inline int ldb_delete(struct _leveldb_stuff *ldbs, const char *key, size_t klen)
{
char* err = NULL;
char *val = NULL;
size_t vlen = 0;
val = leveldb_get(ldbs->db, ldbs->roptions, key, klen, (size_t *) &vlen, &err);
if (err) {
fprintf(stderr, "%s\n", err);
leveldb_free(err);
err = NULL;
return -1;
}
leveldb_free(val);
/* if not found, then return 0. */
if (vlen == 0) {
return 0;
}
/* if found, delete it, then return 1. */
leveldb_delete(ldbs->db, ldbs->woptions, key, klen, &err);
if (err) {
fprintf(stderr, "%s\n", err);
leveldb_free(err);
err = NULL;
return -1;
}
return 1;
}
void getCommand(redisClient *c) {
char *err;
size_t val_len;
char *key = NULL;
char *value = NULL;
err = NULL;
key = (char *) c->argv[1]->ptr;
value = leveldb_get(server.ds_db, server.roptions, key, sdslen((sds) key), &val_len, &err);
if (err != NULL) {
addReplyError(c, err);
leveldb_free(err);
leveldb_free(value);
return;
} else if (value == NULL) {
addReply(c, shared.nullbulk);
return;
}
addReplyBulkCBuffer(c, value, val_len);
leveldb_free(value);
return;
}
/* =============
* Database info extraction methods
* =============
*/
void init_nwdb() {
char path[PATH_MAX];
char *err = NULL;
sprintf(path, "%s/%s", cde_pseudo_pkg_dir, DB_NAME);
if (access(path, R_OK)==-1) {
fprintf(stderr, "Network provenance database does not exist!\n");
exit(-1);
}
netdb = malloc(sizeof(lvldb_t));
netdb->options = leveldb_options_create();
leveldb_options_set_create_if_missing(netdb->options, 0);
netdb->db = leveldb_open(netdb->options, path, &err);
if (err != NULL || netdb == NULL) {
fprintf(stderr, "Leveldb open fail!\n");
exit(-1);
}
assert(netdb->db!=NULL);
netdb->woptions = leveldb_writeoptions_create();
netdb->roptions = leveldb_readoptions_create();
/* reset error var */
leveldb_free(err);
err = NULL;
/* read in root pid */
netdb_root = db_readc(netdb, "meta.root");
assert(netdb_root != NULL);
if (CDE_nw_mode) {
/* create temp db for current execution graph */
sprintf(path, "%s/%s.tempXXXXXX", cde_pseudo_pkg_dir, DB_NAME);
if (mkdtemp(path) == NULL) {
fprintf(stderr, "Cannot create temp db!\n");
exit(-1);
}
currdb = malloc(sizeof(lvldb_t));
currdb->options = leveldb_options_create();
leveldb_options_set_create_if_missing(currdb->options, 1);
currdb->db = leveldb_open(currdb->options, path, &err);
assert(currdb->db!=NULL);
leveldb_free(err);
err = NULL;
currdb->woptions = leveldb_writeoptions_create();
currdb->roptions = leveldb_readoptions_create();
db_write_root(currdb, getpid());
}
}
int ldb_exists(struct _leveldb_stuff *ldbs, const char *key, size_t klen)
{
char *err = NULL;
char *val = NULL;
size_t vlen = 0;
val = leveldb_get(ldbs->db, ldbs->roptions, key, klen, &vlen, &err);
if (err) {
fprintf(stderr, "\n%s\n", err);
leveldb_free(err);
return -1;
}
leveldb_free(val);
return vlen == 0 ? 0 : 1;
}
db_t* open_db(const char* path, database_t type)
{
db_t* db = (db_t*) malloc(sizeof(db_t));
db->type = type;
if(type == LEVELDB)
{
levelDB_t* leveldb = (levelDB_t*) malloc(sizeof(levelDB_t));
leveldb->err = NULL;
leveldb->options = leveldb_options_create();
leveldb->woptions = leveldb_writeoptions_create();
leveldb->roptions = leveldb_readoptions_create();
leveldb_options_set_create_if_missing(leveldb->options, 1);
leveldb->db = leveldb_open(leveldb->options, path, &(leveldb->err));
if(leveldb->err != NULL)
{
fprintf(stderr, "Failed to open database! Error message: %s\n", leveldb->err);
exit(-1);
}
leveldb_free(leveldb->err);
leveldb->err = NULL;
db->database = (void*) leveldb;
}
else
{
kernelDB_t* kerneldb = (kernelDB_t*) malloc(sizeof(kernelDB_t));
kerneldb->client = kr_open(path);
db->database = (void*) kerneldb;
}
return db;
}
int zset_del(ldb_context_t* context, const ldb_slice_t* name,
const ldb_slice_t* key, const ldb_meta_t* meta){
int ret = zdel_one(context, name, key, meta);
int retval = LDB_OK;
if(ret >= 0){
if(ret > 0){
if(zset_incr_size(context, name, -ret) == -1){
retval = LDB_ERR;
goto end;
}
}
char* errptr = NULL;
ldb_context_writebatch_commit(context, &errptr);
if( errptr != NULL ){
fprintf(stderr, "write writebatch fail %s.\n", errptr);
leveldb_free(errptr);
retval = LDB_ERR;
goto end;
}
retval = LDB_OK;
}else{
retval = LDB_ERR;
}
end:
return retval;
}
// Opens the tablet for reading and writing. This should be called directly.
// Only the owning table should open a tablet.
//
// tablet - The tablet.
//
// Returns 0 if successful, otherwise returns -1.
int sky_tablet_open(sky_tablet *tablet)
{
char* errptr = NULL;
leveldb_options_t* options = NULL;
assert(tablet != NULL);
check(tablet->path != NULL, "Tablet path required");
// Close the tablet if it's already open.
sky_tablet_close(tablet);
// Initialize data file.
options = leveldb_options_create();
leveldb_options_set_create_if_missing(options, true);
tablet->leveldb_db = leveldb_open(options, bdata(tablet->path), &errptr);
check(errptr == NULL, "LevelDB Error: %s", errptr);
check(tablet->leveldb_db != NULL, "Unable to create LevelDB data file");
leveldb_options_destroy(options);
return 0;
error:
if(errptr) leveldb_free(errptr);
if(options) leveldb_options_destroy(options);
sky_tablet_close(tablet);
return -1;
}
int ldb_exists(struct _leveldb_stuff *ldbs, const char *key, size_t klen)
{
char *err = NULL;
char *val = NULL;
size_t vlen = 0;
val = leveldb_get(ldbs->db, ldbs->roptions, key, klen, (size_t *) &vlen, &err);
if (err) {
log_error("%s", err);
leveldb_free(err);
err = NULL;
return -1;
}
leveldb_free(val);
return vlen ? 1 : 0;
}
struct _leveldb_stuff *ldb_initialize(char *path)
{
struct _leveldb_stuff *ldbs = NULL;
leveldb_cache_t *cache;
leveldb_filterpolicy_t *policy;
char* err = NULL;
ldbs = (struct _leveldb_stuff *) malloc(sizeof(struct _leveldb_stuff));
memset(ldbs, 0, sizeof(struct _leveldb_stuff));
ldbs->options = leveldb_options_create();
snprintf(ldbs->dbname, sizeof(ldbs->dbname), "%s%s%s", LDB_WORK_PATH, "/",
path);
cache = leveldb_cache_create_lru(LDB_CACHE_LRU_SIZE);
policy = leveldb_filterpolicy_create_bloom(LDB_BLOOM_KEY_SIZE);
leveldb_options_set_filter_policy(ldbs->options, policy);
leveldb_options_set_cache(ldbs->options, cache);
leveldb_options_set_block_size(ldbs->options, LDB_BLOCK_SIZE);
leveldb_options_set_write_buffer_size(ldbs->options, LDB_WRITE_BUFFER_SIZE);
#if defined(OPEN_COMPRESSION)
leveldb_options_set_compression(ldbs->options, leveldb_snappy_compression);
#else
leveldb_options_set_compression(ldbs->options, leveldb_no_compression);
#endif
/* Read options */
ldbs->roptions = leveldb_readoptions_create();
leveldb_readoptions_set_verify_checksums(ldbs->roptions, 1);
leveldb_readoptions_set_fill_cache(ldbs->roptions, 1);/* set 1 is faster */
/* W options */
ldbs->woptions = leveldb_writeoptions_create();
#ifdef SYNC_PUT
leveldb_writeoptions_set_sync(ldbs->woptions, 1);
#else
leveldb_writeoptions_set_sync(ldbs->woptions, 0);
#endif
/* Batch write */
ldbs->wbatch = leveldb_writebatch_create();
leveldb_options_set_create_if_missing(ldbs->options, 1);
ldbs->db = leveldb_open(ldbs->options, ldbs->dbname, &err);
if (err) {
fprintf(stderr, "%s", err);
leveldb_free(err);
err = NULL;
free(ldbs);
return NULL;
} else {
return ldbs;
}
}
/*
* Open the specified database, if no exists, then create it.
* Args:
* 1. name: db name
* 2. block_size: block size
* 3. wb_size: write buffer size
* 4. lru_size: lru cache size
* 5. bloom_size: bloom key size
* Return:
* _leveldb_stuff: leveldb handler.
*/
struct _leveldb_stuff *ldb_initialize(const char *name, size_t block_size, size_t wb_size, size_t lru_size, short bloom_size)
{
struct _leveldb_stuff *ldbs = NULL;
leveldb_cache_t *cache;
leveldb_filterpolicy_t *policy;
char* err = NULL;
ldbs = malloc(sizeof(struct _leveldb_stuff));
memset(ldbs, 0, sizeof(struct _leveldb_stuff));
ldbs->options = leveldb_options_create();
snprintf(ldbs->dbname, sizeof(ldbs->dbname), "%s", name);
cache = leveldb_cache_create_lru(lru_size);
policy = leveldb_filterpolicy_create_bloom(bloom_size);
leveldb_options_set_filter_policy(ldbs->options, policy);
leveldb_options_set_cache(ldbs->options, cache);
leveldb_options_set_block_size(ldbs->options, block_size);
leveldb_options_set_write_buffer_size(ldbs->options, wb_size);
#if defined(OPEN_COMPRESSION)
leveldb_options_set_compression(ldbs->options, leveldb_snappy_compression);
#else
leveldb_options_set_compression(ldbs->options, leveldb_no_compression);
#endif
/* R */
ldbs->roptions = leveldb_readoptions_create();
leveldb_readoptions_set_verify_checksums(ldbs->roptions, 1);
leveldb_readoptions_set_fill_cache(ldbs->roptions, 1);/* set 1 is faster */
/* W */
ldbs->woptions = leveldb_writeoptions_create();
#ifdef SYNC_PUT
leveldb_writeoptions_set_sync(ldbs->woptions, 1);
#else
leveldb_writeoptions_set_sync(ldbs->woptions, 0);
#endif
/* B */
ldbs->wbatch = leveldb_writebatch_create();
leveldb_options_set_create_if_missing(ldbs->options, 1);
ldbs->db = leveldb_open(ldbs->options, ldbs->dbname, &err);
if (err) {
fprintf(stderr, "%s", err);
leveldb_free(err);
err = NULL;
free(ldbs);
return NULL ;
}
return ldbs;
}
void incrDecrCommand(redisClient *c, long long incr) {
sds data;
char *value;
int64_t val, recore;
size_t val_len;
char *err = NULL;
err = NULL;
val_len = 0;
value = leveldb_get(server.ds_db, server.roptions, c->argv[1]->ptr, sdslen((sds) c->argv[1]->ptr), &val_len, &err);
if (err != NULL) {
if (val_len > 0) leveldb_free(value);
addReplyError(c, err);
leveldb_free(err);
return;
} else if (val_len < 1) {
val = 0;
} else {
val = strtoll(value, NULL, 10);
}
err = NULL;
recore = val + incr;
data = sdsfromlonglong(recore);
leveldb_put(server.ds_db, server.woptions, c->argv[1]->ptr, sdslen((sds) c->argv[1]->ptr), data, sdslen(data), &err);
if (err != NULL) {
addReplyError(c, err);
leveldb_free(err);
} else {
addReplyLongLong(c, recore);
server.dirty++;
signalModifiedKey(c->db, c->argv[1]);
}
sdsfree(data);
leveldb_free(value);
return;
}
int zset_get(ldb_context_t* context, const ldb_slice_t* name,
const ldb_slice_t* key, int64_t* score){
char *val, *errptr = NULL;
size_t vallen = 0;
leveldb_readoptions_t* readoptions = leveldb_readoptions_create();
ldb_slice_t *slice_key = NULL;
encode_zset_key(ldb_slice_data(name), ldb_slice_size(name), ldb_slice_data(key), ldb_slice_size(key), NULL, &slice_key);
val = leveldb_get(context->database_, readoptions, ldb_slice_data(slice_key), ldb_slice_size(slice_key), &vallen, &errptr);
leveldb_readoptions_destroy(readoptions);
ldb_slice_destroy(slice_key);
int retval = 0;
if(errptr != NULL){
fprintf(stderr, "leveldb_get fail %s.\n", errptr);
leveldb_free(errptr);
retval = LDB_ERR;
goto end;
}
if(val != NULL){
assert(vallen >= LDB_VAL_META_SIZE);
uint8_t type = leveldb_decode_fixed8(val);
if(type & LDB_VALUE_TYPE_VAL){
if(type & LDB_VALUE_TYPE_LAT){
retval = LDB_OK_NOT_EXIST;
goto end;
}
*score = leveldb_decode_fixed64(val + LDB_VAL_META_SIZE);
retval = LDB_OK;
}else{
retval = LDB_OK_NOT_EXIST;
}
}else{
retval = LDB_OK_NOT_EXIST;
}
end:
if(val != NULL){
leveldb_free(val);
}
return retval;
}
static void CheckGet(
leveldb_t* db,
const leveldb_readoptions_t* options,
const char* key,
const char* expected) {
char* err = NULL;
size_t val_len;
char* val;
val = leveldb_get(db, options, key, strlen(key), &val_len, &err);
CheckNoError(err);
CheckEqual(expected, val, val_len);
leveldb_free(&val);
}
inline int ldb_put(struct _leveldb_stuff *ldbs, const char *key, size_t klen, const char *value, size_t vlen)
{
char *err = NULL;
leveldb_put(ldbs->db, ldbs->woptions, key, klen, value, vlen, &err);
if (err) {
fprintf(stderr, "%s\n", err);
leveldb_free(err);
err = NULL;
return -1;
} else {
return 0;
}
}
/**
* set if not exists.
* return 1 (not exists and saved)
* return 0 (already exists)
*/
void setnxCommand(redisClient *c) {
char *value;
sds keyword;
size_t val_len;
char *err = NULL;
leveldb_writebatch_t *wb;
err = NULL;
val_len = 0;
keyword = c->argv[1]->ptr;
value = leveldb_get(server.ds_db, server.roptions, keyword, sdslen(keyword), &val_len, &err);
if (err != NULL) {
addReplyError(c, err);
leveldb_free(err);
return;
} else if (val_len > 0) {
// already exists
leveldb_free(value);
addReplyLongLong(c, 0);
return;
}
wb = leveldb_writebatch_create();
leveldb_writebatch_put(wb, keyword, sdslen(keyword), (char *) c->argv[2]->ptr, sdslen((sds) c->argv[2]->ptr));
leveldb_write(server.ds_db, server.woptions, wb, &err);
if (err != NULL) {
addReplyError(c, err);
leveldb_free(err);
} else {
addReplyLongLong(c, 1);
server.dirty++;
signalModifiedKey(c->db, c->argv[1]);
}
leveldb_writebatch_destroy(wb);
return;
}
int ldb_pull(struct _leveldb_stuff *ldbs, const char *key, size_t klen, char *value, size_t vlen)
{
size_t len = 0;
char *err = NULL;
char *val = NULL;
val = leveldb_get(ldbs->db, ldbs->roptions, key, klen, &len, &err);
if (err) {
fprintf(stderr, "%s\n", err);
leveldb_free(err);
err = NULL;
return -1;
} else {
if (!val){
return -1;
}
int ok = (vlen == len) ? 0 : -1;
if (!ok){
memcpy(value, val, vlen);
}
leveldb_free(val);
return ok;
}
}
inline int ldb_batch_commit(struct _leveldb_stuff *ldbs)
{
char *err = NULL;
leveldb_write(ldbs->db, ldbs->woptions, ldbs->wbatch, &err);
leveldb_writebatch_clear(ldbs->wbatch);
if (err) {
fprintf(stderr, "%s\n", err);
leveldb_free(err);
err = NULL;
return -1;
} else {
return 0;
}
}
char *ldb_get(struct _leveldb_stuff *ldbs, const char *key, size_t klen, int *vlen)
{
char *err = NULL;
char *val = NULL;
val = leveldb_get(ldbs->db, ldbs->roptions, key, klen, (size_t *) vlen, &err);
if (err) {
fprintf(stderr, "%s\n", err);
leveldb_free(err);
err = NULL;
*vlen = -1;
return NULL ;
} else {
return val;
}
}
/*
* Destroy the ldb.
*/
void ldb_destroy(struct _leveldb_stuff *ldbs)
{
char* err = NULL;
leveldb_close(ldbs->db);
leveldb_destroy_db(ldbs->options, ldbs->dbname, &err);
if (err) {
fprintf(stderr, "%s\n", err);
leveldb_free(err);
err = NULL;
}
leveldb_options_destroy(ldbs->options);
leveldb_readoptions_destroy(ldbs->roptions);
leveldb_writeoptions_destroy(ldbs->woptions);
leveldb_writebatch_destroy(ldbs->wbatch);
free(ldbs);
}
void setCommand(redisClient *c) {
char *key, *value;
char *err = NULL;
key = (char *) c->argv[1]->ptr;
value = (char *) c->argv[2]->ptr;
leveldb_put(server.ds_db, server.woptions, key, sdslen((sds) key),
value, sdslen((sds) value), &err);
if (err != NULL) {
addReplyError(c, err);
leveldb_free(err);
return;
}
addReply(c, shared.ok);
server.dirty++;
signalModifiedKey(c->db, c->argv[1]);
return;
}
void get(db_t* db, size_t keySz, void* key, size_t valSz, void** val)
{
if(db->type == LEVELDB)
{
levelDB_t* leveldb = (levelDB_t*) db->database;
*((char**)val) = leveldb_get(leveldb->db, leveldb->roptions, (char*)key, keySz, &valSz, &(leveldb->err));
if(leveldb->err != NULL)
{
fprintf(stderr, "leveldb get failed!\n");
exit(-1);
}
leveldb_free(leveldb->err);
leveldb->err = NULL;
}
else
{
kernelDB_t* kerneldb = (kernelDB_t*) db->database;
kr_get(kerneldb->client, keySz, key, &valSz, val);
}
}
void delCommand(redisClient *c) {
int i;
char *key;
char *err = NULL;
int deleted = 0;
for (i = 1; i < c->argc; i++) {
key = (char *) c->argv[i]->ptr;
leveldb_delete(server.ds_db, server.woptions,
key, sdslen((sds) key), &err);
if (err != NULL) {
leveldb_free(err);
continue;
}
signalModifiedKey(c->db, c->argv[i]);
server.dirty++;
deleted++;
}
addReplyLongLong(c, deleted);
return;
}
void clos(db_t* db)
{
if(db->type == LEVELDB)
{
levelDB_t* leveldb = (levelDB_t*) db->database;
leveldb_close(leveldb->db);
leveldb_destroy_db(leveldb->options, "leveldb_test", &(leveldb->err));
if(leveldb->err != NULL)
{
fprintf(stderr, "Failed to destroy the database!\n");
exit(-1);
}
leveldb_free(leveldb->err);
leveldb->err = NULL;
}
else
{
kernelDB_t* kerneldb = (kernelDB_t*)db->database;
kr_close(kerneldb->client);
}
free(db->database);
free(db);
}
int zset_incr(ldb_context_t* context, const ldb_slice_t* name,
const ldb_slice_t* key, const ldb_meta_t* meta, int64_t by, int64_t* val){
int64_t old_score = 0;
int ret = zset_get(context, name, key, &old_score);
int retval = LDB_OK;
if(ret == LDB_OK){
*val = old_score + by;
}else if(ret == LDB_OK_NOT_EXIST){
*val = by;
}else{
retval = ret;
goto end;
}
ret = zset_one(context, name, key, meta, *val);
if(ret >= 0){
if(ret > 0){
if(zset_incr_size(context, name, ret) == -1){
retval = LDB_ERR;
goto end;
}
}
char* errptr = NULL;
ldb_context_writebatch_commit(context, &errptr);
if(errptr!=NULL){
fprintf(stderr, "leveldb_write fail %s.\n", errptr);
leveldb_free(errptr);
retval = LDB_ERR;
goto end;
}
retval = LDB_OK;
}else{
retval = LDB_ERR;
}
end:
return retval;
}
int ldb_recovery_rec(ldb_context_t* context, ldb_recovery_t* recovery){
int retval = 0;
ldb_slice_t *slice_key = NULL;
size_t vlen = 0;
const char *val = ldb_recov_iterator_val_raw(recovery->iter_, &vlen);
if(vlen < LDB_VAL_META_SIZE){
fprintf(stderr, "%s iterator encountered invalid value length %lu.\n", __func__, vlen);
retval = 0;
goto end;
}
uint64_t version = leveldb_decode_fixed64(val + LDB_VAL_TYPE_SIZE);
if(version == 0){
retval = 0;
goto end;
}
size_t klen = 0;
const char *key = ldb_recov_iterator_key_raw(recovery->iter_, &klen);
ldb_meta_t *meta = ldb_meta_create(0 , 0, version);
slice_key = ldb_meta_slice_create(meta);
ldb_meta_destroy(meta);
ldb_slice_push_back(slice_key, key, klen);
char *errptr = NULL;
leveldb_put_meta(context->database_, ldb_slice_data(slice_key), ldb_slice_size(slice_key), &errptr);
if(errptr!=NULL){
fprintf(stderr, "%s leveldb_put_meta failed %s.\n", __func__, errptr);
leveldb_free(errptr);
retval = -1;
goto end;
}
retval = 0;
end:
ldb_slice_destroy(slice_key);
return retval;
}
void ds_init() {
char *err = NULL;
server.ds_cache = leveldb_cache_create_lru(server.ds_lru_cache * 1048576);
server.ds_options = leveldb_options_create();
server.policy = leveldb_filterpolicy_create_bloom(10);
//leveldb_options_set_comparator(server.ds_options, cmp);
leveldb_options_set_filter_policy(server.ds_options, server.policy);
leveldb_options_set_create_if_missing(server.ds_options, server.ds_create_if_missing);
leveldb_options_set_error_if_exists(server.ds_options, server.ds_error_if_exists);
leveldb_options_set_cache(server.ds_options, server.ds_cache);
leveldb_options_set_info_log(server.ds_options, NULL);
leveldb_options_set_write_buffer_size(server.ds_options, server.ds_write_buffer_size * 1048576);
leveldb_options_set_paranoid_checks(server.ds_options, server.ds_paranoid_checks);
leveldb_options_set_max_open_files(server.ds_options, server.ds_max_open_files);
leveldb_options_set_block_size(server.ds_options, server.ds_block_size * 1024);
leveldb_options_set_block_restart_interval(server.ds_options, server.ds_block_restart_interval);
leveldb_options_set_compression(server.ds_options, leveldb_snappy_compression);
server.ds_db = leveldb_open(server.ds_options, server.ds_path, &err);
if (err != NULL) {
fprintf(stderr, "%s:%d: %s\n", __FILE__, __LINE__, err);
leveldb_free(err);
exit(1);
}
server.woptions = leveldb_writeoptions_create();
server.roptions = leveldb_readoptions_create();
leveldb_readoptions_set_verify_checksums(server.roptions, 0);
leveldb_readoptions_set_fill_cache(server.roptions, 1);
leveldb_writeoptions_set_sync(server.woptions, 0);
}
// Adds an event to the tablet.
//
// tablet - The tablet.
// event - The event to add.
//
// Returns 0 if successful, otherwise returns -1.
int sky_tablet_add_event(sky_tablet *tablet, sky_event *event)
{
int rc;
char *errptr = NULL;
void *new_data = NULL;
void *data = NULL;
sky_data_object *data_object = NULL;
sky_data_descriptor *descriptor = NULL;
sky_cursor cursor; memset(&cursor, 0, sizeof(cursor));
assert(tablet != NULL);
assert(event != NULL);
// Make sure that this event is being added to the correct tablet.
sky_tablet *target_tablet = NULL;
rc = sky_table_get_target_tablet(tablet->table, event->object_id, &target_tablet);
check(rc == 0, "Unable to determine target tablet");
check(tablet == target_tablet, "Event added to invalid tablet; IDX:%d of %d, OID:%d", tablet->index, tablet->table->tablet_count, event->object_id);
// Retrieve the existing value.
size_t data_length;
data = (void*)leveldb_get(tablet->leveldb_db, tablet->readoptions, (const char*)&event->object_id, sizeof(event->object_id), &data_length, &errptr);
check(errptr == NULL, "LevelDB get error: %s", errptr);
// Find the insertion point on the path.
size_t insert_offset = 0;
size_t event_length;
// If the object doesn't exist yet then just set the single event. Easy peasy.
if(data == NULL) {
event_length = sky_event_sizeof(event);
new_data = calloc(1, event_length); check_mem(new_data);
insert_offset = 0;
}
// If the object does exist, we need to find where to insert the event data.
// Also, we need to strip off any state which is redundant at the point of
// insertion.
else {
void *insert_ptr = NULL;
// Initialize data descriptor.
descriptor = sky_data_descriptor_create(); check_mem(descriptor);
rc = sky_data_descriptor_init_with_event(descriptor, event);
check(rc == 0, "Unable to initialize data descriptor for event insert");
// Initialize data object.
data_object = calloc(1, descriptor->data_sz); check_mem(data);
// Attach data & descriptor to the cursor.
cursor.data_descriptor = descriptor;
cursor.data = (void*)data_object;
// Initialize the cursor.
rc = sky_cursor_set_ptr(&cursor, data, data_length);
check(rc == 0, "Unable to set pointer on cursor");
// Loop over cursor until we reach the event insertion point.
while(!cursor.eof) {
// Retrieve event insertion pointer once the timestamp is reached.
if(data_object->ts >= event->timestamp) {
insert_ptr = cursor.ptr;
break;
}
// Move to next event.
check(sky_cursor_next_event(&cursor) == 0, "Unable to move to next event");
}
// If no insertion point was found then append the event to the
// end of the path.
if(insert_ptr == NULL) {
insert_ptr = data + data_length;
}
insert_offset = insert_ptr - data;
// Clear off any object data on the event that matches
// what is the current state of the event in the database.
uint32_t i;
for(i=0; i<event->data_count; i++) {
// Ignore any action properties.
if(event->data[i]->key > 0) {
sky_data_property_descriptor *property_descriptor = &descriptor->property_zero_descriptor[event->data[i]->key];
// If the values match then splice this from the array.
// Compare strings.
void *a = &event->data[i]->value;
void *b = ((void*)data_object)+property_descriptor->offset;
size_t n = sky_data_type_sizeof(event->data[i]->data_type);
bool is_equal = false;
if(event->data[i]->data_type == SKY_DATA_TYPE_STRING) {
is_equal = sky_string_bequals((sky_string*)b, event->data[i]->string_value);
}
// Compare other types.
else if(memcmp(a, b, n) == 0) {
is_equal = true;
}
// If the data is equal then remove it.
if(is_equal) {
sky_event_data_free(event->data[i]);
if(i < event->data_count - 1) {
memmove(&event->data[i], &event->data[i+1], (event->data_count-i-1) * sizeof(*event->data));
}
i--;
event->data_count--;
}
}
}
// Determine the serialized size of the event. If the event is
// completely redundant (e.g. it is a data-only event and the event
// matches the current object state) then don't allocate space for a
// new path value.
event_length = sky_event_sizeof(event);
if(event_length > 0) {
// Allocate space for the existing data plus the new data.
new_data = calloc(1, data_length + event_length); check_mem(new_data);
// Copy in data before event.
if(insert_offset > 0) {
memmove(new_data, data, insert_ptr-data);
}
// Copy in data after event.
if(insert_offset < data_length) {
event_length = sky_event_sizeof(event);
memmove(new_data+insert_offset+event_length, data+insert_offset, data_length-insert_offset);
}
}
}
// If no space was allocated then it means the event is redundant and
// should be ignored.
if(new_data != NULL) {
// If the object doesn't exist then just set the event as the data.
size_t event_sz;
rc = sky_event_pack(event, new_data + insert_offset, &event_sz);
check(rc == 0, "Unable to pack event");
check(event_sz == event_length, "Expected event size (%ld) does not match actual event size (%ld)", event_length, event_sz);
leveldb_put(tablet->leveldb_db, tablet->writeoptions, (const char*)&event->object_id, sizeof(event->object_id), new_data, data_length + event_length, &errptr);
check(errptr == NULL, "LevelDB put error: %s", errptr);
}
free(data_object);
sky_data_descriptor_free(descriptor);
free(data);
free(new_data);
return 0;
error:
if(errptr) leveldb_free(errptr);
sky_data_descriptor_free(descriptor);
if(data) free(data);
if(new_data) free(new_data);
if(data_object) free(data_object);
return -1;
}
int ctl_cmd_parse(struct data_node *p_node)
{
int ret = 0;
unsigned int loop = 0;
int ok = 0;
unsigned int i, j = 0;
int offset = 0;
size_t mlen = 0;
char *p_new = NULL;
char *p_old = NULL;
char *result = NULL;
char ret_number[16] = { 0 };
int size = 0;
int sum = 0;
if (p_node->status == X_MALLOC_FAILED) {
add_send_node(p_node, OPT_NO_MEMORY, strlen(OPT_NO_MEMORY));
return X_MALLOC_FAILED;
}
if (p_node->gtlen > MAX_CMD_LEN) {
add_send_node(p_node, OPT_DATA_TOO_LARGE, strlen(OPT_DATA_TOO_LARGE));
return X_DATA_TOO_LARGE;
}
/* parse cmd */
char *data = p_node->svbf;
log_debug("%s", data);
if (data[0] == '*') {
// 1. read the arg count:
if (p_node->kvs == 0) {
p_new = p_old = &data[1];
CHECK_BUFFER(p_new, 0);
p_node->kvs = atoi(p_old);
p_node->doptr = p_new - data;
}
// 2. read the request name
if (p_node->cmd == 0) {
if (data[p_node->doptr] != '$') {
goto E_OUT_PUT;
}
p_new = p_old = &data[p_node->doptr + 1];
CHECK_BUFFER(p_new, 0);
mlen = atoi(p_old);
p_old = p_new;
CHECK_BUFFER(p_new, mlen);
for (i = 0; i < mlen; i++) {
if (*(p_old + i) > 'Z') {
*(p_old + i) -= 32;/* 'A' - 'a' */
}
p_node->cmd = p_node->cmd * 26 + (*(p_old + i) - 'A');/* A~Z is 26 numbers */
}
p_node->doptr = p_new - data;
}log_debug("%d", p_node->cmd);
// 3. read a arg
switch (p_node->cmd) {
case LDB_SET:
if (LDB_READONLY_SWITCH == 1 || p_node->kvs != LDB_SET_CNT) {
goto E_OUT_PUT;
}
PARSE_LEN(p_node->klen);
PARSE_MEMBER(p_node->key, p_node->klen);
PARSE_LEN(p_node->vlen);
PARSE_MEMBER(p_node->val, p_node->vlen);
// x_out_time(&g_dbg_time);
ok = ldb_put(g_ldb, &data[p_node->key], p_node->klen,
&data[p_node->val], p_node->vlen);
// x_out_time(&g_dbg_time);
goto W_OUT_PUT;
case LDB_DEL:
if (LDB_READONLY_SWITCH == 1 || p_node->kvs < LDB_DEL_MIN) {
goto E_OUT_PUT;
}
loop = p_node->kvs - 1;
sum = 0;
for (j = 0; j < loop; ++j) {
PARSE_LEN(p_node->klen);
PARSE_MEMBER(p_node->key, p_node->klen);
ok = ldb_delete(g_ldb, &data[p_node->key], p_node->klen);
if (ok < 0) {
goto E_OUT_PUT;
}
sum += ok;
p_node->kvs -= 1;
p_node->key = 0;
p_node->klen = 0;
}
goto NUM_OUT_PUT;
case LDB_MSET:/* use one thread to write, otherwise (one thread should use one leveldb_writebatch_t) or (add a mutex lock) */
if (LDB_READONLY_SWITCH == 1) {
goto E_OUT_PUT;
}
loop = (p_node->kvs - 1) / 2;
if (loop < 1) {
goto E_OUT_PUT;
}
for (j = 0; j < loop; ++j) {
PARSE_LEN(p_node->klen);
PARSE_MEMBER(p_node->key, p_node->klen);
PARSE_LEN(p_node->vlen);
PARSE_MEMBER(p_node->val, p_node->vlen);
ldb_batch_put(g_ldb, &data[p_node->key], p_node->klen,
&data[p_node->val], p_node->vlen);
p_node->kvs -= 2;
p_node->klen = 0;
p_node->key = 0;
p_node->vlen = 0;
p_node->val = 0;
}
ok = ldb_batch_commit(g_ldb);
goto W_OUT_PUT;
case LDB_GET:
if (p_node->kvs != LDB_GET_CNT) {
goto E_OUT_PUT;
}
PARSE_LEN(p_node->klen);
PARSE_MEMBER(p_node->key, p_node->klen);
log_debug("key = %s", &data[ p_node->key ]);
result = ldb_get(g_ldb, &data[p_node->key], p_node->klen, &size);
log_debug("val = %s", result);
goto R_BULK_OUT_PUT;
case LDB_LRANGE:
if (p_node->kvs != LDB_LRANGE_CNT) {
goto E_OUT_PUT;
}
PARSE_LEN(p_node->klen);
PARSE_MEMBER(p_node->key, p_node->klen);
/* look as prefix key */
PARSE_LEN(p_node->vlen);
PARSE_MEMBER(p_node->val, p_node->vlen);
/* look as start time */
PARSE_LEN(p_node->vlen2);
PARSE_MEMBER(p_node->val2, p_node->vlen2);
/* look as end time */
log_debug("prefix key = %s", &data[ p_node->key ]);
log_debug("start = %s", &data[ p_node->val ]);
log_debug("end = %s", &data[ p_node->val2 ]);
result = ldb_lrangeget(g_ldb, &data[p_node->key], p_node->klen,
&data[p_node->val], p_node->vlen, &data[p_node->val2],
p_node->vlen2, &size);
goto R_MULTI_OUT_PUT;
case LDB_KEYS:
if (p_node->kvs != LDB_KEYS_CNT) {
goto E_OUT_PUT;
}
PARSE_LEN(p_node->klen);
PARSE_MEMBER(p_node->key, p_node->klen);
result = ldb_keys(g_ldb, &data[p_node->key], p_node->klen, &size);
log_debug("size = %d", size);
goto R_MULTI_OUT_PUT;
case LDB_INFO:
if (p_node->kvs != LDB_INFO_CNT) {
goto E_OUT_PUT;
}
result = ldb_info(g_ldb, &size);
log_debug("size = %d\n", size);
goto R_MULTI_OUT_PUT;
case LDB_PING:
if (p_node->kvs != LDB_PING_CNT) {
goto E_OUT_PUT;
}
add_send_node(p_node, OPT_PONG, strlen(OPT_PONG));
return X_DATA_IS_ALL;
case LDB_EXISTS:
if (p_node->kvs != LDB_EXISTS_CNT) {
goto E_OUT_PUT;
}
PARSE_LEN(p_node->klen);
PARSE_MEMBER(p_node->key, p_node->klen);
ok = ldb_exists(g_ldb, &data[p_node->key], p_node->klen);
if (ok == -1) {
goto E_OUT_PUT;
}
sum = ok;
goto NUM_OUT_PUT;
case LDB_QUIT:
log_debug("-----------------------------------------------------");
return X_CLIENT_QUIT;
default:
goto E_OUT_PUT;
}
E_OUT_PUT:
add_send_node(p_node, OPT_CMD_ERROR, strlen(OPT_CMD_ERROR));
return X_ERROR_CMD;
W_OUT_PUT:
if (ok == 0) {
log_debug("------------------------------------------");
add_send_node(p_node, OPT_OK, strlen(OPT_OK));
return X_DATA_IS_ALL;
} else {
add_send_node(p_node, OPT_LDB_ERROR, strlen(OPT_LDB_ERROR));
return X_ERROR_LDB;
}
NUM_OUT_PUT:
sprintf(ret_number, OPT_NUMBER, sum);
log_debug("%s", ret_number);
add_send_node(p_node, ret_number, strlen(ret_number));
return X_DATA_IS_ALL;
R_BULK_OUT_PUT:
if (result) {
char tmp[32] = { 0 };
sprintf(tmp, "$%d\r\n", size);
ret = add_send_node(p_node, tmp, strlen(tmp));
ret = add_send_node(p_node, result, size);
leveldb_free(result);
if (ret == X_MALLOC_FAILED) {
clean_send_node(p_node);
add_send_node(p_node, OPT_NO_MEMORY, strlen(OPT_NO_MEMORY));
return X_MALLOC_FAILED;
}
ret = add_send_node(p_node, "\r\n", 2);
return X_DATA_IS_ALL;
} else {
if (size == 0) {
add_send_node(p_node, OPT_NULL, strlen(OPT_NULL));
return X_DATA_IS_ALL;
} else {
add_send_node(p_node, OPT_LDB_ERROR, strlen(OPT_LDB_ERROR));
return X_ERROR_LDB;
}
}
R_MULTI_OUT_PUT:
if (result) {
set_send_node(p_node, result, size);
return X_DATA_IS_ALL;
} else {
if (size == 0) {
add_send_node(p_node, OPT_NULL, strlen(OPT_NULL));
return X_DATA_IS_ALL;
} else {
add_send_node(p_node, OPT_LDB_ERROR, strlen(OPT_LDB_ERROR));
return X_ERROR_LDB;
}
}
} else if (data[0] == '$') {
#if 0
// 1. read the request name
if (p_node->cmd == 0) {
p_new = p_old = &data[1];
CHECK_BUFFER(p_new, 0);
mlen = atoi( p_old );
p_old = p_new;
CHECK_BUFFER(p_new, mlen);
for (i = 0; i < mlen; i++) {
p_node->cmd = p_node->cmd * 26 + ( *(p_old + i) - 'A' );/* A~Z is 26 numbers */
}
p_node->doptr = p_new - data;
}
log_debug("%d\n", p_node->cmd);
// 2. read a arg
switch (p_node->cmd) {
case LDB_QUIT:
return CLIENT_QUIT;
default:
log_debug("-----------------------------------------------------\n");
return -1;
}
//TODO
#endif
add_send_node(p_node, OPT_CMD_ERROR, strlen(OPT_CMD_ERROR));
return X_ERROR_CMD;
} else {
add_send_node(p_node, OPT_CMD_ERROR, strlen(OPT_CMD_ERROR));
return X_ERROR_CMD;
}
return X_DATA_IS_ALL;
}
int main(int argc, char** argv) {
leveldb_t* db;
leveldb_comparator_t* cmp;
leveldb_cache_t* cache;
leveldb_env_t* env;
leveldb_options_t* options;
leveldb_readoptions_t* roptions;
leveldb_writeoptions_t* woptions;
char* err = NULL;
#if defined(LEVELDB_PLATFORM_WINDOWS)
snprintf(dbname, sizeof(dbname), "tmp\\leveldb_c_test");
#else
snprintf(dbname, sizeof(dbname), "/tmp/leveldb_c_test-%d",
((int) geteuid()));
#endif
StartPhase("create_objects");
cmp = leveldb_comparator_create(NULL, CmpDestroy, CmpCompare, CmpName);
env = leveldb_create_default_env();
cache = leveldb_cache_create_lru(100000);
options = leveldb_options_create();
leveldb_options_set_comparator(options, cmp);
leveldb_options_set_error_if_exists(options, 1);
leveldb_options_set_cache(options, cache);
leveldb_options_set_env(options, env);
leveldb_options_set_info_log(options, NULL);
leveldb_options_set_write_buffer_size(options, 100000);
leveldb_options_set_paranoid_checks(options, 1);
leveldb_options_set_max_open_files(options, 10);
leveldb_options_set_block_size(options, 1024);
leveldb_options_set_block_restart_interval(options, 8);
leveldb_options_set_compression(options, leveldb_no_compression);
roptions = leveldb_readoptions_create();
leveldb_readoptions_set_verify_checksums(roptions, 1);
leveldb_readoptions_set_fill_cache(roptions, 0);
woptions = leveldb_writeoptions_create();
leveldb_writeoptions_set_sync(woptions, 1);
StartPhase("destroy");
leveldb_destroy_db(options, dbname, &err);
leveldb_free(&err);
StartPhase("open_error");
db = leveldb_open(options, dbname, &err);
CheckCondition(err != NULL);
leveldb_free(&err);
StartPhase("open");
leveldb_options_set_create_if_missing(options, 1);
db = leveldb_open(options, dbname, &err);
CheckNoError(err);
CheckGet(db, roptions, "foo", NULL);
StartPhase("put");
leveldb_put(db, woptions, "foo", 3, "hello", 5, &err);
CheckNoError(err);
CheckGet(db, roptions, "foo", "hello");
StartPhase("writebatch");
{
int pos = 0;
leveldb_writebatch_t* wb = leveldb_writebatch_create();
leveldb_writebatch_put(wb, "foo", 3, "a", 1);
leveldb_writebatch_clear(wb);
leveldb_writebatch_put(wb, "bar", 3, "b", 1);
leveldb_writebatch_put(wb, "box", 3, "c", 1);
leveldb_writebatch_delete(wb, "bar", 3);
leveldb_write(db, woptions, wb, &err);
CheckNoError(err);
CheckGet(db, roptions, "foo", "hello");
CheckGet(db, roptions, "bar", NULL);
CheckGet(db, roptions, "box", "c");
leveldb_writebatch_iterate(wb, &pos, CheckPut, CheckDel);
CheckCondition(pos == 3);
leveldb_writebatch_destroy(wb);
}
StartPhase("iter");
{
leveldb_iterator_t* iter = leveldb_create_iterator(db, roptions);
CheckCondition(!leveldb_iter_valid(iter));
leveldb_iter_seek_to_first(iter);
CheckCondition(leveldb_iter_valid(iter));
CheckIter(iter, "box", "c");
leveldb_iter_next(iter);
CheckIter(iter, "foo", "hello");
leveldb_iter_prev(iter);
CheckIter(iter, "box", "c");
leveldb_iter_prev(iter);
CheckCondition(!leveldb_iter_valid(iter));
leveldb_iter_seek_to_last(iter);
CheckIter(iter, "foo", "hello");
leveldb_iter_seek(iter, "b", 1);
CheckIter(iter, "box", "c");
leveldb_iter_get_error(iter, &err);
CheckNoError(err);
leveldb_iter_destroy(iter);
}
StartPhase("approximate_sizes");
{
int i;
int n = 20000;
char keybuf[100];
char valbuf[100];
uint64_t sizes[2];
const char* start[2] = { "a", "k00000000000000010000" };
size_t start_len[2] = { 1, 21 };
const char* limit[2] = { "k00000000000000010000", "z" };
size_t limit_len[2] = { 21, 1 };
leveldb_writeoptions_set_sync(woptions, 0);
for (i = 0; i < n; i++) {
snprintf(keybuf, sizeof(keybuf), "k%020d", i);
snprintf(valbuf, sizeof(valbuf), "v%020d", i);
leveldb_put(db, woptions, keybuf, strlen(keybuf), valbuf, strlen(valbuf),
&err);
CheckNoError(err);
}
leveldb_approximate_sizes(db, 2, start, start_len, limit, limit_len, sizes);
CheckCondition(sizes[0] > 0);
CheckCondition(sizes[1] > 0);
}
StartPhase("property");
{
char* prop = leveldb_property_value(db, "nosuchprop");
CheckCondition(prop == NULL);
prop = leveldb_property_value(db, "leveldb.stats");
CheckCondition(prop != NULL);
leveldb_free(&prop);
}
StartPhase("snapshot");
{
const leveldb_snapshot_t* snap;
snap = leveldb_create_snapshot(db);
leveldb_delete(db, woptions, "foo", 3, &err);
CheckNoError(err);
leveldb_readoptions_set_snapshot(roptions, snap);
CheckGet(db, roptions, "foo", "hello");
leveldb_readoptions_set_snapshot(roptions, NULL);
CheckGet(db, roptions, "foo", NULL);
leveldb_release_snapshot(db, snap);
}
StartPhase("repair");
{
leveldb_close(db);
leveldb_options_set_create_if_missing(options, 0);
leveldb_options_set_error_if_exists(options, 0);
leveldb_repair_db(options, dbname, &err);
CheckNoError(err);
db = leveldb_open(options, dbname, &err);
CheckNoError(err);
CheckGet(db, roptions, "foo", NULL);
CheckGet(db, roptions, "bar", NULL);
CheckGet(db, roptions, "box", "c");
}
StartPhase("cleanup");
leveldb_close(db);
leveldb_options_destroy(options);
leveldb_readoptions_destroy(roptions);
leveldb_writeoptions_destroy(woptions);
leveldb_cache_destroy(cache);
leveldb_comparator_destroy(cmp);
leveldb_env_destroy(env);
fprintf(stderr, "PASS\n");
return 0;
}
char *ldb_values(struct _leveldb_stuff *ldbs, const char *ptn, size_t ptn_len, int *size)
{
char *err = NULL;
char *result = NULL;
char *p_dst = NULL;
char *p_key = NULL;
char *p_value = NULL;
size_t klen = 0;
size_t vlen = 0;
int index = 0;
int i, j, z = 0;
struct kv_list list = { 0 };
struct some_kv *p_new, *p_old, *p_tmp = NULL;
leveldb_iterator_t* iter = leveldb_create_iterator(ldbs->db, ldbs->roptions);
leveldb_iterator_t* iter_save = iter;
if (!!leveldb_iter_valid(iter)) {/* first use it is invalid */
fprintf(stderr, "%s:%d: this iter is valid already!\n", __FILE__, __LINE__);
*size = -1;
return NULL ;
}
leveldb_iter_seek_to_first(iter);
p_old = p_new = &list.head;
while (leveldb_iter_valid(iter)) {
/* parse kv */
p_key = (char *) leveldb_iter_key(iter, &klen);
log_debug("%p iter key = %s, klen = %ld\n", p_key, p_key, klen);
p_value = (char *) leveldb_iter_value(iter, &vlen);
leveldb_iter_get_error(iter, &err);
if (err) {
goto FAIL_ITER_PARSE;
}
if (!string_match_len(ptn, ptn_len, p_value, vlen, 0)) {
leveldb_iter_next(iter);
continue;
}
/* save parse */
list.count++;/* kv counts */
list.klens += klen;
list.knubs += get_number_len(klen);
index = list.count % SOME_KV_NODES_COUNT;
if ((list.count / SOME_KV_NODES_COUNT >= 1) && (index == 1)) {
/* new store */
p_new = malloc(sizeof(struct some_kv));
if (p_new == NULL ) {
/* free store */
index = GET_NEED_COUNT( list.count, SOME_KV_NODES_COUNT );
p_tmp = &list.head;
for (i = 0, z = list.count - 1; (i < index) && (p_tmp != NULL ); i++ ) {
for (j = 0; (j < SOME_KV_NODES_COUNT) && (z > 0); j++, z--) {
free(p_tmp->nodes[j].key);
}
p_old = p_tmp;
p_tmp = p_tmp->next;
if (p_old != &list.head) {
free(p_old);
}
}
goto FAIL_MEMORY;
}
memset(p_new, 0, sizeof(struct some_kv));
p_old->next = p_new;
p_new->prev = p_old;
p_old = p_new;
}
/*
* fix bug: index is error if list.count = n * SOME_KV_NODES_COUNT(1024),
* SOME_KV_NODES_COUNT = 1024, n > 0.
*/
if (index == 0) {
index = SOME_KV_NODES_COUNT;
}
/* save key */
p_new->nodes[index - 1].klen = klen;
p_new->nodes[index - 1].key = malloc(GET_NEED_COUNT( klen, G_PAGE_SIZE ) * G_PAGE_SIZE);
memcpy(p_new->nodes[index - 1].key, p_key, klen);
/* find next */
leveldb_iter_next(iter);
}
/* create result */
if (list.count > 0) {
/* has members */
/* *2\r\n$5\r\nmykey\r\n$5\r\nmyval\r\n */
*size = strlen("*\r\n") + get_number_len(list.count) + strlen("$\r\n\r\n") * (list.count)
+ list.knubs + list.klens;
index = GET_NEED_COUNT( *size, G_PAGE_SIZE ) * G_PAGE_SIZE;
result = (char *) malloc(index);
if (result == NULL ) goto FAIL_MEMORY;
memset(result, 0, index);
log_debug("----->>>ALL SIZE IS %d, BUFF %p : LEN IS %d\n", *size, result, index);
/* split piece */
index = GET_NEED_COUNT( list.count, SOME_KV_NODES_COUNT );
p_tmp = &list.head;
sprintf(result, "*%d\r\n", list.count);
p_dst = result + strlen(result);
for (i = 0, z = list.count; (i < index) && (p_tmp != NULL ); i++ ) {
for (j = 0; (j < SOME_KV_NODES_COUNT) && (z > 0); j++, z--) {
p_dst = set_bulk(p_dst, p_tmp->nodes[j].key, p_tmp->nodes[j].klen);
free(p_tmp->nodes[j].key);
}
p_old = p_tmp;
p_tmp = p_tmp->next;
if (p_old != &list.head) {
free(p_old);
}
}
} else {
/* no members */
*size = 0;
}
leveldb_iter_destroy(iter_save);
return result;
FAIL_ITER_PARSE: fprintf(stderr, "%s:%d: %s\n", __FILE__, __LINE__, (err));
leveldb_free(err);
err = NULL;
leveldb_iter_destroy(iter);
*size = -1;
return NULL ;
FAIL_MEMORY: fprintf(stderr, "%s:%d: FAILED MALLOC !\n", __FILE__, __LINE__);
leveldb_iter_destroy(iter);
*size = -1;
return NULL ;
}
