/*
* pool_hdr_uuid_fix -- (internal) fix UUID value
*/
static int
pool_hdr_uuid_fix(PMEMpoolcheck *ppc, location *loc, uint32_t question,
void *context)
{
LOG(3, NULL);
ASSERTne(loc, NULL);
switch (question) {
case Q_UUID_SET:
CHECK_INFO(ppc, "%ssetting pool_hdr.uuid to %s", loc->prefix,
check_get_uuid_str(*loc->valid_uuid));
memcpy(loc->hdr.uuid, loc->valid_uuid, POOL_HDR_UUID_LEN);
break;
case Q_UUID_REGENERATE:
if (util_uuid_generate(loc->hdr.uuid) != 0) {
ppc->result = CHECK_RESULT_INTERNAL_ERROR;
return CHECK_ERR(ppc, "%suuid generation failed",
loc->prefix);
}
CHECK_INFO(ppc, "%ssetting pool_hdr.uuid to %s", loc->prefix,
check_get_uuid_str(loc->hdr.uuid));
break;
default:
ERR("not implemented question id: %u", question);
}
return 0;
}
/*
* pool_hdr_nondefault_fix -- (internal) fix custom value fields
*/
static int
pool_hdr_nondefault_fix(PMEMpoolcheck *ppc, location *loc, uint32_t question,
void *context)
{
LOG(3, NULL);
ASSERTne(loc, NULL);
uint64_t *flags = NULL;
switch (question) {
case Q_CRTIME:
CHECK_INFO(ppc, "%ssetting pool_hdr.crtime to file's modtime: "
"%s", loc->prefix,
check_get_time_str(ppc->pool->set_file->mtime));
util_convert2h_hdr_nocheck(&loc->hdr);
loc->hdr.crtime = (uint64_t)ppc->pool->set_file->mtime;
util_convert2le_hdr(&loc->hdr);
break;
case Q_ARCH_FLAGS:
flags = (uint64_t *)&loc->valid_part_hdrp->arch_flags;
CHECK_INFO(ppc, "%ssetting pool_hdr.arch_flags to 0x%08" PRIx64
"%08" PRIx64, loc->prefix, flags[0], flags[1]);
util_convert2h_hdr_nocheck(&loc->hdr);
memcpy(&loc->hdr.arch_flags, &loc->valid_part_hdrp->arch_flags,
sizeof(struct arch_flags));
util_convert2le_hdr(&loc->hdr);
break;
default:
ERR("not implemented question id: %u", question);
}
return 0;
}
/*
* sds_check -- (internal) check shutdown_state
*/
static int
sds_check(PMEMpoolcheck *ppc, location *loc)
{
LOG(3, NULL);
CHECK_INFO(ppc, "%s" SDS_CHECK_STR, loc->prefix);
/* shutdown state is valid */
if (!sds_check_replica(loc)) {
CHECK_INFO(ppc, "%s" SDS_OK_STR, loc->prefix);
loc->step = CHECK_STEP_COMPLETE;
return 0;
}
/* shutdown state is NOT valid and can NOT be repaired */
if (CHECK_IS_NOT(ppc, REPAIR)) {
check_end(ppc->data);
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, "%s%s", loc->prefix,
SDS_FAIL_MSG(&loc->hdr));
}
/* shutdown state is NOT valid but can be repaired */
CHECK_ASK(ppc, Q_RESET_SDS, "%s%s", loc->prefix,
SDS_REPAIR_MSG(&loc->hdr));
return check_questions_sequence_validate(ppc);
}
/*
* cto_hdr_fix -- (internal) fix pmemcto header
*/
static int
cto_hdr_fix(PMEMpoolcheck *ppc, location *loc, uint32_t question, void *ctx)
{
LOG(3, NULL);
switch (question) {
case Q_CTO_CONSISTENT:
CHECK_INFO(ppc, "setting pmemcto.consistent flag");
ppc->pool->hdr.cto.consistent = 1;
break;
case Q_CTO_ADDR:
CHECK_INFO(ppc, "recovering pmemcto.addr");
ppc->pool->hdr.cto.addr = 0;
break;
case Q_CTO_SIZE:
CHECK_INFO(ppc,
"setting pmemcto.size to the actual pool size %zu",
ppc->pool->params.size);
ppc->pool->hdr.cto.size = ppc->pool->params.size;
break;
case Q_CTO_ROOT:
CHECK_INFO(ppc, "recovering pmemcto.root pointer");
ppc->pool->hdr.cto.root = 0;
break;
default:
ERR("not implemented question id: %u", question);
}
return 0;
}
/*
* pool_hdr_preliminary_check -- (internal) check pool header checksum and pool
* parameters
*/
static int
pool_hdr_preliminary_check(PMEMpoolcheck *ppc, location *loc)
{
LOG(3, NULL);
CHECK_INFO(ppc, "%schecking pool header", loc->prefix);
if (util_is_zeroed((void *)&loc->hdr, sizeof(loc->hdr))) {
if (CHECK_IS_NOT(ppc, REPAIR)) {
check_end(ppc->data);
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, "%sempty pool hdr", loc->prefix);
}
} else if (loc->hdr_valid) {
enum pool_type type = pool_hdr_get_type(&loc->hdr);
if (type == POOL_TYPE_UNKNOWN) {
if (CHECK_IS_NOT(ppc, REPAIR)) {
check_end(ppc->data);
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, "%sinvalid signature",
loc->prefix);
}
CHECK_INFO(ppc, "%sinvalid signature", loc->prefix);
} else {
/* valid check sum */
CHECK_INFO(ppc, "%spool header correct",
loc->prefix);
loc->step = CHECK_STEP_COMPLETE;
return 0;
}
} else if (CHECK_IS_NOT(ppc, REPAIR)) {
check_end(ppc->data);
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, "%sincorrect pool header", loc->prefix);
} else {
CHECK_INFO(ppc, "%sincorrect pool header", loc->prefix);
}
ASSERT(CHECK_IS(ppc, REPAIR));
if (ppc->pool->params.type == POOL_TYPE_UNKNOWN) {
ppc->pool->params.type = pool_hdr_possible_type(ppc);
if (ppc->pool->params.type == POOL_TYPE_UNKNOWN) {
ppc->result = CHECK_RESULT_CANNOT_REPAIR;
return CHECK_ERR(ppc, "cannot determine pool type");
}
}
if (!pool_supported(ppc->pool->params.type)) {
ppc->result = CHECK_RESULT_CANNOT_REPAIR;
return CHECK_ERR(ppc, "the repair of %s pools is not supported",
pool_get_pool_type_str(ppc->pool->params.type));
}
return 0;
}
/*
* check_push_answer -- process answer and push it to answers queue
*/
int
check_push_answer(PMEMpoolcheck *ppc)
{
if (ppc->data->check_status_cache == NULL)
return 0;
/* check if answer is "yes" or "no" */
struct check_status *status = ppc->data->check_status_cache;
if (status->status.str.answer != NULL) {
if (strcmp(status->status.str.answer, CHECK_ANSWER_YES) == 0)
status->answer = PMEMPOOL_CHECK_ANSWER_YES;
else if (strcmp(status->status.str.answer, CHECK_ANSWER_NO)
== 0)
status->answer = PMEMPOOL_CHECK_ANSWER_NO;
}
if (status->answer == PMEMPOOL_CHECK_ANSWER_EMPTY) {
/* invalid answer provided */
status_answer_push(ppc->data, ppc->data->check_status_cache);
ppc->data->check_status_cache = NULL;
CHECK_INFO(ppc, "Answer must be either %s or %s",
CHECK_ANSWER_YES, CHECK_ANSWER_NO);
return -1;
}
/* push answer */
TAILQ_INSERT_TAIL(&ppc->data->answers,
ppc->data->check_status_cache, next);
ppc->data->check_status_cache = NULL;
return 0;
}
/*
* pool_hdr_uuid_links_fix -- (internal) fix UUID links values
*/
static int
pool_hdr_uuid_links_fix(PMEMpoolcheck *ppc, location *loc, uint32_t question,
void *context)
{
LOG(3, NULL);
ASSERTne(loc, NULL);
switch (question) {
case Q_NEXT_PART_UUID_SET:
CHECK_INFO(ppc, "%ssetting pool_hdr.next_part_uuid to %s",
loc->prefix,
check_get_uuid_str(loc->next_part_hdrp->uuid));
memcpy(loc->hdr.next_part_uuid, loc->next_part_hdrp->uuid,
POOL_HDR_UUID_LEN);
break;
case Q_PREV_PART_UUID_SET:
CHECK_INFO(ppc, "%ssetting pool_hdr.prev_part_uuid to %s",
loc->prefix,
check_get_uuid_str(loc->prev_part_hdrp->uuid));
memcpy(loc->hdr.prev_part_uuid, loc->prev_part_hdrp->uuid,
POOL_HDR_UUID_LEN);
break;
case Q_NEXT_REPL_UUID_SET:
CHECK_INFO(ppc, "%ssetting pool_hdr.next_repl_uuid to %s",
loc->prefix,
check_get_uuid_str(loc->next_repl_hdrp->uuid));
memcpy(loc->hdr.next_repl_uuid, loc->next_repl_hdrp->uuid,
POOL_HDR_UUID_LEN);
break;
case Q_PREV_REPL_UUID_SET:
CHECK_INFO(ppc, "%ssetting pool_hdr.prev_repl_uuid to %s",
loc->prefix,
check_get_uuid_str(loc->prev_repl_hdrp->uuid));
memcpy(loc->hdr.prev_repl_uuid, loc->prev_repl_hdrp->uuid,
POOL_HDR_UUID_LEN);
break;
default:
ERR("not implemented question id: %u", question);
}
return 0;
}
/*
* backup_poolset -- (internal) backup the poolset
*/
static int
backup_poolset(PMEMpoolcheck *ppc, location *loc, int overwrite)
{
struct pool_replica *srep = ppc->pool->set_file->poolset->replica[0];
struct pool_replica *drep = loc->set->replica[0];
for (unsigned p = 0; p < srep->nparts; p++) {
if (overwrite == 0) {
CHECK_INFO(ppc, "creating backup file: %s",
drep->part[p].path);
}
if (pool_set_part_copy(&drep->part[p], &srep->part[p],
overwrite)) {
location_release(loc);
ppc->result = CHECK_RESULT_ERROR;
CHECK_INFO(ppc, "unable to create backup file");
return CHECK_ERR(ppc, "unable to backup poolset");
}
}
return 0;
}
/*
* backup_nonpoolset_create -- (internal) create backup
*/
static int
backup_nonpoolset_create(PMEMpoolcheck *ppc, location *loc)
{
CHECK_INFO(ppc, "creating backup file: %s", ppc->backup_path);
if (pool_copy(ppc->pool, ppc->backup_path, 0)) {
location_release(loc);
ppc->result = CHECK_RESULT_ERROR;
return CHECK_ERR(ppc, "cannot perform backup");
}
location_release(loc);
loc->step = CHECK_STEP_COMPLETE;
return 0;
}
/*
* sds_fix -- (internal) fix shutdown state
*/
static int
sds_fix(PMEMpoolcheck *ppc, location *loc, uint32_t question,
void *context)
{
LOG(3, NULL);
switch (question) {
case Q_RESET_SDS:
CHECK_INFO(ppc, "%sresetting pool_hdr.sds", loc->prefix);
memset(&loc->hdr.sds, 0, sizeof(loc->hdr.sds));
++loc->healthy_replicas;
break;
default:
ERR("not implemented question id: %u", question);
}
return 0;
}
/*
* pool_hdr_checksum_fix -- (internal) fix checksum
*/
static int
pool_hdr_checksum_fix(PMEMpoolcheck *ppc, location *loc, uint32_t question,
void *context)
{
LOG(3, NULL);
ASSERTne(loc, NULL);
switch (question) {
case Q_CHECKSUM:
util_checksum(&loc->hdr, sizeof(loc->hdr), &loc->hdr.checksum,
1, POOL_HDR_CSUM_END_OFF);
CHECK_INFO(ppc, "%ssetting pool_hdr.checksum to 0x%jx",
loc->prefix, le64toh(loc->hdr.checksum));
break;
default:
ERR("not implemented question id: %u", question);
}
return 0;
}
/*
* pool_hdr_checksum -- (internal) validate checksum
*/
static int
pool_hdr_checksum(PMEMpoolcheck *ppc, location *loc)
{
LOG(3, NULL);
if (loc->hdr_valid)
return 0;
if (CHECK_IS_NOT(ppc, REPAIR)) {
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, INVALID_CHECKSUM, loc->prefix);
} else if (CHECK_IS_NOT(ppc, ADVANCED)) {
ppc->result = CHECK_RESULT_CANNOT_REPAIR;
CHECK_INFO(ppc, "%s" REQUIRE_ADVANCED, loc->prefix);
return CHECK_ERR(ppc, INVALID_CHECKSUM, loc->prefix);
}
CHECK_ASK(ppc, Q_CHECKSUM, INVALID_CHECKSUM ".|Do you want to "
"regenerate checksum?", loc->prefix);
return check_questions_sequence_validate(ppc);
}
/*
* pool_hdr_default_fix -- (internal) fix some default values in pool header
*/
static int
pool_hdr_default_fix(PMEMpoolcheck *ppc, location *loc, uint32_t question,
void *context)
{
LOG(3, NULL);
ASSERTne(loc, NULL);
struct pool_hdr def_hdr;
pool_hdr_default(ppc->pool->params.type, &def_hdr);
switch (question) {
case Q_DEFAULT_SIGNATURE:
CHECK_INFO(ppc, "%ssetting pool_hdr.signature to %.8s",
loc->prefix, def_hdr.signature);
memcpy(&loc->hdr.signature, &def_hdr.signature,
POOL_HDR_SIG_LEN);
break;
case Q_DEFAULT_MAJOR:
CHECK_INFO(ppc, "%ssetting pool_hdr.major to 0x%x", loc->prefix,
def_hdr.major);
loc->hdr.major = def_hdr.major;
break;
case Q_DEFAULT_COMPAT_FEATURES:
CHECK_INFO(ppc, "%ssetting pool_hdr.compat_features to 0x%x",
loc->prefix, def_hdr.compat_features);
loc->hdr.compat_features = def_hdr.compat_features;
break;
case Q_DEFAULT_INCOMPAT_FEATURES:
CHECK_INFO(ppc, "%ssetting pool_hdr.incompat_features to 0x%x",
loc->prefix, def_hdr.incompat_features);
loc->hdr.incompat_features = def_hdr.incompat_features;
break;
case Q_DEFAULT_RO_COMPAT_FEATURES:
CHECK_INFO(ppc, "%ssetting pool_hdr.ro_compat_features to 0x%x",
loc->prefix, def_hdr.ro_compat_features);
loc->hdr.ro_compat_features = def_hdr.ro_compat_features;
break;
case Q_ZERO_UNUSED_AREA:
CHECK_INFO(ppc, "%ssetting pool_hdr.unused to zeros",
loc->prefix);
memset(loc->hdr.unused, 0, sizeof(loc->hdr.unused));
break;
default:
ERR("not implemented question id: %u", question);
}
return 0;
}
/*
* pool_hdr_nondefault -- (internal) validate custom value fields
*/
static int
pool_hdr_nondefault(PMEMpoolcheck *ppc, location *loc)
{
LOG(3, NULL);
if (loc->hdr.crtime > (uint64_t)ppc->pool->set_file->mtime) {
const char *error = "%spool_hdr.crtime is not valid";
if (CHECK_IS_NOT(ppc, REPAIR)) {
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, error, loc->prefix);
} else if (CHECK_IS_NOT(ppc, ADVANCED)) {
ppc->result = CHECK_RESULT_CANNOT_REPAIR;
CHECK_INFO(ppc, "%s" REQUIRE_ADVANCED, loc->prefix);
return CHECK_ERR(ppc, error, loc->prefix);
}
CHECK_ASK(ppc, Q_CRTIME,
"%spool_hdr.crtime is not valid.|Do you want to set it "
"to file's modtime [%s]?", loc->prefix,
check_get_time_str(ppc->pool->set_file->mtime));
}
if (loc->valid_part_hdrp &&
memcmp(&loc->valid_part_hdrp->arch_flags,
&loc->hdr.arch_flags,
sizeof(struct arch_flags)) != 0) {
const char *error = "%spool_hdr.arch_flags is not valid";
if (CHECK_IS_NOT(ppc, REPAIR)) {
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, error, loc->prefix);
}
CHECK_ASK(ppc, Q_ARCH_FLAGS,
"%spool_hdr.arch_flags is not valid.|Do you want to "
"copy it from a valid part?", loc->prefix);
}
return check_questions_sequence_validate(ppc);
}
/*
* backup_poolset_requirements -- (internal) check backup requirements
*/
static int
backup_poolset_requirements(PMEMpoolcheck *ppc, location *loc)
{
LOG(3, "backup_path %s", ppc->backup_path);
if (ppc->pool->set_file->poolset->nreplicas > 1) {
CHECK_INFO(ppc,
"backup of a poolset with multiple replicas is not supported");
goto err;
}
if (pool_set_parse(&loc->set, ppc->backup_path)) {
CHECK_INFO(ppc, "invalid poolset backup file: %s",
ppc->backup_path);
goto err;
}
if (loc->set->nreplicas > 1) {
CHECK_INFO(ppc,
"backup to a poolset with multiple replicas is not supported");
goto err_poolset;
}
ASSERTeq(loc->set->nreplicas, 1);
struct pool_replica *srep = ppc->pool->set_file->poolset->replica[0];
struct pool_replica *drep = loc->set->replica[0];
if (srep->nparts != drep->nparts) {
CHECK_INFO(ppc,
"number of part files in the backup poolset must match number of part files in the source poolset");
goto err_poolset;
}
int overwrite_required = 0;
for (unsigned p = 0; p < srep->nparts; p++) {
if (srep->part[p].filesize != drep->part[p].filesize) {
CHECK_INFO(ppc,
"size of the part %u of the backup poolset does not match source poolset",
p);
goto err_poolset;
}
if (os_access(drep->part[p].path, F_OK)) {
if (errno == ENOENT) {
errno = 0;
continue;
} else {
CHECK_INFO(ppc,
"unable to access the part of the destination poolset: %s",
ppc->backup_path);
goto err_poolset;
}
}
overwrite_required = true;
if ((size_t)util_file_get_size(drep->part[p].path) !=
srep->part[p].filesize) {
CHECK_INFO(ppc,
"destination of the backup part does not match size of the source part file: %s",
drep->part[p].path);
goto err_poolset;
}
}
if (CHECK_WITHOUT_FIXING(ppc)) {
location_release(loc);
loc->step = CHECK_STEP_COMPLETE;
return 0;
}
if (overwrite_required) {
CHECK_ASK(ppc, Q_OVERWRITE_EXISTING_PARTS,
"part files of the destination poolset of the backup already exist.|"
"Do you want to overwrite them?");
}
return check_questions_sequence_validate(ppc);
err_poolset:
location_release(loc);
err:
ppc->result = CHECK_RESULT_ERROR;
return CHECK_ERR(ppc, "unable to backup poolset");
}
/*
* cto_hdr_check -- (internal) check pmemcto header
*/
static int
cto_hdr_check(PMEMpoolcheck *ppc, location *loc)
{
LOG(3, NULL);
CHECK_INFO(ppc, "checking pmemcto header");
if (cto_read(ppc)) {
ppc->result = CHECK_RESULT_ERROR;
return -1;
}
if (ppc->pool->hdr.cto.consistent == 0) {
if (CHECK_ASK(ppc, Q_CTO_CONSISTENT,
"pmemcto.consistent flag is not set.|Do you want to set pmemcto.consistent flag?"))
goto error;
}
if ((void *)ppc->pool->hdr.cto.addr == NULL) {
if (CHECK_ASK(ppc, Q_CTO_ADDR,
"invalid pmemcto.addr: %p.|Do you want to recover pmemcto.addr?",
(void *)ppc->pool->hdr.cto.addr))
goto error;
}
if (ppc->pool->hdr.cto.size < PMEMCTO_MIN_POOL) {
CHECK_INFO(ppc,
"pmemcto.size is less than minimum: %zu < %zu.",
ppc->pool->hdr.cto.size,
PMEMCTO_MIN_POOL);
}
if (ppc->pool->hdr.cto.size != ppc->pool->params.size) {
if (CHECK_ASK(ppc, Q_CTO_SIZE,
"pmemcto.size is different than pool size: %zu != %zu.|Do you want to set pmemlog.size to the actual pool size?",
ppc->pool->hdr.cto.size,
ppc->pool->params.size))
goto error;
}
char *valid_addr_begin =
(char *)ppc->pool->hdr.cto.addr + CTO_DSC_SIZE_ALIGNED;
char *valid_addr_end =
(char *)ppc->pool->hdr.cto.addr + ppc->pool->hdr.cto.size;
if ((void *)ppc->pool->hdr.cto.root != NULL &&
((char *)ppc->pool->hdr.cto.root < valid_addr_begin ||
(char *)ppc->pool->hdr.cto.root >= valid_addr_end)) {
if (CHECK_ASK(ppc, Q_CTO_ROOT,
"invalid pmemcto.root: %p.|Do you want to recover pmemcto.root?",
(void *)ppc->pool->hdr.cto.root))
goto error;
}
if (ppc->result == CHECK_RESULT_CONSISTENT ||
ppc->result == CHECK_RESULT_REPAIRED)
CHECK_INFO(ppc, "pmemcto header correct");
return check_questions_sequence_validate(ppc);
error:
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
check_end(ppc->data);
return -1;
}
/*
* pool_hdr_uuid_find -- (internal) check UUID value
*/
static int
pool_hdr_uuid_find(PMEMpoolcheck *ppc, location *loc)
{
LOG(3, NULL);
/*
* If the pool header is valid and there is not other parts or replicas
* in the poolset its uuid is also valid.
*/
if (loc->hdr_valid && loc->single_repl && loc->single_part)
return 0;
int hdrs_valid[] = {
loc->next_part_hdr_valid, loc->prev_part_hdr_valid,
loc->next_repl_hdr_valid, loc->prev_repl_hdr_valid};
uuid_t *uuids[] = {
&loc->next_part_hdrp->prev_part_uuid,
&loc->prev_part_hdrp->next_part_uuid,
&loc->next_repl_hdrp->prev_repl_uuid,
&loc->prev_repl_hdrp->next_repl_uuid
};
/*
* if all valid poolset part files have the same uuid links to this part
* file it is valid uuid
* if all links have the same uuid and it is single file pool it is also
* the valid uuid
*/
loc->valid_uuid = NULL;
if (loc->hdr_valid)
loc->valid_uuid = &loc->hdr.uuid;
uuid_t *common_uuid = uuids[0];
COMPILE_ERROR_ON(ARRAY_SIZE(uuids) != ARRAY_SIZE(hdrs_valid));
COMPILE_ERROR_ON(COMPARE_TO_FIRST_PART_ONLY >= ARRAY_SIZE(uuids));
for (unsigned i = 0; i < ARRAY_SIZE(uuids); ++i) {
if (i > 0 && common_uuid != NULL) {
if (uuidcmp(*common_uuid, *uuids[i]) != 0) {
common_uuid = NULL;
}
}
if (i >= COMPARE_TO_FIRST_PART_ONLY && loc->part != 0)
continue;
if (!hdrs_valid[i])
continue;
if (!loc->valid_uuid) {
loc->valid_uuid = uuids[i];
} else if (uuidcmp(*loc->valid_uuid, *uuids[i]) != 0) {
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, "%sambiguous pool_hdr.uuid",
loc->prefix);
}
}
if (!loc->valid_uuid && common_uuid)
loc->valid_uuid = common_uuid;
if (loc->valid_uuid != NULL) {
if (uuidcmp(*loc->valid_uuid, loc->hdr.uuid) != 0) {
CHECK_ASK(ppc, Q_UUID_SET, INVALID_UUID ".|Do you want "
"to set it to %s from a valid part file?",
loc->prefix,
check_get_uuid_str(*loc->valid_uuid));
}
} else if (CHECK_IS(ppc, ADVANCED)) {
CHECK_ASK(ppc, Q_UUID_REGENERATE, INVALID_UUID ".|Do you want "
"to regenerate it?", loc->prefix);
} else if (CHECK_IS(ppc, REPAIR)) {
ppc->result = CHECK_RESULT_CANNOT_REPAIR;
CHECK_INFO(ppc, "%s" REQUIRE_ADVANCED, loc->prefix);
return CHECK_ERR(ppc, INVALID_UUID, loc->prefix);
} else {
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, INVALID_UUID, loc->prefix);
}
return check_questions_sequence_validate(ppc);
}
/*
* pool_hdr_poolset_uuid -- (internal) check poolset_uuid field
*/
static int
pool_hdr_poolset_uuid_find(PMEMpoolcheck *ppc, location *loc)
{
LOG(3, NULL);
/*
* If the pool header is valid and there is not other parts or replicas
* in the poolset its poolset_uuid is also valid.
*/
if (loc->hdr_valid && loc->single_repl && loc->single_part)
return 0;
if (loc->replica != 0 || loc->part != 0)
goto after_lookup;
/* for blk pool we can take the UUID from BTT Info header */
if (ppc->pool->params.type == POOL_TYPE_BLK && ppc->pool->bttc.valid) {
loc->valid_puuid = &ppc->pool->bttc.btt_info.parent_uuid;
if (uuidcmp(loc->hdr.poolset_uuid, *loc->valid_puuid) != 0) {
CHECK_ASK(ppc, Q_POOLSET_UUID_FROM_BTT_INFO,
"%sinvalid pool_hdr.poolset_uuid.|Do you want "
"to set it to %s from BTT Info?", loc->prefix,
check_get_uuid_str(*loc->valid_puuid));
goto exit_question;
}
}
if (loc->single_part && loc->single_repl) {
/*
* If the pool is not blk pool or BTT Info header is invalid
* there is no other way to validate poolset uuid.
*/
return 0;
}
/*
* if all valid poolset part files have the same poolset uuid it is
* the valid poolset uuid
* if all part files have the same poolset uuid it is valid poolset uuid
*/
struct pool_set *poolset = ppc->pool->set_file->poolset;
unsigned nreplicas = poolset->nreplicas;
uuid_t *common_puuid = loc->valid_puuid;
for (unsigned r = 0; r < nreplicas; r++) {
struct pool_replica *rep = REP(poolset, r);
for (unsigned p = 0; p < rep->nhdrs; p++) {
struct pool_hdr *hdr = HDR(rep, p);
/*
* find poolset uuid if it is the same for all part
* files
*/
if (common_puuid == NULL) {
if (r == 0 && p == 0) {
common_puuid = &hdr->poolset_uuid;
}
} else if (uuidcmp(*common_puuid, hdr->poolset_uuid)
!= 0) {
common_puuid = NULL;
}
if (!pool_hdr_valid(hdr))
continue;
/*
* find poolset uuid if it is the same for all valid
* part files
*/
if (loc->valid_puuid == NULL) {
loc->valid_puuid = &hdr->poolset_uuid;
} else if (uuidcmp(*loc->valid_puuid, hdr->poolset_uuid)
!= 0) {
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, "the poolset contains "
"part files from various poolsets");
}
}
}
if (!loc->valid_puuid && common_puuid)
loc->valid_puuid = common_puuid;
if (loc->valid_puuid)
goto after_lookup;
if (CHECK_IS_NOT(ppc, REPAIR)) {
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, NO_COMMON_POOLSET_UUID, loc->prefix);
} else if (CHECK_IS_NOT(ppc, ADVANCED)) {
ppc->result = CHECK_RESULT_CANNOT_REPAIR;
CHECK_INFO(ppc, "%s" REQUIRE_ADVANCED, loc->prefix);
return CHECK_ERR(ppc, NO_COMMON_POOLSET_UUID, loc->prefix);
} else {
CHECK_ASK(ppc, Q_POOLSET_UUID_REGENERATE, NO_COMMON_POOLSET_UUID
".|Do you want to regenerate pool_hdr.poolset_uuid?",
loc->prefix);
goto exit_question;
}
after_lookup:
if (loc->valid_puuid) {
if (uuidcmp(*loc->valid_puuid, loc->hdr.poolset_uuid) != 0) {
if (CHECK_IS_NOT(ppc, REPAIR)) {
ppc->result = CHECK_RESULT_NOT_CONSISTENT;
return CHECK_ERR(ppc, "%sinvalid "
"pool_hdr.poolset_uuid", loc->prefix);
}
CHECK_ASK(ppc, Q_POOLSET_UUID_SET, "%sinvalid "
"pool_hdr.poolset_uuid.|Do you want to set "
"it to %s from a valid part file?", loc->prefix,
check_get_uuid_str(*loc->valid_puuid));
}
}
exit_question:
return check_questions_sequence_validate(ppc);
}
