#include "repo_solv.h"
#include "util.h"
+#include "repopack.h"
+
#define INTERESTED_START SOLVABLE_NAME
#define INTERESTED_END SOLVABLE_FRESHENS
+#define SOLV_ERROR_NOT_SOLV 1
+#define SOLV_ERROR_UNSUPPORTED 2
+#define SOLV_ERROR_EOF 3
+#define SOLV_ERROR_ID_RANGE 4
+#define SOLV_ERROR_OVERFLOW 5
+#define SOLV_ERROR_CORRUPT 6
+
+static Pool *mypool; /* for pool_debug... */
+
/*-----------------------------------------------------------------*/
/* .solv read functions */
*/
static unsigned int
-read_u32(FILE *fp)
+read_u32(Repodata *data)
{
int c, i;
unsigned int x = 0;
+ if (data->error)
+ return 0;
for (i = 0; i < 4; i++)
{
- c = getc(fp);
+ c = getc(data->fp);
if (c == EOF)
{
- fprintf(stderr, "unexpected EOF\n");
- exit(1);
+ pool_debug(mypool, SAT_ERROR, "unexpected EOF\n");
+ data->error = SOLV_ERROR_EOF;
+ return 0;
}
x = (x << 8) | c;
}
*/
static unsigned int
-read_u8(FILE *fp)
+read_u8(Repodata *data)
{
int c;
- c = getc(fp);
+
+ if (data->error)
+ return 0;
+ c = getc(data->fp);
if (c == EOF)
{
- fprintf(stderr, "unexpected EOF\n");
- exit(1);
+ pool_debug(mypool, SAT_ERROR, "unexpected EOF\n");
+ data->error = SOLV_ERROR_EOF;
+ return 0;
}
return c;
}
*/
static Id
-read_id(FILE *fp, Id max)
+read_id(Repodata *data, Id max)
{
unsigned int x = 0;
int c, i;
+ if (data->error)
+ return 0;
for (i = 0; i < 5; i++)
{
- c = getc(fp);
+ c = getc(data->fp);
if (c == EOF)
{
- fprintf(stderr, "unexpected EOF\n");
- exit(1);
+ pool_debug(mypool, SAT_ERROR, "unexpected EOF\n");
+ data->error = SOLV_ERROR_EOF;
+ return 0;
}
if (!(c & 128))
{
x = (x << 7) | c;
- if (x >= max)
+ if (max && x >= max)
{
- fprintf(stderr, "read_id: id too large (%u/%u)\n", x, max);
- exit(1);
+ pool_debug(mypool, SAT_ERROR, "read_id: id too large (%u/%u)\n", x, max);
+ data->error = SOLV_ERROR_ID_RANGE;
+ return 0;
}
return x;
}
x = (x << 7) ^ c ^ 128;
}
- fprintf(stderr, "read_id: id too long\n");
- exit(1);
+ pool_debug(mypool, SAT_ERROR, "read_id: id too long\n");
+ data->error = SOLV_ERROR_CORRUPT;
+ return 0;
}
* read array of Ids
*/
+#if 0
static Id *
-read_idarray(FILE *fp, Id max, Id *map, Id *store, Id *end)
+read_rel_idarray(Repodata *data, Id max, Id *map, Id *store, Id *end, Id marker)
{
unsigned int x = 0;
int c;
+ Id old = 0;
+
+ if (data->error)
+ return 0;
for (;;)
{
- c = getc(fp);
+ c = getc(data->fp);
if (c == EOF)
{
- fprintf(stderr, "unexpected EOF\n");
- exit(1);
+ pool_debug(mypool, SAT_ERROR, "unexpected EOF\n");
+ data->error = SOLV_ERROR_EOF;
+ return 0;
}
- if ((c & 128) == 0)
+ if ((c & 128) != 0)
{
- x = (x << 6) | (c & 63);
- if (x >= max)
+ x = (x << 7) ^ c ^ 128;
+ continue;
+ }
+ x = (x << 6) | (c & 63);
+ if (x == 0)
+ {
+ /* marker hack */
+ if (store == end)
+ {
+ pool_debug(mypool, SAT_ERROR, "read_rel_idarray: array overflow\n");
+ data->error = SOLV_ERROR_OVERFLOW;
+ return 0;
+ }
+ if (c != 0x40)
{
- fprintf(stderr, "read_idarray: id too large (%u/%u)\n", x, max);
- exit(1);
+ *store++ = 0;
+ return store;
}
+ *store++ = marker; /* do not map! */
+ old = 0;
+ x = 0;
+ continue;
+ }
+ x = (x - 1) + old;
+ old = x;
+ if (max && x >= max)
+ {
+ pool_debug(mypool, SAT_ERROR, "read_rel_idarray: id too large (%u/%u)\n", x, max);
+ data->error = SOLV_ERROR_ID_RANGE;
+ return 0;
+ }
+ if (map)
+ x = map[x];
+ if (store == end)
+ {
+ pool_debug(mypool, SAT_ERROR, "read_rel_idarray: array overflow\n");
+ return 0;
+ }
+ *store++ = x;
+ if ((c & 64) == 0)
+ {
+ if (x == 0) /* already have trailing zero? */
+ return store;
if (store == end)
{
- fprintf(stderr, "read_idarray: array overflow\n");
- exit(1);
+ pool_debug(mypool, SAT_ERROR, "read_rel_idarray: array overflow\n");
+ data->error = SOLV_ERROR_OVERFLOW;
+ return 0;
}
- *store++ = map[x];
- if ((c & 64) == 0)
+ *store++ = 0;
+ return store;
+ }
+ x = 0;
+ }
+}
+#endif
+
+static inline unsigned char *
+data_read_id_max(unsigned char *dp, Id *ret, Id *map, int max, int *error)
+{
+ Id x;
+ dp = data_read_id(dp, &x);
+ if (max && x >= max)
+ {
+ pool_debug(mypool, SAT_ERROR, "data_read_idarray: id too large (%u/%u)\n", x, max);
+ *error = SOLV_ERROR_ID_RANGE;
+ x = 0;
+ }
+ *ret = map ? map[x] : x;
+ return dp;
+}
+
+unsigned char *
+data_read_idarray(unsigned char *dp, Id **storep, Id *map, int max, int *error)
+{
+ Id *store = *storep;
+ unsigned int x = 0;
+ int c;
+
+ for (;;)
+ {
+ c = *dp++;
+ if ((c & 128) != 0)
+ {
+ x = (x << 7) ^ c ^ 128;
+ continue;
+ }
+ x = (x << 6) | (c & 63);
+ if (max && x >= max)
+ {
+ pool_debug(mypool, SAT_ERROR, "data_read_idarray: id too large (%u/%u)\n", x, max);
+ *error = SOLV_ERROR_ID_RANGE;
+ break;
+ }
+ *store++ = x;
+ if ((c & 64) == 0)
+ break;
+ x = 0;
+ }
+ *store++ = 0;
+ *storep = store;
+ return dp;
+}
+
+unsigned char *
+data_read_rel_idarray(unsigned char *dp, Id **storep, Id *map, int max, int *error, Id marker)
+{
+ Id *store = *storep;
+ Id old = 0;
+ unsigned int x = 0;
+ int c;
+
+ for (;;)
+ {
+ c = *dp++;
+ if ((c & 128) != 0)
+ {
+ x = (x << 7) ^ c ^ 128;
+ continue;
+ }
+ x = (x << 6) | (c & 63);
+ if (x == 0)
+ {
+ if (!(c & 64))
+ break;
+ if (marker)
+ *store++ = marker;
+ old = 0;
+ continue;
+ }
+ x = old + (x - 1);
+ old = x;
+ if (max && x >= max)
+ {
+ pool_debug(mypool, SAT_ERROR, "data_read_rel_idarray: id too large (%u/%u)\n", x, max);
+ *error = SOLV_ERROR_ID_RANGE;
+ break;
+ }
+ *store++ = map ? map[x] : x;
+ if (!(c & 64))
+ break;
+ x = 0;
+ }
+ *store++ = 0;
+ *storep = store;
+ return dp;
+}
+
+
+static Id *
+read_idarray(Repodata *data, Id max, Id *map, Id *store, Id *end)
+{
+ unsigned int x = 0;
+ int c;
+
+ if (data->error)
+ return 0;
+ for (;;)
+ {
+ c = getc(data->fp);
+ if (c == EOF)
+ {
+ pool_debug(mypool, SAT_ERROR, "unexpected EOF\n");
+ data->error = SOLV_ERROR_EOF;
+ return 0;
+ }
+ if ((c & 128) != 0)
+ {
+ x = (x << 7) ^ c ^ 128;
+ continue;
+ }
+ x = (x << 6) | (c & 63);
+ if (max && x >= max)
+ {
+ pool_debug(mypool, SAT_ERROR, "read_idarray: id too large (%u/%u)\n", x, max);
+ data->error = SOLV_ERROR_ID_RANGE;
+ return 0;
+ }
+ if (map)
+ x = map[x];
+ if (store == end)
+ {
+ pool_debug(mypool, SAT_ERROR, "read_idarray: array overflow\n");
+ return 0;
+ }
+ *store++ = x;
+ if ((c & 64) == 0)
+ {
+ if (x == 0) /* already have trailing zero? */
+ return store;
+ if (store == end)
{
- if (store == end)
+ pool_debug(mypool, SAT_ERROR, "read_idarray: array overflow\n");
+ data->error = SOLV_ERROR_OVERFLOW;
+ return 0;
+ }
+ *store++ = 0;
+ return store;
+ }
+ x = 0;
+ }
+}
+
+static void
+read_str(Repodata *data, char **inbuf, unsigned *len)
+{
+ unsigned char *buf = (unsigned char*)*inbuf;
+ if (!buf)
+ {
+ buf = sat_malloc(1024);
+ *len = 1024;
+ }
+ int c;
+ unsigned ofs = 0;
+ while((c = getc(data->fp)) != 0)
+ {
+ if (c == EOF)
+ {
+ pool_debug (mypool, SAT_ERROR, "unexpected EOF\n");
+ data->error = SOLV_ERROR_EOF;
+ return;
+ }
+ /* Plus 1 as we also want to add the 0. */
+ if (ofs + 1 >= *len)
+ {
+ *len += 256;
+ /* Don't realloc on the inbuf, it might be on the stack. */
+ if (buf == (unsigned char*)*inbuf)
+ {
+ buf = sat_malloc(*len);
+ memcpy(buf, *inbuf, *len - 256);
+ }
+ else
+ buf = sat_realloc(buf, *len);
+ }
+ buf[ofs++] = c;
+ }
+ buf[ofs++] = 0;
+ *inbuf = (char*)buf;
+}
+
+static void
+skip_item(Repodata *data, unsigned type, unsigned numid, unsigned numrel)
+{
+ switch (type)
+ {
+ case REPOKEY_TYPE_VOID:
+ case REPOKEY_TYPE_CONSTANT:
+ case REPOKEY_TYPE_CONSTANTID:
+ break;
+ case REPOKEY_TYPE_ID:
+ read_id(data, numid + numrel); /* just check Id */
+ break;
+ case REPOKEY_TYPE_DIR:
+ read_id(data, numid + data->dirpool.ndirs); /* just check Id */
+ break;
+ case REPOKEY_TYPE_NUM:
+ read_id(data, 0);
+ break;
+ case REPOKEY_TYPE_U32:
+ read_u32(data);
+ break;
+ case REPOKEY_TYPE_STR:
+ while (read_u8(data) != 0)
+ ;
+ break;
+ case REPOKEY_TYPE_IDARRAY:
+ case REPOKEY_TYPE_REL_IDARRAY:
+ while ((read_u8(data) & 0xc0) != 0)
+ ;
+ break;
+ case REPOKEY_TYPE_DIRNUMNUMARRAY:
+ for (;;)
+ {
+ read_id(data, numid + data->dirpool.ndirs); /* just check Id */
+ read_id(data, 0);
+ if (!(read_id(data, 0) & 0x40))
+ break;
+ }
+ break;
+ case REPOKEY_TYPE_DIRSTRARRAY:
+ for (;;)
+ {
+ Id id = read_id(data, 0);
+ while (read_u8(data) != 0)
+ ;
+ if (!(id & 0x40))
+ break;
+ }
+ break;
+ default:
+ pool_debug(mypool, SAT_ERROR, "unknown type %d\n", type);
+ data->error = SOLV_ERROR_CORRUPT;
+ break;
+ }
+}
+
+static int
+key_cmp (const void *pa, const void *pb)
+{
+ Repokey *a = (Repokey *)pa;
+ Repokey *b = (Repokey *)pb;
+ return a->name - b->name;
+}
+
+static void repodata_load_solv(Repodata *data);
+
+static void
+parse_external_repodata(Repodata *maindata, Id *keyp, Repokey *keys, Id *idmap, unsigned numid, unsigned numrel)
+{
+ Repo *repo = maindata->repo;
+ Id key, id;
+ Id *ida, *ide;
+ Repodata *data;
+ int i, n;
+
+ repo->repodata = sat_realloc2(repo->repodata, repo->nrepodata + 1, sizeof (*data));
+ data = repo->repodata + repo->nrepodata++;
+ memset(data, 0, sizeof(*data));
+ data->repo = repo;
+ data->pagefd = -1;
+ data->state = REPODATA_STUB;
+ data->loadcallback = repodata_load_solv;
+
+ while ((key = *keyp++) != 0)
+ {
+ id = keys[key].name;
+ switch (keys[key].type)
+ {
+ case REPOKEY_TYPE_IDARRAY:
+ if (id != REPODATA_KEYS)
+ {
+ skip_item(maindata, REPOKEY_TYPE_IDARRAY, numid, numrel);
+ break;
+ }
+ /* read_idarray writes a terminating 0, that's why the + 1 */
+ ida = sat_calloc(keys[key].size + 1, sizeof(Id));
+ ide = read_idarray(maindata, numid, idmap, ida, ida + keys[key].size + 1);
+ n = ide - ida - 1;
+ if (n & 1)
+ {
+ pool_debug (mypool, SAT_ERROR, "invalid attribute data\n");
+ maindata->error = SOLV_ERROR_CORRUPT;
+ return;
+ }
+ data->nkeys = 1 + (n >> 1);
+ data->keys = sat_malloc2(data->nkeys, sizeof(data->keys[0]));
+ memset(data->keys, 0, sizeof(Repokey));
+ for (i = 1, ide = ida; i < data->nkeys; i++)
+ {
+ data->keys[i].name = *ide++;
+ data->keys[i].type = *ide++;
+ data->keys[i].size = 0;
+ data->keys[i].storage = 0;
+ }
+ sat_free(ida);
+ if (data->nkeys > 2)
+ qsort(data->keys + 1, data->nkeys - 1, sizeof(data->keys[0]), key_cmp);
+ break;
+ case REPOKEY_TYPE_STR:
+ if (id != REPODATA_LOCATION)
+ skip_item(maindata, REPOKEY_TYPE_STR, numid, numrel);
+ else
+ {
+ char buf[1024];
+ unsigned len = sizeof(buf);
+ char *filename = buf;
+ read_str(maindata, &filename, &len);
+ data->location = strdup(filename);
+ if (filename != buf)
+ free(filename);
+ }
+ break;
+ default:
+ skip_item(maindata, keys[key].type, numid, numrel);
+ break;
+ }
+ }
+}
+
+static void
+parse_info_repodata(Repodata *maindata, Id *keyp, Repokey *keys, Id *idmap, unsigned numid, unsigned numrel)
+{
+ Id key, id;
+ Id *ida;
+ while ((key = *keyp++) != 0)
+ {
+ id = keys[key].name;
+ if (id == REPODATA_ADDEDFILEPROVIDES && keys[key].type == REPOKEY_TYPE_REL_IDARRAY)
+ {
+ Id old = 0;
+ /* + 1 just in case */
+ ida = sat_calloc(keys[key].size + 1, sizeof(Id));
+ read_idarray(maindata, 0, 0, ida, ida + keys[key].size + 1);
+ maindata->addedfileprovides = ida;
+ for (; *ida; ida++)
+ {
+ old += *ida - 1;
+ if (old >= numid)
{
- fprintf(stderr, "read_idarray: array overflow\n");
- exit(1);
+ *ida = 0;
+ break;
}
- *store++ = 0;
- return store;
+ *ida = idmap ? idmap[old] : old;
}
- x = 0;
continue;
}
- x = (x << 7) ^ c ^ 128;
+ skip_item(maindata, keys[key].type, numid, numrel);
}
}
+/*-----------------------------------------------------------------*/
+
+
+static void
+skip_schema(Repodata *data, Id *keyp, Repokey *keys, unsigned int numid, unsigned int numrel)
+{
+ Id key;
+ while ((key = *keyp++) != 0)
+ skip_item(data, keys[key].type, numid, numrel);
+}
/*-----------------------------------------------------------------*/
-typedef struct solvdata {
- int type;
- Id id;
- unsigned int size;
-} SolvData;
+static void
+incore_add_id(Repodata *data, Id x)
+{
+ unsigned char *dp;
+ /* make sure we have at least 5 bytes free */
+ if (data->incoredatafree < 5)
+ {
+ data->incoredata = sat_realloc(data->incoredata, data->incoredatalen + 1024);
+ data->incoredatafree = 1024;
+ }
+ dp = data->incoredata + data->incoredatalen;
+ if (x < 0)
+ abort();
+ if (x >= (1 << 14))
+ {
+ if (x >= (1 << 28))
+ *dp++ = (x >> 28) | 128;
+ if (x >= (1 << 21))
+ *dp++ = (x >> 21) | 128;
+ *dp++ = (x >> 14) | 128;
+ }
+ if (x >= (1 << 7))
+ *dp++ = (x >> 7) | 128;
+ *dp++ = x & 127;
+ data->incoredatafree -= dp - (data->incoredata + data->incoredatalen);
+ data->incoredatalen = dp - data->incoredata;
+}
+
+static void
+incore_add_blob(Repodata *data, unsigned char *buf, int len)
+{
+ if (data->incoredatafree < len)
+ {
+ data->incoredata = sat_realloc(data->incoredata, data->incoredatalen + 1024 + len);
+ data->incoredatafree = 1024 + len;
+ }
+ memcpy(data->incoredata + data->incoredatalen, buf, len);
+ data->incoredatafree -= len;
+ data->incoredatalen += len;
+}
+
+static void
+incore_map_idarray(Repodata *data, unsigned char *dp, Id *map, Id max)
+{
+ /* We have to map the IDs, which might also change
+ the necessary number of bytes, so we can't just copy
+ over the blob and adjust it. */
+ for (;;)
+ {
+ Id id;
+ int eof;
+ dp = data_read_ideof(dp, &id, &eof);
+ if (max && id >= max)
+ {
+ pool_debug(mypool, SAT_ERROR, "incore_map_idarray: id too large (%u/%u)\n", id, max);
+ data->error = SOLV_ERROR_ID_RANGE;
+ break;
+ }
+ id = map[id];
+ if (id >= 64)
+ id = (id & 63) | ((id & ~63) << 1);
+ incore_add_id(data, eof ? id : id | 64);
+ if (eof)
+ break;
+ }
+}
+
+static void
+incore_add_u32(Repodata *data, unsigned int x)
+{
+ unsigned char *dp;
+ /* make sure we have at least 4 bytes free */
+ if (data->incoredatafree < 4)
+ {
+ data->incoredata = sat_realloc(data->incoredata, data->incoredatalen + 1024);
+ data->incoredatafree = 1024;
+ }
+ dp = data->incoredata + data->incoredatalen;
+ *dp++ = x >> 24;
+ *dp++ = x >> 16;
+ *dp++ = x >> 8;
+ *dp++ = x;
+ data->incoredatafree -= 4;
+ data->incoredatalen += 4;
+}
+
+#if 0
+static void
+incore_add_u8(Repodata *data, unsigned int x)
+{
+ unsigned char *dp;
+ /* make sure we have at least 1 byte free */
+ if (data->incoredatafree < 1)
+ {
+ data->incoredata = sat_realloc(data->incoredata, data->incoredatalen + 1024);
+ data->incoredatafree = 1024;
+ }
+ dp = data->incoredata + data->incoredatalen;
+ *dp++ = x;
+ data->incoredatafree--;
+ data->incoredatalen++;
+}
+#endif
+
// ----------------------------------------------
+
/*
* read repo from .solv file
* and add it to pool
*/
-void
-repo_add_solv(Repo *repo, FILE *fp)
+static int
+repo_add_solv_parent(Repo *repo, FILE *fp, Repodata *parent)
{
Pool *pool = repo->pool;
- int i, j, l;
- unsigned int numid, numrel, numsolv, numsrcdata, numsolvdata;
- int numsolvdatabits, type;
+ int i, l;
+ unsigned int numid, numrel, numdir, numsolv;
+ unsigned int numkeys, numschemata, numinfo;
+
Offset sizeid;
Offset *str; /* map Id -> Offset into string space */
char *strsp; /* repo string space */
char *sp; /* pointer into string space */
Id *idmap; /* map of repo Ids to pool Ids */
- Id id;
+ Id id, type;
unsigned int hashmask, h;
int hh;
Id *hashtbl;
Id name, evr, did;
int flags;
Reldep *ran;
- SolvData *solvdata;
- unsigned int size, size_str, size_idarray;
+ unsigned int size_idarray;
Id *idarraydatap, *idarraydataend;
Offset ido;
- unsigned int databits;
Solvable *s;
+ unsigned int solvflags;
+ unsigned int solvversion;
+ Repokey *keys;
+ Id *schemadata, *schemadatap, *schemadataend;
+ Id *schemata, key;
+ int have_xdata;
+ unsigned oldnrepodata;
+ int maxsize, allsize;
+ unsigned char *buf, *dp, *dps;
+ int left;
+
+ struct _Stringpool *spool;
- if (read_u32(fp) != ('S' << 24 | 'O' << 16 | 'L' << 8 | 'V'))
+ Repodata data;
+
+ memset(&data, 0, sizeof(data));
+ data.repo = repo;
+ data.fp = fp;
+ data.pagefd = -1;
+
+ mypool = pool;
+
+ if (read_u32(&data) != ('S' << 24 | 'O' << 16 | 'L' << 8 | 'V'))
{
- fprintf(stderr, "not a SOLV file\n");
- exit(1);
+ pool_debug(pool, SAT_ERROR, "not a SOLV file\n");
+ return SOLV_ERROR_NOT_SOLV;
}
- if (read_u32(fp) != SOLV_VERSION)
+ solvversion = read_u32(&data);
+ switch (solvversion)
{
- fprintf(stderr, "unsupported SOLV version\n");
- exit(1);
+ case SOLV_VERSION_6:
+ break;
+ default:
+ pool_debug(pool, SAT_ERROR, "unsupported SOLV version\n");
+ return SOLV_ERROR_UNSUPPORTED;
}
pool_freeidhashes(pool);
- numid = read_u32(fp);
- numrel = read_u32(fp);
- numsolv= read_u32(fp);
+ numid = read_u32(&data);
+ numrel = read_u32(&data);
+ numdir = read_u32(&data);
+ numsolv = read_u32(&data);
+ numkeys = read_u32(&data);
+ numschemata = read_u32(&data);
+ numinfo = read_u32(&data);
+ solvflags = read_u32(&data);
- sizeid = read_u32(fp); /* size of string+Id space */
+ if (numdir && numdir < 2)
+ {
+ pool_debug(pool, SAT_ERROR, "bad number of dirs\n");
+ return SOLV_ERROR_CORRUPT;
+ }
+
+ if (parent)
+ {
+ if (numrel)
+ {
+ pool_debug(pool, SAT_ERROR, "relations are forbidden in a store\n");
+ return SOLV_ERROR_CORRUPT;
+ }
+ if (parent->end - parent->start != numsolv)
+ {
+ pool_debug(pool, SAT_ERROR, "unequal number of solvables in a store\n");
+ return SOLV_ERROR_CORRUPT;
+ }
+ if (numinfo)
+ {
+ pool_debug(pool, SAT_ERROR, "info blocks are forbidden in a store\n");
+ return SOLV_ERROR_CORRUPT;
+ }
+ }
+
+ /******* Part 1: string IDs *****************************************/
+
+ sizeid = read_u32(&data); /* size of string+Id space */
/*
* read strings and Ids
* alloc buffers
*/
+ if (!parent)
+ spool = &pool->ss;
+ else
+ {
+ data.localpool = 1;
+ spool = &data.spool;
+ spool->stringspace = sat_malloc(7);
+ strcpy(spool->stringspace, "<NULL>");
+ spool->sstrings = 7;
+ spool->nstrings = 0;
+ }
+
/* alloc string buffer */
- strsp = (char *)xrealloc(pool->ss.stringspace, pool->ss.sstrings + sizeid + 1);
+ spool->stringspace = sat_realloc(spool->stringspace, spool->sstrings + sizeid + 1);
/* alloc string offsets (Id -> Offset into string space) */
- str = (Offset *)xrealloc(pool->ss.strings, (pool->ss.nstrings + numid) * sizeof(Offset));
+ spool->strings = sat_realloc2(spool->strings, spool->nstrings + numid, sizeof(Offset));
- pool->ss.stringspace = strsp;
- pool->ss.strings = str; /* array of offsets into strsp, indexed by Id */
+ strsp = spool->stringspace;
+ str = spool->strings; /* array of offsets into strsp, indexed by Id */
/* point to _BEHIND_ already allocated string/Id space */
- strsp += pool->ss.sstrings;
+ strsp += spool->sstrings;
- /* alloc id map for name and rel Ids. this maps ids in the solv files
- * to the ids in our pool */
- idmap = (Id *)xcalloc(numid + numrel, sizeof(Id));
/*
* read new repo at end of pool
*/
- if (fread(strsp, sizeid, 1, fp) != 1)
+ if ((solvflags & SOLV_FLAG_PREFIX_POOL) == 0)
+ {
+ if (sizeid && fread(strsp, sizeid, 1, fp) != 1)
+ {
+ pool_debug(pool, SAT_ERROR, "read error while reading strings\n");
+ return SOLV_ERROR_EOF;
+ }
+ }
+ else
{
- fprintf(stderr, "read error while reading strings\n");
- exit(1);
+ unsigned int pfsize = read_u32(&data);
+ char *prefix = sat_malloc(pfsize);
+ char *pp = prefix;
+ char *old_str = 0;
+ char *dest = strsp;
+ int freesp = sizeid;
+
+ if (pfsize && fread(prefix, pfsize, 1, fp) != 1)
+ {
+ pool_debug(pool, SAT_ERROR, "read error while reading strings\n");
+ sat_free(prefix);
+ return SOLV_ERROR_EOF;
+ }
+ for (i = 1; i < numid; i++)
+ {
+ int same = (unsigned char)*pp++;
+ size_t len = strlen(pp) + 1;
+ freesp -= same + len;
+ if (freesp < 0)
+ {
+ pool_debug(pool, SAT_ERROR, "overflow while expanding strings\n");
+ sat_free(prefix);
+ return SOLV_ERROR_OVERFLOW;
+ }
+ if (same)
+ memcpy(dest, old_str, same);
+ memcpy(dest + same, pp, len);
+ pp += len;
+ old_str = dest;
+ dest += same + len;
+ }
+ sat_free(prefix);
+ if (freesp != 0)
+ {
+ pool_debug(pool, SAT_ERROR, "expanding strings size mismatch\n");
+ return SOLV_ERROR_CORRUPT;
+ }
}
strsp[sizeid] = 0; /* make string space \0 terminated */
sp = strsp;
- /*
- * build hashes for all read strings
- *
- */
-
- hashmask = mkmask(pool->ss.nstrings + numid);
-
-#if 0
- printf("read %d strings\n", numid);
- printf("string hash buckets: %d\n", hashmask + 1);
-#endif
-
- /*
- * ensure sufficient hash size
- */
-
- hashtbl = (Id *)xcalloc(hashmask + 1, sizeof(Id));
-
- /*
- * fill hashtable with strings already in pool
- */
-
- for (i = 1; i < pool->ss.nstrings; i++) /* leave out our dummy zero id */
+ if (parent)
{
- h = strhash(pool->ss.stringspace + pool->ss.strings[i]) & hashmask;
- hh = HASHCHAIN_START;
- while (hashtbl[h])
- h = HASHCHAIN_NEXT(h, hh, hashmask);
- hashtbl[h] = i;
- }
-
- /*
- * run over string space, calculate offsets
- *
- * build id map (maps solv Id -> pool Id)
- */
-
- for (i = 1; i < numid; i++)
- {
- if (sp >= strsp + sizeid)
+ /* no shared pool, thus no idmap and no unification */
+ idmap = 0;
+ spool->nstrings = numid;
+ str[0] = 0;
+ if (*sp)
{
- fprintf(stderr, "not enough strings\n");
- exit(1);
+ /* we need the '' for directories */
+ pool_debug(pool, SAT_ERROR, "store strings don't start with ''\n");
+ return SOLV_ERROR_CORRUPT;
}
- if (!*sp) /* empty string */
+ for (i = 1; i < spool->nstrings; i++)
{
- idmap[i] = ID_EMPTY;
- sp++;
- continue;
+ if (sp >= strsp + sizeid)
+ {
+ pool_debug(pool, SAT_ERROR, "not enough strings\n");
+ return SOLV_ERROR_OVERFLOW;
+ }
+ str[i] = sp - spool->stringspace;
+ sp += strlen(sp) + 1;
}
+ spool->sstrings = sp - spool->stringspace;
+ }
+ else
+ {
+
+ /* alloc id map for name and rel Ids. this maps ids in the solv files
+ * to the ids in our pool */
+ idmap = sat_calloc(numid + numrel, sizeof(Id));
+
+ /*
+ * build hashes for all read strings
+ *
+ */
+
+ hashmask = mkmask(spool->nstrings + numid);
- /* find hash slot */
- h = strhash(sp) & hashmask;
- hh = HASHCHAIN_START;
- for (;;)
+#if 0
+ POOL_DEBUG(SAT_DEBUG_STATS, "read %d strings\n", numid);
+ POOL_DEBUG(SAT_DEBUG_STATS, "string hash buckets: %d\n", hashmask + 1);
+#endif
+
+ /*
+ * create hashtable with strings already in pool
+ */
+
+ hashtbl = sat_calloc(hashmask + 1, sizeof(Id));
+ for (i = 1; i < spool->nstrings; i++) /* leave out our dummy zero id */
{
- id = hashtbl[h];
- if (id == 0)
- break;
- if (!strcmp(pool->ss.stringspace + pool->ss.strings[id], sp))
- break; /* existing string */
- h = HASHCHAIN_NEXT(h, hh, hashmask);
+ h = strhash(spool->stringspace + spool->strings[i]) & hashmask;
+ hh = HASHCHAIN_START;
+ while (hashtbl[h])
+ h = HASHCHAIN_NEXT(h, hh, hashmask);
+ hashtbl[h] = i;
}
- /* length == offset to next string */
- l = strlen(sp) + 1;
- if (id == ID_NULL) /* end of hash chain -> new string */
+ /*
+ * run over string space, calculate offsets
+ *
+ * build id map (maps solv Id -> pool Id)
+ */
+
+ for (i = 1; i < numid; i++)
{
- id = pool->ss.nstrings++;
- hashtbl[h] = id;
- str[id] = pool->ss.sstrings; /* save Offset */
- if (sp != pool->ss.stringspace + pool->ss.sstrings) /* not at end-of-buffer */
- memmove(pool->ss.stringspace + pool->ss.sstrings, sp, l); /* append to pool buffer */
- pool->ss.sstrings += l;
+ if (sp >= strsp + sizeid)
+ {
+ sat_free(hashtbl);
+ sat_free(idmap);
+ pool_debug(pool, SAT_ERROR, "not enough strings %d %d\n", i, numid);
+ return SOLV_ERROR_OVERFLOW;
+ }
+ if (!*sp) /* empty string */
+ {
+ idmap[i] = ID_EMPTY;
+ sp++;
+ continue;
+ }
+
+ /* find hash slot */
+ h = strhash(sp) & hashmask;
+ hh = HASHCHAIN_START;
+ for (;;)
+ {
+ id = hashtbl[h];
+ if (id == 0)
+ break;
+ if (!strcmp(spool->stringspace + spool->strings[id], sp))
+ break; /* existing string */
+ h = HASHCHAIN_NEXT(h, hh, hashmask);
+ }
+
+ /* length == offset to next string */
+ l = strlen(sp) + 1;
+ if (id == ID_NULL) /* end of hash chain -> new string */
+ {
+ id = spool->nstrings++;
+ hashtbl[h] = id;
+ str[id] = spool->sstrings; /* save Offset */
+ if (sp != spool->stringspace + spool->sstrings) /* not at end-of-buffer */
+ memmove(spool->stringspace + spool->sstrings, sp, l); /* append to pool buffer */
+ spool->sstrings += l;
+ }
+ idmap[i] = id; /* repo relative -> pool relative */
+ sp += l; /* next string */
}
- idmap[i] = id; /* repo relative -> pool relative */
- sp += l; /* next string */
+ sat_free(hashtbl);
}
- xfree(hashtbl);
pool_shrink_strings(pool); /* vacuum */
+ /******* Part 2: Relation IDs ***************************************/
+
/*
* read RelDeps
*
if (numrel)
{
/* extend rels */
- ran = (Reldep *)xrealloc(pool->rels, (pool->nrels + numrel) * sizeof(Reldep));
- if (!ran)
- {
- fprintf(stderr, "no mem for rel space\n");
- exit(1);
- }
- pool->rels = ran; /* extended rel space */
+ pool->rels = sat_realloc2(pool->rels, pool->nrels + numrel, sizeof(Reldep));
+ ran = pool->rels;
hashmask = mkmask(pool->nrels + numrel);
#if 0
- printf("read %d rels\n", numrel);
- printf("rel hash buckets: %d\n", hashmask + 1);
+ POOL_DEBUG(SAT_DEBUG_STATS, "read %d rels\n", numrel);
+ POOL_DEBUG(SAT_DEBUG_STATS, "rel hash buckets: %d\n", hashmask + 1);
#endif
/*
* prep hash table with already existing RelDeps
*/
- hashtbl = (Id *)xcalloc(hashmask + 1, sizeof(Id));
+ hashtbl = sat_calloc(hashmask + 1, sizeof(Id));
for (i = 1; i < pool->nrels; i++)
{
h = relhash(ran[i].name, ran[i].evr, ran[i].flags) & hashmask;
for (i = 0; i < numrel; i++)
{
- name = read_id(fp, i + numid); /* read (repo relative) Ids */
- evr = read_id(fp, i + numid);
- flags = read_u8(fp);
+ name = read_id(&data, i + numid); /* read (repo relative) Ids */
+ evr = read_id(&data, i + numid);
+ flags = read_u8(&data);
name = idmap[name]; /* map to (pool relative) Ids */
evr = idmap[evr];
h = relhash(name, evr, flags) & hashmask;
}
idmap[i + numid] = MAKERELDEP(id); /* fill Id map */
}
- xfree(hashtbl);
+ sat_free(hashtbl);
pool_shrink_rels(pool); /* vacuum */
}
- /*
- * read (but dont store yet) repo data
- */
-#if 0
- printf("read repo data\n");
-#endif
- numsrcdata = read_u32(fp);
- for (i = 0; i < numsrcdata; i++)
+ /******* Part 3: Dirs ***********************************************/
+ if (numdir)
{
- type = read_u8(fp);
- id = idmap[read_id(fp, numid)];
- switch(type)
+ data.dirpool.dirs = sat_malloc2(numdir, sizeof(Id));
+ data.dirpool.ndirs = numdir;
+ data.dirpool.dirs[0] = 0; /* dir 0: virtual root */
+ data.dirpool.dirs[1] = 1; /* dir 1: / */
+ for (i = 2; i < numdir; i++)
{
- case TYPE_ID:
- read_id(fp, numid + numrel); /* just check Id */
- break;
- case TYPE_U32:
- read_u32(fp);
- break;
- case TYPE_STR:
- while(read_u8(fp) != 0)
- ;
- break;
- default:
- fprintf(stderr, "unknown type\n");
- exit(0);
+ id = read_id(&data, i + numid);
+ if (id >= numid)
+ data.dirpool.dirs[i] = -(id - numid);
+ else if (idmap)
+ data.dirpool.dirs[i] = idmap[id];
+ else
+ data.dirpool.dirs[i] = id;
}
}
+ /******* Part 4: Keys ***********************************************/
- /*
- * read solvables
- */
+ keys = sat_calloc(numkeys, sizeof(*keys));
+ /* keys start at 1 */
+ for (i = 1; i < numkeys; i++)
+ {
+ id = read_id(&data, numid);
+ if (idmap)
+ id = idmap[id];
+ else if (parent)
+ id = str2id(pool, stringpool_id2str(spool, id), 1);
+ type = read_id(&data, numid);
+ if (idmap)
+ type = idmap[type];
+ else if (parent)
+ type = str2id(pool, stringpool_id2str(spool, type), 1);
+ if (type < REPOKEY_TYPE_VOID || type > REPOKEY_TYPE_DIRNUMNUMARRAY)
+ {
+ pool_debug(pool, SAT_ERROR, "unsupported data type '%s'\n", id2str(pool, type));
+ data.error = SOLV_ERROR_UNSUPPORTED;
+ type = REPOKEY_TYPE_VOID;
+ }
+ keys[i].name = id;
+ keys[i].type = type;
+ keys[i].size = read_id(&data, keys[i].type == REPOKEY_TYPE_CONSTANTID ? numid + numrel : 0);
+ keys[i].storage = read_id(&data, 0);
+ if (id >= SOLVABLE_NAME && id <= RPM_RPMDBID)
+ keys[i].storage = KEY_STORAGE_SOLVABLE;
+ else if (keys[i].storage == KEY_STORAGE_SOLVABLE)
+ keys[i].storage = KEY_STORAGE_INCORE;
+ if (keys[i].type == REPOKEY_TYPE_CONSTANTID)
+ {
+ if (idmap)
+ keys[i].size = idmap[keys[i].size];
+ else if (parent)
+ keys[i].size = str2id(pool, stringpool_id2str(spool, keys[i].size), 1);
+ }
+#if 0
+ fprintf(stderr, "key %d %s %s %d %d\n", i, id2str(pool,id), id2str(pool, keys[i].type),
+ keys[i].size, keys[i].storage);
+#endif
+ }
+
+ have_xdata = parent ? 1 : 0;
+ for (i = 1; i < numkeys; i++)
+ if (keys[i].storage == KEY_STORAGE_INCORE || keys[i].storage == KEY_STORAGE_VERTICAL_OFFSET)
+ have_xdata = 1;
+
+ data.keys = keys;
+ data.nkeys = numkeys;
+
+ /******* Part 5: Schemata ********************************************/
+ id = read_id(&data, 0);
+ schemadata = sat_calloc(id + 1, sizeof(Id));
+ schemadatap = schemadata + 1;
+ schemadataend = schemadatap + id;
+ schemata = sat_calloc(numschemata, sizeof(Id));
+ for (i = 1; i < numschemata; i++)
+ {
+ schemata[i] = schemadatap - schemadata;
+ schemadatap = read_idarray(&data, numid, 0, schemadatap, schemadataend);
#if 0
- printf("read solvable data info\n");
+ Id *sp = schemadata + schemata[i];
+ fprintf (stderr, "schema %d:", i);
+ for (; *sp; sp++)
+ fprintf (stderr, " %d", *sp);
+ fprintf (stderr, "\n");
#endif
- numsolvdata = read_u32(fp);
- numsolvdatabits = 0;
- solvdata = (SolvData *)xmalloc(numsolvdata * sizeof(SolvData));
- size_idarray = 0;
- size_str = 0;
+ }
+ data.schemata = schemata;
+ data.nschemata = numschemata;
+ data.schemadata = schemadata;
+ data.schemadatalen = schemadataend - data.schemadata;
+
- for (i = 0; i < numsolvdata; i++)
+ /******* Part 6: Info ***********************************************/
+ oldnrepodata = repo->nrepodata;
+ if (numinfo)
+ {
+ id = read_id(&data, 0);
+ id = read_id(&data, 0);
+ }
+ for (i = 0; i < numinfo; i++)
{
- type = read_u8(fp);
- solvdata[i].type = type;
- if ((type & TYPE_BITMAP) != 0)
+ /* for now we're just interested in data that starts with
+ * the repodata_external id
+ */
+ Id *keyp;
+ id = read_id(&data, numschemata);
+ keyp = schemadata + schemata[id];
+ key = *keyp;
+ if (keys[key].name == REPODATA_EXTERNAL && keys[key].type == REPOKEY_TYPE_VOID)
{
- type ^= TYPE_BITMAP;
- numsolvdatabits++;
+ /* external data for some ids */
+ parse_external_repodata(&data, keyp, keys, idmap, numid, numrel);
}
- id = idmap[read_id(fp, numid)];
-#if 0
- printf("#%d: %s\n", i, id2str(pool, id));
-#endif
- solvdata[i].id = id;
- size = read_u32(fp);
- solvdata[i].size = size;
- if (id >= INTERESTED_START && id <= INTERESTED_END)
+ else if (keys[key].name == REPODATA_INFO)
+ {
+ parse_info_repodata(&data, keyp, keys, idmap, numid, numrel);
+ }
+ else
{
- if (type == TYPE_STR)
- size_str += size;
- if (type == TYPE_IDARRAY)
- size_idarray += size;
+ skip_schema(&data, keyp, keys, numid, numrel);
}
}
- if (numsolvdatabits >= 32)
+
+ /******* Part 7: item data *******************************************/
+
+ /* calculate idarray size */
+ size_idarray = 0;
+ for (i = 1; i < numkeys; i++)
+ {
+ id = keys[i].name;
+ if ((keys[i].type == REPOKEY_TYPE_IDARRAY || keys[i].type == REPOKEY_TYPE_REL_IDARRAY)
+ && id >= INTERESTED_START && id <= INTERESTED_END)
+ size_idarray += keys[i].size;
+ }
+
+ if (numsolv)
{
- fprintf(stderr, "too many data map bits\n");
- exit(1);
+ maxsize = read_id(&data, 0);
+ allsize = read_id(&data, 0);
+ if (maxsize > allsize)
+ {
+ pool_debug(pool, SAT_ERROR, "maxsize %d is greater then allsize %d\n", maxsize, allsize);
+ data.error = SOLV_ERROR_CORRUPT;
+ }
}
+ else
+ maxsize = allsize = 0;
- /* make room for our idarrays */
- if (size_idarray)
+ /* allocate needed space in repo */
+ /* we add maxsize because it is an upper limit for all idarrays */
+ repo_reserve_ids(repo, 0, size_idarray + maxsize + 1);
+ idarraydatap = repo->idarraydata + repo->idarraysize;
+ repo->idarraysize += size_idarray;
+ idarraydataend = idarraydatap + size_idarray;
+ repo->lastoff = 0;
+
+ /* read solvables */
+ if (numsolv)
{
- repo_reserve_ids(repo, 0, size_idarray);
- idarraydatap = repo->idarraydata + repo->idarraysize;
- repo->idarraysize += size_idarray;
- idarraydataend = repo->idarraydata + repo->idarraysize;
- repo->lastoff = 0;
+ if (parent)
+ s = pool_id2solvable(pool, parent->start);
+ else
+ s = pool_id2solvable(pool, repo_add_solvable_block(repo, numsolv));
+ /* store start and end of our id block */
+ data.start = s - pool->solvables;
+ data.end = data.start + numsolv;
+ /* In case we have info blocks, make them refer to our part of the
+ repository now. */
+ for (i = oldnrepodata; i < repo->nrepodata; i++)
+ {
+ repo->repodata[i].start = data.start;
+ repo->repodata[i].end = data.end;
+ }
}
else
+ s = 0;
+
+ if (have_xdata)
{
- idarraydatap = 0;
- idarraydataend = 0;
+ /* reserve one byte so that all offsets are not zero */
+ incore_add_id(&data, 0);
+ repodata_extend_block(&data, data.start, numsolv);
}
- /*
- * read solvables
- */
-
-#if 0
- printf("read solvables\n");
-#endif
- id = repo_add_solvable_block(repo, numsolv);
- s = pool->solvables + id;
+ left = 0;
+ buf = sat_calloc(maxsize + 4, 1);
+ dp = buf;
for (i = 0; i < numsolv; i++, s++)
{
- s->repo = repo;
- databits = 0;
- if (numsolvdatabits)
+ Id *keyp;
+ if (data.error)
+ break;
+
+ left -= (dp - buf);
+ if (left < 0)
+ {
+ pool_debug(mypool, SAT_ERROR, "buffer overrun\n");
+ data.error = SOLV_ERROR_EOF;
+ break;
+ }
+ if (left)
+ memmove(buf, dp, left);
+ l = maxsize - left;
+ if (l > allsize)
+ l = allsize;
+ if (l && fread(buf + left, l, 1, data.fp) != 1)
+ {
+ pool_debug(mypool, SAT_ERROR, "unexpected EOF\n");
+ data.error = SOLV_ERROR_EOF;
+ break;
+ }
+ allsize -= l;
+ left += l;
+ dp = buf;
+
+ dp = data_read_id_max(dp, &id, 0, numschemata, &data.error);
+ if (have_xdata)
{
- for (j = 0; j < (numsolvdatabits + 7) >> 3; j++)
- databits = (databits << 8) | read_u8(fp);
+ data.incoreoffset[i] = data.incoredatalen;
+ incore_add_id(&data, id);
}
- for (j = 0; j < numsolvdata; j++)
+ keyp = schemadata + schemata[id];
+ while ((key = *keyp++) != 0)
{
- type = solvdata[j].type;
- if ((type & TYPE_BITMAP) != 0)
+ if (data.error)
+ break;
+
+ id = keys[key].name;
+#if 0
+fprintf(stderr, "solv %d name %d type %d class %d\n", i, id, keys[key].type, keys[key].storage);
+#endif
+ if (keys[key].storage == KEY_STORAGE_VERTICAL_OFFSET)
{
- if (!(databits & 1))
- {
- databits >>= 1;
- continue;
- }
- databits >>= 1;
- type ^= TYPE_BITMAP;
+ /* copy offset/length into incore */
+ dps = dp;
+ dp = data_skip(dp, REPOKEY_TYPE_ID);
+ dp = data_skip(dp, REPOKEY_TYPE_ID);
+ incore_add_blob(&data, dps, dp - dps);
+ continue;
}
- id = solvdata[j].id;
- switch (type)
+ switch (keys[key].type)
{
- case TYPE_ID:
- did = idmap[read_id(fp, numid + numrel)];
+ case REPOKEY_TYPE_ID:
+ dp = data_read_id_max(dp, &did, idmap, numid + numrel, &data.error);
if (id == SOLVABLE_NAME)
s->name = did;
else if (id == SOLVABLE_ARCH)
s->evr = did;
else if (id == SOLVABLE_VENDOR)
s->vendor = did;
+ else if (keys[key].storage == KEY_STORAGE_INCORE)
+ incore_add_id(&data, did);
#if 0
- printf("%s -> %s\n", id2str(pool, id), id2str(pool, did));
+ POOL_DEBUG(SAT_DEBUG_STATS, "%s -> %s\n", id2str(pool, id), id2str(pool, did));
#endif
break;
- case TYPE_U32:
- h = read_u32(fp);
+ case REPOKEY_TYPE_U32:
+ dp = data_read_u32(dp, &h);
#if 0
- printf("%s -> %u\n", id2str(pool, id), h);
+ POOL_DEBUG(SAT_DEBUG_STATS, "%s -> %u\n", id2str(pool, id), h);
#endif
if (id == RPM_RPMDBID)
{
if (!repo->rpmdbid)
- repo->rpmdbid = (Id *)xcalloc(numsolv, sizeof(Id));
+ repo->rpmdbid = sat_calloc(numsolv, sizeof(Id));
repo->rpmdbid[i] = h;
}
+ else if (keys[key].storage == KEY_STORAGE_INCORE)
+ incore_add_u32(&data, h);
break;
- case TYPE_STR:
- while(read_u8(fp) != 0)
- ;
- break;
- case TYPE_IDARRAY:
+ case REPOKEY_TYPE_IDARRAY:
+ case REPOKEY_TYPE_REL_IDARRAY:
if (id < INTERESTED_START || id > INTERESTED_END)
{
- /* not interested in array */
- while ((read_u8(fp) & 0xc0) != 0)
- ;
+ dps = dp;
+ dp = data_skip(dp, REPOKEY_TYPE_IDARRAY);
+ if (keys[key].storage == KEY_STORAGE_INCORE && idmap)
+ incore_map_idarray(&data, dps, idmap, numid);
+ else if (keys[key].storage == KEY_STORAGE_INCORE)
+ incore_add_blob(&data, dps, dp - dps);
break;
}
ido = idarraydatap - repo->idarraydata;
- idarraydatap = read_idarray(fp, numid + numrel, idmap, idarraydatap, idarraydataend);
+ if (keys[key].type == REPOKEY_TYPE_IDARRAY)
+ dp = data_read_idarray(dp, &idarraydatap, idmap, numid + numrel, &data.error);
+ else if (id == SOLVABLE_REQUIRES)
+ dp = data_read_rel_idarray(dp, &idarraydatap, idmap, numid + numrel, &data.error, SOLVABLE_PREREQMARKER);
+ else if (id == SOLVABLE_PROVIDES)
+ dp = data_read_rel_idarray(dp, &idarraydatap, idmap, numid + numrel, &data.error, SOLVABLE_FILEMARKER);
+ else
+ dp = data_read_rel_idarray(dp, &idarraydatap, idmap, numid + numrel, &data.error, 0);
+ if (idarraydatap > idarraydataend)
+ {
+ pool_debug(pool, SAT_ERROR, "idarray overflow\n");
+ data.error = SOLV_ERROR_OVERFLOW;
+ break;
+ }
if (id == SOLVABLE_PROVIDES)
s->provides = ido;
else if (id == SOLVABLE_OBSOLETES)
else if (id == SOLVABLE_FRESHENS)
s->freshens = ido;
#if 0
- printf("%s ->\n", id2str(pool, id));
+ POOL_DEBUG(SAT_DEBUG_STATS, "%s ->\n", id2str(pool, id));
for (; repo->idarraydata[ido]; ido++)
- printf(" %s\n", dep2str(pool, repo->idarraydata[ido]));
+ POOL_DEBUG(SAT_DEBUG_STATS," %s\n", dep2str(pool, repo->idarraydata[ido]));
#endif
break;
+ default:
+ dps = dp;
+ dp = data_skip(dp, keys[key].type);
+ if (keys[key].storage == KEY_STORAGE_INCORE)
+ incore_add_blob(&data, dps, dp - dps);
+ break;
}
}
}
- repo->nsolvables += numsolv;
- xfree(idmap);
- xfree(solvdata);
+ /* should shrink idarraydata again */
+
+ if (!data.error)
+ {
+ left -= (dp - buf);
+ if (left < 0)
+ {
+ pool_debug(mypool, SAT_ERROR, "buffer overrun\n");
+ data.error = SOLV_ERROR_EOF;
+ }
+ }
+ sat_free(buf);
+
+ if (data.error)
+ {
+ /* free solvables */
+ repo_free_solvable_block(repo, data.start, data.end - data.start, 1);
+ /* free id array */
+ repo->idarraysize -= size_idarray;
+ /* free incore data */
+ data.incoredata = sat_free(data.incoredata);
+ data.incoredatalen = data.incoredatafree = 0;
+ }
+
+ if (data.incoredatafree)
+ {
+ /* shrink excess size */
+ data.incoredata = sat_realloc(data.incoredata, data.incoredatalen);
+ data.incoredatafree = 0;
+ }
+
+ for (i = 1; i < numkeys; i++)
+ if (keys[i].storage == KEY_STORAGE_VERTICAL_OFFSET)
+ break;
+ if (i < numkeys && !data.error)
+ {
+ Id fileoffset = 0;
+ unsigned int pagesize;
+
+ /* we have vertical data, make it available */
+ data.verticaloffset = sat_calloc(numkeys, sizeof(Id));
+ for (i = 1; i < numkeys; i++)
+ if (keys[i].storage == KEY_STORAGE_VERTICAL_OFFSET)
+ {
+ data.verticaloffset[i] = fileoffset;
+ fileoffset += keys[i].size;
+ }
+ data.lastverticaloffset = fileoffset;
+ pagesize = read_u32(&data);
+ repodata_read_or_setup_pages(&data, pagesize, fileoffset);
+ }
+ else
+ {
+ /* no longer needed */
+ data.fp = 0;
+ }
+
+ if (parent && !data.error)
+ {
+ /* we're a store */
+ sat_free(parent->schemata);
+ sat_free(parent->schemadata);
+ sat_free(parent->keys);
+ sat_free(parent->location);
+ *parent = data;
+ }
+ else if ((data.incoredatalen || data.fp) && !data.error)
+ {
+ /* we got some data, make it available */
+ repo->repodata = sat_realloc2(repo->repodata, repo->nrepodata + 1, sizeof(data));
+ repo->repodata[repo->nrepodata++] = data;
+ }
+ else
+ {
+ /* discard data */
+ sat_free(data.dirpool.dirs);
+ sat_free(data.incoreoffset);
+ sat_free(schemata);
+ sat_free(schemadata);
+ sat_free(keys);
+ }
+
+ sat_free(idmap);
+ mypool = 0;
+ return data.error;
}
-// EOF
+int
+repo_add_solv(Repo *repo, FILE *fp)
+{
+ return repo_add_solv_parent(repo, fp, 0);
+}
+
+static void
+repodata_load_solv(Repodata *data)
+{
+ FILE *fp;
+ Pool *pool = data->repo->pool;
+ if (!pool->loadcallback)
+ {
+ data->state = REPODATA_ERROR;
+ return;
+ }
+ fp = pool->loadcallback(pool, data, pool->loadcallbackdata);
+ if (!fp)
+ {
+ data->state = REPODATA_ERROR;
+ return;
+ }
+ if (repo_add_solv_parent(data->repo, fp, data))
+ data->state = REPODATA_ERROR;
+ else
+ data->state = REPODATA_AVAILABLE;
+ fclose(fp);
+}