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|
/*
Copyright (c) 2015 Red Hat, Inc. <http://www.redhat.com>
This file is part of GlusterFS.
This file is licensed to you under your choice of the GNU Lesser
General Public License, version 3 or any later version (LGPLv3 or
later), or the GNU General Public License, version 2 (GPLv2), in all
cases as published by the Free Software Foundation.
*/
#include "gfdb_sqlite3.h"
#include "gfdb_sqlite3_helper.h"
#include "libglusterfs-messages.h"
#include "syscall.h"
/******************************************************************************
*
* Util functions
*
* ***************************************************************************/
gf_sql_connection_t *
gf_sql_connection_init ()
{
gf_sql_connection_t *gf_sql_conn = NULL;
gf_sql_conn = GF_CALLOC (1, sizeof(gf_sql_connection_t),
gf_mt_sql_connection_t);
if (gf_sql_conn == NULL) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, ENOMEM,
LG_MSG_NO_MEMORY, "Error allocating memory to "
"gf_sql_connection_t ");
}
return gf_sql_conn;
}
void
gf_sql_connection_fini (gf_sql_connection_t **sql_connection)
{
if (!sql_connection)
return;
GF_FREE (*sql_connection);
*sql_connection = NULL;
}
const char *
gf_sql_jm2str (gf_sql_journal_mode_t jm)
{
switch (jm) {
case gf_sql_jm_delete:
return GF_SQL_JM_DELETE;
case gf_sql_jm_truncate:
return GF_SQL_JM_TRUNCATE;
case gf_sql_jm_persist:
return GF_SQL_JM_PERSIST;
case gf_sql_jm_memory:
return GF_SQL_JM_MEMORY;
case gf_sql_jm_wal:
return GF_SQL_JM_WAL;
case gf_sql_jm_off:
return GF_SQL_JM_OFF;
case gf_sql_jm_invalid:
break;
}
return NULL;
}
gf_sql_journal_mode_t
gf_sql_str2jm (const char *jm_str)
{
if (!jm_str) {
return gf_sql_jm_invalid;
} else if (strcmp (jm_str, GF_SQL_JM_DELETE) == 0) {
return gf_sql_jm_delete;
} else if (strcmp (jm_str, GF_SQL_JM_TRUNCATE) == 0) {
return gf_sql_jm_truncate;
} else if (strcmp (jm_str, GF_SQL_JM_PERSIST) == 0) {
return gf_sql_jm_persist;
} else if (strcmp (jm_str, GF_SQL_JM_MEMORY) == 0) {
return gf_sql_jm_memory;
} else if (strcmp (jm_str, GF_SQL_JM_WAL) == 0) {
return gf_sql_jm_wal;
} else if (strcmp (jm_str, GF_SQL_JM_OFF) == 0) {
return gf_sql_jm_off;
}
return gf_sql_jm_invalid;
}
const char *
gf_sql_av_t2str (gf_sql_auto_vacuum_t sql_av)
{
switch (sql_av) {
case gf_sql_av_none:
return GF_SQL_AV_NONE;
case gf_sql_av_full:
return GF_SQL_AV_FULL;
case gf_sql_av_incr:
return GF_SQL_AV_INCR;
case gf_sql_av_invalid:
break;
}
return NULL;
}
gf_sql_auto_vacuum_t
gf_sql_str2av_t (const char *av_str)
{
if (!av_str) {
return gf_sql_av_invalid;
} else if (strcmp (av_str, GF_SQL_AV_NONE) == 0) {
return gf_sql_av_none;
} else if (strcmp (av_str, GF_SQL_AV_FULL) == 0) {
return gf_sql_av_full;
} else if (strcmp (av_str, GF_SQL_AV_INCR) == 0) {
return gf_sql_av_incr;
}
return gf_sql_av_invalid;
}
const char *
gf_sync_t2str (gf_sql_sync_t sql_sync)
{
switch (sql_sync) {
case gf_sql_sync_off:
return GF_SQL_SYNC_OFF;
case gf_sql_sync_normal:
return GF_SQL_SYNC_NORMAL;
case gf_sql_sync_full:
return GF_SQL_SYNC_FULL;
case gf_sql_sync_invalid:
break;
}
return NULL;
}
gf_sql_sync_t
gf_sql_str2sync_t (const char *sync_str)
{
if (!sync_str) {
return gf_sql_sync_invalid;
} else if (strcmp (sync_str, GF_SQL_SYNC_OFF) == 0) {
return gf_sql_sync_off;
} else if (strcmp (sync_str, GF_SQL_SYNC_NORMAL) == 0) {
return gf_sql_sync_normal;
} else if (strcmp (sync_str, GF_SQL_SYNC_FULL) == 0) {
return gf_sql_sync_full;
}
return gf_sql_sync_invalid;
}
/*TODO replace GF_CALLOC by mem_pool or iobuff if required for performance */
static char *
sql_stmt_init ()
{
char *sql_stmt = NULL;
sql_stmt = GF_CALLOC (GF_STMT_SIZE_MAX, sizeof(char),
gf_common_mt_char);
if (!sql_stmt) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, ENOMEM,
LG_MSG_NO_MEMORY, "Error allocating memory to SQL "
"Statement ");
goto out;
}
out:
return sql_stmt;
}
/*TODO replace GF_FREE by mem_pool or iobuff if required for performance */
static void
sql_stmt_fini (char **sql_stmt)
{
GF_FREE (*sql_stmt);
}
/******************************************************************************
* DB Essential functions used by
* > gf_open_sqlite3_conn ()
* > gf_close_sqlite3_conn ()
* ***************************************************************************/
static sqlite3 *
gf_open_sqlite3_conn(char *sqlite3_db_path, int flags)
{
sqlite3 *sqlite3_db_conn = NULL;
int ret = -1;
GF_ASSERT (sqlite3_db_path);
/*Creates DB if not created*/
ret = sqlite3_open_v2 (sqlite3_db_path, &sqlite3_db_conn, flags, NULL);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_DB_ERROR,
"FATAL: Could open %s : %s",
sqlite3_db_path, sqlite3_errmsg (sqlite3_db_conn));
}
return sqlite3_db_conn;
}
static int
gf_close_sqlite3_conn(sqlite3 *sqlite3_db_conn)
{
int ret = 0;
GF_ASSERT (sqlite3_db_conn);
if (sqlite3_db_conn) {
ret = sqlite3_close (sqlite3_db_conn);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_CONNECTION_ERROR, "FATAL: sqlite3 close"
" connection failed %s",
sqlite3_errmsg (sqlite3_db_conn));
ret = -1;
goto out;
}
}
ret = 0;
out:
return ret;
}
/******************************************************************************
*
* Database init / fini / create table
*
* ***************************************************************************/
/*Function to fill db operations*/
void
gf_sqlite3_fill_db_operations(gfdb_db_operations_t *gfdb_db_ops)
{
GF_ASSERT (gfdb_db_ops);
gfdb_db_ops->init_db_op = gf_sqlite3_init;
gfdb_db_ops->fini_db_op = gf_sqlite3_fini;
gfdb_db_ops->insert_record_op = gf_sqlite3_insert;
gfdb_db_ops->delete_record_op = gf_sqlite3_delete;
gfdb_db_ops->compact_db_op = gf_sqlite3_vacuum;
gfdb_db_ops->find_all_op = gf_sqlite3_find_all;
gfdb_db_ops->find_unchanged_for_time_op =
gf_sqlite3_find_unchanged_for_time;
gfdb_db_ops->find_recently_changed_files_op =
gf_sqlite3_find_recently_changed_files;
gfdb_db_ops->find_unchanged_for_time_freq_op =
gf_sqlite3_find_unchanged_for_time_freq;
gfdb_db_ops->find_recently_changed_files_freq_op =
gf_sqlite3_find_recently_changed_files_freq;
gfdb_db_ops->clear_files_heat_op = gf_sqlite3_clear_files_heat;
gfdb_db_ops->get_db_version = gf_sqlite3_version;
gfdb_db_ops->get_db_params = gf_sqlite3_pragma;
gfdb_db_ops->set_db_params = gf_sqlite3_set_pragma;
}
static int
create_filetable (sqlite3 *sqlite3_db_conn)
{
int ret = -1;
char *sql_stmt = NULL;
char *sql_strerror = NULL;
GF_ASSERT(sqlite3_db_conn);
sql_stmt = sql_stmt_init ();
if (!sql_stmt) {
ret = ENOMEM;
goto out;
}
GF_CREATE_STMT(sql_stmt);
ret = sqlite3_exec (sqlite3_db_conn, sql_stmt, NULL, NULL,
&sql_strerror);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_EXEC_FAILED,
"Failed executing: %s : %s", sql_stmt, sql_strerror);
sqlite3_free (sql_strerror);
ret = -1;
goto out;
}
ret = 0;
out:
sql_stmt_fini (&sql_stmt);
return ret;
}
static int
apply_sql_params_db(gf_sql_connection_t *sql_conn, dict_t *param_dict)
{
int ret = -1;
char *temp_str = NULL;
char sqlite3_config_str[GF_NAME_MAX] = "";
GF_ASSERT(sql_conn);
GF_ASSERT(param_dict);
/*Extract sql page_size from param_dict,
* if not specified default value will be GF_SQL_DEFAULT_PAGE_SIZE*/
temp_str = NULL;
GET_DB_PARAM_FROM_DICT_DEFAULT(GFDB_STR_SQLITE3, param_dict,
GFDB_SQL_PARAM_PAGE_SIZE, temp_str,
GF_SQL_DEFAULT_PAGE_SIZE);
sql_conn->page_size = atoi (temp_str);
/*Apply page_size on the sqlite db*/
GF_SQLITE3_SET_PRAGMA(sqlite3_config_str, "page_size", "%zd",
sql_conn->page_size, ret, out);
/*Extract sql cache size from param_dict,
* if not specified default value will be
* GF_SQL_DEFAULT_CACHE_SIZE pages*/
temp_str = NULL;
GET_DB_PARAM_FROM_DICT_DEFAULT(GFDB_STR_SQLITE3, param_dict,
GFDB_SQL_PARAM_CACHE_SIZE, temp_str,
GF_SQL_DEFAULT_CACHE_SIZE);
sql_conn->cache_size = atoi (temp_str);
/*Apply cache size on the sqlite db*/
GF_SQLITE3_SET_PRAGMA(sqlite3_config_str, "cache_size", "%zd",
sql_conn->cache_size, ret, out);
/*Extract sql journal mode from param_dict,
* if not specified default value will be
* GF_SQL_DEFAULT_JOURNAL_MODE i.e "wal"*/
temp_str = NULL;
GET_DB_PARAM_FROM_DICT_DEFAULT(GFDB_STR_SQLITE3, param_dict,
GFDB_SQL_PARAM_JOURNAL_MODE, temp_str,
GF_SQL_DEFAULT_JOURNAL_MODE);
sql_conn->journal_mode = gf_sql_str2jm (temp_str);
/*Apply journal mode to the sqlite db*/
GF_SQLITE3_SET_PRAGMA(sqlite3_config_str, "journal_mode", "%s",
temp_str, ret, out);
/*Only when the journal mode is WAL, wal_autocheckpoint makes sense*/
if (sql_conn->journal_mode == gf_sql_jm_wal) {
/*Extract sql wal auto check point from param_dict
* if not specified default value will be
* GF_SQL_DEFAULT_WAL_AUTOCHECKPOINT pages*/
temp_str = NULL;
GET_DB_PARAM_FROM_DICT_DEFAULT(GFDB_STR_SQLITE3, param_dict,
GFDB_SQL_PARAM_WAL_AUTOCHECK, temp_str,
GF_SQL_DEFAULT_WAL_AUTOCHECKPOINT);
sql_conn->wal_autocheckpoint = atoi(temp_str);
/*Apply wal auto check point to the sqlite db*/
GF_SQLITE3_SET_PRAGMA(sqlite3_config_str, "wal_autocheckpoint",
"%zd", sql_conn->wal_autocheckpoint, ret, out);
}
/*Extract sql synchronous from param_dict
* if not specified default value will be GF_SQL_DEFAULT_SYNC*/
temp_str = NULL;
GET_DB_PARAM_FROM_DICT_DEFAULT(GFDB_STR_SQLITE3, param_dict,
GFDB_SQL_PARAM_SYNC, temp_str, GF_SQL_DEFAULT_SYNC);
sql_conn->synchronous = gf_sql_str2sync_t (temp_str);
/*Apply synchronous to the sqlite db*/
GF_SQLITE3_SET_PRAGMA(sqlite3_config_str, "synchronous", "%d",
sql_conn->synchronous, ret, out);
/*Extract sql auto_vacuum from param_dict
* if not specified default value will be GF_SQL_DEFAULT_AUTO_VACUUM*/
temp_str = NULL;
GET_DB_PARAM_FROM_DICT_DEFAULT(GFDB_STR_SQLITE3, param_dict,
GFDB_SQL_PARAM_AUTO_VACUUM, temp_str,
GF_SQL_DEFAULT_AUTO_VACUUM);
sql_conn->auto_vacuum = gf_sql_str2av_t (temp_str);
/*Apply auto_vacuum to the sqlite db*/
GF_SQLITE3_SET_PRAGMA(sqlite3_config_str, "auto_vacuum", "%d",
sql_conn->auto_vacuum, ret, out);
ret = 0;
out:
return ret;
}
int
gf_sqlite3_init (dict_t *args, void **db_conn) {
int ret = -1;
gf_sql_connection_t *sql_conn = NULL;
struct stat stbuf = {0,};
gf_boolean_t is_dbfile_exist = _gf_false;
char *temp_str = NULL;
GF_ASSERT (args);
GF_ASSERT (db_conn);
if (*db_conn != NULL) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_CONNECTION_ERROR, "DB Connection is not "
"empty!");
return 0;
}
if (!sqlite3_threadsafe ()) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_NOT_MULTITHREAD_MODE,
"sqlite3 is not in multithreaded mode");
goto out;
}
sql_conn = gf_sql_connection_init ();
if (!sql_conn) {
goto out;
}
/*Extract sql db path from args*/
temp_str = NULL;
GET_DB_PARAM_FROM_DICT(GFDB_STR_SQLITE3, args,
GFDB_SQL_PARAM_DBPATH, temp_str, out);
strncpy(sql_conn->sqlite3_db_path, temp_str, PATH_MAX-1);
sql_conn->sqlite3_db_path[PATH_MAX-1] = 0;
is_dbfile_exist = (sys_stat (sql_conn->sqlite3_db_path, &stbuf) == 0) ?
_gf_true : _gf_false;
/*Creates DB if not created*/
sql_conn->sqlite3_db_conn = gf_open_sqlite3_conn (
sql_conn->sqlite3_db_path,
SQLITE_OPEN_READWRITE |
SQLITE_OPEN_CREATE);
if (!sql_conn->sqlite3_db_conn) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_CONNECTION_ERROR,
"Failed creating db connection");
goto out;
}
/* If the file exist we skip the config part
* and creation of the schema */
if (is_dbfile_exist)
goto db_exists;
/*Apply sqlite3 params to database*/
ret = apply_sql_params_db (sql_conn, args);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_SET_PARAM_FAILED, "Failed applying sql params"
" to %s", sql_conn->sqlite3_db_path);
goto out;
}
/*Create the schema if NOT present*/
ret = create_filetable (sql_conn->sqlite3_db_conn);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_CREATE_FAILED, "Failed Creating %s Table",
GF_FILE_TABLE);
goto out;
}
db_exists:
ret = 0;
out:
if (ret) {
gf_sqlite3_fini ((void **)&sql_conn);
}
*db_conn = sql_conn;
return ret;
}
int
gf_sqlite3_fini (void **db_conn)
{
int ret = -1;
gf_sql_connection_t *sql_conn = NULL;
GF_ASSERT (db_conn);
sql_conn = *db_conn;
if (sql_conn) {
if (sql_conn->sqlite3_db_conn) {
ret = gf_close_sqlite3_conn (sql_conn->sqlite3_db_conn);
if (ret) {
/*Logging of error done in
* gf_close_sqlite3_conn()*/
goto out;
}
sql_conn->sqlite3_db_conn = NULL;
}
gf_sql_connection_fini (&sql_conn);
}
*db_conn = sql_conn;
ret = 0;
out:
return ret;
}
/******************************************************************************
*
* INSERT/UPDATE/DELETE Operations
*
*
* ***************************************************************************/
int gf_sqlite3_insert(void *db_conn, gfdb_db_record_t *gfdb_db_record)
{
int ret = -1;
gf_sql_connection_t *sql_conn = db_conn;
CHECK_SQL_CONN(sql_conn, out);
GF_VALIDATE_OR_GOTO(GFDB_STR_SQLITE3, gfdb_db_record, out);
switch (gfdb_db_record->gfdb_fop_path) {
case GFDB_FOP_WIND:
ret = gf_sql_insert_wind (sql_conn, gfdb_db_record);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, _gfdb_log_level (GF_LOG_ERROR,
gfdb_db_record->ignore_errors), 0,
LG_MSG_INSERT_FAILED, "Failed wind insert");
goto out;
}
break;
case GFDB_FOP_UNWIND:
ret = gf_sql_insert_unwind (sql_conn, gfdb_db_record);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, _gfdb_log_level (GF_LOG_ERROR,
gfdb_db_record->ignore_errors), 0,
LG_MSG_INSERT_FAILED, "Failed unwind insert");
goto out;
}
break;
case GFDB_FOP_WDEL:
ret = gf_sql_update_delete_wind (sql_conn, gfdb_db_record);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, _gfdb_log_level (GF_LOG_ERROR,
gfdb_db_record->ignore_errors), 0,
LG_MSG_UPDATE_FAILED, "Failed updating delete "
"during wind");
goto out;
}
break;
case GFDB_FOP_UNDEL:
case GFDB_FOP_UNDEL_ALL:
ret = gf_sql_delete_unwind (sql_conn, gfdb_db_record);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, _gfdb_log_level (GF_LOG_ERROR,
gfdb_db_record->ignore_errors), 0,
LG_MSG_DELETE_FAILED, "Failed deleting");
goto out;
}
break;
case GFDB_FOP_INVALID:
default:
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_INVALID_FOP,
"Cannot record to DB: Invalid FOP");
goto out;
}
ret = 0;
out:
return ret;
}
int
gf_sqlite3_delete(void *db_conn, gfdb_db_record_t *gfdb_db_record)
{
int ret = -1;
gf_sql_connection_t *sql_conn = db_conn;
CHECK_SQL_CONN(sql_conn, out);
GF_VALIDATE_OR_GOTO(GFDB_STR_SQLITE3, gfdb_db_record, out);
ret = 0;
out:
return ret;
}
/******************************************************************************
*
* SELECT QUERY FUNCTIONS
*
*
* ***************************************************************************/
static int
gf_get_basic_query_stmt (char **out_stmt)
{
int ret = -1;
ret = gf_asprintf (out_stmt, "select GF_FILE_TB.GF_ID,"
"GF_FLINK_TB.GF_PID ,"
"GF_FLINK_TB.FNAME "
"from GF_FLINK_TB, GF_FILE_TB "
"where "
"GF_FILE_TB.GF_ID = GF_FLINK_TB.GF_ID ");
if (ret <= 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed to create base query statement");
*out_stmt = NULL;
}
return ret;
}
/*
* Find All files recorded in the DB
* Input:
* query_callback : query callback function to handle
* result records from the query
* */
int
gf_sqlite3_find_all (void *db_conn, gf_query_callback_t query_callback,
void *query_cbk_args,
int query_limit)
{
int ret = -1;
char *query_str = NULL;
gf_sql_connection_t *sql_conn = db_conn;
sqlite3_stmt *prep_stmt = NULL;
char *limit_query = NULL;
char *query = NULL;
CHECK_SQL_CONN (sql_conn, out);
GF_VALIDATE_OR_GOTO(GFDB_STR_SQLITE3, query_callback, out);
ret = gf_get_basic_query_stmt (&query_str);
if (ret <= 0) {
goto out;
}
query = query_str;
if (query_limit > 0) {
ret = gf_asprintf (&limit_query, "%s LIMIT %d",
query, query_limit);
if (ret < 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_QUERY_FAILED,
"Failed creating limit query statement");
limit_query = NULL;
goto out;
}
query = limit_query;
}
ret = sqlite3_prepare (sql_conn->sqlite3_db_conn, query, -1,
&prep_stmt, 0);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED,
"Failed to prepare statement %s: %s", query,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
ret = gf_sql_query_function (prep_stmt, query_callback, query_cbk_args);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed Query %s", query);
goto out;
}
ret = 0;
out:
sqlite3_finalize (prep_stmt);
GF_FREE (query_str);
if (limit_query)
GF_FREE (limit_query);
return ret;
}
/*
* Find recently changed files from the DB
* Input:
* query_callback : query callback function to handle
* result records from the query
* from_time : Time to define what is recent
* */
int
gf_sqlite3_find_recently_changed_files(void *db_conn,
gf_query_callback_t query_callback,
void *query_cbk_args,
gfdb_time_t *from_time)
{
int ret = -1;
char *query_str = NULL;
gf_sql_connection_t *sql_conn = db_conn;
sqlite3_stmt *prep_stmt = NULL;
uint64_t from_time_usec = 0;
char *base_query_str = NULL;
CHECK_SQL_CONN (sql_conn, out);
GF_VALIDATE_OR_GOTO(GFDB_STR_SQLITE3, query_callback, out);
ret = gf_get_basic_query_stmt (&base_query_str);
if (ret <= 0) {
goto out;
}
ret = gf_asprintf (&query_str, "%s AND"
/*First condition: For writes*/
"( ((" GF_COL_TB_WSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_WMSEC ") >= ? )"
" OR "
/*Second condition: For reads*/
"((" GF_COL_TB_RWSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_RWMSEC ") >= ?) )"
/* Order by write wind time in a descending order
* i.e most hot files w.r.t to write */
" ORDER BY GF_FILE_TB.W_SEC DESC",
base_query_str);
if (ret < 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed creating query statement");
query_str = NULL;
goto out;
}
from_time_usec = gfdb_time_2_usec (from_time);
ret = sqlite3_prepare (sql_conn->sqlite3_db_conn, query_str, -1,
&prep_stmt, 0);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED, "Failed to prepare statement %s :"
" %s", query_str,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind write wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 1, from_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind from_time_usec "
"%"PRIu64" : %s", from_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind read wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 2, from_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind from_time_usec "
"%"PRIu64" : %s ", from_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Execute the query*/
ret = gf_sql_query_function (prep_stmt, query_callback, query_cbk_args);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed Query %s", query_str);
goto out;
}
ret = 0;
out:
sqlite3_finalize (prep_stmt);
GF_FREE (base_query_str);
GF_FREE (query_str);
return ret;
}
/*
* Find unchanged files from a specified time from the DB
* Input:
* query_callback : query callback function to handle
* result records from the query
* for_time : Time from where the file/s are not changed
* */
int
gf_sqlite3_find_unchanged_for_time (void *db_conn,
gf_query_callback_t query_callback,
void *query_cbk_args,
gfdb_time_t *for_time)
{
int ret = -1;
char *query_str = NULL;
gf_sql_connection_t *sql_conn = db_conn;
sqlite3_stmt *prep_stmt = NULL;
uint64_t for_time_usec = 0;
char *base_query_str = NULL;
CHECK_SQL_CONN (sql_conn, out);
GF_VALIDATE_OR_GOTO(GFDB_STR_SQLITE3, query_callback, out);
ret = gf_get_basic_query_stmt (&base_query_str);
if (ret <= 0) {
goto out;
}
ret = gf_asprintf (&query_str, "%s AND "
/*First condition: For writes*/
"( ((" GF_COL_TB_WSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_WMSEC ") <= ? )"
" AND "
/*Second condition: For reads*/
"((" GF_COL_TB_RWSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_RWMSEC ") <= ?) )"
/* Order by write wind time in a ascending order
* i.e most cold files w.r.t to write */
" ORDER BY GF_FILE_TB.W_SEC ASC",
base_query_str);
if (ret < 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed to create query statement");
query_str = NULL;
goto out;
}
for_time_usec = gfdb_time_2_usec (for_time);
ret = sqlite3_prepare (sql_conn->sqlite3_db_conn, query_str, -1,
&prep_stmt, 0);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED, "Failed to prepare statement %s :"
" %s", query_str,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind write wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 1, for_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind for_time_usec "
"%"PRIu64" : %s", for_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind read wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 2, for_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind for_time_usec "
"%"PRIu64" : %s", for_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Execute the query*/
ret = gf_sql_query_function (prep_stmt, query_callback, query_cbk_args);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed Query %s", query_str);
goto out;
}
ret = 0;
out:
sqlite3_finalize (prep_stmt);
GF_FREE (base_query_str);
GF_FREE (query_str);
return ret;
}
/*
* Find recently changed files with a specific frequency from the DB
* Input:
* db_conn : db connection object
* query_callback : query callback function to handle
* result records from the query
* from_time : Time to define what is recent
* freq_write_cnt : Frequency thresold for write
* freq_read_cnt : Frequency thresold for read
* clear_counters : Clear counters (r/w) for all inodes in DB
* */
int
gf_sqlite3_find_recently_changed_files_freq (void *db_conn,
gf_query_callback_t query_callback,
void *query_cbk_args,
gfdb_time_t *from_time,
int freq_write_cnt,
int freq_read_cnt,
gf_boolean_t clear_counters)
{
int ret = -1;
char *query_str = NULL;
gf_sql_connection_t *sql_conn = db_conn;
sqlite3_stmt *prep_stmt = NULL;
uint64_t from_time_usec = 0;
char *base_query_str = NULL;
CHECK_SQL_CONN (sql_conn, out);
GF_VALIDATE_OR_GOTO(GFDB_STR_SQLITE3, query_callback, out);
ret = gf_get_basic_query_stmt (&base_query_str);
if (ret <= 0) {
goto out;
}
ret = gf_asprintf (&query_str, "%s AND "
/*First condition: For Writes*/
"( ( ((" GF_COL_TB_WSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_WMSEC ") >= ? )"
" AND "" (" GF_COL_TB_WFC " >= ? ) )"
" OR "
/*Second condition: For Reads */
"( ((" GF_COL_TB_RWSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_RWMSEC ") >= ?)"
" AND "" (" GF_COL_TB_RFC " >= ? ) ) )"
/* Order by write wind time and write freq in a descending order
* i.e most hot files w.r.t to write */
" ORDER BY GF_FILE_TB.W_SEC DESC, "
"GF_FILE_TB.WRITE_FREQ_CNTR DESC",
base_query_str);
if (ret < 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed to create query statement");
query_str = NULL;
goto out;
}
from_time_usec = gfdb_time_2_usec (from_time);
ret = sqlite3_prepare (sql_conn->sqlite3_db_conn, query_str, -1,
&prep_stmt, 0);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED, "Failed to prepare statement %s :"
" %s", query_str,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind write wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 1, from_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind from_time_usec "
"%"PRIu64" : %s", from_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind write frequency thresold*/
ret = sqlite3_bind_int (prep_stmt, 2, freq_write_cnt);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind freq_write_cnt "
"%d : %s", freq_write_cnt,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind read wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 3, from_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind from_time_usec "
"%"PRIu64" : %s", from_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind read frequency thresold*/
ret = sqlite3_bind_int (prep_stmt, 4, freq_read_cnt);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind freq_read_cnt "
"%d : %s", freq_read_cnt,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Execute the query*/
ret = gf_sql_query_function (prep_stmt, query_callback, query_cbk_args);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed Query %s", query_str);
goto out;
}
/*Clear counters*/
if (clear_counters) {
ret = gf_sql_clear_counters (sql_conn);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_CLEAR_COUNTER_FAILED, "Failed to clear"
" counters!");
goto out;
}
}
ret = 0;
out:
sqlite3_finalize (prep_stmt);
GF_FREE (base_query_str);
GF_FREE (query_str);
return ret;
}
/*
* Find unchanged files from a specified time, w.r.t to frequency, from the DB
* Input:
* query_callback : query callback function to handle
* result records from the query
* for_time : Time from where the file/s are not changed
* freq_write_cnt : Frequency thresold for write
* freq_read_cnt : Frequency thresold for read
* clear_counters : Clear counters (r/w) for all inodes in DB
* */
int
gf_sqlite3_find_unchanged_for_time_freq (void *db_conn,
gf_query_callback_t query_callback,
void *query_cbk_args,
gfdb_time_t *for_time,
int freq_write_cnt,
int freq_read_cnt,
gf_boolean_t clear_counters)
{
int ret = -1;
char *query_str = NULL;
gf_sql_connection_t *sql_conn = db_conn;
sqlite3_stmt *prep_stmt = NULL;
uint64_t for_time_usec = 0;
char *base_query_str = NULL;
CHECK_SQL_CONN (sql_conn, out);
GF_VALIDATE_OR_GOTO(GFDB_STR_SQLITE3, query_callback, out);
ret = gf_get_basic_query_stmt (&base_query_str);
if (ret <= 0) {
goto out;
}
ret = gf_asprintf (&query_str, "%s AND "
/*First condition: For Writes
* Files that have write wind time smaller than for_time
* OR
* File that have write wind time greater than for_time,
* but write_frequency less than freq_write_cnt*/
"( ( ((" GF_COL_TB_WSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_WMSEC ") < ? )"
" OR "
"( (" GF_COL_TB_WFC " < ? ) AND"
"((" GF_COL_TB_WSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_WMSEC ") >= ? ) ) )"
" AND "
/*Second condition: For Reads
* Files that have read wind time smaller than for_time
* OR
* File that have read wind time greater than for_time,
* but read_frequency less than freq_read_cnt*/
"( ((" GF_COL_TB_RWSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_RWMSEC ") < ? )"
" OR "
"( (" GF_COL_TB_RFC " < ? ) AND"
"((" GF_COL_TB_RWSEC " * " TOSTRING(GFDB_MICROSEC) " + "
GF_COL_TB_RWMSEC ") >= ? ) ) ) )"
/* Order by write wind time and write freq in ascending order
* i.e most cold files w.r.t to write */
" ORDER BY GF_FILE_TB.W_SEC ASC, "
"GF_FILE_TB.WRITE_FREQ_CNTR ASC",
base_query_str);
if (ret < 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed to create query statement");
query_str = NULL;
goto out;
}
for_time_usec = gfdb_time_2_usec (for_time);
ret = sqlite3_prepare (sql_conn->sqlite3_db_conn, query_str, -1,
&prep_stmt, 0);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED, "Failed to prepare delete "
"statement %s : %s", query_str,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind write wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 1, for_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind for_time_usec "
"%"PRIu64" : %s", for_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind write frequency thresold*/
ret = sqlite3_bind_int (prep_stmt, 2, freq_write_cnt);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind freq_write_cnt"
" %d : %s", freq_write_cnt,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind write wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 3, for_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind for_time_usec "
"%"PRIu64" : %s", for_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind read wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 4, for_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind for_time_usec "
"%"PRIu64" : %s", for_time_usec,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind read frequency thresold*/
ret = sqlite3_bind_int (prep_stmt, 5, freq_read_cnt);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind freq_read_cnt "
"%d : %s", freq_read_cnt,
sqlite3_errmsg (sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Bind read wind time*/
ret = sqlite3_bind_int64 (prep_stmt, 6, for_time_usec);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_BINDING_FAILED, "Failed to bind for_time_usec "
"%"PRIu64" : %s", for_time_usec,
sqlite3_errmsg(sql_conn->sqlite3_db_conn));
ret = -1;
goto out;
}
/*Execute the query*/
ret = gf_sql_query_function (prep_stmt, query_callback, query_cbk_args);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed Query %s", query_str);
goto out;
}
/*Clear counters*/
if (clear_counters) {
ret = gf_sql_clear_counters (sql_conn);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_CLEAR_COUNTER_FAILED, "Failed to clear "
"counters!");
goto out;
}
}
ret = 0;
out:
sqlite3_finalize (prep_stmt);
GF_FREE (base_query_str);
GF_FREE (query_str);
return ret;
}
int
gf_sqlite3_clear_files_heat (void *db_conn)
{
int ret = -1;
gf_sql_connection_t *sql_conn = db_conn;
CHECK_SQL_CONN (sql_conn, out);
ret = gf_sql_clear_counters (sql_conn);
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_CLEAR_COUNTER_FAILED, "Failed to clear "
"files heat");
goto out;
}
ret = 0;
out:
return ret;
}
/* Function to extract version of sqlite db
* Input:
* void *db_conn : Sqlite connection
* char **version : the version is extracted as a string and will be stored in
* this variable. The freeing of the memory should be done by
* the caller.
* Return:
* On success return the length of the version string that is
* extracted.
* On failure return -1
* */
int
gf_sqlite3_version (void *db_conn, char **version)
{
int ret = -1;
gf_sql_connection_t *sql_conn = db_conn;
sqlite3_stmt *pre_stmt = NULL;
CHECK_SQL_CONN (sql_conn, out);
ret = sqlite3_prepare_v2 (sql_conn->sqlite3_db_conn,
"SELECT SQLITE_VERSION()",
-1, &pre_stmt, 0);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED, "Failed init prepare stmt %s",
sqlite3_errmsg (db_conn));
ret = -1;
goto out;
}
ret = sqlite3_step(pre_stmt);
if (ret != SQLITE_ROW) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_GET_RECORD_FAILED, "Failed to get records "
"from db : %s", sqlite3_errmsg (db_conn));
ret = -1;
goto out;
}
ret = gf_asprintf (version, "%s", sqlite3_column_text (pre_stmt, 0));
if (ret <= 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed extracting version");
}
out:
sqlite3_finalize (pre_stmt);
return ret;
}
/* Function to extract PRAGMA from sqlite db
* Input:
* void *db_conn : Sqlite connection
* char *pragma_key : PRAGMA or setting to be extracted
* char **pragma_value : the value of the PRAGMA or setting that is
* extracted. This function will allocate memory
* to pragma_value. The caller should free the memory
* Return:
* On success return the length of the pragma/setting value that is
* extracted.
* On failure return -1
* */
int
gf_sqlite3_pragma (void *db_conn, char *pragma_key, char **pragma_value)
{
int ret = -1;
gf_sql_connection_t *sql_conn = db_conn;
sqlite3_stmt *pre_stmt = NULL;
char *sqlstring = NULL;
CHECK_SQL_CONN (sql_conn, out);
GF_VALIDATE_OR_GOTO (GFDB_STR_SQLITE3, pragma_key, out);
ret = gf_asprintf (&sqlstring, "PRAGMA %s;", pragma_key);
if (ret <= 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED, "Failed allocating memory");
goto out;
}
ret = sqlite3_prepare_v2 (sql_conn->sqlite3_db_conn,
sqlstring, -1, &pre_stmt, 0);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED, "Failed init prepare stmt %s",
sqlite3_errmsg (db_conn));
ret = -1;
goto out;
}
ret = sqlite3_step (pre_stmt);
if (ret != SQLITE_ROW) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_GET_RECORD_FAILED, "Failed to get records "
"from db : %s", sqlite3_errmsg (db_conn));
ret = -1;
goto out;
}
if (pragma_value) {
ret = gf_asprintf (pragma_value, "%s",
sqlite3_column_text (pre_stmt, 0));
if (ret <= 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_QUERY_FAILED, "Failed to get %s from db",
pragma_key);
}
}
ret = 0;
out:
GF_FREE (sqlstring);
sqlite3_finalize (pre_stmt);
return ret;
}
/* Function to set PRAGMA to sqlite db
* Input:
* void *db_conn : Sqlite connection
* char *pragma_key : PRAGMA to be set
* char *pragma_value : the value of the PRAGMA
* Return:
* On success return 0
* On failure return -1
* */
int
gf_sqlite3_set_pragma (void *db_conn, char *pragma_key, char *pragma_value)
{
int ret = -1;
gf_sql_connection_t *sql_conn = db_conn;
char sqlstring[GF_NAME_MAX] = "";
char *db_pragma_value = NULL;
CHECK_SQL_CONN (sql_conn, out);
GF_VALIDATE_OR_GOTO (GFDB_STR_SQLITE3, pragma_key, out);
GF_VALIDATE_OR_GOTO (GFDB_STR_SQLITE3, pragma_value, out);
GF_SQLITE3_SET_PRAGMA(sqlstring, pragma_key, "%s",
pragma_value, ret, out);
ret = gf_sqlite3_pragma (db_conn, pragma_key, &db_pragma_value);
if (ret < 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0, LG_MSG_QUERY_FAILED,
"Failed to get %s pragma", pragma_key);
} else {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_TRACE, 0, 0,
"Value set on DB %s : %s", pragma_key, db_pragma_value);
}
GF_FREE (db_pragma_value);
ret = 0;
out:
return ret;
}
/* Function to vacuum of sqlite db
* Input:
* void *db_conn : Sqlite connection
* gf_boolean_t compact_active : Is compaction on?
* gf_boolean_t compact_mode_switched : Did we just flip the compaction switch?
* Return:
* On success return 0
* On failure return -1
* */
int
gf_sqlite3_vacuum (void *db_conn, gf_boolean_t compact_active,
gf_boolean_t compact_mode_switched)
{
int ret = -1;
gf_sql_connection_t *sql_conn = db_conn;
char *sqlstring = NULL;
char *sql_strerror = NULL;
gf_boolean_t changing_pragma = _gf_true;
CHECK_SQL_CONN (sql_conn, out);
if (GF_SQL_COMPACT_DEF == GF_SQL_COMPACT_NONE) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_INFO, 0,
LG_MSG_COMPACT_STATUS,
"VACUUM type is off: no VACUUM to do");
goto out;
}
if (compact_mode_switched) {
if (compact_active) { /* Then it was OFF before.
So turn everything on */
ret = 0;
switch (GF_SQL_COMPACT_DEF) {
case GF_SQL_COMPACT_FULL:
ret = gf_sqlite3_set_pragma (db_conn,
"auto_vacuum",
GF_SQL_AV_FULL);
break;
case GF_SQL_COMPACT_INCR:
ret = gf_sqlite3_set_pragma (db_conn,
"auto_vacuum",
GF_SQL_AV_INCR);
break;
case GF_SQL_COMPACT_MANUAL:
changing_pragma = _gf_false;
break;
default:
ret = -1;
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_COMPACT_FAILED,
"VACUUM type undefined");
goto out;
break;
}
} else { /* Then it was ON before, so turn it all off */
if (GF_SQL_COMPACT_DEF == GF_SQL_COMPACT_FULL ||
GF_SQL_COMPACT_DEF == GF_SQL_COMPACT_INCR) {
ret = gf_sqlite3_set_pragma (db_conn,
"auto_vacuum",
GF_SQL_AV_NONE);
} else {
changing_pragma = _gf_false;
}
}
if (ret) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_TRACE, 0,
LG_MSG_PREPARE_FAILED,
"Failed to set the pragma");
goto out;
}
gf_msg (GFDB_STR_SQLITE3, GF_LOG_INFO, 0,
LG_MSG_COMPACT_STATUS, "Turning compaction %i",
GF_SQL_COMPACT_DEF);
/* If we move from an auto_vacuum scheme to off, */
/* or vice-versa, we must VACUUM to save the change. */
/* In the case of a manual VACUUM scheme, we might as well */
/* run a manual VACUUM now if we */
if (changing_pragma || compact_active) {
ret = gf_asprintf (&sqlstring, "VACUUM;");
if (ret <= 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED,
"Failed allocating memory");
goto out;
}
gf_msg(GFDB_STR_SQLITE3, GF_LOG_INFO, 0,
LG_MSG_COMPACT_STATUS, "Sealed with a VACUUM");
}
} else { /* We are active, so it's time to VACUUM */
if (!compact_active) { /* Did we somehow enter an inconsistent
state? */
ret = -1;
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED,
"Tried to VACUUM when compaction inactive");
goto out;
}
gf_msg(GFDB_STR_SQLITE3, GF_LOG_TRACE, 0,
LG_MSG_COMPACT_STATUS,
"Doing regular vacuum of type %i", GF_SQL_COMPACT_DEF);
switch (GF_SQL_COMPACT_DEF) {
case GF_SQL_COMPACT_INCR: /* INCR auto_vacuum */
ret = gf_asprintf(&sqlstring,
"PRAGMA incremental_vacuum;");
if (ret <= 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED,
"Failed allocating memory");
goto out;
}
gf_msg(GFDB_STR_SQLITE3, GF_LOG_INFO, 0,
LG_MSG_COMPACT_STATUS,
"Will commence an incremental VACUUM");
break;
/* (MANUAL) Invoke the VACUUM command */
case GF_SQL_COMPACT_MANUAL:
ret = gf_asprintf(&sqlstring, "VACUUM;");
if (ret <= 0) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_PREPARE_FAILED,
"Failed allocating memory");
goto out;
}
gf_msg(GFDB_STR_SQLITE3, GF_LOG_INFO, 0,
LG_MSG_COMPACT_STATUS,
"Will commence a VACUUM");
break;
/* (FULL) The database does the compaction itself. */
/* We cannot do anything else, so we can leave */
/* without sending anything to the database */
case GF_SQL_COMPACT_FULL:
ret = 0;
goto success;
/* Any other state must be an error. Note that OFF */
/* cannot hit this statement since we immediately leave */
/* in that case */
default:
ret = -1;
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_COMPACT_FAILED,
"VACUUM type undefined");
goto out;
break;
}
}
gf_msg(GFDB_STR_SQLITE3, GF_LOG_TRACE, 0, LG_MSG_COMPACT_STATUS,
"SQLString == %s", sqlstring);
ret = sqlite3_exec(sql_conn->sqlite3_db_conn, sqlstring, NULL, NULL,
&sql_strerror);
if (ret != SQLITE_OK) {
gf_msg (GFDB_STR_SQLITE3, GF_LOG_ERROR, 0,
LG_MSG_GET_RECORD_FAILED, "Failed to vacuum "
"the db : %s", sqlite3_errmsg (db_conn));
ret = -1;
goto out;
}
success:
gf_msg(GFDB_STR_SQLITE3, GF_LOG_INFO, 0, LG_MSG_COMPACT_STATUS,
compact_mode_switched ? "Successfully changed VACUUM on/off"
: "DB successfully VACUUM");
out:
GF_FREE(sqlstring);
return ret;
}
|