ref Eet_File_Image_Group have alternative versions
- * that accounts for ciphers to protect their content.
- *
- * @see @ref Eet_Cipher_Group
- *
- * @ingroup Eet_File_Image_Group
- */
-
- /**
- * Read just the header data for an image and dont decode the pixels using a cipher.
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param cipher_key The key to use as cipher.
- * @param w A pointer to the unsigned int to hold the width in pixels.
- * @param h A pointer to the unsigned int to hold the height in pixels.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return 1 on successfull decode, 0 otherwise
- *
- * This function reads an image from an eet file stored under the named
- * key in the eet file and return a pointer to the decompressed pixel data.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pile is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns 1 indicating the header was read and
- * decoded properly, or 0 on failure.
- *
- * @see eet_data_image_header_read()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Cipher_Group
- */
- EAPI int eet_data_image_header_read_cipher(Eet_File *ef, const char *name, const char *cipher_key, unsigned int *w, unsigned int *h, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Read image data from the named key in the eet file using a cipher.
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param cipher_key The key to use as cipher.
- * @param w A pointer to the unsigned int to hold the width in pixels.
- * @param h A pointer to the unsigned int to hold the height in pixels.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return The image pixel data decoded
- *
- * This function reads an image from an eet file stored under the named
- * key in the eet file and return a pointer to the decompressed pixel data.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pile is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns a pointer to the image data decoded. The
- * calling application is responsible for calling free() on the image data
- * when it is done with it. On failure NULL is returned and the parameter
- * values may not contain any sensible data.
- *
- * @see eet_data_image_read()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Cipher_Group
- */
- EAPI void *eet_data_image_read_cipher(Eet_File *ef, const char *name, const char *cipher_key, unsigned int *w, unsigned int *h, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Read image data from the named key in the eet file using a cipher.
- * @param ef A valid eet file handle opened for reading.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param cipher_key The key to use as cipher.
- * @param src_x The starting x coordinate from where to dump the stream.
- * @param src_y The starting y coordinate from where to dump the stream.
- * @param d A pointer to the pixel surface.
- * @param w The expected width in pixels of the pixel surface to decode.
- * @param h The expected height in pixels of the pixel surface to decode.
- * @param row_stride The length of a pixels line in the destination surface.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return 1 on success, 0 otherwise.
- *
- * This function reads an image from an eet file stored under the named
- * key in the eet file and return a pointer to the decompressed pixel data.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pile is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns 1, and 0 on failure. On failure the
- * parameter values may not contain any sensible data.
- *
- * @see eet_data_image_read_to_surface()
- *
- * @since 1.0.2
- * @ingroup Eet_File_Image_Cipher_Group
- */
- EAPI int eet_data_image_read_to_surface_cipher(Eet_File *ef, const char *name, const char *cipher_key, unsigned int src_x, unsigned int src_y, unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Write image data to the named key in an eet file using a cipher.
- * @param ef A valid eet file handle opened for writing.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param cipher_key The key to use as cipher.
- * @param data A pointer to the image pixel data.
- * @param w The width of the image in pixels.
- * @param h The height of the image in pixels.
- * @param alpha The alpha channel flag.
- * @param compress The compression amount.
- * @param quality The quality encoding amount.
- * @param lossy The lossiness flag.
- * @return Success if the data was encoded and written or not.
- *
- * This function takes image pixel data and encodes it in an eet file
- * stored under the supplied name key, and returns how many bytes were
- * actually written to encode the image data.
- *
- * The data expected is the same format as returned by eet_data_image_read.
- * If this is not the case weird things may happen. Width and height must
- * be between 1 and 8000 pixels. The alpha flags can be 0 or 1 (0 meaning
- * the alpha values are not useful and 1 meaning they are). Compress can
- * be from 0 to 9 (0 meaning no compression, 9 meaning full compression).
- * This is only used if the image is not lossily encoded. Quality is used on
- * lossy compression and should be a value from 0 to 100. The lossy flag
- * can be 0 or 1. 0 means encode losslessly and 1 means to encode with
- * image quality loss (but then have a much smaller encoding).
- *
- * On success this function returns the number of bytes that were required
- * to encode the image data, or on failure it returns 0.
- *
- * @see eet_data_image_write()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Cipher_Group
- */
- EAPI int eet_data_image_write_cipher(Eet_File *ef, const char *name, const char *cipher_key, const void *data, unsigned int w, unsigned int h, int alpha, int compress, int quality, int lossy);
-
-
- /**
- * Decode Image data header only to get information using a cipher.
- * @param data The encoded pixel data.
- * @param cipher_key The key to use as cipher.
- * @param size The size, in bytes, of the encoded pixel data.
- * @param w A pointer to the unsigned int to hold the width in pixels.
- * @param h A pointer to the unsigned int to hold the height in pixels.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return 1 on success, 0 on failure.
- *
- * This function takes encoded pixel data and decodes it into raw RGBA
- * pixels on success.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pixel is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns 1 indicating the header was read and
- * decoded properly, or 0 on failure.
- *
- * @see eet_data_image_header_decode()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Cipher_Group
- */
- EAPI int eet_data_image_header_decode_cipher(const void *data, const char *cipher_key, int size, unsigned int *w, unsigned int *h, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Decode Image data into pixel data using a cipher.
- * @param data The encoded pixel data.
- * @param cipher_key The key to use as cipher.
- * @param size The size, in bytes, of the encoded pixel data.
- * @param w A pointer to the unsigned int to hold the width in pixels.
- * @param h A pointer to the unsigned int to hold the height in pixels.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return The image pixel data decoded
- *
- * This function takes encoded pixel data and decodes it into raw RGBA
- * pixels on success.
- *
- * The other parameters of the image (width, height etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pixel is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns a pointer to the image data decoded. The
- * calling application is responsible for calling free() on the image data
- * when it is done with it. On failure NULL is returned and the parameter
- * values may not contain any sensible data.
- *
- * @see eet_data_image_decode()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Cipher_Group
- */
- EAPI void *eet_data_image_decode_cipher(const void *data, const char *cipher_key, int size, unsigned int *w, unsigned int *h, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Decode Image data into pixel data using a cipher.
- * @param data The encoded pixel data.
- * @param cipher_key The key to use as cipher.
- * @param size The size, in bytes, of the encoded pixel data.
- * @param src_x The starting x coordinate from where to dump the stream.
- * @param src_y The starting y coordinate from where to dump the stream.
- * @param d A pointer to the pixel surface.
- * @param w The expected width in pixels of the pixel surface to decode.
- * @param h The expected height in pixels of the pixel surface to decode.
- * @param row_stride The length of a pixels line in the destination surface.
- * @param alpha A pointer to the int to hold the alpha flag.
- * @param compress A pointer to the int to hold the compression amount.
- * @param quality A pointer to the int to hold the quality amount.
- * @param lossy A pointer to the int to hold the lossiness flag.
- * @return 1 on success, 0 otherwise.
- *
- * This function takes encoded pixel data and decodes it into raw RGBA
- * pixels on success.
- *
- * The other parameters of the image (alpha, compress etc.) are placed into
- * the values pointed to (they must be supplied). The pixel data is a linear
- * array of pixels starting from the top-left of the image scanning row by
- * row from left to right. Each pixel is a 32bit value, with the high byte
- * being the alpha channel, the next being red, then green, and the low byte
- * being blue. The width and height are measured in pixels and will be
- * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
- * that the alpha channel is not used. 1 denotes that it is significant.
- * Compress is filled with the compression value/amount the image was
- * stored with. The quality value is filled with the quality encoding of
- * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
- * the image was encoded lossily or not.
- *
- * On success the function returns 1, and 0 on failure. On failure the
- * parameter values may not contain any sensible data.
- *
- * @see eet_data_image_decode_to_surface()
- *
- * @since 1.0.2
- * @ingroup Eet_File_Image_Cipher_Group
- */
- EAPI int eet_data_image_decode_to_surface_cipher(const void *data, const char *cipher_key, int size, unsigned int src_x, unsigned int src_y, unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride, int *alpha, int *compress, int *quality, int *lossy);
-
- /**
- * Encode image data for storage or transmission using a cipher.
- * @param data A pointer to the image pixel data.
- * @param cipher_key The key to use as cipher.
- * @param size_ret A pointer to an int to hold the size of the returned data.
- * @param w The width of the image in pixels.
- * @param h The height of the image in pixels.
- * @param alpha The alpha channel flag.
- * @param compress The compression amount.
- * @param quality The quality encoding amount.
- * @param lossy The lossiness flag.
- * @return The encoded image data.
- *
- * This function stakes image pixel data and encodes it with compression and
- * possible loss of quality (as a trade off for size) for storage or
- * transmission to another system.
- *
- * The data expected is the same format as returned by eet_data_image_read.
- * If this is not the case weird things may happen. Width and height must
- * be between 1 and 8000 pixels. The alpha flags can be 0 or 1 (0 meaning
- * the alpha values are not useful and 1 meaning they are). Compress can
- * be from 0 to 9 (0 meaning no compression, 9 meaning full compression).
- * This is only used if the image is not lossily encoded. Quality is used on
- * lossy compression and should be a value from 0 to 100. The lossy flag
- * can be 0 or 1. 0 means encode losslessly and 1 means to encode with
- * image quality loss (but then have a much smaller encoding).
- *
- * On success this function returns a pointer to the encoded data that you
- * can free with free() when no longer needed.
- *
- * @see eet_data_image_encode()
- *
- * @since 1.0.0
- * @ingroup Eet_File_Image_Cipher_Group
- */
- EAPI void *eet_data_image_encode_cipher(const void *data, const char *cipher_key, unsigned int w, unsigned int h, int alpha, int compress, int quality, int lossy, int *size_ret);
-
-
- /**
- * @defgroup Eet_Cipher_Group Cipher, Identity and Protection Mechanisms
- *
- * Eet allows one to protect entries of an #Eet_File
- * individually. This may be used to ensure data was not tampered or
- * that third party does not read your data.
- *
- * @see @ref Eet_File_Cipher_Group
- * @see @ref Eet_File_Image_Cipher_Group
- *
- * @{
- */
-
- /**
- * @typedef Eet_Key
- * Opaque handle that defines an identity (also known as key)
- * in Eet's cipher system.
- */
- typedef struct _Eet_Key Eet_Key;
-
- /**
- * @}
- */
-
-
- /**
- * Callback used to request if needed the password of a private key.
- *
- * @param buffer the buffer where to store the password.
- * @param size the maximum password size (size of buffer, including '@\0').
- * @param rwflag if the buffer is also readable or just writable.
- * @param data currently unused, may contain some context in future.
- * @return 1 on success and password was set to @p buffer, 0 on failure.
- *
- * @since 1.2.0
- * @ingroup Eet_Cipher_Group
- */
- typedef int (*Eet_Key_Password_Callback)(char *buffer, int size, int rwflag, void *data);
-
- /**
- * Create an Eet_Key needed for signing an eet file.
- *
- * The certificate should provide the public that match the private key.
- * No verification is done to ensure that.
- *
- * @param certificate_file The file where to find the certificate.
- * @param private_key_file The file that contains the private key.
- * @param cb Function to callback if password is required to unlock
- * private key.
- * @return A key handle to use, or @c NULL on failure.
- *
- * @see eet_identity_close()
- *
- * @since 1.2.0
- * @ingroup Eet_Cipher_Group
- */
- EAPI Eet_Key* eet_identity_open(const char *certificate_file, const char *private_key_file, Eet_Key_Password_Callback cb);
-
- /**
- * Close and release all ressource used by an Eet_Key. An
- * reference counter prevent it from being freed until all file
- * using it are also closed.
- *
- * @param key the key handle to close and free resources.
- *
- * @since 1.2.0
- * @ingroup Eet_Cipher_Group
- */
- EAPI void eet_identity_close(Eet_Key *key);
-
- /**
- * Set a key to sign a file
- *
- * @param ef the file to set the identity.
- * @param key the key handle to set as identity.
- * @return #EET_ERROR_BAD_OBJECT if @p ef is invalid or
- * #EET_ERROR_NONE on success.
- *
- * @since 1.2.0
- * @ingroup Eet_Cipher_Group
- */
- EAPI Eet_Error eet_identity_set(Eet_File *ef, Eet_Key *key);
-
- /**
- * Display both private and public key of an Eet_Key.
- *
- * @param key the handle to print.
- * @param out where to print.
- *
- * @since 1.2.0
- * @ingroup Eet_Cipher_Group
- */
- EAPI void eet_identity_print(Eet_Key *key, FILE *out);
-
- /**
- * Get the x509 der certificate associated with an Eet_File. Will return NULL
- * if the file is not signed.
- *
- * @param ef The file handle to query.
- * @param der_length The length of returned data, may be @c NULL.
- * @return the x509 certificate or @c NULL on error.
- *
- * @since 1.2.0
- * @ingroup Eet_Cipher_Group
- */
- EAPI const void *eet_identity_x509(Eet_File *ef, int *der_length);
-
- /**
- * Get the raw signature associated with an Eet_File. Will return NULL
- * if the file is not signed.
- *
- * @param ef The file handle to query.
- * @param signature_length The length of returned data, may be @c NULL.
- * @return the raw signature or @c NULL on error.
- *
- * @ingroup Eet_Cipher_Group
- */
- EAPI const void *eet_identity_signature(Eet_File *ef, int *signature_length);
-
- /**
- * Get the SHA1 associated with a file. Could be the one used to
- * sign the data or if the data where not signed, it will be the
- * SHA1 of the file.
- *
- * @param ef The file handle to query.
- * @param sha1_length The length of returned data, may be @c NULL.
- * @return the associated SHA1 or @c NULL on error.
- *
- * @since 1.2.0
- * @ingroup Eet_Cipher_Group
- */
- EAPI const void *eet_identity_sha1(Eet_File *ef, int *sha1_length);
-
- /**
- * Display the x509 der certificate to out.
- *
- * @param certificate the x509 certificate to print
- * @param der_length The length the certificate.
- * @param out where to print.
- *
- * @since 1.2.0
- * @ingroup Eet_Cipher_Group
- */
- EAPI void eet_identity_certificate_print(const unsigned char *certificate, int der_length, FILE *out);
-
-
- /**
- * @defgroup Eet_Data_Group Eet Data Serialization
- *
- * Convenience functions to serialize and parse complex data
- * structures to binary blobs.
- *
- * While Eet core just handles binary blobs, it is often required
- * to save some structured data of different types, such as
- * strings, integers, lists, hashes and so on.
- *
- * Eet can serialize and then parse data types given some
- * construction instructions. These are defined in two levels:
- *
- * - #Eet_Data_Descriptor_Class to tell generic memory handling,
- * such as the size of the type, how to allocate memory, strings,
- * lists, hashes and so on.
- *
- * - #Eet_Data_Descriptor to tell inside such type, the members and
- * their offsets inside the memory blob, their types and
- * names. These members can be simple types or other
- * #Eet_Data_Descriptor, allowing hierarchical types to be
- * defined.
- *
- * Given that C provides no introspection, this process can be
- * quite cumbersome, so we provide lots of macros and convenience
- * functions to aid creating the types.
- *
- * Example:
- *
- * @code
- * #include <Eet.h>
- * #include <Evas.h>
- *
- * typedef struct _blah2
- * {
- * char *string;
- * } Blah2;
- *
- * typedef struct _blah3
- * {
- * char *string;
- * } Blah3;
- *
- * typedef struct _blah
- * {
- * char character;
- * short sixteen;
- * int integer;
- * long long lots;
- * float floating;
- * double floating_lots;
- * char *string;
- * Blah2 *blah2;
- * Eina_List *blah3;
- * } Blah;
- *
- * int
- * main(int argc, char **argv)
- * {
- * Blah blah;
- * Blah2 blah2;
- * Blah3 blah3;
- * Eet_Data_Descriptor *edd, *edd2, *edd3;
- * Eet_Data_Descriptor_Class eddc, eddc2, eddc3;
- * void *data;
- * int size;
- * FILE *f;
- * Blah *blah_in;
- *
- * eet_init();
- *
- * EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(&eddc3, Blah3);
- * edd3 = eet_data_descriptor_stream_new(&eddc3);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd3, Blah3, "string3", string, EET_T_STRING);
- *
- * EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(&eddc2, Blah2);
- * edd2 = eet_data_descriptor_stream_new(&eddc2);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd2, Blah2, "string2", string, EET_T_STRING);
- *
- * EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(&eddc, Blah);
- * edd = eet_data_descriptor_stream_new(&eddc);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "character", character, EET_T_CHAR);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "sixteen", sixteen, EET_T_SHORT);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "integer", integer, EET_T_INT);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "lots", lots, EET_T_LONG_LONG);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "floating", floating, EET_T_FLOAT);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "floating_lots", floating_lots, EET_T_DOUBLE);
- * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "string", string, EET_T_STRING);
- * EET_DATA_DESCRIPTOR_ADD_SUB(edd, Blah, "blah2", blah2, edd2);
- * EET_DATA_DESCRIPTOR_ADD_LIST(edd, Blah, "blah3", blah3, edd3);
- *
- * blah3.string = "PANTS";
- *
- * blah2.string = "subtype string here!";
- *
- * blah.character = '7';
- * blah.sixteen = 0x7777;
- * blah.integer = 0xc0def00d;
- * blah.lots = 0xdeadbeef31337777;
- * blah.floating = 3.141592654;
- * blah.floating_lots = 0.777777777777777;
- * blah.string = "bite me like a turnip";
- * blah.blah2 = &blah2;
- * blah.blah3 = eina_list_append(NULL, &blah3);
- * blah.blah3 = eina_list_append(blah.blah3, &blah3);
- * blah.blah3 = eina_list_append(blah.blah3, &blah3);
- * blah.blah3 = eina_list_append(blah.blah3, &blah3);
- * blah.blah3 = eina_list_append(blah.blah3, &blah3);
- * blah.blah3 = eina_list_append(blah.blah3, &blah3);
- * blah.blah3 = eina_list_append(blah.blah3, &blah3);
- *
- * data = eet_data_descriptor_encode(edd, &blah, &size);
- * printf("-----DECODING\n");
- * blah_in = eet_data_descriptor_decode(edd, data, size);
- *
- * printf("-----DECODED!\n");
- * printf("%c\n", blah_in->character);
- * printf("%x\n", (int)blah_in->sixteen);
- * printf("%x\n", blah_in->integer);
- * printf("%lx\n", blah_in->lots);
- * printf("%f\n", (double)blah_in->floating);
- * printf("%f\n", (double)blah_in->floating_lots);
- * printf("%s\n", blah_in->string);
- * printf("%p\n", blah_in->blah2);
- * printf(" %s\n", blah_in->blah2->string);
- * {
- * Eina_List *l;
- * Blah3 *blah3_in;
- *
- * EINA_LIST_FOREACH(blah_in->blah3, l, blah3_in)
- * {
- * printf("%p\n", blah3_in);
- * printf(" %s\n", blah3_in->string);
- * }
- * }
- * eet_data_descriptor_free(edd);
- * eet_data_descriptor_free(edd2);
- * eet_data_descriptor_free(edd3);
- *
- * eet_shutdown();
- *
- * return 0;
- * }
- * @endcode
- *
- * @{
- */
+/**
+ * @typedef Eet_Version
+ *
+ * This is the Eet version information structure that can be used at
+ * runtiime to detect which version of eet is being used and adapt
+ * appropriately as follows for example:
+ *
+ * @code
+ * #if defined(EET_VERSION_MAJOR) && (EET_VERSION_MAJOR >= 1) && defined(EET_VERSION_MINOR) && (EET_VERSION_MINOR > 2)
+ * printf("Eet version: %i.%i.%i\n",
+ * eet_version->major,
+ * eet_version->minor,
+ * eet_version->micro);
+ * if (eet_version->revision > 0)
+ * {
+ * printf(" Built from SVN revision # %i\n", eet_version->revision);
+ * }
+ * #endif
+ * @endcode
+ *
+ * Note the #if check can be dropped if your program refuses to compile or
+ * work with an Eet version less than 1.3.0.
+ */
+typedef struct _Eet_Version
+{
+ int major; /** < major (binary or source incompatible changes) */
+ int minor; /** < minor (new features, bugfixes, major improvements version) */
+ int micro; /** < micro (bugfix, internal improvements, no new features version) */
+ int revision; /** < svn revision (0 if a proper rlease or the svn revsion number Eet is built from) */
+} Eet_Version;
+
+EAPI extern Eet_Version *eet_version;
+
+/**
+ * @defgroup Eet_Group Top level functions
+ * Functions that affect Eet as a whole.
+ *
+ * @{
+ */
+
+/**
+ * @enum _Eet_Error
+ * All the error identifiers known by Eet.
+ */
+typedef enum _Eet_Error
+{
+ EET_ERROR_NONE, /**< No error, it's all fine! */
+ EET_ERROR_BAD_OBJECT, /**< Given object or handle is NULL or invalid */
+ EET_ERROR_EMPTY, /**< There was nothing to do */
+ EET_ERROR_NOT_WRITABLE, /**< Could not write to file or fine is #EET_FILE_MODE_READ */
+ EET_ERROR_OUT_OF_MEMORY, /**< Could not allocate memory */
+ EET_ERROR_WRITE_ERROR, /**< Failed to write data to destination */
+ EET_ERROR_WRITE_ERROR_FILE_TOO_BIG, /**< Failed to write file since it is too big */
+ EET_ERROR_WRITE_ERROR_IO_ERROR, /**< Failed to write since generic Input/Output error */
+ EET_ERROR_WRITE_ERROR_OUT_OF_SPACE, /**< Failed to write due out of space */
+ EET_ERROR_WRITE_ERROR_FILE_CLOSED, /**< Failed to write because file was closed */
+ EET_ERROR_MMAP_FAILED, /**< Could not mmap file */
+ EET_ERROR_X509_ENCODING_FAILED, /**< Could not encode using X509 */
+ EET_ERROR_SIGNATURE_FAILED, /**< Could not validate signature */
+ EET_ERROR_INVALID_SIGNATURE, /**< Signature is invalid */
+ EET_ERROR_NOT_SIGNED, /**< File or contents are not signed */
+ EET_ERROR_NOT_IMPLEMENTED, /**< Function is not implemented */
+ EET_ERROR_PRNG_NOT_SEEDED, /**< Could not introduce random seed */
+ EET_ERROR_ENCRYPT_FAILED, /**< Could not encrypt contents */
+ EET_ERROR_DECRYPT_FAILED /**< Could not decrypt contents */
+} Eet_Error; /**< Eet error identifiers */
+
+/**
+ * @}
+ */
+
+/**
+ * Initialize the EET library.
+ *
+ * @return The new init count.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Group
+ */
+EAPI int eet_init(void);
+
+/**
+ * Shut down the EET library.
+ *
+ * @return The new init count.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Group
+ */
+EAPI int eet_shutdown(void);
+
+/**
+ * Clear eet cache
+ *
+ * Eet didn't free items by default. If you are under memory
+ * presure, just call this function to recall all memory that are
+ * not yet referenced anymore. The cache take care of modification
+ * on disk.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Group
+ */
+EAPI void eet_clearcache(void);
+
+
+/**
+ * @defgroup Eet_File_Group Eet File Main Functions
+ *
+ * Functions to create, destroy and do basic manipulation of
+ * #Eet_File handles.
+ *
+ * @{
+ */
+
+/**
+ * @enum _Eet_File_Mode
+ * Modes that a file can be opened.
+ */
+typedef enum _Eet_File_Mode
+{
+ EET_FILE_MODE_INVALID = -1,
+ EET_FILE_MODE_READ, /**< File is read-only. */
+ EET_FILE_MODE_WRITE, /**< File is write-only. */
+ EET_FILE_MODE_READ_WRITE /**< File is for both read and write */
+} Eet_File_Mode; /**< Modes that a file can be opened. */
+
+/**
+ * @typedef Eet_File
+ * Opaque handle that defines an Eet file (or memory).
+ *
+ * @see eet_open()
+ * @see eet_memopen_read()
+ * @see eet_close()
+ */
+typedef struct _Eet_File Eet_File;
+
+/**
+ * @typedef Eet_Dictionary
+ * Opaque handle that defines a file-backed (mmaped) dictionary of strings.
+ */
+typedef struct _Eet_Dictionary Eet_Dictionary;
+
+
+/**
+ * @}
+ */
+
+/**
+ * Open an eet file on disk, and returns a handle to it.
+ * @param file The file path to the eet file. eg: @c "/tmp/file.eet".
+ * @param mode The mode for opening. Either #EET_FILE_MODE_READ,
+ * #EET_FILE_MODE_WRITE or #EET_FILE_MODE_READ_WRITE.
+ * @return An opened eet file handle.
+ * @ingroup Eet_File_Group
+ *
+ * This function will open an exiting eet file for reading, and build
+ * the directory table in memory and return a handle to the file, if it
+ * exists and can be read, and no memory errors occur on the way, otherwise
+ * NULL will be returned.
+ *
+ * It will also open an eet file for writing. This will, if successful,
+ * delete the original file and replace it with a new empty file, till
+ * the eet file handle is closed or flushed. If it cannot be opened for
+ * writing or a memory error occurs, NULL is returned.
+ *
+ * You can also open the file for read/write. If you then write a key that
+ * does not exist it will be created, if the key exists it will be replaced
+ * by the new data.
+ *
+ * Example:
+ * @code
+ * #include <Eet.h>
+ * #include <stdio.h>
+ * #include <string.h>
+ *
+ * int
+ * main(int argc, char **argv)
+ * {
+ * Eet_File *ef;
+ * char buf[1024], *ret, **list;
+ * int size, num, i;
+ *
+ * eet_init();
+ *
+ * strcpy(buf, "Here is a string of data to save!");
+ *
+ * ef = eet_open("/tmp/my_file.eet", EET_FILE_MODE_WRITE);
+ * if (!ef) return -1;
+ * if (!eet_write(ef, "/key/to_store/at", buf, 1024, 1))
+ * fprintf(stderr, "Error writing data!\n");
+ * eet_close(ef);
+ *
+ * ef = eet_open("/tmp/my_file.eet", EET_FILE_MODE_READ);
+ * if (!ef) return -1;
+ * list = eet_list(ef, "*", &num);
+ * if (list)
+ * {
+ * for (i = 0; i < num; i++)
+ * printf("Key stored: %s\n", list[i]);
+ * free(list);
+ * }
+ * ret = eet_read(ef, "/key/to_store/at", &size);
+ * if (ret)
+ * {
+ * printf("Data read (%i bytes):\n%s\n", size, ret);
+ * free(ret);
+ * }
+ * eet_close(ef);
+ *
+ * eet_shutdown();
+ *
+ * return 0;
+ * }
+ * @endcode
+ *
+ * @since 1.0.0
+ */
+EAPI Eet_File * eet_open(const char *file, Eet_File_Mode mode);
+
+/**
+ * Open an eet file directly from a memory location. The data are not copied,
+ * so you must keep them around as long as the eet file is open. Their is
+ * currently no cache for this kind of Eet_File, so it's reopen every time
+ * you do use eet_memopen_read.
+ *
+ * @since 1.1.0
+ * @ingroup Eet_File_Group
+ */
+EAPI Eet_File * eet_memopen_read(const void *data, size_t size);
+
+/**
+ * Get the mode an Eet_File was opened with.
+ * @param ef A valid eet file handle.
+ * @return The mode ef was opened with.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI Eet_File_Mode eet_mode_get(Eet_File *ef);
+
+/**
+ * Close an eet file handle and flush and writes pending.
+ * @param ef A valid eet file handle.
+ *
+ * This function will flush any pending writes to disk if the eet file
+ * was opened for write, and free all data associated with the file handle
+ * and file, and close the file.
+ *
+ * If the eet file handle is not valid nothing will be done.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI Eet_Error eet_close(Eet_File *ef);
+
+/**
+ * Sync content of an eet file handle, flushing pending writes.
+ * @param ef A valid eet file handle.
+ *
+ * This function will flush any pending writes to disk. The eet file must
+ * be opened for write.
+ *
+ * If the eet file handle is not valid nothing will be done.
+ *
+ * @since 1.2.4
+ * @ingroup Eet_File_Group
+ */
+EAPI Eet_Error eet_sync(Eet_File *ef);
+
+/**
+ * Return a handle to the shared string dictionary of the Eet file
+ * @param ef A valid eet file handle.
+ * @return A handle to the dictionary of the file
+ *
+ * This function returns a handle to the dictionary of an Eet file whose
+ * handle is @p ef, if a dictionary exists. NULL is returned otherwise or
+ * if the file handle is known to be invalid.
+ *
+ * @see eet_dictionary_string_check() to know if given string came
+ * from the dictionary or it was dynamically allocated using
+ * the #Eet_Data_Descriptor_Class instructrions.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI Eet_Dictionary *eet_dictionary_get(Eet_File *ef);
+
+/**
+ * Check if a given string comes from a given dictionary
+ * @param ed A valid dictionary handle
+ * @param string A valid 0 byte terminated C string
+ * @return 1 if it is in the dictionary, 0 otherwise
+ *
+ * This checks the given dictionary to see if the given string is actually
+ * inside that dictionary (i.e. comes from it) and returns 1 if it does.
+ * If the dictionary handle is invlide, the string is NULL or the string is
+ * not in the dictionary, 0 is returned.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI int eet_dictionary_string_check(Eet_Dictionary *ed,
+ const char *string);
+
+/**
+ * Read a specified entry from an eet file and return data
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param size_ret Number of bytes read from entry and returned.
+ * @return The data stored in that entry in the eet file.
+ *
+ * This function finds an entry in the eet file that is stored under the
+ * name specified, and returns that data, decompressed, if successful.
+ * NULL is returned if the lookup fails or if memory errors are
+ * encountered. It is the job of the calling program to call free() on
+ * the returned data. The number of bytes in the returned data chunk are
+ * placed in size_ret.
+ *
+ * If the eet file handle is not valid NULL is returned and size_ret is
+ * filled with 0.
+ *
+ * @see eet_read_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI void * eet_read(Eet_File *ef, const char *name, int *size_ret);
+
+/**
+ * Read a specified entry from an eet file and return data
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param size_ret Number of bytes read from entry and returned.
+ * @return The data stored in that entry in the eet file.
+ *
+ * This function finds an entry in the eet file that is stored under the
+ * name specified, and returns that data if not compressed and successful.
+ * NULL is returned if the lookup fails or if memory errors are
+ * encountered or if the data is comrpessed. The calling program must never
+ * call free() on the returned data. The number of bytes in the returned
+ * data chunk are placed in size_ret.
+ *
+ * If the eet file handle is not valid NULL is returned and size_ret is
+ * filled with 0.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI const void * eet_read_direct(Eet_File *ef,
+ const char *name,
+ int *size_ret);
+
+/**
+ * Write a specified entry to an eet file handle
+ * @param ef A valid eet file handle opened for writing.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param data Pointer to the data to be stored.
+ * @param size Length in bytes in the data to be stored.
+ * @param compress Compression flags (1 == compress, 0 = don't compress).
+ * @return bytes written on successful write, 0 on failure.
+ *
+ * This function will write the specified chunk of data to the eet file
+ * and return greater than 0 on success. 0 will be returned on failure.
+ *
+ * The eet file handle must be a valid file handle for an eet file opened
+ * for writing. If it is not, 0 will be returned and no action will be
+ * performed.
+ *
+ * Name, and data must not be NULL, and size must be > 0. If these
+ * conditions are not met, 0 will be returned.
+ *
+ * The data will be copied (and optionally compressed) in ram, pending
+ * a flush to disk (it will stay in ram till the eet file handle is
+ * closed though).
+ *
+ * @see eet_write_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI int eet_write(Eet_File *ef,
+ const char *name,
+ const void *data,
+ int size,
+ int compress);
+
+/**
+ * Delete a specified entry from an Eet file being written or re-written
+ * @param ef A valid eet file handle opened for writing.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @return Success or failure of the delete.
+ *
+ * This function will delete the specified chunk of data from the eet file
+ * and return greater than 0 on success. 0 will be returned on failure.
+ *
+ * The eet file handle must be a valid file handle for an eet file opened
+ * for writing. If it is not, 0 will be returned and no action will be
+ * performed.
+ *
+ * Name, must not be NULL, otherwise 0 will be returned.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI int eet_delete(Eet_File *ef, const char *name);
+
+/**
+ * Alias a specific section to another one. Destination may exist or not,
+ * no check are done.
+ * @param ef A valid eet file handle opened for writing.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param destination Destionation of the alias. eg: "/base/the_real_stuff_i_want".
+ * @param compress Compression flags (1 == compress, 0 = don't compress).
+ * @return EINA_TRUE on success, EINA_FALSE on failure.
+ *
+ * Name and Destination must not be NULL, otherwhise EINA_FALSE will be returned.
+ *
+ * @since 1.3.3
+ * @ingroup Eet_File_Group
+ */
+EAPI Eina_Bool eet_alias(Eet_File *ef,
+ const char *name,
+ const char *destination,
+ int compress);
+
+
+/**
+ * List all entries in eet file matching shell glob.
+ * @param ef A valid eet file handle.
+ * @param glob A shell glob to match against.
+ * @param count_ret Number of entries found to match.
+ * @return Pointer to an array of strings.
+ *
+ * This function will list all entries in the eet file matching the
+ * supplied shell glob and return an allocated list of their names, if
+ * there are any, and if no memory errors occur.
+ *
+ * The eet file handle must be valid and glob must not be NULL, or NULL
+ * will be returned and count_ret will be filled with 0.
+ *
+ * The calling program must call free() on the array returned, but NOT
+ * on the string pointers in the array. They are taken as read-only
+ * internals from the eet file handle. They are only valid as long as
+ * the file handle is not closed. When it is closed those pointers in the
+ * array are now not valid and should not be used.
+ *
+ * On success the array returned will have a list of string pointers
+ * that are the names of the entries that matched, and count_ret will have
+ * the number of entries in this array placed in it.
+ *
+ * Hint: an easy way to list all entries in an eet file is to use a glob
+ * value of "*".
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI char **eet_list(Eet_File *ef, const char *glob, int *count_ret);
+
+/**
+ * Return the number of entries in the specified eet file.
+ * @param ef A valid eet file handle.
+ * @return Number of entries in ef or -1 if the number of entries
+ * cannot be read due to open mode restrictions.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Group
+ */
+EAPI int eet_num_entries(Eet_File *ef);
+
+/**
+ * @defgroup Eet_File_Cipher_Group Eet File Ciphered Main Functions
+ *
+ * Most of the @ref Eet_File_Group have alternative versions that
+ * accounts for ciphers to protect their content.
+ *
+ * @see @ref Eet_Cipher_Group
+ *
+ * @ingroup Eet_File_Group
+ */
+
+/**
+ * Read a specified entry from an eet file and return data using a cipher.
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param size_ret Number of bytes read from entry and returned.
+ * @param cipher_key The key to use as cipher.
+ * @return The data stored in that entry in the eet file.
+ *
+ * This function finds an entry in the eet file that is stored under the
+ * name specified, and returns that data, decompressed, if successful.
+ * NULL is returned if the lookup fails or if memory errors are
+ * encountered. It is the job of the calling program to call free() on
+ * the returned data. The number of bytes in the returned data chunk are
+ * placed in size_ret.
+ *
+ * If the eet file handle is not valid NULL is returned and size_ret is
+ * filled with 0.
+ *
+ * @see eet_read()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Cipher_Group
+ */
+EAPI void * eet_read_cipher(Eet_File *ef,
+ const char *name,
+ int *size_ret,
+ const char *cipher_key);
+
+/**
+ * Write a specified entry to an eet file handle using a cipher.
+ * @param ef A valid eet file handle opened for writing.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param data Pointer to the data to be stored.
+ * @param size Length in bytes in the data to be stored.
+ * @param compress Compression flags (1 == compress, 0 = don't compress).
+ * @param cipher_key The key to use as cipher.
+ * @return bytes written on successful write, 0 on failure.
+ *
+ * This function will write the specified chunk of data to the eet file
+ * and return greater than 0 on success. 0 will be returned on failure.
+ *
+ * The eet file handle must be a valid file handle for an eet file opened
+ * for writing. If it is not, 0 will be returned and no action will be
+ * performed.
+ *
+ * Name, and data must not be NULL, and size must be > 0. If these
+ * conditions are not met, 0 will be returned.
+ *
+ * The data will be copied (and optionally compressed) in ram, pending
+ * a flush to disk (it will stay in ram till the eet file handle is
+ * closed though).
+ *
+ * @see eet_write()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Cipher_Group
+ */
+EAPI int eet_write_cipher(Eet_File *ef,
+ const char *name,
+ const void *data,
+ int size,
+ int compress,
+ const char *cipher_key);
+
+
+/**
+ * @defgroup Eet_File_Image_Group Image Store and Load
+ *
+ * Eet efficiently stores and loads images, including alpha
+ * channels and lossy compressions.
+ */
+
+/**
+ * Read just the header data for an image and dont decode the pixels.
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param w A pointer to the unsigned int to hold the width in pixels.
+ * @param h A pointer to the unsigned int to hold the height in pixels.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return 1 on successfull decode, 0 otherwise
+ *
+ * This function reads an image from an eet file stored under the named
+ * key in the eet file and return a pointer to the decompressed pixel data.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pile is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns 1 indicating the header was read and
+ * decoded properly, or 0 on failure.
+ *
+ * @see eet_data_image_header_read_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Group
+ */
+EAPI int eet_data_image_header_read(Eet_File *ef,
+ const char *name,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Read image data from the named key in the eet file.
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param w A pointer to the unsigned int to hold the width in pixels.
+ * @param h A pointer to the unsigned int to hold the height in pixels.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return The image pixel data decoded
+ *
+ * This function reads an image from an eet file stored under the named
+ * key in the eet file and return a pointer to the decompressed pixel data.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pile is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns a pointer to the image data decoded. The
+ * calling application is responsible for calling free() on the image data
+ * when it is done with it. On failure NULL is returned and the parameter
+ * values may not contain any sensible data.
+ *
+ * @see eet_data_image_read_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Group
+ */
+EAPI void *eet_data_image_read(Eet_File *ef,
+ const char *name,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Read image data from the named key in the eet file.
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param src_x The starting x coordinate from where to dump the stream.
+ * @param src_y The starting y coordinate from where to dump the stream.
+ * @param d A pointer to the pixel surface.
+ * @param w The expected width in pixels of the pixel surface to decode.
+ * @param h The expected height in pixels of the pixel surface to decode.
+ * @param row_stride The length of a pixels line in the destination surface.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return 1 on success, 0 otherwise.
+ *
+ * This function reads an image from an eet file stored under the named
+ * key in the eet file and return a pointer to the decompressed pixel data.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pile is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns 1, and 0 on failure. On failure the
+ * parameter values may not contain any sensible data.
+ *
+ * @see eet_data_image_read_to_surface_cipher()
+ *
+ * @since 1.0.2
+ * @ingroup Eet_File_Image_Group
+ */
+EAPI int eet_data_image_read_to_surface(Eet_File *ef,
+ const char *name,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Write image data to the named key in an eet file.
+ * @param ef A valid eet file handle opened for writing.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param data A pointer to the image pixel data.
+ * @param w The width of the image in pixels.
+ * @param h The height of the image in pixels.
+ * @param alpha The alpha channel flag.
+ * @param compress The compression amount.
+ * @param quality The quality encoding amount.
+ * @param lossy The lossiness flag.
+ * @return Success if the data was encoded and written or not.
+ *
+ * This function takes image pixel data and encodes it in an eet file
+ * stored under the supplied name key, and returns how many bytes were
+ * actually written to encode the image data.
+ *
+ * The data expected is the same format as returned by eet_data_image_read.
+ * If this is not the case weird things may happen. Width and height must
+ * be between 1 and 8000 pixels. The alpha flags can be 0 or 1 (0 meaning
+ * the alpha values are not useful and 1 meaning they are). Compress can
+ * be from 0 to 9 (0 meaning no compression, 9 meaning full compression).
+ * This is only used if the image is not lossily encoded. Quality is used on
+ * lossy compression and should be a value from 0 to 100. The lossy flag
+ * can be 0 or 1. 0 means encode losslessly and 1 means to encode with
+ * image quality loss (but then have a much smaller encoding).
+ *
+ * On success this function returns the number of bytes that were required
+ * to encode the image data, or on failure it returns 0.
+ *
+ * @see eet_data_image_write_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Group
+ */
+EAPI int eet_data_image_write(Eet_File *ef,
+ const char *name,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int compress,
+ int quality,
+ int lossy);
+
+/**
+ * Decode Image data header only to get information.
+ * @param data The encoded pixel data.
+ * @param size The size, in bytes, of the encoded pixel data.
+ * @param w A pointer to the unsigned int to hold the width in pixels.
+ * @param h A pointer to the unsigned int to hold the height in pixels.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return 1 on success, 0 on failure.
+ *
+ * This function takes encoded pixel data and decodes it into raw RGBA
+ * pixels on success.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pixel is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns 1 indicating the header was read and
+ * decoded properly, or 0 on failure.
+ *
+ * @see eet_data_image_header_decode_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Group
+ */
+EAPI int eet_data_image_header_decode(const void *data,
+ int size,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Decode Image data into pixel data.
+ * @param data The encoded pixel data.
+ * @param size The size, in bytes, of the encoded pixel data.
+ * @param w A pointer to the unsigned int to hold the width in pixels.
+ * @param h A pointer to the unsigned int to hold the height in pixels.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return The image pixel data decoded
+ *
+ * This function takes encoded pixel data and decodes it into raw RGBA
+ * pixels on success.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pixel is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns a pointer to the image data decoded. The
+ * calling application is responsible for calling free() on the image data
+ * when it is done with it. On failure NULL is returned and the parameter
+ * values may not contain any sensible data.
+ *
+ * @see eet_data_image_decode_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Group
+ */
+EAPI void *eet_data_image_decode(const void *data,
+ int size,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Decode Image data into pixel data.
+ * @param data The encoded pixel data.
+ * @param size The size, in bytes, of the encoded pixel data.
+ * @param src_x The starting x coordinate from where to dump the stream.
+ * @param src_y The starting y coordinate from where to dump the stream.
+ * @param d A pointer to the pixel surface.
+ * @param w The expected width in pixels of the pixel surface to decode.
+ * @param h The expected height in pixels of the pixel surface to decode.
+ * @param row_stride The length of a pixels line in the destination surface.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return 1 on success, 0 otherwise.
+ *
+ * This function takes encoded pixel data and decodes it into raw RGBA
+ * pixels on success.
+ *
+ * The other parameters of the image (alpha, compress etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pixel is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns 1, and 0 on failure. On failure the
+ * parameter values may not contain any sensible data.
+ *
+ * @see eet_data_image_decode_to_surface_cipher()
+ *
+ * @since 1.0.2
+ * @ingroup Eet_File_Image_Group
+ */
+EAPI int eet_data_image_decode_to_surface(const void *data,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Encode image data for storage or transmission.
+ * @param data A pointer to the image pixel data.
+ * @param size_ret A pointer to an int to hold the size of the returned data.
+ * @param w The width of the image in pixels.
+ * @param h The height of the image in pixels.
+ * @param alpha The alpha channel flag.
+ * @param compress The compression amount.
+ * @param quality The quality encoding amount.
+ * @param lossy The lossiness flag.
+ * @return The encoded image data.
+ *
+ * This function stakes image pixel data and encodes it with compression and
+ * possible loss of quality (as a trade off for size) for storage or
+ * transmission to another system.
+ *
+ * The data expected is the same format as returned by eet_data_image_read.
+ * If this is not the case weird things may happen. Width and height must
+ * be between 1 and 8000 pixels. The alpha flags can be 0 or 1 (0 meaning
+ * the alpha values are not useful and 1 meaning they are). Compress can
+ * be from 0 to 9 (0 meaning no compression, 9 meaning full compression).
+ * This is only used if the image is not lossily encoded. Quality is used on
+ * lossy compression and should be a value from 0 to 100. The lossy flag
+ * can be 0 or 1. 0 means encode losslessly and 1 means to encode with
+ * image quality loss (but then have a much smaller encoding).
+ *
+ * On success this function returns a pointer to the encoded data that you
+ * can free with free() when no longer needed.
+ *
+ * @see eet_data_image_encode_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Group
+ */
+EAPI void *eet_data_image_encode(const void *data,
+ int *size_ret,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int compress,
+ int quality,
+ int lossy);
+
+/**
+ * @defgroup Eet_File_Image_Cipher_Group Image Store and Load using a Cipher
+ *
+ * Most of the @ref Eet_File_Image_Group have alternative versions
+ * that accounts for ciphers to protect their content.
+ *
+ * @see @ref Eet_Cipher_Group
+ *
+ * @ingroup Eet_File_Image_Group
+ */
+
+/**
+ * Read just the header data for an image and dont decode the pixels using a cipher.
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param cipher_key The key to use as cipher.
+ * @param w A pointer to the unsigned int to hold the width in pixels.
+ * @param h A pointer to the unsigned int to hold the height in pixels.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return 1 on successfull decode, 0 otherwise
+ *
+ * This function reads an image from an eet file stored under the named
+ * key in the eet file and return a pointer to the decompressed pixel data.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pile is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns 1 indicating the header was read and
+ * decoded properly, or 0 on failure.
+ *
+ * @see eet_data_image_header_read()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Cipher_Group
+ */
+EAPI int eet_data_image_header_read_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Read image data from the named key in the eet file using a cipher.
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param cipher_key The key to use as cipher.
+ * @param w A pointer to the unsigned int to hold the width in pixels.
+ * @param h A pointer to the unsigned int to hold the height in pixels.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return The image pixel data decoded
+ *
+ * This function reads an image from an eet file stored under the named
+ * key in the eet file and return a pointer to the decompressed pixel data.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pile is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns a pointer to the image data decoded. The
+ * calling application is responsible for calling free() on the image data
+ * when it is done with it. On failure NULL is returned and the parameter
+ * values may not contain any sensible data.
+ *
+ * @see eet_data_image_read()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Cipher_Group
+ */
+EAPI void *eet_data_image_read_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Read image data from the named key in the eet file using a cipher.
+ * @param ef A valid eet file handle opened for reading.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param cipher_key The key to use as cipher.
+ * @param src_x The starting x coordinate from where to dump the stream.
+ * @param src_y The starting y coordinate from where to dump the stream.
+ * @param d A pointer to the pixel surface.
+ * @param w The expected width in pixels of the pixel surface to decode.
+ * @param h The expected height in pixels of the pixel surface to decode.
+ * @param row_stride The length of a pixels line in the destination surface.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return 1 on success, 0 otherwise.
+ *
+ * This function reads an image from an eet file stored under the named
+ * key in the eet file and return a pointer to the decompressed pixel data.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pile is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns 1, and 0 on failure. On failure the
+ * parameter values may not contain any sensible data.
+ *
+ * @see eet_data_image_read_to_surface()
+ *
+ * @since 1.0.2
+ * @ingroup Eet_File_Image_Cipher_Group
+ */
+EAPI int eet_data_image_read_to_surface_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Write image data to the named key in an eet file using a cipher.
+ * @param ef A valid eet file handle opened for writing.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param cipher_key The key to use as cipher.
+ * @param data A pointer to the image pixel data.
+ * @param w The width of the image in pixels.
+ * @param h The height of the image in pixels.
+ * @param alpha The alpha channel flag.
+ * @param compress The compression amount.
+ * @param quality The quality encoding amount.
+ * @param lossy The lossiness flag.
+ * @return Success if the data was encoded and written or not.
+ *
+ * This function takes image pixel data and encodes it in an eet file
+ * stored under the supplied name key, and returns how many bytes were
+ * actually written to encode the image data.
+ *
+ * The data expected is the same format as returned by eet_data_image_read.
+ * If this is not the case weird things may happen. Width and height must
+ * be between 1 and 8000 pixels. The alpha flags can be 0 or 1 (0 meaning
+ * the alpha values are not useful and 1 meaning they are). Compress can
+ * be from 0 to 9 (0 meaning no compression, 9 meaning full compression).
+ * This is only used if the image is not lossily encoded. Quality is used on
+ * lossy compression and should be a value from 0 to 100. The lossy flag
+ * can be 0 or 1. 0 means encode losslessly and 1 means to encode with
+ * image quality loss (but then have a much smaller encoding).
+ *
+ * On success this function returns the number of bytes that were required
+ * to encode the image data, or on failure it returns 0.
+ *
+ * @see eet_data_image_write()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Cipher_Group
+ */
+EAPI int eet_data_image_write_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int compress,
+ int quality,
+ int lossy);
+
+
+/**
+ * Decode Image data header only to get information using a cipher.
+ * @param data The encoded pixel data.
+ * @param cipher_key The key to use as cipher.
+ * @param size The size, in bytes, of the encoded pixel data.
+ * @param w A pointer to the unsigned int to hold the width in pixels.
+ * @param h A pointer to the unsigned int to hold the height in pixels.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return 1 on success, 0 on failure.
+ *
+ * This function takes encoded pixel data and decodes it into raw RGBA
+ * pixels on success.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pixel is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns 1 indicating the header was read and
+ * decoded properly, or 0 on failure.
+ *
+ * @see eet_data_image_header_decode()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Cipher_Group
+ */
+EAPI int eet_data_image_header_decode_cipher(const void *data,
+ const char *cipher_key,
+ int size,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Decode Image data into pixel data using a cipher.
+ * @param data The encoded pixel data.
+ * @param cipher_key The key to use as cipher.
+ * @param size The size, in bytes, of the encoded pixel data.
+ * @param w A pointer to the unsigned int to hold the width in pixels.
+ * @param h A pointer to the unsigned int to hold the height in pixels.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return The image pixel data decoded
+ *
+ * This function takes encoded pixel data and decodes it into raw RGBA
+ * pixels on success.
+ *
+ * The other parameters of the image (width, height etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pixel is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns a pointer to the image data decoded. The
+ * calling application is responsible for calling free() on the image data
+ * when it is done with it. On failure NULL is returned and the parameter
+ * values may not contain any sensible data.
+ *
+ * @see eet_data_image_decode()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Cipher_Group
+ */
+EAPI void *eet_data_image_decode_cipher(const void *data,
+ const char *cipher_key,
+ int size,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Decode Image data into pixel data using a cipher.
+ * @param data The encoded pixel data.
+ * @param cipher_key The key to use as cipher.
+ * @param size The size, in bytes, of the encoded pixel data.
+ * @param src_x The starting x coordinate from where to dump the stream.
+ * @param src_y The starting y coordinate from where to dump the stream.
+ * @param d A pointer to the pixel surface.
+ * @param w The expected width in pixels of the pixel surface to decode.
+ * @param h The expected height in pixels of the pixel surface to decode.
+ * @param row_stride The length of a pixels line in the destination surface.
+ * @param alpha A pointer to the int to hold the alpha flag.
+ * @param compress A pointer to the int to hold the compression amount.
+ * @param quality A pointer to the int to hold the quality amount.
+ * @param lossy A pointer to the int to hold the lossiness flag.
+ * @return 1 on success, 0 otherwise.
+ *
+ * This function takes encoded pixel data and decodes it into raw RGBA
+ * pixels on success.
+ *
+ * The other parameters of the image (alpha, compress etc.) are placed into
+ * the values pointed to (they must be supplied). The pixel data is a linear
+ * array of pixels starting from the top-left of the image scanning row by
+ * row from left to right. Each pixel is a 32bit value, with the high byte
+ * being the alpha channel, the next being red, then green, and the low byte
+ * being blue. The width and height are measured in pixels and will be
+ * greater than 0 when returned. The alpha flag is either 0 or 1. 0 denotes
+ * that the alpha channel is not used. 1 denotes that it is significant.
+ * Compress is filled with the compression value/amount the image was
+ * stored with. The quality value is filled with the quality encoding of
+ * the image file (0 - 100). The lossy flags is either 0 or 1 as to if
+ * the image was encoded lossily or not.
+ *
+ * On success the function returns 1, and 0 on failure. On failure the
+ * parameter values may not contain any sensible data.
+ *
+ * @see eet_data_image_decode_to_surface()
+ *
+ * @since 1.0.2
+ * @ingroup Eet_File_Image_Cipher_Group
+ */
+EAPI int eet_data_image_decode_to_surface_cipher(const void *data,
+ const char *cipher_key,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int *alpha,
+ int *compress,
+ int *quality,
+ int *lossy);
+
+/**
+ * Encode image data for storage or transmission using a cipher.
+ * @param data A pointer to the image pixel data.
+ * @param cipher_key The key to use as cipher.
+ * @param size_ret A pointer to an int to hold the size of the returned data.
+ * @param w The width of the image in pixels.
+ * @param h The height of the image in pixels.
+ * @param alpha The alpha channel flag.
+ * @param compress The compression amount.
+ * @param quality The quality encoding amount.
+ * @param lossy The lossiness flag.
+ * @return The encoded image data.
+ *
+ * This function stakes image pixel data and encodes it with compression and
+ * possible loss of quality (as a trade off for size) for storage or
+ * transmission to another system.
+ *
+ * The data expected is the same format as returned by eet_data_image_read.
+ * If this is not the case weird things may happen. Width and height must
+ * be between 1 and 8000 pixels. The alpha flags can be 0 or 1 (0 meaning
+ * the alpha values are not useful and 1 meaning they are). Compress can
+ * be from 0 to 9 (0 meaning no compression, 9 meaning full compression).
+ * This is only used if the image is not lossily encoded. Quality is used on
+ * lossy compression and should be a value from 0 to 100. The lossy flag
+ * can be 0 or 1. 0 means encode losslessly and 1 means to encode with
+ * image quality loss (but then have a much smaller encoding).
+ *
+ * On success this function returns a pointer to the encoded data that you
+ * can free with free() when no longer needed.
+ *
+ * @see eet_data_image_encode()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_File_Image_Cipher_Group
+ */
+EAPI void *eet_data_image_encode_cipher(const void *data,
+ const char *cipher_key,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int compress,
+ int quality,
+ int lossy,
+ int *size_ret);
+
+
+/**
+ * @defgroup Eet_Cipher_Group Cipher, Identity and Protection Mechanisms
+ *
+ * Eet allows one to protect entries of an #Eet_File
+ * individually. This may be used to ensure data was not tampered or
+ * that third party does not read your data.
+ *
+ * @see @ref Eet_File_Cipher_Group
+ * @see @ref Eet_File_Image_Cipher_Group
+ *
+ * @{
+ */
+
+/**
+ * @typedef Eet_Key
+ * Opaque handle that defines an identity (also known as key)
+ * in Eet's cipher system.
+ */
+typedef struct _Eet_Key Eet_Key;
+
+/**
+ * @}
+ */
+
+
+/**
+ * Callback used to request if needed the password of a private key.
+ *
+ * @param buffer the buffer where to store the password.
+ * @param size the maximum password size (size of buffer, including '@\0').
+ * @param rwflag if the buffer is also readable or just writable.
+ * @param data currently unused, may contain some context in future.
+ * @return 1 on success and password was set to @p buffer, 0 on failure.
+ *
+ * @since 1.2.0
+ * @ingroup Eet_Cipher_Group
+ */
+typedef int (*Eet_Key_Password_Callback)(char *buffer, int size, int rwflag,
+ void *data);
+
+/**
+ * Create an Eet_Key needed for signing an eet file.
+ *
+ * The certificate should provide the public that match the private key.
+ * No verification is done to ensure that.
+ *
+ * @param certificate_file The file where to find the certificate.
+ * @param private_key_file The file that contains the private key.
+ * @param cb Function to callback if password is required to unlock
+ * private key.
+ * @return A key handle to use, or @c NULL on failure.
+ *
+ * @see eet_identity_close()
+ *
+ * @since 1.2.0
+ * @ingroup Eet_Cipher_Group
+ */
+EAPI Eet_Key * eet_identity_open(const char *certificate_file,
+ const char *private_key_file,
+ Eet_Key_Password_Callback cb);
+
+/**
+ * Close and release all ressource used by an Eet_Key. An
+ * reference counter prevent it from being freed until all file
+ * using it are also closed.
+ *
+ * @param key the key handle to close and free resources.
+ *
+ * @since 1.2.0
+ * @ingroup Eet_Cipher_Group
+ */
+EAPI void eet_identity_close(Eet_Key *key);
+
+/**
+ * Set a key to sign a file
+ *
+ * @param ef the file to set the identity.
+ * @param key the key handle to set as identity.
+ * @return #EET_ERROR_BAD_OBJECT if @p ef is invalid or
+ * #EET_ERROR_NONE on success.
+ *
+ * @since 1.2.0
+ * @ingroup Eet_Cipher_Group
+ */
+EAPI Eet_Error eet_identity_set(Eet_File *ef, Eet_Key *key);
+
+/**
+ * Display both private and public key of an Eet_Key.
+ *
+ * @param key the handle to print.
+ * @param out where to print.
+ *
+ * @since 1.2.0
+ * @ingroup Eet_Cipher_Group
+ */
+EAPI void eet_identity_print(Eet_Key *key, FILE *out);
+
+/**
+ * Get the x509 der certificate associated with an Eet_File. Will return NULL
+ * if the file is not signed.
+ *
+ * @param ef The file handle to query.
+ * @param der_length The length of returned data, may be @c NULL.
+ * @return the x509 certificate or @c NULL on error.
+ *
+ * @since 1.2.0
+ * @ingroup Eet_Cipher_Group
+ */
+EAPI const void *eet_identity_x509(Eet_File *ef, int *der_length);
+
+/**
+ * Get the raw signature associated with an Eet_File. Will return NULL
+ * if the file is not signed.
+ *
+ * @param ef The file handle to query.
+ * @param signature_length The length of returned data, may be @c NULL.
+ * @return the raw signature or @c NULL on error.
+ *
+ * @ingroup Eet_Cipher_Group
+ */
+EAPI const void *eet_identity_signature(Eet_File *ef, int *signature_length);
+
+/**
+ * Get the SHA1 associated with a file. Could be the one used to
+ * sign the data or if the data where not signed, it will be the
+ * SHA1 of the file.
+ *
+ * @param ef The file handle to query.
+ * @param sha1_length The length of returned data, may be @c NULL.
+ * @return the associated SHA1 or @c NULL on error.
+ *
+ * @since 1.2.0
+ * @ingroup Eet_Cipher_Group
+ */
+EAPI const void *eet_identity_sha1(Eet_File *ef, int *sha1_length);
+
+/**
+ * Display the x509 der certificate to out.
+ *
+ * @param certificate the x509 certificate to print
+ * @param der_length The length the certificate.
+ * @param out where to print.
+ *
+ * @since 1.2.0
+ * @ingroup Eet_Cipher_Group
+ */
+EAPI void eet_identity_certificate_print(
+ const unsigned char *certificate,
+ int der_length,
+ FILE *out);
+
+
+/**
+ * @defgroup Eet_Data_Group Eet Data Serialization
+ *
+ * Convenience functions to serialize and parse complex data
+ * structures to binary blobs.
+ *
+ * While Eet core just handles binary blobs, it is often required
+ * to save some structured data of different types, such as
+ * strings, integers, lists, hashes and so on.
+ *
+ * Eet can serialize and then parse data types given some
+ * construction instructions. These are defined in two levels:
+ *
+ * - #Eet_Data_Descriptor_Class to tell generic memory handling,
+ * such as the size of the type, how to allocate memory, strings,
+ * lists, hashes and so on.
+ *
+ * - #Eet_Data_Descriptor to tell inside such type, the members and
+ * their offsets inside the memory blob, their types and
+ * names. These members can be simple types or other
+ * #Eet_Data_Descriptor, allowing hierarchical types to be
+ * defined.
+ *
+ * Given that C provides no introspection, this process can be
+ * quite cumbersome, so we provide lots of macros and convenience
+ * functions to aid creating the types.
+ *
+ * Example:
+ *
+ * @code
+ * #include <Eet.h>
+ * #include <Evas.h>
+ *
+ * typedef struct _blah2
+ * {
+ * char *string;
+ * } Blah2;
+ *
+ * typedef struct _blah3
+ * {
+ * char *string;
+ * } Blah3;
+ *
+ * typedef struct _blah
+ * {
+ * char character;
+ * short sixteen;
+ * int integer;
+ * long long lots;
+ * float floating;
+ * double floating_lots;
+ * char *string;
+ * Blah2 *blah2;
+ * Eina_List *blah3;
+ * } Blah;
+ *
+ * int
+ * main(int argc, char **argv)
+ * {
+ * Blah blah;
+ * Blah2 blah2;
+ * Blah3 blah3;
+ * Eet_Data_Descriptor *edd, *edd2, *edd3;
+ * Eet_Data_Descriptor_Class eddc, eddc2, eddc3;
+ * void *data;
+ * int size;
+ * FILE *f;
+ * Blah *blah_in;
+ *
+ * eet_init();
+ *
+ * EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(&eddc3, Blah3);
+ * edd3 = eet_data_descriptor_stream_new(&eddc3);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd3, Blah3, "string3", string, EET_T_STRING);
+ *
+ * EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(&eddc2, Blah2);
+ * edd2 = eet_data_descriptor_stream_new(&eddc2);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd2, Blah2, "string2", string, EET_T_STRING);
+ *
+ * EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(&eddc, Blah);
+ * edd = eet_data_descriptor_stream_new(&eddc);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "character", character, EET_T_CHAR);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "sixteen", sixteen, EET_T_SHORT);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "integer", integer, EET_T_INT);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "lots", lots, EET_T_LONG_LONG);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "floating", floating, EET_T_FLOAT);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "floating_lots", floating_lots, EET_T_DOUBLE);
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Blah, "string", string, EET_T_STRING);
+ * EET_DATA_DESCRIPTOR_ADD_SUB(edd, Blah, "blah2", blah2, edd2);
+ * EET_DATA_DESCRIPTOR_ADD_LIST(edd, Blah, "blah3", blah3, edd3);
+ *
+ * blah3.string = "PANTS";
+ *
+ * blah2.string = "subtype string here!";
+ *
+ * blah.character = '7';
+ * blah.sixteen = 0x7777;
+ * blah.integer = 0xc0def00d;
+ * blah.lots = 0xdeadbeef31337777;
+ * blah.floating = 3.141592654;
+ * blah.floating_lots = 0.777777777777777;
+ * blah.string = "bite me like a turnip";
+ * blah.blah2 = &blah2;
+ * blah.blah3 = eina_list_append(NULL, &blah3);
+ * blah.blah3 = eina_list_append(blah.blah3, &blah3);
+ * blah.blah3 = eina_list_append(blah.blah3, &blah3);
+ * blah.blah3 = eina_list_append(blah.blah3, &blah3);
+ * blah.blah3 = eina_list_append(blah.blah3, &blah3);
+ * blah.blah3 = eina_list_append(blah.blah3, &blah3);
+ * blah.blah3 = eina_list_append(blah.blah3, &blah3);
+ *
+ * data = eet_data_descriptor_encode(edd, &blah, &size);
+ * printf("-----DECODING\n");
+ * blah_in = eet_data_descriptor_decode(edd, data, size);
+ *
+ * printf("-----DECODED!\n");
+ * printf("%c\n", blah_in->character);
+ * printf("%x\n", (int)blah_in->sixteen);
+ * printf("%x\n", blah_in->integer);
+ * printf("%lx\n", blah_in->lots);
+ * printf("%f\n", (double)blah_in->floating);
+ * printf("%f\n", (double)blah_in->floating_lots);
+ * printf("%s\n", blah_in->string);
+ * printf("%p\n", blah_in->blah2);
+ * printf(" %s\n", blah_in->blah2->string);
+ * {
+ * Eina_List *l;
+ * Blah3 *blah3_in;
+ *
+ * EINA_LIST_FOREACH(blah_in->blah3, l, blah3_in)
+ * {
+ * printf("%p\n", blah3_in);
+ * printf(" %s\n", blah3_in->string);
+ * }
+ * }
+ * eet_data_descriptor_free(edd);
+ * eet_data_descriptor_free(edd2);
+ * eet_data_descriptor_free(edd3);
+ *
+ * eet_shutdown();
+ *
+ * return 0;
+ * }
+ * @endcode
+ *
+ * @{
+ */
#define EET_T_UNKNOW 0 /**< Unknown data encoding type */
#define EET_T_CHAR 1 /**< Data type: char */
#define EET_T_SHORT 2 /**< Data type: short */
#define EET_T_STRING 11 /**< Data type: char * */
#define EET_T_INLINED_STRING 12 /**< Data type: char * (but compressed inside the resulting eet) */
#define EET_T_NULL 13 /**< Data type: (void *) (only use it if you know why) */
-#define EET_T_F32P32 14 /**< Data type: fixed point 32.32 */
-#define EET_T_F16P16 15 /**< Data type: fixed point 16.16 */
-#define EET_T_F8P24 16 /**< Data type: fixed point 8.24 */
+#define EET_T_F32P32 14 /**< Data type: fixed point 32.32 */
+#define EET_T_F16P16 15 /**< Data type: fixed point 16.16 */
+#define EET_T_F8P24 16 /**< Data type: fixed point 8.24 */
#define EET_T_LAST 18 /**< Last data type */
#define EET_G_UNKNOWN 100 /**< Unknown group data encoding type */
#define EET_I_LIMIT 128 /**< Other type exist but are reserved for internal purpose. */
- /**
- * @typedef Eet_Data_Descriptor
- *
- * Opaque handle that have information on a type members.
- *
- * The members are added by means of
- * EET_DATA_DESCRIPTOR_ADD_BASIC(), EET_DATA_DESCRIPTOR_ADD_SUB(),
- * EET_DATA_DESCRIPTOR_ADD_LIST(), EET_DATA_DESCRIPTOR_ADD_HASH()
- * or eet_data_descriptor_element_add().
- *
- * @see eet_data_descriptor_stream_new()
- * @see eet_data_descriptor_file_new()
- * @see eet_data_descriptor_free()
- */
- typedef struct _Eet_Data_Descriptor Eet_Data_Descriptor;
-
- /**
- * @def EET_DATA_DESCRIPTOR_CLASS_VERSION
- * The version of #Eet_Data_Descriptor_Class at the time of the
- * distribution of the sources. One should define this to its
- * version member so it is compatible with abi changes, or at least
- * will not crash with them.
- */
+/**
+ * @typedef Eet_Data_Descriptor
+ *
+ * Opaque handle that have information on a type members.
+ *
+ * The members are added by means of
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(), EET_DATA_DESCRIPTOR_ADD_SUB(),
+ * EET_DATA_DESCRIPTOR_ADD_LIST(), EET_DATA_DESCRIPTOR_ADD_HASH()
+ * or eet_data_descriptor_element_add().
+ *
+ * @see eet_data_descriptor_stream_new()
+ * @see eet_data_descriptor_file_new()
+ * @see eet_data_descriptor_free()
+ */
+typedef struct _Eet_Data_Descriptor Eet_Data_Descriptor;
+
+/**
+ * @def EET_DATA_DESCRIPTOR_CLASS_VERSION
+ * The version of #Eet_Data_Descriptor_Class at the time of the
+ * distribution of the sources. One should define this to its
+ * version member so it is compatible with abi changes, or at least
+ * will not crash with them.
+ */
#define EET_DATA_DESCRIPTOR_CLASS_VERSION 3
- /**
- * @typedef Eet_Data_Descriptor_Class
- *
- * Instructs Eet about memory management for different needs under
- * serialization and parse process.
- */
- typedef struct _Eet_Data_Descriptor_Class Eet_Data_Descriptor_Class;
-
- /**
- * @struct _Eet_Data_Descriptor_Class
- *
- * Instructs Eet about memory management for different needs under
- * serialization and parse process.
- *
- * If using Eina data types, it is advised to use the helpers
- * EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET() and
- * EET_EINA_FILE_DATA_DESCRIPTOR_CLASS_SET().
- */
- struct _Eet_Data_Descriptor_Class
- {
- int version; /**< ABI version as #EET_DATA_DESCRIPTOR_CLASS_VERSION */
- const char *name; /**< Name of data type to be serialized */
- int size; /**< Size in bytes of data type to be serialized */
- struct {
- void *(*mem_alloc) (size_t size); /**< how to allocate memory (usually malloc()) */
- void (*mem_free) (void *mem); /**< how to free memory (usually free()) */
- char *(*str_alloc) (const char *str); /**< how to allocate a string */
- void (*str_free) (const char *str); /**< how to free a string */
- void *(*list_next) (void *l); /**< how to iterate to the next element of a list. Receives and should return the list node. */
- void *(*list_append) (void *l, void *d); /**< how to append data @p d to list which head node is @p l */
- void *(*list_data) (void *l); /**< retrieves the data from node @p l */
- void *(*list_free) (void *l); /**< free all the nodes from the list which head node is @p l */
- void (*hash_foreach) (void *h, int (*func) (void *h, const char *k, void *dt, void *fdt), void *fdt); /**< iterates over all elements in the hash @p h in no specific order */
- void *(*hash_add) (void *h, const char *k, void *d); /**< add a new data @p d as key @p k in hash @p h */
- void (*hash_free) (void *h); /**< free all entries from the hash @p h */
- char *(*str_direct_alloc) (const char *str); /**< how to allocate a string directly from file backed/mmaped region pointed by @p str */
- void (*str_direct_free) (const char *str); /**< how to free a string returned by str_direct_alloc */
-
- const char *(*type_get) (const void *data, Eina_Bool *unknow); /**< convert any kind of data type to a name that define an Eet_Data_Element. */
- Eina_Bool (*type_set) (const char *type, void *data, Eina_Bool unknow); /**< set the type at a particular adress */
- } func;
- };
-
- /**
- * @}
- */
-
- /**
- * Create a new empty data structure descriptor.
- * @param name The string name of this data structure (most be a
- * global constant and never change).
- * @param size The size of the struct (in bytes).
- * @param func_list_next The function to get the next list node.
- * @param func_list_append The function to append a member to a list.
- * @param func_list_data The function to get the data from a list node.
- * @param func_list_free The function to free an entire linked list.
- * @param func_hash_foreach The function to iterate through all
- * hash table entries.
- * @param func_hash_add The function to add a member to a hash table.
- * @param func_hash_free The function to free an entire hash table.
- * @return A new empty data descriptor.
- *
- * This function creates a new data descriptore and returns a handle to the
- * new data descriptor. On creation it will be empty, containing no contents
- * describing anything other than the shell of the data structure.
- *
- * You add structure members to the data descriptor using the macros
- * EET_DATA_DESCRIPTOR_ADD_BASIC(), EET_DATA_DESCRIPTOR_ADD_SUB() and
- * EET_DATA_DESCRIPTOR_ADD_LIST(), depending on what type of member you are
- * adding to the description.
- *
- * Once you have described all the members of a struct you want loaded, or
- * saved eet can load and save those members for you, encode them into
- * endian-independant serialised data chunks for transmission across a
- * a network or more.
- *
- * The function pointers to the list and hash table functions are only
- * needed if you use those data types, else you can pass NULL instead.
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- *
- * @deprecated use eet_data_descriptor_stream_new() or
- * eet_data_descriptor_file_new()
- */
- EINA_DEPRECATED EAPI Eet_Data_Descriptor *eet_data_descriptor_new(const char *name, int size, void *(*func_list_next) (void *l), void *(*func_list_append) (void *l, void *d), void *(*func_list_data) (void *l), void *(*func_list_free) (void *l), void (*func_hash_foreach) (void *h, int (*func) (void *h, const char *k, void *dt, void *fdt), void *fdt), void *(*func_hash_add) (void *h, const char *k, void *d), void (*func_hash_free) (void *h));
- /*
- * FIXME:
- *
- * moving to this api from the old above. this will break things when the
- * move happens - but be warned
- */
- EINA_DEPRECATED EAPI Eet_Data_Descriptor *eet_data_descriptor2_new(const Eet_Data_Descriptor_Class *eddc);
- EINA_DEPRECATED EAPI Eet_Data_Descriptor *eet_data_descriptor3_new(const Eet_Data_Descriptor_Class *eddc);
-
- /**
- * This function creates a new data descriptore and returns a handle to the
- * new data descriptor. On creation it will be empty, containing no contents
- * describing anything other than the shell of the data structure.
- * @param eddc The data descriptor to free.
- *
- * You add structure members to the data descriptor using the macros
- * EET_DATA_DESCRIPTOR_ADD_BASIC(), EET_DATA_DESCRIPTOR_ADD_SUB() and
- * EET_DATA_DESCRIPTOR_ADD_LIST(), depending on what type of member you are
- * adding to the description.
- *
- * Once you have described all the members of a struct you want loaded, or
- * saved eet can load and save those members for you, encode them into
- * endian-independant serialised data chunks for transmission across a
- * a network or more.
- *
- * This function specially ignore str_direct_alloc and str_direct_free. It
- * is usefull when the eet_data you are reading don't have a dictionnary
- * like network stream or ipc. It also mean that all string will be allocated
- * and duplicated in memory.
- *
- * @since 1.2.3
- * @ingroup Eet_Data_Group
- */
- EAPI Eet_Data_Descriptor *eet_data_descriptor_stream_new(const Eet_Data_Descriptor_Class *eddc);
-
- /**
- * This function creates a new data descriptore and returns a handle to the
- * new data descriptor. On creation it will be empty, containing no contents
- * describing anything other than the shell of the data structure.
- * @param eddc The data descriptor to free.
- *
- * You add structure members to the data descriptor using the macros
- * EET_DATA_DESCRIPTOR_ADD_BASIC(), EET_DATA_DESCRIPTOR_ADD_SUB() and
- * EET_DATA_DESCRIPTOR_ADD_LIST(), depending on what type of member you are
- * adding to the description.
- *
- * Once you have described all the members of a struct you want loaded, or
- * saved eet can load and save those members for you, encode them into
- * endian-independant serialised data chunks for transmission across a
- * a network or more.
- *
- * This function use str_direct_alloc and str_direct_free. It is
- * usefull when the eet_data you are reading come from a file and
- * have a dictionnary. This will reduce memory use, improve the
- * possibility for the OS to page this string out. But be carrefull
- * all EET_T_STRING are pointer to a mmapped area and it will point
- * to nowhere if you close the file. So as long as you use this
- * strings, you need to have the Eet_File open.
- *
- * @since 1.2.3
- * @ingroup Eet_Data_Group
- */
- EAPI Eet_Data_Descriptor *eet_data_descriptor_file_new(const Eet_Data_Descriptor_Class *eddc);
-
- /**
- * This function is an helper that set all the parameter of an
- * Eet_Data_Descriptor_Class correctly when you use Eina data type
- * with a stream.
- * @param eddc The Eet_Data_Descriptor_Class you want to set.
- * @param name The name of the structure described by this class.
- * @param size The size of the structure described by this class.
- * @return EINA_TRUE if the structure was correctly set (The only
- * reason that could make it fail is if you did give wrong
- * parameter).
- *
- * @since 1.2.3
- * @ingroup Eet_Data_Group
- */
- EAPI Eina_Bool eet_eina_stream_data_descriptor_class_set(Eet_Data_Descriptor_Class *eddc, const char *name, int size);
-
- /**
- * This macro is an helper that set all the parameter of an
- * Eet_Data_Descriptor_Class correctly when you use Eina data type
- * with stream.
- * @param Clas The Eet_Data_Descriptor_Class you want to set.
- * @param Type The type of the structure described by this class.
- * @return EINA_TRUE if the structure was correctly set (The only
- * reason that could make it fail is if you did give wrong
- * parameter).
- *
- * @since 1.2.3
- * @ingroup Eet_Data_Group
- */
-#define EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(Clas, Type) (eet_eina_stream_data_descriptor_class_set(Clas, #Type , sizeof (Type)))
-
- /**
- * This function is an helper that set all the parameter of an
- * Eet_Data_Descriptor_Class correctly when you use Eina data type
- * with a file.
- * @param eddc The Eet_Data_Descriptor_Class you want to set.
- * @param name The name of the structure described by this class.
- * @param size The size of the structure described by this class.
- * @return EINA_TRUE if the structure was correctly set (The only
- * reason that could make it fail is if you did give wrong
- * parameter).
- *
- * @since 1.2.3
- * @ingroup Eet_Data_Group
- */
- EAPI Eina_Bool eet_eina_file_data_descriptor_class_set(Eet_Data_Descriptor_Class *eddc, const char *name, int size);
-
- /**
- * This macro is an helper that set all the parameter of an
- * Eet_Data_Descriptor_Class correctly when you use Eina data type
- * with file.
- * @param Clas The Eet_Data_Descriptor_Class you want to set.
- * @param Type The type of the structure described by this class.
- * @return EINA_TRUE if the structure was correctly set (The only
- * reason that could make it fail is if you did give wrong
- * parameter).
- *
- * @since 1.2.3
- * @ingroup Eet_Data_Group
- */
-#define EET_EINA_FILE_DATA_DESCRIPTOR_CLASS_SET(Clas, Type) (eet_eina_file_data_descriptor_class_set(Clas, #Type , sizeof (Type)))
-
- /**
- * This function frees a data descriptor when it is not needed anymore.
- * @param edd The data descriptor to free.
- *
- * This function takes a data descriptor handle as a parameter and frees all
- * data allocated for the data descriptor and the handle itself. After this
- * call the descriptor is no longer valid.
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI void eet_data_descriptor_free(Eet_Data_Descriptor *edd);
-
- /**
- * This function is an internal used by macros.
- *
- * This function is used by macros EET_DATA_DESCRIPTOR_ADD_BASIC(),
- * EET_DATA_DESCRIPTOR_ADD_SUB() and EET_DATA_DESCRIPTOR_ADD_LIST(). It is
- * complex to use by hand and should be left to be used by the macros, and
- * thus is not documented.
- *
- * @param edd The data descriptor handle to add element (member).
- * @param name The name of element to be serialized.
- * @param type The type of element to be serialized, like
- * #EET_T_INT. If #EET_T_UNKNOW, then it is considered to be a
- * group, list or hash.
- * @param group_type If element type is #EET_T_UNKNOW, then the @p
- * group_type will speficy if it is a list (#EET_G_LIST),
- * array (#EET_G_ARRAY) and so on. If #EET_G_UNKNOWN, then
- * the member is a subtype (pointer to another type defined by
- * another #Eet_Data_Descriptor).
- * @param offset byte offset inside the source memory to be serialized.
- * @param count number of elements (if #EET_G_ARRAY or #EET_G_VAR_ARRAY).
- * @param counter_name variable that defines the name of number of elements.
- * @param subtype If contains a subtype, then its data descriptor.
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI void eet_data_descriptor_element_add(Eet_Data_Descriptor *edd, const char *name, int type, int group_type, int offset, /* int count_offset, */int count, const char *counter_name, Eet_Data_Descriptor *subtype);
-
- /**
- * Read a data structure from an eet file and decodes it.
- * @param ef The eet file handle to read from.
- * @param edd The data descriptor handle to use when decoding.
- * @param name The key the data is stored under in the eet file.
- * @return A pointer to the decoded data structure.
- *
- * This function decodes a data structure stored in an eet file, returning
- * a pointer to it if it decoded successfully, or NULL on failure. This
- * can save a programmer dozens of hours of work in writing configuration
- * file parsing and writing code, as eet does all that work for the program
- * and presents a program-friendly data structure, just as the programmer
- * likes. Eet can handle members being added or deleted from the data in
- * storage and safely zero-fills unfilled members if they were not found
- * in the data. It checks sizes and headers whenever it reads data, allowing
- * the programmer to not worry about corrupt data.
- *
- * Once a data structure has been described by the programmer with the
- * fields they wish to save or load, storing or retrieving a data structure
- * from an eet file, or from a chunk of memory is as simple as a single
- * function call.
- *
- * @see eet_data_read_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI void *eet_data_read(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name);
-
- /**
- * Write a data structure from memory and store in an eet file.
- * @param ef The eet file handle to write to.
- * @param edd The data descriptor to use when encoding.
- * @param name The key to store the data under in the eet file.
- * @param data A pointer to the data structure to ssave and encode.
- * @param compress Compression flags for storage.
- * @return bytes written on successful write, 0 on failure.
- *
- * This function is the reverse of eet_data_read(), saving a data structure
- * to an eet file.
- *
- * @see eet_data_write_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI int eet_data_write(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name, const void *data, int compress);
-
- /**
- * Dump an eet encoded data structure into ascii text
- * @param data_in The pointer to the data to decode into a struct.
- * @param size_in The size of the data pointed to in bytes.
- * @param dumpfunc The function to call passed a string when new
- * data is converted to text
- * @param dumpdata The data to pass to the @p dumpfunc callback.
- * @return 1 on success, 0 on failure
- *
- * This function will take a chunk of data encoded by
- * eet_data_descriptor_encode() and convert it into human readable
- * ascii text. It does this by calling the @p dumpfunc callback
- * for all new text that is generated. This callback should append
- * to any existing text buffer and will be passed the pointer @p
- * dumpdata as a parameter as well as a string with new text to be
- * appended.
- *
- * Example:
- *
- * @code
- * void output(void *data, const char *string)
- * {
- * printf("%s", string);
- * }
- *
- * void dump(const char *file)
- * {
- * FILE *f;
- * int len;
- * void *data;
- *
- * f = fopen(file, "r");
- * fseek(f, 0, SEEK_END);
- * len = ftell(f);
- * rewind(f);
- * data = malloc(len);
- * fread(data, len, 1, f);
- * fclose(f);
- * eet_data_text_dump(data, len, output, NULL);
- * }
- * @endcode
- *
- * @see eet_data_text_dump_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI int eet_data_text_dump(const void *data_in, int size_in, void (*dumpfunc) (void *data, const char *str), void *dumpdata);
-
- /**
- * Take an ascii encoding from eet_data_text_dump() and re-encode in binary.
- * @param text The pointer to the string data to parse and encode.
- * @param textlen The size of the string in bytes (not including 0
- * byte terminator).
- * @param size_ret This gets filled in with the encoded data blob
- * size in bytes.
- * @return The encoded data on success, NULL on failure.
- *
- * This function will parse the string pointed to by @p text and return
- * an encoded data lump the same way eet_data_descriptor_encode() takes an
- * in-memory data struct and encodes into a binary blob. @p text is a normal
- * C string.
- *
- * @see eet_data_text_undump_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI void *eet_data_text_undump(const char *text, int textlen, int *size_ret);
-
- /**
- * Dump an eet encoded data structure from an eet file into ascii text
- * @param ef A valid eet file handle.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param dumpfunc The function to call passed a string when new
- * data is converted to text
- * @param dumpdata The data to pass to the @p dumpfunc callback.
- * @return 1 on success, 0 on failure
- *
- * This function will take an open and valid eet file from
- * eet_open() request the data encoded by
- * eet_data_descriptor_encode() corresponding to the key @p name
- * and convert it into human readable ascii text. It does this by
- * calling the @p dumpfunc callback for all new text that is
- * generated. This callback should append to any existing text
- * buffer and will be passed the pointer @p dumpdata as a parameter
- * as well as a string with new text to be appended.
- *
- * @see eet_data_dump_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI int eet_data_dump(Eet_File *ef, const char *name, void (*dumpfunc) (void *data, const char *str), void *dumpdata);
-
- /**
- * Take an ascii encoding from eet_data_dump() and re-encode in binary.
- * @param ef A valid eet file handle.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param text The pointer to the string data to parse and encode.
- * @param textlen The size of the string in bytes (not including 0
- * byte terminator).
- * @param compress Compression flags (1 == compress, 0 = don't compress).
- * @return 1 on success, 0 on failure
- *
- * This function will parse the string pointed to by @p text,
- * encode it the same way eet_data_descriptor_encode() takes an
- * in-memory data struct and encodes into a binary blob.
- *
- * The data (optionally compressed) will be in ram, pending a flush to
- * disk (it will stay in ram till the eet file handle is closed though).
- *
- * @see eet_data_undump_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI int eet_data_undump(Eet_File *ef, const char *name, const char *text, int textlen, int compress);
-
- /**
- * Decode a data structure from an arbitary location in memory.
- * @param edd The data descriptor to use when decoding.
- * @param data_in The pointer to the data to decode into a struct.
- * @param size_in The size of the data pointed to in bytes.
- * @return NULL on failure, or a valid decoded struct pointer on success.
- *
- * This function will decode a data structure that has been encoded using
- * eet_data_descriptor_encode(), and return a data structure with all its
- * elements filled out, if successful, or NULL on failure.
- *
- * The data to be decoded is stored at the memory pointed to by @p data_in,
- * and is described by the descriptor pointed to by @p edd. The data size is
- * passed in as the value to @p size_in, ande must be greater than 0 to
- * succeed.
- *
- * This function is useful for decoding data structures delivered to the
- * application by means other than an eet file, such as an IPC or socket
- * connection, raw files, shared memory etc.
- *
- * Please see eet_data_read() for more information.
- *
- * @see eet_data_descriptor_decode_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI void *eet_data_descriptor_decode(Eet_Data_Descriptor *edd, const void *data_in, int size_in);
-
- /**
- * Encode a dsata struct to memory and return that encoded data.
- * @param edd The data descriptor to use when encoding.
- * @param data_in The pointer to the struct to encode into data.
- * @param size_ret pointer to the an int to be filled with the decoded size.
- * @return NULL on failure, or a valid encoded data chunk on success.
- *
- * This function takes a data structutre in memory and encodes it into a
- * serialised chunk of data that can be decoded again by
- * eet_data_descriptor_decode(). This is useful for being able to transmit
- * data structures across sockets, pipes, IPC or shared file mechanisms,
- * without having to worry about memory space, machine type, endianess etc.
- *
- * The parameter @p edd must point to a valid data descriptor, and
- * @p data_in must point to the right data structure to encode. If not, the
- * encoding may fail.
- *
- * On success a non NULL valid pointer is returned and what @p size_ret
- * points to is set to the size of this decoded data, in bytes. When the
- * encoded data is no longer needed, call free() on it. On failure NULL is
- * returned and what @p size_ret points to is set to 0.
- *
- * Please see eet_data_write() for more information.
- *
- * @see eet_data_descriptor_encode_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
- EAPI void *eet_data_descriptor_encode(Eet_Data_Descriptor *edd, const void *data_in, int *size_ret);
-
- /**
- * Add a basic data element to a data descriptor.
- * @param edd The data descriptor to add the type to.
- * @param struct_type The type of the struct.
- * @param name The string name to use to encode/decode this member
- * (must be a constant global and never change).
- * @param member The struct member itself to be encoded.
- * @param type The type of the member to encode.
- *
- * This macro is a convenience macro provided to add a member to
- * the data descriptor @p edd. The type of the structure is
- * provided as the @p struct_type parameter (for example: struct
- * my_struct). The @p name parameter defines a string that will be
- * used to uniquely name that member of the struct (it is suggested
- * to use the struct member itself). The @p member parameter is
- * the actual struct member itself (for eet_dictionary_string_check
- * example: values), and @p type is the basic data type of the
- * member which must be one of: EET_T_CHAR, EET_T_SHORT, EET_T_INT,
- * EET_T_LONG_LONG, EET_T_FLOAT, EET_T_DOUBLE, EET_T_UCHAR,
- * EET_T_USHORT, EET_T_UINT, EET_T_ULONG_LONG or EET_T_STRING.
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
+/**
+ * @typedef Eet_Data_Descriptor_Class
+ *
+ * Instructs Eet about memory management for different needs under
+ * serialization and parse process.
+ */
+typedef struct _Eet_Data_Descriptor_Class Eet_Data_Descriptor_Class;
+
+/**
+ * @struct _Eet_Data_Descriptor_Class
+ *
+ * Instructs Eet about memory management for different needs under
+ * serialization and parse process.
+ *
+ * If using Eina data types, it is advised to use the helpers
+ * EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET() and
+ * EET_EINA_FILE_DATA_DESCRIPTOR_CLASS_SET().
+ */
+struct _Eet_Data_Descriptor_Class
+{
+ int version; /**< ABI version as #EET_DATA_DESCRIPTOR_CLASS_VERSION */
+ const char *name; /**< Name of data type to be serialized */
+ int size; /**< Size in bytes of data type to be serialized */
+ struct
+ {
+ void *(*mem_alloc)(size_t size); /**< how to allocate memory (usually malloc()) */
+ void (*mem_free)(void *mem); /**< how to free memory (usually free()) */
+ char *(*str_alloc)(const char *str); /**< how to allocate a string */
+ void (*str_free)(const char *str); /**< how to free a string */
+ void *(*list_next)(void *l); /**< how to iterate to the next element of a list. Receives and should return the list node. */
+ void *(*list_append)(void *l, void *d); /**< how to append data @p d to list which head node is @p l */
+ void *(*list_data)(void *l); /**< retrieves the data from node @p l */
+ void *(*list_free)(void *l); /**< free all the nodes from the list which head node is @p l */
+ void (*hash_foreach)(void *h,
+ int (*func)(void *h, const char *k, void *dt,
+ void *fdt), void *fdt); /**< iterates over all elements in the hash @p h in no specific order */
+ void *(*hash_add)(void *h, const char *k, void *d); /**< add a new data @p d as key @p k in hash @p h */
+ void (*hash_free)(void *h); /**< free all entries from the hash @p h */
+ char *(*str_direct_alloc)(const char *str); /**< how to allocate a string directly from file backed/mmaped region pointed by @p str */
+ void (*str_direct_free)(const char *str); /**< how to free a string returned by str_direct_alloc */
+
+ const char *(*type_get)(const void *data, Eina_Bool *unknow); /**< convert any kind of data type to a name that define an Eet_Data_Element. */
+ Eina_Bool (*type_set)(const char *type, void *data, Eina_Bool unknow); /**< set the type at a particular adress */
+ } func;
+};
+
+/**
+ * @}
+ */
+
+/**
+ * Create a new empty data structure descriptor.
+ * @param name The string name of this data structure (most be a
+ * global constant and never change).
+ * @param size The size of the struct (in bytes).
+ * @param func_list_next The function to get the next list node.
+ * @param func_list_append The function to append a member to a list.
+ * @param func_list_data The function to get the data from a list node.
+ * @param func_list_free The function to free an entire linked list.
+ * @param func_hash_foreach The function to iterate through all
+ * hash table entries.
+ * @param func_hash_add The function to add a member to a hash table.
+ * @param func_hash_free The function to free an entire hash table.
+ * @return A new empty data descriptor.
+ *
+ * This function creates a new data descriptore and returns a handle to the
+ * new data descriptor. On creation it will be empty, containing no contents
+ * describing anything other than the shell of the data structure.
+ *
+ * You add structure members to the data descriptor using the macros
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(), EET_DATA_DESCRIPTOR_ADD_SUB() and
+ * EET_DATA_DESCRIPTOR_ADD_LIST(), depending on what type of member you are
+ * adding to the description.
+ *
+ * Once you have described all the members of a struct you want loaded, or
+ * saved eet can load and save those members for you, encode them into
+ * endian-independant serialised data chunks for transmission across a
+ * a network or more.
+ *
+ * The function pointers to the list and hash table functions are only
+ * needed if you use those data types, else you can pass NULL instead.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ *
+ * @deprecated use eet_data_descriptor_stream_new() or
+ * eet_data_descriptor_file_new()
+ */
+EINA_DEPRECATED EAPI Eet_Data_Descriptor *eet_data_descriptor_new(
+ const char *name,
+ int size,
+ void *(*func_list_next)(void *l),
+ void *(*func_list_append)(void *l, void *d),
+ void *(*func_list_data)(void *l),
+ void *(*func_list_free)(void *l),
+ void (*func_hash_foreach)(void *h, int (*func)(void *h,
+ const char *k,
+ void *dt,
+ void *fdt), void *fdt),
+ void *(*func_hash_add)(void *h, const char *k, void *d),
+ void (*func_hash_free)(void *h));
+/*
+ * FIXME:
+ *
+ * moving to this api from the old above. this will break things when the
+ * move happens - but be warned
+ */
+EINA_DEPRECATED EAPI Eet_Data_Descriptor *eet_data_descriptor2_new(
+ const Eet_Data_Descriptor_Class *eddc);
+EINA_DEPRECATED EAPI Eet_Data_Descriptor *eet_data_descriptor3_new(
+ const Eet_Data_Descriptor_Class *eddc);
+
+/**
+ * This function creates a new data descriptore and returns a handle to the
+ * new data descriptor. On creation it will be empty, containing no contents
+ * describing anything other than the shell of the data structure.
+ * @param eddc The data descriptor to free.
+ *
+ * You add structure members to the data descriptor using the macros
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(), EET_DATA_DESCRIPTOR_ADD_SUB() and
+ * EET_DATA_DESCRIPTOR_ADD_LIST(), depending on what type of member you are
+ * adding to the description.
+ *
+ * Once you have described all the members of a struct you want loaded, or
+ * saved eet can load and save those members for you, encode them into
+ * endian-independant serialised data chunks for transmission across a
+ * a network or more.
+ *
+ * This function specially ignore str_direct_alloc and str_direct_free. It
+ * is usefull when the eet_data you are reading don't have a dictionnary
+ * like network stream or ipc. It also mean that all string will be allocated
+ * and duplicated in memory.
+ *
+ * @since 1.2.3
+ * @ingroup Eet_Data_Group
+ */
+EAPI Eet_Data_Descriptor * eet_data_descriptor_stream_new(
+ const Eet_Data_Descriptor_Class *eddc);
+
+/**
+ * This function creates a new data descriptore and returns a handle to the
+ * new data descriptor. On creation it will be empty, containing no contents
+ * describing anything other than the shell of the data structure.
+ * @param eddc The data descriptor to free.
+ *
+ * You add structure members to the data descriptor using the macros
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(), EET_DATA_DESCRIPTOR_ADD_SUB() and
+ * EET_DATA_DESCRIPTOR_ADD_LIST(), depending on what type of member you are
+ * adding to the description.
+ *
+ * Once you have described all the members of a struct you want loaded, or
+ * saved eet can load and save those members for you, encode them into
+ * endian-independant serialised data chunks for transmission across a
+ * a network or more.
+ *
+ * This function use str_direct_alloc and str_direct_free. It is
+ * usefull when the eet_data you are reading come from a file and
+ * have a dictionnary. This will reduce memory use, improve the
+ * possibility for the OS to page this string out. But be carrefull
+ * all EET_T_STRING are pointer to a mmapped area and it will point
+ * to nowhere if you close the file. So as long as you use this
+ * strings, you need to have the Eet_File open.
+ *
+ * @since 1.2.3
+ * @ingroup Eet_Data_Group
+ */
+EAPI Eet_Data_Descriptor * eet_data_descriptor_file_new(
+ const Eet_Data_Descriptor_Class *eddc);
+
+/**
+ * This function is an helper that set all the parameter of an
+ * Eet_Data_Descriptor_Class correctly when you use Eina data type
+ * with a stream.
+ * @param eddc The Eet_Data_Descriptor_Class you want to set.
+ * @param name The name of the structure described by this class.
+ * @param size The size of the structure described by this class.
+ * @return EINA_TRUE if the structure was correctly set (The only
+ * reason that could make it fail is if you did give wrong
+ * parameter).
+ *
+ * @since 1.2.3
+ * @ingroup Eet_Data_Group
+ */
+EAPI Eina_Bool
+ eet_eina_stream_data_descriptor_class_set(
+ Eet_Data_Descriptor_Class *eddc,
+ const char *name,
+ int size);
+
+/**
+ * This macro is an helper that set all the parameter of an
+ * Eet_Data_Descriptor_Class correctly when you use Eina data type
+ * with stream.
+ * @param Clas The Eet_Data_Descriptor_Class you want to set.
+ * @param Type The type of the structure described by this class.
+ * @return EINA_TRUE if the structure was correctly set (The only
+ * reason that could make it fail is if you did give wrong
+ * parameter).
+ *
+ * @since 1.2.3
+ * @ingroup Eet_Data_Group
+ */
+#define EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(Clas, \
+ Type) ( \
+ eet_eina_stream_data_descriptor_class_set(Clas, # Type, sizeof (Type)))
+
+/**
+ * This function is an helper that set all the parameter of an
+ * Eet_Data_Descriptor_Class correctly when you use Eina data type
+ * with a file.
+ * @param eddc The Eet_Data_Descriptor_Class you want to set.
+ * @param name The name of the structure described by this class.
+ * @param size The size of the structure described by this class.
+ * @return EINA_TRUE if the structure was correctly set (The only
+ * reason that could make it fail is if you did give wrong
+ * parameter).
+ *
+ * @since 1.2.3
+ * @ingroup Eet_Data_Group
+ */
+EAPI Eina_Bool eet_eina_file_data_descriptor_class_set(
+ Eet_Data_Descriptor_Class *eddc,
+ const char *name,
+ int size);
+
+/**
+ * This macro is an helper that set all the parameter of an
+ * Eet_Data_Descriptor_Class correctly when you use Eina data type
+ * with file.
+ * @param Clas The Eet_Data_Descriptor_Class you want to set.
+ * @param Type The type of the structure described by this class.
+ * @return EINA_TRUE if the structure was correctly set (The only
+ * reason that could make it fail is if you did give wrong
+ * parameter).
+ *
+ * @since 1.2.3
+ * @ingroup Eet_Data_Group
+ */
+#define EET_EINA_FILE_DATA_DESCRIPTOR_CLASS_SET(Clas, \
+ Type) ( \
+ eet_eina_file_data_descriptor_class_set(Clas, # Type, sizeof (Type)))
+
+/**
+ * This function frees a data descriptor when it is not needed anymore.
+ * @param edd The data descriptor to free.
+ *
+ * This function takes a data descriptor handle as a parameter and frees all
+ * data allocated for the data descriptor and the handle itself. After this
+ * call the descriptor is no longer valid.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI void eet_data_descriptor_free(Eet_Data_Descriptor *edd);
+
+/**
+ * This function is an internal used by macros.
+ *
+ * This function is used by macros EET_DATA_DESCRIPTOR_ADD_BASIC(),
+ * EET_DATA_DESCRIPTOR_ADD_SUB() and EET_DATA_DESCRIPTOR_ADD_LIST(). It is
+ * complex to use by hand and should be left to be used by the macros, and
+ * thus is not documented.
+ *
+ * @param edd The data descriptor handle to add element (member).
+ * @param name The name of element to be serialized.
+ * @param type The type of element to be serialized, like
+ * #EET_T_INT. If #EET_T_UNKNOW, then it is considered to be a
+ * group, list or hash.
+ * @param group_type If element type is #EET_T_UNKNOW, then the @p
+ * group_type will speficy if it is a list (#EET_G_LIST),
+ * array (#EET_G_ARRAY) and so on. If #EET_G_UNKNOWN, then
+ * the member is a subtype (pointer to another type defined by
+ * another #Eet_Data_Descriptor).
+ * @param offset byte offset inside the source memory to be serialized.
+ * @param count number of elements (if #EET_G_ARRAY or #EET_G_VAR_ARRAY).
+ * @param counter_name variable that defines the name of number of elements.
+ * @param subtype If contains a subtype, then its data descriptor.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI void eet_data_descriptor_element_add(Eet_Data_Descriptor *edd,
+ const char *name,
+ int type,
+ int group_type,
+ int offset,
+ /* int count_offset, */ int count,
+ const char *counter_name,
+ Eet_Data_Descriptor *subtype);
+
+/**
+ * Read a data structure from an eet file and decodes it.
+ * @param ef The eet file handle to read from.
+ * @param edd The data descriptor handle to use when decoding.
+ * @param name The key the data is stored under in the eet file.
+ * @return A pointer to the decoded data structure.
+ *
+ * This function decodes a data structure stored in an eet file, returning
+ * a pointer to it if it decoded successfully, or NULL on failure. This
+ * can save a programmer dozens of hours of work in writing configuration
+ * file parsing and writing code, as eet does all that work for the program
+ * and presents a program-friendly data structure, just as the programmer
+ * likes. Eet can handle members being added or deleted from the data in
+ * storage and safely zero-fills unfilled members if they were not found
+ * in the data. It checks sizes and headers whenever it reads data, allowing
+ * the programmer to not worry about corrupt data.
+ *
+ * Once a data structure has been described by the programmer with the
+ * fields they wish to save or load, storing or retrieving a data structure
+ * from an eet file, or from a chunk of memory is as simple as a single
+ * function call.
+ *
+ * @see eet_data_read_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI void *eet_data_read(Eet_File *ef,
+ Eet_Data_Descriptor *edd,
+ const char *name);
+
+/**
+ * Write a data structure from memory and store in an eet file.
+ * @param ef The eet file handle to write to.
+ * @param edd The data descriptor to use when encoding.
+ * @param name The key to store the data under in the eet file.
+ * @param data A pointer to the data structure to ssave and encode.
+ * @param compress Compression flags for storage.
+ * @return bytes written on successful write, 0 on failure.
+ *
+ * This function is the reverse of eet_data_read(), saving a data structure
+ * to an eet file.
+ *
+ * @see eet_data_write_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI int eet_data_write(Eet_File *ef,
+ Eet_Data_Descriptor *edd,
+ const char *name,
+ const void *data,
+ int compress);
+
+/**
+ * Dump an eet encoded data structure into ascii text
+ * @param data_in The pointer to the data to decode into a struct.
+ * @param size_in The size of the data pointed to in bytes.
+ * @param dumpfunc The function to call passed a string when new
+ * data is converted to text
+ * @param dumpdata The data to pass to the @p dumpfunc callback.
+ * @return 1 on success, 0 on failure
+ *
+ * This function will take a chunk of data encoded by
+ * eet_data_descriptor_encode() and convert it into human readable
+ * ascii text. It does this by calling the @p dumpfunc callback
+ * for all new text that is generated. This callback should append
+ * to any existing text buffer and will be passed the pointer @p
+ * dumpdata as a parameter as well as a string with new text to be
+ * appended.
+ *
+ * Example:
+ *
+ * @code
+ * void output(void *data, const char *string)
+ * {
+ * printf("%s", string);
+ * }
+ *
+ * void dump(const char *file)
+ * {
+ * FILE *f;
+ * int len;
+ * void *data;
+ *
+ * f = fopen(file, "r");
+ * fseek(f, 0, SEEK_END);
+ * len = ftell(f);
+ * rewind(f);
+ * data = malloc(len);
+ * fread(data, len, 1, f);
+ * fclose(f);
+ * eet_data_text_dump(data, len, output, NULL);
+ * }
+ * @endcode
+ *
+ * @see eet_data_text_dump_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI int eet_data_text_dump(const void *data_in, int size_in, void (*dumpfunc)(
+ void *data,
+ const char *str), void *dumpdata);
+
+/**
+ * Take an ascii encoding from eet_data_text_dump() and re-encode in binary.
+ * @param text The pointer to the string data to parse and encode.
+ * @param textlen The size of the string in bytes (not including 0
+ * byte terminator).
+ * @param size_ret This gets filled in with the encoded data blob
+ * size in bytes.
+ * @return The encoded data on success, NULL on failure.
+ *
+ * This function will parse the string pointed to by @p text and return
+ * an encoded data lump the same way eet_data_descriptor_encode() takes an
+ * in-memory data struct and encodes into a binary blob. @p text is a normal
+ * C string.
+ *
+ * @see eet_data_text_undump_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI void *eet_data_text_undump(const char *text, int textlen, int *size_ret);
+
+/**
+ * Dump an eet encoded data structure from an eet file into ascii text
+ * @param ef A valid eet file handle.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param dumpfunc The function to call passed a string when new
+ * data is converted to text
+ * @param dumpdata The data to pass to the @p dumpfunc callback.
+ * @return 1 on success, 0 on failure
+ *
+ * This function will take an open and valid eet file from
+ * eet_open() request the data encoded by
+ * eet_data_descriptor_encode() corresponding to the key @p name
+ * and convert it into human readable ascii text. It does this by
+ * calling the @p dumpfunc callback for all new text that is
+ * generated. This callback should append to any existing text
+ * buffer and will be passed the pointer @p dumpdata as a parameter
+ * as well as a string with new text to be appended.
+ *
+ * @see eet_data_dump_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI int eet_data_dump(Eet_File *ef, const char *name, void (*dumpfunc)(
+ void *data,
+ const char *str), void *dumpdata);
+
+/**
+ * Take an ascii encoding from eet_data_dump() and re-encode in binary.
+ * @param ef A valid eet file handle.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param text The pointer to the string data to parse and encode.
+ * @param textlen The size of the string in bytes (not including 0
+ * byte terminator).
+ * @param compress Compression flags (1 == compress, 0 = don't compress).
+ * @return 1 on success, 0 on failure
+ *
+ * This function will parse the string pointed to by @p text,
+ * encode it the same way eet_data_descriptor_encode() takes an
+ * in-memory data struct and encodes into a binary blob.
+ *
+ * The data (optionally compressed) will be in ram, pending a flush to
+ * disk (it will stay in ram till the eet file handle is closed though).
+ *
+ * @see eet_data_undump_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI int eet_data_undump(Eet_File *ef,
+ const char *name,
+ const char *text,
+ int textlen,
+ int compress);
+
+/**
+ * Decode a data structure from an arbitary location in memory.
+ * @param edd The data descriptor to use when decoding.
+ * @param data_in The pointer to the data to decode into a struct.
+ * @param size_in The size of the data pointed to in bytes.
+ * @return NULL on failure, or a valid decoded struct pointer on success.
+ *
+ * This function will decode a data structure that has been encoded using
+ * eet_data_descriptor_encode(), and return a data structure with all its
+ * elements filled out, if successful, or NULL on failure.
+ *
+ * The data to be decoded is stored at the memory pointed to by @p data_in,
+ * and is described by the descriptor pointed to by @p edd. The data size is
+ * passed in as the value to @p size_in, ande must be greater than 0 to
+ * succeed.
+ *
+ * This function is useful for decoding data structures delivered to the
+ * application by means other than an eet file, such as an IPC or socket
+ * connection, raw files, shared memory etc.
+ *
+ * Please see eet_data_read() for more information.
+ *
+ * @see eet_data_descriptor_decode_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI void *eet_data_descriptor_decode(Eet_Data_Descriptor *edd,
+ const void *data_in,
+ int size_in);
+
+/**
+ * Encode a dsata struct to memory and return that encoded data.
+ * @param edd The data descriptor to use when encoding.
+ * @param data_in The pointer to the struct to encode into data.
+ * @param size_ret pointer to the an int to be filled with the decoded size.
+ * @return NULL on failure, or a valid encoded data chunk on success.
+ *
+ * This function takes a data structutre in memory and encodes it into a
+ * serialised chunk of data that can be decoded again by
+ * eet_data_descriptor_decode(). This is useful for being able to transmit
+ * data structures across sockets, pipes, IPC or shared file mechanisms,
+ * without having to worry about memory space, machine type, endianess etc.
+ *
+ * The parameter @p edd must point to a valid data descriptor, and
+ * @p data_in must point to the right data structure to encode. If not, the
+ * encoding may fail.
+ *
+ * On success a non NULL valid pointer is returned and what @p size_ret
+ * points to is set to the size of this decoded data, in bytes. When the
+ * encoded data is no longer needed, call free() on it. On failure NULL is
+ * returned and what @p size_ret points to is set to 0.
+ *
+ * Please see eet_data_write() for more information.
+ *
+ * @see eet_data_descriptor_encode_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
+EAPI void *eet_data_descriptor_encode(Eet_Data_Descriptor *edd,
+ const void *data_in,
+ int *size_ret);
+
+/**
+ * Add a basic data element to a data descriptor.
+ * @param edd The data descriptor to add the type to.
+ * @param struct_type The type of the struct.
+ * @param name The string name to use to encode/decode this member
+ * (must be a constant global and never change).
+ * @param member The struct member itself to be encoded.
+ * @param type The type of the member to encode.
+ *
+ * This macro is a convenience macro provided to add a member to
+ * the data descriptor @p edd. The type of the structure is
+ * provided as the @p struct_type parameter (for example: struct
+ * my_struct). The @p name parameter defines a string that will be
+ * used to uniquely name that member of the struct (it is suggested
+ * to use the struct member itself). The @p member parameter is
+ * the actual struct member itself (for eet_dictionary_string_check
+ * example: values), and @p type is the basic data type of the
+ * member which must be one of: EET_T_CHAR, EET_T_SHORT, EET_T_INT,
+ * EET_T_LONG_LONG, EET_T_FLOAT, EET_T_DOUBLE, EET_T_UCHAR,
+ * EET_T_USHORT, EET_T_UINT, EET_T_ULONG_LONG or EET_T_STRING.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
#define EET_DATA_DESCRIPTOR_ADD_BASIC(edd, struct_type, name, member, type) \
- { \
- struct_type ___ett; \
- \
- eet_data_descriptor_element_add(edd, name, type, EET_G_UNKNOWN, \
- (char *)(&(___ett.member)) - (char *)(&(___ett)), \
- 0, /* 0, */NULL, NULL); \
- }
-
- /**
- * Add a sub-element type to a data descriptor
- * @param edd The data descriptor to add the type to.
- * @param struct_type The type of the struct.
- * @param name The string name to use to encode/decode this member
- * (must be a constant global and never change).
- * @param member The struct member itself to be encoded.
- * @param subtype The type of sub-type struct to add.
- *
- * This macro lets you easily add a sub-type (a struct that's pointed to
- * by this one). All the parameters are the same as for
- * EET_DATA_DESCRIPTOR_ADD_BASIC(), with the @p subtype being the exception.
- * This must be the data descriptor of the struct that is pointed to by
- * this element.
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
+ { \
+ struct_type ___ett; \
+ \
+ eet_data_descriptor_element_add(edd, name, type, EET_G_UNKNOWN, \
+ (char *)(& (___ett.member)) - \
+ (char *)(& (___ett)), \
+ 0, /* 0, */ NULL, NULL); \
+ }
+
+/**
+ * Add a sub-element type to a data descriptor
+ * @param edd The data descriptor to add the type to.
+ * @param struct_type The type of the struct.
+ * @param name The string name to use to encode/decode this member
+ * (must be a constant global and never change).
+ * @param member The struct member itself to be encoded.
+ * @param subtype The type of sub-type struct to add.
+ *
+ * This macro lets you easily add a sub-type (a struct that's pointed to
+ * by this one). All the parameters are the same as for
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(), with the @p subtype being the exception.
+ * This must be the data descriptor of the struct that is pointed to by
+ * this element.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
#define EET_DATA_DESCRIPTOR_ADD_SUB(edd, struct_type, name, member, subtype) \
- { \
- struct_type ___ett; \
- \
- eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_UNKNOWN, \
- (char *)(&(___ett.member)) - (char *)(&(___ett)), \
- 0, /* 0, */NULL, subtype); \
- }
-
- /**
- * Add a linked list type to a data descriptor
- * @param edd The data descriptor to add the type to.
- * @param struct_type The type of the struct.
- * @param name The string name to use to encode/decode this member
- * (must be a constant global and never change).
- * @param member The struct member itself to be encoded.
- * @param subtype The type of linked list member to add.
- *
- * This macro lets you easily add a linked list of other data types. All the
- * parameters are the same as for EET_DATA_DESCRIPTOR_ADD_BASIC(), with the
- * @p subtype being the exception. This must be the data descriptor of the
- * element that is in each member of the linked list to be stored.
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
+ { \
+ struct_type ___ett; \
+ \
+ eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_UNKNOWN, \
+ (char *)(& (___ett.member)) - \
+ (char *)(& (___ett)), \
+ 0, /* 0, */ NULL, subtype); \
+ }
+
+/**
+ * Add a linked list type to a data descriptor
+ * @param edd The data descriptor to add the type to.
+ * @param struct_type The type of the struct.
+ * @param name The string name to use to encode/decode this member
+ * (must be a constant global and never change).
+ * @param member The struct member itself to be encoded.
+ * @param subtype The type of linked list member to add.
+ *
+ * This macro lets you easily add a linked list of other data types. All the
+ * parameters are the same as for EET_DATA_DESCRIPTOR_ADD_BASIC(), with the
+ * @p subtype being the exception. This must be the data descriptor of the
+ * element that is in each member of the linked list to be stored.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
#define EET_DATA_DESCRIPTOR_ADD_LIST(edd, struct_type, name, member, subtype) \
- { \
- struct_type ___ett; \
- \
- eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_LIST, \
- (char *)(&(___ett.member)) - (char *)(&(___ett)), \
- 0, /* 0, */NULL, subtype); \
- }
-
- /**
- * Add a hash type to a data descriptor
- * @param edd The data descriptor to add the type to.
- * @param struct_type The type of the struct.
- * @param name The string name to use to encode/decode this member
- * (must be a constant global and never change).
- * @param member The struct member itself to be encoded.
- * @param subtype The type of hash member to add.
- *
- * This macro lets you easily add a hash of other data types. All the
- * parameters are the same as for EET_DATA_DESCRIPTOR_ADD_BASIC(), with the
- * @p subtype being the exception. This must be the data descriptor of the
- * element that is in each member of the hash to be stored.
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Group
- */
+ { \
+ struct_type ___ett; \
+ \
+ eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_LIST, \
+ (char *)(& (___ett.member)) - \
+ (char *)(& (___ett)), \
+ 0, /* 0, */ NULL, subtype); \
+ }
+
+/**
+ * Add a hash type to a data descriptor
+ * @param edd The data descriptor to add the type to.
+ * @param struct_type The type of the struct.
+ * @param name The string name to use to encode/decode this member
+ * (must be a constant global and never change).
+ * @param member The struct member itself to be encoded.
+ * @param subtype The type of hash member to add.
+ *
+ * This macro lets you easily add a hash of other data types. All the
+ * parameters are the same as for EET_DATA_DESCRIPTOR_ADD_BASIC(), with the
+ * @p subtype being the exception. This must be the data descriptor of the
+ * element that is in each member of the hash to be stored.
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Group
+ */
#define EET_DATA_DESCRIPTOR_ADD_HASH(edd, struct_type, name, member, subtype) \
- { \
- struct_type ___ett; \
- \
- eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_HASH, \
- (char *)(&(___ett.member)) - (char *)(&(___ett)), \
- 0, /* 0, */NULL, subtype); \
- }
-
- /**
- * Add a fixed size array type to a data descriptor
- * @param edd The data descriptor to add the type to.
- * @param struct_type The type of the struct.
- * @param name The string name to use to encode/decode this member
- * (must be a constant global and never change).
- * @param member The struct member itself to be encoded.
- * @param subtype The type of hash member to add.
- *
- * This macro lets you easily add a fixed size array of other data
- * types. All the parameters are the same as for
- * EET_DATA_DESCRIPTOR_ADD_BASIC(), with the @p subtype being the
- * exception. This must be the data descriptor of the element that
- * is in each member of the hash to be stored.
- *
- * @since 1.0.2
- * @ingroup Eet_Data_Group
- */
+ { \
+ struct_type ___ett; \
+ \
+ eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_HASH, \
+ (char *)(& (___ett.member)) - \
+ (char *)(& (___ett)), \
+ 0, /* 0, */ NULL, subtype); \
+ }
+
+/**
+ * Add a fixed size array type to a data descriptor
+ * @param edd The data descriptor to add the type to.
+ * @param struct_type The type of the struct.
+ * @param name The string name to use to encode/decode this member
+ * (must be a constant global and never change).
+ * @param member The struct member itself to be encoded.
+ * @param subtype The type of hash member to add.
+ *
+ * This macro lets you easily add a fixed size array of other data
+ * types. All the parameters are the same as for
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(), with the @p subtype being the
+ * exception. This must be the data descriptor of the element that
+ * is in each member of the hash to be stored.
+ *
+ * @since 1.0.2
+ * @ingroup Eet_Data_Group
+ */
#define EET_DATA_DESCRIPTOR_ADD_ARRAY(edd, struct_type, name, member, subtype) \
- { \
- struct_type ___ett; \
- \
- eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_ARRAY, \
- (char *)(&(___ett.member)) - (char *)(&(___ett)), \
- /* 0, */sizeof(___ett.member)/sizeof(___ett.member[0]), NULL, subtype); \
- }
-
- /**
- * Add a variable size array type to a data descriptor
- * @param edd The data descriptor to add the type to.
- * @param struct_type The type of the struct.
- * @param name The string name to use to encode/decode this member
- * (must be a constant global and never change).
- * @param member The struct member itself to be encoded.
- * @param subtype The type of hash member to add.
- *
- * This macro lets you easily add a fixed size array of other data
- * types. All the parameters are the same as for
- * EET_DATA_DESCRIPTOR_ADD_BASIC(), with the @p subtype being the
- * exception. This must be the data descriptor of the element that
- * is in each member of the hash to be stored.
- *
- * @since 1.0.2
- * @ingroup Eet_Data_Group
- */
-#define EET_DATA_DESCRIPTOR_ADD_VAR_ARRAY(edd, struct_type, name, member, subtype) \
- { \
- struct_type ___ett; \
- \
- eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_VAR_ARRAY, \
- (char *)(&(___ett.member)) - (char *)(&(___ett)), \
- (char *)(&(___ett.member ## _count)) - (char *)(&(___ett)), /* 0, */NULL, subtype); \
- }
-
- /**
- * Add an union type to a data descriptor
- * @param edd The data descriptor to add the type to.
- * @param struct_type The type of the struct.
- * @param name The string name to use to encode/decode this member
- * (must be a constant global and never change).
- * @param member The struct member itself to be encoded.
- * @param type_member The member that give hints on what is in the union.
- * @param unified_type Describe all possible type the union could handle.
- *
- * This macro lets you easily add an union with a member that specify what is inside.
- * The @p unified_type is an Eet_Data_Descriptor, but only the entry that match the name
- * returned by type_get will be used for each serialized data. The type_get and type_set
- * callback of unified_type should be defined.
- *
- * @since 1.2.4
- * @ingroup Eet_Data_Group
- * @see Eet_Data_Descriptor_Class
- */
-#define EET_DATA_DESCRIPTOR_ADD_UNION(edd, struct_type, name, member, type_member, unified_type) \
- { \
- struct_type ___ett; \
- \
- eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_UNION, \
- (char *) (&(___ett.member)) - (char *)(&(___ett)), \
- (char *) (&(___ett.type_member)) - (char *)(&(___ett)), \
- NULL, unified_type); \
- }
-
- /**
- * Add a automatically selectable type to a data descriptor
- * @param edd The data descriptor to add the type to.
- * @param struct_type The type of the struct.
- * @param name The string name to use to encode/decode this member
- * (must be a constant global and never change).
- * @param member The struct member itself to be encoded.
- * @param type_member The member that give hints on what is in the union.
- * @param unified_type Describe all possible type the union could handle.
- *
- * This macro lets you easily define what the content of @p member points to depending of
- * the content of @p type_member. The type_get and type_set callback of unified_type should
- * be defined. If the the type is not know at the time of restoring it, eet will still call
- * type_set of @p unified_type but the pointer will be set to a serialized binary representation
- * of what eet know. This make it possible, to save this pointer again by just returning the string
- * given previously and telling it by setting unknow to EINA_TRUE.
- *
- * @since 1.2.4
- * @ingroup Eet_Data_Group
- * @see Eet_Data_Descriptor_Class
- */
-#define EET_DATA_DESCRIPTOR_ADD_VARIANT(edd, struct_type, name, member, type_member, unified_type) \
- { \
- struct_type ___ett; \
- \
- eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_VARIANT, \
- (char *) (&(___ett.member)) - (char *)(&(___ett)), \
- (char *) (&(___ett.type_member)) - (char *)(&(___ett)), \
- NULL, unified_type); \
- }
-
- /**
- * Add a mapping to a data descriptor that will be used by union, variant or inherited type
- * @param unified_type The data descriptor to add the mapping to.
- * @param name The string name to get/set type.
- * @param subtype The matching data descriptor.
- *
- * @since 1.2.4
- * @ingroup Eet_Data_Group
- * @see Eet_Data_Descriptor_Class
- */
+ { \
+ struct_type ___ett; \
+ \
+ eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_ARRAY, \
+ (char *)(& (___ett.member)) - \
+ (char *)(& (___ett)), \
+ /* 0, */ sizeof(___ett.member) / \
+ sizeof(___ett.member[0]), NULL, subtype); \
+ }
+
+/**
+ * Add a variable size array type to a data descriptor
+ * @param edd The data descriptor to add the type to.
+ * @param struct_type The type of the struct.
+ * @param name The string name to use to encode/decode this member
+ * (must be a constant global and never change).
+ * @param member The struct member itself to be encoded.
+ * @param subtype The type of hash member to add.
+ *
+ * This macro lets you easily add a fixed size array of other data
+ * types. All the parameters are the same as for
+ * EET_DATA_DESCRIPTOR_ADD_BASIC(), with the @p subtype being the
+ * exception. This must be the data descriptor of the element that
+ * is in each member of the hash to be stored.
+ *
+ * @since 1.0.2
+ * @ingroup Eet_Data_Group
+ */
+#define EET_DATA_DESCRIPTOR_ADD_VAR_ARRAY(edd, \
+ struct_type, \
+ name, \
+ member, \
+ subtype) \
+ { \
+ struct_type ___ett; \
+ \
+ eet_data_descriptor_element_add(edd, \
+ name, \
+ EET_T_UNKNOW, \
+ EET_G_VAR_ARRAY, \
+ (char *)(& (___ett.member)) - \
+ (char *)(& (___ett)), \
+ (char *)(& (___ett.member ## _count)) - \
+ (char *)(& (___ett)), \
+ /* 0, */ NULL, \
+ subtype); \
+ }
+
+/**
+ * Add an union type to a data descriptor
+ * @param edd The data descriptor to add the type to.
+ * @param struct_type The type of the struct.
+ * @param name The string name to use to encode/decode this member
+ * (must be a constant global and never change).
+ * @param member The struct member itself to be encoded.
+ * @param type_member The member that give hints on what is in the union.
+ * @param unified_type Describe all possible type the union could handle.
+ *
+ * This macro lets you easily add an union with a member that specify what is inside.
+ * The @p unified_type is an Eet_Data_Descriptor, but only the entry that match the name
+ * returned by type_get will be used for each serialized data. The type_get and type_set
+ * callback of unified_type should be defined.
+ *
+ * @since 1.2.4
+ * @ingroup Eet_Data_Group
+ * @see Eet_Data_Descriptor_Class
+ */
+#define EET_DATA_DESCRIPTOR_ADD_UNION(edd, \
+ struct_type, \
+ name, \
+ member, \
+ type_member, \
+ unified_type) \
+ { \
+ struct_type ___ett; \
+ \
+ eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_UNION, \
+ (char *)(& (___ett.member)) - \
+ (char *)(& (___ett)), \
+ (char *)(& (___ett.type_member)) - \
+ (char *)(& (___ett)), \
+ NULL, unified_type); \
+ }
+
+/**
+ * Add a automatically selectable type to a data descriptor
+ * @param edd The data descriptor to add the type to.
+ * @param struct_type The type of the struct.
+ * @param name The string name to use to encode/decode this member
+ * (must be a constant global and never change).
+ * @param member The struct member itself to be encoded.
+ * @param type_member The member that give hints on what is in the union.
+ * @param unified_type Describe all possible type the union could handle.
+ *
+ * This macro lets you easily define what the content of @p member points to depending of
+ * the content of @p type_member. The type_get and type_set callback of unified_type should
+ * be defined. If the the type is not know at the time of restoring it, eet will still call
+ * type_set of @p unified_type but the pointer will be set to a serialized binary representation
+ * of what eet know. This make it possible, to save this pointer again by just returning the string
+ * given previously and telling it by setting unknow to EINA_TRUE.
+ *
+ * @since 1.2.4
+ * @ingroup Eet_Data_Group
+ * @see Eet_Data_Descriptor_Class
+ */
+#define EET_DATA_DESCRIPTOR_ADD_VARIANT(edd, \
+ struct_type, \
+ name, \
+ member, \
+ type_member, \
+ unified_type) \
+ { \
+ struct_type ___ett; \
+ \
+ eet_data_descriptor_element_add(edd, name, EET_T_UNKNOW, EET_G_VARIANT, \
+ (char *)(& (___ett.member)) - \
+ (char *)(& (___ett)), \
+ (char *)(& (___ett.type_member)) - \
+ (char *)(& (___ett)), \
+ NULL, unified_type); \
+ }
+
+/**
+ * Add a mapping to a data descriptor that will be used by union, variant or inherited type
+ * @param unified_type The data descriptor to add the mapping to.
+ * @param name The string name to get/set type.
+ * @param subtype The matching data descriptor.
+ *
+ * @since 1.2.4
+ * @ingroup Eet_Data_Group
+ * @see Eet_Data_Descriptor_Class
+ */
#define EET_DATA_DESCRIPTOR_ADD_MAPPING(unified_type, name, subtype) \
- eet_data_descriptor_element_add(unified_type, name, EET_T_UNKNOW, EET_G_UNKNOWN, 0, 0, NULL, subtype);
-
- /**
- * @defgroup Eet_Data_Cipher_Group Eet Data Serialization using A Ciphers
- *
- * Most of the @ref Eet_Data_Group have alternative versions that
- * accounts for ciphers to protect their content.
- *
- * @see @ref Eet_Cipher_Group
- *
- * @ingroup Eet_Data_Group
- */
-
- /**
- * Read a data structure from an eet file and decodes it using a cipher.
- * @param ef The eet file handle to read from.
- * @param edd The data descriptor handle to use when decoding.
- * @param name The key the data is stored under in the eet file.
- * @param cipher_key The key to use as cipher.
- * @return A pointer to the decoded data structure.
- *
- * This function decodes a data structure stored in an eet file, returning
- * a pointer to it if it decoded successfully, or NULL on failure. This
- * can save a programmer dozens of hours of work in writing configuration
- * file parsing and writing code, as eet does all that work for the program
- * and presents a program-friendly data structure, just as the programmer
- * likes. Eet can handle members being added or deleted from the data in
- * storage and safely zero-fills unfilled members if they were not found
- * in the data. It checks sizes and headers whenever it reads data, allowing
- * the programmer to not worry about corrupt data.
- *
- * Once a data structure has been described by the programmer with the
- * fields they wish to save or load, storing or retrieving a data structure
- * from an eet file, or from a chunk of memory is as simple as a single
- * function call.
- *
- * @see eet_data_read()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Cipher_Group
- */
- EAPI void *eet_data_read_cipher(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name, const char *cipher_key);
-
- /**
- * Write a data structure from memory and store in an eet file
- * using a cipher.
- * @param ef The eet file handle to write to.
- * @param edd The data descriptor to use when encoding.
- * @param name The key to store the data under in the eet file.
- * @param cipher_key The key to use as cipher.
- * @param data A pointer to the data structure to ssave and encode.
- * @param compress Compression flags for storage.
- * @return bytes written on successful write, 0 on failure.
- *
- * This function is the reverse of eet_data_read(), saving a data structure
- * to an eet file.
- *
- * @see eet_data_write_cipher()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Cipher_Group
- */
- EAPI int eet_data_write_cipher(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name, const char *cipher_key, const void *data, int compress);
-
- /**
- * Dump an eet encoded data structure into ascii text using a cipher.
- * @param data_in The pointer to the data to decode into a struct.
- * @param cipher_key The key to use as cipher.
- * @param size_in The size of the data pointed to in bytes.
- * @param dumpfunc The function to call passed a string when new
- * data is converted to text
- * @param dumpdata The data to pass to the @p dumpfunc callback.
- * @return 1 on success, 0 on failure
- *
- * This function will take a chunk of data encoded by
- * eet_data_descriptor_encode() and convert it into human readable
- * ascii text. It does this by calling the @p dumpfunc callback
- * for all new text that is generated. This callback should append
- * to any existing text buffer and will be passed the pointer @p
- * dumpdata as a parameter as well as a string with new text to be
- * appended.
- *
- * Example:
- *
- * @code
- * void output(void *data, const char *string)
- * {
- * printf("%s", string);
- * }
- *
- * void dump(const char *file)
- * {
- * FILE *f;
- * int len;
- * void *data;
- *
- * f = fopen(file, "r");
- * fseek(f, 0, SEEK_END);
- * len = ftell(f);
- * rewind(f);
- * data = malloc(len);
- * fread(data, len, 1, f);
- * fclose(f);
- * eet_data_text_dump_cipher(data, cipher_key, len, output, NULL);
- * }
- * @endcode
- *
- * @see eet_data_text_dump()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Cipher_Group
- */
- EAPI int eet_data_text_dump_cipher(const void *data_in, const char *cipher_key, int size_in, void (*dumpfunc) (void *data, const char *str), void *dumpdata);
-
- /**
- * Take an ascii encoding from eet_data_text_dump() and re-encode
- * in binary using a cipher.
- * @param text The pointer to the string data to parse and encode.
- * @param cipher_key The key to use as cipher.
- * @param textlen The size of the string in bytes (not including 0
- * byte terminator).
- * @param size_ret This gets filled in with the encoded data blob
- * size in bytes.
- * @return The encoded data on success, NULL on failure.
- *
- * This function will parse the string pointed to by @p text and return
- * an encoded data lump the same way eet_data_descriptor_encode() takes an
- * in-memory data struct and encodes into a binary blob. @p text is a normal
- * C string.
- *
- * @see eet_data_text_undump()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Cipher_Group
- */
- EAPI void *eet_data_text_undump_cipher(const char *text, const char *cipher_key, int textlen, int *size_ret);
-
- /**
- * Dump an eet encoded data structure from an eet file into ascii
- * text using a cipher.
- * @param ef A valid eet file handle.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param cipher_key The key to use as cipher.
- * @param dumpfunc The function to call passed a string when new
- * data is converted to text
- * @param dumpdata The data to pass to the @p dumpfunc callback.
- * @return 1 on success, 0 on failure
- *
- * This function will take an open and valid eet file from
- * eet_open() request the data encoded by
- * eet_data_descriptor_encode() corresponding to the key @p name
- * and convert it into human readable ascii text. It does this by
- * calling the @p dumpfunc callback for all new text that is
- * generated. This callback should append to any existing text
- * buffer and will be passed the pointer @p dumpdata as a parameter
- * as well as a string with new text to be appended.
- *
- * @see eet_data_dump()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Cipher_Group
- */
- EAPI int eet_data_dump_cipher(Eet_File *ef, const char *name, const char *cipher_key, void (*dumpfunc) (void *data, const char *str), void *dumpdata);
-
- /**
- * Take an ascii encoding from eet_data_dump() and re-encode in
- * binary using a cipher.
- * @param ef A valid eet file handle.
- * @param name Name of the entry. eg: "/base/file_i_want".
- * @param cipher_key The key to use as cipher.
- * @param text The pointer to the string data to parse and encode.
- * @param textlen The size of the string in bytes (not including 0
- * byte terminator).
- * @param compress Compression flags (1 == compress, 0 = don't compress).
- * @return 1 on success, 0 on failure
- *
- * This function will parse the string pointed to by @p text,
- * encode it the same way eet_data_descriptor_encode() takes an
- * in-memory data struct and encodes into a binary blob.
- *
- * The data (optionally compressed) will be in ram, pending a flush to
- * disk (it will stay in ram till the eet file handle is closed though).
- *
- * @see eet_data_undump()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Cipher_Group
- */
- EAPI int eet_data_undump_cipher(Eet_File *ef, const char *name, const char *cipher_key, const char *text, int textlen, int compress);
-
- /**
- * Decode a data structure from an arbitary location in memory
- * using a cipher.
- * @param edd The data descriptor to use when decoding.
- * @param data_in The pointer to the data to decode into a struct.
- * @param cipher_key The key to use as cipher.
- * @param size_in The size of the data pointed to in bytes.
- * @return NULL on failure, or a valid decoded struct pointer on success.
- *
- * This function will decode a data structure that has been encoded using
- * eet_data_descriptor_encode(), and return a data structure with all its
- * elements filled out, if successful, or NULL on failure.
- *
- * The data to be decoded is stored at the memory pointed to by @p data_in,
- * and is described by the descriptor pointed to by @p edd. The data size is
- * passed in as the value to @p size_in, ande must be greater than 0 to
- * succeed.
- *
- * This function is useful for decoding data structures delivered to the
- * application by means other than an eet file, such as an IPC or socket
- * connection, raw files, shared memory etc.
- *
- * Please see eet_data_read() for more information.
- *
- * @see eet_data_descriptor_decode()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Cipher_Group
- */
- EAPI void *eet_data_descriptor_decode_cipher(Eet_Data_Descriptor *edd, const void *data_in, const char *cipher_key, int size_in);
-
- /**
- * Encode a data struct to memory and return that encoded data
- * using a cipher.
- * @param edd The data descriptor to use when encoding.
- * @param data_in The pointer to the struct to encode into data.
- * @param cipher_key The key to use as cipher.
- * @param size_ret pointer to the an int to be filled with the decoded size.
- * @return NULL on failure, or a valid encoded data chunk on success.
- *
- * This function takes a data structutre in memory and encodes it into a
- * serialised chunk of data that can be decoded again by
- * eet_data_descriptor_decode(). This is useful for being able to transmit
- * data structures across sockets, pipes, IPC or shared file mechanisms,
- * without having to worry about memory space, machine type, endianess etc.
- *
- * The parameter @p edd must point to a valid data descriptor, and
- * @p data_in must point to the right data structure to encode. If not, the
- * encoding may fail.
- *
- * On success a non NULL valid pointer is returned and what @p size_ret
- * points to is set to the size of this decoded data, in bytes. When the
- * encoded data is no longer needed, call free() on it. On failure NULL is
- * returned and what @p size_ret points to is set to 0.
- *
- * Please see eet_data_write() for more information.
- *
- * @see eet_data_descriptor_encode()
- *
- * @since 1.0.0
- * @ingroup Eet_Data_Cipher_Group
- */
- EAPI void *eet_data_descriptor_encode_cipher(Eet_Data_Descriptor *edd, const void *data_in, const char *cipher_key, int *size_ret);
-
- /**
- * @defgroup Eet_Node_Group Low-level Serialization Structures.
- *
- * Functions that create, destroy and manipulate serialization nodes
- * used by @ref Eet_Data_Group.
- *
- * @{
- */
-
- /**
- * @typedef Eet_Node
- * Opaque handle to manage serialization node.
- */
- typedef struct _Eet_Node Eet_Node;
-
- /**
- * @typedef Eet_Node_Data
- * Contains an union that can fit any kind of node.
- */
- typedef struct _Eet_Node_Data Eet_Node_Data;
-
- /**
- * @struct _Eet_Node_Data
- * Contains an union that can fit any kind of node.
- */
- struct _Eet_Node_Data
- {
- union {
- char c;
- short s;
- int i;
- long long l;
- float f;
- double d;
- unsigned char uc;
- unsigned short us;
- unsigned int ui;
- unsigned long long ul;
- const char *str;
- } value;
- };
-
- /**
- * @}
- */
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_char_new(const char *name, char c);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_short_new(const char *name, short s);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_int_new(const char *name, int i);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_long_long_new(const char *name, long long l);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_float_new(const char *name, float f);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_double_new(const char *name, double d);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_unsigned_char_new(const char *name, unsigned char uc);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_unsigned_short_new(const char *name, unsigned short us);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_unsigned_int_new(const char *name, unsigned int ui);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_unsigned_long_long_new(const char *name, unsigned long long l);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_string_new(const char *name, const char *str);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_inlined_string_new(const char *name, const char *str);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_null_new(const char *name);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_list_new(const char *name, Eina_List *nodes);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_array_new(const char *name, int count, Eina_List *nodes);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_var_array_new(const char *name, Eina_List *nodes);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_hash_new(const char *name, const char *key, Eet_Node *node);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_struct_new(const char *name, Eina_List *nodes);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_node_struct_child_new(const char *parent, Eet_Node *child);
-
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI void eet_node_list_append(Eet_Node *parent, const char *name, Eet_Node *child);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI void eet_node_struct_append(Eet_Node *parent, const char *name, Eet_Node *child);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI void eet_node_hash_add(Eet_Node *parent, const char *name, const char *key, Eet_Node *child);
-
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI void eet_node_dump(Eet_Node *n, int dumplevel, void (*dumpfunc) (void *data, const char *str), void *dumpdata);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI void eet_node_del(Eet_Node *n);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI void *eet_data_node_encode_cipher(Eet_Node *node, const char *cipher_key, int *size_ret);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_data_node_decode_cipher(const void *data_in, const char *cipher_key, int size_in);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI Eet_Node *eet_data_node_read_cipher(Eet_File *ef, const char *name, const char *cipher_key);
-
- /**
- * TODO FIX ME
- * @ingroup Eet_Node_Group
- */
- EAPI int eet_data_node_write_cipher(Eet_File *ef, const char *name, const char *cipher_key, Eet_Node *node, int compress);
-
- /* EXPERIMENTAL: THIS API MAY CHANGE IN THE FUTURE, USE IT ONLY IF YOU KNOW WHAT YOU ARE DOING. */
-
- /**
- * @typedef Eet_Node_Walk
- * Describes how to walk trees of #Eet_Node.
- */
- typedef struct _Eet_Node_Walk Eet_Node_Walk;
-
- /**
- * @struct _Eet_Node_Walk
- * Describes how to walk trees of #Eet_Node.
- */
- struct _Eet_Node_Walk
- {
- void *(*struct_alloc)(const char *type, void *user_data);
- void (*struct_add)(void *parent, const char *name, void *child, void *user_data);
- void *(*array)(Eina_Bool variable, const char *name, int count, void *user_data);
- void (*insert)(void *array, int index, void *child, void *user_data);
- void *(*list)(const char *name, void *user_data);
- void (*append)(void *list, void *child, void *user_data);
- void *(*hash)(void *parent, const char *name, const char *key, void *value, void *user_data);
- void *(*simple)(int type, Eet_Node_Data *data, void *user_data);
- };
-
- EAPI void *eet_node_walk(void *parent, const char *name, Eet_Node *root, Eet_Node_Walk *cb, void *user_data);
-
- /*******/
-
- /**
- * @defgroup Eet_Connection_Group Helper function to use eet over a network link
- *
- * Function that reconstruct and prepare packet of @ref Eet_Data_Group to be send.
- *
- */
-
- /**
- * @typedef Eet_Connection
- * Opaque handle to track paquet for a specific connection.
- *
- * @ingroup Eet_Connection_Group
- */
- typedef struct _Eet_Connection Eet_Connection;
-
- /**
- * @typedef Eet_Read_Cb
- * Called back when an @ref Eet_Data_Group has been received completly and could be used.
- *
- * @ingroup Eet_Connection_Group
- */
- typedef Eina_Bool Eet_Read_Cb(const void *eet_data, size_t size, void *user_data);
-
- /**
- * @typedef Eet_Write_Cb
- * Called back when a packet containing @ref Eet_Data_Group data is ready to be send.
- *
- * @ingroup Eet_Connection_Group
- */
- typedef Eina_Bool Eet_Write_Cb(const void *data, size_t size, void *user_data);
-
- /**
- * Instanciate a new connection to track.
- * @oaram eet_read_cb Function to call when one Eet_Data packet has been fully assemble.
- * @param eet_write_cb Function to call when one Eet_Data packet is ready to be send over the wire.
- * @param user_data Pointer provided to both functions to be used as a context handler.
- * @return NULL on failure, or a valid Eet_Connection handler.
- *
- * For every connection to track you will need a separate Eet_Connection provider.
- *
- * @since 1.2.4
- * @ingroup Eet_Connection_Group
- */
- EAPI Eet_Connection *eet_connection_new(Eet_Read_Cb *eet_read_cb, Eet_Write_Cb *eet_write_cb, const void *user_data);
-
- /**
- * Process a raw packet received over the link
- * @oaram conn Connection handler to track.
- * @param data Raw data packet.
- * @param size The size of that packet.
- * @return 0 on complete success, any other value indicate where in the stream it got wrong (It could be before that packet).
- *
- * Every time you receive a packet related to your connection, you should pass
- * it to that function so that it could process and assemble packet has you
- * receive it. It will automatically call Eet_Read_Cb when one is fully received.
- *
- * @since 1.2.4
- * @ingroup Eet_Connection_Group
- */
- EAPI int eet_connection_received(Eet_Connection *conn, const void *data, size_t size);
-
- /**
- * Convert a complex structure and prepare it to be send.
- * @oaram conn Connection handler to track.
- * @param edd The data descriptor to use when encoding.
- * @param data_in The pointer to the struct to encode into data.
- * @param cipher_key The key to use as cipher.
- * @return EINA_TRUE if the data where correctly send, EINA_FALSE if they don't.
- *
- * This function serialize data_in with edd, assemble the packet and call
- * Eet_Write_Cb when ready. The data passed Eet_Write_Cb are temporary allocated
- * and will vanish just after the return of the callback.
- *
- * @see eet_data_descriptor_encode_cipher
- *
- * @since 1.2.4
- * @ingroup Eet_Connection_Group
- */
- EAPI Eina_Bool eet_connection_send(Eet_Connection *conn, Eet_Data_Descriptor *edd, const void *data_in, const char *cipher_key);
-
- /**
- * Convert a Eet_Node tree and prepare it to be send.
- * @oaram conn Connection handler to track.
- * @param node The data tree to use when encoding.
- * @param cipher_key The key to use as cipher.
- * @return EINA_TRUE if the data where correctly send, EINA_FALSE if they don't.
- *
- * This function serialize node, assemble the packet and call
- * Eet_Write_Cb when ready. The data passed Eet_Write_Cb are temporary allocated
- * and will vanish just after the return of the callback.
- *
- * @see eet_data_node_encode_cipher
- *
- * @since 1.2.4
- * @ingroup Eet_Connection_Group
- */
- EAPI Eina_Bool eet_connection_node_send(Eet_Connection *conn, Eet_Node *node, const char *cipher_key);
-
- /**
- * Close a connection and lost its track.
- * @oaram conn Connection handler to close.
- * @param on_going Signal if a partial packet wasn't completed.
- * @return the user_data passed to both callback.
- *
- * @since 1.2.4
- * @ingroup Eet_Connection_Group
- */
- EAPI void *eet_connection_close(Eet_Connection *conn, Eina_Bool *on_going);
+ eet_data_descriptor_element_add(unified_type, \
+ name, \
+ EET_T_UNKNOW, \
+ EET_G_UNKNOWN, \
+ 0, \
+ 0, \
+ NULL, \
+ subtype);
+
+/**
+ * @defgroup Eet_Data_Cipher_Group Eet Data Serialization using A Ciphers
+ *
+ * Most of the @ref Eet_Data_Group have alternative versions that
+ * accounts for ciphers to protect their content.
+ *
+ * @see @ref Eet_Cipher_Group
+ *
+ * @ingroup Eet_Data_Group
+ */
+
+/**
+ * Read a data structure from an eet file and decodes it using a cipher.
+ * @param ef The eet file handle to read from.
+ * @param edd The data descriptor handle to use when decoding.
+ * @param name The key the data is stored under in the eet file.
+ * @param cipher_key The key to use as cipher.
+ * @return A pointer to the decoded data structure.
+ *
+ * This function decodes a data structure stored in an eet file, returning
+ * a pointer to it if it decoded successfully, or NULL on failure. This
+ * can save a programmer dozens of hours of work in writing configuration
+ * file parsing and writing code, as eet does all that work for the program
+ * and presents a program-friendly data structure, just as the programmer
+ * likes. Eet can handle members being added or deleted from the data in
+ * storage and safely zero-fills unfilled members if they were not found
+ * in the data. It checks sizes and headers whenever it reads data, allowing
+ * the programmer to not worry about corrupt data.
+ *
+ * Once a data structure has been described by the programmer with the
+ * fields they wish to save or load, storing or retrieving a data structure
+ * from an eet file, or from a chunk of memory is as simple as a single
+ * function call.
+ *
+ * @see eet_data_read()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Cipher_Group
+ */
+EAPI void *eet_data_read_cipher(Eet_File *ef,
+ Eet_Data_Descriptor *edd,
+ const char *name,
+ const char *cipher_key);
+
+/**
+ * Write a data structure from memory and store in an eet file
+ * using a cipher.
+ * @param ef The eet file handle to write to.
+ * @param edd The data descriptor to use when encoding.
+ * @param name The key to store the data under in the eet file.
+ * @param cipher_key The key to use as cipher.
+ * @param data A pointer to the data structure to ssave and encode.
+ * @param compress Compression flags for storage.
+ * @return bytes written on successful write, 0 on failure.
+ *
+ * This function is the reverse of eet_data_read(), saving a data structure
+ * to an eet file.
+ *
+ * @see eet_data_write_cipher()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Cipher_Group
+ */
+EAPI int eet_data_write_cipher(Eet_File *ef,
+ Eet_Data_Descriptor *edd,
+ const char *name,
+ const char *cipher_key,
+ const void *data,
+ int compress);
+
+/**
+ * Dump an eet encoded data structure into ascii text using a cipher.
+ * @param data_in The pointer to the data to decode into a struct.
+ * @param cipher_key The key to use as cipher.
+ * @param size_in The size of the data pointed to in bytes.
+ * @param dumpfunc The function to call passed a string when new
+ * data is converted to text
+ * @param dumpdata The data to pass to the @p dumpfunc callback.
+ * @return 1 on success, 0 on failure
+ *
+ * This function will take a chunk of data encoded by
+ * eet_data_descriptor_encode() and convert it into human readable
+ * ascii text. It does this by calling the @p dumpfunc callback
+ * for all new text that is generated. This callback should append
+ * to any existing text buffer and will be passed the pointer @p
+ * dumpdata as a parameter as well as a string with new text to be
+ * appended.
+ *
+ * Example:
+ *
+ * @code
+ * void output(void *data, const char *string)
+ * {
+ * printf("%s", string);
+ * }
+ *
+ * void dump(const char *file)
+ * {
+ * FILE *f;
+ * int len;
+ * void *data;
+ *
+ * f = fopen(file, "r");
+ * fseek(f, 0, SEEK_END);
+ * len = ftell(f);
+ * rewind(f);
+ * data = malloc(len);
+ * fread(data, len, 1, f);
+ * fclose(f);
+ * eet_data_text_dump_cipher(data, cipher_key, len, output, NULL);
+ * }
+ * @endcode
+ *
+ * @see eet_data_text_dump()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Cipher_Group
+ */
+EAPI int eet_data_text_dump_cipher(const void *data_in,
+ const char *cipher_key,
+ int size_in,
+ void (*dumpfunc)(void *data, const char *str),
+ void *dumpdata);
+
+/**
+ * Take an ascii encoding from eet_data_text_dump() and re-encode
+ * in binary using a cipher.
+ * @param text The pointer to the string data to parse and encode.
+ * @param cipher_key The key to use as cipher.
+ * @param textlen The size of the string in bytes (not including 0
+ * byte terminator).
+ * @param size_ret This gets filled in with the encoded data blob
+ * size in bytes.
+ * @return The encoded data on success, NULL on failure.
+ *
+ * This function will parse the string pointed to by @p text and return
+ * an encoded data lump the same way eet_data_descriptor_encode() takes an
+ * in-memory data struct and encodes into a binary blob. @p text is a normal
+ * C string.
+ *
+ * @see eet_data_text_undump()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Cipher_Group
+ */
+EAPI void *eet_data_text_undump_cipher(const char *text,
+ const char *cipher_key,
+ int textlen,
+ int *size_ret);
+
+/**
+ * Dump an eet encoded data structure from an eet file into ascii
+ * text using a cipher.
+ * @param ef A valid eet file handle.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param cipher_key The key to use as cipher.
+ * @param dumpfunc The function to call passed a string when new
+ * data is converted to text
+ * @param dumpdata The data to pass to the @p dumpfunc callback.
+ * @return 1 on success, 0 on failure
+ *
+ * This function will take an open and valid eet file from
+ * eet_open() request the data encoded by
+ * eet_data_descriptor_encode() corresponding to the key @p name
+ * and convert it into human readable ascii text. It does this by
+ * calling the @p dumpfunc callback for all new text that is
+ * generated. This callback should append to any existing text
+ * buffer and will be passed the pointer @p dumpdata as a parameter
+ * as well as a string with new text to be appended.
+ *
+ * @see eet_data_dump()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Cipher_Group
+ */
+EAPI int eet_data_dump_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ void (*dumpfunc)(void *data, const char *str),
+ void *dumpdata);
+
+/**
+ * Take an ascii encoding from eet_data_dump() and re-encode in
+ * binary using a cipher.
+ * @param ef A valid eet file handle.
+ * @param name Name of the entry. eg: "/base/file_i_want".
+ * @param cipher_key The key to use as cipher.
+ * @param text The pointer to the string data to parse and encode.
+ * @param textlen The size of the string in bytes (not including 0
+ * byte terminator).
+ * @param compress Compression flags (1 == compress, 0 = don't compress).
+ * @return 1 on success, 0 on failure
+ *
+ * This function will parse the string pointed to by @p text,
+ * encode it the same way eet_data_descriptor_encode() takes an
+ * in-memory data struct and encodes into a binary blob.
+ *
+ * The data (optionally compressed) will be in ram, pending a flush to
+ * disk (it will stay in ram till the eet file handle is closed though).
+ *
+ * @see eet_data_undump()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Cipher_Group
+ */
+EAPI int eet_data_undump_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ const char *text,
+ int textlen,
+ int compress);
+
+/**
+ * Decode a data structure from an arbitary location in memory
+ * using a cipher.
+ * @param edd The data descriptor to use when decoding.
+ * @param data_in The pointer to the data to decode into a struct.
+ * @param cipher_key The key to use as cipher.
+ * @param size_in The size of the data pointed to in bytes.
+ * @return NULL on failure, or a valid decoded struct pointer on success.
+ *
+ * This function will decode a data structure that has been encoded using
+ * eet_data_descriptor_encode(), and return a data structure with all its
+ * elements filled out, if successful, or NULL on failure.
+ *
+ * The data to be decoded is stored at the memory pointed to by @p data_in,
+ * and is described by the descriptor pointed to by @p edd. The data size is
+ * passed in as the value to @p size_in, ande must be greater than 0 to
+ * succeed.
+ *
+ * This function is useful for decoding data structures delivered to the
+ * application by means other than an eet file, such as an IPC or socket
+ * connection, raw files, shared memory etc.
+ *
+ * Please see eet_data_read() for more information.
+ *
+ * @see eet_data_descriptor_decode()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Cipher_Group
+ */
+EAPI void *eet_data_descriptor_decode_cipher(Eet_Data_Descriptor *edd,
+ const void *data_in,
+ const char *cipher_key,
+ int size_in);
+
+/**
+ * Encode a data struct to memory and return that encoded data
+ * using a cipher.
+ * @param edd The data descriptor to use when encoding.
+ * @param data_in The pointer to the struct to encode into data.
+ * @param cipher_key The key to use as cipher.
+ * @param size_ret pointer to the an int to be filled with the decoded size.
+ * @return NULL on failure, or a valid encoded data chunk on success.
+ *
+ * This function takes a data structutre in memory and encodes it into a
+ * serialised chunk of data that can be decoded again by
+ * eet_data_descriptor_decode(). This is useful for being able to transmit
+ * data structures across sockets, pipes, IPC or shared file mechanisms,
+ * without having to worry about memory space, machine type, endianess etc.
+ *
+ * The parameter @p edd must point to a valid data descriptor, and
+ * @p data_in must point to the right data structure to encode. If not, the
+ * encoding may fail.
+ *
+ * On success a non NULL valid pointer is returned and what @p size_ret
+ * points to is set to the size of this decoded data, in bytes. When the
+ * encoded data is no longer needed, call free() on it. On failure NULL is
+ * returned and what @p size_ret points to is set to 0.
+ *
+ * Please see eet_data_write() for more information.
+ *
+ * @see eet_data_descriptor_encode()
+ *
+ * @since 1.0.0
+ * @ingroup Eet_Data_Cipher_Group
+ */
+EAPI void *eet_data_descriptor_encode_cipher(Eet_Data_Descriptor *edd,
+ const void *data_in,
+ const char *cipher_key,
+ int *size_ret);
+
+/**
+ * @defgroup Eet_Node_Group Low-level Serialization Structures.
+ *
+ * Functions that create, destroy and manipulate serialization nodes
+ * used by @ref Eet_Data_Group.
+ *
+ * @{
+ */
+
+/**
+ * @typedef Eet_Node
+ * Opaque handle to manage serialization node.
+ */
+typedef struct _Eet_Node Eet_Node;
+
+/**
+ * @typedef Eet_Node_Data
+ * Contains an union that can fit any kind of node.
+ */
+typedef struct _Eet_Node_Data Eet_Node_Data;
+
+/**
+ * @struct _Eet_Node_Data
+ * Contains an union that can fit any kind of node.
+ */
+struct _Eet_Node_Data
+{
+ union {
+ char c;
+ short s;
+ int i;
+ long long l;
+ float f;
+ double d;
+ unsigned char uc;
+ unsigned short us;
+ unsigned int ui;
+ unsigned long long ul;
+ const char *str;
+ } value;
+};
+
+/**
+ * @}
+ */
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_char_new(const char *name, char c);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_short_new(const char *name, short s);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_int_new(const char *name, int i);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_long_long_new(const char *name, long long l);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_float_new(const char *name, float f);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_double_new(const char *name, double d);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_unsigned_char_new(const char *name, unsigned char uc);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_unsigned_short_new(const char *name, unsigned short us);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_unsigned_int_new(const char *name, unsigned int ui);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_unsigned_long_long_new(const char *name,
+ unsigned long long l);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_string_new(const char *name, const char *str);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_inlined_string_new(const char *name, const char *str);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_null_new(const char *name);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_list_new(const char *name, Eina_List *nodes);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_array_new(const char *name, int count, Eina_List *nodes);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_var_array_new(const char *name, Eina_List *nodes);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_hash_new(const char *name,
+ const char *key,
+ Eet_Node *node);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_struct_new(const char *name, Eina_List *nodes);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_node_struct_child_new(const char *parent, Eet_Node *child);
+
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI void eet_node_list_append(Eet_Node *parent,
+ const char *name,
+ Eet_Node *child);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI void eet_node_struct_append(Eet_Node *parent,
+ const char *name,
+ Eet_Node *child);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI void eet_node_hash_add(Eet_Node *parent,
+ const char *name,
+ const char *key,
+ Eet_Node *child);
+
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI void eet_node_dump(Eet_Node *n, int dumplevel, void (*dumpfunc)(
+ void *data,
+ const char *str), void *dumpdata);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI void eet_node_del(Eet_Node *n);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI void * eet_data_node_encode_cipher(Eet_Node *node,
+ const char *cipher_key,
+ int *size_ret);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_data_node_decode_cipher(const void *data_in,
+ const char *cipher_key,
+ int size_in);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI Eet_Node *eet_data_node_read_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key);
+
+/**
+ * TODO FIX ME
+ * @ingroup Eet_Node_Group
+ */
+EAPI int eet_data_node_write_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ Eet_Node *node,
+ int compress);
+
+/* EXPERIMENTAL: THIS API MAY CHANGE IN THE FUTURE, USE IT ONLY IF YOU KNOW WHAT YOU ARE DOING. */
+
+/**
+ * @typedef Eet_Node_Walk
+ * Describes how to walk trees of #Eet_Node.
+ */
+typedef struct _Eet_Node_Walk Eet_Node_Walk;
+
+/**
+ * @struct _Eet_Node_Walk
+ * Describes how to walk trees of #Eet_Node.
+ */
+struct _Eet_Node_Walk
+{
+ void *(*struct_alloc)(const char *type, void *user_data);
+ void (*struct_add)(void *parent, const char *name, void *child,
+ void *user_data);
+ void *(*array)(Eina_Bool variable, const char *name, int count,
+ void *user_data);
+ void (*insert)(void *array, int index, void *child, void *user_data);
+ void *(*list)(const char *name, void *user_data);
+ void (*append)(void *list, void *child, void *user_data);
+ void *(*hash)(void *parent, const char *name, const char *key, void *value,
+ void *user_data);
+ void *(*simple)(int type, Eet_Node_Data *data, void *user_data);
+};
+
+EAPI void *eet_node_walk(void *parent,
+ const char *name,
+ Eet_Node *root,
+ Eet_Node_Walk *cb,
+ void *user_data);
+
+/*******/
+
+/**
+ * @defgroup Eet_Connection_Group Helper function to use eet over a network link
+ *
+ * Function that reconstruct and prepare packet of @ref Eet_Data_Group to be send.
+ *
+ */
+
+/**
+ * @typedef Eet_Connection
+ * Opaque handle to track paquet for a specific connection.
+ *
+ * @ingroup Eet_Connection_Group
+ */
+typedef struct _Eet_Connection Eet_Connection;
+
+/**
+ * @typedef Eet_Read_Cb
+ * Called back when an @ref Eet_Data_Group has been received completly and could be used.
+ *
+ * @ingroup Eet_Connection_Group
+ */
+typedef Eina_Bool Eet_Read_Cb (const void *eet_data, size_t size,
+ void *user_data);
+
+/**
+ * @typedef Eet_Write_Cb
+ * Called back when a packet containing @ref Eet_Data_Group data is ready to be send.
+ *
+ * @ingroup Eet_Connection_Group
+ */
+typedef Eina_Bool Eet_Write_Cb (const void *data, size_t size, void *user_data);
+
+/**
+ * Instanciate a new connection to track.
+ * @oaram eet_read_cb Function to call when one Eet_Data packet has been fully assemble.
+ * @param eet_write_cb Function to call when one Eet_Data packet is ready to be send over the wire.
+ * @param user_data Pointer provided to both functions to be used as a context handler.
+ * @return NULL on failure, or a valid Eet_Connection handler.
+ *
+ * For every connection to track you will need a separate Eet_Connection provider.
+ *
+ * @since 1.2.4
+ * @ingroup Eet_Connection_Group
+ */
+EAPI Eet_Connection *eet_connection_new(Eet_Read_Cb *eet_read_cb,
+ Eet_Write_Cb *eet_write_cb,
+ const void *user_data);
+
+/**
+ * Process a raw packet received over the link
+ * @oaram conn Connection handler to track.
+ * @param data Raw data packet.
+ * @param size The size of that packet.
+ * @return 0 on complete success, any other value indicate where in the stream it got wrong (It could be before that packet).
+ *
+ * Every time you receive a packet related to your connection, you should pass
+ * it to that function so that it could process and assemble packet has you
+ * receive it. It will automatically call Eet_Read_Cb when one is fully received.
+ *
+ * @since 1.2.4
+ * @ingroup Eet_Connection_Group
+ */
+EAPI int eet_connection_received(Eet_Connection *conn,
+ const void *data,
+ size_t size);
+
+/**
+ * Convert a complex structure and prepare it to be send.
+ * @oaram conn Connection handler to track.
+ * @param edd The data descriptor to use when encoding.
+ * @param data_in The pointer to the struct to encode into data.
+ * @param cipher_key The key to use as cipher.
+ * @return EINA_TRUE if the data where correctly send, EINA_FALSE if they don't.
+ *
+ * This function serialize data_in with edd, assemble the packet and call
+ * Eet_Write_Cb when ready. The data passed Eet_Write_Cb are temporary allocated
+ * and will vanish just after the return of the callback.
+ *
+ * @see eet_data_descriptor_encode_cipher
+ *
+ * @since 1.2.4
+ * @ingroup Eet_Connection_Group
+ */
+EAPI Eina_Bool eet_connection_send(Eet_Connection *conn,
+ Eet_Data_Descriptor *edd,
+ const void *data_in,
+ const char *cipher_key);
+
+/**
+ * Convert a Eet_Node tree and prepare it to be send.
+ * @oaram conn Connection handler to track.
+ * @param node The data tree to use when encoding.
+ * @param cipher_key The key to use as cipher.
+ * @return EINA_TRUE if the data where correctly send, EINA_FALSE if they don't.
+ *
+ * This function serialize node, assemble the packet and call
+ * Eet_Write_Cb when ready. The data passed Eet_Write_Cb are temporary allocated
+ * and will vanish just after the return of the callback.
+ *
+ * @see eet_data_node_encode_cipher
+ *
+ * @since 1.2.4
+ * @ingroup Eet_Connection_Group
+ */
+EAPI Eina_Bool eet_connection_node_send(Eet_Connection *conn,
+ Eet_Node *node,
+ const char *cipher_key);
+
+/**
+ * Close a connection and lost its track.
+ * @oaram conn Connection handler to close.
+ * @param on_going Signal if a partial packet wasn't completed.
+ * @return the user_data passed to both callback.
+ *
+ * @since 1.2.4
+ * @ingroup Eet_Connection_Group
+ */
+EAPI void * eet_connection_close(Eet_Connection *conn,
+ Eina_Bool *on_going);
/***************************************************************************/
enum _Eet_Convert_Type
{
- EET_D_NOT_CONVERTED = 0,
- EET_D_FLOAT = 1 << 1,
- EET_D_DOUBLE = 1 << 2,
- EET_D_FIXED_POINT = 1 << 4
+ EET_D_NOT_CONVERTED = 0,
+ EET_D_FLOAT = 1 << 1,
+ EET_D_DOUBLE = 1 << 2,
+ EET_D_FIXED_POINT = 1 << 4
};
-typedef struct _Eet_String Eet_String;
+typedef struct _Eet_String Eet_String;
struct _Eet_String
{
- const char *mmap;
- char *str;
+ const char *mmap;
+ char *str;
- int hash;
- int len;
+ int hash;
+ int len;
- int next;
- int prev;
+ int next;
+ int prev;
- float f;
- double d;
- Eina_F32p32 fp;
+ float f;
+ double d;
+ Eina_F32p32 fp;
- Eet_Convert_Type type;
+ Eet_Convert_Type type;
};
struct _Eet_Dictionary
{
- Eet_String *all;
+ Eet_String *all;
- int size;
- int offset;
+ int size;
+ int offset;
- int hash[256];
+ int hash[256];
- int count;
- int total;
+ int count;
+ int total;
- const char *start;
- const char *end;
+ const char *start;
+ const char *end;
};
struct _Eet_Node
{
- int type;
- int count;
+ int type;
+ int count;
const char *name;
const char *key;
- Eet_Node *values;
- Eet_Node *next;
- Eet_Node *parent;
+ Eet_Node *values;
+ Eet_Node *next;
+ Eet_Node *parent;
Eet_Node_Data data;
};
#endif
#define CRIT(...) EINA_LOG_DOM_CRIT(_eet_log_dom_global, __VA_ARGS__)
-Eet_Dictionary *eet_dictionary_add(void);
-void eet_dictionary_free(Eet_Dictionary *ed);
-int eet_dictionary_string_add(Eet_Dictionary *ed, const char *string);
-int eet_dictionary_string_get_size(const Eet_Dictionary *ed, int index);
-const char *eet_dictionary_string_get_char(const Eet_Dictionary *ed, int index);
-Eina_Bool eet_dictionary_string_get_float(const Eet_Dictionary *ed, int index, float *result);
-Eina_Bool eet_dictionary_string_get_double(const Eet_Dictionary *ed, int index, double *result);
-Eina_Bool eet_dictionary_string_get_fp(const Eet_Dictionary *ed, int index, Eina_F32p32 *result);
-int eet_dictionary_string_get_hash(const Eet_Dictionary *ed, int index);
-
-int _eet_hash_gen(const char *key, int hash_size);
-
-const void* eet_identity_check(const void *data_base, unsigned int data_length,
- void **sha1, int *sha1_length,
- const void *signature_base, unsigned int signature_length,
- const void **raw_signature_base, unsigned int *raw_signature_length,
- int *x509_length);
-void *eet_identity_compute_sha1(const void *data_base, unsigned int data_length,
- int *sha1_length);
-Eet_Error eet_cipher(const void *data, unsigned int size, const char *key, unsigned int length, void **result, unsigned int *result_length);
-Eet_Error eet_decipher(const void *data, unsigned int size, const char *key, unsigned int length, void **result, unsigned int *result_length);
+Eet_Dictionary *eet_dictionary_add(void);
+void eet_dictionary_free(Eet_Dictionary *ed);
+int eet_dictionary_string_add(Eet_Dictionary *ed,
+ const char *string);
+int eet_dictionary_string_get_size(const Eet_Dictionary *ed,
+ int index);
+const char * eet_dictionary_string_get_char(const Eet_Dictionary *ed,
+ int index);
+Eina_Bool eet_dictionary_string_get_float(const Eet_Dictionary *ed,
+ int index,
+ float *result);
+Eina_Bool eet_dictionary_string_get_double(const Eet_Dictionary *ed,
+ int index,
+ double *result);
+Eina_Bool eet_dictionary_string_get_fp(const Eet_Dictionary *ed,
+ int index,
+ Eina_F32p32 *result);
+int eet_dictionary_string_get_hash(const Eet_Dictionary *ed,
+ int index);
+
+int _eet_hash_gen(const char *key, int hash_size);
+
+const void * eet_identity_check(const void *data_base,
+ unsigned int data_length,
+ void **sha1,
+ int *sha1_length,
+ const void *signature_base,
+ unsigned int signature_length,
+ const void **raw_signature_base,
+ unsigned int *raw_signature_length,
+ int *x509_length);
+void * eet_identity_compute_sha1(const void *data_base,
+ unsigned int data_length,
+ int *sha1_length);
+Eet_Error eet_cipher(const void *data,
+ unsigned int size,
+ const char *key,
+ unsigned int length,
+ void **result,
+ unsigned int *result_length);
+Eet_Error eet_decipher(const void *data,
+ unsigned int size,
+ const char *key,
+ unsigned int length,
+ void **result,
+ unsigned int *result_length);
Eet_Error eet_identity_sign(FILE *fp, Eet_Key *key);
-void eet_identity_unref(Eet_Key *key);
-void eet_identity_ref(Eet_Key *key);
+void eet_identity_unref(Eet_Key *key);
+void eet_identity_ref(Eet_Key *key);
-void eet_node_shutdown(void);
-int eet_node_init(void);
+void eet_node_shutdown(void);
+int eet_node_init(void);
Eet_Node *eet_node_new(void);
-void eet_node_free(Eet_Node *node);
+void eet_node_free(Eet_Node *node);
#ifndef PATH_MAX
# define PATH_MAX 4096
#endif
#ifdef DNDEBUG
-# define EET_ASSERT(Test, Do) if (Test == 0) Do;
+# define EET_ASSERT(Test, Do) if (Test == 0) {Do; }
#else
-# define EET_ASSERT(Test, Do) if (Test == 0) abort();
+# define EET_ASSERT(Test, Do) if (Test == 0) {abort(); }
#endif
#endif
#ifdef HAVE_CIPHER
# ifdef HAVE_GNUTLS
-static Eet_Error eet_hmac_sha1(const void *key, size_t key_len, const void *data, size_t data_len, unsigned char *res);
+static Eet_Error eet_hmac_sha1(const void *key,
+ size_t key_len,
+ const void *data,
+ size_t data_len,
+ unsigned char *res);
# endif
-static Eet_Error eet_pbkdf2_sha1(const char *key, int key_len, const unsigned char *salt, unsigned int salt_len, int iter, unsigned char *res, int res_len);
+static Eet_Error eet_pbkdf2_sha1(const char *key,
+ int key_len,
+ const unsigned char *salt,
+ unsigned int salt_len,
+ int iter,
+ unsigned char *res,
+ int res_len);
#endif
struct _Eet_Key
{
- int references;
+ int references;
#ifdef HAVE_SIGNATURE
# ifdef HAVE_GNUTLS
- gnutls_x509_crt_t certificate;
- gnutls_x509_privkey_t private_key;
+ gnutls_x509_crt_t certificate;
+ gnutls_x509_privkey_t private_key;
# else
- X509 *certificate;
- EVP_PKEY *private_key;
+ X509 *certificate;
+ EVP_PKEY *private_key;
# endif
#endif
};
-EAPI Eet_Key*
-eet_identity_open(const char *certificate_file, const char *private_key_file, Eet_Key_Password_Callback cb)
+EAPI Eet_Key *
+eet_identity_open(const char *certificate_file,
+ const char *private_key_file,
+ Eet_Key_Password_Callback cb)
{
#ifdef HAVE_SIGNATURE
- /* Signature declarations */
- Eet_Key *key = NULL;
- FILE *fp = NULL;
+ /* Signature declarations */
+ Eet_Key *key = NULL;
+ FILE *fp = NULL;
# ifdef HAVE_GNUTLS
- /* Gnutls private declarations */
- int fd = -1;
- struct stat st;
- void *data = NULL;
- gnutls_datum_t load_file = { NULL, 0 };
- char pass[1024];
-
- /* Init */
- if (!(key = malloc(sizeof(Eet_Key)))) goto on_error;
- key->references = 1;
-
- if (gnutls_x509_crt_init(&(key->certificate))) goto on_error;
- if (gnutls_x509_privkey_init(&(key->private_key))) goto on_error;
-
- /* Mmap certificate_file */
- if (!(fp = fopen(certificate_file, "r"))) goto on_error;
- if ((fd = fileno(fp)) == -1) goto on_error;
- if (fstat(fd, &st)) goto on_error;
- if ((data = mmap(NULL, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0)) == MAP_FAILED) goto on_error;
-
- /* Import the certificate in Eet_Key structure */
- load_file.data = data;
- load_file.size = st.st_size;
- if (gnutls_x509_crt_import(key->certificate, &load_file, GNUTLS_X509_FMT_PEM) < 0)
- goto on_error;
- if (munmap(data, st.st_size)) goto on_error;
-
- /* Reset values */
- fclose(fp);
- fp = NULL;
- data = NULL;
- load_file.data = NULL;
- load_file.size = 0;
-
- /* Mmap private_key_file */
- if (!(fp = fopen(private_key_file, "r"))) goto on_error;
- if ((fd = fileno(fp)) == -1) goto on_error;
- if (fstat(fd, &st)) goto on_error;
- if ((data = mmap(NULL, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0)) == MAP_FAILED) goto on_error;
-
- /* Import the private key in Eet_Key structure */
- load_file.data = data;
- load_file.size = st.st_size;
- /* Try to directly import the PEM encoded private key */
- if (gnutls_x509_privkey_import(key->private_key, &load_file, GNUTLS_X509_FMT_PEM) < 0)
- {
- /* Else ask for the private key pass */
- if (cb && cb(pass, 1024, 0, NULL))
- {
- /* If pass then try to decode the pkcs 8 private key */
- if (gnutls_x509_privkey_import_pkcs8(key->private_key, &load_file, GNUTLS_X509_FMT_PEM, pass, 0))
- goto on_error;
- }
- else
- {
- /* Else try to import the pkcs 8 private key without pass */
- if (gnutls_x509_privkey_import_pkcs8(key->private_key, &load_file, GNUTLS_X509_FMT_PEM, NULL, 1))
- goto on_error;
- }
- }
- if (munmap(data, st.st_size)) goto on_error;
- fclose(fp);
-
- return key;
-
- on_error:
- if (fp) fclose(fp);
- if (key)
- {
- if (key->certificate) gnutls_x509_crt_deinit(key->certificate);
- if (key->private_key) gnutls_x509_privkey_deinit(key->private_key);
- free(key);
- }
- if (data) munmap(data, st.st_size);
+ /* Gnutls private declarations */
+ int fd = -1;
+ struct stat st;
+ void *data = NULL;
+ gnutls_datum_t load_file = { NULL, 0 };
+ char pass[1024];
+
+ /* Init */
+ if (!(key = malloc(sizeof(Eet_Key))))
+ goto on_error;
+
+ key->references = 1;
+
+ if (gnutls_x509_crt_init(&(key->certificate)))
+ goto on_error;
+
+ if (gnutls_x509_privkey_init(&(key->private_key)))
+ goto on_error;
+
+ /* Mmap certificate_file */
+ if (!(fp = fopen(certificate_file, "r")))
+ goto on_error;
+
+ if ((fd = fileno(fp)) == -1)
+ goto on_error;
+
+ if (fstat(fd, &st))
+ goto on_error;
+
+ if ((data =
+ mmap(NULL, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0)) == MAP_FAILED)
+ goto on_error;
+
+ /* Import the certificate in Eet_Key structure */
+ load_file.data = data;
+ load_file.size = st.st_size;
+ if (gnutls_x509_crt_import(key->certificate, &load_file,
+ GNUTLS_X509_FMT_PEM) < 0)
+ goto on_error;
+
+ if (munmap(data, st.st_size))
+ goto on_error;
+
+ /* Reset values */
+ fclose(fp);
+ fp = NULL;
+ data = NULL;
+ load_file.data = NULL;
+ load_file.size = 0;
+
+ /* Mmap private_key_file */
+ if (!(fp = fopen(private_key_file, "r")))
+ goto on_error;
+
+ if ((fd = fileno(fp)) == -1)
+ goto on_error;
+
+ if (fstat(fd, &st))
+ goto on_error;
+
+ if ((data =
+ mmap(NULL, st.st_size, PROT_READ, MAP_PRIVATE, fd, 0)) == MAP_FAILED)
+ goto on_error;
+
+ /* Import the private key in Eet_Key structure */
+ load_file.data = data;
+ load_file.size = st.st_size;
+ /* Try to directly import the PEM encoded private key */
+ if (gnutls_x509_privkey_import(key->private_key, &load_file,
+ GNUTLS_X509_FMT_PEM) < 0)
+ {
+ /* Else ask for the private key pass */
+ if (cb && cb(pass, 1024, 0, NULL))
+ {
+ /* If pass then try to decode the pkcs 8 private key */
+ if (gnutls_x509_privkey_import_pkcs8(key->private_key, &load_file,
+ GNUTLS_X509_FMT_PEM, pass, 0))
+ goto on_error;
+ }
+ else
+ /* Else try to import the pkcs 8 private key without pass */
+ if (gnutls_x509_privkey_import_pkcs8(key->private_key, &load_file,
+ GNUTLS_X509_FMT_PEM, NULL, 1))
+ goto on_error;
+ }
+
+ if (munmap(data, st.st_size))
+ goto on_error;
+
+ fclose(fp);
+
+ return key;
+
+on_error:
+ if (fp)
+ fclose(fp);
+
+ if (key)
+ {
+ if (key->certificate)
+ gnutls_x509_crt_deinit(key->certificate);
+
+ if (key->private_key)
+ gnutls_x509_privkey_deinit(key->private_key);
+
+ free(key);
+ }
+
+ if (data)
+ munmap(data, st.st_size);
+
# else
- /* Openssl private declarations */
- EVP_PKEY *pkey = NULL;
- X509 *cert = NULL;
-
- /* Load the X509 certificate in memory. */
- fp = fopen(certificate_file, "r");
- if (!fp) return NULL;
- cert = PEM_read_X509(fp, NULL, NULL, NULL);
- fclose(fp);
- if (!cert) goto on_error;
-
- /* Check the presence of the public key. Just in case. */
- pkey = X509_get_pubkey(cert);
- if (!pkey) goto on_error;
-
- /* Load the private key in memory. */
- fp = fopen(private_key_file, "r");
- if (!fp) goto on_error;
- pkey = PEM_read_PrivateKey(fp, NULL, cb, NULL);
- fclose(fp);
- if (!pkey) goto on_error;
-
- /* Load the certificate and the private key in Eet_Key structure */
- key = malloc(sizeof(Eet_Key));
- if (!key) goto on_error;
- key->references = 1;
- key->certificate = cert;
- key->private_key = pkey;
-
- return key;
-
- on_error:
- if (cert) X509_free(cert);
- if (pkey) EVP_PKEY_free(pkey);
+ /* Openssl private declarations */
+ EVP_PKEY *pkey = NULL;
+ X509 *cert = NULL;
+
+ /* Load the X509 certificate in memory. */
+ fp = fopen(certificate_file, "r");
+ if (!fp)
+ return NULL;
+
+ cert = PEM_read_X509(fp, NULL, NULL, NULL);
+ fclose(fp);
+ if (!cert)
+ goto on_error;
+
+ /* Check the presence of the public key. Just in case. */
+ pkey = X509_get_pubkey(cert);
+ if (!pkey)
+ goto on_error;
+
+ /* Load the private key in memory. */
+ fp = fopen(private_key_file, "r");
+ if (!fp)
+ goto on_error;
+
+ pkey = PEM_read_PrivateKey(fp, NULL, cb, NULL);
+ fclose(fp);
+ if (!pkey)
+ goto on_error;
+
+ /* Load the certificate and the private key in Eet_Key structure */
+ key = malloc(sizeof(Eet_Key));
+ if (!key)
+ goto on_error;
+
+ key->references = 1;
+ key->certificate = cert;
+ key->private_key = pkey;
+
+ return key;
+
+on_error:
+ if (cert)
+ X509_free(cert);
+
+ if (pkey)
+ EVP_PKEY_free(pkey);
+
# endif
#endif
- return NULL;
+ return NULL;
}
EAPI void
eet_identity_close(Eet_Key *key)
{
#ifdef HAVE_SIGNATURE
- if (!key || (key->references > 0)) return ;
+ if (!key || (key->references > 0))
+ return;
+
# ifdef HAVE_GNUTLS
- gnutls_x509_crt_deinit(key->certificate);
- gnutls_x509_privkey_deinit(key->private_key);
+ gnutls_x509_crt_deinit(key->certificate);
+ gnutls_x509_privkey_deinit(key->private_key);
# else
- X509_free(key->certificate);
- EVP_PKEY_free(key->private_key);
+ X509_free(key->certificate);
+ EVP_PKEY_free(key->private_key);
# endif
- free(key);
+ free(key);
#endif
}
{
#ifdef HAVE_SIGNATURE
# ifdef HAVE_GNUTLS
- const char *names[6] = {
- "Modulus",
- "Public exponent",
- "Private exponent",
- "First prime",
- "Second prime",
- "Coefficient"
- };
- int err = 0;
- gnutls_datum_t data = { NULL, 0 };
- gnutls_datum_t rsa_raw[6];
- size_t size = 128;
- char *res = NULL;
- char buf[33];
- unsigned int i, j;
-
- if (!key) return ;
-
- if (key->private_key)
- {
- if (gnutls_x509_privkey_export_rsa_raw(key->private_key,
- rsa_raw + 0, /* Modulus */
- rsa_raw + 1, /* Public exponent */
- rsa_raw + 2, /* Private exponent */
- rsa_raw + 3, /* First prime */
- rsa_raw + 4, /* Second prime */
- rsa_raw + 5)) /* Coefficient */
- goto on_error;
- if (!(res = malloc(size))) goto on_error;
-
- fprintf(out, "Private Key:\n");
- buf[32] = '\0';
-
- for (i = 0; i < 6; i++)
- {
- while ((err = gnutls_hex_encode(rsa_raw + i, res, &size)) == GNUTLS_E_SHORT_MEMORY_BUFFER)
- {
- size += 128;
- if (!(res = realloc(res, size))) goto on_error;
- }
- if (err) goto on_error;
-
- fprintf(out, "\t%s:\n", names[i]);
- for (j = 0; strlen(res) > j; j += 32)
- {
- snprintf(buf, 32, "%s", res + j);
- fprintf(out, "\t\t%s\n", buf);
- }
- }
+ const char *names[6] = {
+ "Modulus",
+ "Public exponent",
+ "Private exponent",
+ "First prime",
+ "Second prime",
+ "Coefficient"
+ };
+ int err = 0;
+ gnutls_datum_t data = { NULL, 0 };
+ gnutls_datum_t rsa_raw[6];
+ size_t size = 128;
+ char *res = NULL;
+ char buf[33];
+ unsigned int i, j;
+
+ if (!key)
+ return;
+
+ if (key->private_key)
+ {
+ if (gnutls_x509_privkey_export_rsa_raw(key->private_key,
+ rsa_raw + 0, /* Modulus */
+ rsa_raw + 1, /* Public exponent */
+ rsa_raw + 2, /* Private exponent */
+ rsa_raw + 3, /* First prime */
+ rsa_raw + 4, /* Second prime */
+ rsa_raw + 5)) /* Coefficient */
+ goto on_error;
+
+ if (!(res = malloc(size)))
+ goto on_error;
+
+ fprintf(out, "Private Key:\n");
+ buf[32] = '\0';
+
+ for (i = 0; i < 6; i++)
+ {
+ while ((err =
+ gnutls_hex_encode(rsa_raw + i, res,
+ &size)) ==
+ GNUTLS_E_SHORT_MEMORY_BUFFER)
+ {
+ size += 128;
+ if (!(res = realloc(res, size)))
+ goto on_error;
+ }
+ if (err)
+ goto on_error;
+
+ fprintf(out, "\t%s:\n", names[i]);
+ for (j = 0; strlen(res) > j; j += 32)
+ {
+ snprintf(buf, 32, "%s", res + j);
+ fprintf(out, "\t\t%s\n", buf);
+ }
+ }
+ free(res);
+ res = NULL;
+ }
+
+ if (key->certificate)
+ {
+ fprintf(out, "Public certificate:\n");
+ if (gnutls_x509_crt_print(key->certificate, GNUTLS_X509_CRT_FULL, &data))
+ goto on_error;
+
+ fprintf(out, "%s\n", data.data);
+ gnutls_free(data.data);
+ data.data = NULL;
+ }
+
+on_error:
+ if (res)
free(res);
- res = NULL;
- }
-
- if (key->certificate)
- {
- fprintf(out, "Public certificate:\n");
- if (gnutls_x509_crt_print(key->certificate, GNUTLS_X509_CRT_FULL, &data)) goto on_error;
- fprintf(out, "%s\n", data.data);
+
+ if (data.data)
gnutls_free(data.data);
- data.data = NULL;
- }
- on_error:
- if (res) free(res);
- if (data.data) gnutls_free(data.data);
- return ;
+ return;
# else
- RSA *rsa;
- DSA *dsa;
- DH *dh;
-
- if (!key) return ;
-
- rsa = EVP_PKEY_get1_RSA(key->private_key);
- if (rsa)
- {
- fprintf(out, "Private key (RSA):\n");
- RSA_print_fp(out, rsa, 0);
- }
-
- dsa = EVP_PKEY_get1_DSA(key->private_key);
- if (dsa)
- {
- fprintf(out, "Private key (DSA):\n");
- DSA_print_fp(out, dsa, 0);
- }
-
- dh = EVP_PKEY_get1_DH(key->private_key);
- if (dh)
- {
- fprintf(out, "Private key (DH):\n");
- DHparams_print_fp(out, dh);
- }
-
- fprintf(out, "Public certificate:\n");
- X509_print_fp(out, key->certificate);
+ RSA *rsa;
+ DSA *dsa;
+ DH *dh;
+
+ if (!key)
+ return;
+
+ rsa = EVP_PKEY_get1_RSA(key->private_key);
+ if (rsa)
+ {
+ fprintf(out, "Private key (RSA):\n");
+ RSA_print_fp(out, rsa, 0);
+ }
+
+ dsa = EVP_PKEY_get1_DSA(key->private_key);
+ if (dsa)
+ {
+ fprintf(out, "Private key (DSA):\n");
+ DSA_print_fp(out, dsa, 0);
+ }
+
+ dh = EVP_PKEY_get1_DH(key->private_key);
+ if (dh)
+ {
+ fprintf(out, "Private key (DH):\n");
+ DHparams_print_fp(out, dh);
+ }
+
+ fprintf(out, "Public certificate:\n");
+ X509_print_fp(out, key->certificate);
# endif
#else
- ERR("You need to compile signature support in EET.");
+ ERR("You need to compile signature support in EET.");
#endif
}
void
eet_identity_ref(Eet_Key *key)
{
- if (key == NULL) return ;
+ if (key == NULL)
+ return;
+
key->references++;
}
void
eet_identity_unref(Eet_Key *key)
{
- if (key == NULL) return ;
+ if (key == NULL)
+ return;
+
key->references--;
eet_identity_close(key);
}
void *
eet_identity_compute_sha1(const void *data_base, unsigned int data_length,
- int *sha1_length)
+ int *sha1_length)
{
void *result;
#ifdef HAVE_SIGNATURE
# ifdef HAVE_GNUTLS
result = malloc(gcry_md_get_algo_dlen(GCRY_MD_SHA1));
- if (!result) return NULL;
+ if (!result)
+ return NULL;
gcry_md_hash_buffer(GCRY_MD_SHA1, result, data_base, data_length);
- if (sha1_length) *sha1_length = gcry_md_get_algo_dlen(GCRY_MD_SHA1);
+ if (sha1_length)
+ *sha1_length = gcry_md_get_algo_dlen(GCRY_MD_SHA1);
+
# else
# ifdef HAVE_OPENSSL
result = malloc(SHA_DIGEST_LENGTH);
- if (!result) return NULL;
+ if (!result)
+ return NULL;
SHA1(data_base, data_length, result);
- if (sha1_length) *sha1_length = SHA_DIGEST_LENGTH;
+ if (sha1_length)
+ *sha1_length = SHA_DIGEST_LENGTH;
+
# else
result = NULL;
# endif
/* A few check and flush pending write. */
if (!fp || !key || !key->certificate || !key->private_key)
- return EET_ERROR_BAD_OBJECT;
+ return EET_ERROR_BAD_OBJECT;
/* Get the file size. */
fd = fileno(fp);
- if (fd < 0) return EET_ERROR_BAD_OBJECT;
- if (fstat(fd, &st_buf) < 0) return EET_ERROR_MMAP_FAILED;
+ if (fd < 0)
+ return EET_ERROR_BAD_OBJECT;
+
+ if (fstat(fd, &st_buf) < 0)
+ return EET_ERROR_MMAP_FAILED;
/* Map the file in memory. */
data = mmap(NULL, st_buf.st_size, PROT_READ, MAP_PRIVATE, fd, 0);
- if (data == MAP_FAILED) return EET_ERROR_MMAP_FAILED;
+ if (data == MAP_FAILED)
+ return EET_ERROR_MMAP_FAILED;
# ifdef HAVE_GNUTLS
datum.data = data;
datum.size = st_buf.st_size;
/* Get the signature length */
- if (gnutls_x509_privkey_sign_data(key->private_key, GNUTLS_DIG_SHA1, 0, &datum, sign, &sign_len) &&
+ if (gnutls_x509_privkey_sign_data(key->private_key, GNUTLS_DIG_SHA1, 0,
+ &datum, sign, &sign_len) &&
!sign_len)
{
- err = EET_ERROR_SIGNATURE_FAILED;
- goto on_error;
+ err = EET_ERROR_SIGNATURE_FAILED;
+ goto on_error;
}
/* Get the signature */
sign = malloc(sign_len);
- if (!sign || gnutls_x509_privkey_sign_data(key->private_key, GNUTLS_DIG_SHA1, 0, &datum, sign, &sign_len))
+ if (!sign ||
+ gnutls_x509_privkey_sign_data(key->private_key, GNUTLS_DIG_SHA1, 0,
+ &datum,
+ sign, &sign_len))
{
- if (!sign) err = EET_ERROR_OUT_OF_MEMORY;
- else err = EET_ERROR_SIGNATURE_FAILED;
- goto on_error;
+ if (!sign)
+ err = EET_ERROR_OUT_OF_MEMORY;
+ else
+ err = EET_ERROR_SIGNATURE_FAILED;
+
+ goto on_error;
}
/* Get the certificate length */
- if (gnutls_x509_crt_export(key->certificate, GNUTLS_X509_FMT_DER, cert, &cert_len) &&
+ if (gnutls_x509_crt_export(key->certificate, GNUTLS_X509_FMT_DER, cert,
+ &cert_len) &&
!cert_len)
{
- err = EET_ERROR_SIGNATURE_FAILED;
- goto on_error;
+ err = EET_ERROR_SIGNATURE_FAILED;
+ goto on_error;
}
/* Get the certificate */
cert = malloc(cert_len);
- if (!cert || gnutls_x509_crt_export(key->certificate, GNUTLS_X509_FMT_DER, cert, &cert_len))
+ if (!cert ||
+ gnutls_x509_crt_export(key->certificate, GNUTLS_X509_FMT_DER, cert,
+ &cert_len))
{
- if (!cert) err = EET_ERROR_OUT_OF_MEMORY;
- else err = EET_ERROR_SIGNATURE_FAILED;
- goto on_error;
+ if (!cert)
+ err = EET_ERROR_OUT_OF_MEMORY;
+ else
+ err = EET_ERROR_SIGNATURE_FAILED;
+
+ goto on_error;
}
+
# else
sign_len = EVP_PKEY_size(key->private_key);
sign = malloc(sign_len);
if (sign == NULL)
{
- err = EET_ERROR_OUT_OF_MEMORY;
- goto on_error;
+ err = EET_ERROR_OUT_OF_MEMORY;
+ goto on_error;
}
/* Do the signature. */
EVP_SignInit(&md_ctx, EVP_sha1());
EVP_SignUpdate(&md_ctx, data, st_buf.st_size);
- err = EVP_SignFinal(&md_ctx, sign, (unsigned int *)&sign_len, key->private_key);
+ err = EVP_SignFinal(&md_ctx,
+ sign,
+ (unsigned int *)&sign_len,
+ key->private_key);
if (err != 1)
{
- ERR_print_errors_fp(stdout);
- err = EET_ERROR_SIGNATURE_FAILED;
- goto on_error;
+ ERR_print_errors_fp(stdout);
+ err = EET_ERROR_SIGNATURE_FAILED;
+ goto on_error;
}
/* Give me the der (binary form for X509). */
cert_len = i2d_X509(key->certificate, &cert);
if (cert_len < 0)
{
- ERR_print_errors_fp(stdout);
- err = EET_ERROR_X509_ENCODING_FAILED;
- goto on_error;
+ ERR_print_errors_fp(stdout);
+ err = EET_ERROR_X509_ENCODING_FAILED;
+ goto on_error;
}
+
# endif
/* Append the signature at the end of the file. */
- head[0] = (int) htonl ((unsigned int) EET_MAGIC_SIGN);
- head[1] = (int) htonl ((unsigned int) sign_len);
- head[2] = (int) htonl ((unsigned int) cert_len);
+ head[0] = (int)htonl ((unsigned int)EET_MAGIC_SIGN);
+ head[1] = (int)htonl ((unsigned int)sign_len);
+ head[2] = (int)htonl ((unsigned int)cert_len);
if (fwrite(head, sizeof(head), 1, fp) != 1)
{
- err = EET_ERROR_WRITE_ERROR;
- goto on_error;
+ err = EET_ERROR_WRITE_ERROR;
+ goto on_error;
}
+
if (fwrite(sign, sign_len, 1, fp) != 1)
{
- err = EET_ERROR_WRITE_ERROR;
- goto on_error;
+ err = EET_ERROR_WRITE_ERROR;
+ goto on_error;
}
+
if (fwrite(cert, cert_len, 1, fp) != 1)
{
- err = EET_ERROR_WRITE_ERROR;
- goto on_error;
+ err = EET_ERROR_WRITE_ERROR;
+ goto on_error;
}
- on_error:
+on_error:
# ifdef HAVE_GNUTLS
- if (cert) free(cert);
+ if (cert)
+ free(cert);
+
# else
- if (cert) OPENSSL_free(cert);
+ if (cert)
+ OPENSSL_free(cert);
+
# endif
- if (sign) free(sign);
+ if (sign)
+ free(sign);
+
munmap(data, st_buf.st_size);
return err;
#else
#endif
}
-const void*
-eet_identity_check(const void *data_base, unsigned int data_length,
- void **sha1, int *sha1_length,
- const void *signature_base, unsigned int signature_length,
- const void **raw_signature_base, unsigned int *raw_signature_length,
- int *x509_length)
+const void *
+eet_identity_check(const void *data_base,
+ unsigned int data_length,
+ void **sha1,
+ int *sha1_length,
+ const void *signature_base,
+ unsigned int signature_length,
+ const void **raw_signature_base,
+ unsigned int *raw_signature_length,
+ int *x509_length)
{
#ifdef HAVE_SIGNATURE
const int *header = signature_base;
int magic;
/* At least the header size */
- if (signature_length < sizeof(int) * 3) return NULL;
+ if (signature_length < sizeof(int) * 3)
+ return NULL;
/* Get the header */
magic = ntohl(header[0]);
cert_len = ntohl(header[2]);
/* Verify the header */
- if (magic != EET_MAGIC_SIGN) return NULL;
- if (sign_len + cert_len + sizeof(int) * 3 > signature_length) return NULL;
+ if (magic != EET_MAGIC_SIGN)
+ return NULL;
+
+ if (sign_len + cert_len + sizeof(int) * 3 > signature_length)
+ return NULL;
/* Update the signature and certificate pointer */
sign = (unsigned char *)signature_base + sizeof(int) * 3;
/* Verify the signature */
# if EET_USE_NEW_GNUTLS_API
/*
- I am waiting for my patch being accepted in GnuTLS release.
- But we now have a way to prevent double computation of SHA1.
+ I am waiting for my patch being accepted in GnuTLS release.
+ But we now have a way to prevent double computation of SHA1.
*/
err = gcry_md_open (&md, GCRY_MD_SHA1, 0);
- if (err < 0) return NULL;
+ if (err < 0)
+ return NULL;
gcry_md_write(md, data_base, data_length);
hash = gcry_md_read(md, GCRY_MD_SHA1);
if (hash == NULL)
{
- gcry_md_close(md);
- return NULL;
+ gcry_md_close(md);
+ return NULL;
}
datum.size = gcry_md_get_algo_dlen(GCRY_MD_SHA1);
if (!gnutls_x509_crt_verify_hash(cert, 0, &datum, &signature))
{
- gcry_md_close(md);
- return NULL;
+ gcry_md_close(md);
+ return NULL;
}
if (sha1)
{
- *sha1 = malloc(datum.size);
- if (!*sha1)
- {
- gcry_md_close(md);
- return NULL;
- }
-
- memcpy(*sha1, hash, datum.size);
- *sha1_length = datum.size;
+ *sha1 = malloc(datum.size);
+ if (!*sha1)
+ {
+ gcry_md_close(md);
+ return NULL;
+ }
+
+ memcpy(*sha1, hash, datum.size);
+ *sha1_length = datum.size;
}
gcry_md_close(md);
datum.size = data_length;
if (!gnutls_x509_crt_verify_data(cert, 0, &datum, &signature))
- return NULL;
+ return NULL;
if (sha1)
{
- *sha1 = NULL;
- *sha1_length = -1;
+ *sha1 = NULL;
+ *sha1_length = -1;
}
+
# endif
- gnutls_x509_crt_deinit(cert);
+ gnutls_x509_crt_deinit(cert);
# else
const unsigned char *tmp;
/* Strange but d2i_X509 seems to put 0 all over the place. */
tmp = alloca(cert_len);
- memcpy((char*) tmp, cert_der, cert_len);
+ memcpy((char *)tmp, cert_der, cert_len);
x509 = d2i_X509(NULL, &tmp, cert_len);
- if (x509 == NULL) return NULL;
+ if (x509 == NULL)
+ return NULL;
/* Get public key - eay */
- pkey=X509_get_pubkey(x509);
+ pkey = X509_get_pubkey(x509);
if (pkey == NULL)
{
- X509_free(x509);
- return NULL;
+ X509_free(x509);
+ return NULL;
}
/* Verify the signature */
if (sha1)
{
- *sha1 = NULL;
- *sha1_length = -1;
+ *sha1 = NULL;
+ *sha1_length = -1;
}
if (err != 1)
- return NULL;
+ return NULL;
+
# endif
- if (x509_length) *x509_length = cert_len;
- if (raw_signature_base) *raw_signature_base = sign;
- if (raw_signature_length) *raw_signature_length = sign_len;
+ if (x509_length)
+ *x509_length = cert_len;
+
+ if (raw_signature_base)
+ *raw_signature_base = sign;
+
+ if (raw_signature_length)
+ *raw_signature_length = sign_len;
+
return cert_der;
#else
return NULL;
}
EAPI void
-eet_identity_certificate_print(const unsigned char *certificate, int der_length, FILE *out)
+eet_identity_certificate_print(const unsigned char *certificate,
+ int der_length,
+ FILE *out)
{
#ifdef HAVE_SIGNATURE
- if (!certificate || !out || der_length <= 0)
+ if (!certificate || !out || der_length <= 0)
{
- ERR("No certificate provided.");
- return ;
+ ERR("No certificate provided.");
+ return;
}
+
# ifdef HAVE_GNUTLS
- gnutls_datum_t datum;
- gnutls_x509_crt_t cert;
-
- /* Create an understanding certificate structure for gnutls */
- datum.data = (void *)certificate;
- datum.size = der_length;
- if (gnutls_x509_crt_init(&cert)) goto on_error;
- if (gnutls_x509_crt_import(cert, &datum, GNUTLS_X509_FMT_DER)) goto on_error;
-
- /* Pretty print the certificate */
- datum.data = NULL;
- datum.size = 0;
- if (gnutls_x509_crt_print(cert, GNUTLS_X509_CRT_FULL, &datum)) goto on_error;
- INF("Public certificate :");
- INF("%s", datum.data);
-
- on_error:
- if (datum.data) gnutls_free(datum.data);
- gnutls_x509_crt_deinit(cert);
+ gnutls_datum_t datum;
+ gnutls_x509_crt_t cert;
+
+ /* Create an understanding certificate structure for gnutls */
+ datum.data = (void *)certificate;
+ datum.size = der_length;
+ if (gnutls_x509_crt_init(&cert))
+ goto on_error;
+
+ if (gnutls_x509_crt_import(cert, &datum, GNUTLS_X509_FMT_DER))
+ goto on_error;
+
+ /* Pretty print the certificate */
+ datum.data = NULL;
+ datum.size = 0;
+ if (gnutls_x509_crt_print(cert, GNUTLS_X509_CRT_FULL, &datum))
+ goto on_error;
+
+ INF("Public certificate :");
+ INF("%s", datum.data);
+
+on_error:
+ if (datum.data)
+ gnutls_free(datum.data);
+
+ gnutls_x509_crt_deinit(cert);
# else
const unsigned char *tmp;
X509 *x509;
/* Strange but d2i_X509 seems to put 0 all over the place. */
tmp = alloca(der_length);
- memcpy((char*) tmp, certificate, der_length);
+ memcpy((char *)tmp, certificate, der_length);
x509 = d2i_X509(NULL, &tmp, der_length);
if (x509 == NULL)
{
- INF("Not a valid certificate.");
- return ;
+ INF("Not a valid certificate.");
+ return;
}
- INF("Public certificate :");
- X509_print_fp(out, x509);
+ INF("Public certificate :");
+ X509_print_fp(out, x509);
X509_free(x509);
# endif
}
Eet_Error
-eet_cipher(const void *data, unsigned int size, const char *key, unsigned int length, void **result, unsigned int *result_length)
+eet_cipher(const void *data,
+ unsigned int size,
+ const char *key,
+ unsigned int length,
+ void **result,
+ unsigned int *result_length)
{
#ifdef HAVE_CIPHER
- /* Cipher declarations */
+ /* Cipher declarations */
unsigned int *ret = NULL;
unsigned char iv[MAX_IV_LEN];
unsigned char ik[MAX_KEY_LEN];
gcry_create_nonce((unsigned char *)&salt, sizeof(salt));
# else
/* Openssl salt generation */
- if (!RAND_bytes((unsigned char*)&salt, sizeof (unsigned int)))
- return EET_ERROR_PRNG_NOT_SEEDED;
+ if (!RAND_bytes((unsigned char *)&salt, sizeof (unsigned int)))
+ return EET_ERROR_PRNG_NOT_SEEDED;
+
#endif
- eet_pbkdf2_sha1(key, length, (unsigned char *)&salt, sizeof(unsigned int), 2048, key_material, MAX_KEY_LEN + MAX_IV_LEN);
+ eet_pbkdf2_sha1(key,
+ length,
+ (unsigned char *)&salt,
+ sizeof(unsigned int),
+ 2048,
+ key_material,
+ MAX_KEY_LEN + MAX_IV_LEN);
- memcpy(iv, key_material, MAX_IV_LEN);
- memcpy(ik, key_material + MAX_IV_LEN, MAX_KEY_LEN);
+ memcpy(iv, key_material, MAX_IV_LEN);
+ memcpy(ik, key_material + MAX_IV_LEN, MAX_KEY_LEN);
- memset(key_material, 0, sizeof (key_material));
+ memset(key_material, 0, sizeof (key_material));
crypted_length = ((((size + sizeof (unsigned int)) >> 5) + 1) << 5);
ret = malloc(crypted_length + sizeof(unsigned int));
- if (!ret) {
- memset(iv, 0, sizeof (iv));
- memset(ik, 0, sizeof (ik));
- memset(&salt, 0, sizeof (salt));
- return EET_ERROR_OUT_OF_MEMORY;
- }
+ if (!ret)
+ {
+ memset(iv, 0, sizeof (iv));
+ memset(ik, 0, sizeof (ik));
+ memset(&salt, 0, sizeof (salt));
+ return EET_ERROR_OUT_OF_MEMORY;
+ }
*ret = salt;
- memset(&salt, 0, sizeof (salt));
+ memset(&salt, 0, sizeof (salt));
tmp = htonl(size);
#ifdef HAVE_GNUTLS
/* Gcrypt create the corresponding cipher
AES with a 256 bit key, Cipher Block Chaining mode */
err = gcry_cipher_open(&cipher, GCRY_CIPHER_AES256, GCRY_CIPHER_MODE_CBC, 0);
- if (err) goto on_error;
+ if (err)
+ goto on_error;
+
opened = 1;
err = gcry_cipher_setiv(cipher, iv, MAX_IV_LEN);
- if (err) goto on_error;
+ if (err)
+ goto on_error;
+
err = gcry_cipher_setkey(cipher, ik, MAX_KEY_LEN);
- if (err) goto on_error;
+ if (err)
+ goto on_error;
memset(iv, 0, sizeof (iv));
memset(ik, 0, sizeof (ik));
/* Gcrypt encrypt */
- err = gcry_cipher_encrypt(cipher, (unsigned char *)(ret + 1), crypted_length, NULL, 0);
- if (err) goto on_error;
+ err = gcry_cipher_encrypt(cipher,
+ (unsigned char *)(ret + 1),
+ crypted_length,
+ NULL,
+ 0);
+ if (err)
+ goto on_error;
/* Gcrypt close the cipher */
gcry_cipher_close(cipher);
/* Openssl create the corresponding cipher
AES with a 256 bit key, Cipher Block Chaining mode */
EVP_CIPHER_CTX_init(&ctx);
- if (!EVP_EncryptInit_ex(&ctx, EVP_aes_256_cbc(), NULL, ik, iv)) goto on_error;
+ if (!EVP_EncryptInit_ex(&ctx, EVP_aes_256_cbc(), NULL, ik, iv))
+ goto on_error;
+
opened = 1;
memset(iv, 0, sizeof (iv));
memset(ik, 0, sizeof (ik));
/* Openssl encrypt */
- if (!EVP_EncryptUpdate(&ctx, (unsigned char*)(ret + 1), &tmp_len, (unsigned char*) buffer, size + sizeof (unsigned int)))
- goto on_error;
+ if (!EVP_EncryptUpdate(&ctx, (unsigned char *)(ret + 1), &tmp_len,
+ (unsigned char *)buffer, size + sizeof (unsigned int)))
+ goto on_error;
/* Openssl close the cipher */
- if (!EVP_EncryptFinal_ex(&ctx, ((unsigned char*)(ret + 1)) + tmp_len, &tmp_len))
- goto on_error;
+ if (!EVP_EncryptFinal_ex(&ctx, ((unsigned char *)(ret + 1)) + tmp_len,
+ &tmp_len))
+ goto on_error;
+
EVP_CIPHER_CTX_cleanup(&ctx);
# endif
/* Set return values */
- if (result_length) *result_length = crypted_length + sizeof(unsigned int);
- if (result) *result = ret;
- else free(ret);
+ if (result_length)
+ *result_length = crypted_length + sizeof(unsigned int);
+
+ if (result)
+ *result = ret;
+ else
+ free(ret);
return EET_ERROR_NONE;
- on_error:
+on_error:
memset(iv, 0, sizeof (iv));
memset(ik, 0, sizeof (ik));
# ifdef HAVE_GNUTLS
/* Gcrypt error */
- if (opened) gcry_cipher_close(cipher);
+ if (opened)
+ gcry_cipher_close(cipher);
+
# else
/* Openssl error */
- if (opened) EVP_CIPHER_CTX_cleanup(&ctx);
+ if (opened)
+ EVP_CIPHER_CTX_cleanup(&ctx);
+
# endif
/* General error */
free(ret);
- if (result) *result = NULL;
- if (result_length) *result_length = 0;
+ if (result)
+ *result = NULL;
+
+ if (result_length)
+ *result_length = 0;
return EET_ERROR_ENCRYPT_FAILED;
#else
/* Cipher not supported */
- (void) data;
- (void) size;
- (void) key;
- (void) length;
- (void) result;
- (void) result_length;
+ (void)data;
+ (void)size;
+ (void)key;
+ (void)length;
+ (void)result;
+ (void)result_length;
return EET_ERROR_NOT_IMPLEMENTED;
#endif
}
Eet_Error
-eet_decipher(const void *data, unsigned int size, const char *key, unsigned int length, void **result, unsigned int *result_length)
+eet_decipher(const void *data,
+ unsigned int size,
+ const char *key,
+ unsigned int length,
+ void **result,
+ unsigned int *result_length)
{
#ifdef HAVE_CIPHER
const unsigned int *over = data;
int tmp = 0;
/* At least the salt and an AES block */
- if (size < sizeof(unsigned int) + 16) return EET_ERROR_BAD_OBJECT;
+ if (size < sizeof(unsigned int) + 16)
+ return EET_ERROR_BAD_OBJECT;
/* Get the salt */
salt = *over;
/* Generate the iv and the key with the salt */
- eet_pbkdf2_sha1(key, length, (unsigned char *)&salt, sizeof(unsigned int), 2048, key_material, MAX_KEY_LEN + MAX_IV_LEN);
-
- memcpy(iv, key_material, MAX_IV_LEN);
+ eet_pbkdf2_sha1(key,
+ length,
+ (unsigned char *)&salt,
+ sizeof(unsigned int),
+ 2048,
+ key_material,
+ MAX_KEY_LEN + MAX_IV_LEN);
+
+ memcpy(iv, key_material, MAX_IV_LEN);
memcpy(ik, key_material + MAX_IV_LEN, MAX_KEY_LEN);
memset(key_material, 0, sizeof (key_material));
- memset(&salt, 0, sizeof (salt));
+ memset(&salt, 0, sizeof (salt));
/* Align to AES block size if size is not align */
tmp_len = size - sizeof (unsigned int);
- if ((tmp_len & 0x1F) != 0) goto on_error;
+ if ((tmp_len & 0x1F) != 0)
+ goto on_error;
ret = malloc(tmp_len);
- if (!ret) goto on_error;
+ if (!ret)
+ goto on_error;
# ifdef HAVE_GNUTLS
gcry_error_t err = 0;
/* Gcrypt create the corresponding cipher */
err = gcry_cipher_open(&cipher, GCRY_CIPHER_AES256, GCRY_CIPHER_MODE_CBC, 0);
- if (err) return EET_ERROR_DECRYPT_FAILED;
+ if (err)
+ return EET_ERROR_DECRYPT_FAILED;
+
err = gcry_cipher_setiv(cipher, iv, MAX_IV_LEN);
- if (err) goto on_error;
+ if (err)
+ goto on_error;
+
err = gcry_cipher_setkey(cipher, ik, MAX_KEY_LEN);
- if (err) goto on_error;
+ if (err)
+ goto on_error;
memset(iv, 0, sizeof (iv));
memset(ik, 0, sizeof (ik));
/* Gcrypt decrypt */
- err = gcry_cipher_decrypt(cipher, ret, tmp_len, ((unsigned int *)data) + 1, tmp_len);
- if (err) goto on_error;
+ err = gcry_cipher_decrypt(cipher,
+ ret,
+ tmp_len,
+ ((unsigned int *)data) + 1,
+ tmp_len);
+ if (err)
+ goto on_error;
/* Gcrypt close the cipher */
gcry_cipher_close(cipher);
opened = 1;
if (!EVP_DecryptInit_ex(&ctx, EVP_aes_256_cbc(), NULL, ik, iv))
- goto on_error;
+ goto on_error;
memset(iv, 0, sizeof (iv));
memset(ik, 0, sizeof (ik));
/* Openssl decrypt */
- if (!EVP_DecryptUpdate(&ctx, (unsigned char *) ret, &tmp,
- (unsigned char *) (over + 1), tmp_len))
- goto on_error;
+ if (!EVP_DecryptUpdate(&ctx, (unsigned char *)ret, &tmp,
+ (unsigned char *)(over + 1), tmp_len))
+ goto on_error;
/* Openssl close the cipher*/
EVP_CIPHER_CTX_cleanup(&ctx);
/* Get the decrypted data size */
tmp = *ret;
tmp = ntohl(tmp);
- if (tmp > tmp_len) goto on_error;
+ if (tmp > tmp_len)
+ goto on_error;
/* Update the return values */
- if (result_length) *result_length = tmp;
+ if (result_length)
+ *result_length = tmp;
+
if (result)
{
- *result = NULL;
- *result = malloc(tmp);
- if (!*result)
- goto on_error;
- memcpy(*result, ret + 1, tmp);
+ *result = NULL;
+ *result = malloc(tmp);
+ if (!*result)
+ goto on_error;
+
+ memcpy(*result, ret + 1, tmp);
}
+
free(ret);
return EET_ERROR_NONE;
- on_error:
+on_error:
memset(iv, 0, sizeof (iv));
memset(ik, 0, sizeof (ik));
# ifdef HAVE_GNUTLS
# else
- if (opened) EVP_CIPHER_CTX_cleanup(&ctx);
+ if (opened)
+ EVP_CIPHER_CTX_cleanup(&ctx);
+
# endif
- if (result) *result = NULL;
- if (result_length) *result_length = 0;
- if (ret) free(ret);
+ if (result)
+ *result = NULL;
+
+ if (result_length)
+ *result_length = 0;
+
+ if (ret)
+ free(ret);
return EET_ERROR_DECRYPT_FAILED;
#else
- (void) data;
- (void) size;
- (void) key;
- (void) length;
- (void) result;
- (void) result_length;
+ (void)data;
+ (void)size;
+ (void)key;
+ (void)length;
+ (void)result;
+ (void)result_length;
return EET_ERROR_NOT_IMPLEMENTED;
#endif
}
eet_hmac_sha1(const void *key, size_t key_len,
const void *data, size_t data_len, unsigned char *res)
{
- size_t hlen = gcry_md_get_algo_dlen (GCRY_MD_SHA1);
- gcry_md_hd_t mdh;
- unsigned char *hash;
- gpg_error_t err;
-
- err = gcry_md_open(&mdh, GCRY_MD_SHA1, GCRY_MD_FLAG_HMAC);
- if (err != GPG_ERR_NO_ERROR)
- return 1;
-
- err = gcry_md_setkey(mdh, key, key_len);
- if (err != GPG_ERR_NO_ERROR)
- {
- gcry_md_close(mdh);
+ size_t hlen = gcry_md_get_algo_dlen (GCRY_MD_SHA1);
+ gcry_md_hd_t mdh;
+ unsigned char *hash;
+ gpg_error_t err;
+
+ err = gcry_md_open(&mdh, GCRY_MD_SHA1, GCRY_MD_FLAG_HMAC);
+ if (err != GPG_ERR_NO_ERROR)
return 1;
- }
- gcry_md_write(mdh, data, data_len);
+ err = gcry_md_setkey(mdh, key, key_len);
+ if (err != GPG_ERR_NO_ERROR)
+ {
+ gcry_md_close(mdh);
+ return 1;
+ }
- hash = gcry_md_read(mdh, GCRY_MD_SHA1);
- if (hash == NULL)
- {
- gcry_md_close(mdh);
- return 1;
- }
+ gcry_md_write(mdh, data, data_len);
+
+ hash = gcry_md_read(mdh, GCRY_MD_SHA1);
+ if (hash == NULL)
+ {
+ gcry_md_close(mdh);
+ return 1;
+ }
- memcpy(res, hash, hlen);
+ memcpy(res, hash, hlen);
- gcry_md_close(mdh);
+ gcry_md_close(mdh);
- return 0;
+ return 0;
}
# endif
static Eet_Error
-eet_pbkdf2_sha1(const char *key,
- int key_len,
- const unsigned char *salt,
- unsigned int salt_len,
- int iter,
- unsigned char *res,
- int res_len)
+eet_pbkdf2_sha1(const char *key,
+ int key_len,
+ const unsigned char *salt,
+ unsigned int salt_len,
+ int iter,
+ unsigned char *res,
+ int res_len)
{
- unsigned char digest[20];
- unsigned char tab[4];
- unsigned char *p = res;
- unsigned char *buf;
- unsigned long i;
- int digest_len = 20;
- int len = res_len;
- int tmp_len;
- int j, k;
+ unsigned char digest[20];
+ unsigned char tab[4];
+ unsigned char *p = res;
+ unsigned char *buf;
+ unsigned long i;
+ int digest_len = 20;
+ int len = res_len;
+ int tmp_len;
+ int j, k;
# ifdef HAVE_GNUTLS
# else
- HMAC_CTX hctx;
+ HMAC_CTX hctx;
# endif
- buf = alloca(salt_len + 4);
- if (!buf) return 1;
+ buf = alloca(salt_len + 4);
+ if (!buf)
+ return 1;
- for (i = 1; len; len -= tmp_len, p += tmp_len, i++)
- {
- if (len > digest_len) tmp_len = digest_len;
- else tmp_len = len;
+ for (i = 1; len; len -= tmp_len, p += tmp_len, i++)
+ {
+ if (len > digest_len)
+ tmp_len = digest_len;
+ else
+ tmp_len = len;
- tab[0] = (unsigned char)(i & 0xff000000) >> 24;
- tab[1] = (unsigned char)(i & 0x00ff0000) >> 16;
- tab[2] = (unsigned char)(i & 0x0000ff00) >> 8;
- tab[3] = (unsigned char)(i & 0x000000ff) >> 0;
+ tab[0] = (unsigned char)(i & 0xff000000) >> 24;
+ tab[1] = (unsigned char)(i & 0x00ff0000) >> 16;
+ tab[2] = (unsigned char)(i & 0x0000ff00) >> 8;
+ tab[3] = (unsigned char)(i & 0x000000ff) >> 0;
# ifdef HAVE_GNUTLS
- memcpy(buf, salt, salt_len);
- memcpy(buf + salt_len, tab, 4);
- eet_hmac_sha1(key, key_len, buf, salt_len + 4, digest);
+ memcpy(buf, salt, salt_len);
+ memcpy(buf + salt_len, tab, 4);
+ eet_hmac_sha1(key, key_len, buf, salt_len + 4, digest);
# else
- HMAC_Init(&hctx, key, key_len, EVP_sha1());
- HMAC_Update(&hctx, salt, salt_len);
- HMAC_Update(&hctx, tab, 4);
- HMAC_Final(&hctx, digest, NULL);
+ HMAC_Init(&hctx, key, key_len, EVP_sha1());
+ HMAC_Update(&hctx, salt, salt_len);
+ HMAC_Update(&hctx, tab, 4);
+ HMAC_Final(&hctx, digest, NULL);
# endif
- memcpy(p, digest, tmp_len);
+ memcpy(p, digest, tmp_len);
- for (j = 1; j < iter; j++)
- {
+ for (j = 1; j < iter; j++)
+ {
# ifdef HAVE_GNUTLS
- eet_hmac_sha1(key, key_len, digest, 20, digest);
+ eet_hmac_sha1(key, key_len, digest, 20, digest);
# else
- HMAC(EVP_sha1(), key, key_len, digest, 20, digest, NULL);
+ HMAC(EVP_sha1(), key, key_len, digest, 20, digest, NULL);
# endif
- for (k = 0; k < tmp_len; k++)
- p[k] ^= digest[k];
- }
- }
+ for (k = 0; k < tmp_len; k++)
+ p[k] ^= digest[k];
+ }
+ }
# ifdef HAVE_GNUTLS
# else
- HMAC_cleanup(&hctx);
+ HMAC_cleanup(&hctx);
# endif
- return 0;
+ return 0;
}
#endif
#define MAGIC_EET_DATA_PACKET 0x4270ACE1
typedef struct _Eet_Message Eet_Message;
-struct _Eet_Message {
+struct _Eet_Message
+{
int magic;
int size;
};
EAPI Eet_Connection *
eet_connection_new(Eet_Read_Cb *eet_read_cb,
- Eet_Write_Cb *eet_write_cb,
- const void *user_data)
+ Eet_Write_Cb *eet_write_cb,
+ const void *user_data)
{
Eet_Connection *conn;
if (!eet_read_cb || !eet_write_cb)
- return NULL;
+ return NULL;
conn = calloc(1, sizeof (Eet_Connection));
if (!conn)
- return NULL;
+ return NULL;
conn->eet_read_cb = eet_read_cb;
conn->eet_write_cb = eet_write_cb;
- conn->user_data = (void*) user_data;
+ conn->user_data = (void *)user_data;
return conn;
}
eet_connection_received(Eet_Connection *conn, const void *data, size_t size)
{
if (!conn || !data || !size)
- return size;
+ return size;
do {
- size_t copy_size;
-
- if (conn->size == 0)
- {
- const Eet_Message *msg;
- size_t packet_size;
-
- if (size < sizeof (Eet_Message))
- break;
-
- msg = data;
- /* Check the magic */
- if (ntohl(msg->magic) != MAGIC_EET_DATA_PACKET)
- break;
-
- packet_size = ntohl(msg->size);
- /* Message should always be under 64K */
- if (packet_size > 64 * 1024)
- break;
-
- data = (void*) (msg + 1);
- size -= sizeof (msg);
- if ((size_t) packet_size <= size)
- {
- /* Not a partial receive, go the quick way. */
- if (!conn->eet_read_cb(data, packet_size, conn->user_data))
- break;
-
- data = (void*) ((char *) data + packet_size);
- size -= packet_size;
-
- conn->received = 0;
- continue;
- }
-
- conn->size = packet_size;
- if (conn->allocated < conn->size)
- {
- void *tmp;
-
- tmp = realloc(conn->buffer, conn->size);
- if (!tmp)
- break;
-
- conn->buffer = tmp;
- conn->allocated = conn->size;
- }
- }
-
- /* Partial receive */
- copy_size = (conn->size - conn->received >= size) ? size : conn->size - conn->received;
- memcpy((char*) conn->buffer + conn->received, data, copy_size);
-
- conn->received += copy_size;
- data = (void*)((char *) data + copy_size);
- size -= copy_size;
-
- if (conn->received == conn->size)
- {
- size_t data_size;
-
- data_size = conn->size;
- conn->size = 0;
- conn->received = 0;
-
- /* Completed a packet. */
- if (!conn->eet_read_cb(conn->buffer, data_size, conn->user_data))
- {
- /* Something goes wrong. Stop now. */
- size += data_size;
- break;
- }
- }
- } while (size > 0);
+ size_t copy_size;
+
+ if (conn->size == 0)
+ {
+ const Eet_Message *msg;
+ size_t packet_size;
+
+ if (size < sizeof (Eet_Message))
+ break;
+
+ msg = data;
+ /* Check the magic */
+ if (ntohl(msg->magic) != MAGIC_EET_DATA_PACKET)
+ break;
+
+ packet_size = ntohl(msg->size);
+ /* Message should always be under 64K */
+ if (packet_size > 64 * 1024)
+ break;
+
+ data = (void *)(msg + 1);
+ size -= sizeof (msg);
+ if ((size_t)packet_size <= size)
+ {
+ /* Not a partial receive, go the quick way. */
+ if (!conn->eet_read_cb(data, packet_size, conn->user_data))
+ break;
+
+ data = (void *)((char *)data + packet_size);
+ size -= packet_size;
+
+ conn->received = 0;
+ continue;
+ }
+
+ conn->size = packet_size;
+ if (conn->allocated < conn->size)
+ {
+ void *tmp;
+
+ tmp = realloc(conn->buffer, conn->size);
+ if (!tmp)
+ break;
+
+ conn->buffer = tmp;
+ conn->allocated = conn->size;
+ }
+ }
+
+ /* Partial receive */
+ copy_size =
+ (conn->size - conn->received >=
+ size) ? size : conn->size - conn->received;
+ memcpy((char *)conn->buffer + conn->received, data, copy_size);
+
+ conn->received += copy_size;
+ data = (void *)((char *)data + copy_size);
+ size -= copy_size;
+
+ if (conn->received == conn->size)
+ {
+ size_t data_size;
+
+ data_size = conn->size;
+ conn->size = 0;
+ conn->received = 0;
+
+ /* Completed a packet. */
+ if (!conn->eet_read_cb(conn->buffer, data_size, conn->user_data))
+ {
+ /* Something goes wrong. Stop now. */
+ size += data_size;
+ break;
+ }
+ }
+ } while (size > 0);
return size;
}
/* Message should never be above 64K */
if (data_size > 64 * 1024)
- return EINA_FALSE;
+ return EINA_FALSE;
message = alloca(data_size + sizeof (Eet_Message));
message->magic = htonl(MAGIC_EET_DATA_PACKET);
message->size = htonl(data_size);
- memcpy(message + 1, data, data_size);
+ memcpy(message + 1, data, data_size);
- conn->eet_write_cb(message, data_size + sizeof (Eet_Message), conn->user_data);
+ conn->eet_write_cb(message,
+ data_size + sizeof (Eet_Message),
+ conn->user_data);
return EINA_TRUE;
}
EAPI Eina_Bool
-eet_connection_send(Eet_Connection *conn, Eet_Data_Descriptor *edd, const void *data_in, const char *cipher_key)
+eet_connection_send(Eet_Connection *conn,
+ Eet_Data_Descriptor *edd,
+ const void *data_in,
+ const char *cipher_key)
{
void *flat_data;
int data_size;
Eina_Bool ret = EINA_FALSE;
- flat_data = eet_data_descriptor_encode_cipher(edd, data_in, cipher_key, &data_size);
+ flat_data = eet_data_descriptor_encode_cipher(edd,
+ data_in,
+ cipher_key,
+ &data_size);
if (!flat_data)
- return EINA_FALSE;
+ return EINA_FALSE;
if (_eet_connection_raw_send(conn, flat_data, data_size))
- ret = EINA_TRUE;
+ ret = EINA_TRUE;
free(flat_data);
return ret;
}
EAPI Eina_Bool
-eet_connection_node_send(Eet_Connection *conn, Eet_Node *node, const char *cipher_key)
+eet_connection_node_send(Eet_Connection *conn,
+ Eet_Node *node,
+ const char *cipher_key)
{
void *data;
int data_size;
data = eet_data_node_encode_cipher(node, cipher_key, &data_size);
if (!data)
- return EINA_FALSE;
+ return EINA_FALSE;
if (_eet_connection_raw_send(conn, data, data_size))
- ret = EINA_TRUE;
+ ret = EINA_TRUE;
free(data);
return ret;
void *user_data;
if (!conn)
- return NULL;
+ return NULL;
if (on_going)
- *on_going = conn->received == 0 ? EINA_FALSE : EINA_TRUE;
+ *on_going = conn->received == 0 ? EINA_FALSE : EINA_TRUE;
user_data = conn->user_data;
/*---*/
-typedef struct _Eet_Data_Element Eet_Data_Element;
-typedef struct _Eet_Data_Basic_Type_Codec Eet_Data_Basic_Type_Codec;
-typedef struct _Eet_Data_Group_Type_Codec Eet_Data_Group_Type_Codec;
-typedef struct _Eet_Data_Chunk Eet_Data_Chunk;
-typedef struct _Eet_Data_Stream Eet_Data_Stream;
-typedef struct _Eet_Data_Descriptor_Hash Eet_Data_Descriptor_Hash;
-typedef struct _Eet_Data_Encode_Hash_Info Eet_Data_Encode_Hash_Info;
-typedef struct _Eet_Free Eet_Free;
-typedef struct _Eet_Free_Context Eet_Free_Context;
-typedef struct _Eet_Variant_Unknow Eet_Variant_Unknow;
+typedef struct _Eet_Data_Element Eet_Data_Element;
+typedef struct _Eet_Data_Basic_Type_Codec Eet_Data_Basic_Type_Codec;
+typedef struct _Eet_Data_Group_Type_Codec Eet_Data_Group_Type_Codec;
+typedef struct _Eet_Data_Chunk Eet_Data_Chunk;
+typedef struct _Eet_Data_Stream Eet_Data_Stream;
+typedef struct _Eet_Data_Descriptor_Hash Eet_Data_Descriptor_Hash;
+typedef struct _Eet_Data_Encode_Hash_Info Eet_Data_Encode_Hash_Info;
+typedef struct _Eet_Free Eet_Free;
+typedef struct _Eet_Free_Context Eet_Free_Context;
+typedef struct _Eet_Variant_Unknow Eet_Variant_Unknow;
/*---*/
*/
struct _Eet_Data_Basic_Type_Codec
{
- int size;
+ int size;
const char *name;
- int (*get) (const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
- void *(*put) (Eet_Dictionary *ed, const void *src, int *size_ret);
+ int (*get)(const Eet_Dictionary *ed, const void *src, const void *src_end,
+ void *dest);
+ void *(*put)(Eet_Dictionary *ed, const void *src, int *size_ret);
};
struct _Eet_Data_Group_Type_Codec
{
- int (*get) (Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk, int type, int group_type, void *data_in, char **p, int *size);
- void (*put) (Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in);
+ int (*get)(Eet_Free_Context *context, const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd, Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type, int group_type, void *data_in, char **p, int *size);
+ void (*put)(Eet_Dictionary *ed, Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in);
};
struct _Eet_Data_Chunk
{
- char *name;
- int len;
- int size;
- int hash;
- void *data;
- unsigned char type;
- unsigned char group_type;
+ char *name;
+ int len;
+ int size;
+ int hash;
+ void *data;
+ unsigned char type;
+ unsigned char group_type;
};
struct _Eet_Data_Stream
{
void *data;
- int size;
- int pos;
+ int size;
+ int pos;
};
struct _Eet_Data_Descriptor_Hash
{
- Eet_Data_Element *element;
+ Eet_Data_Element *element;
Eet_Data_Descriptor_Hash *next;
};
struct _Eet_Data_Descriptor
{
- const char *name;
+ const char *name;
const Eet_Dictionary *ed;
- int size;
- struct {
- void *(*mem_alloc) (size_t size);
- void (*mem_free) (void *mem);
- char *(*str_alloc) (const char *str);
- char *(*str_direct_alloc) (const char *str);
- void (*str_free) (const char *str);
- void (*str_direct_free) (const char *str);
- void *(*list_next) (void *l);
- void *(*list_append) (void *l, void *d);
- void *(*list_data) (void *l);
- void *(*list_free) (void *l);
- void (*hash_foreach) (void *h, int (*func) (void *h, const char *k, void *dt, void *fdt), void *fdt);
- void *(*hash_add) (void *h, const char *k, void *d);
- void (*hash_free) (void *h);
- const char *(*type_get) (const void *data, Eina_Bool *unknow);
- Eina_Bool (*type_set) (const char *type, void *data, Eina_Bool unknow);
+ int size;
+ struct
+ {
+ void *(*mem_alloc)(size_t size);
+ void (*mem_free)(void *mem);
+ char *(*str_alloc)(const char *str);
+ char *(*str_direct_alloc)(const char *str);
+ void (*str_free)(const char *str);
+ void (*str_direct_free)(const char *str);
+ void *(*list_next)(void *l);
+ void *(*list_append)(void *l, void *d);
+ void *(*list_data)(void *l);
+ void *(*list_free)(void *l);
+ void (*hash_foreach)(void *h,
+ int (*func)(void *h, const char *k, void *dt,
+ void *fdt), void *fdt);
+ void *(*hash_add)(void *h, const char *k, void *d);
+ void (*hash_free)(void *h);
+ const char *(*type_get)(const void *data, Eina_Bool *unknow);
+ Eina_Bool (*type_set)(const char *type, void *data, Eina_Bool unknow);
} func;
- struct {
- int num;
- Eet_Data_Element *set;
- struct {
- int size;
- Eet_Data_Descriptor_Hash *buckets;
+ struct
+ {
+ int num;
+ Eet_Data_Element *set;
+ struct
+ {
+ int size;
+ Eet_Data_Descriptor_Hash *buckets;
} hash;
} elements;
struct _Eet_Data_Element
{
- const char *name;
- const char *counter_name;
- const char *directory_name_ptr;
+ const char *name;
+ const char *counter_name;
+ const char *directory_name_ptr;
Eet_Data_Descriptor *subtype;
- int offset; /* offset in bytes from the base element */
- int count; /* number of elements for a fixed array */
- int counter_offset; /* for a variable array we need the offset of the count variable */
- unsigned char type; /* EET_T_XXX */
- unsigned char group_type; /* EET_G_XXX */
+ int offset; /* offset in bytes from the base element */
+ int count; /* number of elements for a fixed array */
+ int counter_offset; /* for a variable array we need the offset of the count variable */
+ unsigned char type; /* EET_T_XXX */
+ unsigned char group_type; /* EET_G_XXX */
};
struct _Eet_Data_Encode_Hash_Info
{
- Eet_Data_Stream *ds;
- Eet_Data_Element *ede;
- Eet_Dictionary *ed;
+ Eet_Data_Stream *ds;
+ Eet_Data_Element *ede;
+ Eet_Dictionary *ed;
};
struct _Eet_Free
{
- int ref;
- int len[256];
- int num[256];
- void **list[256];
+ int ref;
+ int len[256];
+ int num[256];
+ void **list[256];
};
struct _Eet_Free_Context
/*---*/
-static int eet_data_get_char(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_char(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_short(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_short(Eet_Dictionary *ed, const void *src, int *size_ret);
-static inline int eet_data_get_int(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_int(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_long_long(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_long_long(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_float(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_float(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_double(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_double(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_f32p32(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_f32p32(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_f16p16(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_f16p16(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_f8p24(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_f8p24(Eet_Dictionary *ed, const void *src, int *size_ret);
-static inline int eet_data_get_string(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_string(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_istring(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_istring(Eet_Dictionary *ed, const void *src, int *size_ret);
-static int eet_data_get_null(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_null(Eet_Dictionary *ed, const void *src, int *size_ret);
-
-static int eet_data_get_type(const Eet_Dictionary *ed, int type, const void *src, const void *src_end, void *dest);
-static void *eet_data_put_type(Eet_Dictionary *ed, int type, const void *src, int *size_ret);
-
-static Eet_Node *eet_data_node_simple_type(int type, const char *name, void *dd);
-
-static int eet_data_get_unknown(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk, int type, int group_type, void *data_in, char **p, int *size);
-static void eet_data_put_unknown(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in);
-static void eet_data_put_array(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in);
-static int eet_data_get_array(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk, int type, int group_type, void *data, char **p, int *size);
-static int eet_data_get_list(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk, int type, int group_type, void *data_in, char **p, int *size);
-static void eet_data_put_list(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in);
-static void eet_data_put_hash(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in);
-static int eet_data_get_hash(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk, int type, int group_type, void *data, char **p, int *size);
-static void eet_data_put_union(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in);
-static int eet_data_get_union(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk, int type, int group_type, void *data, char **p, int *size);
-static void eet_data_put_variant(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in);
-static int eet_data_get_variant(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk, int type, int group_type, void *data, char **p, int *size);
-
-static void eet_data_chunk_get(const Eet_Dictionary *ed, Eet_Data_Chunk *chnk, const void *src, int size);
-static Eet_Data_Chunk *eet_data_chunk_new(void *data, int size, const char *name, int type, int group_type);
-static void eet_data_chunk_free(Eet_Data_Chunk *chnk);
+static int eet_data_get_char(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_char(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_short(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_short(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static inline int eet_data_get_int(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_int(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_long_long(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_long_long(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_float(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_float(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_double(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_double(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_f32p32(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_f32p32(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_f16p16(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_f16p16(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_f8p24(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_f8p24(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static inline int eet_data_get_string(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_string(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_istring(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_istring(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+static int eet_data_get_null(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_null(Eet_Dictionary *ed,
+ const void *src,
+ int *size_ret);
+
+static int eet_data_get_type(const Eet_Dictionary *ed,
+ int type,
+ const void *src,
+ const void *src_end,
+ void *dest);
+static void * eet_data_put_type(Eet_Dictionary *ed,
+ int type,
+ const void *src,
+ int *size_ret);
+
+static Eet_Node * eet_data_node_simple_type(int type,
+ const char *name,
+ void *dd);
+
+static int eet_data_get_unknown(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type,
+ void *data_in,
+ char **p,
+ int *size);
+static void eet_data_put_unknown(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in);
+static void eet_data_put_array(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in);
+static int eet_data_get_array(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type,
+ void *data,
+ char **p,
+ int *size);
+static int eet_data_get_list(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type,
+ void *data_in,
+ char **p,
+ int *size);
+static void eet_data_put_list(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in);
+static void eet_data_put_hash(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in);
+static int eet_data_get_hash(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type,
+ void *data,
+ char **p,
+ int *size);
+static void eet_data_put_union(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in);
+static int eet_data_get_union(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type,
+ void *data,
+ char **p,
+ int *size);
+static void eet_data_put_variant(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in);
+static int eet_data_get_variant(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type,
+ void *data,
+ char **p,
+ int *size);
+
+static void eet_data_chunk_get(const Eet_Dictionary *ed,
+ Eet_Data_Chunk *chnk,
+ const void *src,
+ int size);
+static Eet_Data_Chunk * eet_data_chunk_new(void *data,
+ int size,
+ const char *name,
+ int type,
+ int group_type);
+static void eet_data_chunk_free(Eet_Data_Chunk *chnk);
static Eet_Data_Stream *eet_data_stream_new(void);
-static void eet_data_stream_write(Eet_Data_Stream *ds, const void *data, int size);
+static void eet_data_stream_write(Eet_Data_Stream *ds,
+ const void *data,
+ int size);
static void eet_data_stream_free(Eet_Data_Stream *ds);
-static void eet_data_chunk_put(Eet_Dictionary *ed, Eet_Data_Chunk *chnk, Eet_Data_Stream *ds);
-
-static int eet_data_descriptor_encode_hash_cb(void *hash, const char *key, void *hdata, void *fdata);
-static void *_eet_data_descriptor_encode(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, const void *data_in, int *size_ret);
-static void *_eet_data_descriptor_decode(Eet_Free_Context *context,
- const Eet_Dictionary *ed,
- Eet_Data_Descriptor *edd,
- const void *data_in,
- int size_in);
+static void eet_data_chunk_put(Eet_Dictionary *ed,
+ Eet_Data_Chunk *chnk,
+ Eet_Data_Stream *ds);
+
+static int eet_data_descriptor_encode_hash_cb(void *hash,
+ const char *key,
+ void *hdata,
+ void *fdata);
+static void * _eet_data_descriptor_encode(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ const void *data_in,
+ int *size_ret);
+static void * _eet_data_descriptor_decode(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ const void *data_in,
+ int size_in);
/*---*/
static const Eet_Data_Basic_Type_Codec eet_basic_codec[] =
{
- {sizeof(char), "char", eet_data_get_char, eet_data_put_char },
- {sizeof(short), "short", eet_data_get_short, eet_data_put_short },
- {sizeof(int), "int", eet_data_get_int, eet_data_put_int },
- {sizeof(long long), "long_long", eet_data_get_long_long, eet_data_put_long_long},
- {sizeof(float), "float", eet_data_get_float, eet_data_put_float },
- {sizeof(double), "double", eet_data_get_double, eet_data_put_double },
- {sizeof(char), "uchar", eet_data_get_char, eet_data_put_char },
- {sizeof(short), "ushort", eet_data_get_short, eet_data_put_short },
- {sizeof(int), "uint", eet_data_get_int, eet_data_put_int },
- {sizeof(long long), "ulong_long", eet_data_get_long_long, eet_data_put_long_long},
- {sizeof(char *), "string", eet_data_get_string, eet_data_put_string },
- {sizeof(char *), "inlined", eet_data_get_istring, eet_data_put_istring },
- {sizeof(void *), "NULL", eet_data_get_null, eet_data_put_null },
- {sizeof(Eina_F32p32),"f32p32", eet_data_get_f32p32, eet_data_put_f32p32 },
- {sizeof(Eina_F16p16),"f16p16", eet_data_get_f16p16, eet_data_put_f16p16 },
- {sizeof(Eina_F8p24),"f8p24", eet_data_get_f8p24, eet_data_put_f8p24 }
+ {sizeof(char), "char", eet_data_get_char, eet_data_put_char },
+ {sizeof(short), "short", eet_data_get_short, eet_data_put_short },
+ {sizeof(int), "int", eet_data_get_int, eet_data_put_int },
+ {sizeof(long long), "long_long", eet_data_get_long_long,
+ eet_data_put_long_long},
+ {sizeof(float), "float", eet_data_get_float, eet_data_put_float },
+ {sizeof(double), "double", eet_data_get_double,
+ eet_data_put_double },
+ {sizeof(char), "uchar", eet_data_get_char, eet_data_put_char },
+ {sizeof(short), "ushort", eet_data_get_short, eet_data_put_short },
+ {sizeof(int), "uint", eet_data_get_int, eet_data_put_int },
+ {sizeof(long long), "ulong_long", eet_data_get_long_long,
+ eet_data_put_long_long},
+ {sizeof(char *), "string", eet_data_get_string,
+ eet_data_put_string },
+ {sizeof(char *), "inlined", eet_data_get_istring,
+ eet_data_put_istring },
+ {sizeof(void *), "NULL", eet_data_get_null, eet_data_put_null },
+ {sizeof(Eina_F32p32),"f32p32", eet_data_get_f32p32,
+ eet_data_put_f32p32 },
+ {sizeof(Eina_F16p16),"f16p16", eet_data_get_f16p16,
+ eet_data_put_f16p16 },
+ {sizeof(Eina_F8p24),"f8p24", eet_data_get_f8p24, eet_data_put_f8p24 }
};
static const Eet_Data_Group_Type_Codec eet_group_codec[] =
{
- { eet_data_get_unknown, eet_data_put_unknown },
- { eet_data_get_array, eet_data_put_array },
- { eet_data_get_array, eet_data_put_array },
- { eet_data_get_list, eet_data_put_list },
- { eet_data_get_hash, eet_data_put_hash },
- { eet_data_get_union, eet_data_put_union },
- { eet_data_get_variant, eet_data_put_variant }
+ { eet_data_get_unknown, eet_data_put_unknown },
+ { eet_data_get_array, eet_data_put_array },
+ { eet_data_get_array, eet_data_put_array },
+ { eet_data_get_list, eet_data_put_list },
+ { eet_data_get_hash, eet_data_put_hash },
+ { eet_data_get_union, eet_data_put_union },
+ { eet_data_get_variant, eet_data_put_variant }
};
static int _eet_data_words_bigendian = -1;
/*---*/
#define SWAP64(x) (x) = \
- ((((unsigned long long)(x) & 0x00000000000000ffULL ) << 56) |\
- (((unsigned long long)(x) & 0x000000000000ff00ULL ) << 40) |\
- (((unsigned long long)(x) & 0x0000000000ff0000ULL ) << 24) |\
- (((unsigned long long)(x) & 0x00000000ff000000ULL ) << 8) |\
- (((unsigned long long)(x) & 0x000000ff00000000ULL ) >> 8) |\
- (((unsigned long long)(x) & 0x0000ff0000000000ULL ) >> 24) |\
- (((unsigned long long)(x) & 0x00ff000000000000ULL ) >> 40) |\
- (((unsigned long long)(x) & 0xff00000000000000ULL ) >> 56))
+ ((((unsigned long long)(x) & 0x00000000000000ffULL) << 56) | \
+ (((unsigned long long)(x) & 0x000000000000ff00ULL) << 40) | \
+ (((unsigned long long)(x) & 0x0000000000ff0000ULL) << 24) | \
+ (((unsigned long long)(x) & 0x00000000ff000000ULL) << 8) | \
+ (((unsigned long long)(x) & 0x000000ff00000000ULL) >> 8) | \
+ (((unsigned long long)(x) & 0x0000ff0000000000ULL) >> 24) | \
+ (((unsigned long long)(x) & 0x00ff000000000000ULL) >> 40) | \
+ (((unsigned long long)(x) & 0xff00000000000000ULL) >> 56))
#define SWAP32(x) (x) = \
- ((((int)(x) & 0x000000ff ) << 24) |\
- (((int)(x) & 0x0000ff00 ) << 8) |\
- (((int)(x) & 0x00ff0000 ) >> 8) |\
- (((int)(x) & 0xff000000 ) >> 24))
+ ((((int)(x) & 0x000000ff) << 24) | \
+ (((int)(x) & 0x0000ff00) << 8) | \
+ (((int)(x) & 0x00ff0000) >> 8) | \
+ (((int)(x) & 0xff000000) >> 24))
#define SWAP16(x) (x) = \
- ((((short)(x) & 0x00ff ) << 8) |\
- (((short)(x) & 0xff00 ) >> 8))
+ ((((short)(x) & 0x00ff) << 8) | \
+ (((short)(x) & 0xff00) >> 8))
#ifdef CONV8
# undef CONV8
#endif
#define CONV8(x)
-#define CONV16(x) {if (_eet_data_words_bigendian) SWAP16(x);}
-#define CONV32(x) {if (_eet_data_words_bigendian) SWAP32(x);}
-#define CONV64(x) {if (_eet_data_words_bigendian) SWAP64(x);}
+#define CONV16(x) {if (_eet_data_words_bigendian) {SWAP16(x); }}
+#define CONV32(x) {if (_eet_data_words_bigendian) {SWAP32(x); }}
+#define CONV64(x) {if (_eet_data_words_bigendian) {SWAP64(x); }}
#define IS_SIMPLE_TYPE(Type) (Type > EET_T_UNKNOW && Type < EET_T_LAST)
#define IS_POINTER_TYPE(Type) (Type >= EET_T_STRING && Type <= EET_T_NULL)
-#define POINTER_TYPE_DECODE(Context, Ed, Edd, Ede, Echnk, Type, Data, P, Size, Label) \
- { \
- int ___r; \
- ___r = eet_data_get_unknown(Context, \
- Ed, \
- Edd, Ede, \
- Echnk, \
- Type, EET_G_UNKNOWN, \
- Data, P, Size); \
- if (!___r) goto Label; \
- }
+#define POINTER_TYPE_DECODE(Context, \
+ Ed, \
+ Edd, \
+ Ede, \
+ Echnk, \
+ Type, \
+ Data, \
+ P, \
+ Size, \
+ Label) \
+ do { \
+ int ___r; \
+ ___r = eet_data_get_unknown(Context, \
+ Ed, \
+ Edd, Ede, \
+ Echnk, \
+ Type, EET_G_UNKNOWN, \
+ Data, P, Size); \
+ if (!___r) { goto Label; } \
+ } while (0)
#define STRUCT_TYPE_DECODE(Data_Ret, Context, Ed, Ede, Data, Size, Label) \
- Data_Ret = _eet_data_descriptor_decode(Context, \
- Ed, \
- Ede, \
- Data, \
- Size); \
- if (!Data_Ret) goto Label;
-
-#define EET_I_STRING 1 << 4
-#define EET_I_INLINED_STRING 2 << 4
-#define EET_I_NULL 3 << 4
+ do { \
+ Data_Ret = _eet_data_descriptor_decode(Context, \
+ Ed, \
+ Ede, \
+ Data, \
+ Size); \
+ if (!Data_Ret) { goto Label; } \
+ } while (0)
+
+#define EET_I_STRING 1 << 4
+#define EET_I_INLINED_STRING 2 << 4
+#define EET_I_NULL 3 << 4
#define EET_MAGIC_VARIANT 0xF1234BC
/*---*/
/* CHAR TYPE */
static int
-eet_data_get_char(const Eet_Dictionary *ed __UNUSED__, const void *src, const void *src_end, void *dst)
+eet_data_get_char(const Eet_Dictionary *ed __UNUSED__,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
char *s, *d;
- if (((char *)src + sizeof(char)) > (char *)src_end) return -1;
+ if (((char *)src + sizeof(char)) > (char *)src_end)
+ return -1;
+
s = (char *)src;
d = (char *)dst;
*d = *s;
char *s, *d;
d = (char *)malloc(sizeof(char));
- if (!d) return NULL;
+ if (!d)
+ return NULL;
+
s = (char *)src;
*d = *s;
CONV8(*d);
/* SHORT TYPE */
static int
-eet_data_get_short(const Eet_Dictionary *ed __UNUSED__, const void *src, const void *src_end, void *dst)
+eet_data_get_short(const Eet_Dictionary *ed __UNUSED__,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
short *d;
- if (((char *)src + sizeof(short)) > (char *)src_end) return -1;
+ if (((char *)src + sizeof(short)) > (char *)src_end)
+ return -1;
+
memcpy(dst, src, sizeof(short));
d = (short *)dst;
CONV16(*d);
}
static void *
-eet_data_put_short(Eet_Dictionary *ed __UNUSED__, const void *src, int *size_ret)
+eet_data_put_short(Eet_Dictionary *ed __UNUSED__,
+ const void *src,
+ int *size_ret)
{
short *s, *d;
d = (short *)malloc(sizeof(short));
- if (!d) return NULL;
+ if (!d)
+ return NULL;
+
s = (short *)src;
*d = *s;
CONV16(*d);
/* INT TYPE */
static inline int
-eet_data_get_int(const Eet_Dictionary *ed __UNUSED__, const void *src, const void *src_end, void *dst)
+eet_data_get_int(const Eet_Dictionary *ed __UNUSED__,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
int *d;
- if (((char *)src + sizeof(int)) > (char *)src_end) return -1;
+ if (((char *)src + sizeof(int)) > (char *)src_end)
+ return -1;
+
memcpy(dst, src, sizeof(int));
d = (int *)dst;
CONV32(*d);
int *s, *d;
d = (int *)malloc(sizeof(int));
- if (!d) return NULL;
+ if (!d)
+ return NULL;
+
s = (int *)src;
*d = *s;
CONV32(*d);
/* LONG LONG TYPE */
static int
-eet_data_get_long_long(const Eet_Dictionary *ed __UNUSED__, const void *src, const void *src_end, void *dst)
+eet_data_get_long_long(const Eet_Dictionary *ed __UNUSED__,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
unsigned long long *d;
- if (((char *)src + sizeof(unsigned long long)) > (char *)src_end) return -1;
+ if (((char *)src + sizeof(unsigned long long)) > (char *)src_end)
+ return -1;
+
memcpy(dst, src, sizeof(unsigned long long));
d = (unsigned long long *)dst;
CONV64(*d);
}
static void *
-eet_data_put_long_long(Eet_Dictionary *ed __UNUSED__, const void *src, int *size_ret)
+eet_data_put_long_long(Eet_Dictionary *ed __UNUSED__,
+ const void *src,
+ int *size_ret)
{
unsigned long long *s, *d;
d = (unsigned long long *)malloc(sizeof(unsigned long long));
- if (!d) return NULL;
+ if (!d)
+ return NULL;
+
s = (unsigned long long *)src;
*d = *s;
CONV64(*d);
/* STRING TYPE */
static inline int
-eet_data_get_string_hash(const Eet_Dictionary *ed, const void *src, const void *src_end)
+eet_data_get_string_hash(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end)
{
if (ed)
{
- int idx;
+ int idx;
- if (eet_data_get_int(ed, src, src_end, &idx) < 0) return -1;
+ if (eet_data_get_int(ed, src, src_end, &idx) < 0)
+ return -1;
return eet_dictionary_string_get_hash(ed, idx);
}
}
static inline int
-eet_data_get_string(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dst)
+eet_data_get_string(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
char *s, **d;
if (ed)
{
- const char *str;
- int idx;
+ const char *str;
+ int idx;
- if (eet_data_get_int(ed, src, src_end, &idx) < 0) return -1;
+ if (eet_data_get_int(ed, src, src_end, &idx) < 0)
+ return -1;
str = eet_dictionary_string_get_char(ed, idx);
if (str == NULL)
- return -1;
+ return -1;
- *d = (char *) str;
+ *d = (char *)str;
return eet_dictionary_string_get_size(ed, idx);
}
if (ed)
{
- const char *str;
- int idx;
+ const char *str;
+ int idx;
- str = *((const char **) src);
- if (!str) return NULL;
+ str = *((const char **)src);
+ if (!str)
+ return NULL;
idx = eet_dictionary_string_add(ed, str);
- if (idx == -1) return NULL;
+ if (idx == -1)
+ return NULL;
return eet_data_put_int(ed, &idx, size_ret);
}
s = (char *)(*((char **)src));
- if (!s) return NULL;
+ if (!s)
+ return NULL;
+
len = strlen(s);
d = malloc(len + 1);
- if (!d) return NULL;
+ if (!d)
+ return NULL;
+
memcpy(d, s, len + 1);
*size_ret = len + 1;
return d;
/* ALWAYS INLINED STRING TYPE */
static int
-eet_data_get_istring(const Eet_Dictionary *ed __UNUSED__, const void *src, const void *src_end, void *dst)
+eet_data_get_istring(const Eet_Dictionary *ed __UNUSED__,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
return eet_data_get_string(NULL, src, src_end, dst);
}
static void *
-eet_data_put_istring(Eet_Dictionary *ed __UNUSED__, const void *src, int *size_ret)
+eet_data_put_istring(Eet_Dictionary *ed __UNUSED__,
+ const void *src,
+ int *size_ret)
{
return eet_data_put_string(NULL, src, size_ret);
}
/* ALWAYS NULL TYPE */
static int
-eet_data_get_null(const Eet_Dictionary *ed __UNUSED__, const void *src __UNUSED__, const void *src_end __UNUSED__, void *dst)
+eet_data_get_null(const Eet_Dictionary *ed __UNUSED__,
+ const void *src __UNUSED__,
+ const void *src_end __UNUSED__,
+ void *dst)
{
char **d;
- d = (char**) dst;
+ d = (char **)dst;
*d = NULL;
return 1;
}
static void *
-eet_data_put_null(Eet_Dictionary *ed __UNUSED__, const void *src __UNUSED__, int *size_ret)
+eet_data_put_null(Eet_Dictionary *ed __UNUSED__,
+ const void *src __UNUSED__,
+ int *size_ret)
{
*size_ret = 0;
return NULL;
/* fast handle of simple case 0xMp+E*/
if ((len == 6) && (s[0] == '0') && (s[1] == 'x') && (s[3] == 'p'))
{
- int mantisse = (s[2] >= 'a') ? (s[2] - 'a' + 10) : (s[2] - '0');
- int exponent = (s[5] - '0');
+ int mantisse = (s[2] >= 'a') ? (s[2] - 'a' + 10) : (s[2] - '0');
+ int exponent = (s[5] - '0');
- if (s[4] == '+') *d = (float)(mantisse << exponent);
- else *d = (float)mantisse / (float)(1 << exponent);
+ if (s[4] == '+')
+ *d = (float)(mantisse << exponent);
+ else
+ *d = (float)mantisse / (float)(1 << exponent);
- return 1;
+ return 1;
}
+
return 0;
}
/* fast handle of simple case 0xMp+E*/
if ((len == 6) && (s[0] == '0') && (s[1] == 'x') && (s[3] == 'p'))
{
- int mantisse = (s[2] >= 'a') ? (s[2] - 'a' + 10) : (s[2] - '0');
- int exponent = (s[5] - '0');
+ int mantisse = (s[2] >= 'a') ? (s[2] - 'a' + 10) : (s[2] - '0');
+ int exponent = (s[5] - '0');
- if (s[4] == '+') *d = (double)(mantisse << exponent);
- else *d = (double)mantisse / (double)(1 << exponent);
+ if (s[4] == '+')
+ *d = (double)(mantisse << exponent);
+ else
+ *d = (double)mantisse / (double)(1 << exponent);
- return 1;
+ return 1;
}
+
return 0;
}
/* FLOAT TYPE */
static int
-eet_data_get_float(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dst)
+eet_data_get_float(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
- float *d;
- int idx;
+ float *d;
+ int idx;
- d = (float *) dst;
+ d = (float *)dst;
if (!ed)
{
- const char *s, *p;
- long long mantisse;
- long exponent;
- int len;
+ const char *s, *p;
+ long long mantisse;
+ long exponent;
+ int len;
s = (const char *)src;
p = s;
len = 0;
- while ((p < (const char *)src_end) && (*p != 0)) {len++; p++;}
+ while ((p < (const char *)src_end) && (*p != 0)) {len++; p++; }
+
+ if (_eet_data_float_cache_get(s, len, d) != 0)
+ return len + 1;
- if (_eet_data_float_cache_get(s, len, d) != 0) return len + 1;
+ if (eina_convert_atod(s, len, &mantisse, &exponent) == EINA_FALSE)
+ return -1;
- if (eina_convert_atod(s, len, &mantisse, &exponent) == EINA_FALSE) return -1;
*d = (float)ldexp((double)mantisse, exponent);
return len + 1;
}
- if (eet_data_get_int(ed, src, src_end, &idx) < 0) return -1;
+ if (eet_data_get_int(ed, src, src_end, &idx) < 0)
+ return -1;
if (!eet_dictionary_string_get_float(ed, idx, d))
- return -1;
+ return -1;
+
return 1;
}
static void *
eet_data_put_float(Eet_Dictionary *ed, const void *src, int *size_ret)
{
- char buf[128];
- int idx;
+ char buf[128];
+ int idx;
eina_convert_dtoa((double)(*(float *)src), buf);
if (!ed)
{
- char *d;
- int len;
+ char *d;
+ int len;
len = strlen(buf);
d = malloc(len + 1);
- if (!d) return NULL;
- memcpy(d, buf, len + 1);
+ if (!d)
+ return NULL;
+
+ memcpy(d, buf, len + 1);
*size_ret = len + 1;
return d;
}
idx = eet_dictionary_string_add(ed, buf);
- if (idx == -1) return NULL;
+ if (idx == -1)
+ return NULL;
return eet_data_put_int(ed, &idx, size_ret);
}
/* DOUBLE TYPE */
static int
-eet_data_get_double(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dst)
+eet_data_get_double(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
- double *d;
- int idx;
+ double *d;
+ int idx;
- d = (double *) dst;
+ d = (double *)dst;
if (!ed)
{
- const char *s, *p;
- long long mantisse = 0;
- long exponent = 0;
- int len;
+ const char *s, *p;
+ long long mantisse = 0;
+ long exponent = 0;
+ int len;
- s = (const char *) src;
+ s = (const char *)src;
p = s;
len = 0;
- while ((p < (const char *)src_end) && (*p != 0)) {len++; p++;}
+ while ((p < (const char *)src_end) && (*p != 0)) {len++; p++; }
- if (_eet_data_double_cache_get(s, len, d) != 0) return len + 1;
+ if (_eet_data_double_cache_get(s, len, d) != 0)
+ return len + 1;
- if (eina_convert_atod(s, len, &mantisse, &exponent) == EINA_FALSE) return -1;
- *d = ldexp((double) mantisse, exponent);
+ if (eina_convert_atod(s, len, &mantisse, &exponent) == EINA_FALSE)
+ return -1;
+
+ *d = ldexp((double)mantisse, exponent);
return len + 1;
}
- if (eet_data_get_int(ed, src, src_end, &idx) < 0) return -1;
+ if (eet_data_get_int(ed, src, src_end, &idx) < 0)
+ return -1;
if (!eet_dictionary_string_get_double(ed, idx, d))
- return -1;
+ return -1;
+
return 1;
}
static void *
eet_data_put_double(Eet_Dictionary *ed, const void *src, int *size_ret)
{
- char buf[128];
- int idx;
+ char buf[128];
+ int idx;
eina_convert_dtoa((double)(*(double *)src), buf);
if (!ed)
{
- char *d;
- int len;
+ char *d;
+ int len;
len = strlen(buf);
d = malloc(len + 1);
- if (!d) return NULL;
- memcpy(d, buf, len + 1);
+ if (!d)
+ return NULL;
+
+ memcpy(d, buf, len + 1);
*size_ret = len + 1;
return d;
}
idx = eet_dictionary_string_add(ed, buf);
- if (idx == -1) return NULL;
+ if (idx == -1)
+ return NULL;
return eet_data_put_int(ed, &idx, size_ret);
}
static int
-eet_data_get_f32p32(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dst)
+eet_data_get_f32p32(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
Eina_F32p32 *fp;
int idx;
- fp = (Eina_F32p32*) dst;
+ fp = (Eina_F32p32 *)dst;
if (!ed)
{
- const char *s, *p;
- int len;
+ const char *s, *p;
+ int len;
- s = (const char *) src;
- p = s;
- len = 0;
- while ((p < (const char *)src_end) && (*p != 0)) { len++; p++; }
+ s = (const char *)src;
+ p = s;
+ len = 0;
+ while ((p < (const char *)src_end) && (*p != 0)) { len++; p++; }
+
+ if (!(eina_convert_atofp(s, len, fp)))
+ return -1;
- if (!(eina_convert_atofp(s, len, fp)))
- return -1;
- return 1;
+ return 1;
}
- if (eet_data_get_int(ed, src, src_end, &idx) < 0) return -1;
+ if (eet_data_get_int(ed, src, src_end, &idx) < 0)
+ return -1;
if (!eet_dictionary_string_get_fp(ed, idx, fp))
- return -1;
+ return -1;
+
return 1;
}
static void *
eet_data_put_f32p32(Eet_Dictionary *ed, const void *src, int *size_ret)
{
- char buf[128];
- int idx;
+ char buf[128];
+ int idx;
eina_convert_fptoa((Eina_F32p32)(*(Eina_F32p32 *)src), buf);
if (!ed)
{
- char *d;
- int len;
+ char *d;
+ int len;
+
+ len = strlen(buf);
+ d = malloc(len + 1);
+ if (!d)
+ return NULL;
- len = strlen(buf);
- d = malloc(len + 1);
- if (!d) return NULL;
- memcpy(d, buf, len + 1);
- *size_ret = len + 1;
+ memcpy(d, buf, len + 1);
+ *size_ret = len + 1;
- return d;
+ return d;
}
idx = eet_dictionary_string_add(ed, buf);
- if (idx == -1) return NULL;
+ if (idx == -1)
+ return NULL;
return eet_data_put_int(ed, &idx, size_ret);
}
static int
-eet_data_get_f16p16(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dst)
+eet_data_get_f16p16(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
Eina_F32p32 tmp;
Eina_F16p16 *fp;
- fp = (Eina_F16p16*) dst;
+ fp = (Eina_F16p16 *)dst;
- if (eet_data_get_f32p32(ed, src, src_end, &tmp) < 0) return -1;
+ if (eet_data_get_f32p32(ed, src, src_end, &tmp) < 0)
+ return -1;
*fp = eina_f32p32_to_f16p16(tmp);
return 1;
}
static int
-eet_data_get_f8p24(const Eet_Dictionary *ed, const void *src, const void *src_end, void *dst)
+eet_data_get_f8p24(const Eet_Dictionary *ed,
+ const void *src,
+ const void *src_end,
+ void *dst)
{
Eina_F32p32 tmp;
Eina_F8p24 *fp;
- fp = (Eina_F8p24*) dst;
+ fp = (Eina_F8p24 *)dst;
- if (eet_data_get_f32p32(ed, src, src_end, &tmp) < 0) return -1;
+ if (eet_data_get_f32p32(ed, src, src_end, &tmp) < 0)
+ return -1;
*fp = eina_f32p32_to_f8p24(tmp);
return 1;
}
static inline int
-eet_data_get_type(const Eet_Dictionary *ed, int type, const void *src, const void *src_end, void *dest)
+eet_data_get_type(const Eet_Dictionary *ed,
+ int type,
+ const void *src,
+ const void *src_end,
+ void *dest)
{
int ret;
static inline Eina_Bool
eet_data_type_match(int type1, int type2)
{
- if (type1 == type2) return EINA_TRUE;
+ if (type1 == type2)
+ return EINA_TRUE;
/* Note: All floating point type are equivalent and could be read
without problem by any other floating point getter. */
case EET_T_F32P32:
case EET_T_F16P16:
case EET_T_F8P24:
- switch (type2)
- {
- case EET_T_FLOAT:
- case EET_T_DOUBLE:
- case EET_T_F32P32:
- case EET_T_F16P16:
- case EET_T_F8P24:
- return EINA_TRUE;
- default:
- break;
- }
- break;
+ switch (type2)
+ {
+ case EET_T_FLOAT:
+ case EET_T_DOUBLE:
+ case EET_T_F32P32:
+ case EET_T_F16P16:
+ case EET_T_F8P24:
+ return EINA_TRUE;
+
+ default:
+ break;
+ }
+ break;
+
default:
- break;
+ break;
}
return EINA_FALSE;
static inline void
eet_data_chunk_get(const Eet_Dictionary *ed, Eet_Data_Chunk *chnk,
- const void *src, int size)
+ const void *src, int size)
{
const char *s;
int ret1, ret2;
- if (!src) return;
- if (size <= 8) return;
- if (!chnk) return;
+ if (!src)
+ return;
+
+ if (size <= 8)
+ return;
+
+ if (!chnk)
+ return;
s = src;
if (s[2] == 'K')
{
- if ((s[0] != 'C') || (s[1] != 'H') || (s[2] != 'K'))
- return;
-
- chnk->type = (unsigned char)(s[3]);
- if (chnk->type >= EET_I_LIMIT)
- {
- chnk->group_type = ((chnk->type - EET_I_LIMIT) & 0xF) + EET_G_UNKNOWN;
- switch ((chnk->type - EET_I_LIMIT) & 0xF0)
- {
+ if ((s[0] != 'C') || (s[1] != 'H') || (s[2] != 'K'))
+ return;
+
+ chnk->type = (unsigned char)(s[3]);
+ if (chnk->type >= EET_I_LIMIT)
+ {
+ chnk->group_type =
+ ((chnk->type - EET_I_LIMIT) & 0xF) + EET_G_UNKNOWN;
+ switch ((chnk->type - EET_I_LIMIT) & 0xF0)
+ {
#define EET_UNMATCH_TYPE(Type) \
- case EET_I_##Type: chnk->type = EET_T_##Type; break;
-
- EET_UNMATCH_TYPE(STRING);
- EET_UNMATCH_TYPE(INLINED_STRING);
- EET_UNMATCH_TYPE(NULL);
- default:
- return;
- }
- }
- else if (chnk->type > EET_T_LAST)
- {
- chnk->group_type = chnk->type;
- chnk->type = EET_T_UNKNOW;
- }
- else
- chnk->group_type = EET_G_UNKNOWN;
- if ((chnk->type >= EET_T_LAST) ||
- (chnk->group_type >= EET_G_LAST))
- {
- chnk->type = 0;
- chnk->group_type = 0;
- }
- }
- else
- {
- if ((s[0] != 'C') || (s[1] != 'H') || (s[2] != 'n') || (s[3] != 'K'))
- return;
+ case EET_I_ ## Type: chnk->type = EET_T_ ## Type; break;
+
+ EET_UNMATCH_TYPE(STRING);
+ EET_UNMATCH_TYPE(INLINED_STRING);
+ EET_UNMATCH_TYPE(NULL);
+
+ default:
+ return;
+ }
+ }
+ else if (chnk->type > EET_T_LAST)
+ {
+ chnk->group_type = chnk->type;
+ chnk->type = EET_T_UNKNOW;
+ }
+ else
+ chnk->group_type = EET_G_UNKNOWN;
+ if ((chnk->type >= EET_T_LAST) ||
+ (chnk->group_type >= EET_G_LAST))
+ {
+ chnk->type = 0;
+ chnk->group_type = 0;
+ }
}
+ else if ((s[0] != 'C') || (s[1] != 'H') || (s[2] != 'n') || (s[3] != 'K'))
+ return;
+
ret1 = eet_data_get_type(ed, EET_T_INT, (s + 4), (s + size), &(chnk->size));
- if (ret1 <= 0) return;
- if ((chnk->size < 0) || ((chnk->size + 8) > size)) return;
+ if (ret1 <= 0)
+ return;
+
+ if ((chnk->size < 0) || ((chnk->size + 8) > size))
+ return;
+
ret2 = eet_data_get_type(ed, EET_T_STRING, (s + 8), (s + size), &(chnk->name));
- if (ret2 <= 0) return;
+ if (ret2 <= 0)
+ return;
chnk->len = ret2;
}
static inline Eet_Data_Chunk *
-eet_data_chunk_new(void *data, int size, const char *name, int type, int group_type)
+eet_data_chunk_new(void *data,
+ int size,
+ const char *name,
+ int type,
+ int group_type)
{
Eet_Data_Chunk *chnk;
- if (!name) return NULL;
+ if (!name)
+ return NULL;
+
chnk = calloc(1, sizeof(Eet_Data_Chunk));
- if (!chnk) return NULL;
+ if (!chnk)
+ return NULL;
/* Note: Another security, so older eet library could read file
- saved with fixed point value. */
+ saved with fixed point value. */
if (type == EET_T_F32P32
|| type == EET_T_F16P16
|| type == EET_T_F8P24)
- type = EET_T_DOUBLE;
+ type = EET_T_DOUBLE;
chnk->name = strdup(name);
chnk->len = strlen(name) + 1;
static inline void
eet_data_chunk_free(Eet_Data_Chunk *chnk)
{
- if (chnk->name) free(chnk->name);
- free(chnk);
+ if (chnk->name)
+ free(chnk->name);
+
+ free(chnk);
}
static inline Eet_Data_Stream *
Eet_Data_Stream *ds;
ds = calloc(1, sizeof(Eet_Data_Stream));
- if (!ds) return NULL;
+ if (!ds)
+ return NULL;
+
return ds;
}
static inline void
eet_data_stream_free(Eet_Data_Stream *ds)
{
- if (ds->data) free(ds->data);
- free(ds);
+ if (ds->data)
+ free(ds->data);
+
+ free(ds);
}
static inline void
eet_data_stream_flush(Eet_Data_Stream *ds)
{
- free(ds);
+ free(ds);
}
static inline void
if ((ds->pos + size) > ds->size)
{
- ds->data = realloc(ds->data, ds->size + size + 512);
- if (!ds->data)
- {
- ds->pos = 0;
- ds->size = 0;
- return;
- }
- ds->size = ds->size + size + 512;
+ ds->data = realloc(ds->data, ds->size + size + 512);
+ if (!ds->data)
+ {
+ ds->pos = 0;
+ ds->size = 0;
+ return;
+ }
+
+ ds->size = ds->size + size + 512;
}
+
p = ds->data;
memcpy(p + ds->pos, data, size);
ds->pos += size;
}
static void
-eet_data_chunk_put(Eet_Dictionary *ed, Eet_Data_Chunk *chnk, Eet_Data_Stream *ds)
+eet_data_chunk_put(Eet_Dictionary *ed,
+ Eet_Data_Chunk *chnk,
+ Eet_Data_Stream *ds)
{
- int *size;
+ int *size;
void *string;
- int s;
- int size_ret = 0;
- int string_ret = 0;
+ int s;
+ int size_ret = 0;
+ int string_ret = 0;
unsigned char buf[4] = "CHK";
/* disable this check - it will allow empty chunks to be written. this is
/* eet_data_stream_write(ds, "CHnK", 4);*/
if (chnk->type != EET_T_UNKNOW)
{
- if (chnk->group_type != EET_G_UNKNOWN)
- {
- int type = EET_I_LIMIT + chnk->group_type - EET_G_UNKNOWN;
+ if (chnk->group_type != EET_G_UNKNOWN)
+ {
+ int type = EET_I_LIMIT + chnk->group_type - EET_G_UNKNOWN;
- switch (chnk->type)
- {
- /* Only make sense with pointer type. */
+ switch (chnk->type)
+ {
+ /* Only make sense with pointer type. */
#define EET_MATCH_TYPE(Type) \
- case EET_T_##Type: type += EET_I_##Type; break;
+ case EET_T_ ## Type: type += EET_I_ ## Type; break;
+
+ EET_MATCH_TYPE(STRING);
+ EET_MATCH_TYPE(INLINED_STRING);
+ EET_MATCH_TYPE(NULL);
- EET_MATCH_TYPE(STRING);
- EET_MATCH_TYPE(INLINED_STRING);
- EET_MATCH_TYPE(NULL);
- default:
- return ;
- }
+ default:
+ return;
+ }
- buf[3] = type;
- }
- else
- buf[3] = chnk->type;
+ buf[3] = type;
+ }
+ else
+ buf[3] = chnk->type;
}
- else buf[3] = chnk->group_type;
+ else
+ buf[3] = chnk->group_type;
string = eet_data_put_string(ed, &chnk->name, &string_ret);
if (!string)
- return ;
+ return;
/* size of chunk payload data + name */
s = chnk->size + string_ret;
/* FIXME: If something goes wrong the resulting file will be corrupted. */
if (!size)
- goto on_error;
+ goto on_error;
- eet_data_stream_write(ds, buf, 4);
+ eet_data_stream_write(ds, buf, 4);
/* write chunk length */
- eet_data_stream_write(ds, size, size_ret);
+ eet_data_stream_write(ds, size, size_ret);
/* write chunk name */
- eet_data_stream_write(ds, string, string_ret);
+ eet_data_stream_write(ds, string, string_ret);
/* write payload */
if (chnk->data)
- eet_data_stream_write(ds, chnk->data, chnk->size);
+ eet_data_stream_write(ds, chnk->data, chnk->size);
- free(string);
- on_error:
- free(size);
+ free(string);
+on_error:
+ free(size);
}
/*---*/
int i;
edd->elements.hash.size = 1 << 6;
- edd->elements.hash.buckets = calloc(1, sizeof(Eet_Data_Descriptor_Hash) * edd->elements.hash.size);
+ edd->elements.hash.buckets = calloc(
+ 1,
+ sizeof(Eet_Data_Descriptor_Hash) *
+ edd->elements.hash.size);
for (i = 0; i < edd->elements.num; i++)
{
- Eet_Data_Element *ede;
- int hash;
-
- ede = &(edd->elements.set[i]);
- hash = _eet_hash_gen((char *) ede->name, 6);
- if (!edd->elements.hash.buckets[hash].element)
- edd->elements.hash.buckets[hash].element = ede;
- else
- {
- Eet_Data_Descriptor_Hash *bucket;
-
- bucket = calloc(1, sizeof(Eet_Data_Descriptor_Hash));
- bucket->element = ede;
- bucket->next = edd->elements.hash.buckets[hash].next;
- edd->elements.hash.buckets[hash].next = bucket;
- }
+ Eet_Data_Element *ede;
+ int hash;
+
+ ede = &(edd->elements.set[i]);
+ hash = _eet_hash_gen((char *)ede->name, 6);
+ if (!edd->elements.hash.buckets[hash].element)
+ edd->elements.hash.buckets[hash].element = ede;
+ else
+ {
+ Eet_Data_Descriptor_Hash *bucket;
+
+ bucket = calloc(1, sizeof(Eet_Data_Descriptor_Hash));
+ bucket->element = ede;
+ bucket->next = edd->elements.hash.buckets[hash].next;
+ edd->elements.hash.buckets[hash].next = bucket;
+ }
}
}
for (i = 0; i < edd->elements.hash.size; i++)
{
- Eet_Data_Descriptor_Hash *bucket, *pbucket;
-
- bucket = edd->elements.hash.buckets[i].next;
- while (bucket)
- {
- pbucket = bucket;
- bucket = bucket->next;
- free(pbucket);
- }
+ Eet_Data_Descriptor_Hash *bucket, *pbucket;
+
+ bucket = edd->elements.hash.buckets[i].next;
+ while (bucket)
+ {
+ pbucket = bucket;
+ bucket = bucket->next;
+ free(pbucket);
+ }
}
- if (edd->elements.hash.buckets) free(edd->elements.hash.buckets);
+ if (edd->elements.hash.buckets)
+ free(edd->elements.hash.buckets);
}
static Eet_Data_Element *
{
Eet_Data_Descriptor_Hash *bucket;
- if (hash < 0) hash = _eet_hash_gen(name, 6);
- else hash &= 0x3f;
- if (!edd->elements.hash.buckets[hash].element) return NULL;
- /*
- When we use the dictionnary as a source for chunk name, we will always
- have the same pointer in name. It's a good idea to just compare pointer
- instead of running strcmp on both string.
- */
+ if (hash < 0)
+ hash = _eet_hash_gen(name, 6);
+ else
+ hash &= 0x3f;
+
+ if (!edd->elements.hash.buckets[hash].element)
+ return NULL; /*
+ When we use the dictionnary as a source for chunk name, we will always
+ have the same pointer in name. It's a good idea to just compare pointer
+ instead of running strcmp on both string.
+ */
+
if (edd->elements.hash.buckets[hash].element->directory_name_ptr == name)
- return edd->elements.hash.buckets[hash].element;
+ return edd->elements.hash.buckets[hash].element;
+
if (!strcmp(edd->elements.hash.buckets[hash].element->name, name))
{
- edd->elements.hash.buckets[hash].element->directory_name_ptr = name;
- return edd->elements.hash.buckets[hash].element;
+ edd->elements.hash.buckets[hash].element->directory_name_ptr = name;
+ return edd->elements.hash.buckets[hash].element;
}
+
bucket = edd->elements.hash.buckets[hash].next;
while (bucket)
{
- if (bucket->element->directory_name_ptr == name) return bucket->element;
- if (!strcmp(bucket->element->name, name))
- {
- bucket->element->directory_name_ptr = name;
- return bucket->element;
- }
- bucket = bucket->next;
+ if (bucket->element->directory_name_ptr == name)
+ return bucket->element;
+
+ if (!strcmp(bucket->element->name, name))
+ {
+ bucket->element->directory_name_ptr = name;
+ return bucket->element;
+ }
+
+ bucket = bucket->next;
}
return NULL;
}
static void
_eet_mem_free(void *mem)
{
- free(mem);
+ free(mem);
}
static char *
static void
_eet_str_free(const char *str)
{
- free((char *)str);
+ free((char *)str);
}
static Eina_Hash *
_eet_eina_hash_add_alloc(Eina_Hash *hash, const char *key, void *data)
{
- if (!hash) hash = eina_hash_string_small_new(NULL);
- if (!hash) return NULL;
+ if (!hash)
+ hash = eina_hash_string_small_new(NULL);
+
+ if (!hash)
+ return NULL;
eina_hash_add(hash, key, data);
return hash;
static Eina_Hash *
_eet_eina_hash_direct_add_alloc(Eina_Hash *hash, const char *key, void *data)
{
- if (!hash) hash = eina_hash_string_small_new(NULL);
- if (!hash) return NULL;
+ if (!hash)
+ hash = eina_hash_string_small_new(NULL);
+
+ if (!hash)
+ return NULL;
eina_hash_direct_add(hash, key, data);
return hash;
static void
_eet_eina_hash_foreach(void *hash, Eina_Hash_Foreach cb, void *fdata)
{
- if (hash) eina_hash_foreach(hash, cb, fdata);
+ if (hash)
+ eina_hash_foreach(hash, cb, fdata);
}
static void
_eet_eina_hash_free(void *hash)
{
- if (hash) eina_hash_free(hash);
+ if (hash)
+ eina_hash_free(hash);
}
/*---*/
EAPI Eina_Bool
-eet_eina_stream_data_descriptor_class_set(Eet_Data_Descriptor_Class *eddc, const char *name, int size)
+eet_eina_stream_data_descriptor_class_set(Eet_Data_Descriptor_Class *eddc,
+ const char *name,
+ int size)
{
- if (!eddc || !name) return EINA_FALSE;
+ if (!eddc || !name)
+ return EINA_FALSE;
eddc->name = name;
eddc->size = size;
eddc->func.list_append = (void *(*)(void *, void *))eina_list_append;
eddc->func.list_data = (void *(*)(void *))eina_list_data_get;
eddc->func.list_free = (void *(*)(void *))eina_list_free;
- eddc->func.hash_foreach = (void (*)(void *, int (*)(void *, const char *, void *, void *), void *))_eet_eina_hash_foreach;
- eddc->func.hash_add = (void* (*)(void *, const char *, void *)) _eet_eina_hash_add_alloc;
+ eddc->func.hash_foreach =
+ (void (*)(void *,
+ int (*)(void *, const char *, void *,
+ void *), void *))_eet_eina_hash_foreach;
+ eddc->func.hash_add =
+ (void * (*)(void *, const char *, void *))_eet_eina_hash_add_alloc;
eddc->func.hash_free = (void (*)(void *))_eet_eina_hash_free;
return EINA_TRUE;
}
EAPI Eina_Bool
-eet_eina_file_data_descriptor_class_set(Eet_Data_Descriptor_Class *eddc, const char *name, int size)
+eet_eina_file_data_descriptor_class_set(Eet_Data_Descriptor_Class *eddc,
+ const char *name,
+ int size)
{
if (!eet_eina_stream_data_descriptor_class_set(eddc, name, size))
- return EINA_FALSE;
+ return EINA_FALSE;
eddc->version = 2;
- eddc->func.hash_add = (void* (*)(void *, const char *, void *)) _eet_eina_hash_direct_add_alloc;
+ eddc->func.hash_add =
+ (void * (*)(void *, const char *, void *))_eet_eina_hash_direct_add_alloc;
eddc->func.str_direct_alloc = _eet_str_direct_alloc;
eddc->func.str_direct_free = _eet_str_direct_free;
{
Eet_Data_Descriptor *edd;
- if (!eddc) return NULL;
+ if (!eddc)
+ return NULL;
edd = calloc(1, sizeof (Eet_Data_Descriptor));
- if (!edd) return NULL;
+ if (!edd)
+ return NULL;
edd->name = eddc->name;
edd->ed = NULL;
edd->func.str_alloc = _eet_str_alloc;
edd->func.str_free = _eet_str_free;
if (eddc->func.mem_alloc)
- edd->func.mem_alloc = eddc->func.mem_alloc;
+ edd->func.mem_alloc = eddc->func.mem_alloc;
+
if (eddc->func.mem_free)
- edd->func.mem_free = eddc->func.mem_free;
+ edd->func.mem_free = eddc->func.mem_free;
+
if (eddc->func.str_alloc)
- edd->func.str_alloc = eddc->func.str_alloc;
+ edd->func.str_alloc = eddc->func.str_alloc;
+
if (eddc->func.str_free)
- edd->func.str_free = eddc->func.str_free;
+ edd->func.str_free = eddc->func.str_free;
+
edd->func.list_next = eddc->func.list_next;
edd->func.list_append = eddc->func.list_append;
edd->func.list_data = eddc->func.list_data;
if (eddc->version > 1 && version > 1)
{
- edd->func.str_direct_alloc = eddc->func.str_direct_alloc;
- edd->func.str_direct_free = eddc->func.str_direct_free;
+ edd->func.str_direct_alloc = eddc->func.str_direct_alloc;
+ edd->func.str_direct_free = eddc->func.str_direct_free;
}
+
if (eddc->version > 2)
{
- edd->func.type_get = eddc->func.type_get;
- edd->func.type_set = eddc->func.type_set;
+ edd->func.type_get = eddc->func.type_get;
+ edd->func.type_set = eddc->func.type_set;
}
return edd;
EAPI Eet_Data_Descriptor *
eet_data_descriptor_new(const char *name,
- int size,
- void *(*func_list_next) (void *l),
- void *(*func_list_append) (void *l, void *d),
- void *(*func_list_data) (void *l),
- void *(*func_list_free) (void *l),
- void (*func_hash_foreach) (void *h, int (*func) (void *h, const char *k, void *dt, void *fdt), void *fdt),
- void *(*func_hash_add) (void *h, const char *k, void *d),
- void (*func_hash_free) (void *h))
+ int size,
+ void *(*func_list_next)(void *l),
+ void *(*func_list_append)(void *l, void *d),
+ void *(*func_list_data)(void *l),
+ void *(*func_list_free)(void *l),
+ void (*func_hash_foreach)(void *h, int (*func)(
+ void *h,
+ const
+ char *k,
+ void *dt,
+ void *
+ fdt), void *fdt),
+ void *(*func_hash_add)(void *h, const char *k, void *d),
+ void (*func_hash_free)(void *h))
{
Eet_Data_Descriptor_Class eddc;
- if (!name) return NULL;
+ if (!name)
+ return NULL;
memset(&eddc, 0, sizeof (Eet_Data_Descriptor_Class));
EAPI void
eet_data_descriptor_free(Eet_Data_Descriptor *edd)
{
- if (!edd) return ;
+ if (!edd)
+ return;
+
_eet_descriptor_hash_free(edd);
- if (edd->elements.set) free(edd->elements.set);
- free(edd);
+ if (edd->elements.set)
+ free(edd->elements.set);
+
+ free(edd);
}
EAPI void
eet_data_descriptor_element_add(Eet_Data_Descriptor *edd,
- const char *name,
- int type,
- int group_type,
- int offset,
- int count,
-/* int counter_offset, */
- const char *counter_name /* FIXME: Useless should go on a major release */,
- Eet_Data_Descriptor *subtype)
+ const char *name,
+ int type,
+ int group_type,
+ int offset,
+ int count,
+/* int counter_offset, */
+ const char *counter_name /* FIXME: Useless should go on a major release */,
+ Eet_Data_Descriptor *subtype)
{
Eet_Data_Element *ede;
Eet_Data_Element *tmp;
/* UNION, VARIANT type would not work with simple type, we need a way to map the type. */
if ((group_type == EET_G_UNION
- || group_type == EET_G_VARIANT)
+ || group_type == EET_G_VARIANT)
&&
(type != EET_T_UNKNOW
- || subtype == NULL
- || subtype->func.type_get == NULL
- || subtype->func.type_set == NULL))
- return ;
+ || subtype == NULL
+ || subtype->func.type_get == NULL
+ || subtype->func.type_set == NULL))
+ return;
/* VARIANT type will only work if the map only contains EET_G_*, but not UNION, VARIANT and ARRAY. */
if (group_type == EET_G_VARIANT)
{
- int i;
+ int i;
- for (i = 0; i < subtype->elements.num; ++i)
- if (subtype->elements.set[i].type != EET_T_UNKNOW
- && subtype->elements.set[i].group_type > EET_G_VAR_ARRAY
- && subtype->elements.set[i].group_type < EET_G_UNION)
- return ;
+ for (i = 0; i < subtype->elements.num; ++i)
+ if (subtype->elements.set[i].type != EET_T_UNKNOW
+ && subtype->elements.set[i].group_type > EET_G_VAR_ARRAY
+ && subtype->elements.set[i].group_type < EET_G_UNION)
+ return;
- subtype->unified_type = EINA_TRUE;
+ subtype->unified_type = EINA_TRUE;
}
+
if (subtype
&& subtype->unified_type
&& (type != EET_T_UNKNOW
- || group_type < EET_G_UNION))
- return ;
+ || group_type < EET_G_UNION))
+ return;
/* Sanity check done, let allocate ! */
edd->elements.num++;
tmp = realloc(edd->elements.set, edd->elements.num * sizeof(Eet_Data_Element));
- if (!tmp) return ;
+ if (!tmp)
+ return;
+
edd->elements.set = tmp;
ede = &(edd->elements.set[edd->elements.num - 1]);
ede->name = name;
if (group_type > EET_G_UNKNOWN
&& group_type < EET_G_LAST
&& ((type > EET_T_UNKNOW && type < EET_T_STRING)
- || (type > EET_T_NULL && type < EET_T_LAST))
+ || (type > EET_T_NULL && type < EET_T_LAST))
&& subtype == NULL)
{
- subtype = calloc(1, sizeof (Eet_Data_Descriptor));
- if (!subtype) return ;
- subtype->name = "implicit";
- subtype->size = eet_basic_codec[type - 1].size;
- memcpy(&subtype->func, &edd->func, sizeof(subtype->func));
-
- eet_data_descriptor_element_add(subtype, eet_basic_codec[type - 1].name, type,
- EET_G_UNKNOWN, 0, 0, /* 0, */NULL, NULL);
- type = EET_T_UNKNOW;
+ subtype = calloc(1, sizeof (Eet_Data_Descriptor));
+ if (!subtype)
+ return;
+
+ subtype->name = "implicit";
+ subtype->size = eet_basic_codec[type - 1].size;
+ memcpy(&subtype->func, &edd->func, sizeof(subtype->func));
+
+ eet_data_descriptor_element_add(subtype,
+ eet_basic_codec[type - 1].name,
+ type,
+ EET_G_UNKNOWN,
+ 0,
+ 0,
+ /* 0, */ NULL,
+ NULL);
+ type = EET_T_UNKNOW;
}
ede->type = type;
}
EAPI void *
-eet_data_read_cipher(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name, const char *cipher_key)
+eet_data_read_cipher(Eet_File *ef,
+ Eet_Data_Descriptor *edd,
+ const char *name,
+ const char *cipher_key)
{
const Eet_Dictionary *ed = NULL;
- const void *data = NULL;
- void *data_dec;
- Eet_Free_Context context;
- int required_free = 0;
- int size;
+ const void *data = NULL;
+ void *data_dec;
+ Eet_Free_Context context;
+ int required_free = 0;
+ int size;
ed = eet_dictionary_get(ef);
if (!cipher_key)
- data = eet_read_direct(ef, name, &size);
+ data = eet_read_direct(ef, name, &size);
+
if (!data)
{
- required_free = 1;
- data = eet_read_cipher(ef, name, &size, cipher_key);
- if (!data) return NULL;
+ required_free = 1;
+ data = eet_read_cipher(ef, name, &size, cipher_key);
+ if (!data)
+ return NULL;
}
memset(&context, 0, sizeof (context));
data_dec = _eet_data_descriptor_decode(&context, ed, edd, data, size);
if (required_free)
- free((void*)data);
+ free((void *)data);
return data_dec;
}
EAPI Eet_Node *
-eet_data_node_read_cipher(Eet_File *ef, const char *name, const char *cipher_key)
+eet_data_node_read_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key)
{
const Eet_Dictionary *ed = NULL;
const void *data = NULL;
ed = eet_dictionary_get(ef);
if (!cipher_key)
- data = eet_read_direct(ef, name, &size);
+ data = eet_read_direct(ef, name, &size);
+
if (!data)
{
- required_free = 1;
- data = eet_read_cipher(ef, name, &size, cipher_key);
- if (!data) return NULL;
+ required_free = 1;
+ data = eet_read_cipher(ef, name, &size, cipher_key);
+ if (!data)
+ return NULL;
}
memset(&context, 0, sizeof (context));
result = _eet_data_descriptor_decode(&context, ed, NULL, data, size);
if (required_free)
- free((void*)data);
+ free((void *)data);
return result;
}
}
EAPI int
-eet_data_write_cipher(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name, const char *cipher_key, const void *data, int compress)
+eet_data_write_cipher(Eet_File *ef,
+ Eet_Data_Descriptor *edd,
+ const char *name,
+ const char *cipher_key,
+ const void *data,
+ int compress)
{
- Eet_Dictionary *ed;
- void *data_enc;
- int size;
- int val;
+ Eet_Dictionary *ed;
+ void *data_enc;
+ int size;
+ int val;
ed = eet_dictionary_get(ef);
data_enc = _eet_data_descriptor_encode(ed, edd, data, &size);
- if (!data_enc) return 0;
+ if (!data_enc)
+ return 0;
+
val = eet_write_cipher(ef, name, data_enc, size, compress, cipher_key);
- free(data_enc);
+ free(data_enc);
return val;
}
EAPI int
-eet_data_write(Eet_File *ef, Eet_Data_Descriptor *edd, const char *name, const void *data, int compress)
+eet_data_write(Eet_File *ef,
+ Eet_Data_Descriptor *edd,
+ const char *name,
+ const void *data,
+ int compress)
{
return eet_data_write_cipher(ef, edd, name, NULL, data, compress);
}
hash ^= ptr >> 16;
hash ^= ptr >> 24;
-#if defined (_WIN64) || ( (! defined (_WIN32)) && (LONG_BIT != 32) )
+#if defined (_WIN64) || ((!defined (_WIN32)) && (LONG_BIT != 32))
hash ^= ptr >> 32;
hash ^= ptr >> 40;
hash ^= ptr >> 48;
hash = _eet_free_hash(data);
for (i = 0; i < ef->num[hash]; ++i)
- if (ef->list[hash][i] == data) return;
+ if (ef->list[hash][i] == data)
+ return;
ef->num[hash]++;
if (ef->num[hash] > ef->len[hash])
{
- void **tmp;
+ void **tmp;
- tmp = realloc(ef->list[hash], (ef->len[hash] + 16) * sizeof(void*));
- if (!tmp) return ;
+ tmp = realloc(ef->list[hash], (ef->len[hash] + 16) * sizeof(void *));
+ if (!tmp)
+ return;
ef->len[hash] += 16;
ef->list[hash] = tmp;
}
+
ef->list[hash][ef->num[hash] - 1] = data;
}
static void
{
int i;
- if (ef->ref > 0) return ;
+ if (ef->ref > 0)
+ return;
+
for (i = 0; i < 256; ++i)
{
- ef->len[i] = 0;
- ef->num[i] = 0;
- if (ef->list[i]) free(ef->list[i]);
- ef->list[i] = NULL;
+ ef->len[i] = 0;
+ ef->num[i] = 0;
+ if (ef->list[i])
+ free(ef->list[i]);
+
+ ef->list[i] = NULL;
}
}
static void
ef->ref--;
}
-#define _eet_freelist_add(Ctx, Data) _eet_free_add(&Ctx->freelist, Data);
-#define _eet_freelist_reset(Ctx) _eet_free_reset(&Ctx->freelist);
-#define _eet_freelist_ref(Ctx) _eet_free_ref(&Ctx->freelist);
-#define _eet_freelist_unref(Ctx) _eet_free_unref(&Ctx->freelist);
+#define _eet_freelist_add(Ctx, Data) _eet_free_add(&Ctx->freelist, Data);
+#define _eet_freelist_reset(Ctx) _eet_free_reset(&Ctx->freelist);
+#define _eet_freelist_ref(Ctx) _eet_free_ref(&Ctx->freelist);
+#define _eet_freelist_unref(Ctx) _eet_free_unref(&Ctx->freelist);
static void
_eet_freelist_free(Eet_Free_Context *context, Eet_Data_Descriptor *edd)
int j;
int i;
- if (context->freelist.ref > 0) return;
+ if (context->freelist.ref > 0)
+ return;
+
for (j = 0; j < 256; ++j)
- for (i = 0; i < context->freelist.num[j]; ++i)
- {
- if (edd)
- edd->func.mem_free(context->freelist.list[j][i]);
- else
- free(context->freelist.list[j][i]);
- }
- _eet_free_reset(&context->freelist);
+ for (i = 0; i < context->freelist.num[j]; ++i)
+ {
+ if (edd)
+ edd->func.mem_free(context->freelist.list[j][i]);
+ else
+ free(context->freelist.list[j][i]);
+ }
+ _eet_free_reset(&context->freelist);
}
-#define _eet_freelist_list_add(Ctx, Data) _eet_free_add(&Ctx->freelist_list, Data);
+#define _eet_freelist_list_add(Ctx, Data) _eet_free_add(&Ctx->freelist_list, \
+ Data);
#define _eet_freelist_list_reset(Ctx) _eet_free_reset(&Ctx->freelist_list);
#define _eet_freelist_list_ref(Ctx) _eet_free_ref(&Ctx->freelist_list);
#define _eet_freelist_list_unref(Ctx) _eet_free_unref(&Ctx->freelist_list);
int j;
int i;
- if (context->freelist_list.ref > 0) return;
+ if (context->freelist_list.ref > 0)
+ return;
+
for (j = 0; j < 256; ++j)
- for (i = 0; i < context->freelist_list.num[j]; ++i)
- {
- if (edd)
- edd->func.list_free(*((void**)(context->freelist_list.list[j][i])));
- }
- _eet_free_reset(&context->freelist_list);
+ for (i = 0; i < context->freelist_list.num[j]; ++i)
+ {
+ if (edd)
+ edd->func.list_free(*((void **)(context->freelist_list.list[j][i])));
+ }
+ _eet_free_reset(&context->freelist_list);
}
-#define _eet_freelist_str_add(Ctx, Data) _eet_free_add(&Ctx->freelist_str, Data);
+#define _eet_freelist_str_add(Ctx, Data) _eet_free_add(&Ctx->freelist_str, \
+ Data);
#define _eet_freelist_str_reset(Ctx) _eet_free_reset(&Ctx->freelist_str);
#define _eet_freelist_str_ref(Ctx) _eet_free_ref(&Ctx->freelist_str);
#define _eet_freelist_str_unref(Ctx) _eet_free_unref(&Ctx->freelist_str);
int j;
int i;
- if (context->freelist_str.ref > 0) return;
+ if (context->freelist_str.ref > 0)
+ return;
+
for (j = 0; j < 256; ++j)
- for (i = 0; i < context->freelist_str.num[j]; ++i)
- {
- if (edd)
- edd->func.str_free(context->freelist_str.list[j][i]);
- else
- free(context->freelist_str.list[j][i]);
- }
+ for (i = 0; i < context->freelist_str.num[j]; ++i)
+ {
+ if (edd)
+ edd->func.str_free(context->freelist_str.list[j][i]);
+ else
+ free(context->freelist_str.list[j][i]);
+ }
_eet_free_reset(&context->freelist_str);
}
-#define _eet_freelist_direct_str_add(Ctx, Data) _eet_free_add(&Ctx->freelist_direct_str, Data);
-#define _eet_freelist_direct_str_reset(Ctx) _eet_free_reset(&Ctx->freelist_direct_str);
-#define _eet_freelist_direct_str_ref(Ctx) _eet_free_ref(&Ctx->freelist_direct_str);
-#define _eet_freelist_direct_str_unref(Ctx) _eet_free_unref(&Ctx->freelist_direct_str);
+#define _eet_freelist_direct_str_add(Ctx, Data) _eet_free_add( \
+ &Ctx->freelist_direct_str, \
+ Data);
+#define _eet_freelist_direct_str_reset(Ctx) _eet_free_reset( \
+ &Ctx->freelist_direct_str);
+#define _eet_freelist_direct_str_ref(Ctx) _eet_free_ref( \
+ &Ctx->freelist_direct_str);
+#define _eet_freelist_direct_str_unref(Ctx) _eet_free_unref( \
+ &Ctx->freelist_direct_str);
static void
-_eet_freelist_direct_str_free(Eet_Free_Context *context, Eet_Data_Descriptor *edd)
+_eet_freelist_direct_str_free(Eet_Free_Context *context,
+ Eet_Data_Descriptor *edd)
{
int j;
int i;
- if (context->freelist_direct_str.ref > 0) return;
+ if (context->freelist_direct_str.ref > 0)
+ return;
+
for (j = 0; j < 256; ++j)
- for (i = 0; i < context->freelist_direct_str.num[j]; ++i)
- {
- if (edd)
- edd->func.str_direct_free(context->freelist_direct_str.list[j][i]);
- else
- free(context->freelist_direct_str.list[j][i]);
- }
+ for (i = 0; i < context->freelist_direct_str.num[j]; ++i)
+ {
+ if (edd)
+ edd->func.str_direct_free(context->freelist_direct_str.list[j][i]);
+ else
+ free(context->freelist_direct_str.list[j][i]);
+ }
_eet_free_reset(&context->freelist_direct_str);
}
-#define _eet_freelist_hash_add(Ctx, Data) _eet_free_add(&Ctx->freelist_hash, Data);
+#define _eet_freelist_hash_add(Ctx, Data) _eet_free_add(&Ctx->freelist_hash, \
+ Data);
#define _eet_freelist_hash_reset(Ctx) _eet_free_reset(&Ctx->freelist_hash);
-#define _eet_freelist_hash_ref(Ctx) _eet_free_ref(&Ctx->freelist_hash);
-#define _eet_freelist_hash_unref(Ctx) _eet_free_unref(&Ctx->freelist_hash);
+#define _eet_freelist_hash_ref(Ctx) _eet_free_ref(&Ctx->freelist_hash);
+#define _eet_freelist_hash_unref(Ctx) _eet_free_unref(&Ctx->freelist_hash);
static void
_eet_freelist_hash_free(Eet_Free_Context *context, Eet_Data_Descriptor *edd)
int j;
int i;
- if (context->freelist_hash.ref > 0) return;
+ if (context->freelist_hash.ref > 0)
+ return;
+
for (j = 0; j < 256; ++j)
- for (i = 0; i < context->freelist_hash.num[j]; ++i)
- {
- if (edd)
- edd->func.hash_free(context->freelist_hash.list[j][i]);
- else
- free(context->freelist_hash.list[j][i]);
- }
+ for (i = 0; i < context->freelist_hash.num[j]; ++i)
+ {
+ if (edd)
+ edd->func.hash_free(context->freelist_hash.list[j][i]);
+ else
+ free(context->freelist_hash.list[j][i]);
+ }
_eet_free_reset(&context->freelist_hash);
}
}
static int
-eet_data_descriptor_encode_hash_cb(void *hash __UNUSED__, const char *cipher_key, void *hdata, void *fdata)
+eet_data_descriptor_encode_hash_cb(void *hash __UNUSED__,
+ const char *cipher_key,
+ void *hdata,
+ void *fdata)
{
- Eet_Dictionary *ed;
- Eet_Data_Encode_Hash_Info *edehi;
- Eet_Data_Stream *ds;
- Eet_Data_Element *ede;
- Eet_Data_Chunk *echnk;
- void *data = NULL;
- int size;
+ Eet_Dictionary *ed;
+ Eet_Data_Encode_Hash_Info *edehi;
+ Eet_Data_Stream *ds;
+ Eet_Data_Element *ede;
+ Eet_Data_Chunk *echnk;
+ void *data = NULL;
+ int size;
edehi = fdata;
ede = edehi->ede;
/* Store key */
data = eet_data_put_type(ed,
EET_T_STRING,
- &cipher_key,
- &size);
+ &cipher_key,
+ &size);
if (data)
{
- echnk = eet_data_chunk_new(data, size, ede->name, ede->type, ede->group_type);
- eet_data_chunk_put(ed, echnk, ds);
- eet_data_chunk_free(echnk);
- free(data);
- data = NULL;
+ echnk = eet_data_chunk_new(data,
+ size,
+ ede->name,
+ ede->type,
+ ede->group_type);
+ eet_data_chunk_put(ed, echnk, ds);
+ eet_data_chunk_free(echnk);
+ free(data);
+ data = NULL;
}
- EET_ASSERT(!((ede->type > EET_T_UNKNOW) && (ede->type < EET_T_STRING)), return );
+ EET_ASSERT(!((ede->type > EET_T_UNKNOW) && (ede->type < EET_T_STRING)),
+ return );
/* Store data */
if (ede->type >= EET_T_STRING)
- eet_data_put_unknown(ed, NULL, ede, ds, &hdata);
+ eet_data_put_unknown(ed, NULL, ede, ds, &hdata);
else
{
- if (ede->subtype)
- data = _eet_data_descriptor_encode(ed,
- ede->subtype,
- hdata,
- &size);
- if (data)
- {
- echnk = eet_data_chunk_new(data, size, ede->name, ede->type, ede->group_type);
- eet_data_chunk_put(ed, echnk, ds);
- eet_data_chunk_free(echnk);
- free(data);
- data = NULL;
- }
+ if (ede->subtype)
+ data = _eet_data_descriptor_encode(ed,
+ ede->subtype,
+ hdata,
+ &size);
+
+ if (data)
+ {
+ echnk = eet_data_chunk_new(data,
+ size,
+ ede->name,
+ ede->type,
+ ede->group_type);
+ eet_data_chunk_put(ed, echnk, ds);
+ eet_data_chunk_free(echnk);
+ free(data);
+ data = NULL;
+ }
}
return 1;
int tlen = 0, tsize = 0;
#define TOK_ADD(x) \
- { \
- tlen++; \
- if (tlen >= tsize) \
- { \
- tsize += 32; \
- tok = realloc(tok, tsize); \
- } \
- tok[tlen - 1] = x; \
- }
+ do { \
+ tlen++; \
+ if (tlen >= tsize) \
+ { \
+ tsize += 32; \
+ tok = realloc(tok, tsize); \
+ } \
+ tok[tlen - 1] = x; \
+ } while (0)
for (p = src; *len > 0; p++, (*len)--)
{
- if (in_token)
- {
- if (in_quote)
- {
- if ((p[0] == '\"') && (p > src) && (p[-1] != '\\'))
- {
- in_quote = 0;
- }
- else if ((p[0] == '\\') && (*len > 1) && (p[1] == '\"'))
- {
- /* skip */
- }
- else if ((p[0] == '\\') && (p > src) && (p[-1] == '\\'))
- {
- /* skip */
- }
- else if ((p[0] == '\\') && (*len > 1) && (p[1] == 'n'))
- {
- /* skip */
- }
- else if ((p[0] == 'n') && (p > src) && (p[-1] == '\\'))
- {
- TOK_ADD('\n');
- }
- else
- TOK_ADD(p[0]);
- }
- else
- {
- if (p[0] == '\"') in_quote = 1;
- else
- {
- if ((isspace(p[0])) || (p[0] == ';')) /* token ends here */
- {
- TOK_ADD(0);
- (*len)--;
- return tok;
- }
- else
- TOK_ADD(p[0]);
- }
- }
- }
- else
- {
- if (!((isspace(p[0])) || (p[0] == ';')))
- {
- in_token = 1;
- (*len)++;
- p--;
- }
- }
+ if (in_token)
+ {
+ if (in_quote)
+ {
+ if ((p[0] == '\"') && (p > src) && (p[-1] != '\\'))
+ in_quote = 0;
+ else if ((p[0] == '\\') && (*len > 1) && (p[1] == '\"'))
+ {
+/* skip */
+ }
+ else if ((p[0] == '\\') && (p > src) && (p[-1] == '\\'))
+ {
+/* skip */
+ }
+ else if ((p[0] == '\\') && (*len > 1) && (p[1] == 'n'))
+ {
+/* skip */
+ }
+ else if ((p[0] == 'n') && (p > src) && (p[-1] == '\\'))
+ TOK_ADD('\n');
+ else
+ TOK_ADD(p[0]);
+ }
+ else
+ {
+ if (p[0] == '\"')
+ in_quote = 1;
+ else
+ {
+ if ((isspace(p[0])) || (p[0] == ';')) /* token ends here */
+ {
+ TOK_ADD(0);
+ (*len)--;
+ return tok;
+ }
+ else
+ TOK_ADD(p[0]);
+ }
+ }
+ }
+ else if (!((isspace(p[0])) || (p[0] == ';')))
+ {
+ in_token = 1;
+ (*len)++;
+ p--;
+ }
}
if (in_token)
{
- TOK_ADD(0);
- return tok;
+ TOK_ADD(0);
+ return tok;
}
- if (tok) free(tok);
+
+ if (tok)
+ free(tok);
+
return NULL;
}
static void
-eet_data_encode(Eet_Dictionary *ed, Eet_Data_Stream *ds, void *data, const char *name, int size, int type, int group_type)
+eet_data_encode(Eet_Dictionary *ed,
+ Eet_Data_Stream *ds,
+ void *data,
+ const char *name,
+ int size,
+ int type,
+ int group_type)
{
Eet_Data_Chunk *echnk;
- if (!data) type = EET_T_NULL;
+ if (!data)
+ type = EET_T_NULL;
if (group_type != EET_G_UNKNOWN)
- if (type >= EET_T_LAST)
- type = EET_T_UNKNOW;
+ if (type >= EET_T_LAST)
+ type = EET_T_UNKNOW;
echnk = eet_data_chunk_new(data, size, name, type, group_type);
eet_data_chunk_put(ed, echnk, ds);
static void *
_eet_data_dump_encode(int parent_type,
- Eet_Dictionary *ed,
+ Eet_Dictionary *ed,
Eet_Node *node,
- int *size_ret)
+ int *size_ret)
{
Eet_Data_Chunk *chnk = NULL;
Eet_Data_Stream *ds;
if (_eet_data_words_bigendian == -1)
{
- unsigned long int v;
+ unsigned long int v;
- v = htonl(0x12345678);
- if (v == 0x12345678) _eet_data_words_bigendian = 1;
- else _eet_data_words_bigendian = 0;
+ v = htonl(0x12345678);
+ if (v == 0x12345678)
+ _eet_data_words_bigendian = 1;
+ else
+ _eet_data_words_bigendian = 0;
}
- if (node == NULL) return NULL;
+ if (node == NULL)
+ return NULL;
ds = eet_data_stream_new();
- if (!ds) return NULL;
+ if (!ds)
+ return NULL;
switch (node->type)
{
case EET_G_UNKNOWN:
- for (n = node->values; n; n = n->next)
- {
- data = _eet_data_dump_encode(node->type, ed, n, &size);
- if (data)
- {
- eet_data_stream_write(ds, data, size);
- free(data);
- }
- }
- break;
+ for (n = node->values; n; n = n->next)
+ {
+ data = _eet_data_dump_encode(node->type, ed, n, &size);
+ if (data)
+ {
+ eet_data_stream_write(ds, data, size);
+ free(data);
+ }
+ }
+ break;
+
case EET_G_ARRAY:
case EET_G_VAR_ARRAY:
- for (child_type = EET_T_NULL, n = node->values; n; n = n->next)
- {
- if (n->type != EET_T_NULL)
- {
- child_type = n->type;
- break;
- }
- }
-
- data = eet_data_put_type(ed,
- EET_T_INT,
- &node->count,
- &size);
- eet_data_encode(ed, ds, data, node->name, size, child_type, node->type);
-
- count = node->count;
-
- for (n = node->values; n; n = n->next)
- {
- int pos = ds->pos;
-
- switch (n->type)
- {
- case EET_T_STRING:
- case EET_T_INLINED_STRING:
- data = eet_data_put_type(ed, n->type, &(n->data.value.str), &size);
- if (data) eet_data_encode(ed, ds, data, node->name, size, n->type, node->type);
- break;
- case EET_T_NULL:
- continue;
- default:
- data = _eet_data_dump_encode(n->type, ed, n, &size);
- eet_data_encode(ed, ds, data, node->name, size, n->type, node->type);
- break;
- }
- if (ds->pos != pos) count--;
- }
-
- for (; count; count--)
- {
- eet_data_encode(ed, ds, NULL, node->name, 0, EET_T_NULL, node->type);
- }
-
- /* Array is somekind of special case, so we should embed it inside another chunk. */
- *size_ret = ds->pos;
- cdata = ds->data;
-
- ds->data = NULL;
- ds->size = 0;
- eet_data_stream_free(ds);
-
- return cdata;
- break;
+ for (child_type = EET_T_NULL, n = node->values; n; n = n->next)
+ {
+ if (n->type != EET_T_NULL)
+ {
+ child_type = n->type;
+ break;
+ }
+ }
+
+ data = eet_data_put_type(ed,
+ EET_T_INT,
+ &node->count,
+ &size);
+ eet_data_encode(ed,
+ ds,
+ data,
+ node->name,
+ size,
+ child_type,
+ node->type);
+
+ count = node->count;
+
+ for (n = node->values; n; n = n->next)
+ {
+ int pos = ds->pos;
+
+ switch (n->type)
+ {
+ case EET_T_STRING:
+ case EET_T_INLINED_STRING:
+ data = eet_data_put_type(ed,
+ n->type,
+ &(n->data.value.str),
+ &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ node->name,
+ size,
+ n->type,
+ node->type);
+
+ break;
+
+ case EET_T_NULL:
+ continue;
+
+ default:
+ data = _eet_data_dump_encode(n->type, ed, n, &size);
+ eet_data_encode(ed,
+ ds,
+ data,
+ node->name,
+ size,
+ n->type,
+ node->type);
+ break;
+ }
+ if (ds->pos != pos)
+ count--;
+ }
+
+ for (; count; count--)
+ {
+ eet_data_encode(ed,
+ ds,
+ NULL,
+ node->name,
+ 0,
+ EET_T_NULL,
+ node->type);
+ }
+
+ /* Array is somekind of special case, so we should embed it inside another chunk. */
+ *size_ret = ds->pos;
+ cdata = ds->data;
+
+ ds->data = NULL;
+ ds->size = 0;
+ eet_data_stream_free(ds);
+
+ return cdata;
+ break;
+
case EET_G_LIST:
- for (n = node->values; n; n = n->next)
- {
- switch (n->type)
- {
- case EET_T_STRING:
- case EET_T_INLINED_STRING:
- data = eet_data_put_type(ed, n->type, &(n->data.value.str), &size);
- if (data) eet_data_encode(ed, ds, data, node->name, size, n->type, node->type);
- break;
- case EET_T_NULL:
- continue;
- default:
- data = _eet_data_dump_encode(node->type, ed, n, &size);
- eet_data_encode(ed, ds, data, node->name, size, n->type, node->type);
- }
- }
-
- /* List is another somekind of special case, every chunk is embed inside a list chunk. */
- *size_ret = ds->pos;
- cdata = ds->data;
-
- ds->data = NULL;
- ds->size = 0;
- eet_data_stream_free(ds);
-
- return cdata;
- break;
+ for (n = node->values; n; n = n->next)
+ {
+ switch (n->type)
+ {
+ case EET_T_STRING:
+ case EET_T_INLINED_STRING:
+ data = eet_data_put_type(ed,
+ n->type,
+ &(n->data.value.str),
+ &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ node->name,
+ size,
+ n->type,
+ node->type);
+
+ break;
+
+ case EET_T_NULL:
+ continue;
+
+ default:
+ data = _eet_data_dump_encode(node->type, ed, n, &size);
+ eet_data_encode(ed,
+ ds,
+ data,
+ node->name,
+ size,
+ n->type,
+ node->type);
+ }
+ }
+
+ /* List is another somekind of special case, every chunk is embed inside a list chunk. */
+ *size_ret = ds->pos;
+ cdata = ds->data;
+
+ ds->data = NULL;
+ ds->size = 0;
+ eet_data_stream_free(ds);
+
+ return cdata;
+ break;
+
case EET_G_HASH:
- if (node->key)
- {
- data = eet_data_put_type(ed,
- EET_T_STRING,
- &node->key,
- &size);
- eet_data_encode(ed, ds, data, node->name, size, node->type, node->type);
- }
- else
- /* A Hash without key will not decode correctly. */
- return NULL;
-
- for (n = node->values; n; n = n->next)
- {
- switch (n->type)
- {
- case EET_T_STRING:
- case EET_T_INLINED_STRING:
- data = eet_data_put_type(ed, n->type, &(n->data.value.str), &size);
- if (data) eet_data_encode(ed, ds, data, node->name, size, n->type, node->type);
- break;
- case EET_T_NULL:
- continue;
- default:
- data = _eet_data_dump_encode(node->type, ed, n, &size);
- eet_data_encode(ed, ds, data, node->name, size, n->type, node->type);
- }
- }
-
- /* Hash is somekind of special case, so we should embed it inside another chunk. */
- *size_ret = ds->pos;
- cdata = ds->data;
-
- eet_data_stream_flush(ds);
-
- return cdata;
+ if (node->key)
+ {
+ data = eet_data_put_type(ed,
+ EET_T_STRING,
+ &node->key,
+ &size);
+ eet_data_encode(ed,
+ ds,
+ data,
+ node->name,
+ size,
+ node->type,
+ node->type);
+ }
+ else
+ /* A Hash without key will not decode correctly. */
+ return NULL;
+
+ for (n = node->values; n; n = n->next)
+ {
+ switch (n->type)
+ {
+ case EET_T_STRING:
+ case EET_T_INLINED_STRING:
+ data = eet_data_put_type(ed,
+ n->type,
+ &(n->data.value.str),
+ &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ node->name,
+ size,
+ n->type,
+ node->type);
+
+ break;
+
+ case EET_T_NULL:
+ continue;
+
+ default:
+ data = _eet_data_dump_encode(node->type, ed, n, &size);
+ eet_data_encode(ed,
+ ds,
+ data,
+ node->name,
+ size,
+ n->type,
+ node->type);
+ }
+ }
+
+ /* Hash is somekind of special case, so we should embed it inside another chunk. */
+ *size_ret = ds->pos;
+ cdata = ds->data;
+
+ eet_data_stream_flush(ds);
+
+ return cdata;
+
case EET_T_NULL:
- break;
-
-#define EET_DATA_NODE_ENCODE(Eet_Type, Type) \
- case Eet_Type: \
- data = eet_data_put_type(ed, node->type, &(node->data.value.Type), &size); \
- if (data) \
- { \
- eet_data_encode(ed, ds, data, node->name, size, node->type, parent_type); \
- cdata = ds->data; \
- *size_ret = ds->pos; \
- eet_data_stream_flush(ds); \
- return cdata; \
- } \
- break;
-
- EET_DATA_NODE_ENCODE(EET_T_CHAR, c);
- EET_DATA_NODE_ENCODE(EET_T_SHORT, s);
- EET_DATA_NODE_ENCODE(EET_T_INT, i);
- EET_DATA_NODE_ENCODE(EET_T_LONG_LONG, l);
- EET_DATA_NODE_ENCODE(EET_T_FLOAT, f);
- EET_DATA_NODE_ENCODE(EET_T_DOUBLE, d);
- EET_DATA_NODE_ENCODE(EET_T_UCHAR, uc);
- EET_DATA_NODE_ENCODE(EET_T_USHORT, us);
- EET_DATA_NODE_ENCODE(EET_T_UINT, ui);
- EET_DATA_NODE_ENCODE(EET_T_ULONG_LONG, ul);
- EET_DATA_NODE_ENCODE(EET_T_INLINED_STRING, str);
- EET_DATA_NODE_ENCODE(EET_T_STRING, str);
+ break;
+
+#define EET_DATA_NODE_ENCODE(Eet_Type, Type) \
+ case Eet_Type: \
+ data = eet_data_put_type(ed, node->type, &(node->data.value.Type), &size); \
+ if (data) \
+ { \
+ eet_data_encode(ed, \
+ ds, \
+ data, \
+ node->name, \
+ size, \
+ node->type, \
+ parent_type); \
+ cdata = ds->data; \
+ *size_ret = ds->pos; \
+ eet_data_stream_flush(ds); \
+ return cdata; \
+ } \
+ break;
+
+ EET_DATA_NODE_ENCODE(EET_T_CHAR, c);
+ EET_DATA_NODE_ENCODE(EET_T_SHORT, s);
+ EET_DATA_NODE_ENCODE(EET_T_INT, i);
+ EET_DATA_NODE_ENCODE(EET_T_LONG_LONG, l);
+ EET_DATA_NODE_ENCODE(EET_T_FLOAT, f);
+ EET_DATA_NODE_ENCODE(EET_T_DOUBLE, d);
+ EET_DATA_NODE_ENCODE(EET_T_UCHAR, uc);
+ EET_DATA_NODE_ENCODE(EET_T_USHORT, us);
+ EET_DATA_NODE_ENCODE(EET_T_UINT, ui);
+ EET_DATA_NODE_ENCODE(EET_T_ULONG_LONG, ul);
+ EET_DATA_NODE_ENCODE(EET_T_INLINED_STRING, str);
+ EET_DATA_NODE_ENCODE(EET_T_STRING, str);
+
default:
- break;
+ break;
}
if ((node->type >= EET_G_UNKNOWN) && (node->type < EET_G_LAST))
- chnk = eet_data_chunk_new(ds->data, ds->pos, node->name, EET_T_UNKNOW, node->type);
+ chnk = eet_data_chunk_new(ds->data,
+ ds->pos,
+ node->name,
+ EET_T_UNKNOW,
+ node->type);
else
- chnk = eet_data_chunk_new(ds->data, ds->pos, node->name, node->type, EET_G_UNKNOWN);
+ chnk = eet_data_chunk_new(ds->data,
+ ds->pos,
+ node->name,
+ node->type,
+ EET_G_UNKNOWN);
+
eet_data_stream_flush(ds);
ds = eet_data_stream_new();
static void *
_eet_data_dump_parse(Eet_Dictionary *ed,
int *size_ret,
- const char *src,
- int size)
+ const char *src,
+ int size)
{
void *cdata = NULL;
const char *p = NULL;
#define TOK_GET(t) \
jump = left; t = _eet_data_dump_token_get(p, &left); p += jump - left;
left = size;
- for (p = src; p < (src + size);)
- {
- char *tok1, *tok2, *tok3, *tok4;
-
- TOK_GET(tok1);
- if (tok1)
- {
- if (!strcmp(tok1, "group"))
- {
- TOK_GET(tok2);
- if (tok2)
- {
- TOK_GET(tok3);
- if (tok3)
- {
- TOK_GET(tok4);
- if (tok4)
- {
- if (!strcmp(tok4, "{"))
- {
- /* we have 'group NAM TYP {' */
- n = eet_node_new();
- if (n)
- {
- n->parent = node;
- if (!node_base)
- {
- node_base = n;
- }
- if (node)
- {
- /* append node */
- if (!node->values)
- node->values = n;
- else
- {
- for (nn = node->values; nn; nn = nn->next)
- {
- if (!nn->next)
- {
- nn->next = n;
- break;
- }
- }
- }
- }
- n->name = eina_stringshare_add(tok2);
- if (!strcmp(tok3, "struct")) n->type = EET_G_UNKNOWN;
- else if (!strcmp(tok3, "array")) n->type = EET_G_ARRAY;
- else if (!strcmp(tok3, "var_array")) n->type = EET_G_VAR_ARRAY;
- else if (!strcmp(tok3, "list")) n->type = EET_G_LIST;
- else if (!strcmp(tok3, "hash")) n->type = EET_G_HASH;
- else
- {
- ERR("ERROR: group type '%s' invalid.", tok3);
- }
- node = n;
- }
- }
- free(tok4);
- }
- free(tok3);
- }
- free(tok2);
- }
- }
- else if (!strcmp(tok1, "value"))
- {
- TOK_GET(tok2);
- if (tok2)
- {
- TOK_GET(tok3);
- if (tok3)
- {
- TOK_GET(tok4);
- if (tok4)
- {
- /* we have 'value NAME TYP XXX' */
- if (node_base)
- {
- n = eet_node_new();
- if (n)
- {
- n->parent = node;
- /* append node */
- if (!node->values)
- node->values = n;
- else
- {
- for (nn = node->values; nn; nn = nn->next)
- {
- if (!nn->next)
- {
- nn->next = n;
- break;
- }
- }
- }
- n->name = eina_stringshare_add(tok2);
- if (!strcmp(tok3, "char:"))
- {
- n->type = EET_T_CHAR;
- sscanf(tok4, "%hhi", &(n->data.value.c));
- }
- else if (!strcmp(tok3, "short:"))
- {
- n->type = EET_T_SHORT;
- sscanf(tok4, "%hi", &(n->data.value.s));
- }
- else if (!strcmp(tok3, "int:"))
- {
- n->type = EET_T_INT;
- sscanf(tok4, "%i", &(n->data.value.i));
- }
- else if (!strcmp(tok3, "long_long:"))
- {
- n->type = EET_T_LONG_LONG;
- sscanf(tok4, "%lli", &(n->data.value.l));
- }
- else if (!strcmp(tok3, "float:"))
- {
- n->type = EET_T_FLOAT;
- sscanf(tok4, "%f", &(n->data.value.f));
- }
- else if (!strcmp(tok3, "double:"))
- {
- n->type = EET_T_DOUBLE;
- sscanf(tok4, "%lf", &(n->data.value.d));
- }
- else if (!strcmp(tok3, "uchar:"))
- {
- n->type = EET_T_UCHAR;
- sscanf(tok4, "%hhu", &(n->data.value.uc));
- }
- else if (!strcmp(tok3, "ushort:"))
- {
- n->type = EET_T_USHORT;
- sscanf(tok4, "%hu", &(n->data.value.us));
- }
- else if (!strcmp(tok3, "uint:"))
- {
- n->type = EET_T_UINT;
- sscanf(tok4, "%u", &(n->data.value.ui));
- }
- else if (!strcmp(tok3, "ulong_long:"))
- {
- n->type = EET_T_ULONG_LONG;
- sscanf(tok4, "%llu", &(n->data.value.ul));
- }
- else if (!strcmp(tok3, "string:"))
- {
- n->type = EET_T_STRING;
- n->data.value.str = eina_stringshare_add(tok4);
- }
- else if (!strcmp(tok3, "inlined:"))
- {
- n->type = EET_T_INLINED_STRING;
- n->data.value.str = eina_stringshare_add(tok4);
- }
- else if (!strcmp(tok3, "null"))
- {
- n->type = EET_T_NULL;
- n->data.value.str = NULL;
- }
- else
- {
- ERR("ERROR: value type '%s' invalid.", tok4);
- }
- }
- }
- free(tok4);
- }
- free(tok3);
- }
- free(tok2);
- }
- }
- else if (!strcmp(tok1, "key"))
- {
- TOK_GET(tok2);
- if (tok2)
- {
- /* we have 'key NAME' */
- if (node)
- {
- node->key = eina_stringshare_add(tok2);
- }
- free(tok2);
- }
- }
- else if (!strcmp(tok1, "count"))
- {
- TOK_GET(tok2);
- if (tok2)
- {
- /* we have a 'count COUNT' */
- if (node)
- {
- sscanf(tok2, "%i", &(node->count));
- }
- free(tok2);
- }
- }
- else if (!strcmp(tok1, "}"))
- {
- /* we have an end of the group */
- if (node) node = node->parent;
- }
- free(tok1);
- }
+ for (p = src; p < (src + size); )
+ {
+ char *tok1, *tok2, *tok3, *tok4;
+
+ TOK_GET(tok1);
+ if (tok1)
+ {
+ if (!strcmp(tok1, "group"))
+ {
+ TOK_GET(tok2);
+ if (tok2)
+ {
+ TOK_GET(tok3);
+ if (tok3)
+ {
+ TOK_GET(tok4);
+ if (tok4)
+ {
+ if (!strcmp(tok4, "{"))
+ {
+/* we have 'group NAM TYP {' */
+ n = eet_node_new();
+ if (n)
+ {
+ n->parent = node;
+ if (!node_base)
+ node_base = n;
+
+ if (node)
+ {
+/* append node */
+ if (!node->values)
+ node->values = n;
+ else
+ for (nn = node->values; nn;
+ nn = nn->next)
+ {
+ if (!nn->next)
+ {
+ nn->next = n;
+ break;
+ }
+ }
+ }
+
+ n->name = eina_stringshare_add(tok2);
+ if (!strcmp(tok3, "struct"))
+ n->type = EET_G_UNKNOWN;
+ else if (!strcmp(tok3, "array"))
+ n->type = EET_G_ARRAY;
+ else if (!strcmp(tok3, "var_array"))
+ n->type = EET_G_VAR_ARRAY;
+ else if (!strcmp(tok3, "list"))
+ n->type = EET_G_LIST;
+ else if (!strcmp(tok3, "hash"))
+ n->type = EET_G_HASH;
+ else
+ ERR(
+ "ERROR: group type '%s' invalid.",
+ tok3);
+
+ node = n;
+ }
+ }
+
+ free(tok4);
+ }
+
+ free(tok3);
+ }
+
+ free(tok2);
+ }
+ }
+ else if (!strcmp(tok1, "value"))
+ {
+ TOK_GET(tok2);
+ if (tok2)
+ {
+ TOK_GET(tok3);
+ if (tok3)
+ {
+ TOK_GET(tok4);
+ if (tok4)
+ {
+/* we have 'value NAME TYP XXX' */
+ if (node_base)
+ {
+ n = eet_node_new();
+ if (n)
+ {
+ n->parent = node;
+/* append node */
+ if (!node->values)
+ node->values = n;
+ else
+ for (nn = node->values; nn;
+ nn = nn->next)
+ {
+ if (!nn->next)
+ {
+ nn->next = n;
+ break;
+ }
+ }
+
+ n->name = eina_stringshare_add(tok2);
+ if (!strcmp(tok3, "char:"))
+ {
+ n->type = EET_T_CHAR;
+ sscanf(tok4, "%hhi",
+ &(n->data.value.c));
+ }
+ else if (!strcmp(tok3, "short:"))
+ {
+ n->type = EET_T_SHORT;
+ sscanf(tok4, "%hi",
+ &(n->data.value.s));
+ }
+ else if (!strcmp(tok3, "int:"))
+ {
+ n->type = EET_T_INT;
+ sscanf(tok4, "%i",
+ &(n->data.value.i));
+ }
+ else if (!strcmp(tok3, "long_long:"))
+ {
+ n->type = EET_T_LONG_LONG;
+ sscanf(tok4, "%lli",
+ &(n->data.value.l));
+ }
+ else if (!strcmp(tok3, "float:"))
+ {
+ n->type = EET_T_FLOAT;
+ sscanf(tok4, "%f",
+ &(n->data.value.f));
+ }
+ else if (!strcmp(tok3, "double:"))
+ {
+ n->type = EET_T_DOUBLE;
+ sscanf(tok4, "%lf",
+ &(n->data.value.d));
+ }
+ else if (!strcmp(tok3, "uchar:"))
+ {
+ n->type = EET_T_UCHAR;
+ sscanf(tok4, "%hhu",
+ &(n->data.value.uc));
+ }
+ else if (!strcmp(tok3, "ushort:"))
+ {
+ n->type = EET_T_USHORT;
+ sscanf(tok4, "%hu",
+ &(n->data.value.us));
+ }
+ else if (!strcmp(tok3, "uint:"))
+ {
+ n->type = EET_T_UINT;
+ sscanf(tok4, "%u",
+ &(n->data.value.ui));
+ }
+ else if (!strcmp(tok3, "ulong_long:"))
+ {
+ n->type = EET_T_ULONG_LONG;
+ sscanf(tok4, "%llu",
+ &(n->data.value.ul));
+ }
+ else if (!strcmp(tok3, "string:"))
+ {
+ n->type = EET_T_STRING;
+ n->data.value.str =
+ eina_stringshare_add(tok4);
+ }
+ else if (!strcmp(tok3, "inlined:"))
+ {
+ n->type = EET_T_INLINED_STRING;
+ n->data.value.str =
+ eina_stringshare_add(tok4);
+ }
+ else if (!strcmp(tok3, "null"))
+ {
+ n->type = EET_T_NULL;
+ n->data.value.str = NULL;
+ }
+ else
+ ERR(
+ "ERROR: value type '%s' invalid.",
+ tok4);
+ }
+ }
+
+ free(tok4);
+ }
+
+ free(tok3);
+ }
+
+ free(tok2);
+ }
+ }
+ else if (!strcmp(tok1, "key"))
+ {
+ TOK_GET(tok2);
+ if (tok2)
+ {
+/* we have 'key NAME' */
+ if (node)
+ node->key = eina_stringshare_add(tok2);
+
+ free(tok2);
+ }
+ }
+ else if (!strcmp(tok1, "count"))
+ {
+ TOK_GET(tok2);
+ if (tok2)
+ {
+/* we have a 'count COUNT' */
+ if (node)
+ sscanf(tok2, "%i", &(node->count));
+
+ free(tok2);
+ }
+ }
+ else if (!strcmp(tok1, "}"))
+ /* we have an end of the group */
+ if (node)
+ node = node->parent;
+
+ free(tok1);
+ }
}
if (node_base)
{
- cdata = _eet_data_dump_encode(EET_G_UNKNOWN, ed, node_base, size_ret);
- eet_node_del(node_base);
+ cdata = _eet_data_dump_encode(EET_G_UNKNOWN, ed, node_base, size_ret);
+ eet_node_del(node_base);
}
+
return cdata;
}
#define NEXT_CHUNK(P, Size, Echnk, Ed) \
- { \
- int tmp; \
- tmp = Ed ? (int) (sizeof(int) * 2) : Echnk.len + 4;\
- P += (4 + Echnk.size + tmp); \
- Size -= (4 + Echnk.size + tmp); \
- }
+ { \
+ int tmp; \
+ tmp = Ed ? (int)(sizeof(int) * 2) : Echnk.len + 4; \
+ P += (4 + Echnk.size + tmp); \
+ Size -= (4 + Echnk.size + tmp); \
+ }
static void *
_eet_data_descriptor_decode(Eet_Free_Context *context,
- const Eet_Dictionary *ed,
+ const Eet_Dictionary *ed,
Eet_Data_Descriptor *edd,
- const void *data_in,
- int size_in)
+ const void *data_in,
+ int size_in)
{
Eet_Node *result = NULL;
void *data = NULL;
if (_eet_data_words_bigendian == -1)
{
- unsigned long int v;
+ unsigned long int v;
- v = htonl(0x12345678);
- if (v == 0x12345678) _eet_data_words_bigendian = 1;
- else _eet_data_words_bigendian = 0;
+ v = htonl(0x12345678);
+ if (v == 0x12345678)
+ _eet_data_words_bigendian = 1;
+ else
+ _eet_data_words_bigendian = 0;
}
if (edd)
{
- data = edd->func.mem_alloc(edd->size);
- if (!data) return NULL;
- if (edd->ed != ed)
- {
- for (i = 0; i < edd->elements.num; i++)
- edd->elements.set[i].directory_name_ptr = NULL;
- edd->ed = ed;
- }
+ data = edd->func.mem_alloc(edd->size);
+ if (!data)
+ return NULL;
+
+ if (edd->ed != ed)
+ {
+ for (i = 0; i < edd->elements.num; i++)
+ edd->elements.set[i].directory_name_ptr = NULL;
+ edd->ed = ed;
+ }
}
+
_eet_freelist_all_ref(context);
- if (data) _eet_freelist_add(context, data);
+ if (data)
+ _eet_freelist_add(context, data);
+
memset(&chnk, 0, sizeof(Eet_Data_Chunk));
eet_data_chunk_get(ed, &chnk, data_in, size_in);
- if (!chnk.name) goto error;
+ if (!chnk.name)
+ goto error;
+
if (edd)
- {
- if (strcmp(chnk.name, edd->name)) goto error;
- }
+ if (strcmp(chnk.name, edd->name))
+ goto error;
+
p = chnk.data;
if (ed)
- size = size_in - (4 + sizeof(int) * 2);
+ size = size_in - (4 + sizeof(int) * 2);
else
- size = size_in - (4 + 4 + chnk.len);
+ size = size_in - (4 + 4 + chnk.len);
+
if (edd)
{
- if (!edd->elements.hash.buckets) _eet_descriptor_hash_new(edd);
+ if (!edd->elements.hash.buckets)
+ _eet_descriptor_hash_new(edd);
}
else
{
- switch (chnk.group_type)
- {
- case EET_G_UNKNOWN:
- switch (chnk.type)
- {
- case EET_T_STRING:
- return eet_node_string_new(chnk.name, chnk.data);
- case EET_T_INLINED_STRING:
- return eet_node_inlined_string_new(chnk.name, chnk.data);
- case EET_T_NULL:
- return eet_node_null_new(chnk.name);
- default:
- result = eet_node_struct_new(chnk.name, NULL);
- }
- break;
- case EET_G_VAR_ARRAY:
- return eet_node_var_array_new(chnk.name, NULL);
- case EET_G_LIST:
- case EET_G_HASH:
- case EET_G_ARRAY:
- case EET_G_UNION:
- case EET_G_VARIANT:
- default:
- goto error;
- }
+ switch (chnk.group_type)
+ {
+ case EET_G_UNKNOWN:
+ switch (chnk.type)
+ {
+ case EET_T_STRING:
+ return eet_node_string_new(chnk.name, chnk.data);
+
+ case EET_T_INLINED_STRING:
+ return eet_node_inlined_string_new(chnk.name, chnk.data);
+
+ case EET_T_NULL:
+ return eet_node_null_new(chnk.name);
+
+ default:
+ result = eet_node_struct_new(chnk.name, NULL);
+ }
+ break;
+
+ case EET_G_VAR_ARRAY:
+ return eet_node_var_array_new(chnk.name, NULL);
+
+ case EET_G_LIST:
+ case EET_G_HASH:
+ case EET_G_ARRAY:
+ case EET_G_UNION:
+ case EET_G_VARIANT:
+ default:
+ goto error;
+ }
}
+
while (size > 0)
{
- Eet_Data_Chunk echnk;
- Eet_Data_Element *ede = NULL;
- Eet_Node *child = NULL;
- int group_type = EET_G_UNKNOWN, type = EET_T_UNKNOW;
- int ret = 0;
-
- /* get next data chunk */
- memset(&echnk, 0, sizeof(Eet_Data_Chunk));
- eet_data_chunk_get(ed, &echnk, p, size);
- if (!echnk.name) goto error;
- /* FIXME: don't REPLY on edd - work without */
- if (edd)
- {
- ede = _eet_descriptor_hash_find(edd, echnk.name, echnk.hash);
- if (ede)
- {
- group_type = ede->group_type;
- type = ede->type;
- if ((echnk.type == 0) && (echnk.group_type == 0))
- {
- type = ede->type;
- group_type = ede->group_type;
- }
- else
- {
- if (IS_SIMPLE_TYPE(echnk.type) &&
- eet_data_type_match(echnk.type, ede->type))
- /* Needed when converting on the fly from FP to Float */
- type = ede->type;
- else if ((echnk.group_type > EET_G_UNKNOWN) &&
- (echnk.group_type < EET_G_LAST) &&
- (echnk.group_type == ede->group_type))
- group_type = echnk.group_type;
- }
- }
- }
- /*...... dump to node */
- else
- {
- type = echnk.type;
- group_type = echnk.group_type;
- }
-
- if (!edd && group_type == EET_G_UNKNOWN && IS_SIMPLE_TYPE(type))
- {
- unsigned char dd[128];
-
- ret = eet_data_get_type(ed,
- type,
- echnk.data,
- ((char *)echnk.data) + echnk.size,
- dd);
- if (ret <= 0) goto error;
-
- child = eet_data_node_simple_type(type, echnk.name, dd);
-
- eet_node_struct_append(result, echnk.name, child);
- }
- else
- {
- ret = eet_group_codec[group_type - 100].get(context,
- ed, edd, ede, &echnk,
- type, group_type, ede ? (void*) (((char *)data) + ede->offset) : (void**) &result,
- &p, &size);
-
- if (ret <= 0) goto error;
- }
-
- /* advance to next chunk */
+ Eet_Data_Chunk echnk;
+ Eet_Data_Element *ede = NULL;
+ Eet_Node *child = NULL;
+ int group_type = EET_G_UNKNOWN, type = EET_T_UNKNOW;
+ int ret = 0;
+
+ /* get next data chunk */
+ memset(&echnk, 0, sizeof(Eet_Data_Chunk));
+ eet_data_chunk_get(ed, &echnk, p, size);
+ if (!echnk.name)
+ goto error; /* FIXME: don't REPLY on edd - work without */
+
+ if (edd)
+ {
+ ede = _eet_descriptor_hash_find(edd, echnk.name, echnk.hash);
+ if (ede)
+ {
+ group_type = ede->group_type;
+ type = ede->type;
+ if ((echnk.type == 0) && (echnk.group_type == 0))
+ {
+ type = ede->type;
+ group_type = ede->group_type;
+ }
+ else
+ {
+ if (IS_SIMPLE_TYPE(echnk.type) &&
+ eet_data_type_match(echnk.type, ede->type))
+/* Needed when converting on the fly from FP to Float */
+ type = ede->type;
+ else if ((echnk.group_type > EET_G_UNKNOWN) &&
+ (echnk.group_type < EET_G_LAST) &&
+ (echnk.group_type == ede->group_type))
+ group_type = echnk.group_type;
+ }
+ }
+ }
+ /*...... dump to node */
+ else
+ {
+ type = echnk.type;
+ group_type = echnk.group_type;
+ }
+
+ if (!edd && group_type == EET_G_UNKNOWN && IS_SIMPLE_TYPE(type))
+ {
+ unsigned char dd[128];
+
+ ret = eet_data_get_type(ed,
+ type,
+ echnk.data,
+ ((char *)echnk.data) + echnk.size,
+ dd);
+ if (ret <= 0)
+ goto error;
+
+ child = eet_data_node_simple_type(type, echnk.name, dd);
+
+ eet_node_struct_append(result, echnk.name, child);
+ }
+ else
+ {
+ ret = eet_group_codec[group_type - 100].get(
+ context,
+ ed,
+ edd,
+ ede,
+ &echnk,
+ type,
+ group_type,
+ ede ? (void *)(((char
+ *)
+ data)
+ + ede->
+ offset)
+ : (void **)&result,
+ &p,
+ &size);
+
+ if (ret <= 0)
+ goto error;
+ }
+
+ /* advance to next chunk */
NEXT_CHUNK(p, size, echnk, ed);
}
_eet_freelist_all_unref(context);
if (!edd)
{
- _eet_freelist_str_free(context, edd);
- _eet_freelist_direct_str_free(context, edd);
- _eet_freelist_list_free(context, edd);
- _eet_freelist_hash_free(context, edd);
- _eet_freelist_free(context, edd);
+ _eet_freelist_str_free(context, edd);
+ _eet_freelist_direct_str_free(context, edd);
+ _eet_freelist_list_free(context, edd);
+ _eet_freelist_hash_free(context, edd);
+ _eet_freelist_free(context, edd);
}
else
{
- _eet_freelist_reset(context);
- _eet_freelist_str_reset(context);
- _eet_freelist_list_reset(context);
- _eet_freelist_hash_reset(context);
- _eet_freelist_direct_str_reset(context);
+ _eet_freelist_reset(context);
+ _eet_freelist_str_reset(context);
+ _eet_freelist_list_reset(context);
+ _eet_freelist_hash_reset(context);
+ _eet_freelist_direct_str_reset(context);
}
if (!edd)
- return result;
+ return result;
return data;
}
static int
-eet_data_get_list(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk,
- int type, int group_type __UNUSED__, void *data,
- char **p, int *size)
+eet_data_get_list(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type __UNUSED__,
+ void *data,
+ char **p,
+ int *size)
{
Eet_Data_Descriptor *subtype = NULL;
void *list = NULL;
if (edd)
{
- subtype = ede->subtype;
+ subtype = ede->subtype;
- if (type != ede->type)
- return 0;
+ if (type != ede->type)
+ return 0;
}
ptr = (void **)data;
data_ret = NULL;
if (IS_POINTER_TYPE(type))
- {
- POINTER_TYPE_DECODE(context, ed, edd, ede, echnk, type, &data_ret, p, size, on_error);
- }
+ POINTER_TYPE_DECODE(context,
+ ed,
+ edd,
+ ede,
+ echnk,
+ type,
+ &data_ret,
+ p,
+ size,
+ on_error);
else
- {
- STRUCT_TYPE_DECODE(data_ret, context, ed, subtype, echnk->data, echnk->size, on_error);
- }
+ STRUCT_TYPE_DECODE(data_ret,
+ context,
+ ed,
+ subtype,
+ echnk->data,
+ echnk->size,
+ on_error);
if (edd)
{
- list = edd->func.list_append(list, data_ret);
- *ptr = list;
- _eet_freelist_list_add(context, ptr);
+ list = edd->func.list_append(list, data_ret);
+ *ptr = list;
+ _eet_freelist_list_add(context, ptr);
}
else
- {
- eet_node_list_append(*((Eet_Node**) data), echnk->name, data_ret);
- }
+ eet_node_list_append(*((Eet_Node **)data), echnk->name, data_ret);
return 1;
- on_error:
+on_error:
return 0;
}
static int
-eet_data_get_hash(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk,
- int type, int group_type __UNUSED__, void *data,
- char **p, int *size)
+eet_data_get_hash(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type __UNUSED__,
+ void *data,
+ char **p,
+ int *size)
{
void **ptr;
void *hash = NULL;
/* Read key */
ret = eet_data_get_type(ed,
- EET_T_STRING,
- echnk->data,
- ((char *)echnk->data) + echnk->size,
- &key);
- if (ret <= 0) goto on_error;
+ EET_T_STRING,
+ echnk->data,
+ ((char *)echnk->data) + echnk->size,
+ &key);
+ if (ret <= 0)
+ goto on_error;
/* Advance to next chunk */
NEXT_CHUNK((*p), (*size), (*echnk), ed);
/* Read value */
eet_data_chunk_get(ed, echnk, *p, *size);
- if (!echnk->name) goto on_error;
+ if (!echnk->name)
+ goto on_error;
if (IS_POINTER_TYPE(echnk->type))
- {
- POINTER_TYPE_DECODE(context, ed, edd, ede, echnk, echnk->type, &data_ret, p, size, on_error);
- }
+ POINTER_TYPE_DECODE(context,
+ ed,
+ edd,
+ ede,
+ echnk,
+ echnk->type,
+ &data_ret,
+ p,
+ size,
+ on_error);
else
- {
- STRUCT_TYPE_DECODE(data_ret, context, ed, ede ? ede->subtype : NULL, echnk->data, echnk->size, on_error);
- }
+ STRUCT_TYPE_DECODE(data_ret,
+ context,
+ ed,
+ ede ? ede->subtype : NULL,
+ echnk->data,
+ echnk->size,
+ on_error);
if (edd)
{
- hash = edd->func.hash_add(hash, key, data_ret);
- *ptr = hash;
- _eet_freelist_hash_add(context, hash);
+ hash = edd->func.hash_add(hash, key, data_ret);
+ *ptr = hash;
+ _eet_freelist_hash_add(context, hash);
}
else
- {
- eet_node_hash_add(*((Eet_Node **) data), echnk->name, key, data_ret);
- }
+ eet_node_hash_add(*((Eet_Node **)data), echnk->name, key, data_ret);
return 1;
- on_error:
+on_error:
return ret;
}
* each chunk is pointless.
*/
static int
-eet_data_get_array(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd,
- Eet_Data_Element *ede, Eet_Data_Chunk *echnk,
- int type, int group_type, void *data,
- char **p, int *size)
+eet_data_get_array(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type,
+ void *data,
+ char **p,
+ int *size)
{
Eina_List *childs = NULL;
const char *name;
ptr = data;
/* read the number of elements */
ret = eet_data_get_type(ed,
- EET_T_INT,
- echnk->data,
- ((char *)echnk->data) + echnk->size,
- &count);
- if (ret <= 0) return ret;
+ EET_T_INT,
+ echnk->data,
+ ((char *)echnk->data) + echnk->size,
+ &count);
+ if (ret <= 0)
+ return ret;
name = echnk->name;
if (ede)
{
- if (IS_POINTER_TYPE(type))
- subsize = eet_basic_codec[ede->type].size;
- else
- subsize = ede->subtype->size;
-
- if (group_type == EET_G_VAR_ARRAY)
- {
- /* store the number of elements
- * on the counter offset */
- *(int *)(((char *)data) + ede->count - ede->offset) = count;
- /* allocate space for the array of elements */
- *(void **)ptr = edd->func.mem_alloc(count * subsize);
-
- if (!*(void **)ptr) return 0;
-
- memset(*(void **)ptr, 0, count * subsize);
-
- _eet_freelist_add(context, *(void **)ptr);
- }
+ if (IS_POINTER_TYPE(type))
+ subsize = eet_basic_codec[ede->type].size;
+ else
+ subsize = ede->subtype->size;
+
+ if (group_type == EET_G_VAR_ARRAY)
+ {
+ /* store the number of elements
+ * on the counter offset */
+ *(int *)(((char *)data) + ede->count - ede->offset) = count;
+ /* allocate space for the array of elements */
+ *(void **)ptr = edd->func.mem_alloc(count * subsize);
+
+ if (!*(void **)ptr)
+ return 0;
+
+ memset(*(void **)ptr, 0, count * subsize);
+
+ _eet_freelist_add(context, *(void **)ptr);
+ }
}
/* get all array elements */
for (i = 0; i < count; i++)
{
- void *dst = NULL;
- void *data_ret = NULL;
-
- /* Advance to next chunk */
- NEXT_CHUNK((*p), (*size), (*echnk), ed);
- memset(echnk, 0, sizeof(Eet_Data_Chunk));
-
- eet_data_chunk_get(ed, echnk, *p, *size);
- if (!echnk->name || strcmp(echnk->name, name) != 0) goto on_error;
- /* get the data */
-
- if (echnk->group_type != group_type
- || (echnk->type != type && echnk->type != EET_T_NULL))
- goto on_error;
-
- if (ede)
- if (ede->group_type != echnk->group_type
- || (echnk->type != ede->type && echnk->type != EET_T_NULL))
- goto on_error;
-
- /* get the destination pointer */
- if (ede)
- {
- if (group_type == EET_G_ARRAY)
- dst = (char *)ptr + (subsize * i);
- else
- dst = *(char **)ptr + (subsize * i);
- }
-
- if (IS_POINTER_TYPE(echnk->type))
- {
- POINTER_TYPE_DECODE(context, ed, edd, ede, echnk, echnk->type, &data_ret, p, size, on_error);
- if (dst) memcpy(dst, &data_ret, subsize);
- if (!edd) childs = eina_list_append(childs, data_ret);
- }
- else
- {
- STRUCT_TYPE_DECODE(data_ret, context, ed, ede ? ede->subtype : NULL, echnk->data, echnk->size, on_error);
- if (dst)
- {
- memcpy(dst, data_ret, subsize);
- _eet_freelist_add(context, data_ret);
- }
- if (!edd) childs = eina_list_append(childs, data_ret);
- }
+ void *dst = NULL;
+ void *data_ret = NULL;
+
+ /* Advance to next chunk */
+ NEXT_CHUNK((*p), (*size), (*echnk), ed);
+ memset(echnk, 0, sizeof(Eet_Data_Chunk));
+
+ eet_data_chunk_get(ed, echnk, *p, *size);
+ if (!echnk->name || strcmp(echnk->name, name) != 0)
+ goto on_error; /* get the data */
+
+ if (echnk->group_type != group_type
+ || (echnk->type != type && echnk->type != EET_T_NULL))
+ goto on_error;
+
+ if (ede)
+ if (ede->group_type != echnk->group_type
+ || (echnk->type != ede->type && echnk->type != EET_T_NULL))
+ goto on_error;
+
+ /* get the destination pointer */
+ if (ede)
+ {
+ if (group_type == EET_G_ARRAY)
+ dst = (char *)ptr + (subsize * i);
+ else
+ dst = *(char **)ptr + (subsize * i);
+ }
+
+ if (IS_POINTER_TYPE(echnk->type))
+ {
+ POINTER_TYPE_DECODE(context,
+ ed,
+ edd,
+ ede,
+ echnk,
+ echnk->type,
+ &data_ret,
+ p,
+ size,
+ on_error);
+ if (dst)
+ memcpy(dst, &data_ret, subsize);
+
+ if (!edd)
+ childs = eina_list_append(childs, data_ret);
+ }
+ else
+ {
+ STRUCT_TYPE_DECODE(data_ret,
+ context,
+ ed,
+ ede ? ede->subtype : NULL,
+ echnk->data,
+ echnk->size,
+ on_error);
+ if (dst)
+ {
+ memcpy(dst, data_ret, subsize);
+ _eet_freelist_add(context, data_ret);
+ }
+
+ if (!edd)
+ childs = eina_list_append(childs, data_ret);
+ }
}
if (!edd)
{
- Eet_Node *parent = *((Eet_Node **) data);
- Eet_Node *array;
+ Eet_Node *parent = *((Eet_Node **)data);
+ Eet_Node *array;
- if (group_type == EET_G_ARRAY)
- array = eet_node_array_new(name, count, childs);
- else
- array = eet_node_var_array_new(name, childs);
+ if (group_type == EET_G_ARRAY)
+ array = eet_node_array_new(name, count, childs);
+ else
+ array = eet_node_var_array_new(name, childs);
- if (!array) goto on_error;
+ if (!array)
+ goto on_error;
- eet_node_struct_append(parent, name, array);
+ eet_node_struct_append(parent, name, array);
}
return 1;
- on_error:
+on_error:
EINA_LIST_FREE(childs, tmp)
- eet_node_del(tmp);
+ eet_node_del(tmp);
return 0;
}
static void
eet_data_put_union(Eet_Dictionary *ed,
- Eet_Data_Descriptor *edd __UNUSED__,
- Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in)
+ Eet_Data_Descriptor *edd __UNUSED__,
+ Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in)
{
const char *union_type;
int i;
EET_ASSERT(!((ede->type != EET_T_UNKNOW) || (!ede->subtype)), return );
- union_type = ede->subtype->func.type_get(((char*) data_in) + ede->count - ede->offset,
- NULL);
+ union_type = ede->subtype->func.type_get(
+ ((char *)data_in) + ede->count - ede->offset,
+ NULL);
- if (!union_type) return ;
+ if (!union_type)
+ return;
/* Search the structure of the union to encode. */
for (i = 0; i < ede->subtype->elements.num; ++i)
- if (strcmp(ede->subtype->elements.set[i].name, union_type) == 0)
- {
- Eet_Data_Element *sede;
- void *data;
- int size;
-
- /* Yeah we found it ! */
- data = eet_data_put_type(ed, EET_T_STRING, &union_type, &size);
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
-
- sede = &(ede->subtype->elements.set[i]);
- data = _eet_data_descriptor_encode(ed,
- sede->subtype,
- data_in,
- &size);
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
- break;
- }
+ if (strcmp(ede->subtype->elements.set[i].name, union_type) == 0)
+ {
+ Eet_Data_Element *sede;
+ void *data;
+ int size;
+
+ /* Yeah we found it ! */
+ data = eet_data_put_type(ed, EET_T_STRING, &union_type, &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ ede->name,
+ size,
+ ede->type,
+ ede->group_type);
+
+ sede = &(ede->subtype->elements.set[i]);
+ data = _eet_data_descriptor_encode(ed,
+ sede->subtype,
+ data_in,
+ &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ ede->name,
+ size,
+ ede->type,
+ ede->group_type);
+
+ break;
+ }
+
}
static int
eet_data_get_union(Eet_Free_Context *context, const Eet_Dictionary *ed,
- Eet_Data_Descriptor *edd __UNUSED__,
- Eet_Data_Element *ede, Eet_Data_Chunk *echnk,
- int type, int group_type, void *data,
- char **p, int *size)
+ Eet_Data_Descriptor *edd __UNUSED__,
+ Eet_Data_Element *ede, Eet_Data_Chunk *echnk,
+ int type, int group_type, void *data,
+ char **p, int *size)
{
const char *union_type;
void *data_ret = NULL;
/* Read type */
ret = eet_data_get_type(ed,
- EET_T_STRING,
- echnk->data,
- ((char *)echnk->data) + echnk->size,
- &union_type);
- if (ret <= 0) goto on_error;
+ EET_T_STRING,
+ echnk->data,
+ ((char *)echnk->data) + echnk->size,
+ &union_type);
+ if (ret <= 0)
+ goto on_error;
/* Advance to next chunk */
NEXT_CHUNK((*p), (*size), (*echnk), ed);
/* Read value */
eet_data_chunk_get(ed, echnk, *p, *size);
- if (!echnk->name) goto on_error;
+ if (!echnk->name)
+ goto on_error;
if (ede)
{
- EET_ASSERT(!(ede->group_type != group_type || ede->type != type), goto on_error);
-
- /* Search the structure of the union to decode */
- for (i = 0; i < ede->subtype->elements.num; ++i)
- if (strcmp(ede->subtype->elements.set[i].name, union_type) == 0)
- {
- Eet_Data_Element *sede;
- char *ut;
-
- /* Yeah we found it ! */
- sede = &(ede->subtype->elements.set[i]);
- EET_ASSERT(sede->subtype, goto on_error);
-
- data_ret = _eet_data_descriptor_decode(context,
- ed,
- sede->subtype,
- echnk->data,
- echnk->size);
- if (!data_ret) goto on_error;
-
- /* Memcopy the structure content to remove pointer indirection. */
- memcpy(data, data_ret, sede->subtype->size);
-
- /* data_ret is now useless. */
- sede->subtype->func.mem_free(data_ret);
-
- /* Set union type. */
- if ((!ed) || (!ede->subtype->func.str_direct_alloc))
- {
- ut = ede->subtype->func.str_alloc(union_type);
- _eet_freelist_str_add(context, ut);
- }
- else
- {
- ut = ede->subtype->func.str_direct_alloc(union_type);
- _eet_freelist_direct_str_add(context, ut);
- }
-
- ede->subtype->func.type_set(ut,
- ((char*) data) + ede->count - ede->offset,
- EINA_FALSE);
-
- break;
- }
+ EET_ASSERT(!(ede->group_type != group_type || ede->type != type),
+ goto on_error);
+
+ /* Search the structure of the union to decode */
+ for (i = 0; i < ede->subtype->elements.num; ++i)
+ if (strcmp(ede->subtype->elements.set[i].name, union_type) == 0)
+ {
+ Eet_Data_Element *sede;
+ char *ut;
+
+ /* Yeah we found it ! */
+ sede = &(ede->subtype->elements.set[i]);
+ EET_ASSERT(sede->subtype, goto on_error);
+
+ data_ret = _eet_data_descriptor_decode(context,
+ ed,
+ sede->subtype,
+ echnk->data,
+ echnk->size);
+ if (!data_ret)
+ goto on_error;
+
+ /* Memcopy the structure content to remove pointer indirection. */
+ memcpy(data, data_ret, sede->subtype->size);
+
+ /* data_ret is now useless. */
+ sede->subtype->func.mem_free(data_ret);
+
+ /* Set union type. */
+ if ((!ed) || (!ede->subtype->func.str_direct_alloc))
+ {
+ ut = ede->subtype->func.str_alloc(union_type);
+ _eet_freelist_str_add(context, ut);
+ }
+ else
+ {
+ ut = ede->subtype->func.str_direct_alloc(union_type);
+ _eet_freelist_direct_str_add(context, ut);
+ }
+
+ ede->subtype->func.type_set(
+ ut,
+ ((char *)data) + ede->count -
+ ede->offset,
+ EINA_FALSE);
+
+ break;
+ }
+
}
else
{
- /* FIXME: generate node structure. */
- data_ret = _eet_data_descriptor_decode(context,
- ed, NULL,
- echnk->data, echnk->size);
- goto on_error;
+ /* FIXME: generate node structure. */
+ data_ret = _eet_data_descriptor_decode(context,
+ ed, NULL,
+ echnk->data, echnk->size);
+ goto on_error;
}
return 1;
- on_error:
+on_error:
return 0;
}
static void
eet_data_put_variant(Eet_Dictionary *ed,
- Eet_Data_Descriptor *edd __UNUSED__,
- Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in)
+ Eet_Data_Descriptor *edd __UNUSED__,
+ Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in)
{
const char *union_type;
void *data;
EET_ASSERT(!((ede->type != EET_T_UNKNOW) || (!ede->subtype)), return );
- union_type = ede->subtype->func.type_get(((char*) data_in) + ede->count - ede->offset,
- &unknow);
+ union_type = ede->subtype->func.type_get(
+ ((char *)data_in) + ede->count - ede->offset,
+ &unknow);
- if (!union_type && unknow == EINA_FALSE) return ;
+ if (!union_type && unknow == EINA_FALSE)
+ return;
if (unknow)
{
- /* Handle opaque internal representation */
- Eet_Variant_Unknow *evu;
-
- data = eet_data_put_type(ed, EET_T_STRING, &union_type, &size);
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
-
- evu = (Eet_Variant_Unknow*) data_in;
- if (evu && EINA_MAGIC_CHECK(evu, EET_MAGIC_VARIANT))
- eet_data_encode(ed, ds, evu->data, ede->name, evu->size, ede->type, ede->group_type);
+ /* Handle opaque internal representation */
+ Eet_Variant_Unknow *evu;
+
+ data = eet_data_put_type(ed, EET_T_STRING, &union_type, &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ ede->name,
+ size,
+ ede->type,
+ ede->group_type);
+
+ evu = (Eet_Variant_Unknow *)data_in;
+ if (evu && EINA_MAGIC_CHECK(evu, EET_MAGIC_VARIANT))
+ eet_data_encode(ed,
+ ds,
+ evu->data,
+ ede->name,
+ evu->size,
+ ede->type,
+ ede->group_type);
}
else
- {
- /* Search the structure of the union to encode. */
- for (i = 0; i < ede->subtype->elements.num; ++i)
- if (strcmp(ede->subtype->elements.set[i].name, union_type) == 0)
- {
- Eet_Data_Element *sede;
-
- /* Yeah we found it ! */
- data = eet_data_put_type(ed, EET_T_STRING, &union_type, &size);
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
-
- sede = &(ede->subtype->elements.set[i]);
-
- if (sede->group_type != EET_G_UNKNOWN)
- {
- Eet_Data_Stream *lds;
-
- lds = eet_data_stream_new();
- eet_group_codec[sede->group_type - 100].put(ed,
- sede->subtype,
- sede,
- lds,
- data_in);
- if (lds->size != 0)
- {
- eet_data_encode(ed, ds, lds->data, ede->name, lds->pos,
- ede->type, ede->group_type);
-
- lds->data = NULL;
- lds->size = 0;
- }
- else
- {
- eet_data_encode(ed, ds, NULL, ede->name, 0,
- EET_T_NULL, ede->group_type);
- }
-
- eet_data_stream_free(lds);
- }
- else
- {
- data = _eet_data_descriptor_encode(ed,
- sede->subtype,
- *(void**)data_in,
- &size);
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
- }
-
- break;
- }
- }
+ /* Search the structure of the union to encode. */
+ for (i = 0; i < ede->subtype->elements.num; ++i)
+ if (strcmp(ede->subtype->elements.set[i].name, union_type) == 0)
+ {
+ Eet_Data_Element *sede;
+
+ /* Yeah we found it ! */
+ data = eet_data_put_type(ed, EET_T_STRING, &union_type, &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ ede->name,
+ size,
+ ede->type,
+ ede->group_type);
+
+ sede = &(ede->subtype->elements.set[i]);
+
+ if (sede->group_type != EET_G_UNKNOWN)
+ {
+ Eet_Data_Stream *lds;
+
+ lds = eet_data_stream_new();
+ eet_group_codec[sede->group_type - 100].put(ed,
+ sede->subtype,
+ sede,
+ lds,
+ data_in);
+ if (lds->size != 0)
+ {
+ eet_data_encode(ed, ds, lds->data, ede->name, lds->pos,
+ ede->type, ede->group_type);
+
+ lds->data = NULL;
+ lds->size = 0;
+ }
+ else
+ eet_data_encode(ed, ds, NULL, ede->name, 0,
+ EET_T_NULL, ede->group_type);
+
+ eet_data_stream_free(lds);
+ }
+ else
+ {
+ data = _eet_data_descriptor_encode(ed,
+ sede->subtype,
+ *(void **)data_in,
+ &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ ede->name,
+ size,
+ ede->type,
+ ede->group_type);
+ }
+
+ break;
+ }
+
}
static int
eet_data_get_variant(Eet_Free_Context *context, const Eet_Dictionary *ed,
- Eet_Data_Descriptor *edd __UNUSED__,
- Eet_Data_Element *ede, Eet_Data_Chunk *echnk,
- int type __UNUSED__, int group_type __UNUSED__, void *data,
- char **p, int *size)
+ Eet_Data_Descriptor *edd __UNUSED__,
+ Eet_Data_Element *ede, Eet_Data_Chunk *echnk,
+ int type __UNUSED__, int group_type __UNUSED__, void *data,
+ char **p, int *size)
{
const char *union_type;
void *data_ret = NULL;
/* Read type */
ret = eet_data_get_type(ed,
- EET_T_STRING,
- echnk->data,
- ((char *)echnk->data) + echnk->size,
- &union_type);
- if (ret <= 0) goto on_error;
+ EET_T_STRING,
+ echnk->data,
+ ((char *)echnk->data) + echnk->size,
+ &union_type);
+ if (ret <= 0)
+ goto on_error;
/* Advance to next chunk */
NEXT_CHUNK((*p), (*size), (*echnk), ed);
/* Read value */
eet_data_chunk_get(ed, echnk, *p, *size);
- if (!echnk->name) goto on_error;
+ if (!echnk->name)
+ goto on_error;
if (ede)
{
- char *ut;
-
- EET_ASSERT(ede->subtype, goto on_error);
-
- if ((!ed) || (!ede->subtype->func.str_direct_alloc))
- {
- ut = ede->subtype->func.str_alloc(union_type);
- _eet_freelist_str_add(context, ut);
- }
- else
- {
- ut = ede->subtype->func.str_direct_alloc(union_type);
- _eet_freelist_direct_str_add(context, ut);
- }
-
- /* Search the structure of the union to decode */
- for (i = 0; i < ede->subtype->elements.num; ++i)
- if (strcmp(ede->subtype->elements.set[i].name, union_type) == 0)
- {
- Eet_Data_Element *sede;
-
- /* Yeah we found it ! */
- sede = &(ede->subtype->elements.set[i]);
-
- if (sede->group_type != EET_G_UNKNOWN)
- {
- Eet_Data_Chunk chnk;
- char *p2;
- int size2;
- int ret;
-
- p2 = echnk->data;
- size2 = echnk->size;
-
- /* Didn't find a proper way to provide this
- without duplicating code */
- while (size2 > 0)
- {
- memset(&chnk, 0, sizeof(Eet_Data_Chunk));
- eet_data_chunk_get(ed, &chnk, p2, size2);
-
- if (!chnk.name) goto on_error;
-
- ret = eet_group_codec[sede->group_type - 100].get(context,
- ed, sede->subtype,
- sede, &chnk,
- sede->type, sede->group_type,
- data, &p2, &size2);
-
- if (ret <= 0) goto on_error;
-
- /* advance to next chunk */
- NEXT_CHUNK(p2, size2, chnk, ed);
- }
-
- /* Put garbage so that we will not put eet_variant_unknow in it */
- data_ret = (void*) data;
-
- /* Set variant type. */
- ede->subtype->func.type_set(ut,
- ((char*) data) + ede->count - ede->offset,
- EINA_FALSE);
- break;
- }
-
- data_ret = _eet_data_descriptor_decode(context,
- ed,
- sede->subtype,
- echnk->data,
- echnk->size);
- if (!data_ret) break;
-
- /* And point to the variant data. */
- *(void**) data = data_ret;
-
- /* Set variant type. */
- ede->subtype->func.type_set(ut,
- ((char*) data) + ede->count - ede->offset,
- EINA_FALSE);
- break;
- }
-
- if (!data_ret)
- {
- Eet_Variant_Unknow *evu;
-
- evu = calloc(1, sizeof (Eet_Variant_Unknow) + echnk->size - 1);
- if (!evu) goto on_error;
-
- evu->size = echnk->size;
- memcpy(evu->data, echnk->data, evu->size);
- EINA_MAGIC_SET(evu, EET_MAGIC_VARIANT);
-
- /* And point to the opaque internal data scructure */
- *(void**) data = evu;
-
- /* Set variant type. */
- ede->subtype->func.type_set(ut,
- ((char*) data) + ede->count - ede->offset,
- EINA_TRUE);
- }
+ char *ut;
+
+ EET_ASSERT(ede->subtype, goto on_error);
+
+ if ((!ed) || (!ede->subtype->func.str_direct_alloc))
+ {
+ ut = ede->subtype->func.str_alloc(union_type);
+ _eet_freelist_str_add(context, ut);
+ }
+ else
+ {
+ ut = ede->subtype->func.str_direct_alloc(union_type);
+ _eet_freelist_direct_str_add(context, ut);
+ }
+
+ /* Search the structure of the union to decode */
+ for (i = 0; i < ede->subtype->elements.num; ++i)
+ if (strcmp(ede->subtype->elements.set[i].name, union_type) == 0)
+ {
+ Eet_Data_Element *sede;
+
+ /* Yeah we found it ! */
+ sede = &(ede->subtype->elements.set[i]);
+
+ if (sede->group_type != EET_G_UNKNOWN)
+ {
+ Eet_Data_Chunk chnk;
+ char *p2;
+ int size2;
+ int ret;
+
+ p2 = echnk->data;
+ size2 = echnk->size;
+
+ /* Didn't find a proper way to provide this
+ without duplicating code */
+ while (size2 > 0)
+ {
+ memset(&chnk, 0, sizeof(Eet_Data_Chunk));
+ eet_data_chunk_get(ed, &chnk, p2, size2);
+
+ if (!chnk.name)
+ goto on_error;
+
+ ret = eet_group_codec[sede->group_type - 100].get(
+ context,
+ ed,
+ sede->subtype,
+ sede,
+ &chnk,
+ sede
+ ->type,
+ sede->group_type,
+ data,
+ &p2,
+ &size2);
+
+ if (ret <= 0)
+ goto on_error;
+
+/* advance to next chunk */
+ NEXT_CHUNK(p2, size2, chnk, ed);
+ }
+
+ /* Put garbage so that we will not put eet_variant_unknow in it */
+ data_ret = (void *)data;
+
+ /* Set variant type. */
+ ede->subtype->func.type_set(
+ ut,
+ ((char *)data) + ede->count -
+ ede->offset,
+ EINA_FALSE);
+ break;
+ }
+
+ data_ret = _eet_data_descriptor_decode(context,
+ ed,
+ sede->subtype,
+ echnk->data,
+ echnk->size);
+ if (!data_ret)
+ break;
+
+ /* And point to the variant data. */
+ *(void **)data = data_ret;
+
+ /* Set variant type. */
+ ede->subtype->func.type_set(
+ ut,
+ ((char *)data) + ede->count -
+ ede->offset,
+ EINA_FALSE);
+ break;
+ }
+
+ if (!data_ret)
+ {
+ Eet_Variant_Unknow *evu;
+
+ evu = calloc(1, sizeof (Eet_Variant_Unknow) + echnk->size - 1);
+ if (!evu)
+ goto on_error;
+
+ evu->size = echnk->size;
+ memcpy(evu->data, echnk->data, evu->size);
+ EINA_MAGIC_SET(evu, EET_MAGIC_VARIANT);
+
+ /* And point to the opaque internal data scructure */
+ *(void **)data = evu;
+
+ /* Set variant type. */
+ ede->subtype->func.type_set(
+ ut,
+ ((char *)data) + ede->count -
+ ede->offset,
+ EINA_TRUE);
+ }
}
else
{
- /* FIXME: dump node structure. */
- data_ret = _eet_data_descriptor_decode(context,
- ed, NULL,
- echnk->data, echnk->size);
- goto on_error;
+ /* FIXME: dump node structure. */
+ data_ret = _eet_data_descriptor_decode(context,
+ ed, NULL,
+ echnk->data, echnk->size);
+ goto on_error;
}
return 1;
- on_error:
+on_error:
return 0;
}
# undef EET_T_TYPE
#endif
-#define EET_T_TYPE(Eet_Type, Eet_Node_Type, Type) \
- case Eet_Type: \
- return eet_node_##Eet_Node_Type##_new(name, *((Type *) dd)); \
+#define EET_T_TYPE(Eet_Type, Eet_Node_Type, Type) \
+ case Eet_Type: \
+ return eet_node_ ## Eet_Node_Type ## _new(name, *((Type *)dd)); \
switch (type)
{
- EET_T_TYPE(EET_T_CHAR, char, char);
- EET_T_TYPE(EET_T_SHORT, short, short);
- EET_T_TYPE(EET_T_INT, int, int);
- EET_T_TYPE(EET_T_LONG_LONG, long_long, long long);
- EET_T_TYPE(EET_T_FLOAT, float, float);
- EET_T_TYPE(EET_T_DOUBLE, double, double);
- EET_T_TYPE(EET_T_UCHAR, unsigned_char, unsigned char);
- EET_T_TYPE(EET_T_USHORT, unsigned_short, unsigned short);
- EET_T_TYPE(EET_T_UINT, unsigned_int, unsigned int);
- EET_T_TYPE(EET_T_ULONG_LONG, unsigned_long_long, unsigned long long);
- EET_T_TYPE(EET_T_STRING, string, char*);
- EET_T_TYPE(EET_T_INLINED_STRING, inlined_string, char*);
+ EET_T_TYPE(EET_T_CHAR, char, char);
+ EET_T_TYPE(EET_T_SHORT, short, short);
+ EET_T_TYPE(EET_T_INT, int, int);
+ EET_T_TYPE(EET_T_LONG_LONG, long_long, long long);
+ EET_T_TYPE(EET_T_FLOAT, float, float);
+ EET_T_TYPE(EET_T_DOUBLE, double, double);
+ EET_T_TYPE(EET_T_UCHAR, unsigned_char, unsigned char);
+ EET_T_TYPE(EET_T_USHORT, unsigned_short, unsigned short);
+ EET_T_TYPE(EET_T_UINT, unsigned_int, unsigned int);
+ EET_T_TYPE(EET_T_ULONG_LONG, unsigned_long_long, unsigned long long);
+ EET_T_TYPE(EET_T_STRING, string, char *);
+ EET_T_TYPE(EET_T_INLINED_STRING, inlined_string, char *);
+
case EET_T_NULL:
- return eet_node_null_new(name);
+ return eet_node_null_new(name);
+
default:
- ERR("Unknow type passed to eet_data_node_simple_type");
- return NULL;
+ ERR("Unknow type passed to eet_data_node_simple_type");
+ return NULL;
}
}
static int
-eet_data_get_unknown(Eet_Free_Context *context, const Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Chunk *echnk,
- int type, int group_type __UNUSED__, void *data,
- char **p __UNUSED__, int *size __UNUSED__)
+eet_data_get_unknown(Eet_Free_Context *context,
+ const Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Chunk *echnk,
+ int type,
+ int group_type __UNUSED__,
+ void *data,
+ char **p __UNUSED__,
+ int *size __UNUSED__)
{
int ret;
void *data_ret;
if (IS_SIMPLE_TYPE(type))
{
- unsigned char dd[128];
-
- ret = eet_data_get_type(ed, type, echnk->data, ((char *)echnk->data) + echnk->size, edd ? (char*) data : (char*) dd);
- if (ret <= 0) return ret;
-
- if (!edd)
- {
- Eet_Node **parent = data;
- Eet_Node *node;
-
- node = eet_data_node_simple_type(type, echnk->name, dd);
-
- if (*parent) eet_node_struct_append(*parent, echnk->name, node);
- else *parent = node;
- }
- else
- {
- if (type == EET_T_STRING)
- {
- char **str;
-
- str = (char **)(((char *)data));
- if (*str)
- {
- if ((ed == NULL) || (edd->func.str_direct_alloc == NULL))
- {
- *str = edd->func.str_alloc(*str);
- _eet_freelist_str_add(context, *str);
- }
- else
- {
- *str = edd->func.str_direct_alloc(*str);
- _eet_freelist_direct_str_add(context, *str);
- }
- }
- }
- else if (edd && type == EET_T_INLINED_STRING)
- {
- char **str;
-
- str = (char **)(((char *)data));
- if (*str)
- {
- *str = edd->func.str_alloc(*str);
- _eet_freelist_str_add(context, *str);
- }
- }
- }
+ unsigned char dd[128];
+
+ ret = eet_data_get_type(ed,
+ type,
+ echnk->data,
+ ((char *)echnk->data) + echnk->size,
+ edd ? (char *)data : (char *)dd);
+ if (ret <= 0)
+ return ret;
+
+ if (!edd)
+ {
+ Eet_Node **parent = data;
+ Eet_Node *node;
+
+ node = eet_data_node_simple_type(type, echnk->name, dd);
+
+ if (*parent)
+ eet_node_struct_append(*parent, echnk->name, node);
+ else
+ *parent = node;
+ }
+ else
+ {
+ if (type == EET_T_STRING)
+ {
+ char **str;
+
+ str = (char **)(((char *)data));
+ if (*str)
+ {
+ if ((ed == NULL) || (edd->func.str_direct_alloc == NULL))
+ {
+ *str = edd->func.str_alloc(*str);
+ _eet_freelist_str_add(context, *str);
+ }
+ else
+ {
+ *str = edd->func.str_direct_alloc(*str);
+ _eet_freelist_direct_str_add(context, *str);
+ }
+ }
+ }
+ else if (edd && type == EET_T_INLINED_STRING)
+ {
+ char **str;
+
+ str = (char **)(((char *)data));
+ if (*str)
+ {
+ *str = edd->func.str_alloc(*str);
+ _eet_freelist_str_add(context, *str);
+ }
+ }
+ }
}
else
{
- Eet_Data_Descriptor *subtype;
-
- subtype = ede ? ede->subtype : NULL;
-
- if (subtype || !edd)
- {
- Eet_Node **parent = data;
- void **ptr;
-
- data_ret = _eet_data_descriptor_decode(context, ed, subtype, echnk->data, echnk->size);
- if (!data_ret) return 0;
-
- if (edd)
- {
- ptr = (void **)(((char *)data));
- *ptr = (void *)data_ret;
- }
- else
- {
- Eet_Node *node = data_ret;
-
- if (*parent)
- {
- node = eet_node_struct_child_new(echnk->name, node);
- eet_node_struct_append(*parent, echnk->name, node);
- }
- else *parent = node;
- }
- }
+ Eet_Data_Descriptor *subtype;
+
+ subtype = ede ? ede->subtype : NULL;
+
+ if (subtype || !edd)
+ {
+ Eet_Node **parent = data;
+ void **ptr;
+
+ data_ret = _eet_data_descriptor_decode(context,
+ ed,
+ subtype,
+ echnk->data,
+ echnk->size);
+ if (!data_ret)
+ return 0;
+
+ if (edd)
+ {
+ ptr = (void **)(((char *)data));
+ *ptr = (void *)data_ret;
+ }
+ else
+ {
+ Eet_Node *node = data_ret;
+
+ if (*parent)
+ {
+ node = eet_node_struct_child_new(echnk->name, node);
+ eet_node_struct_append(*parent, echnk->name, node);
+ }
+ else
+ *parent = node;
+ }
+ }
}
return 1;
}
static void
-eet_data_put_array(Eet_Dictionary *ed, Eet_Data_Descriptor *edd __UNUSED__, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in)
+eet_data_put_array(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd __UNUSED__,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in)
{
void *data;
int offset = 0;
int size;
int j;
- EET_ASSERT(!((ede->type > EET_T_UNKNOW) && (ede->type < EET_T_STRING)), return );
+ EET_ASSERT(!((ede->type > EET_T_UNKNOW) && (ede->type < EET_T_STRING)),
+ return );
if (ede->group_type == EET_G_ARRAY)
- count = ede->counter_offset;
+ count = ede->counter_offset;
else
- count = *(int *)(((char *)data_in) + ede->count - ede->offset);
+ count = *(int *)(((char *)data_in) + ede->count - ede->offset);
+
+ if (count <= 0)
+ return; /* Store number of elements */
- if (count <= 0) return;
- /* Store number of elements */
data = eet_data_put_type(ed, EET_T_INT, &count, &size);
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
+ if (data)
+ eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
if (IS_POINTER_TYPE(ede->type))
- subsize = eet_basic_codec[ede->type].size;
+ subsize = eet_basic_codec[ede->type].size;
else
- subsize = ede->subtype->size;
+ subsize = ede->subtype->size;
for (j = 0; j < count; j++)
{
- void *d;
- int pos = ds->pos;
-
- if (ede->group_type == EET_G_ARRAY)
- d = (void *)(((char *)data_in) + offset);
- else
- d = *(((char **)data_in)) + offset;
-
- if (IS_POINTER_TYPE(ede->type))
- {
- if (*(char**) d)
- eet_data_put_unknown(ed, NULL, ede, ds, d);
- }
- else
- {
- data = _eet_data_descriptor_encode(ed, ede->subtype, d, &size);
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
- }
-
- if (pos == ds->pos)
- {
- /* Add a NULL element just to have the correct array layout. */
- eet_data_encode(ed, ds, NULL, ede->name, 0, EET_T_NULL, ede->group_type);
- }
-
- offset += subsize;
+ void *d;
+ int pos = ds->pos;
+
+ if (ede->group_type == EET_G_ARRAY)
+ d = (void *)(((char *)data_in) + offset);
+ else
+ d = *(((char **)data_in)) + offset;
+
+ if (IS_POINTER_TYPE(ede->type))
+ {
+ if (*(char **)d)
+ eet_data_put_unknown(ed, NULL, ede, ds, d);
+ }
+ else
+ {
+ data = _eet_data_descriptor_encode(ed, ede->subtype, d, &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ ede->name,
+ size,
+ ede->type,
+ ede->group_type);
+ }
+
+ if (pos == ds->pos)
+ /* Add a NULL element just to have the correct array layout. */
+ eet_data_encode(ed,
+ ds,
+ NULL,
+ ede->name,
+ 0,
+ EET_T_NULL,
+ ede->group_type);
+
+ offset += subsize;
}
}
static void
-eet_data_put_unknown(Eet_Dictionary *ed, Eet_Data_Descriptor *edd __UNUSED__, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in)
+eet_data_put_unknown(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd __UNUSED__,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in)
{
void *data = NULL;
int size;
if (IS_SIMPLE_TYPE(ede->type))
- data = eet_data_put_type(ed, ede->type, data_in, &size);
+ data = eet_data_put_type(ed, ede->type, data_in, &size);
else if (ede->subtype)
- {
- if (*((char **)data_in))
- data = _eet_data_descriptor_encode(ed,
- ede->subtype,
- *((char **)((char *)(data_in))),
- &size);
- }
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
+ if (*((char **)data_in))
+ data = _eet_data_descriptor_encode(ed,
+ ede->subtype,
+ *((char **)((char *)(data_in))),
+ &size);
+
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ ede->name,
+ size,
+ ede->type,
+ ede->group_type);
}
static void
-eet_data_put_list(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in)
+eet_data_put_list(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in)
{
void *data;
void *l;
int size;
EET_ASSERT(!(((ede->type > EET_T_UNKNOW) && (ede->type < EET_T_STRING))
- || ((ede->type > EET_T_NULL) && (ede->type < EET_T_LAST))),
- return );
+ || ((ede->type > EET_T_NULL) && (ede->type < EET_T_LAST))),
+ return );
l = *((void **)(((char *)data_in)));
for (; l; l = edd->func.list_next(l))
{
- if (IS_POINTER_TYPE(ede->type))
- {
- const void *str = edd->func.list_data(l);
- eet_data_put_unknown(ed, NULL, ede, ds, &str);
- }
- else
- {
- data = _eet_data_descriptor_encode(ed,
- ede->subtype,
- edd->func.list_data(l),
- &size);
- if (data) eet_data_encode(ed, ds, data, ede->name, size, ede->type, ede->group_type);
- }
+ if (IS_POINTER_TYPE(ede->type))
+ {
+ const void *str = edd->func.list_data(l);
+ eet_data_put_unknown(ed, NULL, ede, ds, &str);
+ }
+ else
+ {
+ data = _eet_data_descriptor_encode(ed,
+ ede->subtype,
+ edd->func.list_data(l),
+ &size);
+ if (data)
+ eet_data_encode(ed,
+ ds,
+ data,
+ ede->name,
+ size,
+ ede->type,
+ ede->group_type);
+ }
}
}
static void
-eet_data_put_hash(Eet_Dictionary *ed, Eet_Data_Descriptor *edd, Eet_Data_Element *ede, Eet_Data_Stream *ds, void *data_in)
+eet_data_put_hash(Eet_Dictionary *ed,
+ Eet_Data_Descriptor *edd,
+ Eet_Data_Element *ede,
+ Eet_Data_Stream *ds,
+ void *data_in)
{
Eet_Data_Encode_Hash_Info fdata;
void *l;
EAPI int
eet_data_dump_cipher(Eet_File *ef,
- const char *name, const char *cipher_key,
- void (*dumpfunc) (void *data, const char *str),
- void *dumpdata)
+ const char *name, const char *cipher_key,
+ void (*dumpfunc)(void *data, const char *str),
+ void *dumpdata)
{
const Eet_Dictionary *ed = NULL;
- const void *data = NULL;
- Eet_Node *result;
- Eet_Free_Context context;
- int required_free = 0;
- int size;
+ const void *data = NULL;
+ Eet_Node *result;
+ Eet_Free_Context context;
+ int required_free = 0;
+ int size;
ed = eet_dictionary_get(ef);
if (!cipher_key)
- data = eet_read_direct(ef, name, &size);
+ data = eet_read_direct(ef, name, &size);
+
if (!data)
{
- required_free = 1;
- data = eet_read_cipher(ef, name, &size, cipher_key);
- if (!data) return 0;
+ required_free = 1;
+ data = eet_read_cipher(ef, name, &size, cipher_key);
+ if (!data)
+ return 0;
}
memset(&context, 0, sizeof (context));
eet_node_del(result);
if (required_free)
- free((void*)data);
+ free((void *)data);
return result ? 1 : 0;
}
EAPI int
eet_data_dump(Eet_File *ef,
- const char *name,
- void (*dumpfunc) (void *data, const char *str),
- void *dumpdata)
+ const char *name,
+ void (*dumpfunc)(void *data, const char *str),
+ void *dumpdata)
{
return eet_data_dump_cipher(ef, name, NULL, dumpfunc, dumpdata);
}
EAPI int
eet_data_text_dump_cipher(const void *data_in,
- const char *cipher_key, int size_in,
- void (*dumpfunc) (void *data, const char *str),
- void *dumpdata)
+ const char *cipher_key, int size_in,
+ void (*dumpfunc)(void *data, const char *str),
+ void *dumpdata)
{
void *ret = NULL;
Eet_Node *result;
Eet_Free_Context context;
unsigned int ret_len = 0;
- if (!data_in) return 0;
+ if (!data_in)
+ return 0;
if (cipher_key)
{
- if (eet_decipher(data_in, size_in, cipher_key,
- strlen(cipher_key), &ret, &ret_len))
- {
- if (ret) free(ret);
- return 0;
- }
+ if (eet_decipher(data_in, size_in, cipher_key,
+ strlen(cipher_key), &ret, &ret_len))
+ {
+ if (ret)
+ free(ret);
+
+ return 0;
+ }
}
else
{
- ret = (void*) data_in;
- ret_len = size_in;
+ ret = (void *)data_in;
+ ret_len = size_in;
}
memset(&context, 0, sizeof (context));
eet_node_dump(result, 0, dumpfunc, dumpdata);
eet_node_del(result);
- if (cipher_key) free(ret);
+ if (cipher_key)
+ free(ret);
return result ? 1 : 0;
}
EAPI int
eet_data_text_dump(const void *data_in,
- int size_in,
- void (*dumpfunc) (void *data, const char *str),
- void *dumpdata)
+ int size_in,
+ void (*dumpfunc)(void *data, const char *str),
+ void *dumpdata)
{
return eet_data_text_dump_cipher(data_in, NULL, size_in, dumpfunc, dumpdata);
}
EAPI void *
eet_data_text_undump_cipher(const char *text,
- const char *cipher_key,
- int textlen,
- int *size_ret)
+ const char *cipher_key,
+ int textlen,
+ int *size_ret)
{
void *ret = NULL;
ret = _eet_data_dump_parse(NULL, size_ret, text, textlen);
if (ret && cipher_key)
{
- void *ciphered = NULL;
- unsigned int ciphered_len;
-
- if (eet_cipher(ret, *size_ret, cipher_key,
- strlen(cipher_key), &ciphered, &ciphered_len))
- {
- if (ciphered) free(ciphered);
- size_ret = 0;
- free(ret);
- return NULL;
- }
- free(ret);
- *size_ret = ciphered_len;
- ret = ciphered;
+ void *ciphered = NULL;
+ unsigned int ciphered_len;
+
+ if (eet_cipher(ret, *size_ret, cipher_key,
+ strlen(cipher_key), &ciphered, &ciphered_len))
+ {
+ if (ciphered)
+ free(ciphered);
+
+ size_ret = 0;
+ free(ret);
+ return NULL;
+ }
+
+ free(ret);
+ *size_ret = ciphered_len;
+ ret = ciphered;
}
+
return ret;
}
EAPI void *
eet_data_text_undump(const char *text,
- int textlen,
- int *size_ret)
+ int textlen,
+ int *size_ret)
{
return eet_data_text_undump_cipher(text, NULL, textlen, size_ret);
}
EAPI int
eet_data_undump_cipher(Eet_File *ef,
- const char *name,
- const char *cipher_key,
- const char *text,
- int textlen,
- int compress)
+ const char *name,
+ const char *cipher_key,
+ const char *text,
+ int textlen,
+ int compress)
{
- Eet_Dictionary *ed;
- void *data_enc;
- int size;
- int val;
+ Eet_Dictionary *ed;
+ void *data_enc;
+ int size;
+ int val;
ed = eet_dictionary_get(ef);
data_enc = _eet_data_dump_parse(ed, &size, text, textlen);
- if (!data_enc) return 0;
+ if (!data_enc)
+ return 0;
+
val = eet_write_cipher(ef, name, data_enc, size, compress, cipher_key);
- free(data_enc);
+ free(data_enc);
return val;
}
EAPI int
eet_data_undump(Eet_File *ef,
- const char *name,
- const char *text,
- int textlen,
- int compress)
+ const char *name,
+ const char *text,
+ int textlen,
+ int compress)
{
return eet_data_undump_cipher(ef, name, NULL, text, textlen, compress);
}
EAPI void *
eet_data_descriptor_decode_cipher(Eet_Data_Descriptor *edd,
- const void *data_in,
- const char *cipher_key,
- int size_in)
+ const void *data_in,
+ const char *cipher_key,
+ int size_in)
{
- void *deciphered = (void*) data_in;
+ void *deciphered = (void *)data_in;
void *ret;
Eet_Free_Context context;
unsigned int deciphered_len = size_in;
if (cipher_key && data_in)
- {
- if (eet_decipher(data_in, size_in, cipher_key,
- strlen(cipher_key), &deciphered, &deciphered_len))
- {
- if (deciphered) free(deciphered);
- return NULL;
- }
- }
+ if (eet_decipher(data_in, size_in, cipher_key,
+ strlen(cipher_key), &deciphered, &deciphered_len))
+ {
+ if (deciphered)
+ free(deciphered);
+
+ return NULL;
+ }
memset(&context, 0, sizeof (context));
- ret = _eet_data_descriptor_decode(&context, NULL, edd, deciphered, deciphered_len);
+ ret = _eet_data_descriptor_decode(&context,
+ NULL,
+ edd,
+ deciphered,
+ deciphered_len);
- if (data_in != deciphered) free(deciphered);
+ if (data_in != deciphered)
+ free(deciphered);
return ret;
}
EAPI void *
eet_data_descriptor_decode(Eet_Data_Descriptor *edd,
- const void *data_in,
- int size_in)
+ const void *data_in,
+ int size_in)
{
return eet_data_descriptor_decode_cipher(edd, data_in, NULL, size_in);
}
EAPI Eet_Node *
-eet_data_node_decode_cipher(const void *data_in, const char *cipher_key, int size_in)
+eet_data_node_decode_cipher(const void *data_in,
+ const char *cipher_key,
+ int size_in)
{
- void *deciphered = (void*) data_in;
+ void *deciphered = (void *)data_in;
Eet_Node *ret;
Eet_Free_Context context;
unsigned int deciphered_len = size_in;
if (cipher_key && data_in)
- {
- if (eet_decipher(data_in, size_in, cipher_key,
- strlen(cipher_key), &deciphered, &deciphered_len))
- {
- if (deciphered) free(deciphered);
- return NULL;
- }
- }
+ if (eet_decipher(data_in, size_in, cipher_key,
+ strlen(cipher_key), &deciphered, &deciphered_len))
+ {
+ if (deciphered)
+ free(deciphered);
+
+ return NULL;
+ }
memset(&context, 0, sizeof (context));
- ret = _eet_data_descriptor_decode(&context, NULL, NULL, deciphered, deciphered_len);
+ ret = _eet_data_descriptor_decode(&context,
+ NULL,
+ NULL,
+ deciphered,
+ deciphered_len);
- if (data_in != deciphered) free(deciphered);
+ if (data_in != deciphered)
+ free(deciphered);
return ret;
}
const void *data_in,
int *size_ret)
{
- Eet_Data_Stream *ds;
- Eet_Data_Chunk *chnk;
- void *cdata;
- int csize;
- int i;
+ Eet_Data_Stream *ds;
+ Eet_Data_Chunk *chnk;
+ void *cdata;
+ int csize;
+ int i;
if (_eet_data_words_bigendian == -1)
{
- unsigned long int v;
+ unsigned long int v;
- v = htonl(0x12345678);
- if (v == 0x12345678) _eet_data_words_bigendian = 1;
- else _eet_data_words_bigendian = 0;
+ v = htonl(0x12345678);
+ if (v == 0x12345678)
+ _eet_data_words_bigendian = 1;
+ else
+ _eet_data_words_bigendian = 0;
}
ds = eet_data_stream_new();
for (i = 0; i < edd->elements.num; i++)
{
- Eet_Data_Element *ede;
-
- ede = &(edd->elements.set[i]);
- eet_group_codec[ede->group_type - 100].put(ed, edd, ede, ds, ((char *)data_in) + ede->offset);
+ Eet_Data_Element *ede;
+
+ ede = &(edd->elements.set[i]);
+ eet_group_codec[ede->group_type - 100].put(
+ ed,
+ edd,
+ ede,
+ ds,
+ ((char *)data_in) +
+ ede->offset);
}
- chnk = eet_data_chunk_new(ds->data, ds->pos, edd->name, EET_T_UNKNOW, EET_G_UNKNOWN);
+ chnk = eet_data_chunk_new(ds->data,
+ ds->pos,
+ edd->name,
+ EET_T_UNKNOW,
+ EET_G_UNKNOWN);
ds->data = NULL;
ds->size = 0;
eet_data_stream_free(ds);
}
EAPI int
-eet_data_node_write_cipher(Eet_File *ef, const char *name, const char *cipher_key, Eet_Node *node, int compress)
+eet_data_node_write_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ Eet_Node *node,
+ int compress)
{
- Eet_Dictionary *ed;
- void *data_enc;
- int size;
- int val;
+ Eet_Dictionary *ed;
+ void *data_enc;
+ int size;
+ int val;
ed = eet_dictionary_get(ef);
data_enc = _eet_data_dump_encode(EET_G_UNKNOWN, ed, node, &size);
- if (!data_enc) return 0;
+ if (!data_enc)
+ return 0;
+
val = eet_write_cipher(ef, name, data_enc, size, compress, cipher_key);
free(data_enc);
return val;
EAPI void *
eet_data_node_encode_cipher(Eet_Node *node,
- const char *cipher_key,
- int *size_ret)
+ const char *cipher_key,
+ int *size_ret)
{
void *ret = NULL;
void *ciphered = NULL;
ret = _eet_data_dump_encode(EET_G_UNKNOWN, NULL, node, &size);
if (cipher_key && ret)
{
- if (eet_cipher(ret, size, cipher_key,
- strlen(cipher_key), &ciphered, &ciphered_len))
- {
- if (ciphered) free(ciphered);
- if (size_ret) *size_ret = 0;
- free(ret);
- return NULL;
- }
- free(ret);
- size = (int) ciphered_len;
- ret = ciphered;
+ if (eet_cipher(ret, size, cipher_key,
+ strlen(cipher_key), &ciphered, &ciphered_len))
+ {
+ if (ciphered)
+ free(ciphered);
+
+ if (size_ret)
+ *size_ret = 0;
+
+ free(ret);
+ return NULL;
+ }
+
+ free(ret);
+ size = (int)ciphered_len;
+ ret = ciphered;
}
- if (size_ret) *size_ret = size;
+ if (size_ret)
+ *size_ret = size;
+
return ret;
}
EAPI void *
eet_data_descriptor_encode_cipher(Eet_Data_Descriptor *edd,
- const void *data_in,
- const char *cipher_key,
- int *size_ret)
+ const void *data_in,
+ const char *cipher_key,
+ int *size_ret)
{
void *ret = NULL;
void *ciphered = NULL;
ret = _eet_data_descriptor_encode(NULL, edd, data_in, &size);
if (cipher_key && ret)
{
- if (eet_cipher(ret, size, cipher_key,
- strlen(cipher_key), &ciphered, &ciphered_len))
- {
- if (ciphered) free(ciphered);
- if (size_ret) *size_ret = 0;
- free(ret);
- return NULL;
- }
- free(ret);
- size = ciphered_len;
- ret = ciphered;
+ if (eet_cipher(ret, size, cipher_key,
+ strlen(cipher_key), &ciphered, &ciphered_len))
+ {
+ if (ciphered)
+ free(ciphered);
+
+ if (size_ret)
+ *size_ret = 0;
+
+ free(ret);
+ return NULL;
+ }
+
+ free(ret);
+ size = ciphered_len;
+ ret = ciphered;
}
- if (size_ret) *size_ret = size;
+ if (size_ret)
+ *size_ret = size;
+
return ret;
}
EAPI void *
eet_data_descriptor_encode(Eet_Data_Descriptor *edd,
- const void *data_in,
- int *size_ret)
+ const void *data_in,
+ int *size_ret)
{
return eet_data_descriptor_encode_cipher(edd, data_in, NULL, size_ret);
}
Eet_Dictionary *
eet_dictionary_add(void)
{
- Eet_Dictionary *new;
+ Eet_Dictionary *new;
new = calloc(1, sizeof (Eet_Dictionary));
if (!new)
- return NULL;
+ return NULL;
memset(new->hash, -1, sizeof (int) * 256);
{
if (ed)
{
- int i;
+ int i;
for (i = 0; i < ed->count; ++i)
- if (ed->all[i].str)
- free(ed->all[i].str);
- if (ed->all) free(ed->all);
- free(ed);
+ if (ed->all[i].str)
+ free(ed->all[i].str);
+
+ if (ed->all)
+ free(ed->all);
+
+ free(ed);
}
}
static int
_eet_dictionary_lookup(Eet_Dictionary *ed, const char *string, int hash)
{
- int prev = -1;
- int current;
+ int prev = -1;
+ int current;
current = ed->hash[hash];
while (current != -1)
{
if (ed->all[current].str)
- {
- if (strcmp(ed->all[current].str, string) >= 0)
- break ;
- }
+ if (strcmp(ed->all[current].str, string) >= 0)
+ break;
+
if (ed->all[current].mmap)
- {
- if (strcmp(ed->all[current].mmap, string) >= 0)
- break ;
- }
+ if (strcmp(ed->all[current].mmap, string) >= 0)
+ break;
prev = current;
current = ed->all[current].next;
}
if (current == -1)
- return prev;
+ return prev;
return current;
}
int
eet_dictionary_string_add(Eet_Dictionary *ed, const char *string)
{
- Eet_String *current;
- char *str;
- int hash;
- int idx;
- int len;
+ Eet_String *current;
+ char *str;
+ int hash;
+ int idx;
+ int len;
if (!ed)
- return -1;
+ return -1;
hash = _eet_hash_gen(string, 8);
if (idx != -1)
{
if (ed->all[idx].str)
- {
- if (strcmp(ed->all[idx].str, string) == 0)
- return idx;
- }
+ if (strcmp(ed->all[idx].str, string) == 0)
+ return idx;
+
if (ed->all[idx].mmap)
- {
- if (strcmp(ed->all[idx].mmap, string) == 0)
- return idx;
- }
+ if (strcmp(ed->all[idx].mmap, string) == 0)
+ return idx;
+
}
if (ed->total == ed->count)
{
- Eet_String *new;
- int total;
+ Eet_String *new;
+ int total;
total = ed->total + 8;
new = realloc(ed->all, sizeof (Eet_String) * total);
if (new == NULL)
- return -1;
+ return -1;
ed->all = new;
ed->total = total;
len = strlen(string) + 1;
str = strdup(string);
if (str == NULL)
- return -1;
+ return -1;
current = ed->all + ed->count;
current->prev = ed->all[idx].prev;
if (current->next != -1)
- ed->all[current->next].prev = ed->count;
+ ed->all[current->next].prev = ed->count;
+
if (current->prev != -1)
- ed->all[current->prev].next = ed->count;
+ ed->all[current->prev].next = ed->count;
else
- ed->hash[hash] = ed->count;
+ ed->hash[hash] = ed->count;
}
return ed->count++;
int
eet_dictionary_string_get_size(const Eet_Dictionary *ed, int idx)
{
- if (!ed) return 0;
- if (idx < 0) return 0;
+ if (!ed)
+ return 0;
+
+ if (idx < 0)
+ return 0;
+
if (idx < ed->count)
- return ed->all[idx].len;
+ return ed->all[idx].len;
+
return 0;
}
int
eet_dictionary_string_get_hash(const Eet_Dictionary *ed, int idx)
{
- if (!ed) return -1;
- if (idx < 0) return -1;
+ if (!ed)
+ return -1;
+
+ if (idx < 0)
+ return -1;
+
if (idx < ed->count)
- return ed->all[idx].hash;
+ return ed->all[idx].hash;
+
return -1;
}
const char *
eet_dictionary_string_get_char(const Eet_Dictionary *ed, int idx)
{
- if (!ed) return NULL;
- if (idx < 0) return NULL;
+ if (!ed)
+ return NULL;
+
+ if (idx < 0)
+ return NULL;
+
if (idx < ed->count)
{
#ifdef _WIN32
- /* Windows file system could change the mmaped file when replacing a file. So we need to copy all string in memory to avoid bugs. */
- if (ed->all[idx].str == NULL)
- {
- ed->all[idx].str = strdup(ed->all[idx].mmap);
- ed->all[idx].mmap = NULL;
- }
+ /* Windows file system could change the mmaped file when replacing a file. So we need to copy all string in memory to avoid bugs. */
+ if (ed->all[idx].str == NULL)
+ {
+ ed->all[idx].str = strdup(ed->all[idx].mmap);
+ ed->all[idx].mmap = NULL;
+ }
+
#else
if (ed->all[idx].mmap)
- return ed->all[idx].mmap;
+ return ed->all[idx].mmap;
+
#endif
return ed->all[idx].str;
}
+
return NULL;
}
static inline Eina_Bool
-_eet_dictionary_string_get_me_cache(const char *s, int len, int *mantisse, int *exponent)
+_eet_dictionary_string_get_me_cache(const char *s,
+ int len,
+ int *mantisse,
+ int *exponent)
{
if ((len == 6) && (s[0] == '0') && (s[1] == 'x') && (s[3] == 'p'))
{
return EINA_TRUE;
}
+
return EINA_FALSE;
}
static inline Eina_Bool
_eet_dictionary_string_get_float_cache(const char *s, int len, float *result)
{
- int mantisse;
- int exponent;
+ int mantisse;
+ int exponent;
if (_eet_dictionary_string_get_me_cache(s, len, &mantisse, &exponent))
{
- if (s[4] == '+') *result = (float) (mantisse << exponent);
- else *result = (float) mantisse / (float) (1 << exponent);
+ if (s[4] == '+')
+ *result = (float)(mantisse << exponent);
+ else
+ *result = (float)mantisse / (float)(1 << exponent);
return EINA_TRUE;
}
+
return EINA_FALSE;
}
static inline Eina_Bool
_eet_dictionary_string_get_double_cache(const char *s, int len, double *result)
{
- int mantisse;
- int exponent;
+ int mantisse;
+ int exponent;
if (_eet_dictionary_string_get_me_cache(s, len, &mantisse, &exponent))
{
- if (s[4] == '+') *result = (double) (mantisse << exponent);
- else *result = (double) mantisse / (float) (1 << exponent);
+ if (s[4] == '+')
+ *result = (double)(mantisse << exponent);
+ else
+ *result = (double)mantisse / (float)(1 << exponent);
return EINA_TRUE;
}
+
return EINA_FALSE;
}
static inline Eina_Bool
_eet_dictionary_test(const Eet_Dictionary *ed, int idx, void *result)
{
- if (!result) return EINA_FALSE;
- if (!ed) return EINA_FALSE;
- if (idx < 0) return EINA_FALSE;
- if (!(idx < ed->count)) return EINA_FALSE;
+ if (!result)
+ return EINA_FALSE;
+
+ if (!ed)
+ return EINA_FALSE;
+
+ if (idx < 0)
+ return EINA_FALSE;
+
+ if (!(idx < ed->count))
+ return EINA_FALSE;
+
return EINA_TRUE;
}
Eina_Bool
-eet_dictionary_string_get_float(const Eet_Dictionary *ed, int idx, float *result)
+eet_dictionary_string_get_float(const Eet_Dictionary *ed,
+ int idx,
+ float *result)
{
- if (!_eet_dictionary_test(ed, idx, result)) return EINA_FALSE;
+ if (!_eet_dictionary_test(ed, idx, result))
+ return EINA_FALSE;
if (!(ed->all[idx].type & EET_D_FLOAT))
{
- const char *str;
+ const char *str;
- str = ed->all[idx].str ? ed->all[idx].str : ed->all[idx].mmap;
+ str = ed->all[idx].str ? ed->all[idx].str : ed->all[idx].mmap;
- if (!_eet_dictionary_string_get_float_cache(str, ed->all[idx].len, &ed->all[idx].f))
- {
- long long mantisse = 0;
- long exponent = 0;
+ if (!_eet_dictionary_string_get_float_cache(str, ed->all[idx].len,
+ &ed->all[idx].f))
+ {
+ long long mantisse = 0;
+ long exponent = 0;
- if (eina_convert_atod(str, ed->all[idx].len, &mantisse, &exponent) == EINA_FALSE)
- return EINA_FALSE;
+ if (eina_convert_atod(str, ed->all[idx].len, &mantisse,
+ &exponent) == EINA_FALSE)
+ return EINA_FALSE;
- ed->all[idx].f = ldexpf((float) mantisse, exponent);
- }
+ ed->all[idx].f = ldexpf((float)mantisse, exponent);
+ }
- ed->all[idx].type |= EET_D_FLOAT;
+ ed->all[idx].type |= EET_D_FLOAT;
}
*result = ed->all[idx].f;
}
Eina_Bool
-eet_dictionary_string_get_double(const Eet_Dictionary *ed, int idx, double *result)
+eet_dictionary_string_get_double(const Eet_Dictionary *ed,
+ int idx,
+ double *result)
{
- if (!_eet_dictionary_test(ed, idx, result)) return EINA_FALSE;
+ if (!_eet_dictionary_test(ed, idx, result))
+ return EINA_FALSE;
if (!(ed->all[idx].type & EET_D_DOUBLE))
{
- const char *str;
+ const char *str;
- str = ed->all[idx].str ? ed->all[idx].str : ed->all[idx].mmap;
+ str = ed->all[idx].str ? ed->all[idx].str : ed->all[idx].mmap;
- if (!_eet_dictionary_string_get_double_cache(str, ed->all[idx].len, &ed->all[idx].d))
- {
- long long mantisse = 0;
- long exponent = 0;
+ if (!_eet_dictionary_string_get_double_cache(str, ed->all[idx].len,
+ &ed->all[idx].d))
+ {
+ long long mantisse = 0;
+ long exponent = 0;
- if (eina_convert_atod(str, ed->all[idx].len, &mantisse, &exponent) == EINA_FALSE)
- return EINA_FALSE;
+ if (eina_convert_atod(str, ed->all[idx].len, &mantisse,
+ &exponent) == EINA_FALSE)
+ return EINA_FALSE;
- ed->all[idx].d = ldexp((double) mantisse, exponent);
- }
+ ed->all[idx].d = ldexp((double)mantisse, exponent);
+ }
- ed->all[idx].type |= EET_D_DOUBLE;
+ ed->all[idx].type |= EET_D_DOUBLE;
}
*result = ed->all[idx].d;
}
Eina_Bool
-eet_dictionary_string_get_fp(const Eet_Dictionary *ed, int idx, Eina_F32p32 *result)
+eet_dictionary_string_get_fp(const Eet_Dictionary *ed,
+ int idx,
+ Eina_F32p32 *result)
{
- if (!_eet_dictionary_test(ed, idx, result)) return EINA_FALSE;
+ if (!_eet_dictionary_test(ed, idx, result))
+ return EINA_FALSE;
if (!(ed->all[idx].type & EET_D_FIXED_POINT))
{
- const char *str;
- Eina_F32p32 fp;
+ const char *str;
+ Eina_F32p32 fp;
- str = ed->all[idx].str ? ed->all[idx].str : ed->all[idx].mmap;
+ str = ed->all[idx].str ? ed->all[idx].str : ed->all[idx].mmap;
- if (!eina_convert_atofp(str, ed->all[idx].len, &fp))
- return EINA_FALSE;
+ if (!eina_convert_atofp(str, ed->all[idx].len, &fp))
+ return EINA_FALSE;
- ed->all[idx].fp = fp;
- ed->all[idx].type |= EET_D_FIXED_POINT;
+ ed->all[idx].fp = fp;
+ ed->all[idx].type |= EET_D_FIXED_POINT;
}
*result = ed->all[idx].fp;
EAPI int
eet_dictionary_string_check(Eet_Dictionary *ed, const char *string)
{
- int i;
+ int i;
if (ed == NULL
|| string == NULL)
- return 0;
+ return 0;
if (ed->start <= string
&& string < ed->end)
- return 1;
+ return 1;
for (i = 0; i < ed->count; ++i)
- if (ed->all[i].str == string)
- return 1;
+ if (ed->all[i].str == string)
+ return 1;
return 0;
}
/*---*/
-typedef struct _JPEG_error_mgr *emptr;
+typedef struct _JPEG_error_mgr *emptr;
/*---*/
jmp_buf setjmp_buffer;
};
-struct jpeg_membuf_src {
+struct jpeg_membuf_src
+{
struct jpeg_source_mgr pub;
const unsigned char *buf;
_eet_jpeg_membuf_src_init(j_decompress_ptr cinfo)
{
/* FIXME: Use attribute unused */
- (void) cinfo;
+ (void)cinfo;
}
static boolean
static void
_eet_jpeg_membuf_src_term(j_decompress_ptr cinfo)
{
- free(cinfo->src);
+ free(cinfo->src);
cinfo->src = NULL;
}
struct jpeg_membuf_src *src;
src = malloc(sizeof(*src));
- if (!src) return -1;
+ if (!src)
+ return -1;
cinfo->src = &src->pub;
src->buf = buf;
return 0;
}
-struct jpeg_membuf_dst {
+struct jpeg_membuf_dst
+{
struct jpeg_destination_mgr pub;
void **dst_buf;
_eet_jpeg_membuf_dst_init(j_compress_ptr cinfo)
{
/* FIXME: Use eina attribute */
- (void) cinfo;
+ (void)cinfo;
}
static boolean
unsigned char *buf;
if (dst->len >= 0x40000000 ||
- (buf = realloc(dst->buf, dst->len * 2)) == NULL) {
- dst->failed = 1;
- dst->pub.next_output_byte = dst->buf;
- dst->pub.free_in_buffer = dst->len;
- return TRUE;
- }
+ (buf = realloc(dst->buf, dst->len * 2)) == NULL)
+ {
+ dst->failed = 1;
+ dst->pub.next_output_byte = dst->buf;
+ dst->pub.free_in_buffer = dst->len;
+ return TRUE;
+ }
dst->pub.next_output_byte =
- buf + ((unsigned char *)dst->pub.next_output_byte - dst->buf);
+ buf + ((unsigned char *)dst->pub.next_output_byte - dst->buf);
dst->buf = buf;
dst->pub.free_in_buffer += dst->len;
dst->len *= 2;
{
struct jpeg_membuf_dst *dst = (struct jpeg_membuf_dst *)cinfo->dest;
- if (dst->failed) {
- *dst->dst_buf = NULL;
- *dst->dst_len = 0;
- free(dst->buf);
- } else {
- *dst->dst_buf = dst->buf;
- *dst->dst_len = (unsigned char *)dst->pub.next_output_byte - dst->buf;
- }
- free(dst);
+ if (dst->failed)
+ {
+ *dst->dst_buf = NULL;
+ *dst->dst_len = 0;
+ free(dst->buf);
+ }
+ else
+ {
+ *dst->dst_buf = dst->buf;
+ *dst->dst_len = (unsigned char *)dst->pub.next_output_byte - dst->buf;
+ }
+
+ free(dst);
cinfo->dest = NULL;
}
struct jpeg_membuf_dst *dst;
dst = malloc(sizeof(*dst));
- if (!dst) return -1;
+ if (!dst)
+ return -1;
dst->buf = malloc(32768);
- if (!dst->buf) {
- free(dst);
- return -1;
- }
+ if (!dst->buf)
+ {
+ free(dst);
+ return -1;
+ }
+
dst->len = 32768;
cinfo->dest = &dst->pub;
static void _JPEGErrorHandler(j_common_ptr cinfo);
static void _JPEGErrorHandler2(j_common_ptr cinfo, int msg_level);
-static int eet_data_image_jpeg_header_decode(const void *data, int size, unsigned int *w, unsigned int *h);
-static int eet_data_image_jpeg_rgb_decode(const void *data, int size, unsigned int src_x, unsigned int src_y, unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride);
-static void *eet_data_image_jpeg_alpha_decode(const void *data, int size, unsigned int src_x, unsigned int src_y, unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride);
-static void *eet_data_image_lossless_convert(int *size, const void *data, unsigned int w, unsigned int h, int alpha);
-static void *eet_data_image_lossless_compressed_convert(int *size, const void *data, unsigned int w, unsigned int h, int alpha, int compression);
-static void *eet_data_image_jpeg_convert(int *size, const void *data, unsigned int w, unsigned int h, int alpha, int quality);
-static void *eet_data_image_jpeg_alpha_convert(int *size, const void *data, unsigned int w, unsigned int h, int alpha, int quality);
+static int eet_data_image_jpeg_header_decode(const void *data,
+ int size,
+ unsigned int *w,
+ unsigned int *h);
+static int eet_data_image_jpeg_rgb_decode(const void *data,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride);
+static void *eet_data_image_jpeg_alpha_decode(const void *data,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride);
+static void *eet_data_image_lossless_convert(int *size,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha);
+static void *eet_data_image_lossless_compressed_convert(int *size,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int compression);
+static void *eet_data_image_jpeg_convert(int *size,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int quality);
+static void *eet_data_image_jpeg_alpha_convert(int *size,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int quality);
/*---*/
/*---*/
#define SWAP64(x) (x) = \
- ((((unsigned long long)(x) & 0x00000000000000ffULL ) << 56) |\
- (((unsigned long long)(x) & 0x000000000000ff00ULL ) << 40) |\
- (((unsigned long long)(x) & 0x0000000000ff0000ULL ) << 24) |\
- (((unsigned long long)(x) & 0x00000000ff000000ULL ) << 8) |\
- (((unsigned long long)(x) & 0x000000ff00000000ULL ) >> 8) |\
- (((unsigned long long)(x) & 0x0000ff0000000000ULL ) >> 24) |\
- (((unsigned long long)(x) & 0x00ff000000000000ULL ) >> 40) |\
- (((unsigned long long)(x) & 0xff00000000000000ULL ) >> 56))
+ ((((unsigned long long)(x) & 0x00000000000000ffULL) << 56) | \
+ (((unsigned long long)(x) & 0x000000000000ff00ULL) << 40) | \
+ (((unsigned long long)(x) & 0x0000000000ff0000ULL) << 24) | \
+ (((unsigned long long)(x) & 0x00000000ff000000ULL) << 8) | \
+ (((unsigned long long)(x) & 0x000000ff00000000ULL) >> 8) | \
+ (((unsigned long long)(x) & 0x0000ff0000000000ULL) >> 24) | \
+ (((unsigned long long)(x) & 0x00ff000000000000ULL) >> 40) | \
+ (((unsigned long long)(x) & 0xff00000000000000ULL) >> 56))
#define SWAP32(x) (x) = \
- ((((int)(x) & 0x000000ff ) << 24) |\
- (((int)(x) & 0x0000ff00 ) << 8) |\
- (((int)(x) & 0x00ff0000 ) >> 8) |\
- (((int)(x) & 0xff000000 ) >> 24))
+ ((((int)(x) & 0x000000ff) << 24) | \
+ (((int)(x) & 0x0000ff00) << 8) | \
+ (((int)(x) & 0x00ff0000) >> 8) | \
+ (((int)(x) & 0xff000000) >> 24))
#define SWAP16(x) (x) = \
- ((((short)(x) & 0x00ff ) << 8) |\
- (((short)(x) & 0xff00 ) >> 8))
+ ((((short)(x) & 0x00ff) << 8) | \
+ (((short)(x) & 0xff00) >> 8))
#ifdef CONV8
# undef CONV8
#endif
#define CONV8(x)
-#define CONV16(x) {if (_eet_image_words_bigendian) SWAP16(x);}
-#define CONV32(x) {if (_eet_image_words_bigendian) SWAP32(x);}
-#define CONV64(x) {if (_eet_image_words_bigendian) SWAP64(x);}
+#define CONV16(x) {if (_eet_image_words_bigendian) {SWAP16(x); }}
+#define CONV32(x) {if (_eet_image_words_bigendian) {SWAP32(x); }}
+#define CONV64(x) {if (_eet_image_words_bigendian) {SWAP64(x); }}
/*---*/
{
emptr errmgr;
- errmgr = (emptr) cinfo->err;
+ errmgr = (emptr)cinfo->err;
/* cinfo->err->output_message(cinfo);*/
longjmp(errmgr->setjmp_buffer, 1);
return;
}
static int
-eet_data_image_jpeg_header_decode(const void *data, int size, unsigned int *w, unsigned int *h)
+eet_data_image_jpeg_header_decode(const void *data,
+ int size,
+ unsigned int *w,
+ unsigned int *h)
{
struct jpeg_decompress_struct cinfo;
struct _JPEG_error_mgr jerr;
jerr.pub.error_exit = _JPEGFatalErrorHandler;
jerr.pub.emit_message = _JPEGErrorHandler2;
jerr.pub.output_message = _JPEGErrorHandler;
- if (setjmp(jerr.setjmp_buffer)) return 0;
+ if (setjmp(jerr.setjmp_buffer))
+ return 0;
+
jpeg_create_decompress(&cinfo);
if (eet_jpeg_membuf_src(&cinfo, data, (size_t)size))
{
- jpeg_destroy_decompress(&cinfo);
- return 0;
+ jpeg_destroy_decompress(&cinfo);
+ return 0;
}
jpeg_read_header(&cinfo, TRUE);
if ((*w < 1) || (*h < 1) || (*w > 8192) || (*h > 8192))
return 0;
+
return 1;
}
static int
-eet_data_image_jpeg_rgb_decode(const void *data, int size, unsigned int src_x, unsigned int src_y,
- unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride)
+eet_data_image_jpeg_rgb_decode(const void *data,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride)
{
struct jpeg_decompress_struct cinfo;
struct _JPEG_error_mgr jerr;
unsigned int i;
/* FIXME: handle src_x, src_y and row_stride correctly */
- if (!d) return 0;
+ if (!d)
+ return 0;
memset(&cinfo, 0, sizeof (struct jpeg_decompress_struct));
jerr.pub.error_exit = _JPEGFatalErrorHandler;
jerr.pub.emit_message = _JPEGErrorHandler2;
jerr.pub.output_message = _JPEGErrorHandler;
- if (setjmp(jerr.setjmp_buffer)) return 0;
+ if (setjmp(jerr.setjmp_buffer))
+ return 0;
+
jpeg_create_decompress(&cinfo);
if (eet_jpeg_membuf_src(&cinfo, data, (size_t)size))
{
- jpeg_destroy_decompress(&cinfo);
- return 0;
+ jpeg_destroy_decompress(&cinfo);
+ return 0;
}
jpeg_read_header(&cinfo, TRUE);
ih = cinfo.output_height;
if ((iw != w) || (ih != h))
{
- free(cinfo.src);
- cinfo.src = NULL;
+ free(cinfo.src);
+ cinfo.src = NULL;
- jpeg_destroy_decompress(&cinfo);
- return 0;
+ jpeg_destroy_decompress(&cinfo);
+ return 0;
}
+
/* end head decoding */
/* data decoding */
if (cinfo.rec_outbuf_height > 16)
{
- free(cinfo.src);
- cinfo.src = NULL;
+ free(cinfo.src);
+ cinfo.src = NULL;
- jpeg_destroy_decompress(&cinfo);
- return 0;
+ jpeg_destroy_decompress(&cinfo);
+ return 0;
}
+
tdata = alloca((iw) * 16 * 3);
ptr2 = d;
if (cinfo.output_components == 3)
{
- for (i = 0; i < (unsigned int) cinfo.rec_outbuf_height; i++)
- line[i] = tdata + (i * (iw) * 3);
- for (l = 0; l < ih; l += cinfo.rec_outbuf_height)
- {
- jpeg_read_scanlines(&cinfo, line, cinfo.rec_outbuf_height);
- scans = cinfo.rec_outbuf_height;
- if ((ih - l) < scans) scans = ih - l;
- ptr = tdata;
-
- if (l + scans >= src_y && l < src_y + h)
- {
- y = src_y - l;
- if (src_y < l) y = 0;
- for (ptr += 3 * iw * y; y < scans && (y + l) < (src_y + h); y++)
- {
- tmp = ptr2;
- ptr += 3 * src_x;
- for (x = 0; x < w; x++)
- {
- *ptr2 =
- (0xff000000) | ((ptr[0]) << 16) | ((ptr[1]) << 8) | (ptr[2]);
- ptr += 3;
- ptr2++;
- }
- ptr += 3 * (iw - w);
- ptr2 = tmp + row_stride / 4;
- }
- }
- }
+ for (i = 0; i < (unsigned int)cinfo.rec_outbuf_height; i++)
+ line[i] = tdata + (i * (iw) * 3);
+ for (l = 0; l < ih; l += cinfo.rec_outbuf_height)
+ {
+ jpeg_read_scanlines(&cinfo, line, cinfo.rec_outbuf_height);
+ scans = cinfo.rec_outbuf_height;
+ if ((ih - l) < scans)
+ scans = ih - l;
+
+ ptr = tdata;
+
+ if (l + scans >= src_y && l < src_y + h)
+ {
+ y = src_y - l;
+ if (src_y < l)
+ y = 0;
+
+ for (ptr += 3 * iw * y; y < scans && (y + l) < (src_y + h);
+ y++)
+ {
+ tmp = ptr2;
+ ptr += 3 * src_x;
+ for (x = 0; x < w; x++)
+ {
+ *ptr2 =
+ (0xff000000) |
+ ((ptr[0]) << 16) | ((ptr[1]) << 8) | (ptr[2]);
+ ptr += 3;
+ ptr2++;
+ }
+ ptr += 3 * (iw - w);
+ ptr2 = tmp + row_stride / 4;
+ }
+ }
+ }
}
else if (cinfo.output_components == 1)
{
- for (i = 0; i < (unsigned int) cinfo.rec_outbuf_height; i++)
- line[i] = tdata + (i * (iw));
- for (l = 0; l < (ih); l += cinfo.rec_outbuf_height)
- {
- jpeg_read_scanlines(&cinfo, line, cinfo.rec_outbuf_height);
- scans = cinfo.rec_outbuf_height;
- if (((ih) - l) < scans) scans = (ih) - l;
- ptr = tdata;
-
- if (l >= src_y && l < src_y + h)
- {
- y = src_y - l;
- if (src_y < l) y = 0;
- for (ptr += iw * y; y < scans && (y + l) < (src_y + h); y++)
- {
- tmp = ptr2;
- ptr += src_x;
- for (x = 0; x < w; x++)
- {
- *ptr2 =
- (0xff000000) | ((ptr[0]) << 16) | ((ptr[0]) << 8) | (ptr[0]);
- ptr++;
- ptr2++;
- }
- ptr += iw - w;
- ptr2 = tmp + row_stride / 4;
- }
- }
- }
+ for (i = 0; i < (unsigned int)cinfo.rec_outbuf_height; i++)
+ line[i] = tdata + (i * (iw));
+ for (l = 0; l < (ih); l += cinfo.rec_outbuf_height)
+ {
+ jpeg_read_scanlines(&cinfo, line, cinfo.rec_outbuf_height);
+ scans = cinfo.rec_outbuf_height;
+ if (((ih) - l) < scans)
+ scans = (ih) - l;
+
+ ptr = tdata;
+
+ if (l >= src_y && l < src_y + h)
+ {
+ y = src_y - l;
+ if (src_y < l)
+ y = 0;
+
+ for (ptr += iw * y; y < scans && (y + l) < (src_y + h); y++)
+ {
+ tmp = ptr2;
+ ptr += src_x;
+ for (x = 0; x < w; x++)
+ {
+ *ptr2 =
+ (0xff000000) |
+ ((ptr[0]) << 16) | ((ptr[0]) << 8) | (ptr[0]);
+ ptr++;
+ ptr2++;
+ }
+ ptr += iw - w;
+ ptr2 = tmp + row_stride / 4;
+ }
+ }
+ }
}
+
/* end data decoding */
jpeg_finish_decompress(&cinfo);
jpeg_destroy_decompress(&cinfo);
}
static void *
-eet_data_image_jpeg_alpha_decode(const void *data, int size, unsigned int src_x, unsigned int src_y,
- unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride)
+eet_data_image_jpeg_alpha_decode(const void *data,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride)
{
struct jpeg_decompress_struct cinfo;
struct _JPEG_error_mgr jerr;
jerr.pub.error_exit = _JPEGFatalErrorHandler;
jerr.pub.emit_message = _JPEGErrorHandler2;
jerr.pub.output_message = _JPEGErrorHandler;
- if (setjmp(jerr.setjmp_buffer)) return NULL;
+ if (setjmp(jerr.setjmp_buffer))
+ return NULL;
+
jpeg_create_decompress(&cinfo);
if (eet_jpeg_membuf_src(&cinfo, data, (size_t)size))
{
- jpeg_destroy_decompress(&cinfo);
- return NULL;
+ jpeg_destroy_decompress(&cinfo);
+ return NULL;
}
jpeg_read_header(&cinfo, TRUE);
if (w != cinfo.output_width
|| h != cinfo.output_height)
{
- free(cinfo.src);
- cinfo.src = NULL;
+ free(cinfo.src);
+ cinfo.src = NULL;
- jpeg_destroy_decompress(&cinfo);
- return NULL;
+ jpeg_destroy_decompress(&cinfo);
+ return NULL;
}
+
/* end head decoding */
/* data decoding */
if (cinfo.rec_outbuf_height > 16)
{
- free(cinfo.src);
- cinfo.src = NULL;
+ free(cinfo.src);
+ cinfo.src = NULL;
- jpeg_destroy_decompress(&cinfo);
- return NULL;
+ jpeg_destroy_decompress(&cinfo);
+ return NULL;
}
+
tdata = alloca(w * 16 * 3);
ptr2 = d;
if (cinfo.output_components == 1)
{
- for (i = 0; i < (unsigned int) cinfo.rec_outbuf_height; i++)
- line[i] = tdata + (i * w);
- for (l = 0; l < h; l += cinfo.rec_outbuf_height)
- {
- jpeg_read_scanlines(&cinfo, line, cinfo.rec_outbuf_height);
- scans = cinfo.rec_outbuf_height;
- if ((h - l) < scans) scans = h - l;
- ptr = tdata;
-
- if (l >= src_y && l < src_y + h)
- {
- y = src_y - l;
- if (src_y < l) y = 0;
- for (ptr += iw * y; y < scans && (y + l) < (src_y + h); y++)
- {
- tmp = ptr2;
- ptr += src_x;
- for (x = 0; x < w; x++)
- {
- *ptr2 =
- ((*ptr2) & 0x00ffffff) |
- ((ptr[0]) << 24);
- ptr++;
- ptr2++;
- }
- ptr += iw - w;
- ptr2 = tmp + row_stride / 4;
- }
- }
- }
+ for (i = 0; i < (unsigned int)cinfo.rec_outbuf_height; i++)
+ line[i] = tdata + (i * w);
+ for (l = 0; l < h; l += cinfo.rec_outbuf_height)
+ {
+ jpeg_read_scanlines(&cinfo, line, cinfo.rec_outbuf_height);
+ scans = cinfo.rec_outbuf_height;
+ if ((h - l) < scans)
+ scans = h - l;
+
+ ptr = tdata;
+
+ if (l >= src_y && l < src_y + h)
+ {
+ y = src_y - l;
+ if (src_y < l)
+ y = 0;
+
+ for (ptr += iw * y; y < scans && (y + l) < (src_y + h); y++)
+ {
+ tmp = ptr2;
+ ptr += src_x;
+ for (x = 0; x < w; x++)
+ {
+ *ptr2 =
+ ((*ptr2) & 0x00ffffff) |
+ ((ptr[0]) << 24);
+ ptr++;
+ ptr2++;
+ }
+ ptr += iw - w;
+ ptr2 = tmp + row_stride / 4;
+ }
+ }
+ }
}
+
/* end data decoding */
jpeg_finish_decompress(&cinfo);
jpeg_destroy_decompress(&cinfo);
}
static void *
-eet_data_image_lossless_convert(int *size, const void *data, unsigned int w, unsigned int h, int alpha)
+eet_data_image_lossless_convert(int *size,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha)
{
if (_eet_image_words_bigendian == -1)
{
- unsigned long int v;
+ unsigned long int v;
- v = htonl(0x12345678);
- if (v == 0x12345678) _eet_image_words_bigendian = 1;
- else _eet_image_words_bigendian = 0;
+ v = htonl(0x12345678);
+ if (v == 0x12345678)
+ _eet_image_words_bigendian = 1;
+ else
+ _eet_image_words_bigendian = 0;
}
- {
- unsigned char *d;
- int *header;
- d = malloc((w * h * 4) + (8 * 4));
- if (!d) return NULL;
+ {
+ unsigned char *d;
+ int *header;
- header = (int *)d;
- memset(d, 0, 32);
+ d = malloc((w * h * 4) + (8 * 4));
+ if (!d)
+ return NULL;
- header[0] = 0xac1dfeed;
- header[1] = w;
- header[2] = h;
- header[3] = alpha;
+ header = (int *)d;
+ memset(d, 0, 32);
- memcpy(d + 32, data, w * h * 4);
+ header[0] = 0xac1dfeed;
+ header[1] = w;
+ header[2] = h;
+ header[3] = alpha;
- if (_eet_image_words_bigendian)
- {
- unsigned int i;
+ memcpy(d + 32, data, w * h * 4);
- for (i = 0; i < ((w * h) + 8); i++) SWAP32(header[i]);
- }
- *size = ((w * h * 4) + (8 * 4));
- return d;
- }
+ if (_eet_image_words_bigendian)
+ {
+ unsigned int i;
+
+ for (i = 0; i < ((w * h) + 8); i++) SWAP32(header[i]);
+ }
+
+ *size = ((w * h * 4) + (8 * 4));
+ return d;
+ }
}
static void *
-eet_data_image_lossless_compressed_convert(int *size, const void *data, unsigned int w, unsigned int h, int alpha, int compression)
+eet_data_image_lossless_compressed_convert(int *size,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int compression)
{
if (_eet_image_words_bigendian == -1)
{
- unsigned long int v;
+ unsigned long int v;
- v = htonl(0x12345678);
- if (v == 0x12345678) _eet_image_words_bigendian = 1;
- else _eet_image_words_bigendian = 0;
+ v = htonl(0x12345678);
+ if (v == 0x12345678)
+ _eet_image_words_bigendian = 1;
+ else
+ _eet_image_words_bigendian = 0;
}
- {
- unsigned char *d;
- unsigned char *comp;
- int *header;
- int ret;
- uLongf buflen;
-
- d = malloc((w * h * 4) + (8 * 4));
- if (!d) return NULL;
- buflen = (((w * h * 101) / 100) + 3) * 4;
- comp = malloc(buflen);
- if (!comp)
- {
- free(d);
- return NULL;
- }
- header = (int *)d;
- memset(d, 0, 32);
-
- header[0] = 0xac1dfeed;
- header[1] = w;
- header[2] = h;
- header[3] = alpha;
- header[4] = compression;
- memcpy(d + 32, data, w * h * 4);
-
- if (_eet_image_words_bigendian)
- {
- unsigned int i;
-
- for (i = 0; i < ((w * h) + 8); i++) SWAP32(header[i]);
- }
- ret = compress2((Bytef *)comp, &buflen,
- (Bytef *)(d + 32),
- (uLong)(w * h * 4),
- compression);
- if (ret != Z_OK || buflen > (w * h * 4))
- {
- free(comp);
- free(d);
- *size = -1;
- return NULL;
- }
- memcpy(d + 32, comp, buflen);
- *size = (8 * 4) + buflen;
- free(comp);
- return d;
- }
+ {
+ unsigned char *d;
+ unsigned char *comp;
+ int *header;
+ int ret;
+ uLongf buflen;
+
+ d = malloc((w * h * 4) + (8 * 4));
+ if (!d)
+ return NULL;
+
+ buflen = (((w * h * 101) / 100) + 3) * 4;
+ comp = malloc(buflen);
+ if (!comp)
+ {
+ free(d);
+ return NULL;
+ }
+
+ header = (int *)d;
+ memset(d, 0, 32);
+
+ header[0] = 0xac1dfeed;
+ header[1] = w;
+ header[2] = h;
+ header[3] = alpha;
+ header[4] = compression;
+ memcpy(d + 32, data, w * h * 4);
+
+ if (_eet_image_words_bigendian)
+ {
+ unsigned int i;
+
+ for (i = 0; i < ((w * h) + 8); i++) SWAP32(header[i]);
+ }
+
+ ret = compress2((Bytef *)comp, &buflen,
+ (Bytef *)(d + 32),
+ (uLong)(w * h * 4),
+ compression);
+ if (ret != Z_OK || buflen > (w * h * 4))
+ {
+ free(comp);
+ free(d);
+ *size = -1;
+ return NULL;
+ }
+
+ memcpy(d + 32, comp, buflen);
+ *size = (8 * 4) + buflen;
+ free(comp);
+ return d;
+ }
}
static void *
-eet_data_image_jpeg_convert(int *size, const void *data, unsigned int w, unsigned int h, int alpha, int quality)
+eet_data_image_jpeg_convert(int *size,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int quality)
{
struct jpeg_compress_struct cinfo;
struct _JPEG_error_mgr jerr;
JSAMPROW *jbuf;
unsigned char *buf;
- (void) alpha; /* unused */
+ (void)alpha; /* unused */
buf = alloca(3 * w);
jerr.pub.error_exit = _JPEGFatalErrorHandler;
jerr.pub.emit_message = _JPEGErrorHandler2;
jerr.pub.output_message = _JPEGErrorHandler;
- if (setjmp(jerr.setjmp_buffer)) return NULL;
+ if (setjmp(jerr.setjmp_buffer))
+ return NULL;
+
jpeg_create_compress(&cinfo);
if (eet_jpeg_membuf_dst(&cinfo, &d, &sz))
{
- jpeg_destroy_compress(&cinfo);
- return NULL;
+ jpeg_destroy_compress(&cinfo);
+ return NULL;
}
cinfo.image_width = w;
jpeg_set_quality(&cinfo, quality, TRUE);
if (quality >= 90)
{
- cinfo.comp_info[0].h_samp_factor = 1;
- cinfo.comp_info[0].v_samp_factor = 1;
- cinfo.comp_info[1].h_samp_factor = 1;
- cinfo.comp_info[1].v_samp_factor = 1;
- cinfo.comp_info[2].h_samp_factor = 1;
- cinfo.comp_info[2].v_samp_factor = 1;
+ cinfo.comp_info[0].h_samp_factor = 1;
+ cinfo.comp_info[0].v_samp_factor = 1;
+ cinfo.comp_info[1].h_samp_factor = 1;
+ cinfo.comp_info[1].v_samp_factor = 1;
+ cinfo.comp_info[2].h_samp_factor = 1;
+ cinfo.comp_info[2].v_samp_factor = 1;
}
+
jpeg_start_compress(&cinfo, TRUE);
while (cinfo.next_scanline < cinfo.image_height)
{
- unsigned int i, j;
-
- /* convert scaline from ARGB to RGB packed */
- ptr = ((const int*) data) + cinfo.next_scanline * w;
- for (j = 0, i = 0; i < w; i++)
- {
- buf[j++] = ((*ptr) >> 16) & 0xff;
- buf[j++] = ((*ptr) >> 8) & 0xff;
- buf[j++] = ((*ptr)) & 0xff;
- ptr++;
- }
- jbuf = (JSAMPROW *) (&buf);
- jpeg_write_scanlines(&cinfo, jbuf, 1);
+ unsigned int i, j;
+
+ /* convert scaline from ARGB to RGB packed */
+ ptr = ((const int *)data) + cinfo.next_scanline * w;
+ for (j = 0, i = 0; i < w; i++)
+ {
+ buf[j++] = ((*ptr) >> 16) & 0xff;
+ buf[j++] = ((*ptr) >> 8) & 0xff;
+ buf[j++] = ((*ptr)) & 0xff;
+ ptr++;
+ }
+ jbuf = (JSAMPROW *)(&buf);
+ jpeg_write_scanlines(&cinfo, jbuf, 1);
}
jpeg_finish_compress(&cinfo);
}
static void *
-eet_data_image_jpeg_alpha_convert(int *size, const void *data, unsigned int w, unsigned int h, int alpha, int quality)
+eet_data_image_jpeg_alpha_convert(int *size,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int quality)
{
unsigned char *d1, *d2;
unsigned char *d;
int *header;
int sz1, sz2;
- (void) alpha; /* unused */
+ (void)alpha; /* unused */
if (_eet_image_words_bigendian == -1)
{
- unsigned long int v;
+ unsigned long int v;
- v = htonl(0x12345678);
- if (v == 0x12345678) _eet_image_words_bigendian = 1;
- else _eet_image_words_bigendian = 0;
+ v = htonl(0x12345678);
+ if (v == 0x12345678)
+ _eet_image_words_bigendian = 1;
+ else
+ _eet_image_words_bigendian = 0;
}
- {
- const int *ptr;
- void *dst = NULL;
- size_t sz = 0;
- struct _JPEG_error_mgr jerr;
- JSAMPROW *jbuf;
- struct jpeg_compress_struct cinfo;
- unsigned char *buf;
-
- buf = alloca(3 * w);
-
- cinfo.err = jpeg_std_error(&(jerr.pub));
- jerr.pub.error_exit = _JPEGFatalErrorHandler;
- jerr.pub.emit_message = _JPEGErrorHandler2;
- jerr.pub.output_message = _JPEGErrorHandler;
- if (setjmp(jerr.setjmp_buffer)) return NULL;
-
- jpeg_create_compress(&cinfo);
- if (eet_jpeg_membuf_dst(&cinfo, &dst, &sz))
- {
- jpeg_destroy_compress(&cinfo);
- return NULL;
- }
-
- cinfo.image_width = w;
- cinfo.image_height = h;
- cinfo.input_components = 3;
- cinfo.in_color_space = JCS_RGB;
- jpeg_set_defaults(&cinfo);
- jpeg_set_quality(&cinfo, quality, TRUE);
- if (quality >= 90)
- {
- cinfo.comp_info[0].h_samp_factor = 1;
- cinfo.comp_info[0].v_samp_factor = 1;
- cinfo.comp_info[1].h_samp_factor = 1;
- cinfo.comp_info[1].v_samp_factor = 1;
- cinfo.comp_info[2].h_samp_factor = 1;
- cinfo.comp_info[2].v_samp_factor = 1;
- }
- jpeg_start_compress(&cinfo, TRUE);
-
- while (cinfo.next_scanline < cinfo.image_height)
- {
- unsigned int i, j;
-
- ptr = ((const int*) data) + cinfo.next_scanline * w;
- /* convert scaline from ARGB to RGB packed */
- for (j = 0, i = 0; i < w; i++)
- {
- buf[j++] = ((*ptr) >> 16) & 0xff;
- buf[j++] = ((*ptr) >> 8) & 0xff;
- buf[j++] = ((*ptr)) & 0xff;
- ptr++;
- }
- jbuf = (JSAMPROW *) (&buf);
- jpeg_write_scanlines(&cinfo, jbuf, 1);
- }
-
- jpeg_finish_compress(&cinfo);
- jpeg_destroy_compress(&cinfo);
-
- d1 = dst;
- sz1 = sz;
- }
- {
- const int *ptr;
- void *dst = NULL;
- size_t sz = 0;
- struct _JPEG_error_mgr jerr;
- JSAMPROW *jbuf;
- struct jpeg_compress_struct cinfo;
- unsigned char *buf;
-
- buf = alloca(3 * w);
-
- cinfo.err = jpeg_std_error(&(jerr.pub));
- jerr.pub.error_exit = _JPEGFatalErrorHandler;
- jerr.pub.emit_message = _JPEGErrorHandler2;
- jerr.pub.output_message = _JPEGErrorHandler;
- if (setjmp(jerr.setjmp_buffer))
- {
- free(d1);
- return NULL;
- }
-
- jpeg_create_compress(&cinfo);
- if (eet_jpeg_membuf_dst(&cinfo, &dst, &sz))
- {
- jpeg_destroy_compress(&cinfo);
- free(d1);
- return NULL;
- }
-
- cinfo.image_width = w;
- cinfo.image_height = h;
- cinfo.input_components = 1;
- cinfo.in_color_space = JCS_GRAYSCALE;
- jpeg_set_defaults(&cinfo);
- jpeg_set_quality(&cinfo, quality, TRUE);
- if (quality >= 90)
- {
- cinfo.comp_info[0].h_samp_factor = 1;
- cinfo.comp_info[0].v_samp_factor = 1;
- cinfo.comp_info[1].h_samp_factor = 1;
- cinfo.comp_info[1].v_samp_factor = 1;
- cinfo.comp_info[2].h_samp_factor = 1;
- cinfo.comp_info[2].v_samp_factor = 1;
- }
- jpeg_start_compress(&cinfo, TRUE);
-
- while (cinfo.next_scanline < cinfo.image_height)
- {
- unsigned int i, j;
-
- ptr = ((const int*) data) + cinfo.next_scanline * w;
- /* convert scaline from ARGB to RGB packed */
- for (j = 0, i = 0; i < w; i++)
- {
- buf[j++] = ((*ptr) >> 24) & 0xff;
- ptr++;
- }
- jbuf = (JSAMPROW *) (&buf);
- jpeg_write_scanlines(&cinfo, jbuf, 1);
- }
-
- jpeg_finish_compress(&cinfo);
- jpeg_destroy_compress(&cinfo);
-
- d2 = dst;
- sz2 = sz;
- }
+ {
+ const int *ptr;
+ void *dst = NULL;
+ size_t sz = 0;
+ struct _JPEG_error_mgr jerr;
+ JSAMPROW *jbuf;
+ struct jpeg_compress_struct cinfo;
+ unsigned char *buf;
+
+ buf = alloca(3 * w);
+
+ cinfo.err = jpeg_std_error(&(jerr.pub));
+ jerr.pub.error_exit = _JPEGFatalErrorHandler;
+ jerr.pub.emit_message = _JPEGErrorHandler2;
+ jerr.pub.output_message = _JPEGErrorHandler;
+ if (setjmp(jerr.setjmp_buffer))
+ return NULL;
+
+ jpeg_create_compress(&cinfo);
+ if (eet_jpeg_membuf_dst(&cinfo, &dst, &sz))
+ {
+ jpeg_destroy_compress(&cinfo);
+ return NULL;
+ }
+
+ cinfo.image_width = w;
+ cinfo.image_height = h;
+ cinfo.input_components = 3;
+ cinfo.in_color_space = JCS_RGB;
+ jpeg_set_defaults(&cinfo);
+ jpeg_set_quality(&cinfo, quality, TRUE);
+ if (quality >= 90)
+ {
+ cinfo.comp_info[0].h_samp_factor = 1;
+ cinfo.comp_info[0].v_samp_factor = 1;
+ cinfo.comp_info[1].h_samp_factor = 1;
+ cinfo.comp_info[1].v_samp_factor = 1;
+ cinfo.comp_info[2].h_samp_factor = 1;
+ cinfo.comp_info[2].v_samp_factor = 1;
+ }
+
+ jpeg_start_compress(&cinfo, TRUE);
+
+ while (cinfo.next_scanline < cinfo.image_height)
+ {
+ unsigned int i, j;
+
+ ptr = ((const int *)data) + cinfo.next_scanline * w;
+ /* convert scaline from ARGB to RGB packed */
+ for (j = 0, i = 0; i < w; i++)
+ {
+ buf[j++] = ((*ptr) >> 16) & 0xff;
+ buf[j++] = ((*ptr) >> 8) & 0xff;
+ buf[j++] = ((*ptr)) & 0xff;
+ ptr++;
+ }
+ jbuf = (JSAMPROW *)(&buf);
+ jpeg_write_scanlines(&cinfo, jbuf, 1);
+ }
+
+ jpeg_finish_compress(&cinfo);
+ jpeg_destroy_compress(&cinfo);
+
+ d1 = dst;
+ sz1 = sz;
+ }
+ {
+ const int *ptr;
+ void *dst = NULL;
+ size_t sz = 0;
+ struct _JPEG_error_mgr jerr;
+ JSAMPROW *jbuf;
+ struct jpeg_compress_struct cinfo;
+ unsigned char *buf;
+
+ buf = alloca(3 * w);
+
+ cinfo.err = jpeg_std_error(&(jerr.pub));
+ jerr.pub.error_exit = _JPEGFatalErrorHandler;
+ jerr.pub.emit_message = _JPEGErrorHandler2;
+ jerr.pub.output_message = _JPEGErrorHandler;
+ if (setjmp(jerr.setjmp_buffer))
+ {
+ free(d1);
+ return NULL;
+ }
+
+ jpeg_create_compress(&cinfo);
+ if (eet_jpeg_membuf_dst(&cinfo, &dst, &sz))
+ {
+ jpeg_destroy_compress(&cinfo);
+ free(d1);
+ return NULL;
+ }
+
+ cinfo.image_width = w;
+ cinfo.image_height = h;
+ cinfo.input_components = 1;
+ cinfo.in_color_space = JCS_GRAYSCALE;
+ jpeg_set_defaults(&cinfo);
+ jpeg_set_quality(&cinfo, quality, TRUE);
+ if (quality >= 90)
+ {
+ cinfo.comp_info[0].h_samp_factor = 1;
+ cinfo.comp_info[0].v_samp_factor = 1;
+ cinfo.comp_info[1].h_samp_factor = 1;
+ cinfo.comp_info[1].v_samp_factor = 1;
+ cinfo.comp_info[2].h_samp_factor = 1;
+ cinfo.comp_info[2].v_samp_factor = 1;
+ }
+
+ jpeg_start_compress(&cinfo, TRUE);
+
+ while (cinfo.next_scanline < cinfo.image_height)
+ {
+ unsigned int i, j;
+
+ ptr = ((const int *)data) + cinfo.next_scanline * w;
+ /* convert scaline from ARGB to RGB packed */
+ for (j = 0, i = 0; i < w; i++)
+ {
+ buf[j++] = ((*ptr) >> 24) & 0xff;
+ ptr++;
+ }
+ jbuf = (JSAMPROW *)(&buf);
+ jpeg_write_scanlines(&cinfo, jbuf, 1);
+ }
+
+ jpeg_finish_compress(&cinfo);
+ jpeg_destroy_compress(&cinfo);
+
+ d2 = dst;
+ sz2 = sz;
+ }
d = malloc(12 + sz1 + sz2);
if (!d)
{
- free(d1);
- free(d2);
- return NULL;
+ free(d1);
+ free(d2);
+ return NULL;
}
+
header = (int *)d;
header[0] = 0xbeeff00d;
header[1] = sz1;
header[2] = sz2;
if (_eet_image_words_bigendian)
{
- int i;
+ int i;
- for (i = 0; i < 3; i++) SWAP32(header[i]);
+ for (i = 0; i < 3; i++) SWAP32(header[i]);
}
- memcpy(d + 12, d1, sz1);
- memcpy(d + 12 + sz1, d2, sz2);
- free(d1);
- free(d2);
+ memcpy(d + 12, d1, sz1);
+ memcpy(d + 12 + sz1, d2, sz2);
+
+ free(d1);
+ free(d2);
*size = 12 + sz1 + sz2;
return d;
}
EAPI int
-eet_data_image_write_cipher(Eet_File *ef, const char *name, const char *cipher_key,
- const void *data, unsigned int w, unsigned int h, int alpha,
- int comp, int quality, int lossy)
+eet_data_image_write_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int comp,
+ int quality,
+ int lossy)
{
void *d = NULL;
int size = 0;
d = eet_data_image_encode(data, &size, w, h, alpha, comp, quality, lossy);
if (d)
{
- int v;
+ int v;
- v = eet_write_cipher(ef, name, d, size, 0, cipher_key);
- free(d);
- return v;
+ v = eet_write_cipher(ef, name, d, size, 0, cipher_key);
+ free(d);
+ return v;
}
+
return 0;
}
EAPI int
-eet_data_image_write(Eet_File *ef, const char *name,
- const void *data, unsigned int w, unsigned int h, int alpha,
- int comp, int quality, int lossy)
+eet_data_image_write(Eet_File *ef,
+ const char *name,
+ const void *data,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int comp,
+ int quality,
+ int lossy)
{
- return eet_data_image_write_cipher(ef, name, NULL, data, w, h, alpha, comp, quality, lossy);
+ return eet_data_image_write_cipher(ef,
+ name,
+ NULL,
+ data,
+ w,
+ h,
+ alpha,
+ comp,
+ quality,
+ lossy);
}
EAPI void *
-eet_data_image_read_cipher(Eet_File *ef, const char *name, const char *cipher_key,
- unsigned int *w, unsigned int *h, int *alpha,
- int *comp, int *quality, int *lossy)
+eet_data_image_read_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
unsigned int *d = NULL;
- void *data = NULL;
- int free_data = 0;
- int size;
+ void *data = NULL;
+ int free_data = 0;
+ int size;
if (!cipher_key)
- data = (void *)eet_read_direct(ef, name, &size);
+ data = (void *)eet_read_direct(ef, name, &size);
+
if (!data)
{
data = eet_read_cipher(ef, name, &size, cipher_key);
- free_data = 1;
- if (!data) return NULL;
+ free_data = 1;
+ if (!data)
+ return NULL;
}
d = eet_data_image_decode(data, size, w, h, alpha, comp, quality, lossy);
if (free_data)
- free(data);
+ free(data);
return d;
}
EAPI void *
eet_data_image_read(Eet_File *ef, const char *name,
- unsigned int *w, unsigned int *h, int *alpha,
- int *comp, int *quality, int *lossy)
+ unsigned int *w, unsigned int *h, int *alpha,
+ int *comp, int *quality, int *lossy)
{
- return eet_data_image_read_cipher(ef, name, NULL, w, h, alpha, comp, quality, lossy);
+ return eet_data_image_read_cipher(ef,
+ name,
+ NULL,
+ w,
+ h,
+ alpha,
+ comp,
+ quality,
+ lossy);
}
EAPI int
-eet_data_image_read_to_surface_cipher(Eet_File *ef, const char *name, const char *cipher_key, unsigned int src_x, unsigned int src_y,
- unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride,
- int *alpha, int *comp, int *quality, int *lossy)
+eet_data_image_read_to_surface_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
- void *data = NULL;
- int free_data = 0;
- int res = 1;
- int size;
+ void *data = NULL;
+ int free_data = 0;
+ int res = 1;
+ int size;
if (!cipher_key)
- data = (void *)eet_read_direct(ef, name, &size);
+ data = (void *)eet_read_direct(ef, name, &size);
+
if (!data)
{
- data = eet_read_cipher(ef, name, &size, cipher_key);
- free_data = 1;
- if (!data) return 0;
+ data = eet_read_cipher(ef, name, &size, cipher_key);
+ free_data = 1;
+ if (!data)
+ return 0;
}
- res = eet_data_image_decode_to_surface(data, size, src_x, src_y, d, w, h, row_stride, alpha, comp, quality, lossy);
+ res = eet_data_image_decode_to_surface(data,
+ size,
+ src_x,
+ src_y,
+ d,
+ w,
+ h,
+ row_stride,
+ alpha,
+ comp,
+ quality,
+ lossy);
if (free_data)
- free(data);
+ free(data);
return res;
}
EAPI int
-eet_data_image_read_to_surface(Eet_File *ef, const char *name, unsigned int src_x, unsigned int src_y,
- unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride,
- int *alpha, int *comp, int *quality, int *lossy)
+eet_data_image_read_to_surface(Eet_File *ef,
+ const char *name,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
- return eet_data_image_read_to_surface_cipher(ef, name, NULL, src_x, src_y, d, w, h, row_stride, alpha, comp, quality, lossy);
+ return eet_data_image_read_to_surface_cipher(ef,
+ name,
+ NULL,
+ src_x,
+ src_y,
+ d,
+ w,
+ h,
+ row_stride,
+ alpha,
+ comp,
+ quality,
+ lossy);
}
EAPI int
-eet_data_image_header_read_cipher(Eet_File *ef, const char *name, const char *cipher_key,
- unsigned int *w, unsigned int *h, int *alpha,
- int *comp, int *quality, int *lossy)
+eet_data_image_header_read_cipher(Eet_File *ef,
+ const char *name,
+ const char *cipher_key,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
- void *data = NULL;
- int size = 0;
- int free_data = 0;
- int d;
+ void *data = NULL;
+ int size = 0;
+ int free_data = 0;
+ int d;
if (!cipher_key)
- data = (void *)eet_read_direct(ef, name, &size);
+ data = (void *)eet_read_direct(ef, name, &size);
+
if (!data)
{
data = eet_read_cipher(ef, name, &size, cipher_key);
- free_data = 1;
- if (!data) return 0;
+ free_data = 1;
+ if (!data)
+ return 0;
}
- d = eet_data_image_header_decode(data, size, w, h, alpha, comp, quality, lossy);
+ d = eet_data_image_header_decode(data,
+ size,
+ w,
+ h,
+ alpha,
+ comp,
+ quality,
+ lossy);
if (free_data)
- free(data);
+ free(data);
return d;
}
EAPI int
eet_data_image_header_read(Eet_File *ef, const char *name,
- unsigned int *w, unsigned int *h, int *alpha,
- int *comp, int *quality, int *lossy)
+ unsigned int *w, unsigned int *h, int *alpha,
+ int *comp, int *quality, int *lossy)
{
- return eet_data_image_header_read_cipher(ef, name, NULL, w, h, alpha, comp, quality, lossy);
+ return eet_data_image_header_read_cipher(ef,
+ name,
+ NULL,
+ w,
+ h,
+ alpha,
+ comp,
+ quality,
+ lossy);
}
EAPI void *
-eet_data_image_encode_cipher(const void *data, const char *cipher_key, unsigned int w, unsigned int h, int alpha, int comp, int quality, int lossy, int *size_ret)
+eet_data_image_encode_cipher(const void *data,
+ const char *cipher_key,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int comp,
+ int quality,
+ int lossy,
+ int *size_ret)
{
void *d = NULL;
void *ciphered_d = NULL;
if (lossy == 0)
{
- if (comp > 0)
- d = eet_data_image_lossless_compressed_convert(&size, data, w, h, alpha, comp);
-
- /* eet_data_image_lossless_compressed_convert will refuse to compress something
- if the result is bigger than the entry. */
- if (comp <= 0 || d == NULL)
- d = eet_data_image_lossless_convert(&size, data, w, h, alpha);
+ if (comp > 0)
+ d = eet_data_image_lossless_compressed_convert(&size,
+ data,
+ w,
+ h,
+ alpha,
+ comp);
+
+ /* eet_data_image_lossless_compressed_convert will refuse to compress something
+ if the result is bigger than the entry. */
+ if (comp <= 0 || d == NULL)
+ d = eet_data_image_lossless_convert(&size, data, w, h, alpha);
}
else
{
- if (!alpha)
- d = eet_data_image_jpeg_convert(&size, data, w, h, alpha, quality);
- else
- d = eet_data_image_jpeg_alpha_convert(&size, data, w, h, alpha, quality);
+ if (!alpha)
+ d = eet_data_image_jpeg_convert(&size, data, w, h, alpha, quality);
+ else
+ d = eet_data_image_jpeg_alpha_convert(&size,
+ data,
+ w,
+ h,
+ alpha,
+ quality);
}
+
if (cipher_key)
{
- if(!eet_cipher(d, size, cipher_key, strlen(cipher_key), &ciphered_d, &ciphered_sz))
- {
- if (d) free(d);
- d = ciphered_d;
- size = ciphered_sz;
- }
- else
- if (ciphered_d) free(ciphered_d);
+ if(!eet_cipher(d, size, cipher_key, strlen(cipher_key), &ciphered_d,
+ &ciphered_sz))
+ {
+ if (d)
+ free(d);
+
+ d = ciphered_d;
+ size = ciphered_sz;
+ }
+ else
+ if (ciphered_d)
+ free(ciphered_d);
}
- if (size_ret) *size_ret = size;
+ if (size_ret)
+ *size_ret = size;
+
return d;
}
EAPI void *
-eet_data_image_encode(const void *data, int *size_ret, unsigned int w, unsigned int h, int alpha, int comp, int quality, int lossy)
+eet_data_image_encode(const void *data,
+ int *size_ret,
+ unsigned int w,
+ unsigned int h,
+ int alpha,
+ int comp,
+ int quality,
+ int lossy)
{
- return eet_data_image_encode_cipher(data, NULL, w, h, alpha, comp, quality, lossy, size_ret);
+ return eet_data_image_encode_cipher(data,
+ NULL,
+ w,
+ h,
+ alpha,
+ comp,
+ quality,
+ lossy,
+ size_ret);
}
EAPI int
-eet_data_image_header_decode_cipher(const void *data, const char *cipher_key, int size, unsigned int *w, unsigned int *h, int *alpha, int *comp, int *quality, int *lossy)
+eet_data_image_header_decode_cipher(const void *data,
+ const char *cipher_key,
+ int size,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
int header[8];
void *deciphered_d = NULL;
if (cipher_key)
{
- if (!eet_decipher(data, size, cipher_key, strlen(cipher_key), &deciphered_d, &deciphered_sz))
- {
- data = deciphered_d;
- size = deciphered_sz;
- }
- else
- if (deciphered_d) free(deciphered_d);
+ if (!eet_decipher(data, size, cipher_key, strlen(cipher_key),
+ &deciphered_d, &deciphered_sz))
+ {
+ data = deciphered_d;
+ size = deciphered_sz;
+ }
+ else
+ if (deciphered_d)
+ free(deciphered_d);
}
if (_eet_image_words_bigendian == -1)
{
- unsigned long int v;
+ unsigned long int v;
- v = htonl(0x12345678);
- if (v == 0x12345678) _eet_image_words_bigendian = 1;
- else _eet_image_words_bigendian = 0;
+ v = htonl(0x12345678);
+ if (v == 0x12345678)
+ _eet_image_words_bigendian = 1;
+ else
+ _eet_image_words_bigendian = 0;
}
- if (size < 32) return 0;
+ if (size < 32)
+ return 0;
- memcpy(header, data, 32);
+ memcpy(header, data, 32);
if (_eet_image_words_bigendian)
{
- int i;
+ int i;
- for (i = 0; i < 8; i++) SWAP32(header[i]);
+ for (i = 0; i < 8; i++) SWAP32(header[i]);
}
+
if ((unsigned)header[0] == 0xac1dfeed)
{
- int iw, ih, al, cp;
-
- iw = header[1];
- ih = header[2];
- al = header[3];
- cp = header[4];
- if ((iw < 1) || (ih < 1) || (iw > 8192) || (ih > 8192)) return 0;
- if ((cp == 0) && (size < ((iw * ih * 4) + 32))) return 0;
- if (w) *w = iw;
- if (h) *h = ih;
- if (alpha) *alpha = al ? 1 : 0;
- if (comp) *comp = cp;
- if (lossy) *lossy = 0;
- if (quality) *quality = 100;
- return 1;
+ int iw, ih, al, cp;
+
+ iw = header[1];
+ ih = header[2];
+ al = header[3];
+ cp = header[4];
+ if ((iw < 1) || (ih < 1) || (iw > 8192) || (ih > 8192))
+ return 0;
+
+ if ((cp == 0) && (size < ((iw * ih * 4) + 32)))
+ return 0;
+
+ if (w)
+ *w = iw;
+
+ if (h)
+ *h = ih;
+
+ if (alpha)
+ *alpha = al ? 1 : 0;
+
+ if (comp)
+ *comp = cp;
+
+ if (lossy)
+ *lossy = 0;
+
+ if (quality)
+ *quality = 100;
+
+ return 1;
}
else if ((unsigned)header[0] == 0xbeeff00d)
{
- unsigned int iw = 0, ih = 0;
- unsigned const char *dt;
- int sz1;
- int ok;
-
- sz1 = header[1];
-/* sz2 = header[2]; */
- dt = data;
- dt += 12;
- ok = eet_data_image_jpeg_header_decode(dt, sz1, &iw, &ih);
- if (ok)
- {
- if (w) *w = iw;
- if (h) *h = ih;
- if (alpha) *alpha = 1;
- if (comp) *comp = 0;
- if (lossy) *lossy = 1;
- if (quality) *quality = 75;
- return 1;
- }
+ unsigned int iw = 0, ih = 0;
+ unsigned const char *dt;
+ int sz1;
+ int ok;
+
+ sz1 = header[1];
+/* sz2 = header[2]; */
+ dt = data;
+ dt += 12;
+ ok = eet_data_image_jpeg_header_decode(dt, sz1, &iw, &ih);
+ if (ok)
+ {
+ if (w)
+ *w = iw;
+
+ if (h)
+ *h = ih;
+
+ if (alpha)
+ *alpha = 1;
+
+ if (comp)
+ *comp = 0;
+
+ if (lossy)
+ *lossy = 1;
+
+ if (quality)
+ *quality = 75;
+
+ return 1;
+ }
}
else
{
- unsigned int iw = 0, ih = 0;
- int ok;
-
- ok = eet_data_image_jpeg_header_decode(data, size, &iw, &ih);
- if (ok)
- {
- if (w) *w = iw;
- if (h) *h = ih;
- if (alpha) *alpha = 0;
- if (comp) *comp = 0;
- if (lossy) *lossy = 1;
- if (quality) *quality = 75;
- return 1;
- }
+ unsigned int iw = 0, ih = 0;
+ int ok;
+
+ ok = eet_data_image_jpeg_header_decode(data, size, &iw, &ih);
+ if (ok)
+ {
+ if (w)
+ *w = iw;
+
+ if (h)
+ *h = ih;
+
+ if (alpha)
+ *alpha = 0;
+
+ if (comp)
+ *comp = 0;
+
+ if (lossy)
+ *lossy = 1;
+
+ if (quality)
+ *quality = 75;
+
+ return 1;
+ }
}
+
return 0;
}
EAPI int
-eet_data_image_header_decode(const void *data, int size, unsigned int *w, unsigned int *h, int *alpha, int *comp, int *quality, int *lossy)
+eet_data_image_header_decode(const void *data,
+ int size,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
- return eet_data_image_header_decode_cipher(data, NULL, size, w, h, alpha, comp, quality, lossy);
+ return eet_data_image_header_decode_cipher(data,
+ NULL,
+ size,
+ w,
+ h,
+ alpha,
+ comp,
+ quality,
+ lossy);
}
static void
-_eet_data_image_copy_buffer(const unsigned int *src, unsigned int src_x, unsigned int src_y, unsigned int src_w,
- unsigned int *dst, unsigned int w, unsigned int h, unsigned int row_stride)
+_eet_data_image_copy_buffer(const unsigned int *src,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int src_w,
+ unsigned int *dst,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride)
{
src += src_x + src_y * src_w;
if (row_stride == src_w * 4 && w == src_w)
- {
- memcpy(dst, src, row_stride * h);
- }
+ memcpy(dst, src, row_stride * h);
else
{
- unsigned int *over = dst;
- unsigned int y;
+ unsigned int *over = dst;
+ unsigned int y;
- for (y = 0; y < h; ++y, src += src_w, over += row_stride)
- memcpy(over, src, w * 4);
+ for (y = 0; y < h; ++y, src += src_w, over += row_stride)
+ memcpy(over, src, w * 4);
}
}
static int
-_eet_data_image_decode_inside(const void *data, int size, unsigned int src_x, unsigned int src_y,
- unsigned int src_w, unsigned int src_h,
- unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride,
- int alpha, int comp, int quality, int lossy)
+_eet_data_image_decode_inside(const void *data,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int src_w,
+ unsigned int src_h,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int alpha,
+ int comp,
+ int quality,
+ int lossy)
{
if (lossy == 0 && quality == 100)
{
- unsigned int *body;
-
- body = ((unsigned int *)data) + 8;
- if (!comp)
- {
- _eet_data_image_copy_buffer(body, src_x, src_y, src_w, d, w, h, row_stride);
- }
- else
- {
- if (src_h == h && src_w == w && row_stride == src_w * 4)
- {
- uLongf dlen;
-
- dlen = w * h * 4;
- uncompress((Bytef *)d, &dlen, (Bytef *)body,
- (uLongf)(size - 32));
- }
- else
- {
- Bytef *dtmp;
- uLongf dlen = src_w * src_h * 4;
-
- /* FIXME: This could create a huge alloc. So compressed data and tile could not always work. */
- dtmp = malloc(dlen);
- if (!dtmp) return 0;
-
- uncompress(dtmp, &dlen, (Bytef *)body, (uLongf)(size - 32));
-
- _eet_data_image_copy_buffer((unsigned int *) dtmp, src_x, src_y, src_w, d, w, h, row_stride);
-
- free(dtmp);
- }
- }
-
- /* Fix swapiness. */
- if (_eet_image_words_bigendian)
- {
- unsigned int x;
-
- for (x = 0; x < (w * h); x++) SWAP32(d[x]);
- }
+ unsigned int *body;
+
+ body = ((unsigned int *)data) + 8;
+ if (!comp)
+ _eet_data_image_copy_buffer(body,
+ src_x,
+ src_y,
+ src_w,
+ d,
+ w,
+ h,
+ row_stride);
+ else
+ {
+ if (src_h == h && src_w == w && row_stride == src_w * 4)
+ {
+ uLongf dlen;
+
+ dlen = w * h * 4;
+ uncompress((Bytef *)d, &dlen, (Bytef *)body,
+ (uLongf)(size - 32));
+ }
+ else
+ {
+ Bytef *dtmp;
+ uLongf dlen = src_w * src_h * 4;
+
+ /* FIXME: This could create a huge alloc. So compressed data and tile could not always work. */
+ dtmp = malloc(dlen);
+ if (!dtmp)
+ return 0;
+
+ uncompress(dtmp, &dlen, (Bytef *)body, (uLongf)(size - 32));
+
+ _eet_data_image_copy_buffer((unsigned int *)dtmp,
+ src_x,
+ src_y,
+ src_w,
+ d,
+ w,
+ h,
+ row_stride);
+
+ free(dtmp);
+ }
+ }
+
+ /* Fix swapiness. */
+ if (_eet_image_words_bigendian)
+ {
+ unsigned int x;
+
+ for (x = 0; x < (w * h); x++) SWAP32(d[x]);
+ }
}
else if (comp == 0 && lossy == 1)
{
- if (alpha)
- {
- unsigned const char *dt;
- int header[8];
- int sz1, sz2;
-
- memcpy(header, data, 32);
- if (_eet_image_words_bigendian)
- {
- int i;
-
- for (i = 0; i < 8; i++) SWAP32(header[i]);
- }
-
- sz1 = header[1];
- sz2 = header[2];
- dt = data;
- dt += 12;
-
- if (eet_data_image_jpeg_rgb_decode(dt, sz1, src_x, src_y, d, w, h, row_stride))
- {
- dt += sz1;
- if (!eet_data_image_jpeg_alpha_decode(dt, sz2, src_x, src_y, d, w, h, row_stride))
- return 0;
- }
- }
- else
- {
- if (!eet_data_image_jpeg_rgb_decode(data, size, src_x, src_y, d, w, h, row_stride))
- return 0;
- }
+ if (alpha)
+ {
+ unsigned const char *dt;
+ int header[8];
+ int sz1, sz2;
+
+ memcpy(header, data, 32);
+ if (_eet_image_words_bigendian)
+ {
+ int i;
+
+ for (i = 0; i < 8; i++) SWAP32(header[i]);
+ }
+
+ sz1 = header[1];
+ sz2 = header[2];
+ dt = data;
+ dt += 12;
+
+ if (eet_data_image_jpeg_rgb_decode(dt, sz1, src_x, src_y, d, w, h,
+ row_stride))
+ {
+ dt += sz1;
+ if (!eet_data_image_jpeg_alpha_decode(dt, sz2, src_x, src_y,
+ d, w, h, row_stride))
+ return 0;
+ }
+ }
+ else if (!eet_data_image_jpeg_rgb_decode(data, size, src_x, src_y, d, w,
+ h, row_stride))
+ return 0;
}
else
- {
- abort();
- }
+ abort();
return 1;
}
EAPI void *
-eet_data_image_decode_cipher(const void *data, const char *cipher_key, int size, unsigned int *w, unsigned int *h, int *alpha, int *comp, int *quality, int *lossy)
+eet_data_image_decode_cipher(const void *data,
+ const char *cipher_key,
+ int size,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
unsigned int *d = NULL;
unsigned int iw, ih;
if (cipher_key)
{
- if (!eet_decipher(data, size, cipher_key, strlen(cipher_key), &deciphered_d, &deciphered_sz))
- {
- data = deciphered_d;
- size = deciphered_sz;
- }
- else
- if (deciphered_d) free(deciphered_d);
+ if (!eet_decipher(data, size, cipher_key, strlen(cipher_key),
+ &deciphered_d, &deciphered_sz))
+ {
+ data = deciphered_d;
+ size = deciphered_sz;
+ }
+ else
+ if (deciphered_d)
+ free(deciphered_d);
}
/* All check are done during header decode, this simplify the code a lot. */
- if (!eet_data_image_header_decode(data, size, &iw, &ih, &ialpha, &icompress, &iquality, &ilossy))
- return NULL;
+ if (!eet_data_image_header_decode(data, size, &iw, &ih, &ialpha, &icompress,
+ &iquality, &ilossy))
+ return NULL;
d = malloc(iw * ih * 4);
- if (!d) return NULL;
+ if (!d)
+ return NULL;
- if (!_eet_data_image_decode_inside(data, size, 0, 0, iw, ih, d, iw, ih, iw * 4, ialpha, icompress, iquality, ilossy))
+ if (!_eet_data_image_decode_inside(data, size, 0, 0, iw, ih, d, iw, ih, iw *
+ 4, ialpha, icompress, iquality, ilossy))
{
- free(d);
- return NULL;
+ free(d);
+ return NULL;
}
- if (w) *w = iw;
- if (h) *h = ih;
- if (alpha) *alpha = ialpha;
- if (comp) *comp = icompress;
- if (quality) *quality = iquality;
- if (lossy) *lossy = ilossy;
+ if (w)
+ *w = iw;
+
+ if (h)
+ *h = ih;
+
+ if (alpha)
+ *alpha = ialpha;
+
+ if (comp)
+ *comp = icompress;
+
+ if (quality)
+ *quality = iquality;
+
+ if (lossy)
+ *lossy = ilossy;
return d;
}
EAPI void *
-eet_data_image_decode(const void *data, int size, unsigned int *w, unsigned int *h, int *alpha, int *comp, int *quality, int *lossy)
+eet_data_image_decode(const void *data,
+ int size,
+ unsigned int *w,
+ unsigned int *h,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
- return eet_data_image_decode_cipher(data, NULL, size, w, h, alpha, comp, quality, lossy);
+ return eet_data_image_decode_cipher(data,
+ NULL,
+ size,
+ w,
+ h,
+ alpha,
+ comp,
+ quality,
+ lossy);
}
EAPI int
-eet_data_image_decode_to_surface_cipher(const void *data, const char *cipher_key, int size, unsigned int src_x, unsigned int src_y,
- unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride,
- int *alpha, int *comp, int *quality, int *lossy)
+eet_data_image_decode_to_surface_cipher(const void *data,
+ const char *cipher_key,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
unsigned int iw, ih;
int ialpha, icompress, iquality, ilossy;
if (cipher_key)
{
- if (!eet_decipher(data, size, cipher_key, strlen(cipher_key), &deciphered_d, &deciphered_sz))
- {
- data = deciphered_d;
- size = deciphered_sz;
- }
- else
- if (deciphered_d) free(deciphered_d);
+ if (!eet_decipher(data, size, cipher_key, strlen(cipher_key),
+ &deciphered_d, &deciphered_sz))
+ {
+ data = deciphered_d;
+ size = deciphered_sz;
+ }
+ else
+ if (deciphered_d)
+ free(deciphered_d);
}
/* All check are done during header decode, this simplify the code a lot. */
- if (!eet_data_image_header_decode(data, size, &iw, &ih, &ialpha, &icompress, &iquality, &ilossy))
- return 0;
+ if (!eet_data_image_header_decode(data, size, &iw, &ih, &ialpha, &icompress,
+ &iquality, &ilossy))
+ return 0;
+
+ if (!d)
+ return 0;
+
+ if (w * 4 > row_stride)
+ return 0;
+
+ if (w > iw || h > ih)
+ return 0;
+
+ if (!_eet_data_image_decode_inside(data, size, src_x, src_y, iw, ih, d, w, h,
+ row_stride, ialpha, icompress, iquality,
+ ilossy))
+ return 0;
+
+ if (alpha)
+ *alpha = ialpha;
- if (!d) return 0;
- if (w * 4 > row_stride) return 0;
- if (w > iw || h > ih) return 0;
+ if (comp)
+ *comp = icompress;
- if (!_eet_data_image_decode_inside(data, size, src_x, src_y, iw, ih, d, w, h, row_stride, ialpha, icompress, iquality, ilossy))
- return 0;
+ if (quality)
+ *quality = iquality;
- if (alpha) *alpha = ialpha;
- if (comp) *comp = icompress;
- if (quality) *quality = iquality;
- if (lossy) *lossy = ilossy;
+ if (lossy)
+ *lossy = ilossy;
return 1;
}
EAPI int
-eet_data_image_decode_to_surface(const void *data, int size, unsigned int src_x, unsigned int src_y,
- unsigned int *d, unsigned int w, unsigned int h, unsigned int row_stride,
- int *alpha, int *comp, int *quality, int *lossy)
+eet_data_image_decode_to_surface(const void *data,
+ int size,
+ unsigned int src_x,
+ unsigned int src_y,
+ unsigned int *d,
+ unsigned int w,
+ unsigned int h,
+ unsigned int row_stride,
+ int *alpha,
+ int *comp,
+ int *quality,
+ int *lossy)
{
- return eet_data_image_decode_to_surface_cipher(data, NULL, size, src_x, src_y, d, w, h, row_stride, alpha, comp, quality, lossy);
+ return eet_data_image_decode_to_surface_cipher(data,
+ NULL,
+ size,
+ src_x,
+ src_y,
+ d,
+ w,
+ h,
+ row_stride,
+ alpha,
+ comp,
+ quality,
+ lossy);
}
#define EET_MAGIC_FILE2 0x1ee70f42
-typedef struct _Eet_File_Header Eet_File_Header;
-typedef struct _Eet_File_Node Eet_File_Node;
-typedef struct _Eet_File_Directory Eet_File_Directory;
+typedef struct _Eet_File_Header Eet_File_Header;
+typedef struct _Eet_File_Node Eet_File_Node;
+typedef struct _Eet_File_Directory Eet_File_Directory;
struct _Eet_File
{
- char *path;
- FILE *readfp;
- Eet_File_Header *header;
- Eet_Dictionary *ed;
- Eet_Key *key;
- const unsigned char *data;
- const void *x509_der;
- const void *signature;
- void *sha1;
+ char *path;
+ FILE *readfp;
+ Eet_File_Header *header;
+ Eet_Dictionary *ed;
+ Eet_Key *key;
+ const unsigned char *data;
+ const void *x509_der;
+ const void *signature;
+ void *sha1;
- Eet_File_Mode mode;
+ Eet_File_Mode mode;
- int magic;
- int references;
+ int magic;
+ int references;
- int data_size;
- int x509_length;
- unsigned int signature_length;
- int sha1_length;
+ int data_size;
+ int x509_length;
+ unsigned int signature_length;
+ int sha1_length;
- time_t mtime;
+ time_t mtime;
#ifdef EFL_HAVE_THREADS
# ifdef EFL_HAVE_POSIX_THREADS
- pthread_mutex_t file_lock;
+ pthread_mutex_t file_lock;
# else
- HANDLE file_lock;
+ HANDLE file_lock;
# endif
#endif
- unsigned char writes_pending : 1;
- unsigned char delete_me_now : 1;
+ unsigned char writes_pending : 1;
+ unsigned char delete_me_now : 1;
};
struct _Eet_File_Header
{
- int magic;
+ int magic;
Eet_File_Directory *directory;
};
struct _Eet_File_Directory
{
- int size;
+ int size;
Eet_File_Node **nodes;
};
struct _Eet_File_Node
{
- char *name;
- void *data;
- Eet_File_Node *next; /* FIXME: make buckets linked lists */
-
- int offset;
- int dictionary_offset;
- int name_offset;
-
- int name_size;
- int size;
- int data_size;
-
- unsigned char free_name : 1;
- unsigned char compression : 1;
- unsigned char ciphered : 1;
- unsigned char alias : 1;
+ char *name;
+ void *data;
+ Eet_File_Node *next; /* FIXME: make buckets linked lists */
+
+ int offset;
+ int dictionary_offset;
+ int name_offset;
+
+ int name_size;
+ int size;
+ int data_size;
+
+ unsigned char free_name : 1;
+ unsigned char compression : 1;
+ unsigned char ciphered : 1;
+ unsigned char alias : 1;
};
#if 0
int num_dictionary_entries; /* number of dictionary entries to follow */
struct
{
- int data_offset; /* bytes offset into file for data chunk */
- int size; /* size of the data chunk */
- int data_size; /* size of the (uncompressed) data chunk */
- int name_offset; /* bytes offset into file for name string */
- int name_size; /* length in bytes of the name field */
- int flags; /* bit flags - for now:
- bit 0 => compresion on/off
- bit 1 => ciphered on/off
- bit 2 => alias
- */
+ int data_offset; /* bytes offset into file for data chunk */
+ int size; /* size of the data chunk */
+ int data_size; /* size of the (uncompressed) data chunk */
+ int name_offset; /* bytes offset into file for name string */
+ int name_size; /* length in bytes of the name field */
+ int flags; /* bit flags - for now:
+ bit 0 => compresion on/off
+ bit 1 => ciphered on/off
+ bit 2 => alias
+ */
} directory[num_directory_entries];
struct
{
- int hash;
- int offset;
- int size;
- int prev;
- int next;
+ int hash;
+ int offset;
+ int size;
+ int prev;
+ int next;
} dictionary[num_dictionary_entries];
/* now start the string stream. */
/* and right after them the data stream. */
#define EET_FILE2_DIRECTORY_ENTRY_COUNT 6
#define EET_FILE2_DICTIONARY_ENTRY_COUNT 5
-#define EET_FILE2_HEADER_SIZE (sizeof(int) * EET_FILE2_HEADER_COUNT)
-#define EET_FILE2_DIRECTORY_ENTRY_SIZE (sizeof(int) * EET_FILE2_DIRECTORY_ENTRY_COUNT)
-#define EET_FILE2_DICTIONARY_ENTRY_SIZE (sizeof(int) * EET_FILE2_DICTIONARY_ENTRY_COUNT)
+#define EET_FILE2_HEADER_SIZE (sizeof(int) * \
+ EET_FILE2_HEADER_COUNT)
+#define EET_FILE2_DIRECTORY_ENTRY_SIZE (sizeof(int) * \
+ EET_FILE2_DIRECTORY_ENTRY_COUNT)
+#define EET_FILE2_DICTIONARY_ENTRY_SIZE (sizeof(int) * \
+ EET_FILE2_DICTIONARY_ENTRY_COUNT)
/* prototypes of internal calls */
-static Eet_File *eet_cache_find(const char *path, Eet_File **cache, int cache_num);
-static void eet_cache_add(Eet_File *ef, Eet_File ***cache, int *cache_num, int *cache_alloc);
-static void eet_cache_del(Eet_File *ef, Eet_File ***cache, int *cache_num, int *cache_alloc);
-static int eet_string_match(const char *s1, const char *s2);
+static Eet_File * eet_cache_find(const char *path,
+ Eet_File **cache,
+ int cache_num);
+static void eet_cache_add(Eet_File *ef,
+ Eet_File ***cache,
+ int *cache_num,
+ int *cache_alloc);
+static void eet_cache_del(Eet_File *ef,
+ Eet_File ***cache,
+ int *cache_num,
+ int *cache_alloc);
+static int eet_string_match(const char *s1, const char *s2);
#if 0 /* Unused */
-static Eet_Error eet_flush(Eet_File *ef);
+static Eet_Error eet_flush(Eet_File *ef);
#endif
-static Eet_Error eet_flush2(Eet_File *ef);
-static Eet_File_Node *find_node_by_name(Eet_File *ef, const char *name);
-static int read_data_from_disk(Eet_File *ef, Eet_File_Node *efn, void *buf, int len);
+static Eet_Error eet_flush2(Eet_File *ef);
+static Eet_File_Node *find_node_by_name(Eet_File *ef, const char *name);
+static int read_data_from_disk(Eet_File *ef,
+ Eet_File_Node *efn,
+ void *buf,
+ int len);
-static Eet_Error eet_internal_close(Eet_File *ef, Eina_Bool locked);
+static Eet_Error eet_internal_close(Eet_File *ef, Eina_Bool locked);
#ifdef EFL_HAVE_THREADS
#endif /* EFL_HAVE_THREADS */
/* cache. i don't expect this to ever be large, so arrays will do */
-static int eet_writers_num = 0;
-static int eet_writers_alloc = 0;
-static Eet_File **eet_writers = NULL;
-static int eet_readers_num = 0;
-static int eet_readers_alloc = 0;
-static Eet_File **eet_readers = NULL;
-static int eet_init_count = 0;
+static int eet_writers_num = 0;
+static int eet_writers_alloc = 0;
+static Eet_File **eet_writers = NULL;
+static int eet_readers_num = 0;
+static int eet_readers_alloc = 0;
+static Eet_File **eet_readers = NULL;
+static int eet_init_count = 0;
/* log domain variable */
int _eet_log_dom_global = -1;
static inline int
eet_check_pointer(const Eet_File *ef)
{
- if ((!ef) || (ef->magic != EET_MAGIC_FILE))
- return 1;
- return 0;
+ if ((!ef) || (ef->magic != EET_MAGIC_FILE))
+ return 1;
+
+ return 0;
}
static inline int
eet_check_header(const Eet_File *ef)
{
if (!ef->header)
- return 1;
+ return 1;
+
if (!ef->header->directory)
- return 1;
+ return 1;
+
return 0;
}
{
if (test)
{
- ef->delete_me_now = 1;
- eet_internal_close(ef, EINA_TRUE);
+ ef->delete_me_now = 1;
+ eet_internal_close(ef, EINA_TRUE);
}
+
return test;
}
/* walk list */
for (i = 0; i < cache_num; i++)
{
- /* if matches real path - return it */
- if (eet_string_match(cache[i]->path, path))
- {
- if (!cache[i]->delete_me_now)
- return cache[i];
- }
+ /* if matches real path - return it */
+ if (eet_string_match(cache[i]->path, path))
+ if (!cache[i]->delete_me_now)
+ return cache[i];
+
}
/* not found */
static void
eet_cache_add(Eet_File *ef, Eet_File ***cache, int *cache_num, int *cache_alloc)
{
- Eet_File **new_cache;
- int new_cache_num;
- int new_cache_alloc;
+ Eet_File **new_cache;
+ int new_cache_num;
+ int new_cache_alloc;
new_cache_num = *cache_num;
if (new_cache_num >= 64) /* avoid fd overruns - limit to 128 (most recent) in the cache */
{
- Eet_File *del_ef = NULL;
- int i;
-
- new_cache = *cache;
- for (i = 0; i < new_cache_num; i++)
- {
- if (new_cache[i]->references == 0)
- {
- del_ef = new_cache[i];
- break;
- }
- }
-
- if (del_ef)
- {
- del_ef->delete_me_now = 1;
+ Eet_File *del_ef = NULL;
+ int i;
+
+ new_cache = *cache;
+ for (i = 0; i < new_cache_num; i++)
+ {
+ if (new_cache[i]->references == 0)
+ {
+ del_ef = new_cache[i];
+ break;
+ }
+ }
+
+ if (del_ef)
+ {
+ del_ef->delete_me_now = 1;
eet_internal_close(del_ef, EINA_TRUE);
- }
+ }
}
new_cache = *cache;
new_cache_num++;
if (new_cache_num > new_cache_alloc)
{
- new_cache_alloc += 16;
- new_cache = realloc(new_cache, new_cache_alloc * sizeof(Eet_File *));
- if (!new_cache)
- {
- CRIT("BAD ERROR! Eet realloc of cache list failed. Abort");
- abort();
- }
+ new_cache_alloc += 16;
+ new_cache = realloc(new_cache, new_cache_alloc * sizeof(Eet_File *));
+ if (!new_cache)
+ {
+ CRIT("BAD ERROR! Eet realloc of cache list failed. Abort");
+ abort();
+ }
}
+
new_cache[new_cache_num - 1] = ef;
*cache = new_cache;
*cache_num = new_cache_num;
new_cache_num = *cache_num;
new_cache_alloc = *cache_alloc;
if (new_cache_num <= 0)
- return;
+ return;
for (i = 0; i < new_cache_num; i++)
{
- if (new_cache[i] == ef)
- break;
+ if (new_cache[i] == ef)
+ break;
}
if (i >= new_cache_num)
- return;
+ return;
new_cache_num--;
for (j = i; j < new_cache_num; j++)
- new_cache[j] = new_cache[j + 1];
+ new_cache[j] = new_cache[j + 1];
if (new_cache_num <= (new_cache_alloc - 16))
{
- new_cache_alloc -= 16;
- if (new_cache_num > 0)
- {
- new_cache = realloc(new_cache, new_cache_alloc * sizeof(Eet_File *));
- if (!new_cache)
- {
- CRIT("BAD ERROR! Eet realloc of cache list failed. Abort");
- abort();
- }
- }
- else
- {
- free(new_cache);
- new_cache = NULL;
- }
+ new_cache_alloc -= 16;
+ if (new_cache_num > 0)
+ {
+ new_cache = realloc(new_cache, new_cache_alloc * sizeof(Eet_File *));
+ if (!new_cache)
+ {
+ CRIT("BAD ERROR! Eet realloc of cache list failed. Abort");
+ abort();
+ }
+ }
+ else
+ {
+ free(new_cache);
+ new_cache = NULL;
+ }
}
+
*cache = new_cache;
*cache_num = new_cache_num;
*cache_alloc = new_cache_alloc;
eet_string_match(const char *s1, const char *s2)
{
/* both null- no match */
- if ((!s1) || (!s2)) return 0;
- if (s1 == s2) return 1;
+ if ((!s1) || (!s2))
+ return 0;
+
+ if (s1 == s2)
+ return 1;
+
return (!strcmp(s1, s2));
}
int j;
if (eet_check_pointer(ef))
- return EET_ERROR_BAD_OBJECT;
+ return EET_ERROR_BAD_OBJECT;
+
if (eet_check_header(ef))
- return EET_ERROR_EMPTY;
+ return EET_ERROR_EMPTY;
+
if (!ef->writes_pending)
- return EET_ERROR_NONE;
+ return EET_ERROR_NONE;
if ((ef->mode == EET_FILE_MODE_READ_WRITE)
|| (ef->mode == EET_FILE_MODE_WRITE))
{
- int fd;
-
- /* opening for write - delete old copy of file right away */
- unlink(ef->path);
- fd = open(ef->path, O_CREAT | O_TRUNC | O_RDWR, S_IRUSR | S_IWUSR);
- fp = fdopen(fd, "wb");
- if (!fp) return EET_ERROR_NOT_WRITABLE;
- fcntl(fileno(fp), F_SETFD, FD_CLOEXEC);
+ int fd;
+
+ /* opening for write - delete old copy of file right away */
+ unlink(ef->path);
+ fd = open(ef->path, O_CREAT | O_TRUNC | O_RDWR, S_IRUSR | S_IWUSR);
+ fp = fdopen(fd, "wb");
+ if (!fp)
+ return EET_ERROR_NOT_WRITABLE;
+
+ fcntl(fileno(fp), F_SETFD, FD_CLOEXEC);
}
else
- return EET_ERROR_NOT_WRITABLE;
+ return EET_ERROR_NOT_WRITABLE;
/* calculate string base offset and data base offset */
num = (1 << ef->header->directory->size);
num_dictionary_entries = ef->ed->count;
for (i = 0; i < num_dictionary_entries; ++i)
- bytes_strings += ef->ed->all[i].len;
+ bytes_strings += ef->ed->all[i].len;
}
/* calculate section bytes size */
- bytes_directory_entries = EET_FILE2_DIRECTORY_ENTRY_SIZE * num_directory_entries + EET_FILE2_HEADER_SIZE;
- bytes_dictionary_entries = EET_FILE2_DICTIONARY_ENTRY_SIZE * num_dictionary_entries;
+ bytes_directory_entries = EET_FILE2_DIRECTORY_ENTRY_SIZE *
+ num_directory_entries + EET_FILE2_HEADER_SIZE;
+ bytes_dictionary_entries = EET_FILE2_DICTIONARY_ENTRY_SIZE *
+ num_dictionary_entries;
/* calculate per entry offset */
strings_offset = bytes_directory_entries + bytes_dictionary_entries;
- data_offset = bytes_directory_entries + bytes_dictionary_entries + bytes_strings;
+ data_offset = bytes_directory_entries + bytes_dictionary_entries +
+ bytes_strings;
for (i = 0; i < num; ++i)
{
/* calculate dictionary strings offset */
if (ef->ed)
- ef->ed->offset = strings_offset;
+ ef->ed->offset = strings_offset;
/* go thru and write the header */
- head[0] = (int) htonl ((unsigned int) EET_MAGIC_FILE2);
- head[1] = (int) htonl ((unsigned int) num_directory_entries);
- head[2] = (int) htonl ((unsigned int) num_dictionary_entries);
+ head[0] = (int)htonl ((unsigned int)EET_MAGIC_FILE2);
+ head[1] = (int)htonl ((unsigned int)num_directory_entries);
+ head[2] = (int)htonl ((unsigned int)num_dictionary_entries);
fseek(fp, 0, SEEK_SET);
if (fwrite(head, sizeof (head), 1, fp) != 1)
- goto write_error;
+ goto write_error;
/* write directories entry */
for (i = 0; i < num; i++)
{
for (efn = ef->header->directory->nodes[i]; efn; efn = efn->next)
{
- unsigned int flag;
+ unsigned int flag;
int ibuf[EET_FILE2_DIRECTORY_ENTRY_COUNT];
- flag = (efn->alias << 2) | (efn->ciphered << 1) | efn->compression;
+ flag = (efn->alias << 2) | (efn->ciphered << 1) | efn->compression;
- ibuf[0] = (int) htonl ((unsigned int) efn->offset);
- ibuf[1] = (int) htonl ((unsigned int) efn->size);
- ibuf[2] = (int) htonl ((unsigned int) efn->data_size);
- ibuf[3] = (int) htonl ((unsigned int) efn->name_offset);
- ibuf[4] = (int) htonl ((unsigned int) efn->name_size);
- ibuf[5] = (int) htonl ((unsigned int) flag);
+ ibuf[0] = (int)htonl ((unsigned int)efn->offset);
+ ibuf[1] = (int)htonl ((unsigned int)efn->size);
+ ibuf[2] = (int)htonl ((unsigned int)efn->data_size);
+ ibuf[3] = (int)htonl ((unsigned int)efn->name_offset);
+ ibuf[4] = (int)htonl ((unsigned int)efn->name_size);
+ ibuf[5] = (int)htonl ((unsigned int)flag);
if (fwrite(ibuf, sizeof(ibuf), 1, fp) != 1)
- goto write_error;
+ goto write_error;
}
}
/* write dictionnary */
if (ef->ed)
{
- int offset = strings_offset;
+ int offset = strings_offset;
for (j = 0; j < ef->ed->count; ++j)
{
- int sbuf[EET_FILE2_DICTIONARY_ENTRY_COUNT];
+ int sbuf[EET_FILE2_DICTIONARY_ENTRY_COUNT];
- sbuf[0] = (int) htonl ((unsigned int) ef->ed->all[j].hash);
- sbuf[1] = (int) htonl ((unsigned int) offset);
- sbuf[2] = (int) htonl ((unsigned int) ef->ed->all[j].len);
- sbuf[3] = (int) htonl ((unsigned int) ef->ed->all[j].prev);
- sbuf[4] = (int) htonl ((unsigned int) ef->ed->all[j].next);
+ sbuf[0] = (int)htonl ((unsigned int)ef->ed->all[j].hash);
+ sbuf[1] = (int)htonl ((unsigned int)offset);
+ sbuf[2] = (int)htonl ((unsigned int)ef->ed->all[j].len);
+ sbuf[3] = (int)htonl ((unsigned int)ef->ed->all[j].prev);
+ sbuf[4] = (int)htonl ((unsigned int)ef->ed->all[j].next);
offset += ef->ed->all[j].len;
if (fwrite(sbuf, sizeof (sbuf), 1, fp) != 1)
- goto write_error;
+ goto write_error;
}
}
for (efn = ef->header->directory->nodes[i]; efn; efn = efn->next)
{
if (fwrite(efn->name, efn->name_size, 1, fp) != 1)
- goto write_error;
+ goto write_error;
}
}
/* write strings */
if (ef->ed)
- {
- for (j = 0; j < ef->ed->count; ++j)
- {
- if (ef->ed->all[j].str)
- {
- if (fwrite(ef->ed->all[j].str, ef->ed->all[j].len, 1, fp) != 1)
- goto write_error;
- }
- else
- {
- if (fwrite(ef->ed->all[j].mmap, ef->ed->all[j].len, 1, fp) != 1)
- goto write_error;
- }
- }
- }
+ for (j = 0; j < ef->ed->count; ++j)
+ {
+ if (ef->ed->all[j].str)
+ {
+ if (fwrite(ef->ed->all[j].str, ef->ed->all[j].len, 1, fp) != 1)
+ goto write_error;
+ }
+ else if (fwrite(ef->ed->all[j].mmap, ef->ed->all[j].len, 1, fp) != 1)
+ goto write_error;
+ }
/* write data */
for (i = 0; i < num; i++)
for (efn = ef->header->directory->nodes[i]; efn; efn = efn->next)
{
if (fwrite(efn->data, efn->size, 1, fp) != 1)
- goto write_error;
+ goto write_error;
}
}
/* append signature if required */
if (ef->key)
{
- error = eet_identity_sign(fp, ef->key);
- if (error != EET_ERROR_NONE)
- goto sign_error;
+ error = eet_identity_sign(fp, ef->key);
+ if (error != EET_ERROR_NONE)
+ goto sign_error;
}
/* no more writes pending */
return EET_ERROR_NONE;
- write_error:
+write_error:
if (ferror(fp))
{
- switch (errno)
- {
- case EFBIG: error = EET_ERROR_WRITE_ERROR_FILE_TOO_BIG; break;
- case EIO: error = EET_ERROR_WRITE_ERROR_IO_ERROR; break;
- case ENOSPC: error = EET_ERROR_WRITE_ERROR_OUT_OF_SPACE; break;
- case EPIPE: error = EET_ERROR_WRITE_ERROR_FILE_CLOSED; break;
- default: error = EET_ERROR_WRITE_ERROR; break;
- }
+ switch (errno)
+ {
+ case EFBIG: error = EET_ERROR_WRITE_ERROR_FILE_TOO_BIG; break;
+
+ case EIO: error = EET_ERROR_WRITE_ERROR_IO_ERROR; break;
+
+ case ENOSPC: error = EET_ERROR_WRITE_ERROR_OUT_OF_SPACE; break;
+
+ case EPIPE: error = EET_ERROR_WRITE_ERROR_FILE_CLOSED; break;
+
+ default: error = EET_ERROR_WRITE_ERROR; break;
+ }
}
- sign_error:
+
+sign_error:
fclose(fp);
return error;
}
eet_init(void)
{
if (++eet_init_count != 1)
- return eet_init_count;
+ return eet_init_count;
if (!eina_init())
{
- fprintf(stderr, "Eet: Eina init failed");
- return --eet_init_count;
+ fprintf(stderr, "Eet: Eina init failed");
+ return --eet_init_count;
}
+
_eet_log_dom_global = eina_log_domain_register("Eet", EET_DEFAULT_LOG_COLOR);
if (_eet_log_dom_global < 0)
{
- EINA_LOG_ERR("Eet Can not create a general log domain.");
- goto shutdown_eina;
+ EINA_LOG_ERR("Eet Can not create a general log domain.");
+ goto shutdown_eina;
}
if (!eet_node_init())
{
- EINA_LOG_ERR("Eet: Eet_Node mempool creation failed");
- goto unregister_log_domain;
+ EINA_LOG_ERR("Eet: Eet_Node mempool creation failed");
+ goto unregister_log_domain;
}
#ifdef HAVE_GNUTLS
/* Before the library can be used, it must initialize itself if needed. */
if (gcry_control (GCRYCTL_ANY_INITIALIZATION_P) == 0)
{
- gcry_check_version(NULL);
- /* Disable warning messages about problems with the secure memory subsystem.
- This command should be run right after gcry_check_version. */
- if (gcry_control(GCRYCTL_DISABLE_SECMEM_WARN))
- goto shutdown_eet;
- /* This command is used to allocate a pool of secure memory and thus
- enabling the use of secure memory. It also drops all extra privileges the
- process has (i.e. if it is run as setuid (root)). If the argument nbytes
- is 0, secure memory will be disabled. The minimum amount of secure memory
- allocated is currently 16384 bytes; you may thus use a value of 1 to
- request that default size. */
- if (gcry_control(GCRYCTL_INIT_SECMEM, 16384, 0))
- WRN("BIG FAT WARNING: I AM UNABLE TO REQUEST SECMEM, Cryptographic operation are at risk !");
+ gcry_check_version(NULL);
+ /* Disable warning messages about problems with the secure memory subsystem.
+ This command should be run right after gcry_check_version. */
+ if (gcry_control(GCRYCTL_DISABLE_SECMEM_WARN))
+ goto shutdown_eet; /* This command is used to allocate a pool of secure memory and thus
+ enabling the use of secure memory. It also drops all extra privileges the
+ process has (i.e. if it is run as setuid (root)). If the argument nbytes
+ is 0, secure memory will be disabled. The minimum amount of secure memory
+ allocated is currently 16384 bytes; you may thus use a value of 1 to
+ request that default size. */
+
+ if (gcry_control(GCRYCTL_INIT_SECMEM, 16384, 0))
+ WRN(
+ "BIG FAT WARNING: I AM UNABLE TO REQUEST SECMEM, Cryptographic operation are at risk !");
}
+
if (gnutls_global_init())
- goto shutdown_eet;
+ goto shutdown_eet;
+
#endif
#ifdef HAVE_OPENSSL
ERR_load_crypto_strings();
return eet_init_count;
- shutdown_eet:
+shutdown_eet:
eet_node_shutdown();
- unregister_log_domain:
+unregister_log_domain:
eina_log_domain_unregister(_eet_log_dom_global);
_eet_log_dom_global = -1;
- shutdown_eina:
+shutdown_eina:
eina_shutdown();
return --eet_init_count;
}
eet_shutdown(void)
{
if (--eet_init_count != 0)
- return eet_init_count;
+ return eet_init_count;
eet_clearcache();
eet_node_shutdown();
Eet_Error ret;
if (eet_check_pointer(ef))
- return EET_ERROR_BAD_OBJECT;
+ return EET_ERROR_BAD_OBJECT;
if ((ef->mode != EET_FILE_MODE_WRITE) &&
(ef->mode != EET_FILE_MODE_READ_WRITE))
- return EET_ERROR_NOT_WRITABLE;
+ return EET_ERROR_NOT_WRITABLE;
if (!ef->writes_pending)
- return EET_ERROR_NONE;
+ return EET_ERROR_NONE;
LOCK_FILE(ef);
EAPI void
eet_clearcache(void)
{
- int num = 0;
- int i;
+ int num = 0;
+ int i;
/*
* We need to compute the list of eet file to close separately from the cache,
LOCK_CACHE;
for (i = 0; i < eet_writers_num; i++)
{
- if (eet_writers[i]->references <= 0) num++;
+ if (eet_writers[i]->references <= 0)
+ num++;
}
for (i = 0; i < eet_readers_num; i++)
{
- if (eet_readers[i]->references <= 0) num++;
+ if (eet_readers[i]->references <= 0)
+ num++;
}
if (num > 0)
{
- Eet_File **closelist = NULL;
-
- closelist = alloca(num * sizeof(Eet_File *));
- num = 0;
- for (i = 0; i < eet_writers_num; i++)
- {
- if (eet_writers[i]->references <= 0)
- {
- closelist[num] = eet_writers[i];
- eet_writers[i]->delete_me_now = 1;
- num++;
- }
- }
-
- for (i = 0; i < eet_readers_num; i++)
- {
- if (eet_readers[i]->references <= 0)
- {
- closelist[num] = eet_readers[i];
- eet_readers[i]->delete_me_now = 1;
- num++;
- }
- }
-
- for (i = 0; i < num; i++)
- {
- eet_internal_close(closelist[i], EINA_TRUE);
- }
+ Eet_File **closelist = NULL;
+
+ closelist = alloca(num * sizeof(Eet_File *));
+ num = 0;
+ for (i = 0; i < eet_writers_num; i++)
+ {
+ if (eet_writers[i]->references <= 0)
+ {
+ closelist[num] = eet_writers[i];
+ eet_writers[i]->delete_me_now = 1;
+ num++;
+ }
+ }
+
+ for (i = 0; i < eet_readers_num; i++)
+ {
+ if (eet_readers[i]->references <= 0)
+ {
+ closelist[num] = eet_readers[i];
+ eet_readers[i]->delete_me_now = 1;
+ num++;
+ }
+ }
+
+ for (i = 0; i < num; i++)
+ {
+ eet_internal_close(closelist[i], EINA_TRUE);
+ }
}
+
UNLOCK_CACHE;
}
static Eet_File *
eet_internal_read2(Eet_File *ef)
{
- const int *data = (const int*) ef->data;
- const char *start = (const char*) ef->data;
- int idx = 0;
- int num_directory_entries;
- int bytes_directory_entries;
- int num_dictionary_entries;
- int bytes_dictionary_entries;
- int signature_base_offset;
- int i;
+ const int *data = (const int *)ef->data;
+ const char *start = (const char *)ef->data;
+ int idx = 0;
+ int num_directory_entries;
+ int bytes_directory_entries;
+ int num_dictionary_entries;
+ int bytes_dictionary_entries;
+ int signature_base_offset;
+ int i;
idx += sizeof(int);
- if (eet_test_close((int) ntohl(*data) != EET_MAGIC_FILE2, ef))
- return NULL;
+ if (eet_test_close((int)ntohl(*data) != EET_MAGIC_FILE2, ef))
+ return NULL;
+
data++;
#define GET_INT(Value, Pointer, Index) \
}
/* get entries count and byte count */
- GET_INT(num_directory_entries, data, idx);
+ GET_INT(num_directory_entries, data, idx);
/* get dictionary count and byte count */
GET_INT(num_dictionary_entries, data, idx);
- bytes_directory_entries = EET_FILE2_DIRECTORY_ENTRY_SIZE * num_directory_entries + EET_FILE2_HEADER_SIZE;
- bytes_dictionary_entries = EET_FILE2_DICTIONARY_ENTRY_SIZE * num_dictionary_entries;
+ bytes_directory_entries = EET_FILE2_DIRECTORY_ENTRY_SIZE *
+ num_directory_entries + EET_FILE2_HEADER_SIZE;
+ bytes_dictionary_entries = EET_FILE2_DICTIONARY_ENTRY_SIZE *
+ num_dictionary_entries;
/* we cant have <= 0 values here - invalid */
if (eet_test_close((num_directory_entries <= 0), ef))
- return NULL;
+ return NULL;
/* we cant have more bytes directory and bytes in dictionaries than the size of the file */
- if (eet_test_close((bytes_directory_entries + bytes_dictionary_entries) > ef->data_size, ef))
- return NULL;
+ if (eet_test_close((bytes_directory_entries + bytes_dictionary_entries) >
+ ef->data_size, ef))
+ return NULL;
/* allocate header */
ef->header = calloc(1, sizeof(Eet_File_Header));
if (eet_test_close(!ef->header, ef))
- return NULL;
+ return NULL;
ef->header->magic = EET_MAGIC_FILE_HEADER;
/* allocate directory block in ram */
ef->header->directory = calloc(1, sizeof(Eet_File_Directory));
if (eet_test_close(!ef->header->directory, ef))
- return NULL;
+ return NULL;
/* 8 bit hash table (256 buckets) */
ef->header->directory->size = 8;
/* allocate base hash table */
- ef->header->directory->nodes = calloc(1, sizeof(Eet_File_Node *) * (1 << ef->header->directory->size));
+ ef->header->directory->nodes =
+ calloc(1, sizeof(Eet_File_Node *) * (1 << ef->header->directory->size));
if (eet_test_close(!ef->header->directory->nodes, ef))
- return NULL;
+ return NULL;
signature_base_offset = 0;
/* actually read the directory block - all of it, into ram */
for (i = 0; i < num_directory_entries; ++i)
{
- const char *name;
- Eet_File_Node *efn;
- int name_offset;
- int name_size;
- int hash;
- int flag;
+ const char *name;
+ Eet_File_Node *efn;
+ int name_offset;
+ int name_size;
+ int hash;
+ int flag;
/* out directory block is inconsistent - we have oveerun our */
/* dynamic block buffer before we finished scanning dir entries */
efn = malloc (sizeof(Eet_File_Node));
if (eet_test_close(!efn, ef))
- return NULL;
+ return NULL;
/* get entrie header */
- GET_INT(efn->offset, data, idx);
- GET_INT(efn->size, data, idx);
+ GET_INT(efn->offset, data, idx);
+ GET_INT(efn->size, data, idx);
GET_INT(efn->data_size, data, idx);
- GET_INT(name_offset, data, idx);
- GET_INT(name_size, data, idx);
- GET_INT(flag, data, idx);
+ GET_INT(name_offset, data, idx);
+ GET_INT(name_size, data, idx);
+ GET_INT(flag, data, idx);
- efn->compression = flag & 0x1 ? 1 : 0;
- efn->ciphered = flag & 0x2 ? 1 : 0;
- efn->alias = flag & 0x4 ? 1 : 0;
+ efn->compression = flag & 0x1 ? 1 : 0;
+ efn->ciphered = flag & 0x2 ? 1 : 0;
+ efn->alias = flag & 0x4 ? 1 : 0;
#define EFN_TEST(Test, Ef, Efn) \
- if (eet_test_close(Test, Ef)) \
- { \
- free(Efn); \
- return NULL; \
- }
+ if (eet_test_close(Test, Ef)) \
+ { \
+ free(Efn); \
+ return NULL; \
+ }
/* check data pointer position */
EFN_TEST(!((efn->size > 0)
&& (efn->offset + efn->size <= ef->data_size)
- && (efn->offset > bytes_dictionary_entries + bytes_directory_entries)), ef, efn);
+ && (efn->offset > bytes_dictionary_entries +
+ bytes_directory_entries)), ef, efn);
/* check name position */
EFN_TEST(!((name_size > 0)
&& (name_offset + name_size < ef->data_size)
- && (name_offset >= bytes_dictionary_entries + bytes_directory_entries)), ef, efn);
+ && (name_offset >= bytes_dictionary_entries +
+ bytes_directory_entries)), ef, efn);
name = start + name_offset;
EFN_TEST(name[name_size - 1] != '\0', ef, efn);
efn->free_name = 0;
- efn->name = (char*) name;
+ efn->name = (char *)name;
efn->name_size = name_size;
hash = _eet_hash_gen(efn->name, ef->header->directory->size);
/* read-only mode, so currently we have no data loaded */
if (ef->mode == EET_FILE_MODE_READ)
- efn->data = NULL;
- /* read-write mode - read everything into ram */
+ efn->data = NULL; /* read-write mode - read everything into ram */
else
{
efn->data = malloc(efn->size);
if (efn->data)
- memcpy(efn->data, ef->data + efn->offset, efn->size);
+ memcpy(efn->data, ef->data + efn->offset, efn->size);
}
- /* compute the possible position of a signature */
- if (signature_base_offset < efn->offset + efn->size)
- signature_base_offset = efn->offset + efn->size;
+ /* compute the possible position of a signature */
+ if (signature_base_offset < efn->offset + efn->size)
+ signature_base_offset = efn->offset + efn->size;
}
ef->ed = NULL;
if (num_dictionary_entries)
{
- const int *dico = (const int*) ef->data + EET_FILE2_DIRECTORY_ENTRY_COUNT * num_directory_entries + EET_FILE2_HEADER_COUNT;
- int j;
+ const int *dico = (const int *)ef->data +
+ EET_FILE2_DIRECTORY_ENTRY_COUNT * num_directory_entries +
+ EET_FILE2_HEADER_COUNT;
+ int j;
- if (eet_test_close((num_dictionary_entries * (int) EET_FILE2_DICTIONARY_ENTRY_SIZE + idx) > (bytes_dictionary_entries + bytes_directory_entries), ef))
- return NULL;
+ if (eet_test_close((num_dictionary_entries *
+ (int)EET_FILE2_DICTIONARY_ENTRY_SIZE + idx) >
+ (bytes_dictionary_entries + bytes_directory_entries),
+ ef))
+ return NULL;
ef->ed = calloc(1, sizeof (Eet_Dictionary));
- if (eet_test_close(!ef->ed, ef)) return NULL;
+ if (eet_test_close(!ef->ed, ef))
+ return NULL;
ef->ed->all = calloc(num_dictionary_entries, sizeof (Eet_String));
- if (eet_test_close(!ef->ed->all, ef)) return NULL;
+ if (eet_test_close(!ef->ed->all, ef))
+ return NULL;
ef->ed->count = num_dictionary_entries;
- ef->ed->total = num_dictionary_entries;
- ef->ed->start = start + bytes_dictionary_entries + bytes_directory_entries;
- ef->ed->end = ef->ed->start;
+ ef->ed->total = num_dictionary_entries;
+ ef->ed->start = start + bytes_dictionary_entries +
+ bytes_directory_entries;
+ ef->ed->end = ef->ed->start;
for (j = 0; j < ef->ed->count; ++j)
{
- int hash;
- int offset;
+ int hash;
+ int offset;
- GET_INT(hash, dico, idx);
- GET_INT(offset, dico, idx);
- GET_INT(ef->ed->all[j].len, dico, idx);
+ GET_INT(hash, dico, idx);
+ GET_INT(offset, dico, idx);
+ GET_INT(ef->ed->all[j].len, dico, idx);
GET_INT(ef->ed->all[j].prev, dico, idx);
GET_INT(ef->ed->all[j].next, dico, idx);
/* Hash value could be stored on 8bits data, but this will break alignment of all the others data.
So stick to int and check the value. */
- if (eet_test_close(hash & 0xFFFFFF00, ef)) return NULL;
+ if (eet_test_close(hash & 0xFFFFFF00, ef))
+ return NULL;
/* Check string position */
if (eet_test_close(!((ef->ed->all[j].len > 0)
- && (offset > (bytes_dictionary_entries + bytes_directory_entries))
- && (offset + ef->ed->all[j].len < ef->data_size)), ef))
- return NULL;
+ && (offset >
+ (bytes_dictionary_entries +
+ bytes_directory_entries))
+ && (offset + ef->ed->all[j].len <
+ ef->data_size)), ef))
+ return NULL;
ef->ed->all[j].mmap = start + offset;
ef->ed->all[j].str = NULL;
- if (ef->ed->all[j].mmap + ef->ed->all[j].len > ef->ed->end)
- ef->ed->end = ef->ed->all[j].mmap + ef->ed->all[j].len;
+ if (ef->ed->all[j].mmap + ef->ed->all[j].len > ef->ed->end)
+ ef->ed->end = ef->ed->all[j].mmap + ef->ed->all[j].len;
/* Check '\0' at the end of the string */
- if (eet_test_close(ef->ed->all[j].mmap[ef->ed->all[j].len - 1] != '\0', ef)) return NULL;
+ if (eet_test_close(ef->ed->all[j].mmap[ef->ed->all[j].len - 1] !=
+ '\0', ef))
+ return NULL;
- ef->ed->all[j].hash = hash;
+ ef->ed->all[j].hash = hash;
if (ef->ed->all[j].prev == -1)
- ef->ed->hash[hash] = j;
+ ef->ed->hash[hash] = j;
- /* compute the possible position of a signature */
- if (signature_base_offset < offset + ef->ed->all[j].len)
- signature_base_offset = offset + ef->ed->all[j].len;
+ /* compute the possible position of a signature */
+ if (signature_base_offset < offset + ef->ed->all[j].len)
+ signature_base_offset = offset + ef->ed->all[j].len;
}
}
if (signature_base_offset < ef->data_size)
{
#ifdef HAVE_SIGNATURE
- const unsigned char *buffer = ((const unsigned char*) ef->data) + signature_base_offset;
- ef->x509_der = eet_identity_check(ef->data, signature_base_offset,
- &ef->sha1, &ef->sha1_length,
- buffer, ef->data_size - signature_base_offset,
- &ef->signature, &ef->signature_length,
- &ef->x509_length);
-
- if (eet_test_close(ef->x509_der == NULL, ef)) return NULL;
+ const unsigned char *buffer = ((const unsigned char *)ef->data) +
+ signature_base_offset;
+ ef->x509_der = eet_identity_check(ef->data,
+ signature_base_offset,
+ &ef->sha1,
+ &ef->sha1_length,
+ buffer,
+ ef->data_size - signature_base_offset,
+ &ef->signature,
+ &ef->signature_length,
+ &ef->x509_length);
+
+ if (eet_test_close(ef->x509_der == NULL, ef))
+ return NULL;
+
#else
- ERR("This file could be signed but you didn't compile the necessary code to check the signature.");
+ ERR(
+ "This file could be signed but you didn't compile the necessary code to check the signature.");
#endif
}
static Eet_File *
eet_internal_read1(Eet_File *ef)
{
- const unsigned char *dyn_buf = NULL;
- const unsigned char *p = NULL;
- int idx = 0;
- int num_entries;
- int byte_entries;
- int i;
+ const unsigned char *dyn_buf = NULL;
+ const unsigned char *p = NULL;
+ int idx = 0;
+ int num_entries;
+ int byte_entries;
+ int i;
- WRN("EET file format of '%s' is deprecated. You should just open it one time with mode == EET_FILE_MODE_READ_WRITE to solve this issue.", ef->path);
+ WRN(
+ "EET file format of '%s' is deprecated. You should just open it one time with mode == EET_FILE_MODE_READ_WRITE to solve this issue.",
+ ef->path);
/* build header table if read mode */
/* geat header */
idx += sizeof(int);
if (eet_test_close((int)ntohl(*((int *)ef->data)) != EET_MAGIC_FILE, ef))
- return NULL;
+ return NULL;
#define EXTRACT_INT(Value, Pointer, Index) \
- { \
- int tmp; \
- memcpy(&tmp, Pointer + Index, sizeof(int)); \
- Value = ntohl(tmp); \
- Index += sizeof(int); \
- }
+ { \
+ int tmp; \
+ memcpy(&tmp, Pointer + Index, sizeof(int)); \
+ Value = ntohl(tmp); \
+ Index += sizeof(int); \
+ }
/* get entries count and byte count */
- EXTRACT_INT(num_entries, ef->data, idx);
+ EXTRACT_INT(num_entries, ef->data, idx);
EXTRACT_INT(byte_entries, ef->data, idx);
/* we cant have <= 0 values here - invalid */
if (eet_test_close((num_entries <= 0) || (byte_entries <= 0), ef))
- return NULL;
+ return NULL;
/* we can't have more entires than minimum bytes for those! invalid! */
if (eet_test_close((num_entries * 20) > byte_entries, ef))
- return NULL;
+ return NULL;
/* check we will not outrun the file limit */
- if (eet_test_close(((byte_entries + (int) sizeof(int) * 3) > ef->data_size), ef))
- return NULL;
+ if (eet_test_close(((byte_entries + (int)sizeof(int) * 3) > ef->data_size),
+ ef))
+ return NULL;
/* allocate header */
ef->header = calloc(1, sizeof(Eet_File_Header));
if (eet_test_close(!ef->header, ef))
- return NULL;
+ return NULL;
ef->header->magic = EET_MAGIC_FILE_HEADER;
/* allocate directory block in ram */
ef->header->directory = calloc(1, sizeof(Eet_File_Directory));
if (eet_test_close(!ef->header->directory, ef))
- return NULL;
+ return NULL;
/* 8 bit hash table (256 buckets) */
ef->header->directory->size = 8;
/* allocate base hash table */
- ef->header->directory->nodes = calloc(1, sizeof(Eet_File_Node *) * (1 << ef->header->directory->size));
+ ef->header->directory->nodes =
+ calloc(1, sizeof(Eet_File_Node *) * (1 << ef->header->directory->size));
if (eet_test_close(!ef->header->directory->nodes, ef))
- return NULL;
+ return NULL;
/* actually read the directory block - all of it, into ram */
dyn_buf = ef->data + idx;
for (i = 0; i < num_entries; i++)
{
- Eet_File_Node *efn;
- void *data = NULL;
- int indexn = 0;
- int name_size;
- int hash;
- int k;
+ Eet_File_Node *efn;
+ void *data = NULL;
+ int indexn = 0;
+ int name_size;
+ int hash;
+ int k;
#define HEADER_SIZE (sizeof(int) * 5)
- /* out directory block is inconsistent - we have oveerun our */
- /* dynamic block buffer before we finished scanning dir entries */
- if (eet_test_close(p + HEADER_SIZE >= (dyn_buf + byte_entries), ef))
- return NULL;
+ /* out directory block is inconsistent - we have oveerun our */
+ /* dynamic block buffer before we finished scanning dir entries */
+ if (eet_test_close(p + HEADER_SIZE >= (dyn_buf + byte_entries), ef))
+ return NULL;
- /* allocate all the ram needed for this stored node accounting */
- efn = malloc (sizeof(Eet_File_Node));
- if (eet_test_close(!efn, ef))
- return NULL;
+ /* allocate all the ram needed for this stored node accounting */
+ efn = malloc (sizeof(Eet_File_Node));
+ if (eet_test_close(!efn, ef))
+ return NULL;
/* get entrie header */
- EXTRACT_INT(efn->offset, p, indexn);
- EXTRACT_INT(efn->compression, p, indexn);
- EXTRACT_INT(efn->size, p, indexn);
- EXTRACT_INT(efn->data_size, p, indexn);
- EXTRACT_INT(name_size, p, indexn);
+ EXTRACT_INT(efn->offset, p, indexn);
+ EXTRACT_INT(efn->compression, p, indexn);
+ EXTRACT_INT(efn->size, p, indexn);
+ EXTRACT_INT(efn->data_size, p, indexn);
+ EXTRACT_INT(name_size, p, indexn);
efn->name_size = name_size;
- efn->ciphered = 0;
- efn->alias = 0;
-
- /* invalid size */
- if (eet_test_close(efn->size <= 0, ef))
- {
- free (efn);
- return NULL;
- }
-
- /* invalid name_size */
- if (eet_test_close(name_size <= 0, ef))
- {
- free (efn);
- return NULL;
- }
-
- /* reading name would mean falling off end of dyn_buf - invalid */
- if (eet_test_close((p + 16 + name_size) > (dyn_buf + byte_entries), ef))
- {
- free (efn);
- return NULL;
- }
-
- /* This code is useless if we dont want backward compatibility */
- for (k = name_size; k > 0 && ((unsigned char) * (p + HEADER_SIZE + k)) != 0; --k)
- ;
-
- efn->free_name = ((unsigned char) * (p + HEADER_SIZE + k)) != 0;
-
- if (efn->free_name)
- {
- efn->name = malloc(sizeof(char) * name_size + 1);
- if (eet_test_close(efn->name == NULL, ef))
- {
- free(efn);
- return NULL;
- }
-
- strncpy(efn->name, (char *)p + HEADER_SIZE, name_size);
- efn->name[name_size] = 0;
-
- WRN("File: %s is not up to date for key \"%s\" - needs rebuilding sometime", ef->path, efn->name);
- }
- else
- /* The only really usefull peace of code for efn->name (no backward compatibility) */
- efn->name = (char*)((unsigned char*)(p + HEADER_SIZE));
-
- /* get hash bucket it should go in */
- hash = _eet_hash_gen(efn->name, ef->header->directory->size);
- efn->next = ef->header->directory->nodes[hash];
- ef->header->directory->nodes[hash] = efn;
-
- /* read-only mode, so currently we have no data loaded */
- if (ef->mode == EET_FILE_MODE_READ)
- efn->data = NULL;
- /* read-write mode - read everything into ram */
- else
- {
- data = malloc(efn->size);
- if (data)
- memcpy(data, ef->data + efn->offset, efn->size);
- efn->data = data;
- }
- /* advance */
- p += HEADER_SIZE + name_size;
+ efn->ciphered = 0;
+ efn->alias = 0;
+
+ /* invalid size */
+ if (eet_test_close(efn->size <= 0, ef))
+ {
+ free (efn);
+ return NULL;
+ }
+
+ /* invalid name_size */
+ if (eet_test_close(name_size <= 0, ef))
+ {
+ free (efn);
+ return NULL;
+ }
+
+ /* reading name would mean falling off end of dyn_buf - invalid */
+ if (eet_test_close((p + 16 + name_size) > (dyn_buf + byte_entries), ef))
+ {
+ free (efn);
+ return NULL;
+ }
+
+ /* This code is useless if we dont want backward compatibility */
+ for (k = name_size;
+ k > 0 && ((unsigned char)*(p + HEADER_SIZE + k)) != 0; --k)
+ ;
+
+ efn->free_name = ((unsigned char)*(p + HEADER_SIZE + k)) != 0;
+
+ if (efn->free_name)
+ {
+ efn->name = malloc(sizeof(char) * name_size + 1);
+ if (eet_test_close(efn->name == NULL, ef))
+ {
+ free(efn);
+ return NULL;
+ }
+
+ strncpy(efn->name, (char *)p + HEADER_SIZE, name_size);
+ efn->name[name_size] = 0;
+
+ WRN(
+ "File: %s is not up to date for key \"%s\" - needs rebuilding sometime",
+ ef->path,
+ efn->name);
+ }
+ else
+ /* The only really usefull peace of code for efn->name (no backward compatibility) */
+ efn->name = (char *)((unsigned char *)(p + HEADER_SIZE));
+
+ /* get hash bucket it should go in */
+ hash = _eet_hash_gen(efn->name, ef->header->directory->size);
+ efn->next = ef->header->directory->nodes[hash];
+ ef->header->directory->nodes[hash] = efn;
+
+ /* read-only mode, so currently we have no data loaded */
+ if (ef->mode == EET_FILE_MODE_READ)
+ efn->data = NULL; /* read-write mode - read everything into ram */
+ else
+ {
+ data = malloc(efn->size);
+ if (data)
+ memcpy(data, ef->data + efn->offset, efn->size);
+
+ efn->data = data;
+ }
+
+ /* advance */
+ p += HEADER_SIZE + name_size;
}
return ef;
}
static Eet_File *
eet_internal_read(Eet_File *ef)
{
- const int *data = (const int*) ef->data;
+ const int *data = (const int *)ef->data;
if (eet_test_close((ef->data == (void *)-1) || (ef->data == NULL), ef))
- return NULL;
+ return NULL;
- if (eet_test_close(ef->data_size < (int) sizeof(int) * 3, ef))
- return NULL;
+ if (eet_test_close(ef->data_size < (int)sizeof(int) * 3, ef))
+ return NULL;
switch (ntohl(*data))
{
#if EET_OLD_EET_FILE_FORMAT
case EET_MAGIC_FILE:
- return eet_internal_read1(ef);
+ return eet_internal_read1(ef);
+
#endif
case EET_MAGIC_FILE2:
- return eet_internal_read2(ef);
+ return eet_internal_read2(ef);
+
default:
- ef->delete_me_now = 1;
- eet_internal_close(ef, EINA_TRUE);
- break;
+ ef->delete_me_now = 1;
+ eet_internal_close(ef, EINA_TRUE);
+ break;
}
return NULL;
/* check to see its' an eet file pointer */
if (eet_check_pointer(ef))
- return EET_ERROR_BAD_OBJECT;
+ return EET_ERROR_BAD_OBJECT;
- if (!locked) LOCK_CACHE;
+ if (!locked)
+ LOCK_CACHE;
/* deref */
ef->references--;
/* if its still referenced - dont go any further */
- if (ef->references > 0) goto on_error;
- /* flush any writes */
+ if (ef->references > 0)
+ goto on_error; /* flush any writes */
+
err = eet_flush2(ef);
eet_identity_unref(ef->key);
/* if not urgent to delete it - dont free it - leave it in cache */
if ((!ef->delete_me_now) && (ef->mode == EET_FILE_MODE_READ))
- goto on_error;
+ goto on_error;
/* remove from cache */
if (ef->mode == EET_FILE_MODE_READ)
- eet_cache_del(ef, &eet_readers, &eet_readers_num, &eet_readers_alloc);
- else if ((ef->mode == EET_FILE_MODE_WRITE) || (ef->mode == EET_FILE_MODE_READ_WRITE))
- eet_cache_del(ef, &eet_writers, &eet_writers_num, &eet_writers_alloc);
+ eet_cache_del(ef, &eet_readers, &eet_readers_num, &eet_readers_alloc);
+ else if ((ef->mode == EET_FILE_MODE_WRITE) ||
+ (ef->mode == EET_FILE_MODE_READ_WRITE))
+ eet_cache_del(ef, &eet_writers, &eet_writers_num, &eet_writers_alloc);
/* we can unlock the cache now */
- if (!locked) UNLOCK_CACHE;
+ if (!locked)
+ UNLOCK_CACHE;
DESTROY_FILE(ef);
/* free up data */
if (ef->header)
{
- if (ef->header->directory)
- {
- if (ef->header->directory->nodes)
- {
- int i, num;
-
- num = (1 << ef->header->directory->size);
- for (i = 0; i < num; i++)
- {
- Eet_File_Node *efn;
-
- while ((efn = ef->header->directory->nodes[i]))
- {
- if (efn->data)
- free(efn->data);
-
- ef->header->directory->nodes[i] = efn->next;
-
- if (efn->free_name)
- free(efn->name);
-
- free(efn);
- }
- }
- free(ef->header->directory->nodes);
- }
- free(ef->header->directory);
- }
- free(ef->header);
+ if (ef->header->directory)
+ {
+ if (ef->header->directory->nodes)
+ {
+ int i, num;
+
+ num = (1 << ef->header->directory->size);
+ for (i = 0; i < num; i++)
+ {
+ Eet_File_Node *efn;
+
+ while ((efn = ef->header->directory->nodes[i]))
+ {
+ if (efn->data)
+ free(efn->data);
+
+ ef->header->directory->nodes[i] = efn->next;
+
+ if (efn->free_name)
+ free(efn->name);
+
+ free(efn);
+ }
+ }
+ free(ef->header->directory->nodes);
+ }
+
+ free(ef->header->directory);
+ }
+
+ free(ef->header);
}
- eet_dictionary_free(ef->ed);
+ eet_dictionary_free(ef->ed);
+
+ if (ef->sha1)
+ free(ef->sha1);
- if (ef->sha1) free(ef->sha1);
- if (ef->data) munmap((void*)ef->data, ef->data_size);
- if (ef->readfp) fclose(ef->readfp);
+ if (ef->data)
+ munmap((void *)ef->data, ef->data_size);
+
+ if (ef->readfp)
+ fclose(ef->readfp);
/* zero out ram for struct - caution tactic against stale memory use */
memset(ef, 0, sizeof(Eet_File));
free(ef);
return err;
- on_error:
- if (!locked) UNLOCK_CACHE;
+on_error:
+ if (!locked)
+ UNLOCK_CACHE;
+
return EET_ERROR_NONE;
}
EAPI Eet_File *
eet_memopen_read(const void *data, size_t size)
{
- Eet_File *ef;
+ Eet_File *ef;
if (data == NULL || size == 0)
- return NULL;
+ return NULL;
ef = malloc (sizeof (Eet_File));
if (!ef)
- return NULL;
+ return NULL;
INIT_FILE(ef);
ef->ed = NULL;
EAPI Eet_File *
eet_open(const char *file, Eet_File_Mode mode)
{
- FILE *fp;
- Eet_File *ef;
- int file_len;
- struct stat file_stat;
+ FILE *fp;
+ Eet_File *ef;
+ int file_len;
+ struct stat file_stat;
if (!file)
- return NULL;
+ return NULL;
/* find the current file handle in cache*/
ef = NULL;
LOCK_CACHE;
if (mode == EET_FILE_MODE_READ)
{
- ef = eet_cache_find((char *)file, eet_writers, eet_writers_num);
- if (ef)
- {
- eet_sync(ef);
- ef->references++;
- ef->delete_me_now = 1;
+ ef = eet_cache_find((char *)file, eet_writers, eet_writers_num);
+ if (ef)
+ {
+ eet_sync(ef);
+ ef->references++;
+ ef->delete_me_now = 1;
eet_internal_close(ef, EINA_TRUE);
- }
- ef = eet_cache_find((char *)file, eet_readers, eet_readers_num);
+ }
+
+ ef = eet_cache_find((char *)file, eet_readers, eet_readers_num);
}
else if ((mode == EET_FILE_MODE_WRITE) ||
- (mode == EET_FILE_MODE_READ_WRITE))
+ (mode == EET_FILE_MODE_READ_WRITE))
{
- ef = eet_cache_find((char *)file, eet_readers, eet_readers_num);
- if (ef)
- {
- ef->delete_me_now = 1;
- ef->references++;
+ ef = eet_cache_find((char *)file, eet_readers, eet_readers_num);
+ if (ef)
+ {
+ ef->delete_me_now = 1;
+ ef->references++;
eet_internal_close(ef, EINA_TRUE);
- }
- ef = eet_cache_find((char *)file, eet_writers, eet_writers_num);
+ }
+
+ ef = eet_cache_find((char *)file, eet_writers, eet_writers_num);
}
/* try open the file based on mode */
if ((mode == EET_FILE_MODE_READ) || (mode == EET_FILE_MODE_READ_WRITE))
{
- /* Prevent garbage in futur comparison. */
- file_stat.st_mtime = 0;
-
- fp = fopen(file, "rb");
- if (!fp) goto open_error;
- if (fstat(fileno(fp), &file_stat))
- {
- fclose(fp);
- fp = NULL;
- goto open_error;
- }
- if ((mode == EET_FILE_MODE_READ) &&
- (file_stat.st_size < ((int) sizeof(int) * 3)))
- {
- fclose(fp);
- fp = NULL;
- goto open_error;
- }
-
- open_error:
- if (fp == NULL && mode == EET_FILE_MODE_READ) goto on_error;
+ /* Prevent garbage in futur comparison. */
+ file_stat.st_mtime = 0;
+
+ fp = fopen(file, "rb");
+ if (!fp)
+ goto open_error;
+
+ if (fstat(fileno(fp), &file_stat))
+ {
+ fclose(fp);
+ fp = NULL;
+ goto open_error;
+ }
+
+ if ((mode == EET_FILE_MODE_READ) &&
+ (file_stat.st_size < ((int)sizeof(int) * 3)))
+ {
+ fclose(fp);
+ fp = NULL;
+ goto open_error;
+ }
+
+open_error:
+ if (fp == NULL && mode == EET_FILE_MODE_READ)
+ goto on_error;
}
else
{
- if (mode != EET_FILE_MODE_WRITE) return NULL;
- memset(&file_stat, 0, sizeof(file_stat));
+ if (mode != EET_FILE_MODE_WRITE)
+ return NULL;
+
+ memset(&file_stat, 0, sizeof(file_stat));
- fp = NULL;
+ fp = NULL;
}
/* We found one */
if (ef &&
- ((file_stat.st_mtime != ef->mtime) || (file_stat.st_size != ef->data_size)))
+ ((file_stat.st_mtime != ef->mtime) ||
+ (file_stat.st_size != ef->data_size)))
{
- ef->delete_me_now = 1;
- ef->references++;
+ ef->delete_me_now = 1;
+ ef->references++;
eet_internal_close(ef, EINA_TRUE);
- ef = NULL;
+ ef = NULL;
}
if (ef)
{
- /* reference it up and return it */
- if (fp != NULL) fclose(fp);
- ef->references++;
- UNLOCK_CACHE;
- return ef;
+ /* reference it up and return it */
+ if (fp != NULL)
+ fclose(fp);
+
+ ef->references++;
+ UNLOCK_CACHE;
+ return ef;
}
file_len = strlen(file) + 1;
/* Allocate struct for eet file and have it zero'd out */
ef = malloc(sizeof(Eet_File) + file_len);
if (!ef)
- goto on_error;
+ goto on_error;
/* fill some of the members */
INIT_FILE(ef);
ef->sha1_length = 0;
ef->ed = (mode == EET_FILE_MODE_WRITE)
- || (ef->readfp == NULL && mode == EET_FILE_MODE_READ_WRITE) ?
- eet_dictionary_add() : NULL;
+ || (ef->readfp == NULL && mode == EET_FILE_MODE_READ_WRITE) ?
+ eet_dictionary_add() : NULL;
if (ef->readfp == NULL &&
(mode == EET_FILE_MODE_READ_WRITE || mode == EET_FILE_MODE_WRITE))
- goto empty_file;
+ goto empty_file;
/* if we can't open - bail out */
if (eet_test_close(!ef->readfp, ef))
- goto on_error;
+ goto on_error;
fcntl(fileno(ef->readfp), F_SETFD, FD_CLOEXEC);
/* if we opened for read or read-write */
if ((mode == EET_FILE_MODE_READ) || (mode == EET_FILE_MODE_READ_WRITE))
{
- ef->data_size = file_stat.st_size;
- ef->data = mmap(NULL, ef->data_size, PROT_READ,
- MAP_SHARED, fileno(ef->readfp), 0);
- if (eet_test_close((ef->data == MAP_FAILED), ef))
- goto on_error;
- ef = eet_internal_read(ef);
- if (!ef)
- goto on_error;
+ ef->data_size = file_stat.st_size;
+ ef->data = mmap(NULL, ef->data_size, PROT_READ,
+ MAP_SHARED, fileno(ef->readfp), 0);
+ if (eet_test_close((ef->data == MAP_FAILED), ef))
+ goto on_error;
+
+ ef = eet_internal_read(ef);
+ if (!ef)
+ goto on_error;
}
- empty_file:
+empty_file:
/* add to cache */
if (ef->references == 1)
{
- if (ef->mode == EET_FILE_MODE_READ)
- eet_cache_add(ef, &eet_readers, &eet_readers_num, &eet_readers_alloc);
- else
- if ((ef->mode == EET_FILE_MODE_WRITE) || (ef->mode == EET_FILE_MODE_READ_WRITE))
- eet_cache_add(ef, &eet_writers, &eet_writers_num, &eet_writers_alloc);
+ if (ef->mode == EET_FILE_MODE_READ)
+ eet_cache_add(ef, &eet_readers, &eet_readers_num, &eet_readers_alloc);
+ else
+ if ((ef->mode == EET_FILE_MODE_WRITE) ||
+ (ef->mode == EET_FILE_MODE_READ_WRITE))
+ eet_cache_add(ef, &eet_writers, &eet_writers_num, &eet_writers_alloc);
}
UNLOCK_CACHE;
{
/* check to see its' an eet file pointer */
if ((!ef) || (ef->magic != EET_MAGIC_FILE))
- return EET_FILE_MODE_INVALID;
+ return EET_FILE_MODE_INVALID;
else
- return ef->mode;
+ return ef->mode;
}
EAPI const void *
eet_identity_x509(Eet_File *ef, int *der_length)
{
- if (!ef->x509_der) return NULL;
+ if (!ef->x509_der)
+ return NULL;
+
+ if (der_length)
+ *der_length = ef->x509_length;
- if (der_length) *der_length = ef->x509_length;
return ef->x509_der;
}
EAPI const void *
eet_identity_signature(Eet_File *ef, int *signature_length)
{
- if (!ef->signature) return NULL;
+ if (!ef->signature)
+ return NULL;
+
+ if (signature_length)
+ *signature_length = ef->signature_length;
- if (signature_length) *signature_length = ef->signature_length;
return ef->signature;
}
eet_identity_sha1(Eet_File *ef, int *sha1_length)
{
if (!ef->sha1)
- ef->sha1 = eet_identity_compute_sha1(ef->data, ef->data_size, &ef->sha1_length);
+ ef->sha1 = eet_identity_compute_sha1(ef->data,
+ ef->data_size,
+ &ef->sha1_length);
+
+ if (sha1_length)
+ *sha1_length = ef->sha1_length;
- if (sha1_length) *sha1_length = ef->sha1_length;
return ef->sha1;
}
{
Eet_Key *tmp = ef->key;
- if (!ef) return EET_ERROR_BAD_OBJECT;
+ if (!ef)
+ return EET_ERROR_BAD_OBJECT;
ef->key = key;
eet_identity_ref(ef->key);
}
EAPI void *
-eet_read_cipher(Eet_File *ef, const char *name, int *size_ret, const char *cipher_key)
+eet_read_cipher(Eet_File *ef,
+ const char *name,
+ int *size_ret,
+ const char *cipher_key)
{
Eet_File_Node *efn;
char *data = NULL;
int size = 0;
if (size_ret)
- *size_ret = 0;
+ *size_ret = 0;
/* check to see its' an eet file pointer */
if (eet_check_pointer(ef))
- return NULL;
+ return NULL;
+
if (!name)
- return NULL;
+ return NULL;
+
if ((ef->mode != EET_FILE_MODE_READ) &&
(ef->mode != EET_FILE_MODE_READ_WRITE))
- return NULL;
+ return NULL;
/* no header, return NULL */
if (eet_check_header(ef))
- return NULL;
+ return NULL;
LOCK_FILE(ef);
/* hunt hash bucket */
efn = find_node_by_name(ef, name);
- if (!efn) goto on_error;
+ if (!efn)
+ goto on_error;
/* get size (uncompressed, if compressed at all) */
size = efn->data_size;
/* allocate data */
data = malloc(size);
- if (!data) goto on_error;
+ if (!data)
+ goto on_error;
/* uncompressed data */
if (efn->compression == 0)
{
void *data_deciphered = NULL;
- unsigned int data_deciphered_sz = 0;
- /* if we alreayd have the data in ram... copy that */
-
- if (efn->data)
- memcpy(data, efn->data, efn->size);
- else
- if (!read_data_from_disk(ef, efn, data, size))
- goto on_error;
+ unsigned int data_deciphered_sz = 0;
+ /* if we alreayd have the data in ram... copy that */
+
+ if (efn->data)
+ memcpy(data, efn->data, efn->size);
+ else
+ if (!read_data_from_disk(ef, efn, data, size))
+ goto on_error;
+
if (efn->ciphered && cipher_key)
- {
- if (eet_decipher(data, size, cipher_key, strlen(cipher_key), &data_deciphered, &data_deciphered_sz))
- {
- if (data_deciphered) free(data_deciphered);
- goto on_error;
- }
- free(data);
- data = data_deciphered;
- size = data_deciphered_sz;
- }
+ {
+ if (eet_decipher(data, size, cipher_key, strlen(cipher_key),
+ &data_deciphered, &data_deciphered_sz))
+ {
+ if (data_deciphered)
+ free(data_deciphered);
+
+ goto on_error;
+ }
+
+ free(data);
+ data = data_deciphered;
+ size = data_deciphered_sz;
+ }
}
/* compressed data */
else
{
- void *tmp_data;
- void *data_deciphered = NULL;
- unsigned int data_deciphered_sz = 0;
- int free_tmp = 0;
- int compr_size = efn->size;
- uLongf dlen;
-
- /* if we already have the data in ram... copy that */
- if (efn->data)
- tmp_data = efn->data;
- else
- {
- tmp_data = malloc(compr_size);
- if (!tmp_data)
- goto on_error;
-
- free_tmp = 1;
-
- if (!read_data_from_disk(ef, efn, tmp_data, compr_size))
- {
- free(tmp_data);
- goto on_error;
- }
- }
-
- if (efn->ciphered && cipher_key)
- {
- if (eet_decipher(tmp_data, compr_size, cipher_key, strlen(cipher_key), &data_deciphered, &data_deciphered_sz))
- {
- if (free_tmp) free(tmp_data);
- if (data_deciphered) free(data_deciphered);
- goto on_error;
- }
- free(tmp_data);
- tmp_data = data_deciphered;
- compr_size = data_deciphered_sz;
- }
-
- /* decompress it */
- dlen = size;
- if (uncompress((Bytef *)data, &dlen,
- tmp_data, (uLongf)compr_size))
- goto on_error;
-
- if (free_tmp)
- free(tmp_data);
+ void *tmp_data;
+ void *data_deciphered = NULL;
+ unsigned int data_deciphered_sz = 0;
+ int free_tmp = 0;
+ int compr_size = efn->size;
+ uLongf dlen;
+
+ /* if we already have the data in ram... copy that */
+ if (efn->data)
+ tmp_data = efn->data;
+ else
+ {
+ tmp_data = malloc(compr_size);
+ if (!tmp_data)
+ goto on_error;
+
+ free_tmp = 1;
+
+ if (!read_data_from_disk(ef, efn, tmp_data, compr_size))
+ {
+ free(tmp_data);
+ goto on_error;
+ }
+ }
+
+ if (efn->ciphered && cipher_key)
+ {
+ if (eet_decipher(tmp_data, compr_size, cipher_key,
+ strlen(cipher_key), &data_deciphered,
+ &data_deciphered_sz))
+ {
+ if (free_tmp)
+ free(tmp_data);
+
+ if (data_deciphered)
+ free(data_deciphered);
+
+ goto on_error;
+ }
+
+ free(tmp_data);
+ tmp_data = data_deciphered;
+ compr_size = data_deciphered_sz;
+ }
+
+ /* decompress it */
+ dlen = size;
+ if (uncompress((Bytef *)data, &dlen,
+ tmp_data, (uLongf)compr_size))
+ goto on_error;
+
+ if (free_tmp)
+ free(tmp_data);
}
- UNLOCK_FILE(ef);
+ UNLOCK_FILE(ef);
/* handle alias */
if (efn->alias)
{
- void *tmp;
+ void *tmp;
- if (data[size - 1] != '\0')
- goto on_error;
+ if (data[size - 1] != '\0')
+ goto on_error;
- tmp = eet_read_cipher(ef, data, size_ret, cipher_key);
+ tmp = eet_read_cipher(ef, data, size_ret, cipher_key);
- free(data);
+ free(data);
- data = tmp;
+ data = tmp;
}
else
- /* fill in return values */
- if (size_ret)
- *size_ret = size;
+ /* fill in return values */
+ if (size_ret)
+ *size_ret = size;
return data;
- on_error:
+on_error:
UNLOCK_FILE(ef);
free(data);
return NULL;
int size = 0;
if (size_ret)
- *size_ret = 0;
+ *size_ret = 0;
/* check to see its' an eet file pointer */
if (eet_check_pointer(ef))
- return NULL;
+ return NULL;
+
if (!name)
- return NULL;
+ return NULL;
+
if ((ef->mode != EET_FILE_MODE_READ) &&
(ef->mode != EET_FILE_MODE_READ_WRITE))
- return NULL;
+ return NULL;
/* no header, return NULL */
if (eet_check_header(ef))
- return NULL;
+ return NULL;
LOCK_FILE(ef);
/* hunt hash bucket */
efn = find_node_by_name(ef, name);
- if (!efn) goto on_error;
+ if (!efn)
+ goto on_error;
if (efn->offset < 0 && efn->data == NULL)
- goto on_error;
+ goto on_error;
/* get size (uncompressed, if compressed at all) */
size = efn->data_size;
if (efn->alias)
{
- data = efn->data ? efn->data : ef->data + efn->offset;
+ data = efn->data ? efn->data : ef->data + efn->offset;
- /* handle alias case */
- if (efn->compression)
- {
- char *tmp;
- int compr_size = efn->size;
- uLongf dlen;
+ /* handle alias case */
+ if (efn->compression)
+ {
+ char *tmp;
+ int compr_size = efn->size;
+ uLongf dlen;
+
+ tmp = alloca(sizeof (compr_size));
+ dlen = size;
- tmp = alloca(sizeof (compr_size));
- dlen = size;
+ if (uncompress((Bytef *)tmp, &dlen, (Bytef *)data,
+ (uLongf)compr_size))
+ goto on_error;
- if (uncompress((Bytef *)tmp, &dlen, (Bytef *) data, (uLongf)compr_size))
- goto on_error;
+ if (tmp[compr_size - 1] != '\0')
+ goto on_error;
- if (tmp[compr_size - 1] != '\0')
- goto on_error;
+ return eet_read_direct(ef, tmp, size_ret);
+ }
- return eet_read_direct(ef, tmp, size_ret);
- }
+ if (!data)
+ goto on_error;
- if (!data) goto on_error;
- if (data[size - 1] != '\0') goto on_error;
+ if (data[size - 1] != '\0')
+ goto on_error;
- return eet_read_direct(ef, data, size_ret);
+ return eet_read_direct(ef, data, size_ret);
}
else
- /* uncompressed data */
- if (efn->compression == 0
- && efn->ciphered == 0)
- data = efn->data ? efn->data : ef->data + efn->offset;
- /* compressed data */
- else
- data = NULL;
+ /* uncompressed data */
+ if (efn->compression == 0
+ && efn->ciphered == 0)
+ data = efn->data ? efn->data : ef->data + efn->offset; /* compressed data */
+ else
+ data = NULL;
/* fill in return values */
if (size_ret)
- *size_ret = size;
+ *size_ret = size;
UNLOCK_FILE(ef);
return data;
- on_error:
+on_error:
UNLOCK_FILE(ef);
return NULL;
}
/* check to see its' an eet file pointer */
if (eet_check_pointer(ef))
- return EINA_FALSE;
+ return EINA_FALSE;
+
if ((!name) || (!destination))
- return EINA_FALSE;
+ return EINA_FALSE;
+
if ((ef->mode != EET_FILE_MODE_WRITE) &&
(ef->mode != EET_FILE_MODE_READ_WRITE))
- return EINA_FALSE;
+ return EINA_FALSE;
LOCK_FILE(ef);
if (!ef->header)
{
- /* allocate header */
- ef->header = calloc(1, sizeof(Eet_File_Header));
- if (!ef->header)
- goto on_error;
-
- ef->header->magic = EET_MAGIC_FILE_HEADER;
- /* allocate directory block in ram */
- ef->header->directory = calloc(1, sizeof(Eet_File_Directory));
- if (!ef->header->directory)
- {
- free(ef->header);
- ef->header = NULL;
- goto on_error;
- }
-
- /* 8 bit hash table (256 buckets) */
- ef->header->directory->size = 8;
- /* allocate base hash table */
- ef->header->directory->nodes = calloc(1, sizeof(Eet_File_Node *) * (1 << ef->header->directory->size));
- if (!ef->header->directory->nodes)
- {
- free(ef->header->directory);
- ef->header = NULL;
- goto on_error;
- }
+ /* allocate header */
+ ef->header = calloc(1, sizeof(Eet_File_Header));
+ if (!ef->header)
+ goto on_error;
+
+ ef->header->magic = EET_MAGIC_FILE_HEADER;
+ /* allocate directory block in ram */
+ ef->header->directory = calloc(1, sizeof(Eet_File_Directory));
+ if (!ef->header->directory)
+ {
+ free(ef->header);
+ ef->header = NULL;
+ goto on_error;
+ }
+
+ /* 8 bit hash table (256 buckets) */
+ ef->header->directory->size = 8;
+ /* allocate base hash table */
+ ef->header->directory->nodes =
+ calloc(1, sizeof(Eet_File_Node *) *
+ (1 << ef->header->directory->size));
+ if (!ef->header->directory->nodes)
+ {
+ free(ef->header->directory);
+ ef->header = NULL;
+ goto on_error;
+ }
}
/* figure hash bucket */
hash = _eet_hash_gen(name, ef->header->directory->size);
data_size = comp ?
- 12 + (((strlen(destination) + 1) * 101) / 100)
- : strlen(destination) + 1;
+ 12 + (((strlen(destination) + 1) * 101) / 100)
+ : strlen(destination) + 1;
data2 = malloc(data_size);
- if (!data2) goto on_error;
+ if (!data2)
+ goto on_error;
/* if we want to compress */
if (comp)
{
- uLongf buflen;
-
- /* compress the data with max compression */
- buflen = (uLongf)data_size;
- if (compress2((Bytef *)data2, &buflen, (Bytef *)destination,
- (uLong)strlen(destination) + 1, Z_BEST_COMPRESSION) != Z_OK)
- {
- free(data2);
- goto on_error;
- }
- /* record compressed chunk size */
- data_size = (int)buflen;
- if (data_size < 0 || data_size >= (int) (strlen(destination) + 1))
- {
- comp = 0;
- data_size = strlen(destination) + 1;
- }
- else
- {
- void *data3;
-
- data3 = realloc(data2, data_size);
- if (data3)
- data2 = data3;
- }
+ uLongf buflen;
+
+ /* compress the data with max compression */
+ buflen = (uLongf)data_size;
+ if (compress2((Bytef *)data2, &buflen, (Bytef *)destination,
+ (uLong)strlen(destination) + 1,
+ Z_BEST_COMPRESSION) != Z_OK)
+ {
+ free(data2);
+ goto on_error;
+ }
+
+ /* record compressed chunk size */
+ data_size = (int)buflen;
+ if (data_size < 0 || data_size >= (int)(strlen(destination) + 1))
+ {
+ comp = 0;
+ data_size = strlen(destination) + 1;
+ }
+ else
+ {
+ void *data3;
+
+ data3 = realloc(data2, data_size);
+ if (data3)
+ data2 = data3;
+ }
}
if (!comp)
- memcpy(data2, destination, data_size);
+ memcpy(data2, destination, data_size);
/* Does this node already exist? */
for (efn = ef->header->directory->nodes[hash]; efn; efn = efn->next)
{
- /* if it matches */
- if ((efn->name) && (eet_string_match(efn->name, name)))
- {
- free(efn->data);
- efn->alias = 1;
- efn->ciphered = 0;
- efn->compression = !!comp;
- efn->size = data_size;
- efn->data_size = strlen(destination) + 1;
- efn->data = data2;
- efn->offset = -1;
- exists_already = EINA_TRUE;
- break;
- }
+ /* if it matches */
+ if ((efn->name) && (eet_string_match(efn->name, name)))
+ {
+ free(efn->data);
+ efn->alias = 1;
+ efn->ciphered = 0;
+ efn->compression = !!comp;
+ efn->size = data_size;
+ efn->data_size = strlen(destination) + 1;
+ efn->data = data2;
+ efn->offset = -1;
+ exists_already = EINA_TRUE;
+ break;
+ }
}
if (!exists_already)
{
- efn = malloc(sizeof(Eet_File_Node));
- if (!efn)
- {
- free(data2);
- goto on_error;
- }
- efn->name = strdup(name);
+ efn = malloc(sizeof(Eet_File_Node));
+ if (!efn)
+ {
+ free(data2);
+ goto on_error;
+ }
+
+ efn->name = strdup(name);
efn->name_size = strlen(efn->name) + 1;
efn->free_name = 1;
- efn->next = ef->header->directory->nodes[hash];
- ef->header->directory->nodes[hash] = efn;
- efn->offset = -1;
- efn->alias = 1;
- efn->ciphered = 0;
- efn->compression = !!comp;
- efn->size = data_size;
- efn->data_size = strlen(destination) + 1;
- efn->data = data2;
+ efn->next = ef->header->directory->nodes[hash];
+ ef->header->directory->nodes[hash] = efn;
+ efn->offset = -1;
+ efn->alias = 1;
+ efn->ciphered = 0;
+ efn->compression = !!comp;
+ efn->size = data_size;
+ efn->data_size = strlen(destination) + 1;
+ efn->data = data2;
}
/* flags that writes are pending */
UNLOCK_FILE(ef);
return EINA_TRUE;
- on_error:
+on_error:
UNLOCK_FILE(ef);
return EINA_FALSE;
}
EAPI int
-eet_write_cipher(Eet_File *ef, const char *name, const void *data, int size, int comp, const char *cipher_key)
+eet_write_cipher(Eet_File *ef,
+ const char *name,
+ const void *data,
+ int size,
+ int comp,
+ const char *cipher_key)
{
- Eet_File_Node *efn;
- void *data2 = NULL;
- int exists_already = 0;
- int data_size;
- int hash;
+ Eet_File_Node *efn;
+ void *data2 = NULL;
+ int exists_already = 0;
+ int data_size;
+ int hash;
/* check to see its' an eet file pointer */
if (eet_check_pointer(ef))
- return 0;
+ return 0;
+
if ((!name) || (!data) || (size <= 0))
- return 0;
+ return 0;
+
if ((ef->mode != EET_FILE_MODE_WRITE) &&
(ef->mode != EET_FILE_MODE_READ_WRITE))
- return 0;
+ return 0;
LOCK_FILE(ef);
if (!ef->header)
{
- /* allocate header */
- ef->header = calloc(1, sizeof(Eet_File_Header));
- if (!ef->header)
- goto on_error;
-
- ef->header->magic = EET_MAGIC_FILE_HEADER;
- /* allocate directory block in ram */
- ef->header->directory = calloc(1, sizeof(Eet_File_Directory));
- if (!ef->header->directory)
- {
- free(ef->header);
- ef->header = NULL;
- goto on_error;
- }
-
- /* 8 bit hash table (256 buckets) */
- ef->header->directory->size = 8;
- /* allocate base hash table */
- ef->header->directory->nodes = calloc(1, sizeof(Eet_File_Node *) * (1 << ef->header->directory->size));
- if (!ef->header->directory->nodes)
- {
- free(ef->header->directory);
- ef->header = NULL;
- goto on_error;
- }
+ /* allocate header */
+ ef->header = calloc(1, sizeof(Eet_File_Header));
+ if (!ef->header)
+ goto on_error;
+
+ ef->header->magic = EET_MAGIC_FILE_HEADER;
+ /* allocate directory block in ram */
+ ef->header->directory = calloc(1, sizeof(Eet_File_Directory));
+ if (!ef->header->directory)
+ {
+ free(ef->header);
+ ef->header = NULL;
+ goto on_error;
+ }
+
+ /* 8 bit hash table (256 buckets) */
+ ef->header->directory->size = 8;
+ /* allocate base hash table */
+ ef->header->directory->nodes =
+ calloc(1, sizeof(Eet_File_Node *) *
+ (1 << ef->header->directory->size));
+ if (!ef->header->directory->nodes)
+ {
+ free(ef->header->directory);
+ ef->header = NULL;
+ goto on_error;
+ }
}
/* figure hash bucket */
if (comp || !cipher_key)
{
- data2 = malloc(data_size);
- if (!data2) goto on_error;
+ data2 = malloc(data_size);
+ if (!data2)
+ goto on_error;
}
/* if we want to compress */
if (comp)
{
- uLongf buflen;
-
- /* compress the data with max compression */
- buflen = (uLongf)data_size;
- if (compress2((Bytef *)data2, &buflen, (Bytef *)data,
- (uLong)size, Z_BEST_COMPRESSION) != Z_OK)
- {
- free(data2);
- goto on_error;
- }
- /* record compressed chunk size */
- data_size = (int)buflen;
- if (data_size < 0 || data_size >= size)
- {
- comp = 0;
- data_size = size;
- }
- else
- {
- void *data3;
-
- data3 = realloc(data2, data_size);
- if (data3)
- data2 = data3;
- }
+ uLongf buflen;
+
+ /* compress the data with max compression */
+ buflen = (uLongf)data_size;
+ if (compress2((Bytef *)data2, &buflen, (Bytef *)data,
+ (uLong)size, Z_BEST_COMPRESSION) != Z_OK)
+ {
+ free(data2);
+ goto on_error;
+ }
+
+ /* record compressed chunk size */
+ data_size = (int)buflen;
+ if (data_size < 0 || data_size >= size)
+ {
+ comp = 0;
+ data_size = size;
+ }
+ else
+ {
+ void *data3;
+
+ data3 = realloc(data2, data_size);
+ if (data3)
+ data2 = data3;
+ }
}
if (cipher_key)
{
- void *data_ciphered = NULL;
- unsigned int data_ciphered_sz = 0;
- const void *tmp;
-
- tmp = data2 ? data2 : data;
- if (!eet_cipher(tmp, data_size, cipher_key, strlen(cipher_key), &data_ciphered, &data_ciphered_sz))
- {
- if (data2) free(data2);
- data2 = data_ciphered;
- data_size = data_ciphered_sz;
- size = (data_size > size) ? data_size : size;
- }
- else
- {
- if (data_ciphered) free(data_ciphered);
- cipher_key = NULL;
- }
+ void *data_ciphered = NULL;
+ unsigned int data_ciphered_sz = 0;
+ const void *tmp;
+
+ tmp = data2 ? data2 : data;
+ if (!eet_cipher(tmp, data_size, cipher_key, strlen(cipher_key),
+ &data_ciphered, &data_ciphered_sz))
+ {
+ if (data2)
+ free(data2);
+
+ data2 = data_ciphered;
+ data_size = data_ciphered_sz;
+ size = (data_size > size) ? data_size : size;
+ }
+ else
+ {
+ if (data_ciphered)
+ free(data_ciphered);
+
+ cipher_key = NULL;
+ }
}
else
- if (!comp)
- memcpy(data2, data, size);
+ if (!comp)
+ memcpy(data2, data, size);
/* Does this node already exist? */
for (efn = ef->header->directory->nodes[hash]; efn; efn = efn->next)
{
- /* if it matches */
- if ((efn->name) && (eet_string_match(efn->name, name)))
- {
- free(efn->data);
- efn->alias = 0;
- efn->ciphered = cipher_key ? 1 : 0;
- efn->compression = !!comp;
- efn->size = data_size;
- efn->data_size = size;
- efn->data = data2;
- efn->offset = -1;
- exists_already = 1;
- break;
- }
+ /* if it matches */
+ if ((efn->name) && (eet_string_match(efn->name, name)))
+ {
+ free(efn->data);
+ efn->alias = 0;
+ efn->ciphered = cipher_key ? 1 : 0;
+ efn->compression = !!comp;
+ efn->size = data_size;
+ efn->data_size = size;
+ efn->data = data2;
+ efn->offset = -1;
+ exists_already = 1;
+ break;
+ }
}
if (!exists_already)
{
- efn = malloc(sizeof(Eet_File_Node));
- if (!efn)
- {
- free(data2);
- goto on_error;
- }
- efn->name = strdup(name);
+ efn = malloc(sizeof(Eet_File_Node));
+ if (!efn)
+ {
+ free(data2);
+ goto on_error;
+ }
+
+ efn->name = strdup(name);
efn->name_size = strlen(efn->name) + 1;
efn->free_name = 1;
- efn->next = ef->header->directory->nodes[hash];
- ef->header->directory->nodes[hash] = efn;
- efn->offset = -1;
- efn->alias = 0;
- efn->ciphered = cipher_key ? 1 : 0;
- efn->compression = !!comp;
- efn->size = data_size;
- efn->data_size = size;
- efn->data = data2;
+ efn->next = ef->header->directory->nodes[hash];
+ ef->header->directory->nodes[hash] = efn;
+ efn->offset = -1;
+ efn->alias = 0;
+ efn->ciphered = cipher_key ? 1 : 0;
+ efn->compression = !!comp;
+ efn->size = data_size;
+ efn->data_size = size;
+ efn->data = data2;
}
/* flags that writes are pending */
UNLOCK_FILE(ef);
return data_size;
- on_error:
+on_error:
UNLOCK_FILE(ef);
return 0;
}
EAPI int
eet_delete(Eet_File *ef, const char *name)
{
- Eet_File_Node *efn;
- Eet_File_Node *pefn;
- int hash;
- int exists_already = 0;
+ Eet_File_Node *efn;
+ Eet_File_Node *pefn;
+ int hash;
+ int exists_already = 0;
/* check to see its' an eet file pointer */
if (eet_check_pointer(ef))
- return 0;
+ return 0;
+
if (!name)
- return 0;
+ return 0;
/* deleting keys is only possible in RW or WRITE mode */
if (ef->mode == EET_FILE_MODE_READ)
- return 0;
+ return 0;
if (eet_check_header(ef))
- return 0;
+ return 0;
LOCK_FILE(ef);
/* Does this node already exist? */
for (pefn = NULL, efn = ef->header->directory->nodes[hash];
- efn;
- pefn = efn, efn = efn->next)
+ efn;
+ pefn = efn, efn = efn->next)
{
- /* if it matches */
- if (eet_string_match(efn->name, name))
- {
- if (efn->data)
- free(efn->data);
-
- if (pefn == NULL)
- ef->header->directory->nodes[hash] = efn->next;
- else
- pefn->next = efn->next;
-
- if (efn->free_name) free(efn->name);
- free(efn);
- exists_already = 1;
- break;
- }
+ /* if it matches */
+ if (eet_string_match(efn->name, name))
+ {
+ if (efn->data)
+ free(efn->data);
+
+ if (pefn == NULL)
+ ef->header->directory->nodes[hash] = efn->next;
+ else
+ pefn->next = efn->next;
+
+ if (efn->free_name)
+ free(efn->name);
+
+ free(efn);
+ exists_already = 1;
+ break;
+ }
}
/* flags that writes are pending */
if (exists_already)
- ef->writes_pending = 1;
+ ef->writes_pending = 1;
UNLOCK_FILE(ef);
EAPI Eet_Dictionary *
eet_dictionary_get(Eet_File *ef)
{
- if (eet_check_pointer(ef)) return NULL;
+ if (eet_check_pointer(ef))
+ return NULL;
return ef->ed;
}
EAPI char **
eet_list(Eet_File *ef, const char *glob, int *count_ret)
{
- Eet_File_Node *efn;
- char **list_ret = NULL;
- int list_count = 0;
- int list_count_alloc = 0;
- int i, num;
+ Eet_File_Node *efn;
+ char **list_ret = NULL;
+ int list_count = 0;
+ int list_count_alloc = 0;
+ int i, num;
/* check to see its' an eet file pointer */
if (eet_check_pointer(ef) || eet_check_header(ef) ||
((ef->mode != EET_FILE_MODE_READ) &&
(ef->mode != EET_FILE_MODE_READ_WRITE)))
{
- if (count_ret)
- *count_ret = 0;
+ if (count_ret)
+ *count_ret = 0;
- return NULL;
+ return NULL;
}
- if (!strcmp(glob, "*")) glob = NULL;
+ if (!strcmp(glob, "*"))
+ glob = NULL;
LOCK_FILE(ef);
num = (1 << ef->header->directory->size);
for (i = 0; i < num; i++)
{
- for (efn = ef->header->directory->nodes[i]; efn; efn = efn->next)
- {
- /* if the entry matches the input glob
- * check for * explicitly, because on some systems, * isn't well
- * supported
- */
- if ((!glob) || !fnmatch(glob, efn->name, 0))
- {
- /* add it to our list */
- list_count++;
-
- /* only realloc in 32 entry chunks */
- if (list_count > list_count_alloc)
- {
- char **new_list = NULL;
-
- list_count_alloc += 64;
- new_list = realloc(list_ret, list_count_alloc * (sizeof(char *)));
- if (!new_list)
- {
- free(list_ret);
-
- goto on_error;
- }
- list_ret = new_list;
- }
-
- /* put pointer of name string in */
- list_ret[list_count - 1] = efn->name;
- }
- }
+ for (efn = ef->header->directory->nodes[i]; efn; efn = efn->next)
+ {
+ /* if the entry matches the input glob
+ * check for * explicitly, because on some systems, * isn't well
+ * supported
+ */
+ if ((!glob) || !fnmatch(glob, efn->name, 0))
+ {
+ /* add it to our list */
+ list_count++;
+
+ /* only realloc in 32 entry chunks */
+ if (list_count > list_count_alloc)
+ {
+ char **new_list = NULL;
+
+ list_count_alloc += 64;
+ new_list =
+ realloc(list_ret, list_count_alloc * (sizeof(char *)));
+ if (!new_list)
+ {
+ free(list_ret);
+
+ goto on_error;
+ }
+
+ list_ret = new_list;
+ }
+
+ /* put pointer of name string in */
+ list_ret[list_count - 1] = efn->name;
+ }
+ }
}
UNLOCK_FILE(ef);
/* return count and list */
if (count_ret)
- *count_ret = list_count;
+ *count_ret = list_count;
return list_ret;
- on_error:
+on_error:
UNLOCK_FILE(ef);
if (count_ret)
- *count_ret = 0;
+ *count_ret = 0;
return NULL;
}
if (eet_check_pointer(ef) || eet_check_header(ef) ||
((ef->mode != EET_FILE_MODE_READ) &&
(ef->mode != EET_FILE_MODE_READ_WRITE)))
- return -1;
+ return -1;
LOCK_FILE(ef);
num = (1 << ef->header->directory->size);
for (i = 0; i < num; i++)
{
- for (efn = ef->header->directory->nodes[i]; efn; efn = efn->next)
- ret++;
+ for (efn = ef->header->directory->nodes[i]; efn; efn = efn->next)
+ ret++;
}
UNLOCK_FILE(ef);
for (efn = ef->header->directory->nodes[hash]; efn; efn = efn->next)
{
- if (eet_string_match(efn->name, name))
- return efn;
+ if (eet_string_match(efn->name, name))
+ return efn;
}
return NULL;
static int
read_data_from_disk(Eet_File *ef, Eet_File_Node *efn, void *buf, int len)
{
- if (efn->offset < 0) return 0;
+ if (efn->offset < 0)
+ return 0;
if (ef->data)
{
- if ((efn->offset + len) > ef->data_size) return 0;
- memcpy(buf, ef->data + efn->offset, len);
+ if ((efn->offset + len) > ef->data_size)
+ return 0;
+
+ memcpy(buf, ef->data + efn->offset, len);
}
else
{
- if (!ef->readfp)
- return 0;
+ if (!ef->readfp)
+ return 0;
- /* seek to data location */
- if (fseek(ef->readfp, efn->offset, SEEK_SET) < 0)
- return 0;
+ /* seek to data location */
+ if (fseek(ef->readfp, efn->offset, SEEK_SET) < 0)
+ return 0;
- /* read it */
- len = fread(buf, len, 1, ef->readfp);
+ /* read it */
+ len = fread(buf, len, 1, ef->readfp);
}
+
return len;
}
result = eina_mempool_malloc(_eet_node_mp, sizeof (Eet_Node));
if (!result)
- return NULL;
+ return NULL;
memset(result, 0, sizeof (Eet_Node));
return result;
Eet_Node *n;
n = eet_node_new();
- if (!n) return NULL;
+ if (!n)
+ return NULL;
n->type = type;
n->name = eina_stringshare_add(name);
Eina_List *l;
EINA_LIST_REVERSE_FOREACH(nodes, l, value)
- {
- value->next = n->values;
- n->values = value;
- }
+ {
+ value->next = n->values;
+ n->values = value;
+ }
}
-#define EET_NODE_NEW(Eet_type, Name, Value, Type) \
- EAPI Eet_Node * \
- eet_node_##Name##_new(const char *name, Type Value) \
- { \
- Eet_Node *n; \
- \
- n = _eet_node_new(name, Eet_type); \
- if (!n) return NULL; \
- \
- n->data.value.Value = Value; \
- \
- return n; \
- }
-
-#define EET_NODE_STR_NEW(Eet_type, Name, Value, Type) \
- EAPI Eet_Node * \
- eet_node_##Name##_new(const char *name, Type Value) \
- { \
- Eet_Node *n; \
- \
- n = _eet_node_new(name, Eet_type); \
- if (!n) return NULL; \
- \
- n->data.value.Value = eina_stringshare_add(Value); \
- \
- return n; \
- }
-
-EET_NODE_NEW(EET_T_CHAR, char, c, char)
-EET_NODE_NEW(EET_T_SHORT, short, s, short)
-EET_NODE_NEW(EET_T_INT, int, i, int)
-EET_NODE_NEW(EET_T_LONG_LONG, long_long, l, long long)
-EET_NODE_NEW(EET_T_FLOAT, float, f, float)
-EET_NODE_NEW(EET_T_DOUBLE, double, d, double)
-EET_NODE_NEW(EET_T_UCHAR, unsigned_char, uc, unsigned char)
-EET_NODE_NEW(EET_T_USHORT, unsigned_short, us, unsigned short)
-EET_NODE_NEW(EET_T_UINT, unsigned_int, ui, unsigned int)
+#define EET_NODE_NEW(Eet_type, Name, Value, Type) \
+ EAPI Eet_Node * \
+ eet_node_ ## Name ## _new(const char *name, Type Value) \
+ { \
+ Eet_Node *n; \
+ \
+ n = _eet_node_new(name, Eet_type); \
+ if (!n) { return NULL; } \
+ \
+ n->data.value.Value = Value; \
+ \
+ return n; \
+ }
+
+#define EET_NODE_STR_NEW(Eet_type, Name, Value, Type) \
+ EAPI Eet_Node * \
+ eet_node_ ## Name ## _new(const char *name, Type Value) \
+ { \
+ Eet_Node *n; \
+ \
+ n = _eet_node_new(name, Eet_type); \
+ if (!n) { return NULL; } \
+ \
+ n->data.value.Value = eina_stringshare_add(Value); \
+ \
+ return n; \
+ }
+
+EET_NODE_NEW(EET_T_CHAR, char, c, char)
+EET_NODE_NEW(EET_T_SHORT, short, s, short)
+EET_NODE_NEW(EET_T_INT, int, i, int)
+EET_NODE_NEW(EET_T_LONG_LONG, long_long, l, long long)
+EET_NODE_NEW(EET_T_FLOAT, float, f, float)
+EET_NODE_NEW(EET_T_DOUBLE, double, d, double)
+EET_NODE_NEW(EET_T_UCHAR, unsigned_char, uc, unsigned char)
+EET_NODE_NEW(EET_T_USHORT, unsigned_short, us, unsigned short)
+EET_NODE_NEW(EET_T_UINT, unsigned_int, ui, unsigned int)
EET_NODE_NEW(EET_T_ULONG_LONG, unsigned_long_long, ul, unsigned long long)
-EET_NODE_STR_NEW(EET_T_STRING, string, str, const char *)
+EET_NODE_STR_NEW(EET_T_STRING, string, str, const char *)
EET_NODE_STR_NEW(EET_T_INLINED_STRING, inlined_string, str, const char *)
Eet_Node *
Eet_Node *n;
n = _eet_node_new(name, EET_T_NULL);
- if (!n) return NULL;
+ if (!n)
+ return NULL;
n->data.value.str = NULL;
Eet_Node *n;
n = _eet_node_new(name, EET_G_LIST);
- if (!n) return NULL;
+ if (!n)
+ return NULL;
_eet_node_append(n, nodes);
Eet_Node *n;
n = _eet_node_new(name, EET_G_ARRAY);
- if (!n) return NULL;
+ if (!n)
+ return NULL;
n->count = count;
Eet_Node *n;
n = _eet_node_new(name, EET_G_VAR_ARRAY);
- if (!n) return NULL;
+ if (!n)
+ return NULL;
n->count = eina_list_count(nodes);
Eina_List *nodes;
Eet_Node *n;
- if (!node) return NULL;
+ if (!node)
+ return NULL;
n = _eet_node_new(name, EET_G_HASH);
- if (!n) return NULL;
+ if (!n)
+ return NULL;
n->key = eina_stringshare_add(key);
nodes = eina_list_append(NULL, node);
Eet_Node *n;
n = _eet_node_new(name, EET_G_UNKNOWN);
- if (!n) return NULL;
+ if (!n)
+ return NULL;
_eet_node_append(n, nodes);
Eet_Node *n;
if (child->type != EET_G_UNKNOWN)
- return child;
+ return child;
n = _eet_node_new(parent, EET_G_UNKNOWN);
- if (!n) return NULL;
+ if (!n)
+ return NULL;
_eet_node_append(n, eina_list_prepend(NULL, child));
tmp = eina_stringshare_add(name);
for (nn = parent->values; nn; nn = nn->next)
- if (nn->name == tmp && nn->type == EET_G_LIST)
- {
- Eet_Node *n;
+ if (nn->name == tmp && nn->type == EET_G_LIST)
+ {
+ Eet_Node *n;
+
+ if (!nn->values)
+ nn->values = child;
+ else
+ {
+ for (n = nn->values; n->next; n = n->next)
+ ;
+ n->next = child;
+ }
- if (!nn->values) nn->values = child;
- else
- {
- for (n = nn->values; n->next; n = n->next)
- ;
- n->next = child;
- }
- child->next = NULL;
+ child->next = NULL;
- eina_stringshare_del(tmp);
+ eina_stringshare_del(tmp);
- return ;
- }
+ return;
+ }
/* No list found, so create it. */
nn = eet_node_list_new(tmp, eina_list_append(NULL, child));
nn->next = parent->values;
parent->values = nn;
- eina_stringshare_del(tmp);
+ eina_stringshare_del(tmp);
}
void
if (parent->type != EET_G_UNKNOWN)
{
- ERR("[%s] is not a structure. Will not insert [%s] in it", parent->name, name);
- eet_node_del(child);
- return ;
+ ERR("[%s] is not a structure. Will not insert [%s] in it",
+ parent->name,
+ name);
+ eet_node_del(child);
+ return;
}
tmp = eina_stringshare_add(name);
for (prev = NULL, nn = parent->values; nn; prev = nn, nn = nn->next)
- if (nn->name == tmp && nn->type == child->type)
- {
- if (prev) prev->next = nn->next;
- else parent->values = nn->next;
+ if (nn->name == tmp && nn->type == child->type)
+ {
+ if (prev)
+ prev->next = nn->next;
+ else
+ parent->values = nn->next;
- nn->next = NULL;
- eet_node_del(nn);
+ nn->next = NULL;
+ eet_node_del(nn);
- break;
- }
+ break;
+ }
if (prev)
{
- prev->next = child;
- child->next = NULL;
+ prev->next = child;
+ child->next = NULL;
}
else
{
- child->next = NULL;
- parent->values = child;
+ child->next = NULL;
+ parent->values = child;
}
- eina_stringshare_del(tmp);
+ eina_stringshare_del(tmp);
}
void
-eet_node_hash_add(Eet_Node *parent, const char *name, const char *key, Eet_Node *child)
+eet_node_hash_add(Eet_Node *parent,
+ const char *name,
+ const char *key,
+ Eet_Node *child)
{
Eet_Node *nn;
Eet_Node *nn;
Eet_Node *tmp;
- if (!n) return ;
+ if (!n)
+ return;
switch (n->type)
{
case EET_G_HASH:
- eina_stringshare_del(n->key);
+ eina_stringshare_del(n->key);
+
case EET_G_UNKNOWN:
case EET_G_VAR_ARRAY:
case EET_G_ARRAY:
case EET_G_LIST:
- for (nn = n->values; nn; )
- {
- tmp = nn;
- nn = nn->next;
- eet_node_del(tmp);
- }
- break;
+ for (nn = n->values; nn; )
+ {
+ tmp = nn;
+ nn = nn->next;
+ eet_node_del(tmp);
+ }
+ break;
+
case EET_T_STRING:
case EET_T_INLINED_STRING:
- eina_stringshare_del(n->data.value.str);
- break;
+ eina_stringshare_del(n->data.value.str);
+ break;
+
case EET_T_CHAR:
case EET_T_SHORT:
case EET_T_INT:
case EET_T_UCHAR:
case EET_T_USHORT:
case EET_T_UINT:
- break;
+ break;
}
- eina_stringshare_del(n->name);
- eet_node_free(n);
+ eina_stringshare_del(n->name);
+ eet_node_free(n);
}
static const char *eet_node_dump_g_name[6] = {
- "struct",
- "array",
- "var_array",
- "list",
- "hash",
- "???"
+ "struct",
+ "array",
+ "var_array",
+ "list",
+ "hash",
+ "???"
};
static const char *eet_node_dump_t_name[14][2] = {
- { "???: ", "???" },
- { "char: ", "%hhi" },
- { "short: ", "%hi" },
- { "int: ", "%i" },
- { "long_long: ", "%lli" },
- { "float: ", "%1.25f" },
- { "double: ", "%1.25f" },
- { "uchar: ", "%hhu" },
- { "ushort: ", "%i" },
- { "uint: ", "%u" },
- { "ulong_long: ", "%llu" },
- { "null", "" }
+ { "???: ", "???" },
+ { "char: ", "%hhi" },
+ { "short: ", "%hi" },
+ { "int: ", "%i" },
+ { "long_long: ", "%lli" },
+ { "float: ", "%1.25f" },
+ { "double: ", "%1.25f" },
+ { "uchar: ", "%hhu" },
+ { "ushort: ", "%i" },
+ { "uint: ", "%u" },
+ { "ulong_long: ", "%llu" },
+ { "null", "" }
};
static void
-eet_node_dump_level(int level, void (*dumpfunc) (void *data, const char *str), void *dumpdata)
+eet_node_dump_level(int level, void (*dumpfunc)(void *data,
+ const char *str),
+ void *dumpdata)
{
int i;
for (strp = str; *strp; strp++)
{
- if (*strp == '\"') sz += 2;
- else if (*strp == '\\') sz += 2;
- else if (*strp == '\n') sz += 2;
- else sz += 1;
+ if (*strp == '\"')
+ sz += 2;
+ else if (*strp == '\\')
+ sz += 2;
+ else if (*strp == '\n')
+ sz += 2;
+ else
+ sz += 1;
}
s = malloc(sz + 1);
- if (!s) return NULL;
+ if (!s)
+ return NULL;
+
for (strp = str, sp = s; *strp; strp++, sp++)
{
- if (*strp == '\"'
- || *strp == '\\'
- || *strp == '\n')
- {
- *sp = '\\';
- sp++;
- }
- if (*strp == '\n') *sp = 'n';
- else *sp = *strp;
+ if (*strp == '\"'
+ || *strp == '\\'
+ || *strp == '\n')
+ {
+ *sp = '\\';
+ sp++;
+ }
+
+ if (*strp == '\n')
+ *sp = 'n';
+ else
+ *sp = *strp;
}
*sp = 0;
return s;
}
static void
-eet_node_dump_string_escape(void *dumpdata, void dumpfunc(void *data, const char *str), const char *str)
+eet_node_dump_string_escape(void *dumpdata, void dumpfunc(void *data,
+ const char *str),
+ const char *str)
{
char *s;
s = eet_node_string_escape(str);
- if (!s) return ;
+ if (!s)
+ return;
dumpfunc(dumpdata, s);
free(s);
static void
eet_node_dump_simple_type(Eet_Node *n, int level,
- void (*dumpfunc) (void *data, const char *str), void *dumpdata)
+ void (*dumpfunc)(void *data,
+ const char *str), void *dumpdata)
{
const char *type_name = NULL;
char tbuf[256];
eet_node_dump_level(level, dumpfunc, dumpdata);
dumpfunc(dumpdata, "value \"");
eet_node_dump_string_escape(dumpdata, dumpfunc, n->name);
- dumpfunc(dumpdata, "\" ");
+ dumpfunc(dumpdata, "\" ");
#ifdef EET_T_TYPE
# undef EET_T_TYPE
#endif
-#define EET_T_TYPE(Eet_Type, Type) \
- case Eet_Type: \
- { \
- dumpfunc(dumpdata, eet_node_dump_t_name[Eet_Type][0]); \
- snprintf(tbuf, sizeof (tbuf), eet_node_dump_t_name[Eet_Type][1], n->data.value.Type); \
- dumpfunc(dumpdata, tbuf); \
- break; \
- }
+#define EET_T_TYPE(Eet_Type, Type) \
+ case Eet_Type: \
+ { \
+ dumpfunc(dumpdata, eet_node_dump_t_name[Eet_Type][0]); \
+ snprintf(tbuf, \
+ sizeof (tbuf), \
+ eet_node_dump_t_name[Eet_Type][1], \
+ n->data.value.Type); \
+ dumpfunc(dumpdata, tbuf); \
+ break; \
+ }
switch (n->type)
{
- EET_T_TYPE(EET_T_CHAR, c);
- EET_T_TYPE(EET_T_SHORT, s);
- EET_T_TYPE(EET_T_INT, i);
- EET_T_TYPE(EET_T_LONG_LONG, l);
- EET_T_TYPE(EET_T_FLOAT, f);
- EET_T_TYPE(EET_T_DOUBLE, d);
- EET_T_TYPE(EET_T_UCHAR, uc);
- EET_T_TYPE(EET_T_USHORT, us);
- EET_T_TYPE(EET_T_UINT, ui);
- EET_T_TYPE(EET_T_ULONG_LONG, ul);
+ EET_T_TYPE(EET_T_CHAR, c);
+ EET_T_TYPE(EET_T_SHORT, s);
+ EET_T_TYPE(EET_T_INT, i);
+ EET_T_TYPE(EET_T_LONG_LONG, l);
+ EET_T_TYPE(EET_T_FLOAT, f);
+ EET_T_TYPE(EET_T_DOUBLE, d);
+ EET_T_TYPE(EET_T_UCHAR, uc);
+ EET_T_TYPE(EET_T_USHORT, us);
+ EET_T_TYPE(EET_T_UINT, ui);
+ EET_T_TYPE(EET_T_ULONG_LONG, ul);
+
case EET_T_INLINED_STRING:
- type_name = "inlined: \"";
+ type_name = "inlined: \"";
+
case EET_T_STRING:
- if (!type_name) type_name = "string: \"";
+ if (!type_name)
+ type_name = "string: \"";
+
+ dumpfunc(dumpdata, type_name);
+ eet_node_dump_string_escape(dumpdata, dumpfunc, n->data.value.str);
+ dumpfunc(dumpdata, "\"");
+ break;
- dumpfunc(dumpdata, type_name);
- eet_node_dump_string_escape(dumpdata, dumpfunc, n->data.value.str);
- dumpfunc(dumpdata, "\"");
- break;
case EET_T_NULL:
- dumpfunc(dumpdata, "null");
- break;
+ dumpfunc(dumpdata, "null");
+ break;
+
default:
- dumpfunc(dumpdata, "???: ???");
- break;
+ dumpfunc(dumpdata, "???: ???");
+ break;
}
- dumpfunc(dumpdata, ";\n");
+ dumpfunc(dumpdata, ";\n");
}
static void
-eet_node_dump_group_start(int level, void (*dumpfunc) (void *data, const char *str), void *dumpdata,
- int group_type, const char *name)
+eet_node_dump_group_start(int level, void (*dumpfunc)(void *data,
+ const char *str),
+ void *dumpdata,
+ int group_type, const char *name)
{
int chnk_type;
chnk_type = (group_type >= EET_G_UNKNOWN && group_type <= EET_G_HASH) ?
- group_type : EET_G_LAST;
+ group_type : EET_G_LAST;
eet_node_dump_level(level, dumpfunc, dumpdata);
dumpfunc(dumpdata, "group \"");
eet_node_dump_string_escape(dumpdata, dumpfunc, name);
- dumpfunc(dumpdata, "\" ");
+ dumpfunc(dumpdata, "\" ");
dumpfunc(dumpdata, eet_node_dump_g_name[chnk_type - EET_G_UNKNOWN]);
- dumpfunc(dumpdata, " {\n");
+ dumpfunc(dumpdata, " {\n");
}
static void
-eet_node_dump_group_end(int level, void (*dumpfunc) (void *data, const char *str), void *dumpdata)
+eet_node_dump_group_end(int level, void (*dumpfunc)(void *data,
+ const char *str),
+ void *dumpdata)
{
eet_node_dump_level(level, dumpfunc, dumpdata);
dumpfunc(dumpdata, "}\n");
}
void
-eet_node_dump(Eet_Node *n, int dumplevel, void (*dumpfunc) (void *data, const char *str), void *dumpdata)
+eet_node_dump(Eet_Node *n, int dumplevel, void (*dumpfunc)(void *data,
+ const char *str),
+ void *dumpdata)
{
Eet_Node *it;
- if (!n) return ;
+ if (!n)
+ return;
switch (n->type)
{
case EET_G_UNKNOWN:
case EET_G_HASH:
case EET_G_LIST:
- eet_node_dump_group_start(dumplevel, dumpfunc, dumpdata, n->type, n->name);
-
- if (n->type == EET_G_VAR_ARRAY
- || n->type == EET_G_ARRAY)
- {
- char tbuf[256];
-
- eet_node_dump_level(dumplevel, dumpfunc, dumpdata);
- dumpfunc(dumpdata, " count ");
- eina_convert_itoa(n->count, tbuf);
- dumpfunc(dumpdata, tbuf);
- dumpfunc(dumpdata, ";\n");
- }
- else if (n->type == EET_G_HASH)
- {
- eet_node_dump_level(dumplevel, dumpfunc, dumpdata);
- dumpfunc(dumpdata, " key \"");
- eet_node_dump_string_escape(dumpdata, dumpfunc, n->key);
- dumpfunc(dumpdata, "\";\n");
- }
-
- for (it = n->values; it != NULL; it = it->next)
- eet_node_dump(it, dumplevel + 2, dumpfunc, dumpdata);
-
- eet_node_dump_group_end(dumplevel, dumpfunc, dumpdata);
- break;
+ eet_node_dump_group_start(dumplevel,
+ dumpfunc,
+ dumpdata,
+ n->type,
+ n->name);
+
+ if (n->type == EET_G_VAR_ARRAY
+ || n->type == EET_G_ARRAY)
+ {
+ char tbuf[256];
+
+ eet_node_dump_level(dumplevel, dumpfunc, dumpdata);
+ dumpfunc(dumpdata, " count ");
+ eina_convert_itoa(n->count, tbuf);
+ dumpfunc(dumpdata, tbuf);
+ dumpfunc(dumpdata, ";\n");
+ }
+ else if (n->type == EET_G_HASH)
+ {
+ eet_node_dump_level(dumplevel, dumpfunc, dumpdata);
+ dumpfunc(dumpdata, " key \"");
+ eet_node_dump_string_escape(dumpdata, dumpfunc, n->key);
+ dumpfunc(dumpdata, "\";\n");
+ }
+
+ for (it = n->values; it != NULL; it = it->next)
+ eet_node_dump(it, dumplevel + 2, dumpfunc, dumpdata);
+
+ eet_node_dump_group_end(dumplevel, dumpfunc, dumpdata);
+ break;
+
case EET_T_STRING:
case EET_T_INLINED_STRING:
case EET_T_CHAR:
case EET_T_USHORT:
case EET_T_UINT:
case EET_T_ULONG_LONG:
- eet_node_dump_simple_type(n, dumplevel, dumpfunc, dumpdata);
- break;
+ eet_node_dump_simple_type(n, dumplevel, dumpfunc, dumpdata);
+ break;
}
}
-void*
-eet_node_walk(void *parent, const char *name, Eet_Node *root, Eet_Node_Walk *cb, void *user_data)
+void *
+eet_node_walk(void *parent,
+ const char *name,
+ Eet_Node *root,
+ Eet_Node_Walk *cb,
+ void *user_data)
{
Eet_Node *it;
void *me = NULL;
if (!root)
{
- if (parent) cb->struct_add(parent, name, NULL, user_data);
- return NULL;
+ if (parent)
+ cb->struct_add(parent, name, NULL, user_data);
+
+ return NULL;
}
switch (root->type)
{
case EET_G_UNKNOWN:
- me = cb->struct_alloc(root->name, user_data);
+ me = cb->struct_alloc(root->name, user_data);
+
+ for (it = root->values; it != NULL; it = it->next)
+ eet_node_walk(me, it->name, it, cb, user_data);
- for (it = root->values; it != NULL; it = it->next)
- eet_node_walk(me, it->name, it, cb, user_data);
+ break;
- break;
case EET_G_VAR_ARRAY:
case EET_G_ARRAY:
- me = cb->array(root->type == EET_G_VAR_ARRAY ? EINA_TRUE : EINA_FALSE,
- root->name, root->count, user_data);
+ me = cb->array(root->type == EET_G_VAR_ARRAY ? EINA_TRUE : EINA_FALSE,
+ root->name, root->count, user_data);
- for (i = 0, it = root->values; it != NULL; it = it->next)
- cb->insert(me, i++, eet_node_walk(NULL, NULL, it, cb, user_data), user_data);
+ for (i = 0, it = root->values; it != NULL; it = it->next)
+ cb->insert(me, i++, eet_node_walk(NULL,
+ NULL,
+ it,
+ cb,
+ user_data), user_data);
+
+ break;
- break;
case EET_G_LIST:
- me = cb->list(root->name, user_data);
+ me = cb->list(root->name, user_data);
+
+ for (it = root->values; it != NULL; it = it->next)
+ cb->append(me, eet_node_walk(NULL,
+ NULL,
+ it,
+ cb,
+ user_data), user_data);
- for (it = root->values; it != NULL; it = it->next)
- cb->append(me, eet_node_walk(NULL, NULL, it, cb, user_data), user_data);
+ break;
- break;
case EET_G_HASH:
- if (!parent) return NULL;
+ if (!parent)
+ return NULL;
+
+ return cb->hash(parent, root->name, root->key,
+ eet_node_walk(NULL,
+ NULL,
+ root->values,
+ cb,
+ user_data), user_data);
- return cb->hash(parent, root->name, root->key, eet_node_walk(NULL, NULL, root->values, cb, user_data), user_data);
case EET_T_STRING:
case EET_T_INLINED_STRING:
case EET_T_CHAR:
case EET_T_USHORT:
case EET_T_UINT:
case EET_T_ULONG_LONG:
- me = cb->simple(root->type, &root->data, user_data);
- break;
+ me = cb->simple(root->type, &root->data, user_data);
+ break;
}
- if (parent) cb->struct_add(parent, name, me, user_data);
+ if (parent)
+ cb->struct_add(parent, name, me, user_data);
+
return me;
}
choice = "chained_mempool";
tmp = getenv("EET_MEMPOOL");
if (tmp && tmp[0])
- choice = tmp;
+ choice = tmp;
- _eet_node_mp = eina_mempool_add(choice, "eet-node-alloc", NULL, sizeof(Eet_Node), 1024);
+ _eet_node_mp =
+ eina_mempool_add(choice, "eet-node-alloc", NULL, sizeof(Eet_Node), 1024);
return _eet_node_mp ? 1 : 0;
}
int
_eet_hash_gen(const char *key, int hash_size)
{
- int hash_num = 0;
- int value, i;
- int mask;
- unsigned char *ptr;
+ int hash_num = 0;
+ int value, i;
+ int mask;
+ unsigned char *ptr;
/* no string - index 0 */
- if (!key) return 0;
+ if (!key)
+ return 0;
/* calc hash num */
for (i = 0, ptr = (unsigned char *)key, value = (int)(*ptr);
- value;
- ptr++, i++, value = (int)(*ptr))
- hash_num ^= (value | (value << 8)) >> (i & 0x7);
+ value;
+ ptr++, i++, value = (int)(*ptr))
+ hash_num ^= (value | (value << 8)) >> (i & 0x7);
/* mask it */
mask = (1 << hash_size) - 1;
#include "eet_suite.h"
-static char*
+static char *
_eet_str_direct_alloc(const char *str)
{
- return (char*) str;
+ return (char *)str;
}
static void
_eet_str_direct_free(const char *str)
{
/* FIXME: Use attribute unused */
- (void) str;
+ (void)str;
}
static void
_eet_eina_hash_foreach(void *hash, Eina_Hash_Foreach cb, void *fdata)
{
- if (hash) eina_hash_foreach(hash, cb, fdata);
+ if (hash)
+ eina_hash_foreach(hash, cb, fdata);
}
/* Internal wrapper for eina_hash */
-static Eina_Hash*
+static Eina_Hash *
_eet_eina_hash_add(Eina_Hash *hash, const char *key, const void *data)
{
- if (!hash) hash = eina_hash_string_superfast_new(NULL);
- if (!hash) return NULL;
+ if (!hash)
+ hash = eina_hash_string_superfast_new(NULL);
+
+ if (!hash)
+ return NULL;
eina_hash_add(hash, key, data);
return hash;
static void
_eet_eina_hash_free(Eina_Hash *hash)
{
- if (hash) eina_hash_free(hash);
+ if (hash)
+ eina_hash_free(hash);
}
void
eddc->func.mem_free = NULL;
eddc->func.str_alloc = NULL;
eddc->func.str_free = NULL;
- eddc->func.list_next = (void*) eina_list_next;
- eddc->func.list_append = (void*) eina_list_append;
- eddc->func.list_data = (void*) eina_list_data_get;
- eddc->func.list_free = (void*) eina_list_free;
- eddc->func.hash_foreach = (void*) _eet_eina_hash_foreach;
- eddc->func.hash_add = (void*) _eet_eina_hash_add;
- eddc->func.hash_free = (void*) _eet_eina_hash_free;
- eddc->func.str_direct_alloc = (void*) _eet_str_direct_alloc;
- eddc->func.str_direct_free = (void*) _eet_str_direct_free;
+ eddc->func.list_next = (void *)eina_list_next;
+ eddc->func.list_append = (void *)eina_list_append;
+ eddc->func.list_data = (void *)eina_list_data_get;
+ eddc->func.list_free = (void *)eina_list_free;
+ eddc->func.hash_foreach = (void *)_eet_eina_hash_foreach;
+ eddc->func.hash_add = (void *)_eet_eina_hash_add;
+ eddc->func.hash_free = (void *)_eet_eina_hash_free;
+ eddc->func.str_direct_alloc = (void *)_eet_str_direct_alloc;
+ eddc->func.str_direct_free = (void *)_eet_str_direct_free;
}
int ret;
ret = eet_init();
- fail_if(ret != 1);
+ fail_if(ret != 1);
ret = eet_shutdown();
- fail_if(ret != 0);
+ fail_if(ret != 0);
}
END_TEST
};
static const Eet_Test_Image test_noalpha = {
- 8, 8, 0,
- {
- 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000,
- 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000,
- 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00,
- 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA,
- 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000,
- 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000,
- 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00,
- 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA
- }
+ 8, 8, 0,
+ {
+ 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00,
+ 0x000000AA, 0x00110000,
+ 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA,
+ 0x00110000, 0x00AA0000,
+ 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000,
+ 0x00AA0000, 0x0000AA00,
+ 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000,
+ 0x0000AA00, 0x000000AA,
+ 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00,
+ 0x000000AA, 0x00110000,
+ 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA,
+ 0x00110000, 0x00AA0000,
+ 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000,
+ 0x00AA0000, 0x0000AA00,
+ 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000,
+ 0x0000AA00, 0x000000AA
+ }
};
static const Eet_Test_Image test_alpha = {
- 8, 8, 1,
- {
- 0x0FAA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x0F110000,
- 0x0000AA00, 0x0F0000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x0F110000, 0x00AA0000,
- 0x000000AA, 0x00110000, 0x0FAA0000, 0x0000AA00, 0x000000AA, 0x0F110000, 0x00AA0000, 0x0000AA00,
- 0x00110000, 0x00AA0000, 0x0000AA00, 0x0F0000AA, 0x0F110000, 0x00AA0000, 0x0000AA00, 0x000000AA,
- 0x00AA0000, 0x0000AA00, 0x000000AA, 0x0F110000, 0x0FAA0000, 0x0000AA00, 0x000000AA, 0x00110000,
- 0x0000AA00, 0x000000AA, 0x0F110000, 0x00AA0000, 0x0000AA00, 0x0F0000AA, 0x00110000, 0x00AA0000,
- 0x000000AA, 0x0F110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x0FAA0000, 0x0000AA00,
- 0x0F110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x0F0000AA
- }
+ 8, 8, 1,
+ {
+ 0x0FAA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000, 0x0000AA00,
+ 0x000000AA, 0x0F110000,
+ 0x0000AA00, 0x0F0000AA, 0x00110000, 0x00AA0000, 0x0000AA00, 0x000000AA,
+ 0x0F110000, 0x00AA0000,
+ 0x000000AA, 0x00110000, 0x0FAA0000, 0x0000AA00, 0x000000AA, 0x0F110000,
+ 0x00AA0000, 0x0000AA00,
+ 0x00110000, 0x00AA0000, 0x0000AA00, 0x0F0000AA, 0x0F110000, 0x00AA0000,
+ 0x0000AA00, 0x000000AA,
+ 0x00AA0000, 0x0000AA00, 0x000000AA, 0x0F110000, 0x0FAA0000, 0x0000AA00,
+ 0x000000AA, 0x00110000,
+ 0x0000AA00, 0x000000AA, 0x0F110000, 0x00AA0000, 0x0000AA00, 0x0F0000AA,
+ 0x00110000, 0x00AA0000,
+ 0x000000AA, 0x0F110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000,
+ 0x0FAA0000, 0x0000AA00,
+ 0x0F110000, 0x00AA0000, 0x0000AA00, 0x000000AA, 0x00110000, 0x00AA0000,
+ 0x0000AA00, 0x0F0000AA
+ }
};
static void
res->l = EET_TEST_LONG_LONG;
res->str = EET_TEST_STRING;
res->istr = EET_TEST_STRING;
- res->f1 = - EET_TEST_FLOAT;
- res->d = - EET_TEST_DOUBLE;
+ res->f1 = -EET_TEST_FLOAT;
+ res->d = -EET_TEST_DOUBLE;
res->f2 = EET_TEST_FLOAT4;
res->uc = EET_TEST_CHAR;
res->us = EET_TEST_SHORT;
if (i == 0)
{
- Eet_Test_Basic_Type *tmp;
-
- tmp = malloc(sizeof (Eet_Test_Basic_Type));
- fail_if(!tmp);
-
- res->with = tmp;
- tmp->c = EET_TEST_CHAR;
- tmp->s = EET_TEST_SHORT;
- tmp->i = EET_TEST_INT + i + 1;
- tmp->l = EET_TEST_LONG_LONG;
- tmp->str = EET_TEST_STRING;
- tmp->istr = EET_TEST_STRING;
- tmp->f1 = - EET_TEST_FLOAT;
- tmp->d = - EET_TEST_DOUBLE;
- tmp->f2 = EET_TEST_FLOAT4;
- tmp->uc = EET_TEST_CHAR;
- tmp->us = EET_TEST_SHORT;
- tmp->ui = EET_TEST_INT;
- tmp->ul = EET_TEST_LONG_LONG;
- tmp->empty = NULL;
- tmp->with = NULL;
+ Eet_Test_Basic_Type *tmp;
+
+ tmp = malloc(sizeof (Eet_Test_Basic_Type));
+ fail_if(!tmp);
+
+ res->with = tmp;
+ tmp->c = EET_TEST_CHAR;
+ tmp->s = EET_TEST_SHORT;
+ tmp->i = EET_TEST_INT + i + 1;
+ tmp->l = EET_TEST_LONG_LONG;
+ tmp->str = EET_TEST_STRING;
+ tmp->istr = EET_TEST_STRING;
+ tmp->f1 = -EET_TEST_FLOAT;
+ tmp->d = -EET_TEST_DOUBLE;
+ tmp->f2 = EET_TEST_FLOAT4;
+ tmp->uc = EET_TEST_CHAR;
+ tmp->us = EET_TEST_SHORT;
+ tmp->ui = EET_TEST_INT;
+ tmp->ul = EET_TEST_LONG_LONG;
+ tmp->empty = NULL;
+ tmp->with = NULL;
}
}
{
float tmp;
- fail_if(result->c != EET_TEST_CHAR);
- fail_if(result->s != EET_TEST_SHORT);
- fail_if(result->i != EET_TEST_INT + i);
- fail_if(result->l != (long long) EET_TEST_LONG_LONG);
- fail_if(strcmp(result->str, EET_TEST_STRING) != 0);
- fail_if(strcmp(result->istr, EET_TEST_STRING) != 0);
- fail_if(result->uc != EET_TEST_CHAR);
- fail_if(result->us != EET_TEST_SHORT);
- fail_if(result->ui != EET_TEST_INT);
- fail_if(result->ul != EET_TEST_LONG_LONG);
+ fail_if(result->c != EET_TEST_CHAR);
+ fail_if(result->s != EET_TEST_SHORT);
+ fail_if(result->i != EET_TEST_INT + i);
+ fail_if(result->l != (long long)EET_TEST_LONG_LONG);
+ fail_if(strcmp(result->str, EET_TEST_STRING) != 0);
+ fail_if(strcmp(result->istr, EET_TEST_STRING) != 0);
+ fail_if(result->uc != EET_TEST_CHAR);
+ fail_if(result->us != EET_TEST_SHORT);
+ fail_if(result->ui != EET_TEST_INT);
+ fail_if(result->ul != EET_TEST_LONG_LONG);
tmp = (result->f1 + EET_TEST_FLOAT);
- if (tmp < 0) tmp = -tmp;
- fail_if(tmp > 0.005);
+ if (tmp < 0)
+ tmp = -tmp;
+
+ fail_if(tmp > 0.005);
tmp = (result->f2 - EET_TEST_FLOAT4);
- if (tmp < 0) tmp = -tmp;
- fail_if(tmp > 0.005);
+ if (tmp < 0)
+ tmp = -tmp;
+
+ fail_if(tmp > 0.005);
tmp = (result->d + EET_TEST_DOUBLE);
- if (tmp < 0) tmp = -tmp;
- fail_if(tmp > 0.00005);
+ if (tmp < 0)
+ tmp = -tmp;
+
+ fail_if(tmp > 0.00005);
- fail_if(result->empty != NULL);
+ fail_if(result->empty != NULL);
if (i == 0)
{
- Eet_Test_Basic_Type *tmp;
-
- tmp = result->with;
- fail_if(tmp == NULL);
-
- fail_if(tmp->c != EET_TEST_CHAR);
- fail_if(tmp->s != EET_TEST_SHORT);
- fail_if(tmp->i != EET_TEST_INT + i + 1);
- fail_if(tmp->l != (long long) EET_TEST_LONG_LONG);
- fail_if(strcmp(tmp->str, EET_TEST_STRING) != 0);
- fail_if(strcmp(tmp->istr, EET_TEST_STRING) != 0);
- fail_if(tmp->uc != EET_TEST_CHAR);
- fail_if(tmp->us != EET_TEST_SHORT);
- fail_if(tmp->ui != EET_TEST_INT);
- fail_if(tmp->ul != EET_TEST_LONG_LONG);
+ Eet_Test_Basic_Type *tmp;
+
+ tmp = result->with;
+ fail_if(tmp == NULL);
+
+ fail_if(tmp->c != EET_TEST_CHAR);
+ fail_if(tmp->s != EET_TEST_SHORT);
+ fail_if(tmp->i != EET_TEST_INT + i + 1);
+ fail_if(tmp->l != (long long)EET_TEST_LONG_LONG);
+ fail_if(strcmp(tmp->str, EET_TEST_STRING) != 0);
+ fail_if(strcmp(tmp->istr, EET_TEST_STRING) != 0);
+ fail_if(tmp->uc != EET_TEST_CHAR);
+ fail_if(tmp->us != EET_TEST_SHORT);
+ fail_if(tmp->ui != EET_TEST_INT);
+ fail_if(tmp->ul != EET_TEST_LONG_LONG);
}
else
- fail_if(result->with != NULL);
+ fail_if(result->with != NULL);
}
static void
_eet_build_basic_descriptor(Eet_Data_Descriptor *edd)
{
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "c", c, EET_T_CHAR);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "s", s, EET_T_SHORT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "i", i, EET_T_INT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "l", l, EET_T_LONG_LONG);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "str", str, EET_T_STRING);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "istr", istr, EET_T_INLINED_STRING);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "f1", f1, EET_T_FLOAT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "f2", f2, EET_T_FLOAT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "d", d, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "uc", uc, EET_T_UCHAR);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "us", us, EET_T_USHORT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "ui", ui, EET_T_UINT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Basic_Type, "ul", ul, EET_T_ULONG_LONG);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "c",
+ c,
+ EET_T_CHAR);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "s",
+ s,
+ EET_T_SHORT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "i",
+ i,
+ EET_T_INT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "l",
+ l,
+ EET_T_LONG_LONG);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "str",
+ str,
+ EET_T_STRING);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "istr",
+ istr,
+ EET_T_INLINED_STRING);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "f1",
+ f1,
+ EET_T_FLOAT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "f2",
+ f2,
+ EET_T_FLOAT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "d",
+ d,
+ EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "uc",
+ uc,
+ EET_T_UCHAR);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "us",
+ us,
+ EET_T_USHORT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "ui",
+ ui,
+ EET_T_UINT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Basic_Type,
+ "ul",
+ ul,
+ EET_T_ULONG_LONG);
EET_DATA_DESCRIPTOR_ADD_SUB(edd, Eet_Test_Basic_Type, "empty", empty, edd);
- EET_DATA_DESCRIPTOR_ADD_SUB(edd, Eet_Test_Basic_Type, "with", with, edd);
+ EET_DATA_DESCRIPTOR_ADD_SUB(edd, Eet_Test_Basic_Type, "with", with, edd);
}
-START_TEST(eet_test_basic_data_type_encoding_decoding)
+ START_TEST(eet_test_basic_data_type_encoding_decoding)
{
Eet_Data_Descriptor *edd;
Eet_Test_Basic_Type *result;
_eet_build_basic_descriptor(eddb);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "c", c, EET_T_CHAR);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "s", s, EET_T_SHORT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "c",
+ c,
+ EET_T_CHAR);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "s",
+ s,
+ EET_T_SHORT);
EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "i", i, EET_T_INT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "l", l, EET_T_LONG_LONG);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "str", str, EET_T_STRING);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "istr", istr, EET_T_INLINED_STRING);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "f1", f1, EET_T_FLOAT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "f2", f2, EET_T_FLOAT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "f3", f3, EET_T_FLOAT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "f4", f4, EET_T_FLOAT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "d1", d1, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "d2", d2, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "d3", d3, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "d4", d4, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "uc", uc, EET_T_UCHAR);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "us", us, EET_T_USHORT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "ui", ui, EET_T_UINT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd, Eet_Test_Ex_Type, "ul", ul, EET_T_ULONG_LONG);
- EET_DATA_DESCRIPTOR_ADD_ARRAY(edd, Eet_Test_Ex_Type, "sarray1", sarray1, eddb);
- EET_DATA_DESCRIPTOR_ADD_VAR_ARRAY(edd, Eet_Test_Ex_Type, "varray2", varray2, eddb);
- eet_data_descriptor_element_add(edd, "varray1", EET_T_INT, EET_G_VAR_ARRAY,
- (char *)(&(etbt.varray1)) - (char *)(&(etbt)),
- (char *)(&(etbt.varray1_count)) - (char *)(&(etbt)), /* 0, */NULL, NULL);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "l",
+ l,
+ EET_T_LONG_LONG);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "str",
+ str,
+ EET_T_STRING);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "istr",
+ istr,
+ EET_T_INLINED_STRING);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "f1",
+ f1,
+ EET_T_FLOAT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "f2",
+ f2,
+ EET_T_FLOAT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "f3",
+ f3,
+ EET_T_FLOAT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "f4",
+ f4,
+ EET_T_FLOAT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "d1",
+ d1,
+ EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "d2",
+ d2,
+ EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "d3",
+ d3,
+ EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "d4",
+ d4,
+ EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "uc",
+ uc,
+ EET_T_UCHAR);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "us",
+ us,
+ EET_T_USHORT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "ui",
+ ui,
+ EET_T_UINT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd,
+ Eet_Test_Ex_Type,
+ "ul",
+ ul,
+ EET_T_ULONG_LONG);
+ EET_DATA_DESCRIPTOR_ADD_ARRAY(edd,
+ Eet_Test_Ex_Type,
+ "sarray1",
+ sarray1,
+ eddb);
+ EET_DATA_DESCRIPTOR_ADD_VAR_ARRAY(edd,
+ Eet_Test_Ex_Type,
+ "varray2",
+ varray2,
+ eddb);
+ eet_data_descriptor_element_add(edd,
+ "varray1",
+ EET_T_INT,
+ EET_G_VAR_ARRAY,
+ (char *)(&(etbt.varray1)) - (char *)(&(etbt)),
+ (char *)(&(etbt.varray1_count)) -
+ (char *)(&(etbt)),
+ /* 0, */ NULL,
+ NULL);
eet_data_descriptor_element_add(edd, "sarray2", EET_T_INT, EET_G_ARRAY,
- (char *)(&(etbt.sarray2)) - (char *)(&(etbt)),
- /* 0, */sizeof(etbt.sarray2)/sizeof(etbt.sarray2[0]), NULL, NULL);
+ (char *)(&(etbt.sarray2)) - (char *)(&(etbt)),
+ /* 0, */ sizeof(etbt.sarray2) /
+ sizeof(etbt.sarray2[0]), NULL, NULL);
eet_data_descriptor_element_add(edd, "charray", EET_T_STRING, EET_G_ARRAY,
- (char *)(&(etbt.charray)) - (char *)(&(etbt)),
- /* 0, */sizeof(etbt.charray)/sizeof(etbt.charray[0]), NULL, NULL);
+ (char *)(&(etbt.charray)) - (char *)(&(etbt)),
+ /* 0, */ sizeof(etbt.charray) /
+ sizeof(etbt.charray[0]), NULL, NULL);
EET_DATA_DESCRIPTOR_ADD_LIST(edd, Eet_Test_Ex_Type, "list", list, edd);
EET_DATA_DESCRIPTOR_ADD_HASH(edd, Eet_Test_Ex_Type, "hash", hash, edd);
- eet_data_descriptor_element_add(edd, "ilist", EET_T_INT, EET_G_LIST,
- (char *)(&(etbt.ilist)) - (char *)(&(etbt)),
- 0, /* 0, */NULL, NULL);
- eet_data_descriptor_element_add(edd, "ihash", EET_T_INT, EET_G_HASH,
- (char *)(&(etbt.ihash)) - (char *)(&(etbt)),
- 0, /* 0, */NULL, NULL);
+ eet_data_descriptor_element_add(edd, "ilist", EET_T_INT, EET_G_LIST,
+ (char *)(&(etbt.ilist)) - (char *)(&(etbt)),
+ 0, /* 0, */ NULL, NULL);
+ eet_data_descriptor_element_add(edd, "ihash", EET_T_INT, EET_G_HASH,
+ (char *)(&(etbt.ihash)) - (char *)(&(etbt)),
+ 0, /* 0, */ NULL, NULL);
eet_data_descriptor_element_add(edd, "slist", EET_T_STRING, EET_G_LIST,
- (char *)(&(etbt.slist)) - (char *)(&(etbt)),
- 0, /* 0, */NULL, NULL);
+ (char *)(&(etbt.slist)) - (char *)(&(etbt)),
+ 0, /* 0, */ NULL, NULL);
eet_data_descriptor_element_add(edd, "shash", EET_T_STRING, EET_G_HASH,
- (char *)(&(etbt.shash)) - (char *)(&(etbt)),
- 0, /* 0, */NULL, NULL);
+ (char *)(&(etbt.shash)) - (char *)(&(etbt)),
+ 0, /* 0, */ NULL, NULL);
}
-static Eet_Test_Ex_Type*
+static Eet_Test_Ex_Type *
_eet_test_ex_set(Eet_Test_Ex_Type *res, int offset)
{
unsigned int i;
- if (!res) res = malloc( sizeof(Eet_Test_Ex_Type));
- if (!res) return NULL;
+ if (!res)
+ res = malloc( sizeof(Eet_Test_Ex_Type));
+
+ if (!res)
+ return NULL;
res->c = EET_TEST_CHAR + offset;
res->s = EET_TEST_SHORT + offset;
res->ihash = NULL;
res->slist = NULL;
res->shash = NULL;
- for (i = 0; i < sizeof(res->charray)/sizeof(res->charray[0]); ++i)
- res->charray[i] = NULL;
+ for (i = 0; i < sizeof(res->charray) / sizeof(res->charray[0]); ++i)
+ res->charray[i] = NULL;
res->varray2 = malloc(sizeof (Eet_Test_Basic_Type) * 10);
res->varray1 = malloc(sizeof (int) * 5);
fail_if(!res->varray1 || !res->varray2);
for (i = 0; i < 10; ++i)
{
- _eet_test_basic_set(res->sarray1 + i, i);
- _eet_test_basic_set(res->varray2 + i, i);
+ _eet_test_basic_set(res->sarray1 + i, i);
+ _eet_test_basic_set(res->varray2 + i, i);
}
res->varray2_count = 10;
for (i = 0; i < 5; ++i)
{
- res->sarray2[i] = i * 42 + 1;
- res->varray1[i] = i * 42 + 1;
+ res->sarray2[i] = i * 42 + 1;
+ res->varray1[i] = i * 42 + 1;
}
res->varray1_count = 5;
double tmp;
unsigned int i;
- if (!stuff) return 1;
+ if (!stuff)
+ return 1;
+
+ if (stuff->c != EET_TEST_CHAR + offset)
+ return 1;
- if (stuff->c != EET_TEST_CHAR + offset) return 1;
- if (stuff->s != EET_TEST_SHORT + offset) return 1;
- if (stuff->i != EET_TEST_INT + offset) return 1;
- if (stuff->l != EET_TEST_LONG_LONG + offset) return 1;
- if (strcmp(stuff->str, EET_TEST_STRING) != 0) return 1;
- if (strcmp(stuff->istr, EET_TEST_STRING) != 0) return 1;
+ if (stuff->s != EET_TEST_SHORT + offset)
+ return 1;
+
+ if (stuff->i != EET_TEST_INT + offset)
+ return 1;
+
+ if (stuff->l != EET_TEST_LONG_LONG + offset)
+ return 1;
+
+ if (strcmp(stuff->str, EET_TEST_STRING) != 0)
+ return 1;
+
+ if (strcmp(stuff->istr, EET_TEST_STRING) != 0)
+ return 1;
tmp = stuff->f1 - (EET_TEST_FLOAT + offset);
- if (tmp < 0) tmp = -tmp;
- if (tmp > 0.005) return 1;
+ if (tmp < 0)
+ tmp = -tmp;
+
+ if (tmp > 0.005)
+ return 1;
tmp = stuff->d1 - (EET_TEST_DOUBLE + offset);
- if (tmp < 0) tmp = -tmp;
- if (tmp > 0.00005) return 1;
+ if (tmp < 0)
+ tmp = -tmp;
+
+ if (tmp > 0.00005)
+ return 1;
+
+ if (stuff->f2 != -(EET_TEST_FLOAT2 + offset))
+ return 1;
- if (stuff->f2 != - (EET_TEST_FLOAT2 + offset)) return 1;
- if (stuff->d2 != - (EET_TEST_DOUBLE2 + offset)) return 1;
+ if (stuff->d2 != -(EET_TEST_DOUBLE2 + offset))
+ return 1;
- if (stuff->f3 != EET_TEST_FLOAT3 + offset) return 1;
- if (stuff->d3 != EET_TEST_DOUBLE3 + offset) return 1;
+ if (stuff->f3 != EET_TEST_FLOAT3 + offset)
+ return 1;
- if (stuff->f4 != EET_TEST_FLOAT2 + offset) return 1;
- if (stuff->d4 != EET_TEST_DOUBLE2 + offset) return 1;
+ if (stuff->d3 != EET_TEST_DOUBLE3 + offset)
+ return 1;
- if (stuff->uc != EET_TEST_CHAR + offset) return 1;
- if (stuff->us != EET_TEST_SHORT + offset) return 1;
- if (stuff->ui != (unsigned int) EET_TEST_INT + offset) return 1;
- if (stuff->ul != EET_TEST_LONG_LONG + offset) return 1;
+ if (stuff->f4 != EET_TEST_FLOAT2 + offset)
+ return 1;
- if (stuff->varray1_count != 5) return 1;
- if (stuff->varray2_count != 10) return 1;
+ if (stuff->d4 != EET_TEST_DOUBLE2 + offset)
+ return 1;
+
+ if (stuff->uc != EET_TEST_CHAR + offset)
+ return 1;
+
+ if (stuff->us != EET_TEST_SHORT + offset)
+ return 1;
+
+ if (stuff->ui != (unsigned int)EET_TEST_INT + offset)
+ return 1;
+
+ if (stuff->ul != EET_TEST_LONG_LONG + offset)
+ return 1;
+
+ if (stuff->varray1_count != 5)
+ return 1;
+
+ if (stuff->varray2_count != 10)
+ return 1;
for (i = 0; i < 5; ++i)
- if (stuff->sarray2[i] != i * 42 + 1 && stuff->varray1[i] != i * 42 + 1)
- return 1;
+ if (stuff->sarray2[i] != i * 42 + 1 && stuff->varray1[i] != i * 42 + 1)
+ return 1;
for (i = 0; i < 10; ++i)
{
- _eet_test_basic_check(stuff->sarray1 + i, i);
- _eet_test_basic_check(stuff->varray2 + i, i);
+ _eet_test_basic_check(stuff->sarray1 + i, i);
+ _eet_test_basic_check(stuff->varray2 + i, i);
}
return 0;
int *res = fdata;
if (strcmp(key, EET_TEST_KEY1) != 0
- && strcmp(key, EET_TEST_KEY2) != 0) *res = 1;
- if (_eet_test_ex_check(data, 2)) *res = 1;
+ && strcmp(key, EET_TEST_KEY2) != 0)
+ *res = 1;
+
+ if (_eet_test_ex_check(data, 2))
+ *res = 1;
return EINA_TRUE;
}
static Eina_Bool
-func7(__UNUSED__ const Eina_Hash *hash, __UNUSED__ const void *key, void *data, void *fdata)
+func7(__UNUSED__ const Eina_Hash *hash,
+ __UNUSED__ const void *key,
+ void *data,
+ void *fdata)
{
int *res = fdata;
int *val;
val = data;
- if (!val) *res = 1;
- if (*val != 7) *res = 1;
+ if (!val)
+ *res = 1;
+
+ if (*val != 7)
+ *res = 1;
return EINA_TRUE;
}
_eet_test_ex_set(&etbt, 0);
etbt.list = eina_list_prepend(etbt.list, _eet_test_ex_set(NULL, 1));
etbt.hash = eina_hash_string_superfast_new(NULL);
- eina_hash_add(etbt.hash, EET_TEST_KEY1, _eet_test_ex_set(NULL, 2));
+ eina_hash_add(etbt.hash, EET_TEST_KEY1, _eet_test_ex_set(NULL, 2));
etbt.ilist = eina_list_prepend(etbt.ilist, &i42);
etbt.ihash = eina_hash_string_superfast_new(NULL);
eina_hash_add(etbt.ihash, EET_TEST_KEY1, &i7);
fail_if(_eet_test_ex_check(result, 0) != 0);
fail_if(_eet_test_ex_check(eina_list_data_get(result->list), 1) != 0);
fail_if(eina_list_data_get(result->ilist) == NULL);
- fail_if(*((int*)eina_list_data_get(result->ilist)) != 42);
+ fail_if(*((int *)eina_list_data_get(result->ilist)) != 42);
fail_if(eina_list_data_get(result->slist) == NULL);
fail_if(strcmp(eina_list_data_get(result->slist), "test") != 0);
fail_if(eina_hash_find(result->shash, EET_TEST_KEY1) == NULL);
fail_if(strcmp(result->charray[5], "plouf") != 0);
test = 0;
- if (result->hash) eina_hash_foreach(result->hash, func, &test);
+ if (result->hash)
+ eina_hash_foreach(result->hash, func, &test);
+
fail_if(test != 0);
- if (result->ihash) eina_hash_foreach(result->ihash, func7, &test);
+ if (result->ihash)
+ eina_hash_foreach(result->ihash, func7, &test);
+
fail_if(test != 0);
eet_shutdown();
char **string = data;
int length;
- if (!data) return ;
+ if (!data)
+ return;
length = *string ? strlen(*string) : 0;
*string = realloc(*string, strlen(str) + length + 1);
eet_data_text_dump(transfert1, size1, append_string, &string1);
fail_if(!string1);
- transfert2 = eet_data_text_undump(string1, string1 ? strlen(string1) : 0, &size2);
+ transfert2 = eet_data_text_undump(string1, string1 ? strlen(
+ string1) : 0, &size2);
fail_if(!transfert2 && size2 <= 0);
string2 = NULL;
fail_if(_eet_test_ex_check(result, 0) != 0);
fail_if(_eet_test_ex_check(eina_list_data_get(result->list), 1) != 0);
fail_if(eina_list_data_get(result->ilist) == NULL);
- fail_if(*((int*)eina_list_data_get(result->ilist)) != 42);
+ fail_if(*((int *)eina_list_data_get(result->ilist)) != 42);
fail_if(eina_list_data_get(result->slist) == NULL);
fail_if(strcmp(eina_list_data_get(result->slist), "test") != 0);
fail_if(eina_hash_find(result->shash, EET_TEST_KEY1) == NULL);
fail_if(strcmp(result->charray[0], "test") != 0);
test = 0;
- if (result->hash) eina_hash_foreach(result->hash, func, &test);
+ if (result->hash)
+ eina_hash_foreach(result->hash, func, &test);
+
fail_if(test != 0);
- if (result->ihash) eina_hash_foreach(result->ihash, func7, &test);
+ if (result->ihash)
+ eina_hash_foreach(result->ihash, func7, &test);
+
fail_if(test != 0);
eet_shutdown();
test = eet_read(ef, "keys/tests", &size);
fail_if(!test);
- fail_if(size != (int) strlen(buffer) + 1);
+ fail_if(size != (int)strlen(buffer) + 1);
fail_if(memcmp(test, buffer, strlen(buffer) + 1) != 0);
test = eet_read(ef, "keys/alias2", &size);
fail_if(!test);
- fail_if(size != (int) strlen(buffer) + 1);
+ fail_if(size != (int)strlen(buffer) + 1);
fail_if(eet_read_direct(ef, "key/alias2", &size));
test = eet_read(ef, "keys/tests", &size);
fail_if(!test);
- fail_if(size != (int) strlen(buffer) + 1);
+ fail_if(size != (int)strlen(buffer) + 1);
fail_if(memcmp(test, buffer, strlen(buffer) + 1) != 0);
fail_if(_eet_test_ex_check(result, 0) != 0);
fail_if(_eet_test_ex_check(eina_list_data_get(result->list), 1) != 0);
fail_if(eina_list_data_get(result->ilist) == NULL);
- fail_if(*((int*)eina_list_data_get(result->ilist)) != 42);
+ fail_if(*((int *)eina_list_data_get(result->ilist)) != 42);
fail_if(eina_list_data_get(result->slist) == NULL);
fail_if(strcmp(eina_list_data_get(result->slist), "test") != 0);
fail_if(eina_hash_find(result->shash, EET_TEST_KEY1) == NULL);
fail_if(strcmp(result->charray[0], "test") != 0);
test = 0;
- if (result->hash) eina_hash_foreach(result->hash, func, &test);
- fail_if(test != 0);
- if (result->ihash) eina_hash_foreach(result->ihash, func7, &test);
+ if (result->hash)
+ eina_hash_foreach(result->hash, func, &test);
+
fail_if(test != 0);
+ if (result->ihash)
+ eina_hash_foreach(result->ihash, func7, &test);
+
+ fail_if(test != 0);
list = eet_list(ef, "keys/*", &size);
- fail_if(eet_num_entries(ef) != 2);
- fail_if(size != 2);
- fail_if(!(strcmp(list[0], EET_TEST_FILE_KEY1) == 0 && strcmp(list[1], EET_TEST_FILE_KEY2) == 0)
- && !(strcmp(list[0], EET_TEST_FILE_KEY2) == 0 && strcmp(list[1], EET_TEST_FILE_KEY1) == 0));
- free(list);
+ fail_if(eet_num_entries(ef) != 2);
+ fail_if(size != 2);
+ fail_if(!(strcmp(list[0],
+ EET_TEST_FILE_KEY1) == 0 &&
+ strcmp(list[1], EET_TEST_FILE_KEY2) == 0)
+ && !(strcmp(list[0],
+ EET_TEST_FILE_KEY2) == 0 &&
+ strcmp(list[1], EET_TEST_FILE_KEY1) == 0));
+ free(list);
fail_if(eet_delete(ef, NULL) != 0);
fail_if(eet_delete(NULL, EET_TEST_FILE_KEY1) != 0);
memset(&etbt.charray, 0, sizeof(etbt.charray));
etbt.charray[0] = "test";
- eet_eina_file_data_descriptor_class_set(&eddc, "Eet_Test_Ex_Type", sizeof(Eet_Test_Ex_Type));
+ eet_eina_file_data_descriptor_class_set(&eddc, "Eet_Test_Ex_Type",
+ sizeof(Eet_Test_Ex_Type));
edd = eet_data_descriptor_file_new(&eddc);
fail_if(!edd);
fail_if(_eet_test_ex_check(result, 0) != 0);
fail_if(_eet_test_ex_check(eina_list_data_get(result->list), 1) != 0);
fail_if(eina_list_data_get(result->ilist) == NULL);
- fail_if(*((int*)eina_list_data_get(result->ilist)) != 42);
+ fail_if(*((int *)eina_list_data_get(result->ilist)) != 42);
fail_if(eina_list_data_get(result->slist) == NULL);
fail_if(strcmp(eina_list_data_get(result->slist), "test") != 0);
fail_if(eina_hash_find(result->shash, EET_TEST_KEY1) == NULL);
fail_if(strcmp(result->charray[0], "test") != 0);
test = 0;
- if (result->hash) eina_hash_foreach(result->hash, func, &test);
+ if (result->hash)
+ eina_hash_foreach(result->hash, func, &test);
+
fail_if(test != 0);
- if (result->ihash) eina_hash_foreach(result->ihash, func7, &test);
+ if (result->ihash)
+ eina_hash_foreach(result->ihash, func7, &test);
+
fail_if(test != 0);
fail_if(unlink(file) != 0);
ef = eet_open(file, EET_FILE_MODE_READ_WRITE);
fail_if(!ef);
- result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "0", test_noalpha.color,
- test_noalpha.w, test_noalpha.h, test_noalpha.alpha,
- 0, 100, 0);
+ result = eet_data_image_write(ef,
+ EET_TEST_FILE_IMAGE "0",
+ test_noalpha.color,
+ test_noalpha.w,
+ test_noalpha.h,
+ test_noalpha.alpha,
+ 0,
+ 100,
+ 0);
fail_if(result == 0);
- result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "1", test_noalpha.color,
- test_noalpha.w, test_noalpha.h, test_noalpha.alpha,
- 5, 100, 0);
+ result = eet_data_image_write(ef,
+ EET_TEST_FILE_IMAGE "1",
+ test_noalpha.color,
+ test_noalpha.w,
+ test_noalpha.h,
+ test_noalpha.alpha,
+ 5,
+ 100,
+ 0);
fail_if(result == 0);
- result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "2", test_noalpha.color,
- test_noalpha.w, test_noalpha.h, test_noalpha.alpha,
- 9, 100, 0);
+ result = eet_data_image_write(ef,
+ EET_TEST_FILE_IMAGE "2",
+ test_noalpha.color,
+ test_noalpha.w,
+ test_noalpha.h,
+ test_noalpha.alpha,
+ 9,
+ 100,
+ 0);
fail_if(result == 0);
- result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "3", test_noalpha.color,
- test_noalpha.w, test_noalpha.h, test_noalpha.alpha,
- 0, 100, 1);
+ result = eet_data_image_write(ef,
+ EET_TEST_FILE_IMAGE "3",
+ test_noalpha.color,
+ test_noalpha.w,
+ test_noalpha.h,
+ test_noalpha.alpha,
+ 0,
+ 100,
+ 1);
fail_if(result == 0);
- result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "4", test_noalpha.color,
- test_noalpha.w, test_noalpha.h, test_noalpha.alpha,
- 0, 60, 1);
+ result = eet_data_image_write(ef,
+ EET_TEST_FILE_IMAGE "4",
+ test_noalpha.color,
+ test_noalpha.w,
+ test_noalpha.h,
+ test_noalpha.alpha,
+ 0,
+ 60,
+ 1);
fail_if(result == 0);
- result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "5", test_noalpha.color,
- test_noalpha.w, test_noalpha.h, test_noalpha.alpha,
- 0, 10, 1);
+ result = eet_data_image_write(ef,
+ EET_TEST_FILE_IMAGE "5",
+ test_noalpha.color,
+ test_noalpha.w,
+ test_noalpha.h,
+ test_noalpha.alpha,
+ 0,
+ 10,
+ 1);
fail_if(result == 0);
- result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "6", test_noalpha.color,
- test_noalpha.w, test_noalpha.h, test_noalpha.alpha,
- 0, 0, 1);
+ result = eet_data_image_write(ef,
+ EET_TEST_FILE_IMAGE "6",
+ test_noalpha.color,
+ test_noalpha.w,
+ test_noalpha.h,
+ test_noalpha.alpha,
+ 0,
+ 0,
+ 1);
fail_if(result == 0);
result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "7", test_alpha.color,
- test_alpha.w, test_alpha.h, test_alpha.alpha,
- 9, 100, 0);
+ test_alpha.w, test_alpha.h, test_alpha.alpha,
+ 9, 100, 0);
fail_if(result == 0);
result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "8", test_alpha.color,
- test_alpha.w, test_alpha.h, test_alpha.alpha,
- 0, 80, 1);
+ test_alpha.w, test_alpha.h, test_alpha.alpha,
+ 0, 80, 1);
fail_if(result == 0);
result = eet_data_image_write(ef, EET_TEST_FILE_IMAGE "9", test_alpha.color,
- test_alpha.w, test_alpha.h, test_alpha.alpha,
- 0, 100, 1);
+ test_alpha.w, test_alpha.h, test_alpha.alpha,
+ 0, 100, 1);
fail_if(result == 0);
- data = eet_data_image_read(ef, EET_TEST_FILE_IMAGE "2", &w, &h, &alpha, &compress, &quality, &lossy);
+ data = eet_data_image_read(ef,
+ EET_TEST_FILE_IMAGE "2",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(data == NULL);
fail_if(w != test_noalpha.w);
fail_if(h != test_noalpha.h);
fail_if(data[0] != test_noalpha.color[0]);
free(data);
- result = eet_data_image_header_read(ef, EET_TEST_FILE_IMAGE "2", &w, &h, &alpha, &compress, &quality, &lossy);
+ result = eet_data_image_header_read(ef,
+ EET_TEST_FILE_IMAGE "2",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(result == 0);
fail_if(w != test_noalpha.w);
fail_if(h != test_noalpha.h);
ef = eet_open(file, EET_FILE_MODE_READ);
fail_if(!ef);
- result = eet_data_image_header_read(ef, EET_TEST_FILE_IMAGE "0", &w, &h, &alpha, &compress, &quality, &lossy);
+ result = eet_data_image_header_read(ef,
+ EET_TEST_FILE_IMAGE "0",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(result == 0);
fail_if(w != test_noalpha.w);
fail_if(h != test_noalpha.h);
data = malloc(w * h * 4);
fail_if(data == NULL);
- result = eet_data_image_read_to_surface(ef, EET_TEST_FILE_IMAGE "0", 4, 4, data, 2, 2, w * 4, &alpha, &compress, &quality, &lossy);
+ result = eet_data_image_read_to_surface(ef,
+ EET_TEST_FILE_IMAGE "0",
+ 4,
+ 4,
+ data,
+ 2,
+ 2,
+ w * 4,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(result != 1);
fail_if(alpha != test_noalpha.alpha);
fail_if(compress != 0);
data = malloc(w * h * 4);
fail_if(data == NULL);
- result = eet_data_image_read_to_surface(ef, EET_TEST_FILE_IMAGE "0", 0, 0, data, w, h, w * 4, &alpha, &compress, &quality, &lossy);
+ result = eet_data_image_read_to_surface(ef,
+ EET_TEST_FILE_IMAGE "0",
+ 0,
+ 0,
+ data,
+ w,
+ h,
+ w * 4,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(result != 1);
fail_if(alpha != test_noalpha.alpha);
fail_if(compress != 0);
fail_if(data[0] != test_noalpha.color[0]);
free(data);
- data = eet_data_image_read(ef, EET_TEST_FILE_IMAGE "1", &w, &h, &alpha, &compress, &quality, &lossy);
+ data = eet_data_image_read(ef,
+ EET_TEST_FILE_IMAGE "1",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(data == NULL);
fail_if(w != test_noalpha.w);
fail_if(h != test_noalpha.h);
fail_if(data[0] != test_noalpha.color[0]);
free(data);
- data = eet_data_image_read(ef, EET_TEST_FILE_IMAGE "2", &w, &h, &alpha, &compress, &quality, &lossy);
+ data = eet_data_image_read(ef,
+ EET_TEST_FILE_IMAGE "2",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(data == NULL);
fail_if(w != test_noalpha.w);
fail_if(h != test_noalpha.h);
fail_if(data[0] != test_noalpha.color[0]);
free(data);
- data = eet_data_image_read(ef, EET_TEST_FILE_IMAGE "3", &w, &h, &alpha, &compress, &quality, &lossy);
+ data = eet_data_image_read(ef,
+ EET_TEST_FILE_IMAGE "3",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(data == NULL);
fail_if(w != test_noalpha.w);
fail_if(h != test_noalpha.h);
fail_if(lossy != 1);
free(data);
- data = eet_data_image_read(ef, EET_TEST_FILE_IMAGE "5", &w, &h, &alpha, &compress, &quality, &lossy);
+ data = eet_data_image_read(ef,
+ EET_TEST_FILE_IMAGE "5",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(data == NULL);
fail_if(w != test_noalpha.w);
fail_if(h != test_noalpha.h);
fail_if(lossy != 1);
free(data);
- data = eet_data_image_read(ef, EET_TEST_FILE_IMAGE "6", &w, &h, &alpha, &compress, &quality, &lossy);
+ data = eet_data_image_read(ef,
+ EET_TEST_FILE_IMAGE "6",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(data == NULL);
fail_if(w != test_noalpha.w);
fail_if(h != test_noalpha.h);
fail_if(lossy != 1);
free(data);
- result = eet_data_image_header_read(ef, EET_TEST_FILE_IMAGE "7", &w, &h, &alpha, &compress, &quality, &lossy);
+ result = eet_data_image_header_read(ef,
+ EET_TEST_FILE_IMAGE "7",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(result == 0);
fail_if(w != test_alpha.w);
fail_if(h != test_alpha.h);
fail_if(compress != 9);
fail_if(lossy != 0);
- data = eet_data_image_read(ef, EET_TEST_FILE_IMAGE "7", &w, &h, &alpha, &compress, &quality, &lossy);
+ data = eet_data_image_read(ef,
+ EET_TEST_FILE_IMAGE "7",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(data == NULL);
fail_if(w != test_alpha.w);
fail_if(h != test_alpha.h);
fail_if(data[0] != test_alpha.color[0]);
free(data);
- result = eet_data_image_header_read(ef, EET_TEST_FILE_IMAGE "9", &w, &h, &alpha, &compress, &quality, &lossy);
+ result = eet_data_image_header_read(ef,
+ EET_TEST_FILE_IMAGE "9",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(result == 0);
fail_if(w != test_alpha.w);
fail_if(h != test_alpha.h);
fail_if(alpha != test_alpha.alpha);
fail_if(lossy != 1);
- data = eet_data_image_read(ef, EET_TEST_FILE_IMAGE "9", &w, &h, &alpha, &compress, &quality, &lossy);
+ data = eet_data_image_read(ef,
+ EET_TEST_FILE_IMAGE "9",
+ &w,
+ &h,
+ &alpha,
+ &compress,
+ &quality,
+ &lossy);
fail_if(data == NULL);
fail_if(w != test_alpha.w);
fail_if(h != test_alpha.h);
ef = eet_open(file, EET_FILE_MODE_READ);
fail_if(!ef);
- data = (unsigned int*) eet_data_image_read(ef, "/images/test", &w, &h, &alpha, &compression, &quality, &lossy);
+ data = (unsigned int *)eet_data_image_read(ef,
+ "/images/test",
+ &w,
+ &h,
+ &alpha,
+ &compression,
+ &quality,
+ &lossy);
fail_if(data == NULL);
eet_close(ef);
test = eet_read(ef, "keys/tests", &size);
fail_if(!test);
- fail_if(size != (int) strlen(buffer) + 1);
+ fail_if(size != (int)strlen(buffer) + 1);
fail_if(memcmp(test, buffer, strlen(buffer) + 1) != 0);
eet_init();
- fail_if(chdir("src/tests"));
+ fail_if(chdir("src/tests"));
k = eet_identity_open("cert.pem", "key.pem", NULL);
- fail_if(!k);
+ fail_if(!k);
- if (k) eet_identity_close(k);
+ if (k)
+ eet_identity_close(k);
eet_shutdown();
}
eet_init();
- fail_if(chdir("src/tests"));
+ fail_if(chdir("src/tests"));
k = eet_identity_open("cert.pem", "key_enc_none.pem", NULL);
- fail_if(!k);
+ fail_if(!k);
- if (k) eet_identity_close(k);
+ if (k)
+ eet_identity_close(k);
eet_shutdown();
}
END_TEST
-static int pass_get(char *pass, int size, __UNUSED__ int rwflags, __UNUSED__ void *u)
+static int pass_get(char *pass,
+ int size,
+ __UNUSED__ int rwflags,
+ __UNUSED__ void *u)
{
memset(pass, 0, size);
- if ((int) strlen("password") > size)
- return 0;
+ if ((int)strlen("password") > size)
+ return 0;
+
snprintf(pass, size, "%s", "password");
return strlen(pass);
}
-static int badpass_get(char *pass, int size, __UNUSED__ int rwflags, __UNUSED__ void *u)
+static int badpass_get(char *pass,
+ int size,
+ __UNUSED__ int rwflags,
+ __UNUSED__ void *u)
{
memset(pass, 0, size);
- if ((int) strlen("bad password") > size)
- return 0;
+ if ((int)strlen("bad password") > size)
+ return 0;
+
snprintf(pass, size, "%s", "bad password");
return strlen(pass);
}
eet_init();
- fail_if(chdir("src/tests"));
+ fail_if(chdir("src/tests"));
k = eet_identity_open("cert.pem", "key_enc.pem", NULL);
- fail_if(k);
+ fail_if(k);
- if (k) eet_identity_close(k);
+ if (k)
+ eet_identity_close(k);
k = eet_identity_open("cert.pem", "key_enc.pem", &badpass_get);
fail_if(k);
- if (k) eet_identity_close(k);
+ if (k)
+ eet_identity_close(k);
k = eet_identity_open("cert.pem", "key_enc.pem", &pass_get);
fail_if(!k);
- if (k) eet_identity_close(k);
+ if (k)
+ eet_identity_close(k);
eet_shutdown();
}
ef = eet_open(file, EET_FILE_MODE_WRITE);
fail_if(!ef);
- fail_if(!eet_write_cipher(ef, "keys/tests", buffer, strlen(buffer) + 1, 0, key));
+ fail_if(!eet_write_cipher(ef, "keys/tests", buffer, strlen(buffer) + 1, 0,
+ key));
eet_close(ef);
test = eet_read_cipher(ef, "keys/tests", &size, key);
fail_if(!test);
- fail_if(size != (int) strlen(buffer) + 1);
+ fail_if(size != (int)strlen(buffer) + 1);
fail_if(memcmp(test, buffer, strlen(buffer) + 1) != 0);
/* Decrypt an eet file. */
ef = eet_open(file, EET_FILE_MODE_READ);
- fail_if(!ef);
+ fail_if(!ef);
test = eet_read_cipher(ef, "keys/tests", &size, key_bad);
- if (size == (int) strlen(buffer) + 1)
- fail_if(memcmp(test, buffer, strlen(buffer) + 1) == 0);
+ if (size == (int)strlen(buffer) + 1)
+ fail_if(memcmp(test, buffer, strlen(buffer) + 1) == 0);
- eet_close(ef);
+ eet_close(ef);
fail_if(unlink(file) != 0);
# ifdef EFL_HAVE_POSIX_THREADS
-static void*
-open_close_worker(void* path)
+static void *
+open_close_worker(void *path)
{
while (!open_worker_stop)
{
- Eet_File* ef = eet_open((char const*)path, EET_FILE_MODE_READ);
- if (ef == NULL)
- {
- pthread_exit("eet_open() failed");
- }
- else
- {
- Eet_Error err_code = eet_close(ef);
- if (err_code != EET_ERROR_NONE)
- pthread_exit("eet_close() failed");
- }
+ Eet_File *ef = eet_open((char const *)path, EET_FILE_MODE_READ);
+ if (ef == NULL)
+ pthread_exit("eet_open() failed");
+ else
+ {
+ Eet_Error err_code = eet_close(ef);
+ if (err_code != EET_ERROR_NONE)
+ pthread_exit("eet_close() failed");
+ }
}
- pthread_exit(NULL);
+ pthread_exit(NULL);
}
# else
{
while (!open_worker_stop)
{
- Eet_File *ef = eet_open((char const *)path, EET_FILE_MODE_READ);
- if (ef == NULL)
- {
- _endthreadex(-1);
- }
- else
- {
- Eet_Error err_code = eet_close(ef);
- if (err_code != EET_ERROR_NONE)
- _endthreadex(-2);
- }
+ Eet_File *ef = eet_open((char const *)path, EET_FILE_MODE_READ);
+ if (ef == NULL)
+ _endthreadex(-1);
+ else
+ {
+ Eet_Error err_code = eet_close(ef);
+ if (err_code != EET_ERROR_NONE)
+ _endthreadex(-2);
+ }
}
- _endthreadex(0);
+ _endthreadex(0);
}
# endif
/* clear the cache repeatedly in this thread */
for (n = 0; n < 50000; ++n)
{
- eet_clearcache();
+ eet_clearcache();
}
/* join the other thread, and fail if it returned an error message */
open_worker_stop = 1;
# ifdef EFL_HAVE_POSIX_THREADS
fail_if(pthread_join(thread, &thread_ret) != 0);
- fail_unless(thread_ret == NULL, (char const*)thread_ret);
+ fail_unless(thread_ret == NULL, (char const *)thread_ret);
# else
ret = WaitForSingleObject((HANDLE)thread, INFINITE);
fail_if(ret != WAIT_OBJECT_0);
fail_if(_eet_test_ex_check(result, 0) != 0);
fail_if(_eet_test_ex_check(eina_list_data_get(result->list), 1) != 0);
fail_if(eina_list_data_get(result->ilist) == NULL);
- fail_if(*((int*)eina_list_data_get(result->ilist)) != 42);
+ fail_if(*((int *)eina_list_data_get(result->ilist)) != 42);
fail_if(eina_list_data_get(result->slist) == NULL);
fail_if(strcmp(eina_list_data_get(result->slist), "test") != 0);
fail_if(eina_hash_find(result->shash, EET_TEST_KEY1) == NULL);
fail_if(strcmp(result->charray[0], "test") != 0);
test = 0;
- if (result->hash) eina_hash_foreach(result->hash, func, &test);
- fail_if(test != 0);
- if (result->ihash) eina_hash_foreach(result->ihash, func7, &test);
+ if (result->hash)
+ eina_hash_foreach(result->hash, func, &test);
+
fail_if(test != 0);
+ if (result->ihash)
+ eina_hash_foreach(result->ihash, func7, &test);
+
+ fail_if(test != 0);
if (!dt->test)
{
- dt->test = EINA_TRUE;
- fail_if(!eet_connection_node_send(dt->conn, node, NULL));
+ dt->test = EINA_TRUE;
+ fail_if(!eet_connection_node_send(dt->conn, node, NULL));
}
return EINA_TRUE;
if (!dt->test)
{
- int step = size / 3;
+ int step = size / 3;
- eet_connection_received(dt->conn, data, step);
- eet_connection_received(dt->conn, (char*) data + step, step);
- size -= 2 * step;
- still = eet_connection_received(dt->conn, (char*) data + 2 * step, size);
+ eet_connection_received(dt->conn, data, step);
+ eet_connection_received(dt->conn, (char *)data + step, step);
+ size -= 2 * step;
+ still = eet_connection_received(dt->conn, (char *)data + 2 * step, size);
}
else
- still = eet_connection_received(dt->conn, data, size);
+ still = eet_connection_received(dt->conn, data, size);
+
fail_if(still);
return EINA_TRUE;
memset(&etbt.charray, 0, sizeof(etbt.charray));
etbt.charray[0] = "test";
- eet_eina_file_data_descriptor_class_set(&eddc, "Eet_Test_Ex_Type", sizeof(Eet_Test_Ex_Type));
+ eet_eina_file_data_descriptor_class_set(&eddc, "Eet_Test_Ex_Type",
+ sizeof(Eet_Test_Ex_Type));
edd = eet_data_descriptor_file_new(&eddc);
fail_if(!edd);
{
Eina_F32p32 fp32;
Eina_F16p16 fp16;
- Eina_F8p24 fp8;
+ Eina_F8p24 fp8;
Eina_F32p32 f1;
Eina_F32p32 f0;
};
{
double fp32;
double fp16;
- float fp8;
+ float fp8;
double f1;
double f0;
};
EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "fp32", fp32, EET_T_F32P32);
EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "fp16", fp16, EET_T_F16P16);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "fp8", fp8, EET_T_F8P24);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "f1", f1, EET_T_F32P32);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "f0", f0, EET_T_F32P32);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "fp8", fp8, EET_T_F8P24);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "f1", f1, EET_T_F32P32);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "f0", f0, EET_T_F32P32);
eet_eina_stream_data_descriptor_class_set(&eddc, "Eet_5FP", sizeof (Eet_5DBL));
edd_5DBL = eet_data_descriptor_stream_new(&eddc);
EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "fp32", fp32, EET_T_DOUBLE);
EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "fp16", fp16, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "fp8", fp8, EET_T_FLOAT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "f1", f1, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "f0", f0, EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "fp8", fp8, EET_T_FLOAT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "f1", f1, EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "f0", f0, EET_T_DOUBLE);
origin.fp32 = eina_f32p32_double_from(1.125);
origin.fp16 = eina_f16p16_int_from(2000);
EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "fp32", fp32, EET_T_F32P32);
EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "fp16", fp16, EET_T_F16P16);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "fp8", fp8, EET_T_F8P24);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "f1", f1, EET_T_F32P32);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "f0", f0, EET_T_F32P32);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "fp8", fp8, EET_T_F8P24);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "f1", f1, EET_T_F32P32);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5FP, Eet_5FP, "f0", f0, EET_T_F32P32);
eet_eina_file_data_descriptor_class_set(&eddc, "Eet_5FP", sizeof (Eet_5DBL));
edd_5DBL = eet_data_descriptor_file_new(&eddc);
EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "fp32", fp32, EET_T_DOUBLE);
EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "fp16", fp16, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "fp8", fp8, EET_T_FLOAT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "f1", f1, EET_T_DOUBLE);
- EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "f0", f0, EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "fp8", fp8, EET_T_FLOAT);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "f1", f1, EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(edd_5DBL, Eet_5DBL, "f0", f0, EET_T_DOUBLE);
origin.fp32 = eina_f32p32_double_from(1.125);
origin.fp16 = eina_f16p16_int_from(2000);
typedef enum _Eet_Union
{
- EET_UNKNOWN,
- EET_ST1,
- EET_ST2,
- EET_ST3
+ EET_UNKNOWN,
+ EET_ST1,
+ EET_ST2,
+ EET_ST3
} Eet_Union;
-struct {
+struct
+{
Eet_Union u;
const char *name;
} eet_mapping[] = {
- { EET_ST1, "ST1" },
- { EET_ST2, "ST2" },
- { EET_ST3, "ST3" },
- { EET_UNKNOWN, NULL }
+ { EET_ST1, "ST1" },
+ { EET_ST2, "ST2" },
+ { EET_ST3, "ST3" },
+ { EET_UNKNOWN, NULL }
};
struct _Eet_St1
const Eet_Union *u = data;
int i;
- if (unknow) *unknow = EINA_FALSE;
+ if (unknow)
+ *unknow = EINA_FALSE;
+
for (i = 0; eet_mapping[i].name != NULL; ++i)
- if (*u == eet_mapping[i].u)
- return eet_mapping[i].name;
+ if (*u == eet_mapping[i].u)
+ return eet_mapping[i].name;
+
+ if (unknow)
+ *unknow = EINA_TRUE;
- if (unknow) *unknow = EINA_TRUE;
return NULL;
}
Eet_Union *u = data;
int i;
- if (unknow) return EINA_FALSE;
+ if (unknow)
+ return EINA_FALSE;
for (i = 0; eet_mapping[i].name != NULL; ++i)
- if (strcmp(eet_mapping[i].name, type) == 0)
- {
- *u = eet_mapping[i].u;
- return EINA_TRUE;
- }
+ if (strcmp(eet_mapping[i].name, type) == 0)
+ {
+ *u = eet_mapping[i].u;
+ return EINA_TRUE;
+ }
return EINA_FALSE;
}
const Eet_Variant_Type *type = data;
int i;
- if (unknow) *unknow = type->unknow;
+ if (unknow)
+ *unknow = type->unknow;
+
for (i = 0; eet_mapping[i].name != NULL; ++i)
- if (strcmp(type->type, eet_mapping[i].name) == 0)
- return eet_mapping[i].name;
+ if (strcmp(type->type, eet_mapping[i].name) == 0)
+ return eet_mapping[i].name;
+
+ if (unknow)
+ *unknow = EINA_FALSE;
- if (unknow) *unknow = EINA_FALSE;
return type->type;
}
return EINA_TRUE;
}
-static Eet_Data_Descriptor*
+static Eet_Data_Descriptor *
_eet_st1_dd(void)
{
Eet_Data_Descriptor_Class eddc;
EET_EINA_STREAM_DATA_DESCRIPTOR_CLASS_SET(&eddc, Eet_St1);
res = eet_data_descriptor_stream_new(&eddc);
- EET_DATA_DESCRIPTOR_ADD_BASIC(res, Eet_St1, "val1", val1, EET_T_DOUBLE);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(res, Eet_St1, "val1", val1, EET_T_DOUBLE);
EET_DATA_DESCRIPTOR_ADD_BASIC(res, Eet_St1, "stuff", stuff, EET_T_INT);
- EET_DATA_DESCRIPTOR_ADD_BASIC(res, Eet_St1, "s1", s1, EET_T_STRING);
+ EET_DATA_DESCRIPTOR_ADD_BASIC(res, Eet_St1, "s1", s1, EET_T_STRING);
return res;
}
fail_if(!st1);
tmp = st1->val1 - EET_TEST_DOUBLE;
- if (tmp < 0) tmp = -tmp;
+ if (tmp < 0)
+ tmp = -tmp;
+
fail_if(tmp > 0.005);
fail_if(st1->stuff != EET_TEST_INT + i);
fail_if(strcmp(st1->s1, EET_TEST_STRING));
}
-static Eet_Data_Descriptor*
+static Eet_Data_Descriptor *
_eet_st2_dd(void)
{
Eet_Data_Descriptor_Class eddc;
fail_if(st2->v1 != EET_TEST_LONG_LONG + i);
}
-static Eet_Data_Descriptor*
+static Eet_Data_Descriptor *
_eet_st3_dd(void)
{
Eet_Data_Descriptor_Class eddc;
l = calloc(1, sizeof (Eet_List));
-#define EUT_NEW(Type_Index) \
- eut = calloc(1, sizeof (Eet_Union_Test)); \
- eut->type = EET_ST##Type_Index; \
- _eet_st##Type_Index##_set(&(eut->u.st##Type_Index), i);
+#define EUT_NEW(Type_Index) \
+ eut = calloc(1, sizeof (Eet_Union_Test)); \
+ eut->type = EET_ST ## Type_Index; \
+ _eet_st ## Type_Index ## _set(&(eut->u.st ## Type_Index), i);
for (i = 0; i < 3; ++i)
{
- EUT_NEW(1);
- l->list = eina_list_append(l->list, eut);
+ EUT_NEW(1);
+ l->list = eina_list_append(l->list, eut);
- EUT_NEW(2);
- l->list = eina_list_append(l->list, eut);
+ EUT_NEW(2);
+ l->list = eina_list_append(l->list, eut);
- EUT_NEW(3);
- l->list = eina_list_append(l->list, eut);
+ EUT_NEW(3);
+ l->list = eina_list_append(l->list, eut);
}
blob = eet_data_descriptor_encode(m, l, &size);
fail_if(eina_list_count(l->list) != 9);
-#define EUT_CMP(Type_Index) \
- eut = eina_list_nth(l->list, i * 3 + Type_Index - 1); \
- fail_if(eut->type != EET_ST##Type_Index); \
- _eet_st##Type_Index##_cmp(&(eut->u.st##Type_Index), i);
+#define EUT_CMP(Type_Index) \
+ eut = eina_list_nth(l->list, i * 3 + Type_Index - 1); \
+ fail_if(eut->type != EET_ST ## Type_Index); \
+ _eet_st ## Type_Index ## _cmp(&(eut->u.st ## Type_Index), i);
for (i = 0; i < 3; ++i)
{
- EUT_CMP(1);
- EUT_CMP(2);
- EUT_CMP(3);
+ EUT_CMP(1);
+ EUT_CMP(2);
+ EUT_CMP(3);
}
- eet_shutdown();
+ eet_shutdown();
eina_shutdown();
}
END_TEST
EET_DATA_DESCRIPTOR_ADD_MAPPING(unified, "ST2", _eet_st2_dd());
EET_DATA_DESCRIPTOR_ADD_MAPPING(unified, "ST3", _eet_st3_dd());
- EET_DATA_DESCRIPTOR_ADD_VARIANT(edd, Eet_Variant_Test, "data", data, t, unified);
+ EET_DATA_DESCRIPTOR_ADD_VARIANT(edd,
+ Eet_Variant_Test,
+ "data",
+ data,
+ t,
+ unified);
unified = eet_data_descriptor_stream_new(&eddc);
eet_data_descriptor_element_add(unified, "ST1",
- EET_T_UNKNOW, EET_G_LIST,
- 0, 0, NULL, _eet_st1_dd());
+ EET_T_UNKNOW, EET_G_LIST,
+ 0, 0, NULL, _eet_st1_dd());
eet_data_descriptor_element_add(unified, "ST2",
- EET_T_UNKNOW, EET_G_LIST,
- 0, 0, NULL, _eet_st2_dd());
+ EET_T_UNKNOW, EET_G_LIST,
+ 0, 0, NULL, _eet_st2_dd());
EET_DATA_DESCRIPTOR_ADD_VARIANT(edd, Eet_Variant_Test,
- "data_list", data_list, t, unified);
+ "data_list", data_list, t, unified);
EET_DATA_DESCRIPTOR_ADD_LIST(m, Eet_List, "list", list, edd);
l = calloc(1, sizeof (Eet_List));
-#define EVT_NEW(Type_Index) \
- evt = calloc(1, sizeof (Eet_Variant_Test)); \
- evt->t.type = eet_mapping[Type_Index - 1].name; \
- st##Type_Index = calloc(1, sizeof (Eet_St##Type_Index)); \
- _eet_st##Type_Index##_set(st##Type_Index, i); \
- evt->data = st##Type_Index;
+#define EVT_NEW(Type_Index) \
+ evt = calloc(1, sizeof (Eet_Variant_Test)); \
+ evt->t.type = eet_mapping[Type_Index - 1].name; \
+ st ## Type_Index = calloc(1, sizeof (Eet_St ## Type_Index)); \
+ _eet_st ## Type_Index ## _set(st ## Type_Index, i); \
+ evt->data = st ## Type_Index;
for (i = 0; i < 3; ++i)
{
- EVT_NEW(1);
- l->list = eina_list_append(l->list, evt);
+ EVT_NEW(1);
+ l->list = eina_list_append(l->list, evt);
- st1 = calloc(1, sizeof (Eet_St1));
- _eet_st1_set(st1, i);
- evt->data_list = eina_list_append(evt->data_list, st1);
+ st1 = calloc(1, sizeof (Eet_St1));
+ _eet_st1_set(st1, i);
+ evt->data_list = eina_list_append(evt->data_list, st1);
- EVT_NEW(2);
- l->list = eina_list_append(l->list, evt);
+ EVT_NEW(2);
+ l->list = eina_list_append(l->list, evt);
- EVT_NEW(3);
- l->list = eina_list_append(l->list, evt);
+ EVT_NEW(3);
+ l->list = eina_list_append(l->list, evt);
}
blob = eet_data_descriptor_encode(m, l, &size);
fail_if(eina_list_count(l->list) != 9);
-#define EVT_CMP(Type_Index) \
- evt = eina_list_nth(l->list, i * 3 + Type_Index - 1); \
- fail_if(strcmp(evt->t.type, eet_mapping[Type_Index - 1].name) != 0); \
- _eet_st##Type_Index##_cmp(evt->data, i);
+#define EVT_CMP(Type_Index) \
+ evt = eina_list_nth(l->list, i * 3 + Type_Index - 1); \
+ fail_if(strcmp(evt->t.type, eet_mapping[Type_Index - 1].name) != 0); \
+ _eet_st ## Type_Index ## _cmp(evt->data, i);
for (i = 0; i < 3; ++i)
{
- EVT_CMP(1);
+ EVT_CMP(1);
- fail_if(!evt->data_list);
- fail_if(eina_list_count(evt->data_list) != 1);
+ fail_if(!evt->data_list);
+ fail_if(eina_list_count(evt->data_list) != 1);
- st1 = eina_list_data_get(evt->data_list);
- _eet_st1_cmp(st1, i);
+ st1 = eina_list_data_get(evt->data_list);
+ _eet_st1_cmp(st1, i);
- EVT_CMP(2);
- EVT_CMP(3);
+ EVT_CMP(2);
+ EVT_CMP(3);
}
- eet_shutdown();
+ eet_shutdown();
eina_shutdown();
}
END_TEST
int
main(void)
{
- Suite *s;
+ Suite *s;
SRunner *sr;
- int failed_count;
+ int failed_count;
s = eet_suite();
sr = srunner_create(s);