/*
* cryptsetup library API check functions
*
- * Copyright (C) 2009-2010 Red Hat, Inc. All rights reserved.
+ * Copyright (C) 2009-2013 Red Hat, Inc. All rights reserved.
+ * Copyright (C) 2009-2014, Milan Broz
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
- * version 2 as published by the Free Software Foundation.
+ * as published by the Free Software Foundation; either version 2
+ * of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <stdio.h>
#include <linux/fs.h>
#include <errno.h>
#include <assert.h>
+#include <signal.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#include <libdevmapper.h>
static int _debug = 0;
static int _verbose = 1;
+static int _fips_mode = 0;
+
+static int _quit = 0;
static char global_log[4096];
static int global_lines = 0;
static char *DEVICE_1 = NULL;
static char *DEVICE_2 = NULL;
+static char *DEVICE_3 = NULL;
static char *THE_LOOP_DEV = NULL;
static char *tmp_file_1 = NULL;
return r;
}
+static int fips_mode(void)
+{
+ int fd;
+ char buf = 0;
+
+ if (access("/etc/system-fips", F_OK))
+ return 0;
+
+ fd = open("/proc/sys/crypto/fips_enabled", O_RDONLY);
+
+ if (fd < 0)
+ return 0;
+
+ if (read(fd, &buf, 1) != 1)
+ buf = '0';
+
+ close(fd);
+
+ return (buf == '1');
+}
+
static int get_luks_offsets(int metadata_device,
size_t keylength,
unsigned int alignpayload_sec,
{
int i;
uint64_t current_sector;
+ uint32_t sectors_per_stripes_set;
+
if (!keylength)
return -1;
- uint32_t sectors_per_stripes_set = DIV_ROUND_UP(keylength*LUKS_STRIPES, SECTOR_SIZE);
+ sectors_per_stripes_set = DIV_ROUND_UP(keylength*LUKS_STRIPES, SECTOR_SIZE);
printf("sectors_per_stripes %" PRIu32 "\n", sectors_per_stripes_set);
current_sector = DIV_ROUND_UP_MODULO(DIV_ROUND_UP(LUKS_PHDR_SIZE_B, SECTOR_SIZE),
LUKS_ALIGN_KEYSLOTS / SECTOR_SIZE);
struct dm_task *dmt;
struct dm_info dmi;
uint64_t start, length;
- char *target_type, *rcipher, *key, *params;
+ char *target_type, *key, *params;
void *next = NULL;
int r = -EINVAL;
if (!target_type || strcmp(target_type, "crypt") != 0)
goto out;
- rcipher = strsep(¶ms, " ");
+ (void)strsep(¶ms, " "); /* rcipher */
key = strsep(¶ms, " ");
if (buffer_size <= strlen(key))
{
int fd, r;
- fd = open(name, O_RDWR | O_CREAT | O_TRUNC, S_IRUSR);
+ fd = open(name, O_RDWR | O_CREAT | O_TRUNC, S_IRUSR|S_IWUSR);
if (fd != -1) {
r = write(fd, passphrase, size);
close(fd);
}
// Decode key from its hex representation
-static int crypt_decode_key(char *key, char *hex, unsigned int size)
+static int crypt_decode_key(char *key, const char *hex, unsigned int size)
{
char buffer[3];
char *endp;
return 0;
}
-static void cmdLineLog(int level, char *msg)
+static void cmdLineLog(int level, const char *msg)
{
strncat(global_log, msg, sizeof(global_log) - strlen(global_log));
global_lines++;
static void new_log(int level, const char *msg, void *usrptr)
{
- cmdLineLog(level, (char*)msg);
+ if (_debug)
+ printf("LOG: %s", msg);
+ cmdLineLog(level, msg);
}
-static void reset_log()
+static void reset_log(void)
{
memset(global_log, 0, sizeof(global_log));
global_lines = 0;
static int _system(const char *command, int warn)
{
int r;
+ if (_debug)
+ printf("Running system: %s\n", command);
if ((r=system(command)) < 0 && warn)
printf("System command failed: %s", command);
return r;
if (crypt_loop_device(DEVICE_2))
crypt_loop_detach(DEVICE_2);
+ if (crypt_loop_device(DEVICE_3))
+ crypt_loop_detach(DEVICE_3);
+
_system("rm -f " IMAGE_EMPTY, 0);
_system("rm -f " IMAGE1, 0);
free(THE_LOOP_DEV);
free(DEVICE_1);
free(DEVICE_2);
+ free(DEVICE_3);
}
static int _setup(void)
return 1;
}
close(fd);
- snprintf(cmd, sizeof(cmd), "dd if=/dev/zero of=%s bs=%d count=%d",
+ snprintf(cmd, sizeof(cmd), "dd if=/dev/zero of=%s bs=%d count=%d 2>/dev/null",
test_loop_file, SECTOR_SIZE, TST_LOOP_FILE_SIZE);
if (_system(cmd, 1))
return 1;
return 1;
}
close(fd);
- snprintf(cmd, sizeof(cmd), "dd if=/dev/zero of=%s bs=%d count=%d",
+ snprintf(cmd, sizeof(cmd), "dd if=/dev/zero of=%s bs=%d count=%d 2>/dev/null",
tmp_file_1, SECTOR_SIZE, 10);
if (_system(cmd, 1))
return 1;
return 1;
}
if (crypt_loop_device(DEVICE_2)) {
- _system("dd if=/dev/zero of=" IMAGE_EMPTY " bs=1M count=4", 1);
+ _system("dd if=/dev/zero of=" IMAGE_EMPTY " bs=1M count=4 2>/dev/null", 1);
fd = crypt_loop_attach(DEVICE_2, IMAGE_EMPTY, 0, 0, &ro);
close(fd);
}
+ if (!DEVICE_3)
+ DEVICE_3 = crypt_loop_get_device();
+ if (!DEVICE_3) {
+ printf("Cannot find free loop device.\n");
+ return 1;
+ }
/* Keymaterial offset is less than 8 sectors */
_system(" [ ! -e " EVL_HEADER_1 " ] && bzip2 -dk " EVL_HEADER_1 ".bz2", 1);
/* keymaterial offset aims into payload area */
* volume_key = bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a */
_system(" [ ! -e " VALID_HEADER " ] && bzip2 -dk " VALID_HEADER ".bz2", 1);
+ /* Prepare tcrypt images */
+ _system(" [ ! -d tcrypt-images ] && tar xjf tcrypt-images.tar.bz2 2>/dev/null", 1);
+
+ _system("modprobe dm-crypt", 0);
+ _system("modprobe dm-verity", 0);
+
+ _fips_mode = fips_mode();
+ if (_debug)
+ printf("FIPS MODE: %d\n", _fips_mode);
+
return 0;
}
-void check_ok(int status, int line, const char *func)
+static void check_ok(int status, int line, const char *func)
{
char buf[256];
}
}
-void check_ko(int status, int line, const char *func)
+static void check_ko(int status, int line, const char *func)
{
char buf[256];
printf(" => errno %d, errmsg: %s\n", status, buf);
}
-void check_equal(int line, const char *func)
+static void check_equal(int line, const char *func, int64_t x, int64_t y)
{
- printf("FAIL line %d [%s]: expected equal values differs.\n", line, func);
+ printf("FAIL line %d [%s]: expected equal values differs: %"
+ PRIi64 " != %" PRIi64 "\n", line, func, x, y);
_cleanup();
exit(-1);
}
-void xlog(const char *msg, const char *tst, const char *func, int line, const char *txt)
+static void xlog(const char *msg, const char *tst, const char *func, int line, const char *txt)
{
if (_verbose) {
if (txt)
else
printf(" [%s,%s:%d] %s\n", msg, func, line, tst);
}
+ if (_quit) {
+ if (_verbose)
+ printf("Interrupted by a signal.\n");
+ _cleanup();
+ exit(-1);
+ }
}
/* crypt_device context must be "cd" to parse error properly here */
#define FAIL_(x, y) do { xlog("(fail) ", #x, __FUNCTION__, __LINE__, y); \
check_ko((x), __LINE__, __FUNCTION__); \
} while(0)
-#define EQ_(x, y) do { xlog("(equal) ", #x " == " #y, __FUNCTION__, __LINE__, NULL); \
- if ((x) != (y)) check_equal(__LINE__, __FUNCTION__); \
+#define EQ_(x, y) do { int64_t _x = (x), _y = (y); \
+ xlog("(equal) ", #x " == " #y, __FUNCTION__, __LINE__, NULL); \
+ if (_x != _y) check_equal(__LINE__, __FUNCTION__, _x, _y); \
} while(0)
-
#define RUN_(x, y) do { printf("%s: %s\n", #x, (y)); x(); } while (0)
static void AddDevicePlain(void)
int fd;
char key[128], key2[128], path[128];
- char *passphrase = PASSPHRASE;
+ const char *passphrase = PASSPHRASE;
// hashed hex version of PASSPHRASE
- char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
+ const char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
size_t key_size = strlen(mk_hex) / 2;
- char *cipher = "aes";
- char *cipher_mode = "cbc-essiv:sha256";
+ const char *cipher = "aes";
+ const char *cipher_mode = "cbc-essiv:sha256";
uint64_t size, r_size;
OK_(crypt_format(cd,CRYPT_PLAIN,cipher,cipher_mode,NULL,NULL,key_size,¶ms));
OK_(strcmp(cipher_mode,crypt_get_cipher_mode(cd)));
OK_(strcmp(cipher,crypt_get_cipher(cd)));
- EQ_(key_size, crypt_get_volume_key_size(cd));
+ EQ_((int)key_size, crypt_get_volume_key_size(cd));
EQ_(params.skip, crypt_get_iv_offset(cd));
EQ_(params.offset, crypt_get_data_offset(cd));
params.skip = 0;
FAIL_(crypt_init_by_name_and_header(&cd, CDEVICE_1, H_DEVICE),"can't init plain device by header device");
OK_(crypt_init_by_name(&cd, CDEVICE_1));
+ OK_(strcmp(cipher_mode,crypt_get_cipher_mode(cd)));
+ OK_(strcmp(cipher,crypt_get_cipher(cd)));
+ EQ_((int)key_size, crypt_get_volume_key_size(cd));
+ EQ_(params.skip, crypt_get_iv_offset(cd));
+ EQ_(params.offset, crypt_get_data_offset(cd));
OK_(crypt_deactivate(cd, CDEVICE_1));
crypt_free(cd);
EQ_(r_size, size);
// size overlaps
- FAIL_(crypt_resize(cd, CDEVICE_1, ULLONG_MAX),"Backing device is too small");
+ FAIL_(crypt_resize(cd, CDEVICE_1, (uint64_t)-1),"Backing device is too small");
FAIL_(crypt_resize(cd, CDEVICE_1, (size>>SECTOR_SHIFT)+1),"crypt device overlaps backing device");
// resize ok
EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
// retrieve volume key check
- memset(key2, 0, key_size);
- key_size--;
- // small buffer
- FAIL_(crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key2, &key_size, passphrase, strlen(passphrase)), "small buffer");
- key_size++;
- OK_(crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key2, &key_size, passphrase, strlen(passphrase)));
-
- OK_(memcmp(key, key2, key_size));
+ if (!_fips_mode) {
+ memset(key2, 0, key_size);
+ key_size--;
+ // small buffer
+ FAIL_(crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key2, &key_size, passphrase, strlen(passphrase)), "small buffer");
+ key_size++;
+ OK_(crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key2, &key_size, passphrase, strlen(passphrase)));
+
+ OK_(memcmp(key, key2, key_size));
+ }
OK_(strcmp(cipher, crypt_get_cipher(cd)));
OK_(strcmp(cipher_mode, crypt_get_cipher_mode(cd)));
- EQ_(key_size, crypt_get_volume_key_size(cd));
+ EQ_((int)key_size, crypt_get_volume_key_size(cd));
EQ_(0, crypt_get_data_offset(cd));
OK_(crypt_deactivate(cd, CDEVICE_1));
EQ_(0, crypt_activate_by_keyfile(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEYFILE1, 0, 0));
EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
OK_(crypt_deactivate(cd, CDEVICE_1));
+ FAIL_(crypt_activate_by_keyfile_offset(cd, NULL, CRYPT_ANY_SLOT, KEYFILE1, 0, strlen(KEY1) + 1, 0), "cannot seek");
+ EQ_(0, crypt_activate_by_keyfile_offset(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEYFILE1, 0, 0, 0));
+ OK_(crypt_deactivate(cd, CDEVICE_1));
_remove_keyfiles();
crypt_free(cd);
};
size_t key_size = 256 / 8;
- char *cipher = "aes";
- char *cipher_mode = "cbc-essiv:sha256";
- char *passphrase = PASSPHRASE;
+ const char *cipher = "aes";
+ const char *cipher_mode = "cbc-essiv:sha256";
+ const char *passphrase = PASSPHRASE;
char buf1[256] = {0}, buf2[256] = {0};
OK_(crypt_init(&cd, DEVICE_1));
OK_(strcmp("aes", crypt_get_cipher(cd)));
OK_(strcmp("cbc-essiv:sha256", crypt_get_cipher_mode(cd)));
OK_(strcmp(DEVICE_1_UUID, crypt_get_uuid(cd)));
- EQ_(key_size, crypt_get_volume_key_size(cd));
+ EQ_((int)key_size, crypt_get_volume_key_size(cd));
EQ_(1032, crypt_get_data_offset(cd));
- EQ_(0, crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key, &key_size, KEY1, strlen(KEY1)));
- OK_(crypt_volume_key_verify(cd, key, key_size));
- OK_(crypt_activate_by_volume_key(cd, NULL, key, key_size, 0));
- OK_(crypt_activate_by_volume_key(cd, CDEVICE_1, key, key_size, 0));
- EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
- OK_(crypt_deactivate(cd, CDEVICE_1));
-
- key[1] = ~key[1];
- FAIL_(crypt_volume_key_verify(cd, key, key_size), "key mismatch");
- FAIL_(crypt_activate_by_volume_key(cd, CDEVICE_1, key, key_size, 0), "key mismatch");
+ if (!_fips_mode) {
+ EQ_(0, crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key, &key_size, KEY1, strlen(KEY1)));
+ OK_(crypt_volume_key_verify(cd, key, key_size));
+ OK_(crypt_activate_by_volume_key(cd, NULL, key, key_size, 0));
+ OK_(crypt_activate_by_volume_key(cd, CDEVICE_1, key, key_size, 0));
+ EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+
+ key[1] = ~key[1];
+ FAIL_(crypt_volume_key_verify(cd, key, key_size), "key mismatch");
+ FAIL_(crypt_activate_by_volume_key(cd, CDEVICE_1, key, key_size, 0), "key mismatch");
+ }
crypt_free(cd);
}
suspend_status = crypt_suspend(cd, CDEVICE_1);
if (suspend_status == -ENOTSUP) {
printf("WARNING: Suspend/Resume not supported, skipping test.\n");
- goto out;
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+ crypt_free(cd);
+ return;
}
+
OK_(suspend_status);
FAIL_(crypt_suspend(cd, CDEVICE_1), "already suspended");
OK_(_prepare_keyfile(KEYFILE1, KEY1, strlen(KEY1)));
OK_(crypt_suspend(cd, CDEVICE_1));
FAIL_(crypt_resume_by_keyfile(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEYFILE1 "blah", 0), "wrong keyfile");
- OK_(crypt_resume_by_keyfile(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEYFILE1, 0));
+ FAIL_(crypt_resume_by_keyfile_offset(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEYFILE1, 1, 0), "wrong key");
+ OK_(crypt_resume_by_keyfile_offset(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEYFILE1, 0, 0));
FAIL_(crypt_resume_by_keyfile(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEYFILE1, 0), "not suspended");
- _remove_keyfiles();
-out:
OK_(crypt_deactivate(cd, CDEVICE_1));
crypt_free(cd);
+
+ /* create LUKS device with detached header */
+ OK_(crypt_init(&cd, DEVICE_1));
+ OK_(crypt_load(cd, CRYPT_LUKS1, NULL));
+ OK_(crypt_set_data_device(cd, DEVICE_2));
+ OK_(crypt_activate_by_passphrase(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEY1, strlen(KEY1), 0));
+ crypt_free(cd);
+
+ /* Should be able to suspend but not resume if not header specified */
+ OK_(crypt_init_by_name(&cd, CDEVICE_1));
+ OK_(crypt_suspend(cd, CDEVICE_1));
+ FAIL_(crypt_suspend(cd, CDEVICE_1), "already suspended");
+ FAIL_(crypt_resume_by_passphrase(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEY1, strlen(KEY1)-1), "no header");
+ crypt_free(cd);
+
+ OK_(crypt_init_by_name_and_header(&cd, CDEVICE_1, DEVICE_1));
+ OK_(crypt_resume_by_passphrase(cd, CDEVICE_1, CRYPT_ANY_SLOT, KEY1, strlen(KEY1)));
+
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+ crypt_free(cd);
+
+ _remove_keyfiles();
}
static void AddDeviceLuks(void)
};
char key[128], key2[128];
- char *passphrase = "blabla";
- char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
+ const char *passphrase = "blabla", *passphrase2 = "nsdkFI&Y#.sd";
+ const char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
size_t key_size = strlen(mk_hex) / 2;
- char *cipher = "aes";
- char *cipher_mode = "cbc-essiv:sha256";
+ const char *cipher = "aes";
+ const char *cipher_mode = "cbc-essiv:sha256";
uint64_t r_payload_offset, r_header_size, r_size_1;
crypt_decode_key(key, mk_hex, key_size);
OK_(get_luks_offsets(0, key_size, params.data_alignment, 0, NULL, &r_payload_offset));
OK_(create_dmdevice_over_loop(L_DEVICE_0S, r_payload_offset));
OK_(create_dmdevice_over_loop(L_DEVICE_1S, r_payload_offset + 1));
- OK_(create_dmdevice_over_loop(L_DEVICE_WRONG, r_payload_offset - 1));
+ //OK_(create_dmdevice_over_loop(L_DEVICE_WRONG, r_payload_offset - 1));
+ OK_(create_dmdevice_over_loop(L_DEVICE_WRONG, 2050 - 1)); //FIXME last keyslot - 1 sector
// 1 sector less than required
OK_(crypt_init(&cd, DMDIR L_DEVICE_WRONG));
OK_(crypt_init_by_name_and_header(&cd, CDEVICE_1, DMDIR H_DEVICE));
FAIL_(crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode, NULL, key, key_size, ¶ms), "Context is already formated");
EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
+ crypt_free(cd);
+ // check active status without header
+ OK_(crypt_init_by_name_and_header(&cd, CDEVICE_1, NULL));
+ EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
+ OK_(!!crypt_get_type(cd));
+ OK_(strcmp(cipher, crypt_get_cipher(cd)));
+ OK_(strcmp(cipher_mode, crypt_get_cipher_mode(cd)));
+ EQ_((int)key_size, crypt_get_volume_key_size(cd));
OK_(crypt_deactivate(cd, CDEVICE_1));
crypt_free(cd);
// there we've got uuid mismatch
OK_(crypt_init_by_name_and_header(&cd, CDEVICE_1, DMDIR H_DEVICE));
EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
- EQ_(crypt_get_type(cd), NULL);
+ OK_(!!crypt_get_type(cd));
FAIL_(crypt_activate_by_volume_key(cd, CDEVICE_1, key, key_size, 0), "Device is active");
FAIL_(crypt_activate_by_volume_key(cd, CDEVICE_2, key, key_size, 0), "Device is active");
EQ_(crypt_status(cd, CDEVICE_2), CRYPT_INACTIVE);
EQ_(crypt_status(cd, CDEVICE_2), CRYPT_ACTIVE);
OK_(crypt_deactivate(cd, CDEVICE_2));
+ crypt_set_iteration_time(cd, 1);
EQ_(1, crypt_keyslot_add_by_volume_key(cd, 1, key, key_size, KEY1, strlen(KEY1)));
OK_(_prepare_keyfile(KEYFILE1, KEY1, strlen(KEY1)));
OK_(_prepare_keyfile(KEYFILE2, KEY2, strlen(KEY2)));
EQ_(2, crypt_keyslot_add_by_keyfile(cd, 2, KEYFILE1, 0, KEYFILE2, 0));
+ FAIL_(crypt_keyslot_add_by_keyfile_offset(cd, 3, KEYFILE1, 0, 1, KEYFILE2, 0, 1), "wrong key");
+ EQ_(3, crypt_keyslot_add_by_keyfile_offset(cd, 3, KEYFILE1, 0, 0, KEYFILE2, 0, 1));
+ EQ_(4, crypt_keyslot_add_by_keyfile_offset(cd, 4, KEYFILE2, 0, 1, KEYFILE1, 0, 1));
FAIL_(crypt_activate_by_keyfile(cd, CDEVICE_2, CRYPT_ANY_SLOT, KEYFILE2, strlen(KEY2)-1, 0), "key mismatch");
EQ_(2, crypt_activate_by_keyfile(cd, NULL, CRYPT_ANY_SLOT, KEYFILE2, 0, 0));
+ EQ_(3, crypt_activate_by_keyfile_offset(cd, NULL, CRYPT_ANY_SLOT, KEYFILE2, 0, 1, 0));
+ EQ_(4, crypt_activate_by_keyfile_offset(cd, NULL, CRYPT_ANY_SLOT, KEYFILE1, 0, 1, 0));
+ FAIL_(crypt_activate_by_keyfile_offset(cd, CDEVICE_2, CRYPT_ANY_SLOT, KEYFILE2, strlen(KEY2), 2, 0), "not enough data");
+ FAIL_(crypt_activate_by_keyfile_offset(cd, CDEVICE_2, CRYPT_ANY_SLOT, KEYFILE2, 0, strlen(KEY2) + 1, 0), "cannot seek");
+ FAIL_(crypt_activate_by_keyfile_offset(cd, CDEVICE_2, CRYPT_ANY_SLOT, KEYFILE2, 0, 2, 0), "wrong key");
EQ_(2, crypt_activate_by_keyfile(cd, CDEVICE_2, CRYPT_ANY_SLOT, KEYFILE2, 0, 0));
OK_(crypt_keyslot_destroy(cd, 1));
OK_(crypt_keyslot_destroy(cd, 2));
+ OK_(crypt_keyslot_destroy(cd, 3));
+ OK_(crypt_keyslot_destroy(cd, 4));
OK_(crypt_deactivate(cd, CDEVICE_2));
_remove_keyfiles();
EQ_(CRYPT_SLOT_INACTIVE, crypt_keyslot_status(cd, 7));
EQ_(CRYPT_SLOT_ACTIVE_LAST, crypt_keyslot_status(cd, 6));
- EQ_(6, crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key2, &key_size, passphrase, strlen(passphrase)));
- OK_(crypt_volume_key_verify(cd, key2, key_size));
+ EQ_(7, crypt_keyslot_change_by_passphrase(cd, 6, 7, passphrase, strlen(passphrase), passphrase2, strlen(passphrase2)));
+ EQ_(CRYPT_SLOT_ACTIVE_LAST, crypt_keyslot_status(cd, 7));
+ EQ_(7, crypt_activate_by_passphrase(cd, NULL, 7, passphrase2, strlen(passphrase2), 0));
+ EQ_(6, crypt_keyslot_change_by_passphrase(cd, CRYPT_ANY_SLOT, 6, passphrase2, strlen(passphrase2), passphrase, strlen(passphrase)));
+
+ if (!_fips_mode) {
+ EQ_(6, crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key2, &key_size, passphrase, strlen(passphrase)));
+ OK_(crypt_volume_key_verify(cd, key2, key_size));
- OK_(memcmp(key, key2, key_size));
+ OK_(memcmp(key, key2, key_size));
+ }
OK_(strcmp(cipher, crypt_get_cipher(cd)));
OK_(strcmp(cipher_mode, crypt_get_cipher_mode(cd)));
- EQ_(key_size, crypt_get_volume_key_size(cd));
+ EQ_((int)key_size, crypt_get_volume_key_size(cd));
EQ_(4096, crypt_get_data_offset(cd));
OK_(strcmp(DEVICE_2, crypt_get_device_name(cd)));
};
char key[128], key2[128], cmd[256];
- char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
+ const char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
size_t key_size = strlen(mk_hex) / 2;
- char *cipher = "aes";
- char *cipher_mode = "cbc-essiv:sha256";
+ const char *cipher = "aes";
+ const char *cipher_mode = "cbc-essiv:sha256";
uint64_t r_payload_offset;
crypt_decode_key(key, mk_hex, key_size);
FAIL_(crypt_header_restore(cd, CRYPT_LUKS1, EVL_HEADER_4), "Header too small");
OK_(crypt_header_restore(cd, CRYPT_LUKS1, VALID_HEADER));
// wipe valid luks header
- snprintf(cmd, sizeof(cmd), "dd if=/dev/zero of=" DMDIR L_DEVICE_OK " bs=512 count=%" PRIu64, r_payload_offset);
+ snprintf(cmd, sizeof(cmd), "dd if=/dev/zero of=" DMDIR L_DEVICE_OK " bs=512 count=%" PRIu64 " 2>/dev/null", r_payload_offset);
OK_(_system(cmd, 1));
FAIL_(crypt_header_restore(cd, CRYPT_LUKS1, EVL_HEADER_1), "Header corrupted");
FAIL_(crypt_header_restore(cd, CRYPT_LUKS1, EVL_HEADER_2), "Header corrupted");
// volume key_size mismatch
OK_(crypt_init(&cd, DMDIR L_DEVICE_OK));
- memcpy(key2, key, key_size - 1);
- OK_(crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode, NULL, key2, key_size - 1, ¶ms));
+ memcpy(key2, key, key_size / 2);
+ OK_(crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode, NULL, key2, key_size / 2, ¶ms));
FAIL_(crypt_header_restore(cd, CRYPT_LUKS1, VALID_HEADER), "Volume keysize mismatch");
crypt_free(cd);
};
char key[128], cmd[256];
- char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
+ const char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
size_t key_size = strlen(mk_hex) / 2;
- char *cipher = "aes";
- char *cipher_mode = "cbc-essiv:sha256";
+ const char *cipher = "aes";
+ const char *cipher_mode = "cbc-essiv:sha256";
uint64_t r_payload_offset, r_header_size;
crypt_decode_key(key, mk_hex, key_size);
// external header device
OK_(create_dmdevice_over_loop(H_DEVICE, r_header_size));
// prepared header on a device too small to contain header and payload
- OK_(create_dmdevice_over_loop(H_DEVICE_WRONG, r_payload_offset - 1));
- snprintf(cmd, sizeof(cmd), "dd if=" EVL_HEADER_4 " of=" DMDIR H_DEVICE_WRONG " bs=512 count=%" PRIu64, r_payload_offset - 1);
+ //OK_(create_dmdevice_over_loop(H_DEVICE_WRONG, r_payload_offset - 1));
+ OK_(create_dmdevice_over_loop(H_DEVICE_WRONG, 2050 - 1)); //FIXME
+ //snprintf(cmd, sizeof(cmd), "dd if=" EVL_HEADER_4 " of=" DMDIR H_DEVICE_WRONG " bs=512 count=%" PRIu64, r_payload_offset - 1);
+ snprintf(cmd, sizeof(cmd), "dd if=" EVL_HEADER_4 " of=" DMDIR H_DEVICE_WRONG " bs=512 count=%d 2>/dev/null", 2050 - 1);
OK_(_system(cmd, 1));
// some device
OK_(create_dmdevice_over_loop(L_DEVICE_OK, r_payload_offset + 1000));
// bad header: device too small (payloadOffset > device_size)
OK_(crypt_init(&cd, DMDIR H_DEVICE_WRONG));
FAIL_(crypt_load(cd, CRYPT_LUKS1, NULL), "Device too small");
- EQ_(crypt_get_type(cd), NULL);
+ OK_(!!crypt_get_type(cd));
crypt_free(cd);
// 0 secs for encrypted data area
crypt_free(cd);
// damaged header
- OK_(_system("dd if=/dev/zero of=" DMDIR L_DEVICE_0S "bs=512 count=8", 1));
+ OK_(_system("dd if=/dev/zero of=" DMDIR L_DEVICE_OK " bs=512 count=8 2>/dev/null", 1));
OK_(crypt_init(&cd, DMDIR L_DEVICE_OK));
FAIL_(crypt_load(cd, CRYPT_LUKS1, NULL), "Header not found");
crypt_free(cd);
.data_alignment = 2048,
};
char key[128];
+ int fd, ro = O_RDONLY;
- char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
+ const char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
size_t key_size = strlen(mk_hex) / 2;
- char *cipher = "aes";
- char *cipher_mode = "cbc-essiv:sha256";
+ const char *cipher = "aes";
+ const char *cipher_mode = "cbc-essiv:sha256";
uint64_t r_payload_offset;
+ const char *passphrase = PASSPHRASE;
+
crypt_decode_key(key, mk_hex, key_size);
OK_(get_luks_offsets(0, key_size, params.data_alignment, 0, NULL, &r_payload_offset));
OK_(crypt_init(&cd, DMDIR L_DEVICE_OK));
OK_(crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode, NULL, key, key_size, ¶ms));
OK_(crypt_activate_by_volume_key(cd, CDEVICE_1, key, key_size, 0));
+ EQ_(crypt_keyslot_add_by_volume_key(cd, 7, key, key_size, passphrase, strlen(passphrase)), 7);
+ EQ_(crypt_keyslot_add_by_volume_key(cd, 0, key, key_size, passphrase, strlen(passphrase)), 0);
OK_(crypt_header_backup(cd, CRYPT_LUKS1, BACKUP_FILE));
OK_(crypt_deactivate(cd, CDEVICE_1));
crypt_free(cd);
OK_(crypt_deactivate(cd, CDEVICE_1));
crypt_free(cd);
+ // exercise luksOpen using backup header in file
+ OK_(crypt_init(&cd, BACKUP_FILE));
+ OK_(crypt_load(cd, CRYPT_LUKS1, NULL));
+ OK_(crypt_set_data_device(cd, DMDIR L_DEVICE_OK));
+ EQ_(crypt_activate_by_passphrase(cd, CDEVICE_1, 0, passphrase, strlen(passphrase), 0), 0);
+ EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+ crypt_free(cd);
+
+ OK_(crypt_init(&cd, BACKUP_FILE));
+ OK_(crypt_load(cd, CRYPT_LUKS1, NULL));
+ OK_(crypt_set_data_device(cd, DMDIR L_DEVICE_OK));
+ EQ_(crypt_activate_by_passphrase(cd, CDEVICE_1, 7, passphrase, strlen(passphrase), 0), 7);
+ EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+ crypt_free(cd);
+
+ // exercise luksOpen using backup header on block device
+ fd = crypt_loop_attach(DEVICE_3, BACKUP_FILE, 0, 0, &ro);
+ close(fd);
+ OK_(fd < 0);
+ OK_(crypt_init(&cd, DEVICE_3));
+ OK_(crypt_load(cd, CRYPT_LUKS1, NULL));
+ OK_(crypt_set_data_device(cd, DMDIR L_DEVICE_OK));
+ EQ_(crypt_activate_by_passphrase(cd, CDEVICE_1, 0, passphrase, strlen(passphrase), 0), 0);
+ EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+ crypt_free(cd);
+
+ OK_(crypt_init(&cd, DEVICE_3));
+ OK_(crypt_load(cd, CRYPT_LUKS1, NULL));
+ OK_(crypt_set_data_device(cd, DMDIR L_DEVICE_OK));
+ EQ_(crypt_activate_by_passphrase(cd, CDEVICE_1, 7, passphrase, strlen(passphrase), 0), 7);
+ EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+ crypt_free(cd);
+
_cleanup_dmdevices();
}
};
char key[128];
- char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
+ const char *mk_hex = "bb21158c733229347bd4e681891e213d94c685be6a5b84818afe7a78a6de7a1a";
size_t key_size = strlen(mk_hex) / 2;
- char *cipher = "aes";
- char *cipher_mode = "cbc-essiv:sha256";
+ const char *cipher = "aes";
+ const char *cipher_mode = "cbc-essiv:sha256";
uint64_t r_payload_offset, r_header_size, r_size;
crypt_decode_key(key, mk_hex, key_size);
};
size_t key_size;
- char *mk_hex, *keystr, key[256];
+ const char *mk_hex, *keystr;
+ char key[256];
OK_(crypt_init(&cd, DEVICE_1));
OK_(crypt_format(cd, CRYPT_PLAIN, "aes", "cbc-essiv:sha256", NULL, NULL, 16, ¶ms));
crypt_free(cd);
}
+static void VerityTest(void)
+{
+ struct crypt_device *cd;
+ const char *salt_hex = "20c28ffc129c12360ba6ceea2b6cf04e89c2b41cfe6b8439eb53c1897f50df7b";
+ const char *root_hex = "ab018b003a967fc782effb293b6dccb60b4f40c06bf80d16391acf686d28b5d6";
+ char salt[256], root_hash[256];
+ struct crypt_active_device cad;
+ struct crypt_params_verity params = {
+ .data_device = DEVICE_EMPTY,
+ .salt = salt,
+ .data_size = 0, /* whole device */
+ .hash_area_offset = 0,
+ .flags = CRYPT_VERITY_CREATE_HASH,
+ };
+
+ crypt_decode_key(salt, salt_hex, strlen(salt_hex) / 2);
+ crypt_decode_key(root_hash, root_hex, strlen(root_hex) / 2);
+
+ /* Format */
+ OK_(crypt_init(&cd, DEVICE_2));
+
+ /* block size */
+ params.data_block_size = 333;
+ FAIL_(crypt_format(cd, CRYPT_VERITY, NULL, NULL, NULL, NULL, 0, ¶ms),
+ "Unsupppored block size.");
+ params.data_block_size = 4096;
+ params.hash_block_size = 333;
+ FAIL_(crypt_format(cd, CRYPT_VERITY, NULL, NULL, NULL, NULL, 0, ¶ms),
+ "Unsupppored block size.");
+ params.hash_block_size = 4096;
+
+ /* salt size */
+ params.salt_size = 257;
+ FAIL_(crypt_format(cd, CRYPT_VERITY, NULL, NULL, NULL, NULL, 0, ¶ms),
+ "Too large salt.");
+ params.salt_size = 32;
+
+ /* hash_type */
+ params.hash_type = 3;
+ FAIL_(crypt_format(cd, CRYPT_VERITY, NULL, NULL, NULL, NULL, 0, ¶ms),
+ "Unsupported hash type.");
+ params.hash_type = 1;
+ params.hash_name = "blah";
+ FAIL_(crypt_format(cd, CRYPT_VERITY, NULL, NULL, NULL, NULL, 0, ¶ms),
+ "Unsupported hash name.");
+ params.hash_name = "sha256";
+
+ OK_(crypt_format(cd, CRYPT_VERITY, NULL, NULL, NULL, NULL, 0, ¶ms));
+ crypt_free(cd);
+
+ /* Verify */
+ OK_(crypt_init(&cd, DEVICE_2));
+ memset(¶ms, 0, sizeof(params));
+ params.data_device = DEVICE_EMPTY;
+ params.flags = CRYPT_VERITY_CHECK_HASH;
+ OK_(crypt_load(cd, CRYPT_VERITY, ¶ms));
+
+ /* check verity params */
+ EQ_(crypt_get_volume_key_size(cd), 32);
+ OK_(strcmp(CRYPT_VERITY, crypt_get_type(cd)));
+ memset(¶ms, 0, sizeof(params));
+ OK_(crypt_get_verity_info(cd, ¶ms));
+ OK_(strcmp("sha256", params.hash_name));
+ EQ_(strlen(salt_hex) / 2, params.salt_size);
+ OK_(memcmp(salt, params.salt, params.salt_size));
+ EQ_(4096, params.data_block_size);
+ EQ_(4096, params.hash_block_size);
+ EQ_(1, params.hash_type);
+ EQ_(crypt_get_volume_key_size(cd), 32);
+
+ OK_(crypt_activate_by_volume_key(cd, NULL, root_hash, 32, 0));
+ OK_(crypt_set_data_device(cd, DEVICE_1));
+ FAIL_(crypt_activate_by_volume_key(cd, NULL, root_hash, 32, 0), "Data corrupted");;
+
+ OK_(crypt_set_data_device(cd, DEVICE_EMPTY));
+ if (crypt_activate_by_volume_key(cd, CDEVICE_1, root_hash, 32,
+ CRYPT_ACTIVATE_READONLY) == -ENOTSUP) {
+ printf("WARNING: kernel dm-verity not supported, skipping test.\n");
+ crypt_free(cd);
+ return;
+ }
+ OK_(crypt_get_active_device(cd, CDEVICE_1, &cad));
+ EQ_(CRYPT_ACTIVATE_READONLY, cad.flags);
+ crypt_free(cd);
+
+ OK_(crypt_init_by_name(&cd, CDEVICE_1));
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+
+ /* hash fail */
+ root_hash[1] = ~root_hash[1];
+ OK_(crypt_activate_by_volume_key(cd, CDEVICE_1, root_hash, 32, CRYPT_ACTIVATE_READONLY));
+ OK_(crypt_get_active_device(cd, CDEVICE_1, &cad));
+ EQ_(CRYPT_ACTIVATE_READONLY|CRYPT_ACTIVATE_CORRUPTED, cad.flags);
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+ root_hash[1] = ~root_hash[1];
+
+ /* data fail */
+ OK_(crypt_set_data_device(cd, DEVICE_1));
+ OK_(crypt_activate_by_volume_key(cd, CDEVICE_1, root_hash, 32, CRYPT_ACTIVATE_READONLY));
+ OK_(crypt_get_active_device(cd, CDEVICE_1, &cad));
+ EQ_(CRYPT_ACTIVATE_READONLY|CRYPT_ACTIVATE_CORRUPTED, cad.flags);
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+
+ crypt_free(cd);
+}
+
+static void TcryptTest(void)
+{
+ struct crypt_device *cd = NULL;
+ struct crypt_active_device cad;
+ const char *passphrase = "aaaaaaaaaaaa";
+ const char *kf1 = "tcrypt-images/keyfile1";
+ const char *kf2 = "tcrypt-images/keyfile2";
+ const char *keyfiles[] = { kf1, kf2 };
+ struct crypt_params_tcrypt params = {
+ .passphrase = passphrase,
+ .passphrase_size = strlen(passphrase),
+ .keyfiles = keyfiles,
+ .keyfiles_count = 2,
+ };
+ double enc_mbr = 0, dec_mbr = 0;
+ const char *tcrypt_dev = "tcrypt-images/tck_5-sha512-xts-aes";
+ const char *tcrypt_dev2 = "tcrypt-images/tc_5-sha512-xts-serpent-twofish-aes";
+ size_t key_size = 64;
+ char key[key_size], key_def[key_size];
+ const char *key_hex =
+ "98dee64abe44bbf41d171c1f7b3e8eacda6d6b01f459097459a167f8c2872a96"
+ "3979531d1cdc18af62757cf22286f16f8583d848524f128d7594ac2082668c73";
+ int r;
+
+ crypt_decode_key(key_def, key_hex, strlen(key_hex) / 2);
+
+ // First ensure we can use af_alg skcipher interface
+ r = crypt_benchmark(NULL, "aes", "xts", 512, 16, 1024, &enc_mbr, &dec_mbr);
+ if (r == -ENOTSUP || r == -ENOENT) {
+ printf("WARNING: algif_skcipher interface not present, skipping test.\n");
+ return;
+ }
+
+ OK_(crypt_init(&cd, tcrypt_dev));
+ params.passphrase_size--;
+ FAIL_(crypt_load(cd, CRYPT_TCRYPT, ¶ms), "Wrong passphrase");
+ params.passphrase_size++;
+ OK_(crypt_load(cd, CRYPT_TCRYPT, ¶ms));
+
+ // check params after load
+ OK_(strcmp("xts-plain64", crypt_get_cipher_mode(cd)));
+ OK_(strcmp("aes", crypt_get_cipher(cd)));
+ EQ_(key_size, crypt_get_volume_key_size(cd));
+ EQ_(256, crypt_get_iv_offset(cd));
+ EQ_(256, crypt_get_data_offset(cd));
+
+ memset(key, 0, key_size);
+ if (!_fips_mode) {
+ key_size--;
+ // small buffer
+ FAIL_(crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key, &key_size, NULL, 0), "small buffer");
+ key_size++;
+ OK_(crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key, &key_size, NULL, 0));
+ OK_(memcmp(key, key_def, key_size));
+ }
+
+ reset_log();
+ crypt_set_log_callback(cd, &new_log, NULL);
+ OK_(crypt_dump(cd));
+ OK_(!(global_lines != 0));
+ crypt_set_log_callback(cd, NULL, NULL);
+ reset_log();
+
+ OK_(crypt_activate_by_volume_key(cd, CDEVICE_1, NULL, 0, CRYPT_ACTIVATE_READONLY));
+ crypt_free(cd);
+
+ OK_(crypt_init_by_name_and_header(&cd, CDEVICE_1, NULL));
+ EQ_(crypt_status(cd, CDEVICE_1), CRYPT_ACTIVE);
+
+ FAIL_(crypt_volume_key_get(cd, CRYPT_ANY_SLOT, key, &key_size, NULL, 0), "Need crypt_load");
+
+ // check params after init_by_name
+ OK_(strcmp("xts-plain64", crypt_get_cipher_mode(cd)));
+ OK_(strcmp("aes", crypt_get_cipher(cd)));
+ EQ_(key_size, crypt_get_volume_key_size(cd));
+ EQ_(256, crypt_get_iv_offset(cd));
+ EQ_(256, crypt_get_data_offset(cd));
+
+ OK_(crypt_get_active_device(cd, CDEVICE_1, &cad));
+ EQ_(CRYPT_ACTIVATE_READONLY, cad.flags);
+ EQ_(256, cad.offset);
+ EQ_(256, cad.iv_offset);
+ EQ_(72, cad.size);
+
+ OK_(crypt_deactivate(cd, CDEVICE_1));
+ crypt_free(cd);
+
+ OK_(crypt_init(&cd, tcrypt_dev2));
+ params.keyfiles = NULL;
+ params.keyfiles_count = 0;
+ OK_(crypt_load(cd, CRYPT_TCRYPT, ¶ms));
+ OK_(crypt_activate_by_volume_key(cd, CDEVICE_1, NULL, 0, CRYPT_ACTIVATE_READONLY));
+ crypt_free(cd);
+
+ // Deactivate the whole chain
+ EQ_(crypt_status(NULL, CDEVICE_1 "_1"), CRYPT_BUSY);
+ OK_(crypt_deactivate(NULL, CDEVICE_1));
+ EQ_(crypt_status(NULL, CDEVICE_1 "_1"), CRYPT_INACTIVE);
+}
+
// Check that gcrypt is properly initialised in format
static void NonFIPSAlg(void)
{
struct crypt_device *cd;
struct crypt_params_luks1 params = {0};
char key[128] = "";
- size_t key_size = 128;
- char *cipher = "aes";
- char *cipher_mode = "cbc-essiv:sha256";
+ size_t key_size = 128 / 8;
+ const char *cipher = "aes";
+ const char *cipher_mode = "cbc-essiv:sha256";
int ret;
OK_(crypt_init(&cd, DEVICE_2));
params.hash = "sha256";
OK_(crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode, NULL, key, key_size, ¶ms));
+ FAIL_(crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode, NULL, key, key_size, ¶ms),
+ "Already formatted.");
+ crypt_free(cd);
params.hash = "whirlpool";
+ OK_(crypt_init(&cd, DEVICE_2));
ret = crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode, NULL, key, key_size, ¶ms);
if (ret < 0) {
printf("WARNING: whirlpool not supported, skipping test.\n");
crypt_free(cd);
return;
}
+ crypt_free(cd);
params.hash = "md5";
+ OK_(crypt_init(&cd, DEVICE_2));
FAIL_(crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode, NULL, key, key_size, ¶ms),
"MD5 unsupported, too short");
crypt_free(cd);
}
-int main (int argc, char *argv[])
+static void int_handler(int sig __attribute__((__unused__)))
{
+ _quit++;
+}
+
+int main(int argc, char *argv[])
+{
+ struct sigaction sa = { .sa_handler = int_handler };
int i;
if (getuid() != 0) {
_debug = _verbose = 1;
}
+ /* Handle interrupt properly */
+ sigaction(SIGINT, &sa, NULL);
+ sigaction(SIGTERM, &sa, NULL);
+
_cleanup();
if (_setup())
goto out;
RUN_(UseLuksDevice, "Use pre-formated LUKS device");
RUN_(SuspendDevice, "Suspend/Resume test");
RUN_(UseTempVolumes, "Format and use temporary encrypted device");
-
RUN_(CallbacksTest, "API callbacks test");
+ RUN_(VerityTest, "DM verity test");
+ RUN_(TcryptTest, "Tcrypt API test");
out:
_cleanup();
return 0;