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|
/*
Copyright (c) 2012, Monty Program Ab
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111-1301 USA */
#ifdef USE_PRAGMA_IMPLEMENTATION
#pragma implementation // gcc: Class implementation
#endif
#define MYSQL_SERVER 1
/* For use of 'PRIu64': */
#define __STDC_FORMAT_MACROS
#include <my_global.h>
#include <inttypes.h>
/* The C++ file's header */
#include "./ha_rocksdb.h"
/* C++ standard header files */
#include <inttypes.h>
#include <algorithm>
#include <limits>
#include <map>
#include <queue>
#include <set>
#include <string>
#include <vector>
/* MySQL includes */
#include <mysql/psi/mysql_table.h>
// #include <thread_pool_priv.h>
#include <mysys_err.h>
#include "./debug_sync.h"
#include "./my_bit.h"
#include "./my_stacktrace.h"
#include "./my_sys.h"
#include "./sql_audit.h"
#include "./sql_table.h"
#include "./sql_hset.h"
#ifdef MARIAROCKS_NOT_YET
#endif
/* RocksDB includes */
#include "monitoring/histogram.h"
#include "rocksdb/compaction_filter.h"
#include "rocksdb/env.h"
#include "rocksdb/memory_allocator.h"
#include "rocksdb/persistent_cache.h"
#include "rocksdb/rate_limiter.h"
#include "rocksdb/slice_transform.h"
#include "rocksdb/thread_status.h"
#include "rocksdb/utilities/checkpoint.h"
#include "rocksdb/utilities/convenience.h"
#include "rocksdb/utilities/memory_util.h"
#include "rocksdb/utilities/sim_cache.h"
#include "rocksdb/utilities/write_batch_with_index.h"
#include "util/stop_watch.h"
#include "./rdb_source_revision.h"
// MariaRocks: this is needed to access RocksDB debug syncpoints:
#include "test_util/sync_point.h"
/* MyRocks includes */
#include "./event_listener.h"
#include "./ha_rocksdb_proto.h"
#include "./logger.h"
#include "./nosql_access.h"
#include "./rdb_cf_manager.h"
#include "./rdb_cf_options.h"
#include "./rdb_converter.h"
#include "./rdb_datadic.h"
#include "./rdb_i_s.h"
#include "./rdb_index_merge.h"
#include "./rdb_mutex_wrapper.h"
#include "./rdb_psi.h"
#include "./rdb_threads.h"
#include "./rdb_mariadb_server_port.h"
// Internal MySQL APIs not exposed in any header.
extern "C" {
/**
Mark transaction to rollback and mark error as fatal to a sub-statement.
@param thd Thread handle
@param all TRUE <=> rollback main transaction.
*/
void thd_mark_transaction_to_rollback(MYSQL_THD thd, bool all);
/**
* Get the user thread's binary logging format
* @param thd user thread
* @return Value to be used as index into the binlog_format_names array
*/
int thd_binlog_format(const MYSQL_THD thd);
/**
* Check if binary logging is filtered for thread's current db.
* @param thd Thread handle
* @retval 1 the query is not filtered, 0 otherwise.
*/
bool thd_binlog_filter_ok(const MYSQL_THD thd);
}
extern my_bool opt_core_file;
// Needed in rocksdb_init_func
void ignore_db_dirs_append(const char *dirname_arg);
namespace myrocks {
static st_global_stats global_stats;
static st_export_stats export_stats;
static st_memory_stats memory_stats;
static st_io_stall_stats io_stall_stats;
const std::string DEFAULT_CF_NAME("default");
const std::string DEFAULT_SYSTEM_CF_NAME("__system__");
const std::string PER_INDEX_CF_NAME("$per_index_cf");
static std::vector<GL_INDEX_ID> rdb_indexes_to_recalc;
#ifdef MARIADB_NOT_YET
class Rdb_explicit_snapshot : public explicit_snapshot {
public:
static std::shared_ptr<Rdb_explicit_snapshot> create(
snapshot_info_st *ss_info, rocksdb::DB *db,
const rocksdb::Snapshot *snapshot) {
std::lock_guard<std::mutex> lock(explicit_snapshot_mutex);
auto s = std::unique_ptr<rocksdb::ManagedSnapshot>(
new rocksdb::ManagedSnapshot(db, snapshot));
if (!s) {
return nullptr;
}
ss_info->snapshot_id = ++explicit_snapshot_counter;
auto ret = std::make_shared<Rdb_explicit_snapshot>(*ss_info, std::move(s));
if (!ret) {
return nullptr;
}
explicit_snapshots[ss_info->snapshot_id] = ret;
return ret;
}
static std::string dump_snapshots() {
std::string str;
std::lock_guard<std::mutex> lock(explicit_snapshot_mutex);
for (const auto &elem : explicit_snapshots) {
const auto &ss = elem.second.lock();
DBUG_ASSERT(ss != nullptr);
const auto &info = ss->ss_info;
str += "\nSnapshot ID: " + std::to_string(info.snapshot_id) +
"\nBinlog File: " + info.binlog_file +
"\nBinlog Pos: " + std::to_string(info.binlog_pos) +
"\nGtid Executed: " + info.gtid_executed + "\n";
}
return str;
}
static std::shared_ptr<Rdb_explicit_snapshot> get(
const ulonglong snapshot_id) {
std::lock_guard<std::mutex> lock(explicit_snapshot_mutex);
auto elem = explicit_snapshots.find(snapshot_id);
if (elem == explicit_snapshots.end()) {
return nullptr;
}
return elem->second.lock();
}
rocksdb::ManagedSnapshot *get_snapshot() { return snapshot.get(); }
Rdb_explicit_snapshot(snapshot_info_st ss_info,
std::unique_ptr<rocksdb::ManagedSnapshot> &&snapshot)
: explicit_snapshot(ss_info), snapshot(std::move(snapshot)) {}
virtual ~Rdb_explicit_snapshot() {
std::lock_guard<std::mutex> lock(explicit_snapshot_mutex);
explicit_snapshots.erase(ss_info.snapshot_id);
}
private:
std::unique_ptr<rocksdb::ManagedSnapshot> snapshot;
static std::mutex explicit_snapshot_mutex;
static ulonglong explicit_snapshot_counter;
static std::unordered_map<ulonglong, std::weak_ptr<Rdb_explicit_snapshot>>
explicit_snapshots;
};
std::mutex Rdb_explicit_snapshot::explicit_snapshot_mutex;
ulonglong Rdb_explicit_snapshot::explicit_snapshot_counter = 0;
std::unordered_map<ulonglong, std::weak_ptr<Rdb_explicit_snapshot>>
Rdb_explicit_snapshot::explicit_snapshots;
#endif
/**
Updates row counters based on the table type and operation type.
*/
void ha_rocksdb::update_row_stats(const operation_type &type) {
DBUG_ASSERT(type < ROWS_MAX);
// Find if we are modifying system databases.
if (table->s && m_tbl_def->m_is_mysql_system_table) {
global_stats.system_rows[type].inc();
} else {
global_stats.rows[type].inc();
}
}
void dbug_dump_database(rocksdb::DB *db);
static handler *rocksdb_create_handler(my_core::handlerton *hton,
my_core::TABLE_SHARE *table_arg,
my_core::MEM_ROOT *mem_root);
void save_table_version(rocksdb::WriteBatch *wb, const char *path,
ulonglong version);
ulonglong get_table_version(const char *path);
void delete_table_version(rocksdb::WriteBatch *wb,
const char *path);
static rocksdb::CompactRangeOptions getCompactRangeOptions(
int concurrency = 0) {
rocksdb::CompactRangeOptions compact_range_options;
compact_range_options.bottommost_level_compaction =
rocksdb::BottommostLevelCompaction::kForce;
compact_range_options.exclusive_manual_compaction = false;
if (concurrency > 0) {
compact_range_options.max_subcompactions = concurrency;
}
return compact_range_options;
}
///////////////////////////////////////////////////////////
// Parameters and settings
///////////////////////////////////////////////////////////
static char *rocksdb_default_cf_options = nullptr;
static char *rocksdb_override_cf_options = nullptr;
static char *rocksdb_update_cf_options = nullptr;
///////////////////////////////////////////////////////////
// Globals
///////////////////////////////////////////////////////////
handlerton *rocksdb_hton;
rocksdb::TransactionDB *rdb = nullptr;
rocksdb::HistogramImpl *commit_latency_stats = nullptr;
static std::shared_ptr<rocksdb::Statistics> rocksdb_stats;
static std::unique_ptr<rocksdb::Env> flashcache_aware_env;
static std::shared_ptr<Rdb_tbl_prop_coll_factory> properties_collector_factory;
Rdb_dict_manager dict_manager;
Rdb_cf_manager cf_manager;
Rdb_ddl_manager ddl_manager;
Rdb_binlog_manager binlog_manager;
#if !defined(_WIN32) && !defined(__APPLE__)
Rdb_io_watchdog *io_watchdog = nullptr;
#endif
/**
MyRocks background thread control
N.B. This is besides RocksDB's own background threads
(@see rocksdb::CancelAllBackgroundWork())
*/
static Rdb_background_thread rdb_bg_thread;
static Rdb_manual_compaction_thread rdb_mc_thread;
// List of table names (using regex) that are exceptions to the strict
// collation check requirement.
Regex_list_handler *rdb_collation_exceptions;
static const char **rdb_get_error_messages(int nr);
static void rocksdb_flush_all_memtables() {
const Rdb_cf_manager &cf_manager = rdb_get_cf_manager();
for (const auto &cf_handle : cf_manager.get_all_cf()) {
rdb->Flush(rocksdb::FlushOptions(), cf_handle);
}
}
static void rocksdb_delete_column_family_stub(
THD *const /* thd */, struct st_mysql_sys_var *const /* var */,
void *const /* var_ptr */, const void *const /* save */) {}
static int rocksdb_delete_column_family(
THD *const /* thd */, struct st_mysql_sys_var *const /* var */,
void *const /* var_ptr */, struct st_mysql_value *const value) {
// Return failure for now until the race condition between creating
// CF and deleting CF is resolved
return HA_EXIT_FAILURE;
char buff[STRING_BUFFER_USUAL_SIZE];
int len = sizeof(buff);
DBUG_ASSERT(value != nullptr);
if (const char *const cf = value->val_str(value, buff, &len)) {
auto &cf_manager = rdb_get_cf_manager();
auto ret = cf_manager.drop_cf(cf);
if (ret == HA_EXIT_SUCCESS) {
// NO_LINT_DEBUG
sql_print_information("RocksDB: Dropped column family: %s\n", cf);
} else {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Failed to drop column family: %s, error: %d\n",
cf, ret);
}
return ret;
}
return HA_EXIT_SUCCESS;
}
///////////////////////////////////////////////////////////
// Hash map: table name => open table handler
///////////////////////////////////////////////////////////
namespace // anonymous namespace = not visible outside this source file
{
typedef Hash_set<Rdb_table_handler> Rdb_table_set;
class Rdb_open_tables_map {
private:
/* Hash table used to track the handlers of open tables */
std::unordered_map<std::string, Rdb_table_handler *> m_table_map;
/* The mutex used to protect the hash table */
mutable mysql_mutex_t m_mutex;
public:
void init() {
m_table_map.clear();
mysql_mutex_init(rdb_psi_open_tbls_mutex_key, &m_mutex, MY_MUTEX_INIT_FAST);
}
void free() {
m_table_map.clear();
mysql_mutex_destroy(&m_mutex);
}
size_t count() { return m_table_map.size(); }
Rdb_table_handler *get_table_handler(const char *const table_name);
void release_table_handler(Rdb_table_handler *const table_handler);
std::vector<std::string> get_table_names(void) const;
};
} // anonymous namespace
static Rdb_open_tables_map rdb_open_tables;
static std::string rdb_normalize_dir(std::string dir) {
while (dir.size() > 0 && dir.back() == '/') {
dir.resize(dir.size() - 1);
}
return dir;
}
static int rocksdb_create_checkpoint(
THD *const thd MY_ATTRIBUTE((__unused__)),
struct st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const save MY_ATTRIBUTE((__unused__)),
struct st_mysql_value *const value) {
char buf[FN_REFLEN];
int len = sizeof(buf);
const char *const checkpoint_dir_raw = value->val_str(value, buf, &len);
if (checkpoint_dir_raw) {
if (rdb != nullptr) {
std::string checkpoint_dir = rdb_normalize_dir(checkpoint_dir_raw);
// NO_LINT_DEBUG
sql_print_information("RocksDB: creating checkpoint in directory : %s\n",
checkpoint_dir.c_str());
rocksdb::Checkpoint *checkpoint;
auto status = rocksdb::Checkpoint::Create(rdb, &checkpoint);
// We can only return HA_EXIT_FAILURE/HA_EXIT_SUCCESS here which is why
// the return code is ignored, but by calling into rdb_error_to_mysql,
// it will call my_error for us, which will propogate up to the client.
int rc __attribute__((__unused__));
if (status.ok()) {
status = checkpoint->CreateCheckpoint(checkpoint_dir.c_str());
delete checkpoint;
if (status.ok()) {
// NO_LINT_DEBUG
sql_print_information(
"RocksDB: created checkpoint in directory : %s\n",
checkpoint_dir.c_str());
return HA_EXIT_SUCCESS;
} else {
rc = ha_rocksdb::rdb_error_to_mysql(status);
}
} else {
rc = ha_rocksdb::rdb_error_to_mysql(status);
}
}
}
return HA_EXIT_FAILURE;
}
/* This method is needed to indicate that the
ROCKSDB_CREATE_CHECKPOINT command is not read-only */
static void rocksdb_create_checkpoint_stub(THD *const thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
const void *const save) {}
static void rocksdb_force_flush_memtable_now_stub(
THD *const thd, struct st_mysql_sys_var *const var, void *const var_ptr,
const void *const save) {}
static int rocksdb_force_flush_memtable_now(
THD *const thd, struct st_mysql_sys_var *const var, void *const var_ptr,
struct st_mysql_value *const value) {
// NO_LINT_DEBUG
sql_print_information("RocksDB: Manual memtable flush.");
rocksdb_flush_all_memtables();
return HA_EXIT_SUCCESS;
}
static void rocksdb_force_flush_memtable_and_lzero_now_stub(
THD *const thd, struct st_mysql_sys_var *const var, void *const var_ptr,
const void *const save) {}
static int rocksdb_force_flush_memtable_and_lzero_now(
THD *const thd, struct st_mysql_sys_var *const var, void *const var_ptr,
struct st_mysql_value *const value) {
// NO_LINT_DEBUG
sql_print_information("RocksDB: Manual memtable and L0 flush.");
rocksdb_flush_all_memtables();
const Rdb_cf_manager &cf_manager = rdb_get_cf_manager();
rocksdb::CompactionOptions c_options = rocksdb::CompactionOptions();
rocksdb::ColumnFamilyMetaData metadata;
rocksdb::ColumnFamilyDescriptor cf_descr;
int i, max_attempts = 3, num_errors = 0;
for (const auto &cf_handle : cf_manager.get_all_cf()) {
for (i = 0; i < max_attempts; i++) {
rdb->GetColumnFamilyMetaData(cf_handle, &metadata);
cf_handle->GetDescriptor(&cf_descr);
c_options.output_file_size_limit = cf_descr.options.target_file_size_base;
DBUG_ASSERT(metadata.levels[0].level == 0);
std::vector<std::string> file_names;
for (auto &file : metadata.levels[0].files) {
file_names.emplace_back(file.db_path + file.name);
}
if (file_names.empty()) {
break;
}
rocksdb::Status s;
s = rdb->CompactFiles(c_options, cf_handle, file_names, 1);
// Due to a race, it's possible for CompactFiles to collide
// with auto compaction, causing an error to return
// regarding file not found. In that case, retry.
if (s.IsInvalidArgument()) {
continue;
}
if (!s.ok() && !s.IsAborted()) {
rdb_handle_io_error(s, RDB_IO_ERROR_GENERAL);
return HA_EXIT_FAILURE;
}
break;
}
if (i == max_attempts) {
num_errors++;
}
}
return num_errors == 0 ? HA_EXIT_SUCCESS : HA_EXIT_FAILURE;
}
static void rocksdb_drop_index_wakeup_thread(
my_core::THD *const thd MY_ATTRIBUTE((__unused__)),
struct st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr MY_ATTRIBUTE((__unused__)), const void *const save);
static my_bool rocksdb_pause_background_work = 0;
static mysql_mutex_t rdb_sysvars_mutex;
static mysql_mutex_t rdb_block_cache_resize_mutex;
static void rocksdb_set_pause_background_work(
my_core::THD *const,
struct st_mysql_sys_var *const,
void *const, const void *const save) {
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const my_bool pause_requested = *static_cast<const my_bool *>(save);
if (rocksdb_pause_background_work != pause_requested) {
if (pause_requested) {
rdb->PauseBackgroundWork();
} else {
rdb->ContinueBackgroundWork();
}
rocksdb_pause_background_work = pause_requested;
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
static void rocksdb_set_compaction_options(THD *thd,
struct st_mysql_sys_var *var,
void *var_ptr, const void *save);
static void rocksdb_set_table_stats_sampling_pct(THD *thd,
struct st_mysql_sys_var *var,
void *var_ptr,
const void *save);
static void rocksdb_set_rate_limiter_bytes_per_sec(THD *thd,
struct st_mysql_sys_var *var,
void *var_ptr,
const void *save);
static void rocksdb_set_sst_mgr_rate_bytes_per_sec(THD *thd,
struct st_mysql_sys_var *var,
void *var_ptr,
const void *save);
static void rocksdb_set_delayed_write_rate(THD *thd,
struct st_mysql_sys_var *var,
void *var_ptr, const void *save);
static void rocksdb_set_max_latest_deadlocks(THD *thd,
struct st_mysql_sys_var *var,
void *var_ptr, const void *save);
static void rdb_set_collation_exception_list(const char *exception_list);
static void rocksdb_set_collation_exception_list(THD *thd,
struct st_mysql_sys_var *var,
void *var_ptr,
const void *save);
static int rocksdb_validate_update_cf_options(THD *thd,
struct st_mysql_sys_var *var,
void *save,
st_mysql_value *value);
static void rocksdb_set_update_cf_options(THD *thd,
struct st_mysql_sys_var *var,
void *var_ptr, const void *save);
static int rocksdb_check_bulk_load(
THD *const thd, struct st_mysql_sys_var *var MY_ATTRIBUTE((__unused__)),
void *save, struct st_mysql_value *value);
static int rocksdb_check_bulk_load_allow_unsorted(
THD *const thd, struct st_mysql_sys_var *var MY_ATTRIBUTE((__unused__)),
void *save, struct st_mysql_value *value);
static void rocksdb_set_max_background_jobs(THD *thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
const void *const save);
static void rocksdb_set_bytes_per_sync(THD *thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
const void *const save);
static void rocksdb_set_wal_bytes_per_sync(THD *thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
const void *const save);
static int rocksdb_validate_set_block_cache_size(
THD *thd, struct st_mysql_sys_var *const var, void *var_ptr,
struct st_mysql_value *value);
//////////////////////////////////////////////////////////////////////////////
// Options definitions
//////////////////////////////////////////////////////////////////////////////
static long long rocksdb_block_cache_size;
static long long rocksdb_sim_cache_size;
static my_bool rocksdb_use_clock_cache;
static double rocksdb_cache_high_pri_pool_ratio;
static my_bool rocksdb_cache_dump;
/* Use unsigned long long instead of uint64_t because of MySQL compatibility */
static unsigned long long // NOLINT(runtime/int)
rocksdb_rate_limiter_bytes_per_sec;
static unsigned long long // NOLINT(runtime/int)
rocksdb_sst_mgr_rate_bytes_per_sec;
static unsigned long long rocksdb_delayed_write_rate;
static uint32_t rocksdb_max_latest_deadlocks;
static unsigned long // NOLINT(runtime/int)
rocksdb_persistent_cache_size_mb;
static ulong rocksdb_info_log_level;
static char *rocksdb_wal_dir;
static char *rocksdb_persistent_cache_path;
static ulong rocksdb_index_type;
static uint32_t rocksdb_flush_log_at_trx_commit;
static uint32_t rocksdb_debug_optimizer_n_rows;
static my_bool rocksdb_force_compute_memtable_stats;
static uint32_t rocksdb_force_compute_memtable_stats_cachetime;
static my_bool rocksdb_debug_optimizer_no_zero_cardinality;
static uint32_t rocksdb_wal_recovery_mode;
static uint32_t rocksdb_stats_level;
static uint32_t rocksdb_access_hint_on_compaction_start;
static char *rocksdb_compact_cf_name;
static char *rocksdb_delete_cf_name;
static char *rocksdb_checkpoint_name;
static my_bool rocksdb_signal_drop_index_thread;
static my_bool rocksdb_signal_remove_mariabackup_checkpoint;
static my_bool rocksdb_strict_collation_check = 1;
static my_bool rocksdb_ignore_unknown_options = 1;
static my_bool rocksdb_enable_2pc = 0;
static char *rocksdb_strict_collation_exceptions;
static my_bool rocksdb_collect_sst_properties = 1;
static my_bool rocksdb_force_flush_memtable_now_var = 0;
static my_bool rocksdb_force_flush_memtable_and_lzero_now_var = 0;
static my_bool rocksdb_enable_ttl = 1;
static my_bool rocksdb_enable_ttl_read_filtering = 1;
static int rocksdb_debug_ttl_rec_ts = 0;
static int rocksdb_debug_ttl_snapshot_ts = 0;
static int rocksdb_debug_ttl_read_filter_ts = 0;
static my_bool rocksdb_debug_ttl_ignore_pk = 0;
static my_bool rocksdb_reset_stats = 0;
static uint32_t rocksdb_io_write_timeout_secs = 0;
static uint32_t rocksdb_seconds_between_stat_computes = 3600;
static long long rocksdb_compaction_sequential_deletes = 0l;
static long long rocksdb_compaction_sequential_deletes_window = 0l;
static long long rocksdb_compaction_sequential_deletes_file_size = 0l;
static uint32_t rocksdb_validate_tables = 1;
static char *rocksdb_datadir;
static uint32_t rocksdb_table_stats_sampling_pct;
static my_bool rocksdb_enable_bulk_load_api = 1;
static my_bool rocksdb_print_snapshot_conflict_queries = 0;
static my_bool rocksdb_large_prefix = 0;
static my_bool rocksdb_allow_to_start_after_corruption = 0;
static char* rocksdb_git_hash;
uint32_t rocksdb_ignore_datadic_errors = 0;
char *compression_types_val=
const_cast<char*>(get_rocksdb_supported_compression_types());
static unsigned long rocksdb_write_policy =
rocksdb::TxnDBWritePolicy::WRITE_COMMITTED;
#if 0 // MARIAROCKS_NOT_YET : read-free replication is not supported
char *rocksdb_read_free_rpl_tables;
std::mutex rocksdb_read_free_rpl_tables_mutex;
#if defined(HAVE_PSI_INTERFACE)
Regex_list_handler rdb_read_free_regex_handler(key_rwlock_read_free_rpl_tables);
#else
Regex_list_handler rdb_read_free_regex_handler;
#endif
enum read_free_rpl_type { OFF = 0, PK_ONLY, PK_SK };
static unsigned long rocksdb_read_free_rpl = read_free_rpl_type::OFF;
#endif
static my_bool rocksdb_error_on_suboptimal_collation = 1;
static uint32_t rocksdb_stats_recalc_rate = 0;
static uint32_t rocksdb_debug_manual_compaction_delay = 0;
static uint32_t rocksdb_max_manual_compactions = 0;
static my_bool rocksdb_rollback_on_timeout = FALSE;
static my_bool rocksdb_enable_insert_with_update_caching = TRUE;
std::atomic<uint64_t> rocksdb_row_lock_deadlocks(0);
std::atomic<uint64_t> rocksdb_row_lock_wait_timeouts(0);
std::atomic<uint64_t> rocksdb_snapshot_conflict_errors(0);
std::atomic<uint64_t> rocksdb_wal_group_syncs(0);
std::atomic<uint64_t> rocksdb_manual_compactions_processed(0);
std::atomic<uint64_t> rocksdb_manual_compactions_running(0);
#ifndef DBUG_OFF
std::atomic<uint64_t> rocksdb_num_get_for_update_calls(0);
#endif
/*
Remove directory with files in it.
Used to remove checkpoint created by mariabackup.
*/
#ifdef _WIN32
#include <direct.h> /* unlink*/
#ifndef F_OK
#define F_OK 0
#endif
#endif
static int rmdir_force(const char *dir) {
if (access(dir, F_OK))
return true;
char path[FN_REFLEN];
char sep[] = {FN_LIBCHAR, 0};
int err = 0;
MY_DIR *dir_info = my_dir(dir, MYF(MY_DONT_SORT | MY_WANT_STAT));
if (!dir_info)
return 1;
for (size_t i = 0; i < dir_info->number_of_files; i++) {
FILEINFO *file = dir_info->dir_entry + i;
strxnmov(path, sizeof(path), dir, sep, file->name, NULL);
err = my_delete(path, 0);
if (err) {
break;
}
}
my_dirend(dir_info);
if (!err)
err = rmdir(dir);
return (err == 0) ? HA_EXIT_SUCCESS : HA_EXIT_FAILURE;
}
static void rocksdb_remove_mariabackup_checkpoint(
my_core::THD *const,
struct st_mysql_sys_var *const ,
void *const var_ptr, const void *const) {
std::string mariabackup_checkpoint_dir(rocksdb_datadir);
mariabackup_checkpoint_dir.append("/mariabackup-checkpoint");
if (unlink(mariabackup_checkpoint_dir.c_str()) == 0)
return;
rmdir_force(mariabackup_checkpoint_dir.c_str());
}
static std::unique_ptr<rocksdb::DBOptions> rdb_init_rocksdb_db_options(void) {
auto o = std::unique_ptr<rocksdb::DBOptions>(new rocksdb::DBOptions());
o->create_if_missing = true;
o->listeners.push_back(std::make_shared<Rdb_event_listener>(&ddl_manager));
o->info_log_level = rocksdb::InfoLogLevel::INFO_LEVEL;
o->max_subcompactions = DEFAULT_SUBCOMPACTIONS;
o->max_open_files = -2; // auto-tune to 50% open_files_limit
o->two_write_queues = true;
o->manual_wal_flush = true;
return o;
}
/* DBOptions contains Statistics and needs to be destructed last */
static std::unique_ptr<rocksdb::BlockBasedTableOptions> rocksdb_tbl_options =
std::unique_ptr<rocksdb::BlockBasedTableOptions>(
new rocksdb::BlockBasedTableOptions());
static std::unique_ptr<rocksdb::DBOptions> rocksdb_db_options =
rdb_init_rocksdb_db_options();
static std::shared_ptr<rocksdb::RateLimiter> rocksdb_rate_limiter;
/* This enum needs to be kept up to date with rocksdb::TxnDBWritePolicy */
static const char *write_policy_names[] = {"write_committed", "write_prepared",
"write_unprepared", NullS};
static TYPELIB write_policy_typelib = {array_elements(write_policy_names) - 1,
"write_policy_typelib",
write_policy_names, nullptr};
#if 0 // MARIAROCKS_NOT_YET : read-free replication is not supported
/* This array needs to be kept up to date with myrocks::read_free_rpl_type */
static const char *read_free_rpl_names[] = {"OFF", "PK_ONLY", "PK_SK", NullS};
static TYPELIB read_free_rpl_typelib = {array_elements(read_free_rpl_names) - 1,
"read_free_rpl_typelib",
read_free_rpl_names, nullptr};
#endif
/* This enum needs to be kept up to date with rocksdb::InfoLogLevel */
static const char *info_log_level_names[] = {"debug_level", "info_level",
"warn_level", "error_level",
"fatal_level", NullS};
static TYPELIB info_log_level_typelib = {
array_elements(info_log_level_names) - 1, "info_log_level_typelib",
info_log_level_names, nullptr};
static void rocksdb_set_rocksdb_info_log_level(
THD *const thd, struct st_mysql_sys_var *const var, void *const var_ptr,
const void *const save) {
DBUG_ASSERT(save != nullptr);
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
rocksdb_info_log_level = *static_cast<const uint64_t *>(save);
rocksdb_db_options->info_log->SetInfoLogLevel(
static_cast<rocksdb::InfoLogLevel>(rocksdb_info_log_level));
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
static void rocksdb_set_rocksdb_stats_level(THD *const thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
const void *const save) {
DBUG_ASSERT(save != nullptr);
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
rocksdb_db_options->statistics->set_stats_level(
static_cast<rocksdb::StatsLevel>(
*static_cast<const uint64_t *>(save)));
// Actual stats level is defined at rocksdb dbopt::statistics::stats_level_
// so adjusting rocksdb_stats_level here to make sure it points to
// the correct stats level.
rocksdb_stats_level = rocksdb_db_options->statistics->get_stats_level();
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
static void rocksdb_set_reset_stats(
my_core::THD *const /* unused */,
my_core::st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr, const void *const save) {
DBUG_ASSERT(save != nullptr);
DBUG_ASSERT(rdb != nullptr);
DBUG_ASSERT(rocksdb_stats != nullptr);
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
*static_cast<bool *>(var_ptr) = *static_cast<const bool *>(save);
if (rocksdb_reset_stats) {
rocksdb::Status s = rdb->ResetStats();
// RocksDB will always return success. Let's document this assumption here
// as well so that we'll get immediately notified when contract changes.
DBUG_ASSERT(s == rocksdb::Status::OK());
s = rocksdb_stats->Reset();
DBUG_ASSERT(s == rocksdb::Status::OK());
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
static void rocksdb_set_io_write_timeout(
my_core::THD *const thd MY_ATTRIBUTE((__unused__)),
my_core::st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr MY_ATTRIBUTE((__unused__)), const void *const save) {
DBUG_ASSERT(save != nullptr);
DBUG_ASSERT(rdb != nullptr);
#if !defined(_WIN32) && !defined(__APPLE__)
DBUG_ASSERT(io_watchdog != nullptr);
#endif
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const uint32_t new_val = *static_cast<const uint32_t *>(save);
rocksdb_io_write_timeout_secs = new_val;
#if !defined(_WIN32) && !defined(__APPLE__)
io_watchdog->reset_timeout(rocksdb_io_write_timeout_secs);
#endif
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
enum rocksdb_flush_log_at_trx_commit_type : unsigned int {
FLUSH_LOG_NEVER = 0,
FLUSH_LOG_SYNC,
FLUSH_LOG_BACKGROUND,
FLUSH_LOG_MAX /* must be last */
};
static int rocksdb_validate_flush_log_at_trx_commit(
THD *const thd,
struct st_mysql_sys_var *const var, /* in: pointer to system variable */
void *var_ptr, /* out: immediate result for update function */
struct st_mysql_value *const value /* in: incoming value */) {
long long new_value;
/* value is NULL */
if (value->val_int(value, &new_value)) {
return HA_EXIT_FAILURE;
}
if (rocksdb_db_options->allow_mmap_writes && new_value != FLUSH_LOG_NEVER) {
return HA_EXIT_FAILURE;
}
*static_cast<uint32_t *>(var_ptr) = static_cast<uint32_t>(new_value);
return HA_EXIT_SUCCESS;
}
static void rocksdb_compact_column_family_stub(
THD *const thd, struct st_mysql_sys_var *const var, void *const var_ptr,
const void *const save) {}
static int rocksdb_compact_column_family(THD *const thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
struct st_mysql_value *const value);
static const char *index_type_names[] = {"kBinarySearch", "kHashSearch", NullS};
static TYPELIB index_type_typelib = {array_elements(index_type_names) - 1,
"index_type_typelib", index_type_names,
nullptr};
const ulong RDB_MAX_LOCK_WAIT_SECONDS = 1024 * 1024 * 1024;
const ulong RDB_DEFAULT_MAX_ROW_LOCKS = 1024 * 1024;
const ulong RDB_MAX_ROW_LOCKS = 1024 * 1024 * 1024;
const ulong RDB_DEFAULT_BULK_LOAD_SIZE = 1000;
const ulong RDB_MAX_BULK_LOAD_SIZE = 1024 * 1024 * 1024;
const size_t RDB_DEFAULT_MERGE_BUF_SIZE = 64 * 1024 * 1024;
const size_t RDB_MIN_MERGE_BUF_SIZE = 100;
const size_t RDB_DEFAULT_MERGE_COMBINE_READ_SIZE = 1024 * 1024 * 1024;
const size_t RDB_MIN_MERGE_COMBINE_READ_SIZE = 100;
const size_t RDB_DEFAULT_MERGE_TMP_FILE_REMOVAL_DELAY = 0;
const size_t RDB_MIN_MERGE_TMP_FILE_REMOVAL_DELAY = 0;
const int64 RDB_DEFAULT_BLOCK_CACHE_SIZE = 512 * 1024 * 1024;
const int64 RDB_MIN_BLOCK_CACHE_SIZE = 1024;
const int RDB_MAX_CHECKSUMS_PCT = 100;
const ulong RDB_DEADLOCK_DETECT_DEPTH = 50;
// TODO: 0 means don't wait at all, and we don't support it yet?
static MYSQL_THDVAR_ULONG(lock_wait_timeout, PLUGIN_VAR_RQCMDARG,
"Number of seconds to wait for lock", nullptr,
nullptr, /*default*/ 1, /*min*/ 1,
/*max*/ RDB_MAX_LOCK_WAIT_SECONDS, 0);
static MYSQL_THDVAR_BOOL(deadlock_detect, PLUGIN_VAR_RQCMDARG,
"Enables deadlock detection", nullptr, nullptr, FALSE);
static MYSQL_THDVAR_ULONG(deadlock_detect_depth, PLUGIN_VAR_RQCMDARG,
"Number of transactions deadlock detection will "
"traverse through before assuming deadlock",
nullptr, nullptr,
/*default*/ RDB_DEADLOCK_DETECT_DEPTH,
/*min*/ 2,
/*max*/ ULONG_MAX, 0);
static MYSQL_THDVAR_BOOL(
commit_time_batch_for_recovery, PLUGIN_VAR_RQCMDARG,
"TransactionOptions::commit_time_batch_for_recovery for RocksDB", nullptr,
nullptr, TRUE);
static MYSQL_THDVAR_BOOL(
trace_sst_api, PLUGIN_VAR_RQCMDARG,
"Generate trace output in the log for each call to the SstFileWriter",
nullptr, nullptr, FALSE);
static MYSQL_THDVAR_BOOL(
bulk_load, PLUGIN_VAR_RQCMDARG,
"Use bulk-load mode for inserts. This disables "
"unique_checks and enables rocksdb_commit_in_the_middle.",
rocksdb_check_bulk_load, nullptr, FALSE);
static MYSQL_THDVAR_BOOL(bulk_load_allow_sk, PLUGIN_VAR_RQCMDARG,
"Allow bulk loading of sk keys during bulk-load. "
"Can be changed only when bulk load is disabled.",
/* Intentionally reuse unsorted's check function */
rocksdb_check_bulk_load_allow_unsorted, nullptr,
FALSE);
static MYSQL_THDVAR_BOOL(bulk_load_allow_unsorted, PLUGIN_VAR_RQCMDARG,
"Allow unsorted input during bulk-load. "
"Can be changed only when bulk load is disabled.",
rocksdb_check_bulk_load_allow_unsorted, nullptr,
FALSE);
static MYSQL_SYSVAR_BOOL(enable_bulk_load_api, rocksdb_enable_bulk_load_api,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Enables using SstFileWriter for bulk loading",
nullptr, nullptr, rocksdb_enable_bulk_load_api);
static MYSQL_SYSVAR_STR(git_hash, rocksdb_git_hash,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Git revision of the RocksDB library used by MyRocks",
nullptr, nullptr, ROCKSDB_GIT_HASH);
static MYSQL_THDVAR_STR(tmpdir, PLUGIN_VAR_OPCMDARG | PLUGIN_VAR_MEMALLOC,
"Directory for temporary files during DDL operations.",
nullptr, nullptr, "");
#define DEFAULT_SKIP_UNIQUE_CHECK_TABLES ".*"
static MYSQL_THDVAR_STR(
skip_unique_check_tables, PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC,
"Skip unique constraint checking for the specified tables", nullptr,
nullptr, DEFAULT_SKIP_UNIQUE_CHECK_TABLES);
static MYSQL_THDVAR_BOOL(
commit_in_the_middle, PLUGIN_VAR_RQCMDARG,
"Commit rows implicitly every rocksdb_bulk_load_size, on bulk load/insert, "
"update and delete",
nullptr, nullptr, FALSE);
static MYSQL_THDVAR_BOOL(
blind_delete_primary_key, PLUGIN_VAR_RQCMDARG,
"Deleting rows by primary key lookup, without reading rows (Blind Deletes)."
" Blind delete is disabled if the table has secondary key",
nullptr, nullptr, FALSE);
#if 0 // MARIAROCKS_NOT_YET : read-free replication is not supported
static const char *DEFAULT_READ_FREE_RPL_TABLES = ".*";
static int rocksdb_validate_read_free_rpl_tables(
THD *thd MY_ATTRIBUTE((__unused__)),
struct st_mysql_sys_var *var MY_ATTRIBUTE((__unused__)), void *save,
struct st_mysql_value *value) {
char buff[STRING_BUFFER_USUAL_SIZE];
int length = sizeof(buff);
const char *wlist_buf = value->val_str(value, buff, &length);
const auto wlist = wlist_buf ? wlist_buf : DEFAULT_READ_FREE_RPL_TABLES;
#if defined(HAVE_PSI_INTERFACE)
Regex_list_handler regex_handler(key_rwlock_read_free_rpl_tables);
#else
Regex_list_handler regex_handler;
#endif
if (!regex_handler.set_patterns(wlist)) {
warn_about_bad_patterns(®ex_handler, "rocksdb_read_free_rpl_tables");
return HA_EXIT_FAILURE;
}
*static_cast<const char **>(save) = my_strdup(wlist, MYF(MY_WME));
return HA_EXIT_SUCCESS;
}
static void rocksdb_update_read_free_rpl_tables(
THD *thd MY_ATTRIBUTE((__unused__)),
struct st_mysql_sys_var *var MY_ATTRIBUTE((__unused__)), void *var_ptr,
const void *save) {
const auto wlist = *static_cast<const char *const *>(save);
DBUG_ASSERT(wlist != nullptr);
// This is bound to succeed since we've already checked for bad patterns in
// rocksdb_validate_read_free_rpl_tables
rdb_read_free_regex_handler.set_patterns(wlist);
// update all table defs
struct Rdb_read_free_rpl_updater : public Rdb_tables_scanner {
int add_table(Rdb_tbl_def *tdef) override {
tdef->check_and_set_read_free_rpl_table();
return HA_EXIT_SUCCESS;
}
} updater;
ddl_manager.scan_for_tables(&updater);
if (wlist == DEFAULT_READ_FREE_RPL_TABLES) {
// If running SET var = DEFAULT, then rocksdb_validate_read_free_rpl_tables
// isn't called, and memory is never allocated for the value. Allocate it
// here.
*static_cast<const char **>(var_ptr) = my_strdup(wlist, MYF(MY_WME));
} else {
// Otherwise, we just reuse the value allocated from
// rocksdb_validate_read_free_rpl_tables.
*static_cast<const char **>(var_ptr) = wlist;
}
}
static MYSQL_SYSVAR_STR(
read_free_rpl_tables, rocksdb_read_free_rpl_tables,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC /*| PLUGIN_VAR_ALLOCATED*/,
"List of tables that will use read-free replication on the slave "
"(i.e. not lookup a row during replication)",
rocksdb_validate_read_free_rpl_tables, rocksdb_update_read_free_rpl_tables,
DEFAULT_READ_FREE_RPL_TABLES);
static MYSQL_SYSVAR_ENUM(
read_free_rpl, rocksdb_read_free_rpl,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC,
"Use read-free replication on the slave (i.e. no row lookup during "
"replication). Default is OFF, PK_SK will enable it on all tables with "
"primary key. PK_ONLY will enable it on tables where the only key is the "
"primary key (i.e. no secondary keys).",
nullptr, nullptr, read_free_rpl_type::OFF, &read_free_rpl_typelib);
#endif
static MYSQL_THDVAR_BOOL(skip_bloom_filter_on_read, PLUGIN_VAR_RQCMDARG,
"Skip using bloom filter for reads", nullptr, nullptr,
FALSE);
static MYSQL_THDVAR_ULONG(max_row_locks, PLUGIN_VAR_RQCMDARG,
"Maximum number of locks a transaction can have",
nullptr, nullptr,
/*default*/ RDB_DEFAULT_MAX_ROW_LOCKS,
/*min*/ 1,
/*max*/ RDB_MAX_ROW_LOCKS, 0);
static MYSQL_THDVAR_ULONGLONG(
write_batch_max_bytes, PLUGIN_VAR_RQCMDARG,
"Maximum size of write batch in bytes. 0 means no limit.", nullptr, nullptr,
/* default */ 0, /* min */ 0, /* max */ SIZE_T_MAX, 1);
static MYSQL_THDVAR_BOOL(
lock_scanned_rows, PLUGIN_VAR_RQCMDARG,
"Take and hold locks on rows that are scanned but not updated", nullptr,
nullptr, FALSE);
static MYSQL_THDVAR_ULONG(bulk_load_size, PLUGIN_VAR_RQCMDARG,
"Max #records in a batch for bulk-load mode", nullptr,
nullptr,
/*default*/ RDB_DEFAULT_BULK_LOAD_SIZE,
/*min*/ 1,
/*max*/ RDB_MAX_BULK_LOAD_SIZE, 0);
static MYSQL_THDVAR_ULONGLONG(
merge_buf_size, PLUGIN_VAR_RQCMDARG,
"Size to allocate for merge sort buffers written out to disk "
"during inplace index creation.",
nullptr, nullptr,
/* default (64MB) */ RDB_DEFAULT_MERGE_BUF_SIZE,
/* min (100B) */ RDB_MIN_MERGE_BUF_SIZE,
/* max */ SIZE_T_MAX, 1);
static MYSQL_THDVAR_ULONGLONG(
merge_combine_read_size, PLUGIN_VAR_RQCMDARG,
"Size that we have to work with during combine (reading from disk) phase "
"of "
"external sort during fast index creation.",
nullptr, nullptr,
/* default (1GB) */ RDB_DEFAULT_MERGE_COMBINE_READ_SIZE,
/* min (100B) */ RDB_MIN_MERGE_COMBINE_READ_SIZE,
/* max */ SIZE_T_MAX, 1);
static MYSQL_THDVAR_ULONGLONG(
merge_tmp_file_removal_delay_ms, PLUGIN_VAR_RQCMDARG,
"Fast index creation creates a large tmp file on disk during index "
"creation. Removing this large file all at once when index creation is "
"complete can cause trim stalls on Flash. This variable specifies a "
"duration to sleep (in milliseconds) between calling chsize() to truncate "
"the file in chunks. The chunk size is the same as merge_buf_size.",
nullptr, nullptr,
/* default (0ms) */ RDB_DEFAULT_MERGE_TMP_FILE_REMOVAL_DELAY,
/* min (0ms) */ RDB_MIN_MERGE_TMP_FILE_REMOVAL_DELAY,
/* max */ SIZE_T_MAX, 1);
static MYSQL_THDVAR_INT(
manual_compaction_threads, PLUGIN_VAR_RQCMDARG,
"How many rocksdb threads to run for manual compactions", nullptr, nullptr,
/* default rocksdb.dboption max_subcompactions */ 0,
/* min */ 0, /* max */ 128, 0);
static MYSQL_SYSVAR_BOOL(
create_if_missing,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->create_if_missing),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::create_if_missing for RocksDB", nullptr, nullptr,
rocksdb_db_options->create_if_missing);
static MYSQL_SYSVAR_BOOL(
two_write_queues,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->two_write_queues),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::two_write_queues for RocksDB", nullptr, nullptr,
rocksdb_db_options->two_write_queues);
static MYSQL_SYSVAR_BOOL(
manual_wal_flush,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->manual_wal_flush),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::manual_wal_flush for RocksDB", nullptr, nullptr,
rocksdb_db_options->manual_wal_flush);
static MYSQL_SYSVAR_ENUM(write_policy, rocksdb_write_policy,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::write_policy for RocksDB", nullptr,
nullptr, rocksdb::TxnDBWritePolicy::WRITE_COMMITTED,
&write_policy_typelib);
static MYSQL_SYSVAR_BOOL(
create_missing_column_families,
*reinterpret_cast<my_bool *>(
&rocksdb_db_options->create_missing_column_families),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::create_missing_column_families for RocksDB", nullptr, nullptr,
rocksdb_db_options->create_missing_column_families);
static MYSQL_SYSVAR_BOOL(
error_if_exists,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->error_if_exists),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::error_if_exists for RocksDB", nullptr, nullptr,
rocksdb_db_options->error_if_exists);
static MYSQL_SYSVAR_BOOL(
paranoid_checks,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->paranoid_checks),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::paranoid_checks for RocksDB", nullptr, nullptr,
rocksdb_db_options->paranoid_checks);
static MYSQL_SYSVAR_ULONGLONG(
rate_limiter_bytes_per_sec, rocksdb_rate_limiter_bytes_per_sec,
PLUGIN_VAR_RQCMDARG, "DBOptions::rate_limiter bytes_per_sec for RocksDB",
nullptr, rocksdb_set_rate_limiter_bytes_per_sec, /* default */ 0L,
/* min */ 0L, /* max */ MAX_RATE_LIMITER_BYTES_PER_SEC, 0);
static MYSQL_SYSVAR_ULONGLONG(
sst_mgr_rate_bytes_per_sec, rocksdb_sst_mgr_rate_bytes_per_sec,
PLUGIN_VAR_RQCMDARG,
"DBOptions::sst_file_manager rate_bytes_per_sec for RocksDB", nullptr,
rocksdb_set_sst_mgr_rate_bytes_per_sec,
/* default */ DEFAULT_SST_MGR_RATE_BYTES_PER_SEC,
/* min */ 0L, /* max */ UINT64_MAX, 0);
static MYSQL_SYSVAR_ULONGLONG(delayed_write_rate, rocksdb_delayed_write_rate,
PLUGIN_VAR_RQCMDARG,
"DBOptions::delayed_write_rate", nullptr,
rocksdb_set_delayed_write_rate,
rocksdb_db_options->delayed_write_rate, 0,
UINT64_MAX, 0);
static MYSQL_SYSVAR_UINT(max_latest_deadlocks, rocksdb_max_latest_deadlocks,
PLUGIN_VAR_RQCMDARG,
"Maximum number of recent "
"deadlocks to store",
nullptr, rocksdb_set_max_latest_deadlocks,
rocksdb::kInitialMaxDeadlocks, 0, UINT32_MAX, 0);
static MYSQL_SYSVAR_ENUM(
info_log_level, rocksdb_info_log_level, PLUGIN_VAR_RQCMDARG,
"Filter level for info logs to be written mysqld error log. "
"Valid values include 'debug_level', 'info_level', 'warn_level'"
"'error_level' and 'fatal_level'.",
nullptr, rocksdb_set_rocksdb_info_log_level,
rocksdb::InfoLogLevel::ERROR_LEVEL, &info_log_level_typelib);
static MYSQL_THDVAR_INT(
perf_context_level, PLUGIN_VAR_RQCMDARG,
"Perf Context Level for rocksdb internal timer stat collection", nullptr,
nullptr,
/* default */ rocksdb::PerfLevel::kUninitialized,
/* min */ rocksdb::PerfLevel::kUninitialized,
/* max */ rocksdb::PerfLevel::kOutOfBounds - 1, 0);
static MYSQL_SYSVAR_UINT(
wal_recovery_mode, rocksdb_wal_recovery_mode, PLUGIN_VAR_RQCMDARG,
"DBOptions::wal_recovery_mode for RocksDB. Default is kAbsoluteConsistency",
nullptr, nullptr,
/* default */ (uint)rocksdb::WALRecoveryMode::kAbsoluteConsistency,
/* min */ (uint)rocksdb::WALRecoveryMode::kTolerateCorruptedTailRecords,
/* max */ (uint)rocksdb::WALRecoveryMode::kSkipAnyCorruptedRecords, 0);
static MYSQL_SYSVAR_UINT(
stats_level, rocksdb_stats_level, PLUGIN_VAR_RQCMDARG,
"Statistics Level for RocksDB. Default is 0 (kExceptHistogramOrTimers)",
nullptr, rocksdb_set_rocksdb_stats_level,
/* default */ (uint)rocksdb::StatsLevel::kExceptHistogramOrTimers,
/* min */ (uint)rocksdb::StatsLevel::kExceptHistogramOrTimers,
/* max */ (uint)rocksdb::StatsLevel::kAll, 0);
static MYSQL_SYSVAR_SIZE_T(compaction_readahead_size,
rocksdb_db_options->compaction_readahead_size,
PLUGIN_VAR_RQCMDARG,
"DBOptions::compaction_readahead_size for RocksDB",
nullptr, nullptr,
rocksdb_db_options->compaction_readahead_size,
/* min */ 0L, /* max */ SIZE_T_MAX, 0);
static MYSQL_SYSVAR_BOOL(
new_table_reader_for_compaction_inputs,
*reinterpret_cast<my_bool *>(
&rocksdb_db_options->new_table_reader_for_compaction_inputs),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::new_table_reader_for_compaction_inputs for RocksDB", nullptr,
nullptr, rocksdb_db_options->new_table_reader_for_compaction_inputs);
static MYSQL_SYSVAR_UINT(
access_hint_on_compaction_start, rocksdb_access_hint_on_compaction_start,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::access_hint_on_compaction_start for RocksDB", nullptr, nullptr,
/* default */ (uint)rocksdb::Options::AccessHint::NORMAL,
/* min */ (uint)rocksdb::Options::AccessHint::NONE,
/* max */ (uint)rocksdb::Options::AccessHint::WILLNEED, 0);
static MYSQL_SYSVAR_BOOL(
allow_concurrent_memtable_write,
*reinterpret_cast<my_bool *>(
&rocksdb_db_options->allow_concurrent_memtable_write),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::allow_concurrent_memtable_write for RocksDB", nullptr, nullptr,
false);
static MYSQL_SYSVAR_BOOL(
enable_write_thread_adaptive_yield,
*reinterpret_cast<my_bool *>(
&rocksdb_db_options->enable_write_thread_adaptive_yield),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::enable_write_thread_adaptive_yield for RocksDB", nullptr,
nullptr, false);
static MYSQL_SYSVAR_INT(max_open_files, rocksdb_db_options->max_open_files,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::max_open_files for RocksDB", nullptr,
nullptr, rocksdb_db_options->max_open_files,
/* min */ -2, /* max */ INT_MAX, 0);
static MYSQL_SYSVAR_UINT64_T(max_total_wal_size,
rocksdb_db_options->max_total_wal_size,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::max_total_wal_size for RocksDB", nullptr,
nullptr, rocksdb_db_options->max_total_wal_size,
/* min */ 0, /* max */ LONGLONG_MAX, 0);
static MYSQL_SYSVAR_BOOL(
use_fsync, *reinterpret_cast<my_bool *>(&rocksdb_db_options->use_fsync),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::use_fsync for RocksDB", nullptr, nullptr,
rocksdb_db_options->use_fsync);
static MYSQL_SYSVAR_STR(wal_dir, rocksdb_wal_dir,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::wal_dir for RocksDB", nullptr, nullptr,
rocksdb_db_options->wal_dir.c_str());
static MYSQL_SYSVAR_STR(
persistent_cache_path, rocksdb_persistent_cache_path,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Path for BlockBasedTableOptions::persistent_cache for RocksDB", nullptr,
nullptr, "");
static MYSQL_SYSVAR_ULONG(
persistent_cache_size_mb, rocksdb_persistent_cache_size_mb,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Size of cache in MB for BlockBasedTableOptions::persistent_cache "
"for RocksDB",
nullptr, nullptr, rocksdb_persistent_cache_size_mb,
/* min */ 0L, /* max */ ULONG_MAX, 0);
static MYSQL_SYSVAR_UINT64_T(
delete_obsolete_files_period_micros,
rocksdb_db_options->delete_obsolete_files_period_micros,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::delete_obsolete_files_period_micros for RocksDB", nullptr,
nullptr, rocksdb_db_options->delete_obsolete_files_period_micros,
/* min */ 0, /* max */ LONGLONG_MAX, 0);
static MYSQL_SYSVAR_INT(max_background_jobs,
rocksdb_db_options->max_background_jobs,
PLUGIN_VAR_RQCMDARG,
"DBOptions::max_background_jobs for RocksDB", nullptr,
rocksdb_set_max_background_jobs,
rocksdb_db_options->max_background_jobs,
/* min */ -1, /* max */ MAX_BACKGROUND_JOBS, 0);
static MYSQL_SYSVAR_UINT(max_subcompactions,
rocksdb_db_options->max_subcompactions,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::max_subcompactions for RocksDB", nullptr,
nullptr, rocksdb_db_options->max_subcompactions,
/* min */ 1, /* max */ MAX_SUBCOMPACTIONS, 0);
static MYSQL_SYSVAR_SIZE_T(max_log_file_size,
rocksdb_db_options->max_log_file_size,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::max_log_file_size for RocksDB", nullptr,
nullptr, rocksdb_db_options->max_log_file_size,
/* min */ 0L, /* max */ SIZE_T_MAX, 0);
static MYSQL_SYSVAR_SIZE_T(log_file_time_to_roll,
rocksdb_db_options->log_file_time_to_roll,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::log_file_time_to_roll for RocksDB",
nullptr, nullptr,
rocksdb_db_options->log_file_time_to_roll,
/* min */ 0L, /* max */ SIZE_T_MAX, 0);
static MYSQL_SYSVAR_SIZE_T(keep_log_file_num,
rocksdb_db_options->keep_log_file_num,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::keep_log_file_num for RocksDB", nullptr,
nullptr, rocksdb_db_options->keep_log_file_num,
/* min */ 0L, /* max */ SIZE_T_MAX, 0);
static MYSQL_SYSVAR_UINT64_T(max_manifest_file_size,
rocksdb_db_options->max_manifest_file_size,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::max_manifest_file_size for RocksDB",
nullptr, nullptr,
rocksdb_db_options->max_manifest_file_size,
/* min */ 0L, /* max */ ULONGLONG_MAX, 0);
static MYSQL_SYSVAR_INT(table_cache_numshardbits,
rocksdb_db_options->table_cache_numshardbits,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::table_cache_numshardbits for RocksDB",
nullptr, nullptr,
rocksdb_db_options->table_cache_numshardbits,
// LRUCache limits this to 19 bits, anything greater
// fails to create a cache and returns a nullptr
/* min */ 0, /* max */ 19, 0);
static MYSQL_SYSVAR_UINT64_T(wal_ttl_seconds, rocksdb_db_options->WAL_ttl_seconds,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::WAL_ttl_seconds for RocksDB", nullptr,
nullptr, rocksdb_db_options->WAL_ttl_seconds,
/* min */ 0L, /* max */ LONGLONG_MAX, 0);
static MYSQL_SYSVAR_UINT64_T(wal_size_limit_mb,
rocksdb_db_options->WAL_size_limit_MB,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::WAL_size_limit_MB for RocksDB", nullptr,
nullptr, rocksdb_db_options->WAL_size_limit_MB,
/* min */ 0L, /* max */ LONGLONG_MAX, 0);
static MYSQL_SYSVAR_SIZE_T(manifest_preallocation_size,
rocksdb_db_options->manifest_preallocation_size,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::manifest_preallocation_size for RocksDB",
nullptr, nullptr,
rocksdb_db_options->manifest_preallocation_size,
/* min */ 0L, /* max */ SIZE_T_MAX, 0);
static MYSQL_SYSVAR_BOOL(
use_direct_reads,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->use_direct_reads),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::use_direct_reads for RocksDB", nullptr, nullptr,
rocksdb_db_options->use_direct_reads);
static MYSQL_SYSVAR_BOOL(
use_direct_io_for_flush_and_compaction,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->use_direct_io_for_flush_and_compaction),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::use_direct_io_for_flush_and_compaction for RocksDB", nullptr, nullptr,
rocksdb_db_options->use_direct_io_for_flush_and_compaction);
static MYSQL_SYSVAR_BOOL(
allow_mmap_reads,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->allow_mmap_reads),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::allow_mmap_reads for RocksDB", nullptr, nullptr,
rocksdb_db_options->allow_mmap_reads);
static MYSQL_SYSVAR_BOOL(
allow_mmap_writes,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->allow_mmap_writes),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::allow_mmap_writes for RocksDB", nullptr, nullptr,
rocksdb_db_options->allow_mmap_writes);
static MYSQL_SYSVAR_BOOL(
is_fd_close_on_exec,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->is_fd_close_on_exec),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::is_fd_close_on_exec for RocksDB", nullptr, nullptr,
rocksdb_db_options->is_fd_close_on_exec);
static MYSQL_SYSVAR_UINT(stats_dump_period_sec,
rocksdb_db_options->stats_dump_period_sec,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::stats_dump_period_sec for RocksDB",
nullptr, nullptr,
rocksdb_db_options->stats_dump_period_sec,
/* min */ 0, /* max */ INT_MAX, 0);
static MYSQL_SYSVAR_BOOL(
advise_random_on_open,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->advise_random_on_open),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::advise_random_on_open for RocksDB", nullptr, nullptr,
rocksdb_db_options->advise_random_on_open);
static MYSQL_SYSVAR_SIZE_T(db_write_buffer_size,
rocksdb_db_options->db_write_buffer_size,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::db_write_buffer_size for RocksDB",
nullptr, nullptr,
rocksdb_db_options->db_write_buffer_size,
/* min */ 0L, /* max */ SIZE_T_MAX, 0);
static MYSQL_SYSVAR_BOOL(
use_adaptive_mutex,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->use_adaptive_mutex),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::use_adaptive_mutex for RocksDB", nullptr, nullptr,
rocksdb_db_options->use_adaptive_mutex);
static MYSQL_SYSVAR_UINT64_T(bytes_per_sync, rocksdb_db_options->bytes_per_sync,
PLUGIN_VAR_RQCMDARG,
"DBOptions::bytes_per_sync for RocksDB", nullptr,
rocksdb_set_bytes_per_sync,
rocksdb_db_options->bytes_per_sync,
/* min */ 0L, /* max */ ULONGLONG_MAX, 0);
static MYSQL_SYSVAR_UINT64_T(wal_bytes_per_sync,
rocksdb_db_options->wal_bytes_per_sync,
PLUGIN_VAR_RQCMDARG,
"DBOptions::wal_bytes_per_sync for RocksDB", nullptr,
rocksdb_set_wal_bytes_per_sync,
rocksdb_db_options->wal_bytes_per_sync,
/* min */ 0L, /* max */ ULONGLONG_MAX, 0);
static MYSQL_SYSVAR_BOOL(
enable_thread_tracking,
*reinterpret_cast<my_bool *>(&rocksdb_db_options->enable_thread_tracking),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"DBOptions::enable_thread_tracking for RocksDB", nullptr, nullptr, true);
static MYSQL_SYSVAR_LONGLONG(block_cache_size, rocksdb_block_cache_size,
PLUGIN_VAR_RQCMDARG,
"block_cache size for RocksDB",
rocksdb_validate_set_block_cache_size, nullptr,
/* default */ RDB_DEFAULT_BLOCK_CACHE_SIZE,
/* min */ RDB_MIN_BLOCK_CACHE_SIZE,
/* max */ LLONG_MAX,
/* Block size */ RDB_MIN_BLOCK_CACHE_SIZE);
static MYSQL_SYSVAR_LONGLONG(sim_cache_size, rocksdb_sim_cache_size,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Simulated cache size for RocksDB", nullptr,
nullptr,
/* default */ 0,
/* min */ 0,
/* max */ LLONG_MAX,
/* Block size */ 0);
static MYSQL_SYSVAR_BOOL(
use_clock_cache, rocksdb_use_clock_cache,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Use ClockCache instead of default LRUCache for RocksDB", nullptr, nullptr,
false);
static MYSQL_SYSVAR_BOOL(cache_dump, rocksdb_cache_dump,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Include RocksDB block cache content in core dump.",
nullptr, nullptr, true);
static MYSQL_SYSVAR_DOUBLE(cache_high_pri_pool_ratio,
rocksdb_cache_high_pri_pool_ratio,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Specify the size of block cache high-pri pool",
nullptr, nullptr, /* default */ 0.0, /* min */ 0.0,
/* max */ 1.0, 0);
static MYSQL_SYSVAR_BOOL(
cache_index_and_filter_blocks,
*reinterpret_cast<my_bool *>(
&rocksdb_tbl_options->cache_index_and_filter_blocks),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"BlockBasedTableOptions::cache_index_and_filter_blocks for RocksDB",
nullptr, nullptr, true);
static MYSQL_SYSVAR_BOOL(
cache_index_and_filter_with_high_priority,
*reinterpret_cast<my_bool *>(
&rocksdb_tbl_options->cache_index_and_filter_blocks_with_high_priority),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"cache_index_and_filter_blocks_with_high_priority for RocksDB", nullptr,
nullptr, true);
// When pin_l0_filter_and_index_blocks_in_cache is true, RocksDB will use the
// LRU cache, but will always keep the filter & idndex block's handle checked
// out (=won't call ShardedLRUCache::Release), plus the parsed out objects
// the LRU cache will never push flush them out, hence they're pinned.
//
// This fixes the mutex contention between :ShardedLRUCache::Lookup and
// ShardedLRUCache::Release which reduced the QPS ratio (QPS using secondary
// index / QPS using PK).
static MYSQL_SYSVAR_BOOL(
pin_l0_filter_and_index_blocks_in_cache,
*reinterpret_cast<my_bool *>(
&rocksdb_tbl_options->pin_l0_filter_and_index_blocks_in_cache),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"pin_l0_filter_and_index_blocks_in_cache for RocksDB", nullptr, nullptr,
true);
static MYSQL_SYSVAR_ENUM(index_type, rocksdb_index_type,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"BlockBasedTableOptions::index_type for RocksDB",
nullptr, nullptr,
(ulong)rocksdb_tbl_options->index_type,
&index_type_typelib);
static MYSQL_SYSVAR_BOOL(
hash_index_allow_collision,
*reinterpret_cast<my_bool *>(
&rocksdb_tbl_options->hash_index_allow_collision),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"BlockBasedTableOptions::hash_index_allow_collision for RocksDB", nullptr,
nullptr, rocksdb_tbl_options->hash_index_allow_collision);
static MYSQL_SYSVAR_BOOL(
no_block_cache,
*reinterpret_cast<my_bool *>(&rocksdb_tbl_options->no_block_cache),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"BlockBasedTableOptions::no_block_cache for RocksDB", nullptr, nullptr,
rocksdb_tbl_options->no_block_cache);
static MYSQL_SYSVAR_SIZE_T(block_size, rocksdb_tbl_options->block_size,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"BlockBasedTableOptions::block_size for RocksDB",
nullptr, nullptr, rocksdb_tbl_options->block_size,
/* min */ 1L, /* max */ SIZE_T_MAX, 0);
static MYSQL_SYSVAR_INT(
block_size_deviation, rocksdb_tbl_options->block_size_deviation,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"BlockBasedTableOptions::block_size_deviation for RocksDB", nullptr,
nullptr, rocksdb_tbl_options->block_size_deviation,
/* min */ 0, /* max */ INT_MAX, 0);
static MYSQL_SYSVAR_INT(
block_restart_interval, rocksdb_tbl_options->block_restart_interval,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"BlockBasedTableOptions::block_restart_interval for RocksDB", nullptr,
nullptr, rocksdb_tbl_options->block_restart_interval,
/* min */ 1, /* max */ INT_MAX, 0);
static MYSQL_SYSVAR_BOOL(
whole_key_filtering,
*reinterpret_cast<my_bool *>(&rocksdb_tbl_options->whole_key_filtering),
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"BlockBasedTableOptions::whole_key_filtering for RocksDB", nullptr, nullptr,
rocksdb_tbl_options->whole_key_filtering);
static MYSQL_SYSVAR_STR(default_cf_options, rocksdb_default_cf_options,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"default cf options for RocksDB", nullptr, nullptr, "");
static MYSQL_SYSVAR_STR(override_cf_options, rocksdb_override_cf_options,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"option overrides per cf for RocksDB", nullptr, nullptr,
"");
static MYSQL_SYSVAR_STR(update_cf_options, rocksdb_update_cf_options,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC
/* psergey-merge: need this? : PLUGIN_VAR_ALLOCATED*/,
"Option updates per column family for RocksDB",
rocksdb_validate_update_cf_options,
rocksdb_set_update_cf_options, nullptr);
static MYSQL_SYSVAR_UINT(flush_log_at_trx_commit,
rocksdb_flush_log_at_trx_commit, PLUGIN_VAR_RQCMDARG,
"Sync on transaction commit. Similar to "
"innodb_flush_log_at_trx_commit. 1: sync on commit, "
"0,2: not sync on commit",
rocksdb_validate_flush_log_at_trx_commit, nullptr,
/* default */ FLUSH_LOG_SYNC,
/* min */ FLUSH_LOG_NEVER,
/* max */ FLUSH_LOG_BACKGROUND, 0);
static MYSQL_THDVAR_BOOL(write_disable_wal, PLUGIN_VAR_RQCMDARG,
"WriteOptions::disableWAL for RocksDB", nullptr,
nullptr, rocksdb::WriteOptions().disableWAL);
static MYSQL_THDVAR_BOOL(
write_ignore_missing_column_families, PLUGIN_VAR_RQCMDARG,
"WriteOptions::ignore_missing_column_families for RocksDB", nullptr,
nullptr, rocksdb::WriteOptions().ignore_missing_column_families);
static MYSQL_THDVAR_BOOL(skip_fill_cache, PLUGIN_VAR_RQCMDARG,
"Skip filling block cache on read requests", nullptr,
nullptr, FALSE);
static MYSQL_THDVAR_BOOL(
unsafe_for_binlog, PLUGIN_VAR_RQCMDARG,
"Allowing statement based binary logging which may break consistency",
nullptr, nullptr, FALSE);
static MYSQL_THDVAR_UINT(records_in_range, PLUGIN_VAR_RQCMDARG,
"Used to override the result of records_in_range(). "
"Set to a positive number to override",
nullptr, nullptr, 0,
/* min */ 0, /* max */ INT_MAX, 0);
static MYSQL_THDVAR_UINT(force_index_records_in_range, PLUGIN_VAR_RQCMDARG,
"Used to override the result of records_in_range() "
"when FORCE INDEX is used.",
nullptr, nullptr, 0,
/* min */ 0, /* max */ INT_MAX, 0);
static MYSQL_SYSVAR_UINT(
debug_optimizer_n_rows, rocksdb_debug_optimizer_n_rows,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY | PLUGIN_VAR_NOSYSVAR,
"Test only to override rocksdb estimates of table size in a memtable",
nullptr, nullptr, 0, /* min */ 0, /* max */ INT_MAX, 0);
static MYSQL_SYSVAR_BOOL(force_compute_memtable_stats,
rocksdb_force_compute_memtable_stats,
PLUGIN_VAR_RQCMDARG,
"Force to always compute memtable stats", nullptr,
nullptr, TRUE);
static MYSQL_SYSVAR_UINT(force_compute_memtable_stats_cachetime,
rocksdb_force_compute_memtable_stats_cachetime,
PLUGIN_VAR_RQCMDARG,
"Time in usecs to cache memtable estimates", nullptr,
nullptr, /* default */ 60 * 1000 * 1000,
/* min */ 0, /* max */ INT_MAX, 0);
static MYSQL_SYSVAR_BOOL(
debug_optimizer_no_zero_cardinality,
rocksdb_debug_optimizer_no_zero_cardinality, PLUGIN_VAR_RQCMDARG,
"In case if cardinality is zero, overrides it with some value", nullptr,
nullptr, TRUE);
static MYSQL_SYSVAR_STR(compact_cf, rocksdb_compact_cf_name,
PLUGIN_VAR_RQCMDARG, "Compact column family",
rocksdb_compact_column_family,
rocksdb_compact_column_family_stub, "");
static MYSQL_SYSVAR_STR(delete_cf, rocksdb_delete_cf_name, PLUGIN_VAR_RQCMDARG,
"Delete column family", rocksdb_delete_column_family,
rocksdb_delete_column_family_stub, "");
static MYSQL_SYSVAR_STR(create_checkpoint, rocksdb_checkpoint_name,
PLUGIN_VAR_RQCMDARG, "Checkpoint directory",
rocksdb_create_checkpoint,
rocksdb_create_checkpoint_stub, "");
static MYSQL_SYSVAR_BOOL(remove_mariabackup_checkpoint,
rocksdb_signal_remove_mariabackup_checkpoint,
PLUGIN_VAR_RQCMDARG, "Remove mariabackup checkpoint",
nullptr, rocksdb_remove_mariabackup_checkpoint, FALSE);
static MYSQL_SYSVAR_BOOL(signal_drop_index_thread,
rocksdb_signal_drop_index_thread, PLUGIN_VAR_RQCMDARG,
"Wake up drop index thread", nullptr,
rocksdb_drop_index_wakeup_thread, FALSE);
static MYSQL_SYSVAR_BOOL(pause_background_work, rocksdb_pause_background_work,
PLUGIN_VAR_RQCMDARG,
"Disable all rocksdb background operations", nullptr,
rocksdb_set_pause_background_work, FALSE);
static MYSQL_SYSVAR_BOOL(
enable_ttl, rocksdb_enable_ttl, PLUGIN_VAR_RQCMDARG,
"Enable expired TTL records to be dropped during compaction.", nullptr,
nullptr, TRUE);
static MYSQL_SYSVAR_BOOL(
enable_ttl_read_filtering, rocksdb_enable_ttl_read_filtering,
PLUGIN_VAR_RQCMDARG,
"For tables with TTL, expired records are skipped/filtered out during "
"processing and in query results. Disabling this will allow these records "
"to be seen, but as a result rows may disappear in the middle of "
"transactions as they are dropped during compaction. Use with caution.",
nullptr, nullptr, TRUE);
static MYSQL_SYSVAR_INT(
debug_ttl_rec_ts, rocksdb_debug_ttl_rec_ts, PLUGIN_VAR_RQCMDARG,
"For debugging purposes only. Overrides the TTL of records to "
"now() + debug_ttl_rec_ts. The value can be +/- to simulate "
"a record inserted in the past vs a record inserted in the 'future'. "
"A value of 0 denotes that the variable is not set. This variable is a "
"no-op in non-debug builds.",
nullptr, nullptr, 0, /* min */ -3600, /* max */ 3600, 0);
static MYSQL_SYSVAR_INT(
debug_ttl_snapshot_ts, rocksdb_debug_ttl_snapshot_ts, PLUGIN_VAR_RQCMDARG,
"For debugging purposes only. Sets the snapshot during compaction to "
"now() + debug_set_ttl_snapshot_ts. The value can be +/- to simulate "
"a snapshot in the past vs a snapshot created in the 'future'. "
"A value of 0 denotes that the variable is not set. This variable is a "
"no-op in non-debug builds.",
nullptr, nullptr, 0, /* min */ -3600, /* max */ 3600, 0);
static MYSQL_SYSVAR_INT(
debug_ttl_read_filter_ts, rocksdb_debug_ttl_read_filter_ts,
PLUGIN_VAR_RQCMDARG,
"For debugging purposes only. Overrides the TTL read filtering time to "
"time + debug_ttl_read_filter_ts. A value of 0 denotes that the variable "
"is not set. This variable is a no-op in non-debug builds.",
nullptr, nullptr, 0, /* min */ -3600, /* max */ 3600, 0);
static MYSQL_SYSVAR_BOOL(
debug_ttl_ignore_pk, rocksdb_debug_ttl_ignore_pk, PLUGIN_VAR_RQCMDARG,
"For debugging purposes only. If true, compaction filtering will not occur "
"on PK TTL data. This variable is a no-op in non-debug builds.",
nullptr, nullptr, FALSE);
static MYSQL_SYSVAR_UINT(
max_manual_compactions, rocksdb_max_manual_compactions, PLUGIN_VAR_RQCMDARG,
"Maximum number of pending + ongoing number of manual compactions.",
nullptr, nullptr, /* default */ 10, /* min */ 0, /* max */ UINT_MAX, 0);
static MYSQL_SYSVAR_BOOL(
rollback_on_timeout, rocksdb_rollback_on_timeout, PLUGIN_VAR_OPCMDARG,
"Whether to roll back the complete transaction or a single statement on "
"lock wait timeout (a single statement by default)",
NULL, NULL, FALSE);
static MYSQL_SYSVAR_UINT(
debug_manual_compaction_delay, rocksdb_debug_manual_compaction_delay,
PLUGIN_VAR_RQCMDARG,
"For debugging purposes only. Sleeping specified seconds "
"for simulating long running compactions.",
nullptr, nullptr, 0, /* min */ 0, /* max */ UINT_MAX, 0);
static MYSQL_SYSVAR_BOOL(
reset_stats, rocksdb_reset_stats, PLUGIN_VAR_RQCMDARG,
"Reset the RocksDB internal statistics without restarting the DB.", nullptr,
rocksdb_set_reset_stats, FALSE);
static MYSQL_SYSVAR_UINT(io_write_timeout, rocksdb_io_write_timeout_secs,
PLUGIN_VAR_RQCMDARG,
"Timeout for experimental I/O watchdog.", nullptr,
rocksdb_set_io_write_timeout, /* default */ 0,
/* min */ 0L,
/* max */ UINT_MAX, 0);
static MYSQL_SYSVAR_BOOL(enable_2pc, rocksdb_enable_2pc, PLUGIN_VAR_RQCMDARG,
"Enable two phase commit for MyRocks", nullptr,
nullptr, TRUE);
static MYSQL_SYSVAR_BOOL(ignore_unknown_options, rocksdb_ignore_unknown_options,
PLUGIN_VAR_OPCMDARG | PLUGIN_VAR_READONLY,
"Enable ignoring unknown options passed to RocksDB",
nullptr, nullptr, TRUE);
static MYSQL_SYSVAR_BOOL(strict_collation_check, rocksdb_strict_collation_check,
PLUGIN_VAR_RQCMDARG,
"Enforce case sensitive collation for MyRocks indexes",
nullptr, nullptr, TRUE);
static MYSQL_SYSVAR_STR(strict_collation_exceptions,
rocksdb_strict_collation_exceptions,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_MEMALLOC,
"List of tables (using regex) that are excluded "
"from the case sensitive collation enforcement",
nullptr, rocksdb_set_collation_exception_list, "");
static MYSQL_SYSVAR_BOOL(collect_sst_properties, rocksdb_collect_sst_properties,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Enables collecting SST file properties on each flush",
nullptr, nullptr, rocksdb_collect_sst_properties);
static MYSQL_SYSVAR_BOOL(
force_flush_memtable_now, rocksdb_force_flush_memtable_now_var,
PLUGIN_VAR_RQCMDARG,
"Forces memstore flush which may block all write requests so be careful",
rocksdb_force_flush_memtable_now, rocksdb_force_flush_memtable_now_stub,
FALSE);
static MYSQL_SYSVAR_BOOL(
force_flush_memtable_and_lzero_now,
rocksdb_force_flush_memtable_and_lzero_now_var, PLUGIN_VAR_RQCMDARG,
"Acts similar to force_flush_memtable_now, but also compacts all L0 files.",
rocksdb_force_flush_memtable_and_lzero_now,
rocksdb_force_flush_memtable_and_lzero_now_stub, FALSE);
static MYSQL_SYSVAR_UINT(
seconds_between_stat_computes, rocksdb_seconds_between_stat_computes,
PLUGIN_VAR_RQCMDARG,
"Sets a number of seconds to wait between optimizer stats recomputation. "
"Only changed indexes will be refreshed.",
nullptr, nullptr, rocksdb_seconds_between_stat_computes,
/* min */ 0L, /* max */ UINT_MAX, 0);
static MYSQL_SYSVAR_LONGLONG(compaction_sequential_deletes,
rocksdb_compaction_sequential_deletes,
PLUGIN_VAR_RQCMDARG,
"RocksDB will trigger compaction for the file if "
"it has more than this number sequential deletes "
"per window",
nullptr, rocksdb_set_compaction_options,
DEFAULT_COMPACTION_SEQUENTIAL_DELETES,
/* min */ 0L,
/* max */ MAX_COMPACTION_SEQUENTIAL_DELETES, 0);
static MYSQL_SYSVAR_LONGLONG(
compaction_sequential_deletes_window,
rocksdb_compaction_sequential_deletes_window, PLUGIN_VAR_RQCMDARG,
"Size of the window for counting rocksdb_compaction_sequential_deletes",
nullptr, rocksdb_set_compaction_options,
DEFAULT_COMPACTION_SEQUENTIAL_DELETES_WINDOW,
/* min */ 0L, /* max */ MAX_COMPACTION_SEQUENTIAL_DELETES_WINDOW, 0);
static MYSQL_SYSVAR_LONGLONG(
compaction_sequential_deletes_file_size,
rocksdb_compaction_sequential_deletes_file_size, PLUGIN_VAR_RQCMDARG,
"Minimum file size required for compaction_sequential_deletes", nullptr,
rocksdb_set_compaction_options, 0L,
/* min */ -1L, /* max */ LLONG_MAX, 0);
static MYSQL_SYSVAR_BOOL(
compaction_sequential_deletes_count_sd,
rocksdb_compaction_sequential_deletes_count_sd, PLUGIN_VAR_RQCMDARG,
"Counting SingleDelete as rocksdb_compaction_sequential_deletes", nullptr,
nullptr, rocksdb_compaction_sequential_deletes_count_sd);
static MYSQL_SYSVAR_BOOL(
print_snapshot_conflict_queries, rocksdb_print_snapshot_conflict_queries,
PLUGIN_VAR_RQCMDARG,
"Logging queries that got snapshot conflict errors into *.err log", nullptr,
nullptr, rocksdb_print_snapshot_conflict_queries);
static MYSQL_THDVAR_INT(checksums_pct, PLUGIN_VAR_RQCMDARG,
"How many percentages of rows to be checksummed",
nullptr, nullptr, RDB_MAX_CHECKSUMS_PCT,
/* min */ 0, /* max */ RDB_MAX_CHECKSUMS_PCT, 0);
static MYSQL_THDVAR_BOOL(store_row_debug_checksums, PLUGIN_VAR_RQCMDARG,
"Include checksums when writing index/table records",
nullptr, nullptr, false /* default value */);
static MYSQL_THDVAR_BOOL(verify_row_debug_checksums, PLUGIN_VAR_RQCMDARG,
"Verify checksums when reading index/table records",
nullptr, nullptr, false /* default value */);
static MYSQL_THDVAR_BOOL(master_skip_tx_api, PLUGIN_VAR_RQCMDARG,
"Skipping holding any lock on row access. "
"Not effective on slave.",
nullptr, nullptr, false);
static MYSQL_SYSVAR_UINT(
validate_tables, rocksdb_validate_tables,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Verify all .frm files match all RocksDB tables (0 means no verification, "
"1 means verify and fail on error, and 2 means verify but continue",
nullptr, nullptr, 1 /* default value */, 0 /* min value */,
2 /* max value */, 0);
static MYSQL_SYSVAR_UINT(
ignore_datadic_errors, rocksdb_ignore_datadic_errors,
PLUGIN_VAR_RQCMDARG | PLUGIN_VAR_READONLY,
"Ignore MyRocks' data directory errors. "
"(CAUTION: Use only to start the server and perform repairs. Do NOT use "
"for regular operation)",
nullptr, nullptr, 0 /* default value */, 0 /* min value */,
1 /* max value */, 0);
static MYSQL_SYSVAR_STR(datadir, rocksdb_datadir,
PLUGIN_VAR_OPCMDARG | PLUGIN_VAR_READONLY,
"RocksDB data directory", nullptr, nullptr,
"./#rocksdb");
static MYSQL_SYSVAR_STR(supported_compression_types,
compression_types_val,
PLUGIN_VAR_NOCMDOPT | PLUGIN_VAR_READONLY,
"Compression algorithms supported by RocksDB",
nullptr, nullptr,
compression_types_val);
static MYSQL_SYSVAR_UINT(
table_stats_sampling_pct, rocksdb_table_stats_sampling_pct,
PLUGIN_VAR_RQCMDARG,
"Percentage of entries to sample when collecting statistics about table "
"properties. Specify either 0 to sample everything or percentage "
"[" STRINGIFY_ARG(RDB_TBL_STATS_SAMPLE_PCT_MIN) ".." STRINGIFY_ARG(
RDB_TBL_STATS_SAMPLE_PCT_MAX) "]. "
"By default " STRINGIFY_ARG(
RDB_DEFAULT_TBL_STATS_SAMPLE_PCT) "% "
"of"
" e"
"nt"
"ri"
"es"
" a"
"re"
" "
"sa"
"mp"
"le"
"d"
".",
nullptr, rocksdb_set_table_stats_sampling_pct, /* default */
RDB_DEFAULT_TBL_STATS_SAMPLE_PCT, /* everything */ 0,
/* max */ RDB_TBL_STATS_SAMPLE_PCT_MAX, 0);
static MYSQL_SYSVAR_UINT(
stats_recalc_rate, rocksdb_stats_recalc_rate, PLUGIN_VAR_RQCMDARG,
"The number of indexes per second to recalculate statistics for. 0 to "
"disable background recalculation.",
nullptr, nullptr, 0 /* default value */, 0 /* min value */,
UINT_MAX /* max value */, 0);
static MYSQL_SYSVAR_BOOL(
large_prefix, rocksdb_large_prefix, PLUGIN_VAR_RQCMDARG,
"Support large index prefix length of 3072 bytes. If off, the maximum "
"index prefix length is 767.",
nullptr, nullptr, FALSE);
static MYSQL_SYSVAR_BOOL(
allow_to_start_after_corruption, rocksdb_allow_to_start_after_corruption,
PLUGIN_VAR_OPCMDARG | PLUGIN_VAR_READONLY,
"Allow server still to start successfully even if RocksDB corruption is "
"detected.",
nullptr, nullptr, FALSE);
static MYSQL_SYSVAR_BOOL(error_on_suboptimal_collation,
rocksdb_error_on_suboptimal_collation,
PLUGIN_VAR_OPCMDARG | PLUGIN_VAR_READONLY,
"Raise an error instead of warning if a sub-optimal "
"collation is used",
nullptr, nullptr, TRUE);
static MYSQL_SYSVAR_BOOL(
enable_insert_with_update_caching,
rocksdb_enable_insert_with_update_caching, PLUGIN_VAR_OPCMDARG,
"Whether to enable optimization where we cache the read from a failed "
"insertion attempt in INSERT ON DUPLICATE KEY UPDATE",
nullptr, nullptr, TRUE);
static const int ROCKSDB_ASSUMED_KEY_VALUE_DISK_SIZE = 100;
static struct st_mysql_sys_var *rocksdb_system_variables[] = {
MYSQL_SYSVAR(lock_wait_timeout),
MYSQL_SYSVAR(deadlock_detect),
MYSQL_SYSVAR(deadlock_detect_depth),
MYSQL_SYSVAR(commit_time_batch_for_recovery),
MYSQL_SYSVAR(max_row_locks),
MYSQL_SYSVAR(write_batch_max_bytes),
MYSQL_SYSVAR(lock_scanned_rows),
MYSQL_SYSVAR(bulk_load),
MYSQL_SYSVAR(bulk_load_allow_sk),
MYSQL_SYSVAR(bulk_load_allow_unsorted),
MYSQL_SYSVAR(skip_unique_check_tables),
MYSQL_SYSVAR(trace_sst_api),
MYSQL_SYSVAR(commit_in_the_middle),
MYSQL_SYSVAR(blind_delete_primary_key),
#if 0 // MARIAROCKS_NOT_YET : read-free replication is not supported
MYSQL_SYSVAR(read_free_rpl_tables),
MYSQL_SYSVAR(read_free_rpl),
#endif
MYSQL_SYSVAR(bulk_load_size),
MYSQL_SYSVAR(merge_buf_size),
MYSQL_SYSVAR(enable_bulk_load_api),
MYSQL_SYSVAR(tmpdir),
MYSQL_SYSVAR(merge_combine_read_size),
MYSQL_SYSVAR(merge_tmp_file_removal_delay_ms),
MYSQL_SYSVAR(skip_bloom_filter_on_read),
MYSQL_SYSVAR(create_if_missing),
MYSQL_SYSVAR(two_write_queues),
MYSQL_SYSVAR(manual_wal_flush),
MYSQL_SYSVAR(write_policy),
MYSQL_SYSVAR(create_missing_column_families),
MYSQL_SYSVAR(error_if_exists),
MYSQL_SYSVAR(paranoid_checks),
MYSQL_SYSVAR(rate_limiter_bytes_per_sec),
MYSQL_SYSVAR(sst_mgr_rate_bytes_per_sec),
MYSQL_SYSVAR(delayed_write_rate),
MYSQL_SYSVAR(max_latest_deadlocks),
MYSQL_SYSVAR(info_log_level),
MYSQL_SYSVAR(max_open_files),
MYSQL_SYSVAR(max_total_wal_size),
MYSQL_SYSVAR(use_fsync),
MYSQL_SYSVAR(wal_dir),
MYSQL_SYSVAR(persistent_cache_path),
MYSQL_SYSVAR(persistent_cache_size_mb),
MYSQL_SYSVAR(delete_obsolete_files_period_micros),
MYSQL_SYSVAR(max_background_jobs),
MYSQL_SYSVAR(max_log_file_size),
MYSQL_SYSVAR(max_subcompactions),
MYSQL_SYSVAR(log_file_time_to_roll),
MYSQL_SYSVAR(keep_log_file_num),
MYSQL_SYSVAR(max_manifest_file_size),
MYSQL_SYSVAR(table_cache_numshardbits),
MYSQL_SYSVAR(wal_ttl_seconds),
MYSQL_SYSVAR(wal_size_limit_mb),
MYSQL_SYSVAR(manifest_preallocation_size),
MYSQL_SYSVAR(use_direct_reads),
MYSQL_SYSVAR(use_direct_io_for_flush_and_compaction),
MYSQL_SYSVAR(allow_mmap_reads),
MYSQL_SYSVAR(allow_mmap_writes),
MYSQL_SYSVAR(is_fd_close_on_exec),
MYSQL_SYSVAR(stats_dump_period_sec),
MYSQL_SYSVAR(advise_random_on_open),
MYSQL_SYSVAR(db_write_buffer_size),
MYSQL_SYSVAR(use_adaptive_mutex),
MYSQL_SYSVAR(bytes_per_sync),
MYSQL_SYSVAR(wal_bytes_per_sync),
MYSQL_SYSVAR(enable_thread_tracking),
MYSQL_SYSVAR(perf_context_level),
MYSQL_SYSVAR(wal_recovery_mode),
MYSQL_SYSVAR(stats_level),
MYSQL_SYSVAR(access_hint_on_compaction_start),
MYSQL_SYSVAR(new_table_reader_for_compaction_inputs),
MYSQL_SYSVAR(compaction_readahead_size),
MYSQL_SYSVAR(allow_concurrent_memtable_write),
MYSQL_SYSVAR(enable_write_thread_adaptive_yield),
MYSQL_SYSVAR(block_cache_size),
MYSQL_SYSVAR(sim_cache_size),
MYSQL_SYSVAR(use_clock_cache),
MYSQL_SYSVAR(cache_high_pri_pool_ratio),
MYSQL_SYSVAR(cache_dump),
MYSQL_SYSVAR(cache_index_and_filter_blocks),
MYSQL_SYSVAR(cache_index_and_filter_with_high_priority),
MYSQL_SYSVAR(pin_l0_filter_and_index_blocks_in_cache),
MYSQL_SYSVAR(index_type),
MYSQL_SYSVAR(hash_index_allow_collision),
MYSQL_SYSVAR(no_block_cache),
MYSQL_SYSVAR(block_size),
MYSQL_SYSVAR(block_size_deviation),
MYSQL_SYSVAR(block_restart_interval),
MYSQL_SYSVAR(whole_key_filtering),
MYSQL_SYSVAR(default_cf_options),
MYSQL_SYSVAR(override_cf_options),
MYSQL_SYSVAR(update_cf_options),
MYSQL_SYSVAR(flush_log_at_trx_commit),
MYSQL_SYSVAR(write_disable_wal),
MYSQL_SYSVAR(write_ignore_missing_column_families),
MYSQL_SYSVAR(skip_fill_cache),
MYSQL_SYSVAR(unsafe_for_binlog),
MYSQL_SYSVAR(records_in_range),
MYSQL_SYSVAR(force_index_records_in_range),
MYSQL_SYSVAR(debug_optimizer_n_rows),
MYSQL_SYSVAR(force_compute_memtable_stats),
MYSQL_SYSVAR(force_compute_memtable_stats_cachetime),
MYSQL_SYSVAR(debug_optimizer_no_zero_cardinality),
MYSQL_SYSVAR(compact_cf),
MYSQL_SYSVAR(delete_cf),
MYSQL_SYSVAR(signal_drop_index_thread),
MYSQL_SYSVAR(pause_background_work),
MYSQL_SYSVAR(enable_2pc),
MYSQL_SYSVAR(ignore_unknown_options),
MYSQL_SYSVAR(strict_collation_check),
MYSQL_SYSVAR(strict_collation_exceptions),
MYSQL_SYSVAR(collect_sst_properties),
MYSQL_SYSVAR(force_flush_memtable_now),
MYSQL_SYSVAR(force_flush_memtable_and_lzero_now),
MYSQL_SYSVAR(enable_ttl),
MYSQL_SYSVAR(enable_ttl_read_filtering),
MYSQL_SYSVAR(debug_ttl_rec_ts),
MYSQL_SYSVAR(debug_ttl_snapshot_ts),
MYSQL_SYSVAR(debug_ttl_read_filter_ts),
MYSQL_SYSVAR(debug_ttl_ignore_pk),
MYSQL_SYSVAR(reset_stats),
MYSQL_SYSVAR(io_write_timeout),
MYSQL_SYSVAR(seconds_between_stat_computes),
MYSQL_SYSVAR(compaction_sequential_deletes),
MYSQL_SYSVAR(compaction_sequential_deletes_window),
MYSQL_SYSVAR(compaction_sequential_deletes_file_size),
MYSQL_SYSVAR(compaction_sequential_deletes_count_sd),
MYSQL_SYSVAR(print_snapshot_conflict_queries),
MYSQL_SYSVAR(datadir),
MYSQL_SYSVAR(supported_compression_types),
MYSQL_SYSVAR(create_checkpoint),
MYSQL_SYSVAR(remove_mariabackup_checkpoint),
MYSQL_SYSVAR(checksums_pct),
MYSQL_SYSVAR(store_row_debug_checksums),
MYSQL_SYSVAR(verify_row_debug_checksums),
MYSQL_SYSVAR(master_skip_tx_api),
MYSQL_SYSVAR(validate_tables),
MYSQL_SYSVAR(table_stats_sampling_pct),
MYSQL_SYSVAR(large_prefix),
MYSQL_SYSVAR(allow_to_start_after_corruption),
MYSQL_SYSVAR(git_hash),
MYSQL_SYSVAR(error_on_suboptimal_collation),
MYSQL_SYSVAR(stats_recalc_rate),
MYSQL_SYSVAR(debug_manual_compaction_delay),
MYSQL_SYSVAR(max_manual_compactions),
MYSQL_SYSVAR(manual_compaction_threads),
MYSQL_SYSVAR(rollback_on_timeout),
MYSQL_SYSVAR(enable_insert_with_update_caching),
MYSQL_SYSVAR(ignore_datadic_errors),
nullptr};
static rocksdb::WriteOptions rdb_get_rocksdb_write_options(
my_core::THD *const thd) {
rocksdb::WriteOptions opt;
opt.sync = (rocksdb_flush_log_at_trx_commit == FLUSH_LOG_SYNC);
opt.disableWAL = THDVAR(thd, write_disable_wal);
opt.ignore_missing_column_families =
THDVAR(thd, write_ignore_missing_column_families);
return opt;
}
static int rocksdb_compact_column_family(THD *const thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
struct st_mysql_value *const value) {
char buff[STRING_BUFFER_USUAL_SIZE];
int len = sizeof(buff);
DBUG_ASSERT(value != nullptr);
if (const char *const cf = value->val_str(value, buff, &len)) {
auto cfh = cf_manager.get_cf(cf);
if (cfh != nullptr && rdb != nullptr) {
int mc_id = rdb_mc_thread.request_manual_compaction(
cfh, nullptr, nullptr, THDVAR(thd, manual_compaction_threads));
if (mc_id == -1) {
my_error(ER_INTERNAL_ERROR, MYF(0),
"Can't schedule more manual compactions. "
"Increase rocksdb_max_manual_compactions or stop issuing "
"more manual compactions.");
return HA_EXIT_FAILURE;
} else if (mc_id < 0) {
return HA_EXIT_FAILURE;
}
// NO_LINT_DEBUG
sql_print_information("RocksDB: Manual compaction of column family: %s\n",
cf);
// Checking thd state every short cycle (100ms). This is for allowing to
// exiting this function without waiting for CompactRange to finish.
do {
my_sleep(100000);
} while (!thd->killed &&
!rdb_mc_thread.is_manual_compaction_finished(mc_id));
if (thd->killed) {
// This cancels if requested compaction state is INITED.
// TODO(yoshinorim): Cancel running compaction as well once
// it is supported in RocksDB.
rdb_mc_thread.clear_manual_compaction_request(mc_id, true);
}
}
}
return HA_EXIT_SUCCESS;
}
///////////////////////////////////////////////////////////////////////////////////////////
/*
Drop index thread's control
*/
static Rdb_drop_index_thread rdb_drop_idx_thread;
static void rocksdb_drop_index_wakeup_thread(
my_core::THD *const thd MY_ATTRIBUTE((__unused__)),
struct st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr MY_ATTRIBUTE((__unused__)), const void *const save) {
if (*static_cast<const bool *>(save)) {
rdb_drop_idx_thread.signal();
}
}
static inline uint32_t rocksdb_perf_context_level(THD *const thd) {
DBUG_ASSERT(thd != nullptr);
const int session_perf_context_level = THDVAR(thd, perf_context_level);
if (session_perf_context_level > rocksdb::PerfLevel::kUninitialized) {
return session_perf_context_level;
}
/*
Fallback to global thdvar, if session specific one was not set to a valid
value.
*/
const int global_perf_context_level = THDVAR(nullptr, perf_context_level);
if (global_perf_context_level > rocksdb::PerfLevel::kUninitialized) {
return global_perf_context_level;
}
return rocksdb::PerfLevel::kDisable;
}
/*
Very short (functor-like) interface to be passed to
Rdb_transaction::walk_tx_list()
*/
interface Rdb_tx_list_walker {
virtual ~Rdb_tx_list_walker() {}
virtual void process_tran(const Rdb_transaction *const) = 0;
};
/*
This is a helper class that is passed to RocksDB to get notifications when
a snapshot gets created.
*/
class Rdb_snapshot_notifier : public rocksdb::TransactionNotifier {
Rdb_transaction *m_owning_tx;
void SnapshotCreated(const rocksdb::Snapshot *snapshot) override;
public:
Rdb_snapshot_notifier(const Rdb_snapshot_notifier &) = delete;
Rdb_snapshot_notifier &operator=(const Rdb_snapshot_notifier &) = delete;
explicit Rdb_snapshot_notifier(Rdb_transaction *const owning_tx)
: m_owning_tx(owning_tx) {}
// If the owning Rdb_transaction gets destructed we need to not reference
// it anymore.
void detach() { m_owning_tx = nullptr; }
};
#ifdef MARIAROCKS_NOT_YET
// ER_LOCK_WAIT_TIMEOUT error also has a reason in facebook/mysql-5.6
#endif
String timeout_message(const char *command, const char *name1,
const char *name2)
{
String msg;
msg.append(STRING_WITH_LEN("Timeout on "));
msg.append(command, strlen(command));
msg.append(STRING_WITH_LEN(": "));
msg.append(name1, strlen(name1));
if (name2 && name2[0])
{
msg.append('.');
msg.append(name2, strlen(name2));
}
return msg;
}
/* This is the base class for transactions when interacting with rocksdb.
*/
class Rdb_transaction {
protected:
ulonglong m_write_count = 0;
ulonglong m_insert_count = 0;
ulonglong m_update_count = 0;
ulonglong m_delete_count = 0;
ulonglong m_lock_count = 0;
std::unordered_map<GL_INDEX_ID, ulonglong> m_auto_incr_map;
bool m_is_delayed_snapshot = false;
bool m_is_two_phase = false;
std::unordered_set<Rdb_tbl_def*> modified_tables;
private:
/*
Number of write operations this transaction had when we took the last
savepoint (the idea is not to take another savepoint if we haven't made
any changes)
*/
ulonglong m_writes_at_last_savepoint;
protected:
protected:
THD *m_thd = nullptr;
static std::multiset<Rdb_transaction *> s_tx_list;
static mysql_mutex_t s_tx_list_mutex;
Rdb_io_perf *m_tbl_io_perf;
bool m_tx_read_only = false;
int m_timeout_sec; /* Cached value of @@rocksdb_lock_wait_timeout */
/* Maximum number of locks the transaction can have */
ulonglong m_max_row_locks;
bool m_is_tx_failed = false;
bool m_rollback_only = false;
std::shared_ptr<Rdb_snapshot_notifier> m_notifier;
// This should be used only when updating binlog information.
virtual rocksdb::WriteBatchBase *get_write_batch() = 0;
virtual bool commit_no_binlog() = 0;
virtual rocksdb::Iterator *get_iterator(
const rocksdb::ReadOptions &options,
rocksdb::ColumnFamilyHandle *column_family) = 0;
protected:
/*
The following two are helper functions to be overloaded by child classes.
They should provide RocksDB's savepoint semantics.
*/
virtual void do_set_savepoint() = 0;
virtual void do_rollback_to_savepoint() = 0;
/*
@detail
This function takes in the WriteBatch of the transaction to add
all the AUTO_INCREMENT merges. It does so by iterating through
m_auto_incr_map and then constructing key/value pairs to call merge upon.
@param wb
*/
rocksdb::Status merge_auto_incr_map(rocksdb::WriteBatchBase *const wb) {
DBUG_EXECUTE_IF("myrocks_autoinc_upgrade", return rocksdb::Status::OK(););
// Iterate through the merge map merging all keys into data dictionary.
rocksdb::Status s;
for (auto &it : m_auto_incr_map) {
s = dict_manager.put_auto_incr_val(wb, it.first, it.second);
if (!s.ok()) {
return s;
}
}
m_auto_incr_map.clear();
return s;
}
public:
rocksdb::ReadOptions m_read_opts;
const char *m_mysql_log_file_name;
my_off_t m_mysql_log_offset;
#ifdef MARIAROCKS_NOT_YET
// TODO: MariaDB probably doesn't need these at all:
const char *m_mysql_gtid;
const char *m_mysql_max_gtid;
#endif
String m_detailed_error;
int64_t m_snapshot_timestamp = 0;
bool m_ddl_transaction;
#ifdef MARIAROCKS_NOT_YET
std::shared_ptr<Rdb_explicit_snapshot> m_explicit_snapshot;
#endif
/*
Tracks the number of tables in use through external_lock.
This should not be reset during start_tx().
*/
int64_t m_n_mysql_tables_in_use = 0;
/*
MariaDB's group commit:
*/
bool commit_ordered_done;
bool commit_ordered_res;
/*
for distinction between rdb_transaction_impl and rdb_writebatch_impl
when using walk tx list
*/
virtual bool is_writebatch_trx() const = 0;
static void init_mutex() {
mysql_mutex_init(key_mutex_tx_list, &s_tx_list_mutex, MY_MUTEX_INIT_FAST);
}
static void term_mutex() {
DBUG_ASSERT(s_tx_list.size() == 0);
mysql_mutex_destroy(&s_tx_list_mutex);
}
static void walk_tx_list(Rdb_tx_list_walker *walker) {
DBUG_ASSERT(walker != nullptr);
RDB_MUTEX_LOCK_CHECK(s_tx_list_mutex);
for (auto it : s_tx_list) {
walker->process_tran(it);
}
RDB_MUTEX_UNLOCK_CHECK(s_tx_list_mutex);
}
int set_status_error(THD *const thd, const rocksdb::Status &s,
const Rdb_key_def &kd, Rdb_tbl_def *const tbl_def,
Rdb_table_handler *const table_handler) {
DBUG_ASSERT(!s.ok());
DBUG_ASSERT(tbl_def != nullptr);
if (s.IsTimedOut()) {
/*
SQL layer has weird expectations. If we return an error when
doing a read in DELETE IGNORE, it will ignore the error ("because it's
an IGNORE command!) but then will fail an assert, because "error code
was returned, but no error happened". Do what InnoDB's
convert_error_code_to_mysql() does: force a statement
rollback before returning HA_ERR_LOCK_WAIT_TIMEOUT:
*/
my_core::thd_mark_transaction_to_rollback(
thd, static_cast<bool>(rocksdb_rollback_on_timeout));
m_detailed_error.copy(timeout_message(
"index", tbl_def->full_tablename().c_str(), kd.get_name().c_str()));
table_handler->m_lock_wait_timeout_counter.inc();
rocksdb_row_lock_wait_timeouts++;
return HA_ERR_LOCK_WAIT_TIMEOUT;
}
if (s.IsDeadlock()) {
my_core::thd_mark_transaction_to_rollback(thd,
true /* whole transaction */);
m_detailed_error = String();
table_handler->m_deadlock_counter.inc();
rocksdb_row_lock_deadlocks++;
return HA_ERR_LOCK_DEADLOCK;
} else if (s.IsBusy()) {
rocksdb_snapshot_conflict_errors++;
if (rocksdb_print_snapshot_conflict_queries) {
char user_host_buff[MAX_USER_HOST_SIZE + 1];
make_user_name(thd, user_host_buff);
// NO_LINT_DEBUG
sql_print_warning(
"Got snapshot conflict errors: User: %s "
"Query: %s",
user_host_buff, thd->query());
}
m_detailed_error = String(STRING_WITH_LEN(" (snapshot conflict)"),
system_charset_info);
table_handler->m_deadlock_counter.inc();
return HA_ERR_ROCKSDB_STATUS_BUSY;
}
if (s.IsIOError() || s.IsCorruption()) {
rdb_handle_io_error(s, RDB_IO_ERROR_GENERAL);
}
return ha_rocksdb::rdb_error_to_mysql(s);
}
THD *get_thd() const { return m_thd; }
/* Used for tracking io_perf counters */
void io_perf_start(Rdb_io_perf *const io_perf) {
/*
Since perf_context is tracked per thread, it is difficult and expensive
to maintain perf_context on a per table basis. Therefore, roll all
perf_context data into the first table used in a query. This works well
for single table queries and is probably good enough for queries that hit
multiple tables.
perf_context stats gathering is started when the table lock is acquired
or when ha_rocksdb::start_stmt is called in case of LOCK TABLES. They
are recorded when the table lock is released, or when commit/rollback
is called on the transaction, whichever comes first. Table lock release
and commit/rollback can happen in different orders. In the case where
the lock is released before commit/rollback is called, an extra step to
gather stats during commit/rollback is needed.
*/
if (m_tbl_io_perf == nullptr &&
io_perf->start(rocksdb_perf_context_level(m_thd))) {
m_tbl_io_perf = io_perf;
}
}
void io_perf_end_and_record(void) {
if (m_tbl_io_perf != nullptr) {
m_tbl_io_perf->end_and_record(rocksdb_perf_context_level(m_thd));
m_tbl_io_perf = nullptr;
}
}
void io_perf_end_and_record(Rdb_io_perf *const io_perf) {
if (m_tbl_io_perf == io_perf) {
io_perf_end_and_record();
}
}
void update_bytes_written(ulonglong bytes_written) {
if (m_tbl_io_perf != nullptr) {
m_tbl_io_perf->update_bytes_written(rocksdb_perf_context_level(m_thd),
bytes_written);
}
}
void set_params(int timeout_sec_arg, int max_row_locks_arg) {
m_timeout_sec = timeout_sec_arg;
m_max_row_locks = max_row_locks_arg;
set_lock_timeout(timeout_sec_arg);
}
virtual void set_lock_timeout(int timeout_sec_arg) = 0;
ulonglong get_write_count() const { return m_write_count; }
ulonglong get_insert_count() const { return m_insert_count; }
ulonglong get_update_count() const { return m_update_count; }
ulonglong get_delete_count() const { return m_delete_count; }
void incr_insert_count() { ++m_insert_count; }
void incr_update_count() { ++m_update_count; }
void incr_delete_count() { ++m_delete_count; }
int get_timeout_sec() const { return m_timeout_sec; }
ulonglong get_lock_count() const { return m_lock_count; }
virtual void set_sync(bool sync) = 0;
virtual void release_lock(rocksdb::ColumnFamilyHandle *const column_family,
const std::string &rowkey) = 0;
virtual bool prepare(const rocksdb::TransactionName &name) = 0;
bool commit_or_rollback() {
bool res;
if (m_is_tx_failed) {
rollback();
res = false;
} else {
res = commit();
}
return res;
}
bool commit() {
if (get_write_count() == 0) {
rollback();
return false;
} else if (m_rollback_only) {
/*
Transactions marked as rollback_only are expected to be rolled back at
prepare(). But there are some exceptions like below that prepare() is
never called and commit() is called instead.
1. Binlog is disabled
2. No modification exists in binlog cache for the transaction (#195)
In both cases, rolling back transaction is safe. Nothing is written to
binlog.
*/
my_error(ER_ROLLBACK_ONLY, MYF(0));
rollback();
return true;
} else {
#ifdef MARIAROCKS_NOT_YET
/*
Storing binlog position inside MyRocks is needed only for restoring
MyRocks from backups. This feature is not supported yet.
*/
mysql_bin_log_commit_pos(m_thd, &m_mysql_log_offset,
&m_mysql_log_file_name);
binlog_manager.update(m_mysql_log_file_name, m_mysql_log_offset,
get_write_batch());
#endif
return commit_no_binlog();
}
}
virtual void rollback() = 0;
void snapshot_created(const rocksdb::Snapshot *const snapshot) {
DBUG_ASSERT(snapshot != nullptr);
m_read_opts.snapshot = snapshot;
rdb->GetEnv()->GetCurrentTime(&m_snapshot_timestamp);
m_is_delayed_snapshot = false;
}
virtual void acquire_snapshot(bool acquire_now) = 0;
virtual void release_snapshot() = 0;
bool has_snapshot() const { return m_read_opts.snapshot != nullptr; }
private:
// The Rdb_sst_info structures we are currently loading. In a partitioned
// table this can have more than one entry
std::vector<std::shared_ptr<Rdb_sst_info>> m_curr_bulk_load;
std::string m_curr_bulk_load_tablename;
/* External merge sorts for bulk load: key ID -> merge sort instance */
std::unordered_map<GL_INDEX_ID, Rdb_index_merge> m_key_merge;
public:
int get_key_merge(GL_INDEX_ID kd_gl_id, rocksdb::ColumnFamilyHandle *cf,
Rdb_index_merge **key_merge) {
int res;
auto it = m_key_merge.find(kd_gl_id);
if (it == m_key_merge.end()) {
m_key_merge.emplace(
std::piecewise_construct, std::make_tuple(kd_gl_id),
std::make_tuple(
get_rocksdb_tmpdir(), THDVAR(get_thd(), merge_buf_size),
THDVAR(get_thd(), merge_combine_read_size),
THDVAR(get_thd(), merge_tmp_file_removal_delay_ms), cf));
it = m_key_merge.find(kd_gl_id);
if ((res = it->second.init()) != 0) {
return res;
}
}
*key_merge = &it->second;
return HA_EXIT_SUCCESS;
}
/* Finish bulk loading for all table handlers belongs to one connection */
int finish_bulk_load(bool *is_critical_error = nullptr,
int print_client_error = true) {
Ensure_cleanup cleanup([&]() {
// Always clear everything regardless of success/failure
m_curr_bulk_load.clear();
m_curr_bulk_load_tablename.clear();
m_key_merge.clear();
});
int rc = 0;
if (is_critical_error) {
*is_critical_error = true;
}
// PREPARE phase: finish all on-going bulk loading Rdb_sst_info and
// collect all Rdb_sst_commit_info containing (SST files, cf)
int rc2 = 0;
std::vector<Rdb_sst_info::Rdb_sst_commit_info> sst_commit_list;
sst_commit_list.reserve(m_curr_bulk_load.size());
for (auto &sst_info : m_curr_bulk_load) {
Rdb_sst_info::Rdb_sst_commit_info commit_info;
// Commit the list of SST files and move it to the end of
// sst_commit_list, effectively transfer the ownership over
rc2 = sst_info->finish(&commit_info, print_client_error);
if (rc2 && rc == 0) {
// Don't return yet - make sure we finish all the SST infos
rc = rc2;
}
// Make sure we have work to do - we might be losing the race
if (rc2 == 0 && commit_info.has_work()) {
sst_commit_list.emplace_back(std::move(commit_info));
DBUG_ASSERT(!commit_info.has_work());
}
}
if (rc) {
return rc;
}
// MERGING Phase: Flush the index_merge sort buffers into SST files in
// Rdb_sst_info and collect all Rdb_sst_commit_info containing
// (SST files, cf)
if (!m_key_merge.empty()) {
Ensure_cleanup malloc_cleanup([]() {
/*
Explicitly tell jemalloc to clean up any unused dirty pages at this
point.
See https://reviews.facebook.net/D63723 for more details.
*/
purge_all_jemalloc_arenas();
});
rocksdb::Slice merge_key;
rocksdb::Slice merge_val;
for (auto it = m_key_merge.begin(); it != m_key_merge.end(); it++) {
GL_INDEX_ID index_id = it->first;
std::shared_ptr<const Rdb_key_def> keydef =
ddl_manager.safe_find(index_id);
std::string table_name = ddl_manager.safe_get_table_name(index_id);
// Unable to find key definition or table name since the
// table could have been dropped.
// TODO(herman): there is a race here between dropping the table
// and detecting a drop here. If the table is dropped while bulk
// loading is finishing, these keys being added here may
// be missed by the compaction filter and not be marked for
// removal. It is unclear how to lock the sql table from the storage
// engine to prevent modifications to it while bulk load is occurring.
if (keydef == nullptr) {
if (is_critical_error) {
// We used to set the error but simply ignores it. This follows
// current behavior and we should revisit this later
*is_critical_error = false;
}
return HA_ERR_KEY_NOT_FOUND;
} else if (table_name.empty()) {
if (is_critical_error) {
// We used to set the error but simply ignores it. This follows
// current behavior and we should revisit this later
*is_critical_error = false;
}
return HA_ERR_NO_SUCH_TABLE;
}
const std::string &index_name = keydef->get_name();
Rdb_index_merge &rdb_merge = it->second;
// Rdb_sst_info expects a denormalized table name in the form of
// "./database/table"
std::replace(table_name.begin(), table_name.end(), '.', '/');
table_name = "./" + table_name;
auto sst_info = std::make_shared<Rdb_sst_info>(
rdb, table_name, index_name, rdb_merge.get_cf(),
*rocksdb_db_options, THDVAR(get_thd(), trace_sst_api));
while ((rc2 = rdb_merge.next(&merge_key, &merge_val)) == 0) {
if ((rc2 = sst_info->put(merge_key, merge_val)) != 0) {
rc = rc2;
// Don't return yet - make sure we finish the sst_info
break;
}
}
// -1 => no more items
if (rc2 != -1 && rc != 0) {
rc = rc2;
}
Rdb_sst_info::Rdb_sst_commit_info commit_info;
rc2 = sst_info->finish(&commit_info, print_client_error);
if (rc2 != 0 && rc == 0) {
// Only set the error from sst_info->finish if finish failed and we
// didn't fail before. In other words, we don't have finish's
// success mask earlier failures
rc = rc2;
}
if (rc) {
return rc;
}
if (commit_info.has_work()) {
sst_commit_list.emplace_back(std::move(commit_info));
DBUG_ASSERT(!commit_info.has_work());
}
}
}
// Early return in case we lost the race completely and end up with no
// work at all
if (sst_commit_list.size() == 0) {
return rc;
}
// INGEST phase: Group all Rdb_sst_commit_info by cf (as they might
// have the same cf across different indexes) and call out to RocksDB
// to ingest all SST files in one atomic operation
rocksdb::IngestExternalFileOptions options;
options.move_files = true;
options.snapshot_consistency = false;
options.allow_global_seqno = false;
options.allow_blocking_flush = false;
std::map<rocksdb::ColumnFamilyHandle *, rocksdb::IngestExternalFileArg>
arg_map;
// Group by column_family
for (auto &commit_info : sst_commit_list) {
if (arg_map.find(commit_info.get_cf()) == arg_map.end()) {
rocksdb::IngestExternalFileArg arg;
arg.column_family = commit_info.get_cf(),
arg.external_files = commit_info.get_committed_files(),
arg.options = options;
arg_map.emplace(commit_info.get_cf(), arg);
} else {
auto &files = arg_map[commit_info.get_cf()].external_files;
files.insert(files.end(), commit_info.get_committed_files().begin(),
commit_info.get_committed_files().end());
}
}
std::vector<rocksdb::IngestExternalFileArg> args;
size_t file_count = 0;
for (auto &cf_files_pair : arg_map) {
args.push_back(cf_files_pair.second);
file_count += cf_files_pair.second.external_files.size();
}
const rocksdb::Status s = rdb->IngestExternalFiles(args);
if (THDVAR(m_thd, trace_sst_api)) {
// NO_LINT_DEBUG
sql_print_information(
"SST Tracing: IngestExternalFile '%zu' files returned %s", file_count,
s.ok() ? "ok" : "not ok");
}
if (!s.ok()) {
if (print_client_error) {
Rdb_sst_info::report_error_msg(s, nullptr);
}
return HA_ERR_ROCKSDB_BULK_LOAD;
}
// COMMIT phase: mark everything as completed. This avoids SST file
// deletion kicking in. Otherwise SST files would get deleted if this
// entire operation is aborted
for (auto &commit_info : sst_commit_list) {
commit_info.commit();
}
return rc;
}
int start_bulk_load(ha_rocksdb *const bulk_load,
std::shared_ptr<Rdb_sst_info> sst_info) {
/*
If we already have an open bulk load of a table and the name doesn't
match the current one, close out the currently running one. This allows
multiple bulk loads to occur on a partitioned table, but then closes
them all out when we switch to another table.
*/
DBUG_ASSERT(bulk_load != nullptr);
if (!m_curr_bulk_load.empty() &&
bulk_load->get_table_basename() != m_curr_bulk_load_tablename) {
const auto res = finish_bulk_load();
if (res != HA_EXIT_SUCCESS) {
return res;
}
}
/*
This used to track ha_rocksdb handler objects, but those can be
freed by the table cache while this was referencing them. Instead
of tracking ha_rocksdb handler objects, this now tracks the
Rdb_sst_info allocated, and both the ha_rocksdb handler and the
Rdb_transaction both have shared pointers to them.
On transaction complete, it will commit each Rdb_sst_info structure found.
If the ha_rocksdb object is freed, etc., it will also commit
the Rdb_sst_info. The Rdb_sst_info commit path needs to be idempotent.
*/
m_curr_bulk_load.push_back(sst_info);
m_curr_bulk_load_tablename = bulk_load->get_table_basename();
return HA_EXIT_SUCCESS;
}
int num_ongoing_bulk_load() const { return m_curr_bulk_load.size(); }
const char *get_rocksdb_tmpdir() const {
const char *tmp_dir = THDVAR(get_thd(), tmpdir);
/*
We want to treat an empty string as nullptr, in these cases DDL operations
will use the default --tmpdir passed to mysql instead.
*/
if (tmp_dir != nullptr && *tmp_dir == '\0') {
tmp_dir = nullptr;
}
return (tmp_dir);
}
/*
Flush the data accumulated so far. This assumes we're doing a bulk insert.
@detail
This should work like transaction commit, except that we don't
synchronize with the binlog (there is no API that would allow to have
binlog flush the changes accumulated so far and return its current
position)
@todo
Add test coverage for what happens when somebody attempts to do bulk
inserts while inside a multi-statement transaction.
*/
bool flush_batch() {
if (get_write_count() == 0) return false;
/* Commit the current transaction */
if (commit_no_binlog()) return true;
/* Start another one */
start_tx();
return false;
}
void set_auto_incr(const GL_INDEX_ID &gl_index_id, ulonglong curr_id) {
m_auto_incr_map[gl_index_id] =
std::max(m_auto_incr_map[gl_index_id], curr_id);
}
#ifndef DBUG_OFF
ulonglong get_auto_incr(const GL_INDEX_ID &gl_index_id) {
if (m_auto_incr_map.count(gl_index_id) > 0) {
return m_auto_incr_map[gl_index_id];
}
return 0;
}
#endif
virtual rocksdb::Status put(rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key,
const rocksdb::Slice &value,
const bool assume_tracked) = 0;
virtual rocksdb::Status delete_key(
rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, const bool assume_tracked) = 0;
virtual rocksdb::Status single_delete(
rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, const bool assume_tracked) = 0;
virtual bool has_modifications() const = 0;
virtual rocksdb::WriteBatchBase *get_indexed_write_batch() = 0;
/*
Return a WriteBatch that one can write to. The writes will skip any
transaction locking. The writes will NOT be visible to the transaction.
*/
rocksdb::WriteBatchBase *get_blind_write_batch() {
return get_indexed_write_batch()->GetWriteBatch();
}
virtual rocksdb::Status get(rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key,
rocksdb::PinnableSlice *const value) const = 0;
virtual rocksdb::Status get_for_update(
rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, rocksdb::PinnableSlice *const value,
bool exclusive, const bool do_validate) = 0;
rocksdb::Iterator *get_iterator(
rocksdb::ColumnFamilyHandle *const column_family, bool skip_bloom_filter,
bool fill_cache, const rocksdb::Slice &eq_cond_lower_bound,
const rocksdb::Slice &eq_cond_upper_bound, bool read_current = false,
bool create_snapshot = true) {
// Make sure we are not doing both read_current (which implies we don't
// want a snapshot) and create_snapshot which makes sure we create
// a snapshot
DBUG_ASSERT(column_family != nullptr);
DBUG_ASSERT(!read_current || !create_snapshot);
if (create_snapshot) acquire_snapshot(true);
rocksdb::ReadOptions options = m_read_opts;
if (skip_bloom_filter) {
options.total_order_seek = true;
options.iterate_lower_bound = &eq_cond_lower_bound;
options.iterate_upper_bound = &eq_cond_upper_bound;
} else {
// With this option, Iterator::Valid() returns false if key
// is outside of the prefix bloom filter range set at Seek().
// Must not be set to true if not using bloom filter.
options.prefix_same_as_start = true;
}
options.fill_cache = fill_cache;
if (read_current) {
options.snapshot = nullptr;
}
return get_iterator(options, column_family);
}
virtual bool is_tx_started() const = 0;
virtual void start_tx() = 0;
virtual void start_stmt() = 0;
protected:
// Non-virtual functions with actions to be done on transaction start and
// commit.
void on_commit() {
time_t tm;
tm = time(nullptr);
for (auto &it : modified_tables) {
it->m_update_time = tm;
}
modified_tables.clear();
}
void on_rollback() {
modified_tables.clear();
}
public:
// Inform the transaction that this table was modified
void log_table_write_op(Rdb_tbl_def *tbl) {
modified_tables.insert(tbl);
}
void set_initial_savepoint() {
/*
Set the initial savepoint. If the first statement in the transaction
fails, we need something to roll back to, without rolling back the
entire transaction.
*/
do_set_savepoint();
m_writes_at_last_savepoint = m_write_count;
}
/*
Called when a "top-level" statement inside a transaction completes
successfully and its changes become part of the transaction's changes.
*/
int make_stmt_savepoint_permanent() {
// Take another RocksDB savepoint only if we had changes since the last
// one. This is very important for long transactions doing lots of
// SELECTs.
if (m_writes_at_last_savepoint != m_write_count) {
rocksdb::WriteBatchBase *batch = get_write_batch();
rocksdb::Status status = rocksdb::Status::NotFound();
while ((status = batch->PopSavePoint()) == rocksdb::Status::OK()) {
}
if (status != rocksdb::Status::NotFound()) {
return HA_EXIT_FAILURE;
}
do_set_savepoint();
m_writes_at_last_savepoint = m_write_count;
}
return HA_EXIT_SUCCESS;
}
/*
Rollback to the savepoint we've set before the last statement
*/
void rollback_to_stmt_savepoint() {
if (m_writes_at_last_savepoint != m_write_count) {
do_rollback_to_savepoint();
/*
RollbackToSavePoint "removes the most recent SetSavePoint()", so
we need to set it again so that next statement can roll back to this
stage.
It's ok to do it here at statement end (instead of doing it at next
statement start) because setting a savepoint is cheap.
*/
do_set_savepoint();
m_writes_at_last_savepoint = m_write_count;
}
}
virtual void rollback_stmt() = 0;
void set_tx_failed(bool failed_arg) { m_is_tx_failed = failed_arg; }
bool can_prepare() const {
if (m_rollback_only) {
my_error(ER_ROLLBACK_ONLY, MYF(0));
return false;
}
return true;
}
int rollback_to_savepoint(void *const savepoint) {
if (has_modifications()) {
my_error(ER_ROLLBACK_TO_SAVEPOINT, MYF(0));
m_rollback_only = true;
return HA_EXIT_FAILURE;
}
return HA_EXIT_SUCCESS;
}
/*
This is used by transactions started with "START TRANSACTION WITH "
"CONSISTENT [ROCKSDB] SNAPSHOT". When tx_read_only is turned on,
snapshot has to be created via DB::GetSnapshot(), not via Transaction
API.
*/
bool is_tx_read_only() const { return m_tx_read_only; }
bool is_two_phase() const { return m_is_two_phase; }
void set_tx_read_only(bool val) { m_tx_read_only = val; }
explicit Rdb_transaction(THD *const thd)
: m_thd(thd), m_tbl_io_perf(nullptr) {
RDB_MUTEX_LOCK_CHECK(s_tx_list_mutex);
s_tx_list.insert(this);
RDB_MUTEX_UNLOCK_CHECK(s_tx_list_mutex);
}
virtual ~Rdb_transaction() {
RDB_MUTEX_LOCK_CHECK(s_tx_list_mutex);
s_tx_list.erase(this);
RDB_MUTEX_UNLOCK_CHECK(s_tx_list_mutex);
}
virtual bool is_prepared() { return false; };
virtual void detach_prepared_tx() {};
};
/*
This is a rocksdb transaction. Its members represent the current transaction,
which consists of:
- the snapshot
- the changes we've made but are not seeing yet.
The changes are made to individual tables, which store them here and then
this object commits them on commit.
*/
class Rdb_transaction_impl : public Rdb_transaction {
rocksdb::Transaction *m_rocksdb_tx = nullptr;
rocksdb::Transaction *m_rocksdb_reuse_tx = nullptr;
public:
void set_lock_timeout(int timeout_sec_arg) override {
if (m_rocksdb_tx) {
m_rocksdb_tx->SetLockTimeout(rdb_convert_sec_to_ms(m_timeout_sec));
}
}
void set_sync(bool sync) override {
if (m_rocksdb_tx)
m_rocksdb_tx->GetWriteOptions()->sync = sync;
}
void release_lock(rocksdb::ColumnFamilyHandle *const column_family,
const std::string &rowkey) override {
if (!THDVAR(m_thd, lock_scanned_rows)) {
m_rocksdb_tx->UndoGetForUpdate(column_family, rocksdb::Slice(rowkey));
}
}
virtual bool is_writebatch_trx() const override { return false; }
bool is_prepared() override {
return m_rocksdb_tx && rocksdb::Transaction::PREPARED == m_rocksdb_tx->GetState();
}
void detach_prepared_tx() override {
DBUG_ASSERT(rocksdb::Transaction::PREPARED == m_rocksdb_tx->GetState());
m_rocksdb_tx = nullptr;
}
private:
void release_tx(void) {
// We are done with the current active transaction object. Preserve it
// for later reuse.
DBUG_ASSERT(m_rocksdb_reuse_tx == nullptr);
m_rocksdb_reuse_tx = m_rocksdb_tx;
m_rocksdb_tx = nullptr;
}
bool prepare(const rocksdb::TransactionName &name) override {
rocksdb::Status s;
s = m_rocksdb_tx->SetName(name);
if (!s.ok()) {
rdb_handle_io_error(s, RDB_IO_ERROR_TX_COMMIT);
return false;
}
s = merge_auto_incr_map(m_rocksdb_tx->GetWriteBatch()->GetWriteBatch());
if (!s.ok()) {
rdb_handle_io_error(s, RDB_IO_ERROR_TX_COMMIT);
return false;
}
s = m_rocksdb_tx->Prepare();
if (!s.ok()) {
rdb_handle_io_error(s, RDB_IO_ERROR_TX_COMMIT);
return false;
}
return true;
}
bool commit_no_binlog() override {
bool res = false;
rocksdb::Status s;
s = merge_auto_incr_map(m_rocksdb_tx->GetWriteBatch()->GetWriteBatch());
if (!s.ok()) {
rdb_handle_io_error(s, RDB_IO_ERROR_TX_COMMIT);
res = true;
goto error;
}
release_snapshot();
s = m_rocksdb_tx->Commit();
if (!s.ok()) {
rdb_handle_io_error(s, RDB_IO_ERROR_TX_COMMIT);
res = true;
goto error;
}
on_commit();
error:
on_rollback();
/* Save the transaction object to be reused */
release_tx();
m_write_count = 0;
m_insert_count = 0;
m_update_count = 0;
m_delete_count = 0;
m_lock_count = 0;
set_tx_read_only(false);
m_rollback_only = false;
return res;
}
public:
void rollback() override {
on_rollback();
m_write_count = 0;
m_insert_count = 0;
m_update_count = 0;
m_delete_count = 0;
m_lock_count = 0;
m_auto_incr_map.clear();
m_ddl_transaction = false;
if (m_rocksdb_tx) {
release_snapshot();
/* This will also release all of the locks: */
m_rocksdb_tx->Rollback();
/* Save the transaction object to be reused */
release_tx();
set_tx_read_only(false);
m_rollback_only = false;
}
}
void acquire_snapshot(bool acquire_now) override {
if (m_read_opts.snapshot == nullptr) {
#ifdef MARIAROCKS_NOT_YET
const auto thd_ss = std::static_pointer_cast<Rdb_explicit_snapshot>(
m_thd->get_explicit_snapshot());
if (thd_ss) {
m_explicit_snapshot = thd_ss;
}
if (m_explicit_snapshot) {
auto snapshot = m_explicit_snapshot->get_snapshot()->snapshot();
snapshot_created(snapshot);
} else
#endif
if (is_tx_read_only()) {
snapshot_created(rdb->GetSnapshot());
} else if (acquire_now) {
m_rocksdb_tx->SetSnapshot();
snapshot_created(m_rocksdb_tx->GetSnapshot());
} else if (!m_is_delayed_snapshot) {
m_rocksdb_tx->SetSnapshotOnNextOperation(m_notifier);
m_is_delayed_snapshot = true;
}
}
}
void release_snapshot() override {
bool need_clear = m_is_delayed_snapshot;
if (m_read_opts.snapshot != nullptr) {
m_snapshot_timestamp = 0;
#ifdef MARIAROCKS_NOT_YET
if (m_explicit_snapshot) {
m_explicit_snapshot.reset();
need_clear = false;
} else
#endif
if (is_tx_read_only()) {
rdb->ReleaseSnapshot(m_read_opts.snapshot);
need_clear = false;
} else {
need_clear = true;
}
m_read_opts.snapshot = nullptr;
}
if (need_clear && m_rocksdb_tx != nullptr) m_rocksdb_tx->ClearSnapshot();
}
bool has_snapshot() { return m_read_opts.snapshot != nullptr; }
rocksdb::Status put(rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, const rocksdb::Slice &value,
const bool assume_tracked) override {
++m_write_count;
++m_lock_count;
if (m_write_count > m_max_row_locks || m_lock_count > m_max_row_locks) {
return rocksdb::Status::Aborted(rocksdb::Status::kLockLimit);
}
return m_rocksdb_tx->Put(column_family, key, value, assume_tracked);
}
rocksdb::Status delete_key(rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key,
const bool assume_tracked) override {
++m_write_count;
++m_lock_count;
if (m_write_count > m_max_row_locks || m_lock_count > m_max_row_locks) {
return rocksdb::Status::Aborted(rocksdb::Status::kLockLimit);
}
return m_rocksdb_tx->Delete(column_family, key, assume_tracked);
}
rocksdb::Status single_delete(
rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, const bool assume_tracked) override {
++m_write_count;
++m_lock_count;
if (m_write_count > m_max_row_locks || m_lock_count > m_max_row_locks) {
return rocksdb::Status::Aborted(rocksdb::Status::kLockLimit);
}
return m_rocksdb_tx->SingleDelete(column_family, key, assume_tracked);
}
bool has_modifications() const override {
return m_rocksdb_tx->GetWriteBatch() &&
m_rocksdb_tx->GetWriteBatch()->GetWriteBatch() &&
m_rocksdb_tx->GetWriteBatch()->GetWriteBatch()->Count() > 0;
}
rocksdb::WriteBatchBase *get_write_batch() override {
if (is_two_phase()) {
return m_rocksdb_tx->GetCommitTimeWriteBatch();
}
return m_rocksdb_tx->GetWriteBatch()->GetWriteBatch();
}
/*
Return a WriteBatch that one can write to. The writes will skip any
transaction locking. The writes WILL be visible to the transaction.
*/
rocksdb::WriteBatchBase *get_indexed_write_batch() override {
++m_write_count;
return m_rocksdb_tx->GetWriteBatch();
}
rocksdb::Status get(rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key,
rocksdb::PinnableSlice *const value) const override {
// clean PinnableSlice right begfore Get() for multiple gets per statement
// the resources after the last Get in a statement are cleared in
// handler::reset call
value->Reset();
global_stats.queries[QUERIES_POINT].inc();
return m_rocksdb_tx->Get(m_read_opts, column_family, key, value);
}
rocksdb::Status get_for_update(
rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, rocksdb::PinnableSlice *const value,
bool exclusive, const bool do_validate) override {
if (++m_lock_count > m_max_row_locks) {
return rocksdb::Status::Aborted(rocksdb::Status::kLockLimit);
}
if (value != nullptr) {
value->Reset();
}
rocksdb::Status s;
// If snapshot is null, pass it to GetForUpdate and snapshot is
// initialized there. Snapshot validation is skipped in that case.
if (m_read_opts.snapshot == nullptr || do_validate) {
s = m_rocksdb_tx->GetForUpdate(
m_read_opts, column_family, key, value, exclusive,
m_read_opts.snapshot ? do_validate : false);
} else {
// If snapshot is set, and if skipping validation,
// call GetForUpdate without validation and set back old snapshot
auto saved_snapshot = m_read_opts.snapshot;
m_read_opts.snapshot = nullptr;
s = m_rocksdb_tx->GetForUpdate(m_read_opts, column_family, key, value,
exclusive, false);
m_read_opts.snapshot = saved_snapshot;
}
return s;
}
rocksdb::Iterator *get_iterator(
const rocksdb::ReadOptions &options,
rocksdb::ColumnFamilyHandle *const column_family) override {
global_stats.queries[QUERIES_RANGE].inc();
return m_rocksdb_tx->GetIterator(options, column_family);
}
const rocksdb::Transaction *get_rdb_trx() const { return m_rocksdb_tx; }
bool is_tx_started() const override { return (m_rocksdb_tx != nullptr); }
void start_tx() override {
rocksdb::TransactionOptions tx_opts;
rocksdb::WriteOptions write_opts;
tx_opts.set_snapshot = false;
tx_opts.lock_timeout = rdb_convert_sec_to_ms(m_timeout_sec);
tx_opts.deadlock_detect = THDVAR(m_thd, deadlock_detect);
tx_opts.deadlock_detect_depth = THDVAR(m_thd, deadlock_detect_depth);
// If this variable is set, this will write commit time write batch
// information on recovery or memtable flush.
tx_opts.use_only_the_last_commit_time_batch_for_recovery =
THDVAR(m_thd, commit_time_batch_for_recovery);
tx_opts.max_write_batch_size = THDVAR(m_thd, write_batch_max_bytes);
write_opts.sync = (rocksdb_flush_log_at_trx_commit == FLUSH_LOG_SYNC);
write_opts.disableWAL = THDVAR(m_thd, write_disable_wal);
write_opts.ignore_missing_column_families =
THDVAR(m_thd, write_ignore_missing_column_families);
m_is_two_phase = rocksdb_enable_2pc;
commit_ordered_done= false;
/*
If m_rocksdb_reuse_tx is null this will create a new transaction object.
Otherwise it will reuse the existing one.
*/
m_rocksdb_tx =
rdb->BeginTransaction(write_opts, tx_opts, m_rocksdb_reuse_tx);
m_rocksdb_reuse_tx = nullptr;
m_read_opts = rocksdb::ReadOptions();
set_initial_savepoint();
m_ddl_transaction = false;
}
/* Implementations of do_*savepoint based on rocksdB::Transaction savepoints
*/
void do_set_savepoint() override { m_rocksdb_tx->SetSavePoint(); }
void do_rollback_to_savepoint() override {
m_rocksdb_tx->RollbackToSavePoint();
}
/*
Start a statement inside a multi-statement transaction.
@todo: are we sure this is called once (and not several times) per
statement start?
For hooking to start of statement that is its own transaction, see
ha_rocksdb::external_lock().
*/
void start_stmt() override {
// Set the snapshot to delayed acquisition (SetSnapshotOnNextOperation)
acquire_snapshot(false);
}
/*
This must be called when last statement is rolled back, but the transaction
continues
*/
void rollback_stmt() override {
/* TODO: here we must release the locks taken since the start_stmt() call */
if (m_rocksdb_tx) {
const rocksdb::Snapshot *const org_snapshot = m_rocksdb_tx->GetSnapshot();
rollback_to_stmt_savepoint();
const rocksdb::Snapshot *const cur_snapshot = m_rocksdb_tx->GetSnapshot();
if (org_snapshot != cur_snapshot) {
if (org_snapshot != nullptr) m_snapshot_timestamp = 0;
m_read_opts.snapshot = cur_snapshot;
if (cur_snapshot != nullptr) {
rdb->GetEnv()->GetCurrentTime(&m_snapshot_timestamp);
} else {
m_is_delayed_snapshot = true;
}
}
}
}
explicit Rdb_transaction_impl(THD *const thd)
: Rdb_transaction(thd), m_rocksdb_tx(nullptr) {
// Create a notifier that can be called when a snapshot gets generated.
m_notifier = std::make_shared<Rdb_snapshot_notifier>(this);
}
virtual ~Rdb_transaction_impl() override {
rollback();
// Theoretically the notifier could outlive the Rdb_transaction_impl
// (because of the shared_ptr), so let it know it can't reference
// the transaction anymore.
m_notifier->detach();
// Free any transaction memory that is still hanging around.
delete m_rocksdb_reuse_tx;
DBUG_ASSERT(m_rocksdb_tx == nullptr);
}
};
/* This is a rocksdb write batch. This class doesn't hold or wait on any
transaction locks (skips rocksdb transaction API) thus giving better
performance.
Currently this is only used for replication threads which are guaranteed
to be non-conflicting. Any further usage of this class should completely
be thought thoroughly.
*/
class Rdb_writebatch_impl : public Rdb_transaction {
rocksdb::WriteBatchWithIndex *m_batch;
rocksdb::WriteOptions write_opts;
// Called after commit/rollback.
void reset() {
m_batch->Clear();
m_read_opts = rocksdb::ReadOptions();
m_ddl_transaction = false;
}
private:
bool prepare(const rocksdb::TransactionName &name) override { return true; }
bool commit_no_binlog() override {
bool res = false;
rocksdb::Status s;
rocksdb::TransactionDBWriteOptimizations optimize;
optimize.skip_concurrency_control = true;
s = merge_auto_incr_map(m_batch->GetWriteBatch());
if (!s.ok()) {
rdb_handle_io_error(s, RDB_IO_ERROR_TX_COMMIT);
res = true;
goto error;
}
release_snapshot();
s = rdb->Write(write_opts, optimize, m_batch->GetWriteBatch());
if (!s.ok()) {
rdb_handle_io_error(s, RDB_IO_ERROR_TX_COMMIT);
res = true;
goto error;
}
on_commit();
error:
on_rollback();
reset();
m_write_count = 0;
m_insert_count = 0;
m_update_count = 0;
m_delete_count = 0;
set_tx_read_only(false);
m_rollback_only = false;
return res;
}
/* Implementations of do_*savepoint based on rocksdB::WriteBatch savepoints */
void do_set_savepoint() override { m_batch->SetSavePoint(); }
void do_rollback_to_savepoint() override { m_batch->RollbackToSavePoint(); }
public:
bool is_writebatch_trx() const override { return true; }
void set_lock_timeout(int timeout_sec_arg) override {
// Nothing to do here.
}
void set_sync(bool sync) override { write_opts.sync = sync; }
void release_lock(rocksdb::ColumnFamilyHandle *const column_family,
const std::string &rowkey) override {
// Nothing to do here since we don't hold any row locks.
}
void rollback() override {
on_rollback();
m_write_count = 0;
m_insert_count = 0;
m_update_count = 0;
m_delete_count = 0;
m_lock_count = 0;
release_snapshot();
reset();
set_tx_read_only(false);
m_rollback_only = false;
}
void acquire_snapshot(bool acquire_now) override {
if (m_read_opts.snapshot == nullptr) snapshot_created(rdb->GetSnapshot());
}
void release_snapshot() override {
if (m_read_opts.snapshot != nullptr) {
rdb->ReleaseSnapshot(m_read_opts.snapshot);
m_read_opts.snapshot = nullptr;
}
}
rocksdb::Status put(rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, const rocksdb::Slice &value,
const bool assume_tracked) override {
++m_write_count;
m_batch->Put(column_family, key, value);
// Note Put/Delete in write batch doesn't return any error code. We simply
// return OK here.
return rocksdb::Status::OK();
}
rocksdb::Status delete_key(rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key,
const bool assume_tracked) override {
++m_write_count;
m_batch->Delete(column_family, key);
return rocksdb::Status::OK();
}
rocksdb::Status single_delete(
rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, const bool /* assume_tracked */) override {
++m_write_count;
m_batch->SingleDelete(column_family, key);
return rocksdb::Status::OK();
}
bool has_modifications() const override {
return m_batch->GetWriteBatch()->Count() > 0;
}
rocksdb::WriteBatchBase *get_write_batch() override { return m_batch; }
rocksdb::WriteBatchBase *get_indexed_write_batch() override {
++m_write_count;
return m_batch;
}
rocksdb::Status get(rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key,
rocksdb::PinnableSlice *const value) const override {
value->Reset();
return m_batch->GetFromBatchAndDB(rdb, m_read_opts, column_family, key,
value);
}
rocksdb::Status get_for_update(
rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, rocksdb::PinnableSlice *const value,
bool /* exclusive */, const bool /* do_validate */) override {
if (value == nullptr) {
rocksdb::PinnableSlice pin_val;
rocksdb::Status s = get(column_family, key, &pin_val);
pin_val.Reset();
return s;
}
return get(column_family, key, value);
}
rocksdb::Iterator *get_iterator(
const rocksdb::ReadOptions &options,
rocksdb::ColumnFamilyHandle *const /* column_family */) override {
const auto it = rdb->NewIterator(options);
return m_batch->NewIteratorWithBase(it);
}
bool is_tx_started() const override { return (m_batch != nullptr); }
void start_tx() override {
commit_ordered_done= false; // Do we need this here?
reset();
write_opts.sync = (rocksdb_flush_log_at_trx_commit == FLUSH_LOG_SYNC);
write_opts.disableWAL = THDVAR(m_thd, write_disable_wal);
write_opts.ignore_missing_column_families =
THDVAR(m_thd, write_ignore_missing_column_families);
set_initial_savepoint();
}
void start_stmt() override {}
void rollback_stmt() override {
if (m_batch) rollback_to_stmt_savepoint();
}
explicit Rdb_writebatch_impl(THD *const thd)
: Rdb_transaction(thd), m_batch(nullptr) {
m_batch = new rocksdb::WriteBatchWithIndex(rocksdb::BytewiseComparator(), 0,
true);
}
virtual ~Rdb_writebatch_impl() override {
rollback();
delete m_batch;
}
};
void Rdb_snapshot_notifier::SnapshotCreated(
const rocksdb::Snapshot *const snapshot) {
if (m_owning_tx != nullptr) {
m_owning_tx->snapshot_created(snapshot);
}
}
std::multiset<Rdb_transaction *> Rdb_transaction::s_tx_list;
mysql_mutex_t Rdb_transaction::s_tx_list_mutex;
static Rdb_transaction *get_tx_from_thd(THD *const thd) {
return reinterpret_cast<Rdb_transaction *>(
my_core::thd_get_ha_data(thd, rocksdb_hton));
}
namespace {
class Rdb_perf_context_guard {
Rdb_io_perf m_io_perf;
Rdb_io_perf *m_io_perf_ptr;
Rdb_transaction *m_tx;
uint m_level;
public:
Rdb_perf_context_guard(const Rdb_perf_context_guard &) = delete;
Rdb_perf_context_guard &operator=(const Rdb_perf_context_guard &) = delete;
explicit Rdb_perf_context_guard(Rdb_io_perf *io_perf, uint level)
: m_io_perf_ptr(io_perf), m_tx(nullptr), m_level(level) {
m_io_perf_ptr->start(m_level);
}
explicit Rdb_perf_context_guard(Rdb_transaction *tx, uint level)
: m_io_perf_ptr(nullptr), m_tx(tx), m_level(level) {
/*
if perf_context information is already being recorded, this becomes a
no-op
*/
if (tx != nullptr) {
tx->io_perf_start(&m_io_perf);
}
}
~Rdb_perf_context_guard() {
if (m_tx != nullptr) {
m_tx->io_perf_end_and_record();
} else if (m_io_perf_ptr != nullptr) {
m_io_perf_ptr->end_and_record(m_level);
}
}
};
} // anonymous namespace
/*
TODO: maybe, call this in external_lock() and store in ha_rocksdb..
*/
static Rdb_transaction *get_or_create_tx(THD *const thd) {
Rdb_transaction *tx = get_tx_from_thd(thd);
// TODO: this is called too many times.. O(#rows)
if (tx == nullptr) {
bool rpl_skip_tx_api= false; // MARIAROCKS_NOT_YET.
if ((rpl_skip_tx_api && thd->rgi_slave) ||
(THDVAR(thd, master_skip_tx_api) && !thd->rgi_slave))
{
tx = new Rdb_writebatch_impl(thd);
} else {
tx = new Rdb_transaction_impl(thd);
}
tx->set_params(THDVAR(thd, lock_wait_timeout), THDVAR(thd, max_row_locks));
tx->start_tx();
my_core::thd_set_ha_data(thd, rocksdb_hton, tx);
} else {
tx->set_params(THDVAR(thd, lock_wait_timeout), THDVAR(thd, max_row_locks));
if (!tx->is_tx_started()) {
tx->start_tx();
}
}
return tx;
}
static int rocksdb_close_connection(handlerton *const hton, THD *const thd) {
Rdb_transaction *tx = get_tx_from_thd(thd);
if (tx != nullptr) {
bool is_critical_error;
int rc = tx->finish_bulk_load(&is_critical_error, false);
if (rc != 0 && is_critical_error) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: Error %d finalizing last SST file while "
"disconnecting",
rc);
}
if (tx->is_prepared())
tx->detach_prepared_tx();
delete tx;
}
return HA_EXIT_SUCCESS;
}
/*
* Serializes an xid to a string so that it can
* be used as a rocksdb transaction name
*/
static std::string rdb_xid_to_string(const XID &src) {
DBUG_ASSERT(src.gtrid_length >= 0 && src.gtrid_length <= MAXGTRIDSIZE);
DBUG_ASSERT(src.bqual_length >= 0 && src.bqual_length <= MAXBQUALSIZE);
std::string buf;
buf.reserve(RDB_XIDHDR_LEN + src.gtrid_length + src.bqual_length);
/*
* expand formatID to fill 8 bytes if it doesn't already
* then reinterpret bit pattern as unsigned and store in network order
*/
uchar fidbuf[RDB_FORMATID_SZ];
int64 signed_fid8 = src.formatID;
const uint64 raw_fid8 = *reinterpret_cast<uint64 *>(&signed_fid8);
rdb_netbuf_store_uint64(fidbuf, raw_fid8);
buf.append(reinterpret_cast<const char *>(fidbuf), RDB_FORMATID_SZ);
buf.push_back(src.gtrid_length);
buf.push_back(src.bqual_length);
buf.append(src.data, (src.gtrid_length) + (src.bqual_length));
return buf;
}
#if 0
// MARIAROCKS: MariaDB doesn't have flush_wal method
/**
Called by hton->flush_logs after MySQL group commit prepares a set of
transactions.
*/
static bool rocksdb_flush_wal(handlerton* hton __attribute__((__unused__)))
DBUG_ASSERT(rdb != nullptr);
rocksdb::Status s;
/*
target_lsn is set to 0 when MySQL wants to sync the wal files
*/
if ((target_lsn == 0 && !rocksdb_db_options->allow_mmap_writes) ||
rocksdb_flush_log_at_trx_commit != FLUSH_LOG_NEVER) {
rocksdb_wal_group_syncs++;
s = rdb->FlushWAL(target_lsn == 0 ||
rocksdb_flush_log_at_trx_commit == FLUSH_LOG_SYNC);
}
if (!s.ok()) {
rdb_log_status_error(s);
return HA_EXIT_FAILURE;
}
return HA_EXIT_SUCCESS;
}
#endif
/**
For a slave, prepare() updates the slave_gtid_info table which tracks the
replication progress.
*/
static int rocksdb_prepare(handlerton* hton, THD* thd, bool prepare_tx)
{
bool async=false; // This is "ASYNC_COMMIT" feature which is only present in webscalesql
Rdb_transaction *tx = get_tx_from_thd(thd);
if (!tx->can_prepare()) {
return HA_EXIT_FAILURE;
}
if (prepare_tx ||
(!my_core::thd_test_options(thd, OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN))) {
/* We were instructed to prepare the whole transaction, or
this is an SQL statement end and autocommit is on */
#ifdef MARIAROCKS_NOT_YET
/*
Storing binlog position inside MyRocks is needed only for restoring
MyRocks from backups. This feature is not supported yet.
*/
std::vector<st_slave_gtid_info> slave_gtid_info;
my_core::thd_slave_gtid_info(thd, &slave_gtid_info);
for (const auto &it : slave_gtid_info) {
rocksdb::WriteBatchBase *const write_batch = tx->get_blind_write_batch();
binlog_manager.update_slave_gtid_info(it.id, it.db, it.gtid, write_batch);
}
#endif
if (tx->is_two_phase()) {
/*
MariaDB: the following branch is never taken.
We always flush at Prepare and rely on RocksDB's internal Group Commit
to do some grouping.
*/
if (thd->durability_property == HA_IGNORE_DURABILITY || async) {
tx->set_sync(false);
}
/*
MariaDB: do not flush logs if we are running in a non-crash-safe mode.
*/
if (!rocksdb_flush_log_at_trx_commit)
tx->set_sync(false);
XID xid;
thd_get_xid(thd, reinterpret_cast<MYSQL_XID *>(&xid));
if (!tx->prepare(rdb_xid_to_string(xid))) {
return HA_EXIT_FAILURE;
}
/*
MariaDB: our Group Commit implementation does not use the
hton->flush_logs call (at least currently) so the following is not
needed (TODO: will we need this for binlog rotation?)
*/
#ifdef MARIAROCKS_NOT_YET
if (thd->durability_property == HA_IGNORE_DURABILITY )
(rocksdb_flush_log_at_trx_commit != FLUSH_LOG_NEVER))
&&
THDVAR(thd, flush_log_at_trx_commit))
#endif
#ifdef MARIAROCKS_NOT_YET
{
// MariaRocks: disable the
// "write/sync redo log before flushing binlog cache to file"
// feature. See a869c56d361bb44f46c0efeb11a8f03561676247
/**
we set the log sequence as '1' just to trigger hton->flush_logs
*/
thd_store_lsn(thd, 1, DB_TYPE_ROCKSDB);
}
#endif
}
DEBUG_SYNC(thd, "rocksdb.prepared");
} else {
tx->make_stmt_savepoint_permanent();
}
return HA_EXIT_SUCCESS;
}
/**
do nothing for prepare/commit by xid
this is needed to avoid crashes in XA scenarios
*/
static int rocksdb_commit_by_xid(handlerton *const hton, XID *const xid) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(hton != nullptr);
DBUG_ASSERT(xid != nullptr);
DBUG_ASSERT(commit_latency_stats != nullptr);
rocksdb::StopWatchNano timer(rocksdb::Env::Default(), true);
const auto name = rdb_xid_to_string(*xid);
DBUG_ASSERT(!name.empty());
rocksdb::Transaction *const trx = rdb->GetTransactionByName(name);
if (trx == nullptr) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
const rocksdb::Status s = trx->Commit();
if (!s.ok()) {
rdb_log_status_error(s);
DBUG_RETURN(HA_EXIT_FAILURE);
}
delete trx;
// `Add()` is implemented in a thread-safe manner.
commit_latency_stats->Add(timer.ElapsedNanos() / 1000);
DBUG_RETURN(HA_EXIT_SUCCESS);
}
static int rocksdb_rollback_by_xid(
handlerton *const hton MY_ATTRIBUTE((__unused__)), XID *const xid) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(hton != nullptr);
DBUG_ASSERT(xid != nullptr);
DBUG_ASSERT(rdb != nullptr);
const auto name = rdb_xid_to_string(*xid);
rocksdb::Transaction *const trx = rdb->GetTransactionByName(name);
if (trx == nullptr) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
const rocksdb::Status s = trx->Rollback();
if (!s.ok()) {
rdb_log_status_error(s);
DBUG_RETURN(HA_EXIT_FAILURE);
}
delete trx;
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/**
Rebuilds an XID from a serialized version stored in a string.
*/
static void rdb_xid_from_string(const std::string &src, XID *const dst) {
DBUG_ASSERT(dst != nullptr);
uint offset = 0;
uint64 raw_fid8 =
rdb_netbuf_to_uint64(reinterpret_cast<const uchar *>(src.data()));
const int64 signed_fid8 = *reinterpret_cast<int64 *>(&raw_fid8);
dst->formatID = signed_fid8;
offset += RDB_FORMATID_SZ;
dst->gtrid_length = src.at(offset);
offset += RDB_GTRID_SZ;
dst->bqual_length = src.at(offset);
offset += RDB_BQUAL_SZ;
DBUG_ASSERT(dst->gtrid_length >= 0 && dst->gtrid_length <= MAXGTRIDSIZE);
DBUG_ASSERT(dst->bqual_length >= 0 && dst->bqual_length <= MAXBQUALSIZE);
memset(dst->data, 0, XIDDATASIZE);
src.copy(dst->data, (dst->gtrid_length) + (dst->bqual_length),
RDB_XIDHDR_LEN);
}
/**
Reading last committed binary log info from RocksDB system row.
The info is needed for crash safe slave/master to work.
*/
static int rocksdb_recover(handlerton* hton, XID* xid_list, uint len)
#ifdef MARIAROCKS_NOT_YET
char* const binlog_file,
my_off_t *const binlog_pos,
Gtid *const binlog_max_gtid) {
#endif
{
#ifdef MARIAROCKS_NOT_YET
if (binlog_file && binlog_pos) {
char file_buf[FN_REFLEN + 1] = {0};
my_off_t pos;
char gtid_buf[FN_REFLEN + 1] = {0};
if (binlog_manager.read(file_buf, &pos, gtid_buf)) {
if (is_binlog_advanced(binlog_file, *binlog_pos, file_buf, pos)) {
memcpy(binlog_file, file_buf, FN_REFLEN + 1);
*binlog_pos = pos;
// NO_LINT_DEBUG
fprintf(stderr,
"RocksDB: Last binlog file position %llu,"
" file name %s\n",
pos, file_buf);
if (*gtid_buf) {
global_sid_lock->rdlock();
binlog_max_gtid->parse(global_sid_map, gtid_buf);
global_sid_lock->unlock();
// NO_LINT_DEBUG
fprintf(stderr, "RocksDB: Last MySQL Gtid %s\n", gtid_buf);
}
}
}
}
#endif
if (len == 0 || xid_list == nullptr) {
return HA_EXIT_SUCCESS;
}
std::vector<rocksdb::Transaction *> trans_list;
rdb->GetAllPreparedTransactions(&trans_list);
uint count = 0;
for (auto &trans : trans_list) {
if (count >= len) {
break;
}
auto name = trans->GetName();
rdb_xid_from_string(name, &xid_list[count]);
count++;
}
return count;
}
/*
Handle a commit checkpoint request from server layer.
InnoDB does this:
We put the request in a queue, so that we can notify upper layer about
checkpoint complete when we have flushed the redo log.
If we have already flushed all relevant redo log, we notify immediately.
MariaRocks just flushes everything right away ATM
*/
static void rocksdb_checkpoint_request(void *cookie)
{
const rocksdb::Status s= rdb->FlushWAL(true);
//TODO: what to do on error?
if (s.ok())
{
rocksdb_wal_group_syncs++;
commit_checkpoint_notify_ha(cookie);
}
}
/*
@param all: TRUE - commit the transaction
FALSE - SQL statement ended
*/
static void rocksdb_commit_ordered(handlerton *hton, THD* thd, bool all)
{
// Same assert as InnoDB has
DBUG_ASSERT(all || (!thd_test_options(thd, OPTION_NOT_AUTOCOMMIT |
OPTION_BEGIN)));
Rdb_transaction *tx = get_tx_from_thd(thd);
if (!tx->is_two_phase()) {
/*
ordered_commit is supposedly slower as it is done sequentially
in order to preserve commit order.
if we are not required do 2-phase commit with the binlog, do not do
anything here.
*/
return;
}
tx->set_sync(false);
/* This will note the master position also */
tx->commit_ordered_res= tx->commit();
tx->commit_ordered_done= true;
}
static int rocksdb_commit(handlerton* hton, THD* thd, bool commit_tx)
{
DBUG_ENTER_FUNC();
DBUG_ASSERT(hton != nullptr);
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(commit_latency_stats != nullptr);
rocksdb::StopWatchNano timer(rocksdb::Env::Default(), true);
/* note: h->external_lock(F_UNLCK) is called after this function is called) */
Rdb_transaction *tx = get_tx_from_thd(thd);
/* this will trigger saving of perf_context information */
Rdb_perf_context_guard guard(tx, rocksdb_perf_context_level(thd));
if (tx != nullptr) {
if (commit_tx || (!my_core::thd_test_options(
thd, OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN))) {
/*
This will not add anything to commit_latency_stats, and this is correct
right?
*/
if (tx->commit_ordered_done)
{
thd_wakeup_subsequent_commits(thd, 0);
DBUG_RETURN((tx->commit_ordered_res? HA_ERR_INTERNAL_ERROR: 0));
}
/*
We get here
- For a COMMIT statement that finishes a multi-statement transaction
- For a statement that has its own transaction
*/
if (thd->slave_thread)
{
// An attempt to make parallel slave performant (not fully successful,
// see MDEV-15372):
// First, commit without syncing. This establishes the commit order
tx->set_sync(false);
bool tx_had_writes = tx->get_write_count()? true : false ;
if (tx->commit()) {
DBUG_RETURN(HA_ERR_ROCKSDB_COMMIT_FAILED);
}
thd_wakeup_subsequent_commits(thd, 0);
if (tx_had_writes && rocksdb_flush_log_at_trx_commit == FLUSH_LOG_SYNC)
{
rocksdb::Status s= rdb->FlushWAL(true);
if (!s.ok())
DBUG_RETURN(HA_ERR_INTERNAL_ERROR);
}
}
else
{
/* Not a slave thread */
if (tx->commit()) {
DBUG_RETURN(HA_ERR_ROCKSDB_COMMIT_FAILED);
}
}
} else {
/*
We get here when committing a statement within a transaction.
*/
tx->make_stmt_savepoint_permanent();
}
if (my_core::thd_tx_isolation(thd) <= ISO_READ_COMMITTED) {
// For READ_COMMITTED, we release any existing snapshot so that we will
// see any changes that occurred since the last statement.
tx->release_snapshot();
}
}
// `Add()` is implemented in a thread-safe manner.
commit_latency_stats->Add(timer.ElapsedNanos() / 1000);
DBUG_RETURN(HA_EXIT_SUCCESS);
}
static int rocksdb_rollback(handlerton *const hton, THD *const thd,
bool rollback_tx) {
Rdb_transaction *tx = get_tx_from_thd(thd);
Rdb_perf_context_guard guard(tx, rocksdb_perf_context_level(thd));
if (tx != nullptr) {
if (rollback_tx) {
/*
We get here, when
- ROLLBACK statement is issued.
Discard the changes made by the transaction
*/
tx->rollback();
} else {
/*
We get here when
- a statement with AUTOCOMMIT=1 is being rolled back (because of some
error)
- a statement inside a transaction is rolled back
*/
tx->rollback_stmt();
tx->set_tx_failed(true);
}
if (my_core::thd_tx_isolation(thd) <= ISO_READ_COMMITTED) {
// For READ_COMMITTED, we release any existing snapshot so that we will
// see any changes that occurred since the last statement.
tx->release_snapshot();
}
}
return HA_EXIT_SUCCESS;
}
static bool print_stats(THD *const thd, std::string const &type,
std::string const &name, std::string const &status,
stat_print_fn *stat_print) {
return stat_print(thd, type.c_str(), type.size(), name.c_str(), name.size(),
status.c_str(), status.size());
}
static std::string format_string(const char *const format, ...) {
std::string res;
va_list args;
va_list args_copy;
char static_buff[256];
DBUG_ASSERT(format != nullptr);
va_start(args, format);
va_copy(args_copy, args);
// Calculate how much space we will need
int len = vsnprintf(nullptr, 0, format, args);
va_end(args);
if (len < 0) {
res = std::string("<format error>");
} else if (len == 0) {
// Shortcut for an empty string
res = std::string("");
} else {
// For short enough output use a static buffer
char *buff = static_buff;
std::unique_ptr<char[]> dynamic_buff = nullptr;
len++; // Add one for null terminator
// for longer output use an allocated buffer
if (static_cast<uint>(len) > sizeof(static_buff)) {
dynamic_buff.reset(new char[len]);
buff = dynamic_buff.get();
}
// Now re-do the vsnprintf with the buffer which is now large enough
(void)vsnprintf(buff, len, format, args_copy);
// Convert to a std::string. Note we could have created a std::string
// large enough and then converted the buffer to a 'char*' and created
// the output in place. This would probably work but feels like a hack.
// Since this isn't code that needs to be super-performant we are going
// with this 'safer' method.
res = std::string(buff);
}
va_end(args_copy);
return res;
}
class Rdb_snapshot_status : public Rdb_tx_list_walker {
private:
std::string m_data;
static std::string current_timestamp(void) {
static const char *const format = "%d-%02d-%02d %02d:%02d:%02d";
time_t currtime;
struct tm currtm;
time(&currtime);
localtime_r(&currtime, &currtm);
return format_string(format, currtm.tm_year + 1900, currtm.tm_mon + 1,
currtm.tm_mday, currtm.tm_hour, currtm.tm_min,
currtm.tm_sec);
}
static std::string get_header(void) {
return "\n============================================================\n" +
current_timestamp() +
" ROCKSDB TRANSACTION MONITOR OUTPUT\n"
"============================================================\n"
"---------\n"
"SNAPSHOTS\n"
"---------\n"
"LIST OF SNAPSHOTS FOR EACH SESSION:\n";
}
static std::string get_footer(void) {
return "-----------------------------------------\n"
"END OF ROCKSDB TRANSACTION MONITOR OUTPUT\n"
"=========================================\n";
}
static Rdb_deadlock_info::Rdb_dl_trx_info get_dl_txn_info(
const rocksdb::DeadlockInfo &txn, const GL_INDEX_ID &gl_index_id) {
Rdb_deadlock_info::Rdb_dl_trx_info txn_data;
txn_data.trx_id = txn.m_txn_id;
txn_data.table_name = ddl_manager.safe_get_table_name(gl_index_id);
if (txn_data.table_name.empty()) {
txn_data.table_name =
"NOT FOUND; INDEX_ID: " + std::to_string(gl_index_id.index_id);
}
auto kd = ddl_manager.safe_find(gl_index_id);
txn_data.index_name =
(kd) ? kd->get_name()
: "NOT FOUND; INDEX_ID: " + std::to_string(gl_index_id.index_id);
rocksdb::ColumnFamilyHandle *cfh = cf_manager.get_cf(txn.m_cf_id);
txn_data.cf_name = cfh->GetName();
txn_data.waiting_key =
rdb_hexdump(txn.m_waiting_key.c_str(), txn.m_waiting_key.length());
txn_data.exclusive_lock = txn.m_exclusive;
return txn_data;
}
static Rdb_deadlock_info get_dl_path_trx_info(
const rocksdb::DeadlockPath &path_entry) {
Rdb_deadlock_info deadlock_info;
for (auto it = path_entry.path.begin(); it != path_entry.path.end(); it++) {
const auto &txn = *it;
const GL_INDEX_ID gl_index_id = {
txn.m_cf_id, rdb_netbuf_to_uint32(reinterpret_cast<const uchar *>(
txn.m_waiting_key.c_str()))};
deadlock_info.path.push_back(get_dl_txn_info(txn, gl_index_id));
}
DBUG_ASSERT_IFF(path_entry.limit_exceeded, path_entry.path.empty());
/* print the first txn in the path to display the full deadlock cycle */
if (!path_entry.path.empty() && !path_entry.limit_exceeded) {
const auto &deadlocking_txn = *(path_entry.path.end() - 1);
deadlock_info.victim_trx_id = deadlocking_txn.m_txn_id;
deadlock_info.deadlock_time = path_entry.deadlock_time;
}
return deadlock_info;
}
public:
Rdb_snapshot_status() : m_data(get_header()) {}
std::string getResult() { return m_data + get_footer(); }
/* Implement Rdb_transaction interface */
/* Create one row in the snapshot status table */
void process_tran(const Rdb_transaction *const tx) override {
DBUG_ASSERT(tx != nullptr);
/* Calculate the duration the snapshot has existed */
int64_t snapshot_timestamp = tx->m_snapshot_timestamp;
if (snapshot_timestamp != 0) {
int64_t curr_time;
rdb->GetEnv()->GetCurrentTime(&curr_time);
char buffer[1024];
#ifdef MARIAROCKS_NOT_YET
thd_security_context(tx->get_thd(), buffer, sizeof buffer, 0);
#endif
m_data += format_string(
"---SNAPSHOT, ACTIVE %lld sec\n"
"%s\n"
"lock count %llu, write count %llu\n"
"insert count %llu, update count %llu, delete count %llu\n",
(longlong)(curr_time - snapshot_timestamp), buffer, tx->get_lock_count(),
tx->get_write_count(), tx->get_insert_count(), tx->get_update_count(),
tx->get_delete_count());
}
}
void populate_deadlock_buffer() {
auto dlock_buffer = rdb->GetDeadlockInfoBuffer();
m_data += "----------LATEST DETECTED DEADLOCKS----------\n";
for (const auto &path_entry : dlock_buffer) {
std::string path_data;
if (path_entry.limit_exceeded) {
path_data += "\n-------DEADLOCK EXCEEDED MAX DEPTH-------\n";
} else {
path_data +=
"\n*** DEADLOCK PATH\n"
"=========================================\n";
const auto dl_info = get_dl_path_trx_info(path_entry);
const auto deadlock_time = dl_info.deadlock_time;
for (auto it = dl_info.path.begin(); it != dl_info.path.end(); it++) {
const auto &trx_info = *it;
path_data += format_string(
"TIMESTAMP: %" PRId64
"\n"
"TRANSACTION ID: %u\n"
"COLUMN FAMILY NAME: %s\n"
"WAITING KEY: %s\n"
"LOCK TYPE: %s\n"
"INDEX NAME: %s\n"
"TABLE NAME: %s\n",
deadlock_time, trx_info.trx_id, trx_info.cf_name.c_str(),
trx_info.waiting_key.c_str(),
trx_info.exclusive_lock ? "EXCLUSIVE" : "SHARED",
trx_info.index_name.c_str(), trx_info.table_name.c_str());
if (it != dl_info.path.end() - 1) {
path_data += "---------------WAITING FOR---------------\n";
}
}
path_data += format_string(
"\n--------TRANSACTION ID: %u GOT DEADLOCK---------\n",
dl_info.victim_trx_id);
}
m_data += path_data;
}
}
std::vector<Rdb_deadlock_info> get_deadlock_info() {
std::vector<Rdb_deadlock_info> deadlock_info;
auto dlock_buffer = rdb->GetDeadlockInfoBuffer();
for (const auto &path_entry : dlock_buffer) {
if (!path_entry.limit_exceeded) {
deadlock_info.push_back(get_dl_path_trx_info(path_entry));
}
}
return deadlock_info;
}
};
/**
* @brief
* walks through all non-replication transactions and copies
* out relevant information for information_schema.rocksdb_trx
*/
class Rdb_trx_info_aggregator : public Rdb_tx_list_walker {
private:
std::vector<Rdb_trx_info> *m_trx_info;
public:
explicit Rdb_trx_info_aggregator(std::vector<Rdb_trx_info> *const trx_info)
: m_trx_info(trx_info) {}
void process_tran(const Rdb_transaction *const tx) override {
static const std::map<int, std::string> state_map = {
{rocksdb::Transaction::STARTED, "STARTED"},
{rocksdb::Transaction::AWAITING_PREPARE, "AWAITING_PREPARE"},
{rocksdb::Transaction::PREPARED, "PREPARED"},
{rocksdb::Transaction::AWAITING_COMMIT, "AWAITING_COMMIT"},
{rocksdb::Transaction::COMMITED, "COMMITED"},
{rocksdb::Transaction::AWAITING_ROLLBACK, "AWAITING_ROLLBACK"},
{rocksdb::Transaction::ROLLEDBACK, "ROLLEDBACK"},
};
DBUG_ASSERT(tx != nullptr);
THD *const thd = tx->get_thd();
ulong thread_id = thd_get_thread_id(thd);
if (tx->is_writebatch_trx()) {
const auto wb_impl = static_cast<const Rdb_writebatch_impl *>(tx);
DBUG_ASSERT(wb_impl);
m_trx_info->push_back(
{"", /* name */
0, /* trx_id */
wb_impl->get_write_count(), 0, /* lock_count */
0, /* timeout_sec */
"", /* state */
"", /* waiting_key */
0, /* waiting_cf_id */
1, /*is_replication */
1, /* skip_trx_api */
wb_impl->is_tx_read_only(), 0, /* deadlock detection */
wb_impl->num_ongoing_bulk_load(), thread_id, "" /* query string */});
} else {
const auto tx_impl = static_cast<const Rdb_transaction_impl *>(tx);
DBUG_ASSERT(tx_impl);
const rocksdb::Transaction *rdb_trx = tx_impl->get_rdb_trx();
if (rdb_trx == nullptr) {
return;
}
char query_buf[NAME_LEN+1];
thd_query_safe(thd, query_buf, sizeof(query_buf));
std::string query_str(query_buf);
const auto state_it = state_map.find(rdb_trx->GetState());
DBUG_ASSERT(state_it != state_map.end());
const int is_replication = (thd->rgi_slave != nullptr);
uint32_t waiting_cf_id;
std::string waiting_key;
rdb_trx->GetWaitingTxns(&waiting_cf_id, &waiting_key),
m_trx_info->push_back(
{rdb_trx->GetName(), rdb_trx->GetID(), tx_impl->get_write_count(),
tx_impl->get_lock_count(), tx_impl->get_timeout_sec(),
state_it->second, waiting_key, waiting_cf_id, is_replication,
0, /* skip_trx_api */
tx_impl->is_tx_read_only(), rdb_trx->IsDeadlockDetect(),
tx_impl->num_ongoing_bulk_load(), thread_id, query_str});
}
}
};
/*
returns a vector of info for all non-replication threads
for use by information_schema.rocksdb_trx
*/
std::vector<Rdb_trx_info> rdb_get_all_trx_info() {
std::vector<Rdb_trx_info> trx_info;
Rdb_trx_info_aggregator trx_info_agg(&trx_info);
Rdb_transaction::walk_tx_list(&trx_info_agg);
return trx_info;
}
/*
returns a vector of info of recent deadlocks
for use by information_schema.rocksdb_deadlock
*/
std::vector<Rdb_deadlock_info> rdb_get_deadlock_info() {
Rdb_snapshot_status showStatus;
Rdb_transaction::walk_tx_list(&showStatus);
return showStatus.get_deadlock_info();
}
#ifdef MARIAROCKS_NOT_YET
/* Generate the snapshot status table */
static bool rocksdb_show_snapshot_status(handlerton *const hton, THD *const thd,
stat_print_fn *const stat_print) {
Rdb_snapshot_status showStatus;
Rdb_transaction::walk_tx_list(&showStatus);
showStatus.populate_deadlock_buffer();
/* Send the result data back to MySQL */
return print_stats(thd, "rocksdb", "", showStatus.getResult(), stat_print);
}
#endif
/*
This is called for SHOW ENGINE ROCKSDB STATUS | LOGS | etc.
For now, produce info about live files (which gives an imprecise idea about
what column families are there).
*/
static bool rocksdb_show_status(handlerton *const hton, THD *const thd,
stat_print_fn *const stat_print,
enum ha_stat_type stat_type) {
DBUG_ASSERT(hton != nullptr);
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(stat_print != nullptr);
bool res = false;
char buf[100] = {'\0'};
if (stat_type == HA_ENGINE_STATUS) {
DBUG_ASSERT(rdb != nullptr);
std::string str;
/* Global DB Statistics */
if (rocksdb_stats) {
str = rocksdb_stats->ToString();
// Use the same format as internal RocksDB statistics entries to make
// sure that output will look unified.
DBUG_ASSERT(commit_latency_stats != nullptr);
snprintf(buf, sizeof(buf),
"rocksdb.commit_latency statistics "
"Percentiles :=> 50 : %.2f 95 : %.2f "
"99 : %.2f 100 : %.2f\n",
commit_latency_stats->Percentile(50),
commit_latency_stats->Percentile(95),
commit_latency_stats->Percentile(99),
commit_latency_stats->Percentile(100));
str.append(buf);
uint64_t v = 0;
// Retrieve additional stalling related numbers from RocksDB and append
// them to the buffer meant for displaying detailed statistics. The intent
// here is to avoid adding another row to the query output because of
// just two numbers.
//
// NB! We're replacing hyphens with underscores in output to better match
// the existing naming convention.
if (rdb->GetIntProperty("rocksdb.is-write-stopped", &v)) {
snprintf(buf, sizeof(buf), "rocksdb.is_write_stopped COUNT : %llu\n", (ulonglong)v);
str.append(buf);
}
if (rdb->GetIntProperty("rocksdb.actual-delayed-write-rate", &v)) {
snprintf(buf, sizeof(buf),
"COUNT : %llu\n",
(ulonglong)v);
str.append(buf);
}
res |= print_stats(thd, "STATISTICS", "rocksdb", str, stat_print);
}
/* Per DB stats */
if (rdb->GetProperty("rocksdb.dbstats", &str)) {
res |= print_stats(thd, "DBSTATS", "rocksdb", str, stat_print);
}
/* Per column family stats */
for (const auto &cf_name : cf_manager.get_cf_names()) {
rocksdb::ColumnFamilyHandle *cfh = cf_manager.get_cf(cf_name);
if (cfh == nullptr) {
continue;
}
if (!rdb->GetProperty(cfh, "rocksdb.cfstats", &str)) {
continue;
}
res |= print_stats(thd, "CF_COMPACTION", cf_name, str, stat_print);
}
/* Memory Statistics */
std::vector<rocksdb::DB *> dbs;
std::unordered_set<const rocksdb::Cache *> cache_set;
size_t internal_cache_count = 0;
size_t kDefaultInternalCacheSize = 8 * 1024 * 1024;
dbs.push_back(rdb);
cache_set.insert(rocksdb_tbl_options->block_cache.get());
for (const auto &cf_handle : cf_manager.get_all_cf()) {
rocksdb::ColumnFamilyDescriptor cf_desc;
cf_handle->GetDescriptor(&cf_desc);
auto *const table_factory = cf_desc.options.table_factory.get();
if (table_factory != nullptr) {
std::string tf_name = table_factory->Name();
if (tf_name.find("BlockBasedTable") != std::string::npos) {
const rocksdb::BlockBasedTableOptions *const bbt_opt =
reinterpret_cast<rocksdb::BlockBasedTableOptions *>(
table_factory->GetOptions());
if (bbt_opt != nullptr) {
if (bbt_opt->block_cache.get() != nullptr) {
cache_set.insert(bbt_opt->block_cache.get());
} else {
internal_cache_count++;
}
cache_set.insert(bbt_opt->block_cache_compressed.get());
}
}
}
}
std::map<rocksdb::MemoryUtil::UsageType, uint64_t> temp_usage_by_type;
str.clear();
rocksdb::MemoryUtil::GetApproximateMemoryUsageByType(dbs, cache_set,
&temp_usage_by_type);
snprintf(buf, sizeof(buf), "\nMemTable Total: %llu",
(ulonglong)temp_usage_by_type[rocksdb::MemoryUtil::kMemTableTotal]);
str.append(buf);
snprintf(buf, sizeof(buf), "\nMemTable Unflushed: %llu",
(ulonglong)temp_usage_by_type[rocksdb::MemoryUtil::kMemTableUnFlushed]);
str.append(buf);
snprintf(buf, sizeof(buf), "\nTable Readers Total: %llu",
(ulonglong)temp_usage_by_type[rocksdb::MemoryUtil::kTableReadersTotal]);
str.append(buf);
snprintf(buf, sizeof(buf), "\nCache Total: %llu",
(ulonglong)temp_usage_by_type[rocksdb::MemoryUtil::kCacheTotal]);
str.append(buf);
snprintf(buf, sizeof(buf), "\nDefault Cache Capacity: %llu",
(ulonglong)internal_cache_count * kDefaultInternalCacheSize);
str.append(buf);
res |= print_stats(thd, "MEMORY_STATS", "rocksdb", str, stat_print);
/* Show the background thread status */
std::vector<rocksdb::ThreadStatus> thread_list;
rocksdb::Status s = rdb->GetEnv()->GetThreadList(&thread_list);
if (!s.ok()) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Returned error (%s) from GetThreadList.\n",
s.ToString().c_str());
res |= true;
} else {
/* For each background thread retrieved, print out its information */
for (auto &it : thread_list) {
/* Only look at background threads. Ignore user threads, if any. */
if (it.thread_type > rocksdb::ThreadStatus::LOW_PRIORITY) {
continue;
}
str = "\nthread_type: " + it.GetThreadTypeName(it.thread_type) +
"\ncf_name: " + it.cf_name +
"\noperation_type: " + it.GetOperationName(it.operation_type) +
"\noperation_stage: " +
it.GetOperationStageName(it.operation_stage) +
"\nelapsed_time_ms: " + it.MicrosToString(it.op_elapsed_micros);
for (auto &it_props : it.InterpretOperationProperties(
it.operation_type, it.op_properties)) {
str += "\n" + it_props.first + ": " + std::to_string(it_props.second);
}
str += "\nstate_type: " + it.GetStateName(it.state_type);
res |= print_stats(thd, "BG_THREADS", std::to_string(it.thread_id), str,
stat_print);
}
}
#ifdef MARIAROCKS_NOT_YET
/* Explicit snapshot information */
str = Rdb_explicit_snapshot::dump_snapshots();
#endif
if (!str.empty()) {
res |= print_stats(thd, "EXPLICIT_SNAPSHOTS", "rocksdb", str, stat_print);
}
#ifdef MARIAROCKS_NOT_YET
} else if (stat_type == HA_ENGINE_TRX) {
/* Handle the SHOW ENGINE ROCKSDB TRANSACTION STATUS command */
res |= rocksdb_show_snapshot_status(hton, thd, stat_print);
#endif
}
return res;
}
static inline void rocksdb_register_tx(handlerton *const hton, THD *const thd,
Rdb_transaction *const tx) {
DBUG_ASSERT(tx != nullptr);
trans_register_ha(thd, FALSE, rocksdb_hton, 0);
if (my_core::thd_test_options(thd, OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN)) {
tx->start_stmt();
trans_register_ha(thd, TRUE, rocksdb_hton, 0);
}
}
static const char *ha_rocksdb_exts[] = {NullS};
#ifdef MARIAROCKS_NOT_YET
static bool rocksdb_explicit_snapshot(
handlerton *const /* hton */, /*!< in: RocksDB handlerton */
THD *const thd, /*!< in: MySQL thread handle */
snapshot_info_st *ss_info) /*!< out: Snapshot information */
{
switch (ss_info->op) {
case snapshot_operation::SNAPSHOT_CREATE: {
if (mysql_bin_log_is_open()) {
mysql_bin_log_lock_commits(ss_info);
}
auto s = Rdb_explicit_snapshot::create(ss_info, rdb, rdb->GetSnapshot());
if (mysql_bin_log_is_open()) {
mysql_bin_log_unlock_commits(ss_info);
}
thd->set_explicit_snapshot(s);
return s == nullptr;
}
case snapshot_operation::SNAPSHOT_ATTACH: {
auto s = Rdb_explicit_snapshot::get(ss_info->snapshot_id);
if (!s) {
return true;
}
*ss_info = s->ss_info;
thd->set_explicit_snapshot(s);
return false;
}
case snapshot_operation::SNAPSHOT_RELEASE: {
if (!thd->get_explicit_snapshot()) {
return true;
}
*ss_info = thd->get_explicit_snapshot()->ss_info;
thd->set_explicit_snapshot(nullptr);
return false;
}
default:
DBUG_ASSERT(false);
return true;
}
return true;
}
#endif
/*
Supporting START TRANSACTION WITH CONSISTENT [ROCKSDB] SNAPSHOT
Features:
1. Supporting START TRANSACTION WITH CONSISTENT SNAPSHOT
2. Getting current binlog position in addition to #1.
The second feature is done by START TRANSACTION WITH
CONSISTENT ROCKSDB SNAPSHOT. This is Facebook's extension, and
it works like existing START TRANSACTION WITH CONSISTENT INNODB SNAPSHOT.
- When not setting engine, START TRANSACTION WITH CONSISTENT SNAPSHOT
takes both InnoDB and RocksDB snapshots, and both InnoDB and RocksDB
participate in transaction. When executing COMMIT, both InnoDB and
RocksDB modifications are committed. Remember that XA is not supported yet,
so mixing engines is not recommended anyway.
- When setting engine, START TRANSACTION WITH CONSISTENT.. takes
snapshot for the specified engine only. But it starts both
InnoDB and RocksDB transactions.
*/
static int rocksdb_start_tx_and_assign_read_view(
handlerton *const hton, /*!< in: RocksDB handlerton */
THD *const thd /*!< in: MySQL thread handle of the
user for whom the transaction should
be committed */
)
#ifdef MARIAROCKS_NOT_YET
snapshot_info_st *ss_info) /*!< in/out: Snapshot info like binlog file, pos,
gtid executed and snapshot ID */
#endif
{
ulong const tx_isolation = my_core::thd_tx_isolation(thd);
if (tx_isolation != ISO_REPEATABLE_READ) {
my_error(ER_ISOLATION_LEVEL_WITH_CONSISTENT_SNAPSHOT, MYF(0));
return HA_EXIT_FAILURE;
}
#ifdef MARIADB_NOT_YET
if (ss_info) {
if (mysql_bin_log_is_open()) {
mysql_bin_log_lock_commits(ss_info);
} else {
return HA_EXIT_FAILURE;
}
#endif
/*
MariaDB: there is no need to call mysql_bin_log_lock_commits and then
unlock back.
SQL layer calls start_consistent_snapshot() for all engines, including the
binlog under LOCK_commit_ordered mutex.
The mutex prevents binlog commits from happening (right?) while the storage
engine(s) allocate read snapshots. That way, each storage engine is
synchronized with current binlog position.
*/
mysql_mutex_assert_owner(&LOCK_commit_ordered);
Rdb_transaction *const tx = get_or_create_tx(thd);
Rdb_perf_context_guard guard(tx, rocksdb_perf_context_level(thd));
DBUG_ASSERT(!tx->has_snapshot());
tx->set_tx_read_only(true);
rocksdb_register_tx(hton, thd, tx);
tx->acquire_snapshot(true);
#ifdef MARIADB_NOT_YET
if (ss_info) {
mysql_bin_log_unlock_commits(ss_info);
}
#endif
return HA_EXIT_SUCCESS;
}
#ifdef MARIADB_NOT_YET
static int rocksdb_start_tx_with_shared_read_view(
handlerton *const hton, /*!< in: RocksDB handlerton */
THD *const thd) /*!< in: MySQL thread handle of the
user for whom the transaction should
be committed */
#ifdef MARIADB_NOT_YET
snapshot_info_st *ss_info) /*!< out: Snapshot info like binlog file, pos,
gtid executed and snapshot ID */
#endif
{
DBUG_ASSERT(thd != nullptr);
int error = HA_EXIT_SUCCESS;
ulong const tx_isolation = my_core::thd_tx_isolation(thd);
if (tx_isolation != ISO_REPEATABLE_READ) {
my_error(ER_ISOLATION_LEVEL_WITH_CONSISTENT_SNAPSHOT, MYF(0));
return HA_EXIT_FAILURE;
}
Rdb_transaction *tx = nullptr;
#ifdef MARIADB_NOT_YET
std::shared_ptr<Rdb_explicit_snapshot> explicit_snapshot;
const auto op = ss_info->op;
DBUG_ASSERT(op == snapshot_operation::SNAPSHOT_CREATE ||
op == snapshot_operation::SNAPSHOT_ATTACH);
// case: if binlogs are available get binlog file/pos and gtid info
if (op == snapshot_operation::SNAPSHOT_CREATE && mysql_bin_log_is_open()) {
mysql_bin_log_lock_commits(ss_info);
}
if (op == snapshot_operation::SNAPSHOT_ATTACH) {
explicit_snapshot = Rdb_explicit_snapshot::get(ss_info->snapshot_id);
if (!explicit_snapshot) {
my_printf_error(ER_UNKNOWN_ERROR, "Snapshot %llu does not exist", MYF(0),
ss_info->snapshot_id);
error = HA_EXIT_FAILURE;
}
}
#endif
// case: all good till now
if (error == HA_EXIT_SUCCESS) {
tx = get_or_create_tx(thd);
Rdb_perf_context_guard guard(tx, rocksdb_perf_context_level(thd));
#ifdef MARIADB_NOT_YET
if (explicit_snapshot) {
tx->m_explicit_snapshot = explicit_snapshot;
}
#endif
DBUG_ASSERT(!tx->has_snapshot());
tx->set_tx_read_only(true);
rocksdb_register_tx(hton, thd, tx);
tx->acquire_snapshot(true);
#ifdef MARIADB_NOT_YET
// case: an explicit snapshot was not assigned to this transaction
if (!tx->m_explicit_snapshot) {
tx->m_explicit_snapshot =
Rdb_explicit_snapshot::create(ss_info, rdb, tx->m_read_opts.snapshot);
if (!tx->m_explicit_snapshot) {
my_printf_error(ER_UNKNOWN_ERROR, "Could not create snapshot", MYF(0));
error = HA_EXIT_FAILURE;
}
}
#endif
}
#ifdef MARIADB_NOT_YET
// case: unlock the binlog
if (op == snapshot_operation::SNAPSHOT_CREATE && mysql_bin_log_is_open()) {
mysql_bin_log_unlock_commits(ss_info);
}
DBUG_ASSERT(error == HA_EXIT_FAILURE || tx->m_explicit_snapshot);
// copy over the snapshot details to pass to the upper layers
if (tx->m_explicit_snapshot) {
*ss_info = tx->m_explicit_snapshot->ss_info;
ss_info->op = op;
}
#endif
return error;
}
#endif
/* Dummy SAVEPOINT support. This is needed for long running transactions
* like mysqldump (https://bugs.mysql.com/bug.php?id=71017).
* Current SAVEPOINT does not correctly handle ROLLBACK and does not return
* errors. This needs to be addressed in future versions (Issue#96).
*/
static int rocksdb_savepoint(handlerton *const hton, THD *const thd,
void *const savepoint) {
return HA_EXIT_SUCCESS;
}
static int rocksdb_rollback_to_savepoint(handlerton *const hton, THD *const thd,
void *const savepoint) {
Rdb_transaction *tx = get_tx_from_thd(thd);
return tx->rollback_to_savepoint(savepoint);
}
static bool rocksdb_rollback_to_savepoint_can_release_mdl(
handlerton *const /* hton */, THD *const /* thd */) {
return true;
}
#ifdef MARIAROCKS_NOT_YET
/*
This is called for INFORMATION_SCHEMA
*/
static void rocksdb_update_table_stats(
/* per-table stats callback */
void (*cb)(const char *db, const char *tbl, bool is_partition,
my_io_perf_t *r, my_io_perf_t *w, my_io_perf_t *r_blob,
my_io_perf_t *r_primary, my_io_perf_t *r_secondary,
page_stats_t *page_stats, comp_stats_t *comp_stats,
int n_lock_wait, int n_lock_wait_timeout, int n_lock_deadlock,
const char *engine)) {
my_io_perf_t io_perf_read;
my_io_perf_t io_perf_write;
my_io_perf_t io_perf;
page_stats_t page_stats;
comp_stats_t comp_stats;
uint lock_wait_timeout_stats;
uint deadlock_stats;
uint lock_wait_stats;
std::vector<std::string> tablenames;
/*
Most of these are for innodb, so setting them to 0.
TODO: possibly separate out primary vs. secondary index reads
*/
memset(&io_perf, 0, sizeof(io_perf));
memset(&page_stats, 0, sizeof(page_stats));
memset(&comp_stats, 0, sizeof(comp_stats));
memset(&io_perf_write, 0, sizeof(io_perf_write));
tablenames = rdb_open_tables.get_table_names();
for (const auto &it : tablenames) {
Rdb_table_handler *table_handler;
std::string str, dbname, tablename, partname;
char dbname_sys[NAME_LEN + 1];
char tablename_sys[NAME_LEN + 1];
bool is_partition;
if (rdb_normalize_tablename(it, &str) != HA_EXIT_SUCCESS) {
/* Function needs to return void because of the interface and we've
* detected an error which shouldn't happen. There's no way to let
* caller know that something failed.
*/
SHIP_ASSERT(false);
return;
}
if (rdb_split_normalized_tablename(str, &dbname, &tablename, &partname)) {
continue;
}
is_partition = (partname.size() != 0);
table_handler = rdb_open_tables.get_table_handler(it.c_str());
if (table_handler == nullptr) {
continue;
}
io_perf_read.bytes = table_handler->m_io_perf_read.bytes.load();
io_perf_read.requests = table_handler->m_io_perf_read.requests.load();
io_perf_write.bytes = table_handler->m_io_perf_write.bytes.load();
io_perf_write.requests = table_handler->m_io_perf_write.requests.load();
lock_wait_timeout_stats = table_handler->m_lock_wait_timeout_counter.load();
deadlock_stats = table_handler->m_deadlock_counter.load();
lock_wait_stats =
table_handler->m_table_perf_context.m_value[PC_KEY_LOCK_WAIT_COUNT]
.load();
/*
Convert from rocksdb timer to mysql timer. RocksDB values are
in nanoseconds, but table statistics expect the value to be
in my_timer format.
*/
io_perf_read.svc_time = my_core::microseconds_to_my_timer(
table_handler->m_io_perf_read.svc_time.load() / 1000);
io_perf_read.svc_time_max = my_core::microseconds_to_my_timer(
table_handler->m_io_perf_read.svc_time_max.load() / 1000);
io_perf_read.wait_time = my_core::microseconds_to_my_timer(
table_handler->m_io_perf_read.wait_time.load() / 1000);
io_perf_read.wait_time_max = my_core::microseconds_to_my_timer(
table_handler->m_io_perf_read.wait_time_max.load() / 1000);
io_perf_read.slow_ios = table_handler->m_io_perf_read.slow_ios.load();
rdb_open_tables.release_table_handler(table_handler);
/*
Table stats expects our database and table name to be in system encoding,
not filename format. Convert before calling callback.
*/
my_core::filename_to_tablename(dbname.c_str(), dbname_sys,
sizeof(dbname_sys));
my_core::filename_to_tablename(tablename.c_str(), tablename_sys,
sizeof(tablename_sys));
(*cb)(dbname_sys, tablename_sys, is_partition, &io_perf_read,
&io_perf_write, &io_perf, &io_perf, &io_perf, &page_stats,
&comp_stats, lock_wait_stats, lock_wait_timeout_stats, deadlock_stats,
rocksdb_hton_name);
}
}
#endif
static rocksdb::Status check_rocksdb_options_compatibility(
const char *const dbpath, const rocksdb::Options &main_opts,
const std::vector<rocksdb::ColumnFamilyDescriptor> &cf_descr) {
DBUG_ASSERT(rocksdb_datadir != nullptr);
rocksdb::DBOptions loaded_db_opt;
std::vector<rocksdb::ColumnFamilyDescriptor> loaded_cf_descs;
rocksdb::Status status =
LoadLatestOptions(dbpath, rocksdb::Env::Default(), &loaded_db_opt,
&loaded_cf_descs, rocksdb_ignore_unknown_options);
// If we're starting from scratch and there are no options saved yet then this
// is a valid case. Therefore we can't compare the current set of options to
// anything.
if (status.IsNotFound()) {
return rocksdb::Status::OK();
}
if (!status.ok()) {
return status;
}
if (loaded_cf_descs.size() != cf_descr.size()) {
return rocksdb::Status::NotSupported(
"Mismatched size of column family "
"descriptors.");
}
// Please see RocksDB documentation for more context about why we need to set
// user-defined functions and pointer-typed options manually.
for (size_t i = 0; i < loaded_cf_descs.size(); i++) {
loaded_cf_descs[i].options.compaction_filter =
cf_descr[i].options.compaction_filter;
loaded_cf_descs[i].options.compaction_filter_factory =
cf_descr[i].options.compaction_filter_factory;
loaded_cf_descs[i].options.comparator = cf_descr[i].options.comparator;
loaded_cf_descs[i].options.memtable_factory =
cf_descr[i].options.memtable_factory;
loaded_cf_descs[i].options.merge_operator =
cf_descr[i].options.merge_operator;
loaded_cf_descs[i].options.prefix_extractor =
cf_descr[i].options.prefix_extractor;
loaded_cf_descs[i].options.table_factory =
cf_descr[i].options.table_factory;
}
// This is the essence of the function - determine if it's safe to open the
// database or not.
status = CheckOptionsCompatibility(dbpath, rocksdb::Env::Default(), main_opts,
loaded_cf_descs,
rocksdb_ignore_unknown_options);
return status;
}
static int rocksdb_check_version(handlerton *hton,
const char *path,
const LEX_CUSTRING *version,
ulonglong create_id) {
ulonglong ver= get_table_version(path);
DBUG_PRINT("note",
("MYROCKS-VER: rocksdb_check_version(): path: %s create_id: %llu "
"on_disk_create_id: %llu",
path, create_id, ver));
return (create_id == ver);
}
/*
Storage Engine initialization function, invoked when plugin is loaded.
*/
static int rocksdb_init_func(void *const p) {
DBUG_ENTER_FUNC();
if (rocksdb_ignore_datadic_errors)
{
sql_print_information(
"CAUTION: Running with rocksdb_ignore_datadic_errors=1. "
" This should only be used to perform repairs");
}
if (rdb_check_rocksdb_corruption()) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: There was a corruption detected in RockDB files. "
"Check error log emitted earlier for more details.");
if (rocksdb_allow_to_start_after_corruption) {
// NO_LINT_DEBUG
sql_print_information(
"RocksDB: Remove rocksdb_allow_to_start_after_corruption to prevent "
"server operating if RocksDB corruption is detected.");
} else {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: The server will exit normally and stop restart "
"attempts. Remove %s file from data directory and "
"start mariadbd manually.",
rdb_corruption_marker_file_name().c_str());
exit(0);
}
}
// Validate the assumption about the size of ROCKSDB_SIZEOF_HIDDEN_PK_COLUMN.
static_assert(sizeof(longlong) == 8, "Assuming that longlong is 8 bytes.");
init_rocksdb_psi_keys();
rocksdb_hton = (handlerton *)p;
rdb_open_tables.init();
Ensure_cleanup rdb_open_tables_cleanup([]() { rdb_open_tables.free(); });
#ifdef HAVE_PSI_INTERFACE
rdb_bg_thread.init(rdb_signal_bg_psi_mutex_key, rdb_signal_bg_psi_cond_key);
rdb_drop_idx_thread.init(rdb_signal_drop_idx_psi_mutex_key,
rdb_signal_drop_idx_psi_cond_key);
rdb_mc_thread.init(rdb_signal_mc_psi_mutex_key, rdb_signal_mc_psi_cond_key);
#else
rdb_bg_thread.init();
rdb_drop_idx_thread.init();
rdb_mc_thread.init();
#endif
mysql_mutex_init(rdb_collation_data_mutex_key, &rdb_collation_data_mutex,
MY_MUTEX_INIT_FAST);
mysql_mutex_init(rdb_mem_cmp_space_mutex_key, &rdb_mem_cmp_space_mutex,
MY_MUTEX_INIT_FAST);
const char* initial_rocksdb_datadir_for_ignore_dirs= rocksdb_datadir;
if (!strncmp(rocksdb_datadir, "./", 2))
initial_rocksdb_datadir_for_ignore_dirs += 2;
ignore_db_dirs_append(initial_rocksdb_datadir_for_ignore_dirs);
#if defined(HAVE_PSI_INTERFACE)
rdb_collation_exceptions =
new Regex_list_handler(key_rwlock_collation_exception_list);
#else
rdb_collation_exceptions = new Regex_list_handler();
#endif
mysql_mutex_init(rdb_sysvars_psi_mutex_key, &rdb_sysvars_mutex,
MY_MUTEX_INIT_FAST);
mysql_mutex_init(rdb_block_cache_resize_mutex_key,
&rdb_block_cache_resize_mutex, MY_MUTEX_INIT_FAST);
Rdb_transaction::init_mutex();
rocksdb_hton->create = rocksdb_create_handler;
rocksdb_hton->close_connection = rocksdb_close_connection;
rocksdb_hton->prepare = rocksdb_prepare;
rocksdb_hton->prepare_ordered = NULL; // Do not need it
rocksdb_hton->commit_by_xid = rocksdb_commit_by_xid;
rocksdb_hton->rollback_by_xid = rocksdb_rollback_by_xid;
rocksdb_hton->recover = rocksdb_recover;
rocksdb_hton->commit_ordered= rocksdb_commit_ordered;
rocksdb_hton->commit = rocksdb_commit;
rocksdb_hton->commit_checkpoint_request= rocksdb_checkpoint_request;
rocksdb_hton->rollback = rocksdb_rollback;
rocksdb_hton->show_status = rocksdb_show_status;
#ifdef MARIADB_NOT_YET
rocksdb_hton->explicit_snapshot = rocksdb_explicit_snapshot;
#endif
rocksdb_hton->start_consistent_snapshot =
rocksdb_start_tx_and_assign_read_view;
#ifdef MARIADB_NOT_YET
rocksdb_hton->start_shared_snapshot = rocksdb_start_tx_with_shared_read_view;
#endif
rocksdb_hton->savepoint_set = rocksdb_savepoint;
rocksdb_hton->savepoint_rollback = rocksdb_rollback_to_savepoint;
rocksdb_hton->savepoint_rollback_can_release_mdl =
rocksdb_rollback_to_savepoint_can_release_mdl;
#ifdef MARIAROCKS_NOT_YET
rocksdb_hton->update_table_stats = rocksdb_update_table_stats;
#endif // MARIAROCKS_NOT_YET
/*
Not needed in MariaDB:
rocksdb_hton->flush_logs = rocksdb_flush_wal;
rocksdb_hton->handle_single_table_select = rocksdb_handle_single_table_select;
*/
rocksdb_hton->check_version = rocksdb_check_version;
rocksdb_hton->flags = HTON_TEMPORARY_NOT_SUPPORTED |
HTON_SUPPORTS_EXTENDED_KEYS | HTON_CAN_RECREATE;
rocksdb_hton->tablefile_extensions= ha_rocksdb_exts;
DBUG_ASSERT(!mysqld_embedded);
if (rocksdb_db_options->max_open_files > (long)open_files_limit) {
// NO_LINT_DEBUG
sql_print_information(
"RocksDB: rocksdb_max_open_files should not be "
"greater than the open_files_limit, effective value "
"of rocksdb_max_open_files is being set to "
"open_files_limit / 2.");
rocksdb_db_options->max_open_files = open_files_limit / 2;
} else if (rocksdb_db_options->max_open_files == -2) {
rocksdb_db_options->max_open_files = open_files_limit / 2;
}
#if 0 // MARIAROCKS_NOT_YET : read-free replication is not supported
rdb_read_free_regex_handler.set_patterns(DEFAULT_READ_FREE_RPL_TABLES);
#endif
rocksdb_stats = rocksdb::CreateDBStatistics();
rocksdb_stats->set_stats_level(
static_cast<rocksdb::StatsLevel>(rocksdb_stats_level));
rocksdb_stats_level = rocksdb_stats->get_stats_level();
rocksdb_db_options->statistics = rocksdb_stats;
if (rocksdb_rate_limiter_bytes_per_sec != 0) {
rocksdb_rate_limiter.reset(
rocksdb::NewGenericRateLimiter(rocksdb_rate_limiter_bytes_per_sec));
rocksdb_db_options->rate_limiter = rocksdb_rate_limiter;
}
rocksdb_db_options->delayed_write_rate = rocksdb_delayed_write_rate;
std::shared_ptr<Rdb_logger> myrocks_logger = std::make_shared<Rdb_logger>();
rocksdb::Status s = rocksdb::CreateLoggerFromOptions(
rocksdb_datadir, *rocksdb_db_options, &rocksdb_db_options->info_log);
if (s.ok()) {
myrocks_logger->SetRocksDBLogger(rocksdb_db_options->info_log);
}
rocksdb_db_options->info_log = myrocks_logger;
myrocks_logger->SetInfoLogLevel(
static_cast<rocksdb::InfoLogLevel>(rocksdb_info_log_level));
rocksdb_db_options->wal_dir = rocksdb_wal_dir;
rocksdb_db_options->wal_recovery_mode =
static_cast<rocksdb::WALRecoveryMode>(rocksdb_wal_recovery_mode);
rocksdb_db_options->access_hint_on_compaction_start =
static_cast<rocksdb::Options::AccessHint>(
rocksdb_access_hint_on_compaction_start);
if (rocksdb_db_options->allow_mmap_reads &&
rocksdb_db_options->use_direct_reads) {
// allow_mmap_reads implies !use_direct_reads and RocksDB will not open if
// mmap_reads and direct_reads are both on. (NO_LINT_DEBUG)
sql_print_error(
"RocksDB: Can't enable both use_direct_reads "
"and allow_mmap_reads\n");
DBUG_RETURN(HA_EXIT_FAILURE);
}
// Check whether the filesystem backing rocksdb_datadir allows O_DIRECT
if (rocksdb_db_options->use_direct_reads ||
rocksdb_db_options->use_direct_io_for_flush_and_compaction) {
rocksdb::EnvOptions soptions;
rocksdb::Status check_status;
rocksdb::Env *const env = rocksdb_db_options->env;
std::string fname = format_string("%s/DIRECT_CHECK", rocksdb_datadir);
if (env->FileExists(fname).ok()) {
std::unique_ptr<rocksdb::SequentialFile> file;
soptions.use_direct_reads = true;
check_status = env->NewSequentialFile(fname, &file, soptions);
} else {
std::unique_ptr<rocksdb::WritableFile> file;
soptions.use_direct_writes = true;
check_status = env->ReopenWritableFile(fname, &file, soptions);
if (file != nullptr) {
file->Close();
}
env->DeleteFile(fname);
}
if (!check_status.ok()) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: Unable to use direct io in rocksdb-datadir:"
"(%s)",
check_status.getState());
DBUG_RETURN(HA_EXIT_FAILURE);
}
}
if (rocksdb_db_options->allow_mmap_writes &&
rocksdb_db_options->use_direct_io_for_flush_and_compaction) {
// See above comment for allow_mmap_reads. (NO_LINT_DEBUG)
sql_print_error(
"RocksDB: Can't enable both "
"use_direct_io_for_flush_and_compaction and "
"allow_mmap_writes\n");
DBUG_RETURN(HA_EXIT_FAILURE);
}
if (rocksdb_db_options->allow_mmap_writes &&
rocksdb_flush_log_at_trx_commit != FLUSH_LOG_NEVER) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: rocksdb_flush_log_at_trx_commit needs to be 0 "
"to use allow_mmap_writes");
DBUG_RETURN(HA_EXIT_FAILURE);
}
// sst_file_manager will move deleted rocksdb sst files to trash_dir
// to be deleted in a background thread.
std::string trash_dir = std::string(rocksdb_datadir) + "/trash";
rocksdb_db_options->sst_file_manager.reset(NewSstFileManager(
rocksdb_db_options->env, myrocks_logger, trash_dir,
rocksdb_sst_mgr_rate_bytes_per_sec, true /* delete_existing_trash */));
std::vector<std::string> cf_names;
rocksdb::Status status;
status = rocksdb::DB::ListColumnFamilies(*rocksdb_db_options, rocksdb_datadir,
&cf_names);
if (!status.ok()) {
/*
When we start on an empty datadir, ListColumnFamilies returns IOError,
and RocksDB doesn't provide any way to check what kind of error it was.
Checking system errno happens to work right now.
*/
if (status.IsIOError()
#ifndef _WIN32
&& errno == ENOENT
#endif
) {
sql_print_information("RocksDB: Got ENOENT when listing column families");
// NO_LINT_DEBUG
sql_print_information(
"RocksDB: assuming that we're creating a new database");
} else {
rdb_log_status_error(status, "Error listing column families");
DBUG_RETURN(HA_EXIT_FAILURE);
}
} else {
// NO_LINT_DEBUG
sql_print_information("RocksDB: %ld column families found",
cf_names.size());
}
std::vector<rocksdb::ColumnFamilyDescriptor> cf_descr;
std::vector<rocksdb::ColumnFamilyHandle *> cf_handles;
rocksdb_tbl_options->index_type =
(rocksdb::BlockBasedTableOptions::IndexType)rocksdb_index_type;
if (!rocksdb_tbl_options->no_block_cache) {
std::shared_ptr<rocksdb::MemoryAllocator> memory_allocator;
if (!rocksdb_cache_dump) {
size_t block_size = rocksdb_tbl_options->block_size;
rocksdb::JemallocAllocatorOptions alloc_opt;
// Limit jemalloc tcache memory usage. The range
// [block_size/4, block_size] should be enough to cover most of
// block cache allocation sizes.
alloc_opt.limit_tcache_size = true;
alloc_opt.tcache_size_lower_bound = block_size / 4;
alloc_opt.tcache_size_upper_bound = block_size;
rocksdb::Status new_alloc_status =
rocksdb::NewJemallocNodumpAllocator(alloc_opt, &memory_allocator);
if (!new_alloc_status.ok()) {
// Fallback to use default malloc/free.
rdb_log_status_error(new_alloc_status,
"Error excluding block cache from core dump");
memory_allocator = nullptr;
DBUG_RETURN(HA_EXIT_FAILURE);
}
}
std::shared_ptr<rocksdb::Cache> block_cache =
rocksdb_use_clock_cache
? rocksdb::NewClockCache(rocksdb_block_cache_size)
: rocksdb::NewLRUCache(
rocksdb_block_cache_size, -1 /*num_shard_bits*/,
false /*strict_capcity_limit*/,
rocksdb_cache_high_pri_pool_ratio, memory_allocator);
if (rocksdb_sim_cache_size > 0) {
// Simulated cache enabled
// Wrap block cache inside a simulated cache and pass it to RocksDB
rocksdb_tbl_options->block_cache =
rocksdb::NewSimCache(block_cache, rocksdb_sim_cache_size, 6);
} else {
// Pass block cache to RocksDB
rocksdb_tbl_options->block_cache = block_cache;
}
}
// Using newer BlockBasedTable format version for better compression
// and better memory allocation.
// See:
// https://github.com/facebook/rocksdb/commit/9ab5adfc59a621d12357580c94451d9f7320c2dd
rocksdb_tbl_options->format_version = 2;
if (rocksdb_collect_sst_properties) {
properties_collector_factory =
std::make_shared<Rdb_tbl_prop_coll_factory>(&ddl_manager);
rocksdb_set_compaction_options(nullptr, nullptr, nullptr, nullptr);
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
DBUG_ASSERT(rocksdb_table_stats_sampling_pct <=
RDB_TBL_STATS_SAMPLE_PCT_MAX);
properties_collector_factory->SetTableStatsSamplingPct(
rocksdb_table_stats_sampling_pct);
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
if (rocksdb_persistent_cache_size_mb > 0) {
std::shared_ptr<rocksdb::PersistentCache> pcache;
uint64_t cache_size_bytes = rocksdb_persistent_cache_size_mb * 1024 * 1024;
status = rocksdb::NewPersistentCache(
rocksdb::Env::Default(), std::string(rocksdb_persistent_cache_path),
cache_size_bytes, myrocks_logger, true, &pcache);
if (!status.ok()) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Persistent cache returned error: (%s)",
status.getState());
DBUG_RETURN(HA_EXIT_FAILURE);
}
rocksdb_tbl_options->persistent_cache = pcache;
} else if (strlen(rocksdb_persistent_cache_path)) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Must specify rocksdb_persistent_cache_size_mb");
DBUG_RETURN(HA_EXIT_FAILURE);
}
std::unique_ptr<Rdb_cf_options> cf_options_map(new Rdb_cf_options());
if (!cf_options_map->init(*rocksdb_tbl_options, properties_collector_factory,
rocksdb_default_cf_options,
rocksdb_override_cf_options)) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Failed to initialize CF options map.");
DBUG_RETURN(HA_EXIT_FAILURE);
}
/*
If there are no column families, we're creating the new database.
Create one column family named "default".
*/
if (cf_names.size() == 0) cf_names.push_back(DEFAULT_CF_NAME);
std::vector<int> compaction_enabled_cf_indices;
// NO_LINT_DEBUG
sql_print_information("RocksDB: Column Families at start:");
for (size_t i = 0; i < cf_names.size(); ++i) {
rocksdb::ColumnFamilyOptions opts;
cf_options_map->get_cf_options(cf_names[i], &opts);
// NO_LINT_DEBUG
sql_print_information(" cf=%s", cf_names[i].c_str());
// NO_LINT_DEBUG
sql_print_information(" write_buffer_size=%ld", opts.write_buffer_size);
// NO_LINT_DEBUG
sql_print_information(" target_file_size_base=%" PRIu64,
opts.target_file_size_base);
/*
Temporarily disable compactions to prevent a race condition where
compaction starts before compaction filter is ready.
*/
if (!opts.disable_auto_compactions) {
compaction_enabled_cf_indices.push_back(i);
opts.disable_auto_compactions = true;
}
cf_descr.push_back(rocksdb::ColumnFamilyDescriptor(cf_names[i], opts));
}
rocksdb::Options main_opts(*rocksdb_db_options,
cf_options_map->get_defaults());
rocksdb::TransactionDBOptions tx_db_options;
tx_db_options.transaction_lock_timeout = 2000; // 2 seconds
tx_db_options.custom_mutex_factory = std::make_shared<Rdb_mutex_factory>();
tx_db_options.write_policy =
static_cast<rocksdb::TxnDBWritePolicy>(rocksdb_write_policy);
status =
check_rocksdb_options_compatibility(rocksdb_datadir, main_opts, cf_descr);
// We won't start if we'll determine that there's a chance of data corruption
// because of incompatible options.
if (!status.ok()) {
rdb_log_status_error(
status, "Compatibility check against existing database options failed");
DBUG_RETURN(HA_EXIT_FAILURE);
}
status = rocksdb::TransactionDB::Open(
main_opts, tx_db_options, rocksdb_datadir, cf_descr, &cf_handles, &rdb);
if (!status.ok()) {
rdb_log_status_error(status, "Error opening instance");
DBUG_RETURN(HA_EXIT_FAILURE);
}
cf_manager.init(std::move(cf_options_map), &cf_handles);
if (dict_manager.init(rdb, &cf_manager)) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Failed to initialize data dictionary.");
DBUG_RETURN(HA_EXIT_FAILURE);
}
if (binlog_manager.init(&dict_manager)) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Failed to initialize binlog manager.");
DBUG_RETURN(HA_EXIT_FAILURE);
}
if (ddl_manager.init(&dict_manager, &cf_manager, rocksdb_validate_tables)) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Failed to initialize DDL manager.");
if (rocksdb_ignore_datadic_errors)
{
sql_print_error("RocksDB: rocksdb_ignore_datadic_errors=1, "
"trying to continue");
}
else
DBUG_RETURN(HA_EXIT_FAILURE);
}
Rdb_sst_info::init(rdb);
/*
Enable auto compaction, things needed for compaction filter are finished
initializing
*/
std::vector<rocksdb::ColumnFamilyHandle *> compaction_enabled_cf_handles;
compaction_enabled_cf_handles.reserve(compaction_enabled_cf_indices.size());
for (const auto &index : compaction_enabled_cf_indices) {
compaction_enabled_cf_handles.push_back(cf_handles[index]);
}
status = rdb->EnableAutoCompaction(compaction_enabled_cf_handles);
if (!status.ok()) {
rdb_log_status_error(status, "Error enabling compaction");
DBUG_RETURN(HA_EXIT_FAILURE);
}
#ifndef HAVE_PSI_INTERFACE
auto err = rdb_bg_thread.create_thread(BG_THREAD_NAME);
#else
auto err = rdb_bg_thread.create_thread(BG_THREAD_NAME,
rdb_background_psi_thread_key);
#endif
if (err != 0) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Couldn't start the background thread: (errno=%d)",
err);
DBUG_RETURN(HA_EXIT_FAILURE);
}
#ifndef HAVE_PSI_INTERFACE
err = rdb_drop_idx_thread.create_thread(INDEX_THREAD_NAME);
#else
err = rdb_drop_idx_thread.create_thread(INDEX_THREAD_NAME,
rdb_drop_idx_psi_thread_key);
#endif
if (err != 0) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Couldn't start the drop index thread: (errno=%d)",
err);
DBUG_RETURN(HA_EXIT_FAILURE);
}
err = rdb_mc_thread.create_thread(MANUAL_COMPACTION_THREAD_NAME
#ifdef HAVE_PSI_INTERFACE
,
rdb_mc_psi_thread_key
#endif
);
if (err != 0) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: Couldn't start the manual compaction thread: (errno=%d)",
err);
DBUG_RETURN(HA_EXIT_FAILURE);
}
rdb_set_collation_exception_list(rocksdb_strict_collation_exceptions);
if (rocksdb_pause_background_work) {
rdb->PauseBackgroundWork();
}
// NO_LINT_DEBUG
sql_print_information("RocksDB: global statistics using %s indexer",
STRINGIFY_ARG(RDB_INDEXER));
#if defined(HAVE_SCHED_GETCPU)
if (sched_getcpu() == -1) {
// NO_LINT_DEBUG
sql_print_information(
"RocksDB: sched_getcpu() failed - "
"global statistics will use thread_id_indexer_t instead");
}
#endif
err = my_error_register(rdb_get_error_messages, HA_ERR_ROCKSDB_FIRST,
HA_ERR_ROCKSDB_LAST);
if (err != 0) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Couldn't initialize error messages");
DBUG_RETURN(HA_EXIT_FAILURE);
}
// Creating an instance of HistogramImpl should only happen after RocksDB
// has been successfully initialized.
commit_latency_stats = new rocksdb::HistogramImpl();
// Construct a list of directories which will be monitored by I/O watchdog
// to make sure that we won't lose write access to them.
std::vector<std::string> directories;
// 1. Data directory.
directories.push_back(mysql_real_data_home);
// 2. Transaction logs.
if (myrocks::rocksdb_wal_dir && *myrocks::rocksdb_wal_dir) {
directories.push_back(myrocks::rocksdb_wal_dir);
}
#if !defined(_WIN32) && !defined(__APPLE__)
io_watchdog = new Rdb_io_watchdog(std::move(directories));
io_watchdog->reset_timeout(rocksdb_io_write_timeout_secs);
#endif
// NO_LINT_DEBUG
sql_print_information(
"MyRocks storage engine plugin has been successfully "
"initialized.");
// Skip cleaning up rdb_open_tables as we've succeeded
rdb_open_tables_cleanup.skip();
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/*
Storage Engine deinitialization function, invoked when plugin is unloaded.
*/
static int rocksdb_done_func(void *const p) {
DBUG_ENTER_FUNC();
// signal the drop index thread to stop
rdb_drop_idx_thread.signal(true);
// Flush all memtables for not losing data, even if WAL is disabled.
rocksdb_flush_all_memtables();
// Stop all rocksdb background work
CancelAllBackgroundWork(rdb->GetBaseDB(), true);
// Signal the background thread to stop and to persist all stats collected
// from background flushes and compactions. This will add more keys to a new
// memtable, but since the memtables were just flushed, it should not trigger
// a flush that can stall due to background threads being stopped. As long
// as these keys are stored in a WAL file, they can be retrieved on restart.
rdb_bg_thread.signal(true);
// Wait for the background thread to finish.
auto err = rdb_bg_thread.join();
if (err != 0) {
// We'll log the message and continue because we're shutting down and
// continuation is the optimal strategy.
// NO_LINT_DEBUG
sql_print_error("RocksDB: Couldn't stop the background thread: (errno=%d)",
err);
}
// Wait for the drop index thread to finish.
err = rdb_drop_idx_thread.join();
if (err != 0) {
// NO_LINT_DEBUG
sql_print_error("RocksDB: Couldn't stop the index thread: (errno=%d)", err);
}
// signal the manual compaction thread to stop
rdb_mc_thread.signal(true);
// Wait for the manual compaction thread to finish.
err = rdb_mc_thread.join();
if (err != 0) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: Couldn't stop the manual compaction thread: (errno=%d)", err);
}
rdb_open_tables.free();
/*
destructors for static objects can be called at _exit(),
but we want to free the memory at dlclose()
*/
// MARIADB_MERGE_2019: rdb_open_tables.m_hash.~Rdb_table_set();
mysql_mutex_destroy(&rdb_sysvars_mutex);
mysql_mutex_destroy(&rdb_block_cache_resize_mutex);
delete rdb_collation_exceptions;
mysql_mutex_destroy(&rdb_collation_data_mutex);
mysql_mutex_destroy(&rdb_mem_cmp_space_mutex);
Rdb_transaction::term_mutex();
for (auto &it : rdb_collation_data) {
delete it;
it = nullptr;
}
ddl_manager.cleanup();
binlog_manager.cleanup();
dict_manager.cleanup();
cf_manager.cleanup();
delete rdb;
rdb = nullptr;
delete commit_latency_stats;
commit_latency_stats = nullptr;
#if !defined(_WIN32) && !defined(__APPLE__)
delete io_watchdog;
io_watchdog = nullptr;
#endif
// Disown the cache data since we're shutting down.
// This results in memory leaks but it improved the shutdown time.
// Don't disown when running under valgrind
#ifndef HAVE_valgrind
if (rocksdb_tbl_options->block_cache) {
rocksdb_tbl_options->block_cache->DisownData();
}
#endif /* HAVE_valgrind */
/*
MariaDB: don't clear rocksdb_db_options and rocksdb_tbl_options.
MyRocks' plugin variables refer to them.
The plugin cannot be loaded again but plugin
variables are processed before myrocks::rocksdb_init_func is invoked, so
they must point to valid memory.
*/
//rocksdb_db_options = nullptr;
rocksdb_db_options->statistics = nullptr;
//rocksdb_tbl_options = nullptr;
rocksdb_stats = nullptr;
my_free(rocksdb_update_cf_options);
rocksdb_update_cf_options = nullptr;
my_error_unregister(HA_ERR_ROCKSDB_FIRST, HA_ERR_ROCKSDB_LAST);
/*
returning non-zero status from the plugin deinit function will prevent
the server from unloading the plugin. it will only be marked unusable.
This is needed here, because RocksDB cannot be fully unloaded
and reloaded (see sql_plugin.cc near STB_GNU_UNIQUE).
*/
DBUG_RETURN(1);
}
static inline void rocksdb_smart_seek(bool seek_backward,
rocksdb::Iterator *const iter,
const rocksdb::Slice &key_slice) {
if (seek_backward) {
iter->SeekForPrev(key_slice);
} else {
iter->Seek(key_slice);
}
}
static inline void rocksdb_smart_next(bool seek_backward,
rocksdb::Iterator *const iter) {
if (seek_backward) {
iter->Prev();
} else {
iter->Next();
}
}
#ifndef DBUG_OFF
// simulate that RocksDB has reported corrupted data
static void dbug_change_status_to_corrupted(rocksdb::Status *status) {
*status = rocksdb::Status::Corruption();
}
#endif
// If the iterator is not valid it might be because of EOF but might be due
// to IOError or corruption. The good practice is always check it.
// https://github.com/facebook/rocksdb/wiki/Iterator#error-handling
static inline bool is_valid(rocksdb::Iterator *scan_it) {
if (scan_it->Valid()) {
return true;
} else {
rocksdb::Status s = scan_it->status();
DBUG_EXECUTE_IF("rocksdb_return_status_corrupted",
dbug_change_status_to_corrupted(&s););
if (s.IsIOError() || s.IsCorruption()) {
if (s.IsCorruption()) {
rdb_persist_corruption_marker();
}
rdb_handle_io_error(s, RDB_IO_ERROR_GENERAL);
}
return false;
}
}
/**
@brief
Example of simple lock controls. The "table_handler" it creates is a
structure we will pass to each ha_rocksdb handler. Do you have to have
one of these? Well, you have pieces that are used for locking, and
they are needed to function.
*/
Rdb_table_handler *Rdb_open_tables_map::get_table_handler(
const char *const table_name) {
DBUG_ASSERT(table_name != nullptr);
Rdb_table_handler *table_handler;
std::string table_name_str(table_name);
// First, look up the table in the hash map.
RDB_MUTEX_LOCK_CHECK(m_mutex);
const auto it = m_table_map.find(table_name_str);
if (it != m_table_map.end()) {
// Found it
table_handler = it->second;
} else {
char *tmp_name;
// Since we did not find it in the hash map, attempt to create and add it
// to the hash map.
if (!(table_handler = reinterpret_cast<Rdb_table_handler *>(my_multi_malloc(
PSI_INSTRUMENT_ME,
MYF(MY_WME | MY_ZEROFILL), &table_handler, sizeof(*table_handler),
&tmp_name, table_name_str.length() + 1, NullS)))) {
// Allocating a new Rdb_table_handler and a new table name failed.
RDB_MUTEX_UNLOCK_CHECK(m_mutex);
return nullptr;
}
table_handler->m_ref_count = 0;
table_handler->m_table_name_length = table_name_str.length();
table_handler->m_table_name = tmp_name;
strmov(table_handler->m_table_name, table_name);
m_table_map.emplace(table_name_str, table_handler);
thr_lock_init(&table_handler->m_thr_lock);
#ifdef MARIAROCKS_NOT_YET
table_handler->m_io_perf_read.init();
table_handler->m_io_perf_write.init();
#endif
}
DBUG_ASSERT(table_handler->m_ref_count >= 0);
table_handler->m_ref_count++;
RDB_MUTEX_UNLOCK_CHECK(m_mutex);
return table_handler;
}
std::vector<std::string> rdb_get_open_table_names(void) {
return rdb_open_tables.get_table_names();
}
std::vector<std::string> Rdb_open_tables_map::get_table_names(void) const {
const Rdb_table_handler *table_handler;
std::vector<std::string> names;
RDB_MUTEX_LOCK_CHECK(m_mutex);
for (const auto &kv : m_table_map) {
table_handler = kv.second;
DBUG_ASSERT(table_handler != nullptr);
names.push_back(table_handler->m_table_name);
}
RDB_MUTEX_UNLOCK_CHECK(m_mutex);
return names;
}
/*
Inspired by innobase_get_int_col_max_value from InnoDB. This returns the
maximum value a type can take on.
*/
static ulonglong rdb_get_int_col_max_value(const Field *field) {
ulonglong max_value = 0;
switch (field->key_type()) {
case HA_KEYTYPE_BINARY:
max_value = 0xFFULL;
break;
case HA_KEYTYPE_INT8:
max_value = 0x7FULL;
break;
case HA_KEYTYPE_USHORT_INT:
max_value = 0xFFFFULL;
break;
case HA_KEYTYPE_SHORT_INT:
max_value = 0x7FFFULL;
break;
case HA_KEYTYPE_UINT24:
max_value = 0xFFFFFFULL;
break;
case HA_KEYTYPE_INT24:
max_value = 0x7FFFFFULL;
break;
case HA_KEYTYPE_ULONG_INT:
max_value = 0xFFFFFFFFULL;
break;
case HA_KEYTYPE_LONG_INT:
max_value = 0x7FFFFFFFULL;
break;
case HA_KEYTYPE_ULONGLONG:
max_value = 0xFFFFFFFFFFFFFFFFULL;
break;
case HA_KEYTYPE_LONGLONG:
max_value = 0x7FFFFFFFFFFFFFFFULL;
break;
case HA_KEYTYPE_FLOAT:
max_value = 0x1000000ULL;
break;
case HA_KEYTYPE_DOUBLE:
max_value = 0x20000000000000ULL;
break;
default:
abort();
}
return max_value;
}
void ha_rocksdb::load_auto_incr_value() {
ulonglong auto_incr = 0;
bool validate_last = false, use_datadic = true;
#ifndef DBUG_OFF
DBUG_EXECUTE_IF("myrocks_autoinc_upgrade", use_datadic = false;);
validate_last = true;
#endif
if (use_datadic && dict_manager.get_auto_incr_val(
m_tbl_def->get_autoincr_gl_index_id(), &auto_incr)) {
update_auto_incr_val(auto_incr);
}
// If we find nothing in the data dictionary, or if we are in debug mode,
// then call index_last to get the last value.
//
// This is needed when upgrading from a server that did not support
// persistent auto_increment, of if the table is empty.
//
// For debug mode, we are just verifying that the data dictionary value is
// greater than or equal to the maximum value in the table.
if (auto_incr == 0 || validate_last) {
auto_incr = load_auto_incr_value_from_index();
update_auto_incr_val(auto_incr);
}
// If we failed to find anything from the data dictionary and index, then
// initialize auto_increment to 1.
if (m_tbl_def->m_auto_incr_val == 0) {
update_auto_incr_val(1);
}
}
ulonglong ha_rocksdb::load_auto_incr_value_from_index() {
const int save_active_index = active_index;
active_index = table->s->next_number_index;
const uint8 save_table_status = table->status;
ulonglong last_val = 0;
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
const bool is_new_snapshot = !tx->has_snapshot();
if (is_new_snapshot) {
tx->acquire_snapshot(true);
}
// Do a lookup. We only need index column, so it should be index-only.
// (another reason to make it index-only is that table->read_set is not set
// appropriately and non-index-only lookup will not read the value)
const bool save_keyread_only = m_keyread_only;
m_keyread_only = true;
m_converter->set_is_key_requested(true);
if (!index_last(table->record[0])) {
Field *field =
table->key_info[table->s->next_number_index].key_part[0].field;
ulonglong max_val = rdb_get_int_col_max_value(field);
MY_BITMAP *const old_map = dbug_tmp_use_all_columns(table, &table->read_set);
last_val = field->val_int();
if (last_val != max_val) {
last_val++;
}
#ifndef DBUG_OFF
ulonglong dd_val;
if (last_val <= max_val) {
const auto &gl_index_id = m_tbl_def->get_autoincr_gl_index_id();
if (dict_manager.get_auto_incr_val(gl_index_id, &dd_val) &&
tx->get_auto_incr(gl_index_id) == 0) {
DBUG_ASSERT(dd_val >= last_val);
}
}
#endif
dbug_tmp_restore_column_map(&table->read_set, old_map);
}
m_keyread_only = save_keyread_only;
if (is_new_snapshot) {
tx->release_snapshot();
}
table->status = save_table_status;
active_index = save_active_index;
/*
Do what ha_rocksdb::index_end() does.
(Why don't we use index_init/index_end? class handler defines index_init
as private, for some reason).
*/
release_scan_iterator();
return last_val;
}
void ha_rocksdb::update_auto_incr_val(ulonglong val) {
ulonglong auto_incr_val = m_tbl_def->m_auto_incr_val;
while (
auto_incr_val < val &&
!m_tbl_def->m_auto_incr_val.compare_exchange_weak(auto_incr_val, val)) {
// Do nothing - just loop until auto_incr_val is >= val or we successfully
// set it
}
}
void ha_rocksdb::update_auto_incr_val_from_field() {
Field *field;
ulonglong new_val, max_val;
field = table->key_info[table->s->next_number_index].key_part[0].field;
max_val = rdb_get_int_col_max_value(field);
MY_BITMAP *const old_map =
dbug_tmp_use_all_columns(table, &table->read_set);
new_val = field->val_int();
// don't increment if we would wrap around
if (new_val != max_val) {
new_val++;
}
dbug_tmp_restore_column_map(&table->read_set, old_map);
// Only update if positive value was set for auto_incr column.
if (new_val <= max_val) {
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
tx->set_auto_incr(m_tbl_def->get_autoincr_gl_index_id(), new_val);
// Update the in memory auto_incr value in m_tbl_def.
update_auto_incr_val(new_val);
}
}
int ha_rocksdb::load_hidden_pk_value() {
const int save_active_index = active_index;
active_index = m_tbl_def->m_key_count - 1;
const uint8 save_table_status = table->status;
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
const bool is_new_snapshot = !tx->has_snapshot();
longlong hidden_pk_id = 1;
// Do a lookup.
if (!index_last(table->record[0])) {
/*
Decode PK field from the key
*/
auto err = read_hidden_pk_id_from_rowkey(&hidden_pk_id);
if (err) {
if (is_new_snapshot) {
tx->release_snapshot();
}
return err;
}
hidden_pk_id++;
}
longlong old = m_tbl_def->m_hidden_pk_val;
while (old < hidden_pk_id &&
!m_tbl_def->m_hidden_pk_val.compare_exchange_weak(old, hidden_pk_id)) {
}
if (is_new_snapshot) {
tx->release_snapshot();
}
table->status = save_table_status;
active_index = save_active_index;
release_scan_iterator();
return HA_EXIT_SUCCESS;
}
/* Get PK value from m_tbl_def->m_hidden_pk_info. */
longlong ha_rocksdb::update_hidden_pk_val() {
DBUG_ASSERT(has_hidden_pk(table));
const longlong new_val = m_tbl_def->m_hidden_pk_val++;
return new_val;
}
/* Get the id of the hidden pk id from m_last_rowkey */
int ha_rocksdb::read_hidden_pk_id_from_rowkey(longlong *const hidden_pk_id) {
DBUG_ASSERT(table != nullptr);
DBUG_ASSERT(has_hidden_pk(table));
rocksdb::Slice rowkey_slice(m_last_rowkey.ptr(), m_last_rowkey.length());
// Get hidden primary key from old key slice
Rdb_string_reader reader(&rowkey_slice);
if ((!reader.read(Rdb_key_def::INDEX_NUMBER_SIZE))) {
return HA_ERR_ROCKSDB_CORRUPT_DATA;
}
const int length= 8; /* was Field_longlong::PACK_LENGTH in FB MySQL tree */
const uchar *from = reinterpret_cast<const uchar *>(reader.read(length));
if (from == nullptr) {
/* Mem-comparable image doesn't have enough bytes */
return HA_ERR_ROCKSDB_CORRUPT_DATA;
}
*hidden_pk_id = rdb_netbuf_read_uint64(&from);
return HA_EXIT_SUCCESS;
}
/**
@brief
Free lock controls. We call this whenever we close a table. If the table had
the last reference to the table_handler, then we free the memory associated
with it.
*/
void Rdb_open_tables_map::release_table_handler(
Rdb_table_handler *const table_handler) {
RDB_MUTEX_LOCK_CHECK(m_mutex);
DBUG_ASSERT(table_handler != nullptr);
DBUG_ASSERT(table_handler->m_ref_count > 0);
if (!--table_handler->m_ref_count) {
// Last reference was released. Tear down the hash entry.
const auto ret MY_ATTRIBUTE((__unused__)) =
m_table_map.erase(std::string(table_handler->m_table_name));
DBUG_ASSERT(ret == 1); // the hash entry must actually be found and deleted
my_core::thr_lock_delete(&table_handler->m_thr_lock);
my_free(table_handler);
}
RDB_MUTEX_UNLOCK_CHECK(m_mutex);
}
static handler *rocksdb_create_handler(my_core::handlerton *const hton,
my_core::TABLE_SHARE *const table_arg,
my_core::MEM_ROOT *const mem_root) {
return new (mem_root) ha_rocksdb(hton, table_arg);
}
ha_rocksdb::ha_rocksdb(my_core::handlerton *const hton,
my_core::TABLE_SHARE *const table_arg)
: handler(hton, table_arg),
m_table_handler(nullptr),
m_scan_it(nullptr),
m_scan_it_skips_bloom(false),
m_scan_it_snapshot(nullptr),
m_scan_it_lower_bound(nullptr),
m_scan_it_upper_bound(nullptr),
m_tbl_def(nullptr),
m_pk_descr(nullptr),
m_key_descr_arr(nullptr),
m_pk_can_be_decoded(false),
m_pk_tuple(nullptr),
m_pk_packed_tuple(nullptr),
m_sk_packed_tuple(nullptr),
m_end_key_packed_tuple(nullptr),
m_sk_match_prefix(nullptr),
m_sk_match_prefix_buf(nullptr),
m_sk_packed_tuple_old(nullptr),
m_dup_sk_packed_tuple(nullptr),
m_dup_sk_packed_tuple_old(nullptr),
m_pack_buffer(nullptr),
m_record_buffer(nullptr),
m_lock_rows(RDB_LOCK_NONE),
m_keyread_only(false),
m_insert_with_update(false),
m_dup_pk_found(false),
m_in_rpl_delete_rows(false),
m_in_rpl_update_rows(false),
m_force_skip_unique_check(false) {}
const std::string &ha_rocksdb::get_table_basename() const {
return m_tbl_def->base_tablename();
}
/**
@return
false OK
other Error inpacking the data
*/
bool ha_rocksdb::init_with_fields() {
DBUG_ENTER_FUNC();
const uint pk = table_share->primary_key;
if (pk != MAX_KEY) {
const uint key_parts = table_share->key_info[pk].user_defined_key_parts;
check_keyread_allowed(pk /*PK*/, key_parts - 1, true);
} else {
m_pk_can_be_decoded = false;
}
cached_table_flags = table_flags();
DBUG_RETURN(false); /* Ok */
}
/*
If the key is a TTL key, we may need to filter it out.
The purpose of read filtering for tables with TTL is to ensure that
during a transaction a key which has expired already but not removed by
compaction yet is not returned to the user.
Without this the user might be hit with problems such as disappearing
rows within a transaction, etc, because the compaction filter ignores
snapshots when filtering keys.
*/
bool ha_rocksdb::should_hide_ttl_rec(const Rdb_key_def &kd,
const rocksdb::Slice &ttl_rec_val,
const int64_t curr_ts) {
DBUG_ASSERT(kd.has_ttl());
DBUG_ASSERT(kd.m_ttl_rec_offset != UINT_MAX);
/*
Curr_ts can only be 0 if there are no snapshots open.
should_hide_ttl_rec can only be called when there is >=1 snapshots, unless
we are filtering on the write path (single INSERT/UPDATE) in which case
we are passed in the current time as curr_ts.
In the event curr_ts is 0, we always decide not to filter the record. We
also log a warning and increment a diagnostic counter.
*/
if (curr_ts == 0) {
update_row_stats(ROWS_HIDDEN_NO_SNAPSHOT);
return false;
}
if (!rdb_is_ttl_read_filtering_enabled() || !rdb_is_ttl_enabled()) {
return false;
}
Rdb_string_reader reader(&ttl_rec_val);
/*
Find where the 8-byte ttl is for each record in this index.
*/
uint64 ts;
if (!reader.read(kd.m_ttl_rec_offset) || reader.read_uint64(&ts)) {
/*
This condition should never be reached since all TTL records have an
8 byte ttl field in front. Don't filter the record out, and log an error.
*/
std::string buf;
buf = rdb_hexdump(ttl_rec_val.data(), ttl_rec_val.size(),
RDB_MAX_HEXDUMP_LEN);
const GL_INDEX_ID gl_index_id = kd.get_gl_index_id();
// NO_LINT_DEBUG
sql_print_error(
"Decoding ttl from PK value failed, "
"for index (%u,%u), val: %s",
gl_index_id.cf_id, gl_index_id.index_id, buf.c_str());
DBUG_ASSERT(0);
return false;
}
/* Hide record if it has expired before the current snapshot time. */
uint64 read_filter_ts = 0;
#ifndef DBUG_OFF
read_filter_ts += rdb_dbug_set_ttl_read_filter_ts();
#endif
bool is_hide_ttl =
ts + kd.m_ttl_duration + read_filter_ts <= static_cast<uint64>(curr_ts);
if (is_hide_ttl) {
update_row_stats(ROWS_FILTERED);
/* increment examined row count when rows are skipped */
THD *thd = ha_thd();
thd->inc_examined_row_count(1);
DEBUG_SYNC(thd, "rocksdb.ttl_rows_examined");
}
return is_hide_ttl;
}
int ha_rocksdb::rocksdb_skip_expired_records(const Rdb_key_def &kd,
rocksdb::Iterator *const iter,
bool seek_backward) {
if (kd.has_ttl()) {
THD *thd = ha_thd();
while (iter->Valid() &&
should_hide_ttl_rec(
kd, iter->value(),
get_or_create_tx(table->in_use)->m_snapshot_timestamp)) {
DEBUG_SYNC(thd, "rocksdb.check_flags_ser");
if (thd && thd->killed) {
return HA_ERR_QUERY_INTERRUPTED;
}
rocksdb_smart_next(seek_backward, iter);
}
}
return HA_EXIT_SUCCESS;
}
#ifndef DBUG_OFF
void dbug_append_garbage_at_end(rocksdb::PinnableSlice *on_disk_rec) {
std::string str(on_disk_rec->data(), on_disk_rec->size());
on_disk_rec->Reset();
str.append("abc");
on_disk_rec->PinSelf(rocksdb::Slice(str));
}
void dbug_truncate_record(rocksdb::PinnableSlice *on_disk_rec) {
on_disk_rec->remove_suffix(on_disk_rec->size());
}
void dbug_modify_rec_varchar12(rocksdb::PinnableSlice *on_disk_rec) {
std::string res;
// The record is NULL-byte followed by VARCHAR(10).
// Put the NULL-byte
res.append("\0", 1);
// Then, add a valid VARCHAR(12) value.
res.append("\xC", 1);
res.append("123456789ab", 12);
on_disk_rec->Reset();
on_disk_rec->PinSelf(rocksdb::Slice(res));
}
void dbug_create_err_inplace_alter() {
my_printf_error(ER_UNKNOWN_ERROR,
"Intentional failure in inplace alter occurred.", MYF(0));
}
#endif
int ha_rocksdb::convert_record_from_storage_format(
const rocksdb::Slice *const key, uchar *const buf) {
DBUG_EXECUTE_IF("myrocks_simulate_bad_row_read1",
dbug_append_garbage_at_end(&m_retrieved_record););
DBUG_EXECUTE_IF("myrocks_simulate_bad_row_read2",
dbug_truncate_record(&m_retrieved_record););
DBUG_EXECUTE_IF("myrocks_simulate_bad_row_read3",
dbug_modify_rec_varchar12(&m_retrieved_record););
return convert_record_from_storage_format(key, &m_retrieved_record, buf);
}
/*
@brief
Unpack the record in this->m_retrieved_record and this->m_last_rowkey from
storage format into buf (which can be table->record[0] or table->record[1]).
@param key Table record's key in mem-comparable form.
@param buf Store record in table->record[0] format here
@detail
If the table has blobs, the unpacked data in buf may keep pointers to the
data in this->m_retrieved_record.
The key is only needed to check its checksum value (the checksum is in
m_retrieved_record).
@seealso
rdb_converter::setup_read_decoders() Sets up data structures which tell
which columns to decode.
@return
0 OK
other Error inpacking the data
*/
int ha_rocksdb::convert_record_from_storage_format(
const rocksdb::Slice *const key, const rocksdb::Slice *const value,
uchar *const buf) {
return m_converter->decode(m_pk_descr, buf, key, value);
}
int ha_rocksdb::alloc_key_buffers(const TABLE *const table_arg,
const Rdb_tbl_def *const tbl_def_arg,
bool alloc_alter_buffers) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(m_pk_tuple == nullptr);
std::shared_ptr<Rdb_key_def> *const kd_arr = tbl_def_arg->m_key_descr_arr;
uint key_len = 0;
uint max_packed_sk_len = 0;
uint pack_key_len = 0;
uint record_len = table->s->reclength + table->s->null_bytes;
m_pk_descr = kd_arr[pk_index(table_arg, tbl_def_arg)];
if (has_hidden_pk(table_arg)) {
m_pk_key_parts = 1;
} else {
m_pk_key_parts =
table->key_info[table->s->primary_key].user_defined_key_parts;
key_len = table->key_info[table->s->primary_key].key_length;
}
// move this into get_table_handler() ??
m_pk_descr->setup(table_arg, tbl_def_arg);
m_pk_tuple = reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, key_len, MYF(0)));
pack_key_len = m_pk_descr->max_storage_fmt_length();
m_pk_packed_tuple =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, pack_key_len, MYF(0)));
/* Sometimes, we may use m_sk_packed_tuple for storing packed PK */
max_packed_sk_len = pack_key_len;
for (uint i = 0; i < table_arg->s->keys; i++) {
/* Primary key was processed above */
if (i == table_arg->s->primary_key) continue;
// TODO: move this into get_table_handler() ??
kd_arr[i]->setup(table_arg, tbl_def_arg);
const uint packed_len = kd_arr[i]->max_storage_fmt_length();
if (packed_len > max_packed_sk_len) {
max_packed_sk_len = packed_len;
}
}
m_sk_packed_tuple =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
m_sk_match_prefix_buf =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
m_sk_packed_tuple_old =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
m_end_key_packed_tuple =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
m_pack_buffer =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
m_record_buffer =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, record_len, MYF(0)));
m_scan_it_lower_bound =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
m_scan_it_upper_bound =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
/*
If inplace alter is happening, allocate special buffers for unique
secondary index duplicate checking.
*/
if (alloc_alter_buffers) {
m_dup_sk_packed_tuple =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
m_dup_sk_packed_tuple_old =
reinterpret_cast<uchar *>(my_malloc(PSI_INSTRUMENT_ME, max_packed_sk_len, MYF(0)));
}
if (m_pk_tuple == nullptr || m_pk_packed_tuple == nullptr ||
m_sk_packed_tuple == nullptr || m_sk_packed_tuple_old == nullptr ||
m_end_key_packed_tuple == nullptr || m_pack_buffer == nullptr ||
m_scan_it_upper_bound == nullptr || m_scan_it_lower_bound == nullptr ||
m_record_buffer == nullptr ||
(alloc_alter_buffers && (m_dup_sk_packed_tuple == nullptr ||
m_dup_sk_packed_tuple_old == nullptr))) {
// One or more of the above allocations failed. Clean up and exit
free_key_buffers();
DBUG_RETURN(HA_ERR_OUT_OF_MEM);
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
void ha_rocksdb::free_key_buffers() {
my_free(m_pk_tuple);
m_pk_tuple = nullptr;
my_free(m_pk_packed_tuple);
m_pk_packed_tuple = nullptr;
my_free(m_sk_packed_tuple);
m_sk_packed_tuple = nullptr;
my_free(m_sk_match_prefix_buf);
m_sk_match_prefix_buf = nullptr;
my_free(m_sk_packed_tuple_old);
m_sk_packed_tuple_old = nullptr;
my_free(m_end_key_packed_tuple);
m_end_key_packed_tuple = nullptr;
my_free(m_pack_buffer);
m_pack_buffer = nullptr;
my_free(m_record_buffer);
m_record_buffer = nullptr;
my_free(m_dup_sk_packed_tuple);
m_dup_sk_packed_tuple = nullptr;
my_free(m_dup_sk_packed_tuple_old);
m_dup_sk_packed_tuple_old = nullptr;
my_free(m_scan_it_lower_bound);
m_scan_it_lower_bound = nullptr;
my_free(m_scan_it_upper_bound);
m_scan_it_upper_bound = nullptr;
}
#ifdef MARIAROCKS_NOT_YET
#endif
void ha_rocksdb::set_skip_unique_check_tables(const char *const whitelist) {
const char *const wl =
whitelist ? whitelist : DEFAULT_SKIP_UNIQUE_CHECK_TABLES;
#if defined(HAVE_PSI_INTERFACE)
Regex_list_handler regex_handler(key_rwlock_skip_unique_check_tables);
#else
Regex_list_handler regex_handler;
#endif
if (!regex_handler.set_patterns(wl)) {
warn_about_bad_patterns(®ex_handler, "skip_unique_check_tables");
}
m_skip_unique_check = regex_handler.matches(m_tbl_def->base_tablename());
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::open(const char *const name, int mode, uint test_if_locked) {
DBUG_ENTER_FUNC();
int err = close();
if (err) {
DBUG_RETURN(err);
}
m_table_handler = rdb_open_tables.get_table_handler(name);
if (m_table_handler == nullptr) {
DBUG_RETURN(HA_ERR_OUT_OF_MEM);
}
my_core::thr_lock_data_init(&m_table_handler->m_thr_lock, &m_db_lock,
nullptr);
m_io_perf.init(&m_table_handler->m_table_perf_context,
&m_table_handler->m_io_perf_read,
&m_table_handler->m_io_perf_write, &stats);
Rdb_perf_context_guard guard(&m_io_perf,
rocksdb_perf_context_level(ha_thd()));
std::string fullname;
err = rdb_normalize_tablename(name, &fullname);
if (err != HA_EXIT_SUCCESS) {
DBUG_RETURN(err);
}
m_tbl_def = ddl_manager.find(fullname);
if (m_tbl_def == nullptr) {
my_error(ER_INTERNAL_ERROR, MYF(0),
"Attempt to open a table that is not present in RocksDB-SE data "
"dictionary");
DBUG_RETURN(HA_ERR_ROCKSDB_INVALID_TABLE);
}
if (m_tbl_def->m_key_count != table->s->keys + has_hidden_pk(table)? 1:0)
{
sql_print_error("MyRocks: DDL mismatch: .frm file has %u indexes, "
"MyRocks has %u (%s hidden pk)",
table->s->keys, m_tbl_def->m_key_count,
has_hidden_pk(table)? "1" : "no");
if (rocksdb_ignore_datadic_errors)
{
sql_print_error("MyRocks: rocksdb_ignore_datadic_errors=1, "
"trying to continue");
}
else
{
my_error(ER_INTERNAL_ERROR, MYF(0),
"MyRocks: DDL mismatch. Check the error log for details");
DBUG_RETURN(HA_ERR_ROCKSDB_INVALID_TABLE);
}
}
m_lock_rows = RDB_LOCK_NONE;
m_key_descr_arr = m_tbl_def->m_key_descr_arr;
/*
Full table scan actually uses primary key
(UPDATE needs to know this, otherwise it will go into infinite loop on
queries like "UPDATE tbl SET pk=pk+100")
*/
key_used_on_scan = table->s->primary_key;
// close() above has already called free_key_buffers(). No need to do it here.
err = alloc_key_buffers(table, m_tbl_def);
if (err) {
DBUG_RETURN(err);
}
/*
init_with_fields() is used to initialize table flags based on the field
definitions in table->field[].
It is called by open_binary_frm(), but that function calls the method for
a temporary ha_rocksdb object which is later destroyed.
If we are here in ::open(), then init_with_fields() has not been called
for this object. Call it ourselves, we want all member variables to be
properly initialized.
*/
init_with_fields();
/* Initialize decoder */
m_converter = std::make_shared<Rdb_converter>(ha_thd(), m_tbl_def, table);
/*
Update m_ttl_bytes address to same as Rdb_converter's m_ttl_bytes.
Remove this code after moving convert_record_to_storage_format() into
Rdb_converter class.
*/
m_ttl_bytes = m_converter->get_ttl_bytes_buffer();
/*
MariaDB: adjust field->part_of_key for PK columns. We can only do it here
because SE API is just relying on the HA_PRIMARY_KEY_IN_READ_INDEX which
does not allow to distinguish between unpack'able and non-unpack'able
columns.
Upstream uses handler->init_with_fields() but we don't have that call.
*/
{
if (!has_hidden_pk(table)) {
KEY *const pk_info = &table->key_info[table->s->primary_key];
for (uint kp = 0; kp < pk_info->user_defined_key_parts; kp++) {
if (!m_pk_descr->can_unpack(kp)) {
//
uint field_index= pk_info->key_part[kp].field->field_index;
table->field[field_index]->part_of_key.clear_all();
table->field[field_index]->part_of_key.set_bit(table->s->primary_key);
}
}
}
for (uint key= 0; key < table->s->keys; key++) {
KEY *const key_info = &table->key_info[key];
if (key == table->s->primary_key)
continue;
for (uint kp = 0; kp < key_info->usable_key_parts; kp++) {
uint field_index= key_info->key_part[kp].field->field_index;
if (m_key_descr_arr[key]->can_unpack(kp)) {
table->field[field_index]->part_of_key.set_bit(key);
} else {
table->field[field_index]->part_of_key.clear_bit(key);
}
}
}
}
info(HA_STATUS_NO_LOCK | HA_STATUS_VARIABLE | HA_STATUS_CONST);
/*
The following load_XXX code calls row decode functions, and they do
that without having done ::external_lock() or index_init()/rnd_init().
(Note: this also means we're doing a read when there was no
rdb_converter::setup_field_encoders() call)
Initialize the necessary variables for them:
*/
/* Load auto_increment value only once on first use. */
if (table->found_next_number_field && m_tbl_def->m_auto_incr_val == 0) {
load_auto_incr_value();
}
/* Load hidden pk only once on first use. */
if (has_hidden_pk(table) && m_tbl_def->m_hidden_pk_val == 0 &&
(err = load_hidden_pk_value()) != HA_EXIT_SUCCESS) {
free_key_buffers();
DBUG_RETURN(err);
}
/* Index block size in MyRocks: used by MySQL in query optimization */
stats.block_size = rocksdb_tbl_options->block_size;
#ifdef MARIAROCKS_NOT_YET // MDEV-10976
#endif
/* Determine at open whether we should skip unique checks for this table */
set_skip_unique_check_tables(THDVAR(ha_thd(), skip_unique_check_tables));
DBUG_RETURN(HA_EXIT_SUCCESS);
}
int ha_rocksdb::close(void) {
DBUG_ENTER_FUNC();
m_pk_descr = nullptr;
m_key_descr_arr = nullptr;
m_converter = nullptr;
free_key_buffers();
if (m_table_handler != nullptr) {
rdb_open_tables.release_table_handler(m_table_handler);
m_table_handler = nullptr;
}
// These are needed to suppress valgrind errors in rocksdb.partition
m_last_rowkey.free();
m_sk_tails.free();
m_sk_tails_old.free();
m_pk_unpack_info.free();
DBUG_RETURN(HA_EXIT_SUCCESS);
}
static const char *rdb_error_messages[] = {
"Table must have a PRIMARY KEY.",
"Specifying DATA DIRECTORY for an individual table is not supported.",
"Specifying INDEX DIRECTORY for an individual table is not supported.",
"RocksDB commit failed.",
"Failure during bulk load operation.",
"Found data corruption.",
"CRC checksum mismatch.",
"Invalid table.",
"Could not access RocksDB properties.",
"File I/O error during merge/sort operation.",
"RocksDB status: not found.",
"RocksDB status: corruption.",
"RocksDB status: invalid argument.",
"RocksDB status: io error.",
"RocksDB status: no space.",
"RocksDB status: merge in progress.",
"RocksDB status: incomplete.",
"RocksDB status: shutdown in progress.",
"RocksDB status: timed out.",
"RocksDB status: aborted.",
"RocksDB status: lock limit reached.",
"RocksDB status: busy.",
"RocksDB status: deadlock.",
"RocksDB status: expired.",
"RocksDB status: try again.",
};
static_assert((sizeof(rdb_error_messages) / sizeof(rdb_error_messages[0])) ==
((HA_ERR_ROCKSDB_LAST - HA_ERR_ROCKSDB_FIRST) + 1),
"Number of error messages doesn't match number of error codes");
//psergey-merge: do we need this in MariaDB: we have get_error_messages
//below...
#if 0
static const char *rdb_get_error_message(int nr) {
return rdb_error_messages[nr - HA_ERR_ROCKSDB_FIRST];
}
#endif
static const char **rdb_get_error_messages(int nr) { return rdb_error_messages; }
bool ha_rocksdb::get_error_message(const int error, String *const buf) {
DBUG_ENTER_FUNC();
static_assert(HA_ERR_ROCKSDB_LAST > HA_ERR_FIRST,
"HA_ERR_ROCKSDB_LAST > HA_ERR_FIRST");
static_assert(HA_ERR_ROCKSDB_LAST > HA_ERR_LAST,
"HA_ERR_ROCKSDB_LAST > HA_ERR_LAST");
if (error == HA_ERR_LOCK_WAIT_TIMEOUT || error == HA_ERR_LOCK_DEADLOCK ||
error == HA_ERR_ROCKSDB_STATUS_BUSY) {
Rdb_transaction *const tx = get_tx_from_thd(ha_thd());
DBUG_ASSERT(tx != nullptr);
buf->append(tx->m_detailed_error);
DBUG_RETURN(true);
}
if (error >= HA_ERR_ROCKSDB_FIRST && error <= HA_ERR_ROCKSDB_LAST) {
const char *msg= rdb_error_messages[error - HA_ERR_ROCKSDB_FIRST];
buf->append(msg, strlen(msg));
}
// We can be called with the values which are < HA_ERR_FIRST because most
// MySQL internal functions will just return HA_EXIT_FAILURE in case of
// an error.
DBUG_RETURN(false);
}
/*
Generalized way to convert RocksDB status errors into MySQL error code, and
print error message.
Each error code below maps to a RocksDB status code found in:
rocksdb/include/rocksdb/status.h
*/
int ha_rocksdb::rdb_error_to_mysql(const rocksdb::Status &s,
const char *opt_msg) {
DBUG_ASSERT(!s.ok());
int err;
switch (s.code()) {
case rocksdb::Status::Code::kOk:
err = HA_EXIT_SUCCESS;
break;
case rocksdb::Status::Code::kNotFound:
err = HA_ERR_ROCKSDB_STATUS_NOT_FOUND;
break;
case rocksdb::Status::Code::kCorruption:
err = HA_ERR_ROCKSDB_STATUS_CORRUPTION;
break;
case rocksdb::Status::Code::kNotSupported:
err = HA_ERR_ROCKSDB_STATUS_NOT_SUPPORTED;
break;
case rocksdb::Status::Code::kInvalidArgument:
err = HA_ERR_ROCKSDB_STATUS_INVALID_ARGUMENT;
break;
case rocksdb::Status::Code::kIOError:
err = (s.IsNoSpace()) ? HA_ERR_ROCKSDB_STATUS_NO_SPACE
: HA_ERR_ROCKSDB_STATUS_IO_ERROR;
break;
case rocksdb::Status::Code::kMergeInProgress:
err = HA_ERR_ROCKSDB_STATUS_MERGE_IN_PROGRESS;
break;
case rocksdb::Status::Code::kIncomplete:
err = HA_ERR_ROCKSDB_STATUS_INCOMPLETE;
break;
case rocksdb::Status::Code::kShutdownInProgress:
err = HA_ERR_ROCKSDB_STATUS_SHUTDOWN_IN_PROGRESS;
break;
case rocksdb::Status::Code::kTimedOut:
err = HA_ERR_ROCKSDB_STATUS_TIMED_OUT;
break;
case rocksdb::Status::Code::kAborted:
err = (s.IsLockLimit()) ? HA_ERR_ROCKSDB_STATUS_LOCK_LIMIT
: HA_ERR_ROCKSDB_STATUS_ABORTED;
break;
case rocksdb::Status::Code::kBusy:
err = (s.IsDeadlock()) ? HA_ERR_ROCKSDB_STATUS_DEADLOCK
: HA_ERR_ROCKSDB_STATUS_BUSY;
break;
case rocksdb::Status::Code::kExpired:
err = HA_ERR_ROCKSDB_STATUS_EXPIRED;
break;
case rocksdb::Status::Code::kTryAgain:
err = HA_ERR_ROCKSDB_STATUS_TRY_AGAIN;
break;
default:
DBUG_ASSERT(0);
return -1;
}
std::string errMsg;
if (s.IsLockLimit()) {
errMsg =
"Operation aborted: Failed to acquire lock due to "
"rocksdb_max_row_locks limit";
} else {
errMsg = s.ToString();
}
if (opt_msg) {
std::string concatenated_error = errMsg + " (" + std::string(opt_msg) + ")";
my_error(ER_GET_ERRMSG, MYF(0), s.code(), concatenated_error.c_str(),
rocksdb_hton_name);
} else {
my_error(ER_GET_ERRMSG, MYF(0), s.code(), errMsg.c_str(),
rocksdb_hton_name);
}
return err;
}
/* MyRocks supports only the following collations for indexed columns */
static const std::set<uint> RDB_INDEX_COLLATIONS = {
COLLATION_BINARY, COLLATION_UTF8_BIN, COLLATION_LATIN1_BIN};
static bool rdb_is_index_collation_supported(
const my_core::Field *const field) {
const my_core::enum_field_types type = field->real_type();
/* Handle [VAR](CHAR|BINARY) or TEXT|BLOB */
if (type == MYSQL_TYPE_VARCHAR || type == MYSQL_TYPE_STRING ||
type == MYSQL_TYPE_BLOB) {
return (RDB_INDEX_COLLATIONS.find(field->charset()->number) !=
RDB_INDEX_COLLATIONS.end()) ||
rdb_is_collation_supported(field->charset());
}
return true;
}
static bool
rdb_field_uses_nopad_collation(const my_core::Field *const field) {
const my_core::enum_field_types type = field->real_type();
/* Handle [VAR](CHAR|BINARY) or TEXT|BLOB */
if (type == MYSQL_TYPE_VARCHAR || type == MYSQL_TYPE_STRING ||
type == MYSQL_TYPE_BLOB) {
/*
This is technically a NOPAD collation but it's a binary collation
that we can handle.
*/
if (RDB_INDEX_COLLATIONS.find(field->charset()->number) !=
RDB_INDEX_COLLATIONS.end())
return false;
return (field->charset()->state & MY_CS_NOPAD);
}
return false;
}
/*
Create structures needed for storing data in rocksdb. This is called when the
table is created. The structures will be shared by all TABLE* objects.
@param
table_arg Table with definition
db_table "dbname.tablename"
len strlen of the above
tbl_def_arg tbl_def whose key_descr is being created/populated
old_tbl_def_arg tbl_def from which keys are being copied over from
(for use during inplace alter)
@return
0 - Ok
other - error, either given table ddl is not supported by rocksdb or OOM.
*/
int ha_rocksdb::create_key_defs(
const TABLE *const table_arg, Rdb_tbl_def *const tbl_def_arg,
const TABLE *const old_table_arg /* = nullptr */,
const Rdb_tbl_def *const old_tbl_def_arg
/* = nullptr */) const {
DBUG_ENTER_FUNC();
DBUG_ASSERT(table_arg->s != nullptr);
/*
These need to be one greater than MAX_INDEXES since the user can create
MAX_INDEXES secondary keys and no primary key which would cause us
to generate a hidden one.
*/
std::array<key_def_cf_info, MAX_INDEXES + 1> cfs;
/*
NOTE: All new column families must be created before new index numbers are
allocated to each key definition. See below for more details.
http://github.com/MySQLOnRocksDB/mysql-5.6/issues/86#issuecomment-138515501
*/
if (create_cfs(table_arg, tbl_def_arg, &cfs)) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
uint64 ttl_duration = 0;
std::string ttl_column;
uint ttl_field_offset;
uint err;
if ((err = Rdb_key_def::extract_ttl_duration(table_arg, tbl_def_arg,
&ttl_duration))) {
DBUG_RETURN(err);
}
if ((err = Rdb_key_def::extract_ttl_col(table_arg, tbl_def_arg, &ttl_column,
&ttl_field_offset))) {
DBUG_RETURN(err);
}
/* We don't currently support TTL on tables with hidden primary keys. */
if (ttl_duration > 0 && has_hidden_pk(table_arg)) {
my_error(ER_RDB_TTL_UNSUPPORTED, MYF(0));
DBUG_RETURN(HA_EXIT_FAILURE);
}
/*
If TTL duration is not specified but TTL column was specified, throw an
error because TTL column requires duration.
*/
if (ttl_duration == 0 && !ttl_column.empty()) {
my_error(ER_RDB_TTL_COL_FORMAT, MYF(0), ttl_column.c_str());
DBUG_RETURN(HA_EXIT_FAILURE);
}
if (!old_tbl_def_arg) {
/*
old_tbl_def doesn't exist. this means we are in the process of creating
a new table.
Get the index numbers (this will update the next_index_number)
and create Rdb_key_def structures.
*/
for (uint i = 0; i < tbl_def_arg->m_key_count; i++) {
if (create_key_def(table_arg, i, tbl_def_arg, &m_key_descr_arr[i], cfs[i],
ttl_duration, ttl_column)) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
}
} else {
/*
old_tbl_def exists. This means we are creating a new tbl_def as part of
in-place alter table. Copy over existing keys from the old_tbl_def and
generate the necessary new key definitions if any.
*/
if (create_inplace_key_defs(table_arg, tbl_def_arg, old_table_arg,
old_tbl_def_arg, cfs, ttl_duration,
ttl_column)) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/*
Checks index parameters and creates column families needed for storing data
in rocksdb if necessary.
@param in
table_arg Table with definition
db_table Table name
tbl_def_arg Table def structure being populated
@param out
cfs CF info for each key definition in 'key_info' order
@return
0 - Ok
other - error
*/
int ha_rocksdb::create_cfs(
const TABLE *const table_arg, Rdb_tbl_def *const tbl_def_arg,
std::array<struct key_def_cf_info, MAX_INDEXES + 1> *const cfs) const {
DBUG_ENTER_FUNC();
DBUG_ASSERT(table_arg->s != nullptr);
char tablename_sys[NAME_LEN + 1];
bool tsys_set= false;
/*
The first loop checks the index parameters and creates
column families if necessary.
*/
for (uint i = 0; i < tbl_def_arg->m_key_count; i++) {
rocksdb::ColumnFamilyHandle *cf_handle;
if (!is_hidden_pk(i, table_arg, tbl_def_arg) &&
tbl_def_arg->base_tablename().find(tmp_file_prefix) != 0) {
if (!tsys_set)
{
tsys_set= true;
my_core::filename_to_tablename(tbl_def_arg->base_tablename().c_str(),
tablename_sys, sizeof(tablename_sys));
}
for (uint part = 0; part < table_arg->key_info[i].ext_key_parts;
part++)
{
/* MariaDB: disallow NOPAD collations */
if (rdb_field_uses_nopad_collation(
table_arg->key_info[i].key_part[part].field))
{
my_error(ER_MYROCKS_CANT_NOPAD_COLLATION, MYF(0));
DBUG_RETURN(HA_EXIT_FAILURE);
}
if (rocksdb_strict_collation_check &&
!rdb_is_index_collation_supported(
table_arg->key_info[i].key_part[part].field) &&
!rdb_collation_exceptions->matches(tablename_sys)) {
char buf[1024];
my_snprintf(buf, sizeof(buf),
"Indexed column %s.%s uses a collation that does not "
"allow index-only access in secondary key and has "
"reduced disk space efficiency in primary key.",
tbl_def_arg->full_tablename().c_str(),
table_arg->key_info[i].key_part[part].field->field_name.str);
my_error(ER_INTERNAL_ERROR, MYF(ME_WARNING), buf);
}
}
}
// Internal consistency check to make sure that data in TABLE and
// Rdb_tbl_def structures matches. Either both are missing or both are
// specified. Yes, this is critical enough to make it into SHIP_ASSERT.
SHIP_ASSERT(IF_PARTITIONING(!table_arg->part_info,true) == tbl_def_arg->base_partition().empty());
// Generate the name for the column family to use.
bool per_part_match_found = false;
std::string cf_name =
generate_cf_name(i, table_arg, tbl_def_arg, &per_part_match_found);
// Prevent create from using the system column family.
if (cf_name == DEFAULT_SYSTEM_CF_NAME) {
my_error(ER_WRONG_ARGUMENTS, MYF(0),
"column family not valid for storing index data.");
DBUG_RETURN(HA_EXIT_FAILURE);
}
// Here's how `get_or_create_cf` will use the input parameters:
//
// `cf_name` - will be used as a CF name.
cf_handle = cf_manager.get_or_create_cf(rdb, cf_name);
if (!cf_handle) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
auto &cf = (*cfs)[i];
cf.cf_handle = cf_handle;
cf.is_reverse_cf = Rdb_cf_manager::is_cf_name_reverse(cf_name.c_str());
cf.is_per_partition_cf = per_part_match_found;
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/*
Create key definition needed for storing data in rocksdb during ADD index
inplace operations.
@param in
table_arg Table with definition
tbl_def_arg New table def structure being populated
old_tbl_def_arg Old(current) table def structure
cfs Struct array which contains column family information
@return
0 - Ok
other - error, either given table ddl is not supported by rocksdb or OOM.
*/
int ha_rocksdb::create_inplace_key_defs(
const TABLE *const table_arg, Rdb_tbl_def *const tbl_def_arg,
const TABLE *const old_table_arg, const Rdb_tbl_def *const old_tbl_def_arg,
const std::array<key_def_cf_info, MAX_INDEXES + 1> &cfs,
uint64 ttl_duration, const std::string &ttl_column) const {
DBUG_ENTER_FUNC();
std::shared_ptr<Rdb_key_def> *const old_key_descr =
old_tbl_def_arg->m_key_descr_arr;
std::shared_ptr<Rdb_key_def> *const new_key_descr =
tbl_def_arg->m_key_descr_arr;
const std::unordered_map<std::string, uint> old_key_pos =
get_old_key_positions(table_arg, tbl_def_arg, old_table_arg,
old_tbl_def_arg);
uint i;
for (i = 0; i < tbl_def_arg->m_key_count; i++) {
const auto &it = old_key_pos.find(get_key_name(i, table_arg, tbl_def_arg));
if (it != old_key_pos.end()) {
/*
Found matching index in old table definition, so copy it over to the
new one created.
*/
const Rdb_key_def &okd = *old_key_descr[it->second];
const GL_INDEX_ID gl_index_id = okd.get_gl_index_id();
struct Rdb_index_info index_info;
if (!dict_manager.get_index_info(gl_index_id, &index_info)) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: Could not get index information "
"for Index Number (%u,%u), table %s",
gl_index_id.cf_id, gl_index_id.index_id,
old_tbl_def_arg->full_tablename().c_str());
DBUG_RETURN(HA_EXIT_FAILURE);
}
uint32 ttl_rec_offset =
Rdb_key_def::has_index_flag(index_info.m_index_flags,
Rdb_key_def::TTL_FLAG)
? Rdb_key_def::calculate_index_flag_offset(
index_info.m_index_flags, Rdb_key_def::TTL_FLAG)
: UINT_MAX;
/*
We can't use the copy constructor because we need to update the
keynr within the pack_info for each field and the keyno of the keydef
itself.
*/
new_key_descr[i] = std::make_shared<Rdb_key_def>(
okd.get_index_number(), i, okd.get_cf(),
index_info.m_index_dict_version, index_info.m_index_type,
index_info.m_kv_version, okd.m_is_reverse_cf,
okd.m_is_per_partition_cf, okd.m_name.c_str(),
dict_manager.get_stats(gl_index_id), index_info.m_index_flags,
ttl_rec_offset, index_info.m_ttl_duration);
} else if (create_key_def(table_arg, i, tbl_def_arg, &new_key_descr[i],
cfs[i], ttl_duration, ttl_column)) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
DBUG_ASSERT(new_key_descr[i] != nullptr);
new_key_descr[i]->setup(table_arg, tbl_def_arg);
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
std::unordered_map<std::string, uint> ha_rocksdb::get_old_key_positions(
const TABLE *const table_arg, const Rdb_tbl_def *const tbl_def_arg,
const TABLE *const old_table_arg,
const Rdb_tbl_def *const old_tbl_def_arg) const {
DBUG_ENTER_FUNC();
std::shared_ptr<Rdb_key_def> *const old_key_descr =
old_tbl_def_arg->m_key_descr_arr;
std::unordered_map<std::string, uint> old_key_pos;
std::unordered_map<std::string, uint> new_key_pos;
uint i;
for (i = 0; i < tbl_def_arg->m_key_count; i++) {
new_key_pos[get_key_name(i, table_arg, tbl_def_arg)] = i;
}
for (i = 0; i < old_tbl_def_arg->m_key_count; i++) {
if (is_hidden_pk(i, old_table_arg, old_tbl_def_arg)) {
old_key_pos[old_key_descr[i]->m_name] = i;
continue;
}
/*
In case of matching key name, need to check key parts of keys as well,
in case a simultaneous drop + add is performed, where the key name is the
same but the key parts are different.
Example:
CREATE TABLE t1 (a INT, b INT, KEY ka(a)) ENGINE=RocksDB;
ALTER TABLE t1 DROP INDEX ka, ADD INDEX ka(b), ALGORITHM=INPLACE;
*/
const KEY *const old_key = &old_table_arg->key_info[i];
const auto &it = new_key_pos.find(old_key->name.str);
if (it == new_key_pos.end()) {
continue;
}
KEY *const new_key = &table_arg->key_info[it->second];
/*
Check that the key is identical between old and new tables.
If not, we still need to create a new index.
The exception is if there is an index changed from unique to non-unique,
in these cases we don't need to rebuild as they are stored the same way in
RocksDB.
*/
bool unique_to_non_unique =
((old_key->flags ^ new_key->flags) == HA_NOSAME) &&
(old_key->flags & HA_NOSAME);
if (compare_keys(old_key, new_key) && !unique_to_non_unique) {
continue;
}
/* Check to make sure key parts match. */
if (compare_key_parts(old_key, new_key)) {
continue;
}
old_key_pos[old_key->name.str] = i;
}
DBUG_RETURN(old_key_pos);
}
/* Check to see if two keys are identical. */
int ha_rocksdb::compare_keys(const KEY *const old_key,
const KEY *const new_key) const {
DBUG_ENTER_FUNC();
/* Check index name. */
if (strcmp(old_key->name.str, new_key->name.str) != 0) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
/* If index algorithms are different then keys are different. */
if (old_key->algorithm != new_key->algorithm) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
/* Check that the key is identical between old and new tables. */
if ((old_key->flags ^ new_key->flags) & HA_KEYFLAG_MASK) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
/* Check index comment. (for column family changes) */
std::string old_comment(old_key->comment.str, old_key->comment.length);
std::string new_comment(new_key->comment.str, new_key->comment.length);
if (old_comment.compare(new_comment) != 0) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/* Check two keys to ensure that key parts within keys match */
int ha_rocksdb::compare_key_parts(const KEY *const old_key,
const KEY *const new_key) const {
DBUG_ENTER_FUNC();
/* Skip if key parts do not match, as it is a different key */
if (new_key->user_defined_key_parts != old_key->user_defined_key_parts) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
/* Check to see that key parts themselves match */
for (uint i = 0; i < old_key->user_defined_key_parts; i++) {
if (strcmp(old_key->key_part[i].field->field_name.str,
new_key->key_part[i].field->field_name.str) != 0) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
/* Check if prefix index key part length has changed */
if (old_key->key_part[i].length != new_key->key_part[i].length) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/*
Create key definition needed for storing data in rocksdb.
This can be called either during CREATE table or doing ADD index operations.
@param in
table_arg Table with definition
i Position of index being created inside table_arg->key_info
tbl_def_arg Table def structure being populated
cf_info Struct which contains column family information
@param out
new_key_def Newly created index definition.
@return
0 - Ok
other - error, either given table ddl is not supported by rocksdb or OOM.
*/
int ha_rocksdb::create_key_def(const TABLE *const table_arg, const uint i,
const Rdb_tbl_def *const tbl_def_arg,
std::shared_ptr<Rdb_key_def> *const new_key_def,
const struct key_def_cf_info &cf_info,
uint64 ttl_duration,
const std::string &ttl_column) const {
DBUG_ENTER_FUNC();
DBUG_ASSERT(*new_key_def == nullptr);
const uint index_id = ddl_manager.get_and_update_next_number(&dict_manager);
const uint16_t index_dict_version = Rdb_key_def::INDEX_INFO_VERSION_LATEST;
uchar index_type;
uint16_t kv_version;
if (is_hidden_pk(i, table_arg, tbl_def_arg)) {
index_type = Rdb_key_def::INDEX_TYPE_HIDDEN_PRIMARY;
kv_version = Rdb_key_def::PRIMARY_FORMAT_VERSION_LATEST;
} else if (i == table_arg->s->primary_key) {
index_type = Rdb_key_def::INDEX_TYPE_PRIMARY;
uint16 pk_latest_version = Rdb_key_def::PRIMARY_FORMAT_VERSION_LATEST;
kv_version = pk_latest_version;
} else {
index_type = Rdb_key_def::INDEX_TYPE_SECONDARY;
uint16 sk_latest_version = Rdb_key_def::SECONDARY_FORMAT_VERSION_LATEST;
kv_version = sk_latest_version;
}
// Use PRIMARY_FORMAT_VERSION_UPDATE1 here since it is the same value as
// SECONDARY_FORMAT_VERSION_UPDATE1 so it doesn't matter if this is a
// primary key or secondary key.
DBUG_EXECUTE_IF("MYROCKS_LEGACY_VARBINARY_FORMAT", {
kv_version = Rdb_key_def::PRIMARY_FORMAT_VERSION_UPDATE1;
});
DBUG_EXECUTE_IF("MYROCKS_NO_COVERED_BITMAP_FORMAT", {
if (index_type == Rdb_key_def::INDEX_TYPE_SECONDARY) {
kv_version = Rdb_key_def::SECONDARY_FORMAT_VERSION_UPDATE2;
}
});
uint32 index_flags = (ttl_duration > 0 ? Rdb_key_def::TTL_FLAG : 0);
uint32 ttl_rec_offset =
Rdb_key_def::has_index_flag(index_flags, Rdb_key_def::TTL_FLAG)
? Rdb_key_def::calculate_index_flag_offset(index_flags,
Rdb_key_def::TTL_FLAG)
: UINT_MAX;
const char *const key_name = get_key_name(i, table_arg, m_tbl_def);
*new_key_def = std::make_shared<Rdb_key_def>(
index_id, i, cf_info.cf_handle, index_dict_version, index_type,
kv_version, cf_info.is_reverse_cf, cf_info.is_per_partition_cf, key_name,
Rdb_index_stats(), index_flags, ttl_rec_offset, ttl_duration);
if (!ttl_column.empty()) {
(*new_key_def)->m_ttl_column = ttl_column;
}
// initialize key_def
DBUG_RETURN((*new_key_def)->setup(table_arg, tbl_def_arg));
}
int rdb_normalize_tablename(const std::string &tablename,
std::string *const strbuf) {
if (tablename.size() < 2 || tablename[0] != '.' ||
(tablename[1] != FN_LIBCHAR && tablename[1] != FN_LIBCHAR2)) {
DBUG_ASSERT(0); // We were not passed table name?
return HA_ERR_ROCKSDB_INVALID_TABLE;
}
size_t pos = tablename.find_first_of(FN_LIBCHAR, 2);
if (pos == std::string::npos) {
pos = tablename.find_first_of(FN_LIBCHAR2, 2);
}
if (pos == std::string::npos) {
DBUG_ASSERT(0); // We were not passed table name?
return HA_ERR_ROCKSDB_INVALID_TABLE;
}
*strbuf = tablename.substr(2, pos - 2) + "." + tablename.substr(pos + 1);
return HA_EXIT_SUCCESS;
}
/*
Check to see if the user's original statement includes foreign key
references
*/
bool ha_rocksdb::contains_foreign_key(THD *const thd) {
bool success;
const char *str = thd_query_string(thd)->str;
DBUG_ASSERT(str != nullptr);
while (*str != '\0') {
// Scan from our current pos looking for 'FOREIGN'
str = rdb_find_in_string(str, "FOREIGN", &success);
if (!success) {
return false;
}
// Skip past the found "FOREIGN'
str = rdb_check_next_token(&my_charset_bin, str, "FOREIGN", &success);
DBUG_ASSERT(success);
if (!my_isspace(&my_charset_bin, *str)) {
return false;
}
// See if the next token is 'KEY'
str = rdb_check_next_token(&my_charset_bin, str, "KEY", &success);
if (!success) {
continue;
}
// See if the next token is '('
str = rdb_check_next_token(&my_charset_bin, str, "(", &success);
if (!success) {
// There is an optional index id after 'FOREIGN KEY', skip it
str = rdb_skip_id(&my_charset_bin, str);
// Now check for '(' again
str = rdb_check_next_token(&my_charset_bin, str, "(", &success);
}
// If we have found 'FOREIGN KEY [<word>] (' we can be confident we have
// a foreign key clause.
return success;
}
// We never found a valid foreign key clause
return false;
}
/**
@brief
splits the normalized table name of <dbname>.<tablename>#P#<part_no> into
the <dbname>, <tablename> and <part_no> components.
@param dbbuf returns database name/table_schema
@param tablebuf returns tablename
@param partitionbuf returns partition suffix if there is one
@return HA_EXIT_SUCCESS on success, non-zero on failure to split
*/
int rdb_split_normalized_tablename(const std::string &fullname,
std::string *const db,
std::string *const table,
std::string *const partition) {
DBUG_ASSERT(!fullname.empty());
#define RDB_PARTITION_STR "#P#"
/* Normalize returns dbname.tablename. */
size_t dotpos = fullname.find('.');
/* Invalid table name? */
if (dotpos == std::string::npos) {
return HA_ERR_ROCKSDB_INVALID_TABLE;
}
// Table must have a database name associated with it.
DBUG_ASSERT(dotpos > 0);
if (db != nullptr) {
*db = fullname.substr(0, dotpos);
}
dotpos++;
const size_t partpos =
fullname.find(RDB_PARTITION_STR, dotpos, strlen(RDB_PARTITION_STR));
if (partpos != std::string::npos) {
DBUG_ASSERT(partpos >= dotpos);
if (table != nullptr) {
*table = fullname.substr(dotpos, partpos - dotpos);
}
if (partition != nullptr) {
*partition = fullname.substr(partpos + strlen(RDB_PARTITION_STR));
}
} else if (table != nullptr) {
*table = fullname.substr(dotpos);
}
return HA_EXIT_SUCCESS;
}
/*
Create a table's Rdb_tbl_def and its Rdb_key_defs and store table information
into MyRocks Data Dictionary
The method is called during create table/partition, truncate table/partition
@param table_name IN table's name formated as
'dbname.tablename'
@param table_arg IN sql table
@param auto_increment_value IN specified table's auto increment value
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::create_table(const std::string &table_name,
const TABLE *table_arg,
ulonglong auto_increment_value) {
DBUG_ENTER_FUNC();
int err;
const std::unique_ptr<rocksdb::WriteBatch> wb = dict_manager.begin();
rocksdb::WriteBatch *const batch = wb.get();
/* Create table/key descriptions and put them into the data dictionary */
m_tbl_def = new Rdb_tbl_def(table_name);
uint n_keys = table_arg->s->keys;
/*
If no primary key found, create a hidden PK and place it inside table
definition
*/
if (has_hidden_pk(table_arg)) {
n_keys += 1;
// reset hidden pk id
// the starting valid value for hidden pk is 1
m_tbl_def->m_hidden_pk_val = 1;
}
m_key_descr_arr = new std::shared_ptr<Rdb_key_def>[n_keys];
m_tbl_def->m_key_count = n_keys;
m_tbl_def->m_key_descr_arr = m_key_descr_arr;
err = create_key_defs(table_arg, m_tbl_def);
if (err != HA_EXIT_SUCCESS) {
goto error;
}
m_pk_descr = m_key_descr_arr[pk_index(table_arg, m_tbl_def)];
if (auto_increment_value) {
bool autoinc_upgrade_test = false;
m_tbl_def->m_auto_incr_val = auto_increment_value;
DBUG_EXECUTE_IF("myrocks_autoinc_upgrade", autoinc_upgrade_test = true;);
if (!autoinc_upgrade_test) {
auto s = dict_manager.put_auto_incr_val(
batch, m_tbl_def->get_autoincr_gl_index_id(),
m_tbl_def->m_auto_incr_val);
if (!s.ok()) {
goto error;
}
}
}
dict_manager.lock();
err = ddl_manager.put_and_write(m_tbl_def, batch);
if (err != HA_EXIT_SUCCESS) {
dict_manager.unlock();
goto error;
}
save_table_version(batch, table_arg->s->path.str, 0);
err = dict_manager.commit(batch);
if (err != HA_EXIT_SUCCESS) {
dict_manager.unlock();
goto error;
}
dict_manager.unlock();
DBUG_RETURN(HA_EXIT_SUCCESS);
error:
/* Delete what we have allocated so far */
delete m_tbl_def;
m_tbl_def = nullptr;
m_key_descr_arr = nullptr;
DBUG_RETURN(err);
}
/**
@brief
create() is called to create a table. The variable name will have the name
of the table.
@details
When create() is called you do not need to worry about
opening the table. Also, the .frm file will have already been
created so adjusting create_info is not necessary. You can overwrite
the .frm file at this point if you wish to change the table
definition, but there are no methods currently provided for doing
so.
Called from handle.cc by ha_create_table().
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
@see
ha_create_table() in handle.cc
*/
int ha_rocksdb::create(const char *const name, TABLE *const table_arg,
HA_CREATE_INFO *const create_info) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(table_arg != nullptr);
DBUG_ASSERT(create_info != nullptr);
if (create_info->data_file_name) {
// DATA DIRECTORY is used to create tables under a specific location
// outside the MySQL data directory. We don't support this for MyRocks.
// The `rocksdb_datadir` setting should be used to configure RocksDB data
// directory.
DBUG_RETURN(HA_ERR_ROCKSDB_TABLE_DATA_DIRECTORY_NOT_SUPPORTED);
}
if (create_info->index_file_name) {
// Similar check for INDEX DIRECTORY as well.
DBUG_RETURN(HA_ERR_ROCKSDB_TABLE_INDEX_DIRECTORY_NOT_SUPPORTED);
}
int err;
/*
Construct dbname.tablename ourselves, because parititioning
passes strings like "./test/t14#P#p0" for individual partitions,
while table_arg->s->table_name has none of that.
*/
std::string str;
err = rdb_normalize_tablename(name, &str);
if (err != HA_EXIT_SUCCESS) {
DBUG_RETURN(err);
}
// FOREIGN KEY isn't supported yet
THD *const thd = _current_thd();
if (contains_foreign_key(thd)) {
my_error(ER_NOT_SUPPORTED_YET, MYF(0),
"FOREIGN KEY for the RocksDB storage engine");
DBUG_RETURN(HA_ERR_UNSUPPORTED);
}
// Check whether Data Dictionary contain information
Rdb_tbl_def *tbl = ddl_manager.find(str);
if (tbl != nullptr) {
if (thd->lex->sql_command == SQLCOM_TRUNCATE) {
err = delete_table(tbl);
if (err != HA_EXIT_SUCCESS) {
DBUG_RETURN(err);
}
} else {
my_error(ER_METADATA_INCONSISTENCY, MYF(0), str.c_str(), name);
DBUG_RETURN(HA_ERR_ROCKSDB_CORRUPT_DATA);
}
}
// The below adds/clears hooks in RocksDB sync points. There's no reason for
// this code to be in ::create() but it needs to be somewhere where it is
// away from any tight loops and where one can invoke it from mtr:
DBUG_EXECUTE_IF("rocksdb_enable_delay_commits",
{
auto syncpoint= rocksdb::SyncPoint::GetInstance();
syncpoint->SetCallBack("DBImpl::WriteImpl:BeforeLeaderEnters",
[&](void* /*arg*/) {my_sleep(500);} );
syncpoint->EnableProcessing();
push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_WRONG_ARGUMENTS,
"enable_delay_commits_mode ON");
});
DBUG_EXECUTE_IF("rocksdb_disable_delay_commits",
{
auto syncpoint= rocksdb::SyncPoint::GetInstance();
syncpoint->ClearCallBack("DBImpl::WriteImpl:BeforeLeaderEnters");
syncpoint->DisableProcessing();
push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_WRONG_ARGUMENTS,
"enable_delay_commits_mode OFF");
});
DBUG_RETURN(create_table(str, table_arg, create_info->auto_increment_value));
}
/**
@note
This function is used only when the table has not yet been opened, and
keyread_allowed bitmap doesn't have the correct values yet.
See comment in ha_rocksdb::index_flags() for details.
*/
bool ha_rocksdb::check_keyread_allowed(uint inx, uint part,
bool all_parts) const {
bool res = true;
KEY *const key_info = &table_share->key_info[inx];
Rdb_field_packing dummy1;
res = dummy1.setup(nullptr, key_info->key_part[part].field, inx, part,
key_info->key_part[part].length);
if (res && all_parts) {
for (uint i = 0; i < part; i++) {
Field *field;
if ((field = key_info->key_part[i].field)) {
Rdb_field_packing dummy;
if (!dummy.setup(nullptr, field, inx, i,
key_info->key_part[i].length)) {
/* Cannot do index-only reads for this column */
res = false;
break;
}
}
}
}
const uint pk = table_share->primary_key;
if (inx == pk && all_parts &&
part + 1 == table_share->key_info[pk].user_defined_key_parts) {
m_pk_can_be_decoded = res;
}
return res;
}
int ha_rocksdb::read_key_exact(const Rdb_key_def &kd,
rocksdb::Iterator *const iter,
const bool /* unused */,
const rocksdb::Slice &key_slice,
const int64_t ttl_filter_ts) {
THD *thd = ha_thd();
/*
We are looking for the first record such that
index_tuple= lookup_tuple.
lookup_tuple may be a prefix of the index.
*/
rocksdb_smart_seek(kd.m_is_reverse_cf, iter, key_slice);
while (iter->Valid() && kd.value_matches_prefix(iter->key(), key_slice)) {
if (thd && thd->killed) {
return HA_ERR_QUERY_INTERRUPTED;
}
/*
If TTL is enabled we need to check if the given key has already expired
from the POV of the current transaction. If it has, try going to the next
key.
*/
if (kd.has_ttl() && should_hide_ttl_rec(kd, iter->value(), ttl_filter_ts)) {
rocksdb_smart_next(kd.m_is_reverse_cf, iter);
continue;
}
return HA_EXIT_SUCCESS;
}
/*
Got a record that is not equal to the lookup value, or even a record
from another table.index.
*/
return HA_ERR_KEY_NOT_FOUND;
}
int ha_rocksdb::read_before_key(const Rdb_key_def &kd,
const bool full_key_match,
const rocksdb::Slice &key_slice,
const int64_t ttl_filter_ts) {
THD *thd = ha_thd();
/*
We are looking for record with the biggest t.key such that
t.key < lookup_tuple.
*/
rocksdb_smart_seek(!kd.m_is_reverse_cf, m_scan_it, key_slice);
while (is_valid(m_scan_it)) {
if (thd && thd->killed) {
return HA_ERR_QUERY_INTERRUPTED;
}
/*
We are using full key and we've hit an exact match, or...
If TTL is enabled we need to check if the given key has already expired
from the POV of the current transaction. If it has, try going to the next
key.
*/
if ((full_key_match &&
kd.value_matches_prefix(m_scan_it->key(), key_slice)) ||
(kd.has_ttl() &&
should_hide_ttl_rec(kd, m_scan_it->value(), ttl_filter_ts))) {
rocksdb_smart_next(!kd.m_is_reverse_cf, m_scan_it);
continue;
}
return HA_EXIT_SUCCESS;
}
return HA_ERR_KEY_NOT_FOUND;
}
int ha_rocksdb::read_after_key(const Rdb_key_def &kd,
const rocksdb::Slice &key_slice,
const int64_t ttl_filter_ts) {
THD *thd = ha_thd();
/*
We are looking for the first record such that
index_tuple $GT lookup_tuple
with HA_READ_AFTER_KEY, $GT = '>',
with HA_READ_KEY_OR_NEXT, $GT = '>='
*/
rocksdb_smart_seek(kd.m_is_reverse_cf, m_scan_it, key_slice);
/*
If TTL is enabled we need to check if the given key has already expired
from the POV of the current transaction. If it has, try going to the next
key.
*/
while (is_valid(m_scan_it) && kd.has_ttl() &&
should_hide_ttl_rec(kd, m_scan_it->value(), ttl_filter_ts)) {
if (thd && thd->killed) {
return HA_ERR_QUERY_INTERRUPTED;
}
rocksdb_smart_next(kd.m_is_reverse_cf, m_scan_it);
}
return is_valid(m_scan_it) ? HA_EXIT_SUCCESS : HA_ERR_KEY_NOT_FOUND;
}
int ha_rocksdb::position_to_correct_key(
const Rdb_key_def &kd, const enum ha_rkey_function &find_flag,
const bool full_key_match, const uchar *const key,
const key_part_map &keypart_map, const rocksdb::Slice &key_slice,
bool *const move_forward, const int64_t ttl_filter_ts) {
int rc = 0;
*move_forward = true;
switch (find_flag) {
case HA_READ_KEY_EXACT:
rc = read_key_exact(kd, m_scan_it, full_key_match, key_slice,
ttl_filter_ts);
break;
case HA_READ_BEFORE_KEY:
*move_forward = false;
rc = read_before_key(kd, full_key_match, key_slice, ttl_filter_ts);
if (rc == 0 && !kd.covers_key(m_scan_it->key())) {
/* The record we've got is not from this index */
rc = HA_ERR_KEY_NOT_FOUND;
}
break;
case HA_READ_AFTER_KEY:
case HA_READ_KEY_OR_NEXT:
rc = read_after_key(kd, key_slice, ttl_filter_ts);
if (rc == 0 && !kd.covers_key(m_scan_it->key())) {
/* The record we've got is not from this index */
rc = HA_ERR_KEY_NOT_FOUND;
}
break;
case HA_READ_KEY_OR_PREV:
case HA_READ_PREFIX:
/* This flag is not used by the SQL layer, so we don't support it yet. */
rc = HA_ERR_UNSUPPORTED;
break;
case HA_READ_PREFIX_LAST:
case HA_READ_PREFIX_LAST_OR_PREV:
*move_forward = false;
/*
Find the last record with the specified index prefix lookup.
- HA_READ_PREFIX_LAST requires that the record has the
prefix=lookup (if there are no such records,
HA_ERR_KEY_NOT_FOUND should be returned).
- HA_READ_PREFIX_LAST_OR_PREV has no such requirement. If there are no
records with prefix=lookup, we should return the last record
before that.
*/
rc = read_before_key(kd, full_key_match, key_slice, ttl_filter_ts);
if (rc == 0) {
const rocksdb::Slice &rkey = m_scan_it->key();
if (!kd.covers_key(rkey)) {
/* The record we've got is not from this index */
rc = HA_ERR_KEY_NOT_FOUND;
} else if (find_flag == HA_READ_PREFIX_LAST) {
uint size = kd.pack_index_tuple(table, m_pack_buffer,
m_sk_packed_tuple, m_record_buffer,
key, keypart_map);
rocksdb::Slice lookup_tuple(
reinterpret_cast<char *>(m_sk_packed_tuple), size);
// We need to compare the key we've got with the original search
// prefix.
if (!kd.value_matches_prefix(rkey, lookup_tuple)) {
rc = HA_ERR_KEY_NOT_FOUND;
}
}
}
break;
default:
DBUG_ASSERT(0);
break;
}
return rc;
}
int ha_rocksdb::calc_eq_cond_len(const Rdb_key_def &kd,
const enum ha_rkey_function &find_flag,
const rocksdb::Slice &slice,
const int bytes_changed_by_succ,
const key_range *const end_key,
uint *const end_key_packed_size) {
if (find_flag == HA_READ_KEY_EXACT) return slice.size();
if (find_flag == HA_READ_PREFIX_LAST) {
/*
We have made the kd.successor(m_sk_packed_tuple) call above.
The slice is at least Rdb_key_def::INDEX_NUMBER_SIZE bytes long.
*/
return slice.size() - bytes_changed_by_succ;
}
if (end_key) {
*end_key_packed_size =
kd.pack_index_tuple(table, m_pack_buffer, m_end_key_packed_tuple,
m_record_buffer, end_key->key, end_key->keypart_map);
/*
Calculating length of the equal conditions here. 4 byte index id is
included.
Example1: id1 BIGINT, id2 INT, id3 BIGINT, PRIMARY KEY (id1, id2, id3)
WHERE id1=1 AND id2=1 AND id3>=2 => eq_cond_len= 4+8+4= 16
WHERE id1=1 AND id2>=1 AND id3>=2 => eq_cond_len= 4+8= 12
Example2: id1 VARCHAR(30), id2 INT, PRIMARY KEY (id1, id2)
WHERE id1 = 'AAA' and id2 < 3; => eq_cond_len=13 (varchar used 9 bytes)
*/
rocksdb::Slice end_slice(reinterpret_cast<char *>(m_end_key_packed_tuple),
*end_key_packed_size);
return slice.difference_offset(end_slice);
}
/*
On range scan without any end key condition, there is no
eq cond, and eq cond length is the same as index_id size (4 bytes).
Example1: id1 BIGINT, id2 INT, id3 BIGINT, PRIMARY KEY (id1, id2, id3)
WHERE id1>=1 AND id2 >= 2 and id2 <= 5 => eq_cond_len= 4
*/
return Rdb_key_def::INDEX_NUMBER_SIZE;
}
int ha_rocksdb::read_row_from_primary_key(uchar *const buf) {
int rc;
const rocksdb::Slice &rkey = m_scan_it->key();
const uint pk_size = rkey.size();
const char *pk_data = rkey.data();
memcpy(m_pk_packed_tuple, pk_data, pk_size);
m_last_rowkey.copy(pk_data, pk_size, &my_charset_bin);
if (m_lock_rows != RDB_LOCK_NONE) {
/* We need to put a lock and re-read */
rc = get_row_by_rowid(buf, m_pk_packed_tuple, pk_size);
} else {
/* Unpack from the row we've read */
const rocksdb::Slice &value = m_scan_it->value();
rc = convert_record_from_storage_format(&rkey, &value, buf);
}
return rc;
}
int ha_rocksdb::read_row_from_secondary_key(uchar *const buf,
const Rdb_key_def &kd,
bool move_forward) {
int rc = 0;
uint pk_size= 0;
/* Get the key columns and primary key value */
const rocksdb::Slice &rkey = m_scan_it->key();
const rocksdb::Slice &value = m_scan_it->value();
#ifndef DBUG_OFF
bool save_keyread_only = m_keyread_only;
#endif
DBUG_EXECUTE_IF("dbug.rocksdb.HA_EXTRA_KEYREAD", { m_keyread_only = true; });
bool covered_lookup = (m_keyread_only && kd.can_cover_lookup()) ||
kd.covers_lookup(&value, &m_lookup_bitmap);
#ifndef DBUG_OFF
m_keyread_only = save_keyread_only;
#endif
if (covered_lookup && m_lock_rows == RDB_LOCK_NONE) {
pk_size =
kd.get_primary_key_tuple(table, *m_pk_descr, &rkey, m_pk_packed_tuple);
if (pk_size == RDB_INVALID_KEY_LEN) {
rc = HA_ERR_ROCKSDB_CORRUPT_DATA;
} else {
rc = kd.unpack_record(table, buf, &rkey, &value,
m_converter->get_verify_row_debug_checksums());
global_stats.covered_secondary_key_lookups.inc();
}
} else {
if (kd.m_is_reverse_cf) move_forward = !move_forward;
rc = find_icp_matching_index_rec(move_forward, buf);
if (!rc) {
const rocksdb::Slice &rkey = m_scan_it->key();
pk_size = kd.get_primary_key_tuple(table, *m_pk_descr, &rkey,
m_pk_packed_tuple);
if (pk_size == RDB_INVALID_KEY_LEN) {
rc = HA_ERR_ROCKSDB_CORRUPT_DATA;
} else {
rc = get_row_by_rowid(buf, m_pk_packed_tuple, pk_size);
}
}
}
if (!rc) {
m_last_rowkey.copy((const char *)m_pk_packed_tuple, pk_size,
&my_charset_bin);
}
return rc;
}
/**
@note
The problem with this function is that SQL layer calls it, when
- the table has not been yet opened (no ::open() call done)
- this->table_share already exists, but it is in the process of being
filled, so some of fields are still NULL.
- In particular, table_share->key_info[inx].key_part[] is filled only up
to part #part. Subsequent key parts are not yet filled.
To complicate things further, SQL layer will call index_flags() with
all_parts=TRUE. Essentially, we're asked to provide flags for reading
keyparts whose datatype is not yet known.
We walk around this problem by using check_keyread_allowed(), which uses
table_share object and is careful not to step on unitialized data.
When we get a call with all_parts=TRUE, we try to analyze all parts but
ignore those that have key_part->field==nullptr (these are not initialized
yet).
*/
ulong ha_rocksdb::index_flags(uint inx, uint part, bool all_parts) const {
DBUG_ENTER_FUNC();
ulong base_flags = HA_READ_NEXT | // doesn't seem to be used
HA_READ_ORDER | HA_READ_RANGE | HA_READ_PREV;
if (check_keyread_allowed(inx, part, all_parts)) {
base_flags |= HA_KEYREAD_ONLY;
}
if (inx == table_share->primary_key) {
/*
Index-only reads on primary key are the same as table scan for us. Still,
we need to explicitly "allow" them, otherwise SQL layer will miss some
plans.
*/
base_flags |= HA_KEYREAD_ONLY | HA_CLUSTERED_INDEX;
} else {
/*
We can Index Condition Pushdown any key except the primary. With primary
key, we get (pk, record) pair immediately, there is no place to put the
ICP check.
*/
base_flags |= HA_DO_INDEX_COND_PUSHDOWN;
}
DBUG_RETURN(base_flags);
}
/**
@brief
Read next index tuple through the secondary index.
@details
m_scan_it points at the index key-value pair that we should read the (pk,row)
pair for.
*/
int ha_rocksdb::secondary_index_read(const int keyno, uchar *const buf) {
DBUG_ASSERT(table != nullptr);
#ifdef MARIAROCKS_NOT_YET
stats.rows_requested++;
#endif
/* Use STATUS_NOT_FOUND when record not found or some error occurred */
table->status = STATUS_NOT_FOUND;
if (is_valid(m_scan_it)) {
rocksdb::Slice key = m_scan_it->key();
/* Check if we've ran out of records of this index */
if (m_key_descr_arr[keyno]->covers_key(key)) {
int rc = 0;
// TODO: We could here check if we have ran out of range we're scanning
const uint size = m_key_descr_arr[keyno]->get_primary_key_tuple(
table, *m_pk_descr, &key, m_pk_packed_tuple);
if (size == RDB_INVALID_KEY_LEN) {
return HA_ERR_ROCKSDB_CORRUPT_DATA;
}
m_last_rowkey.copy((const char *)m_pk_packed_tuple, size,
&my_charset_bin);
rocksdb::Slice value = m_scan_it->value();
bool covered_lookup =
(m_keyread_only && m_key_descr_arr[keyno]->can_cover_lookup()) ||
m_key_descr_arr[keyno]->covers_lookup(&value, &m_lookup_bitmap);
if (covered_lookup && m_lock_rows == RDB_LOCK_NONE) {
rc = m_key_descr_arr[keyno]->unpack_record(
table, buf, &key, &value,
m_converter->get_verify_row_debug_checksums());
global_stats.covered_secondary_key_lookups.inc();
} else {
DEBUG_SYNC(ha_thd(), "rocksdb_concurrent_delete_sk");
rc = get_row_by_rowid(buf, m_pk_packed_tuple, size);
}
if (!rc) {
table->status = 0;
#ifdef MARIAROCKS_NOT_YET
stats.rows_read++;
stats.rows_index_next++;
#endif
update_row_stats(ROWS_READ);
}
return rc;
}
}
return HA_ERR_END_OF_FILE;
}
bool ha_rocksdb::is_using_full_key(key_part_map keypart_map,
uint actual_key_parts)
{
return (keypart_map == HA_WHOLE_KEY) ||
(keypart_map == ((key_part_map(1) << actual_key_parts)
- 1));
}
/*
ha_rocksdb::read_range_first overrides handler::read_range_first.
The only difference from handler::read_range_first is that
ha_rocksdb::read_range_first passes end_key to
ha_rocksdb::index_read_map_impl function.
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::read_range_first(const key_range *const start_key,
const key_range *const end_key,
bool eq_range_arg, bool sorted) {
DBUG_ENTER_FUNC();
int result;
eq_range = eq_range_arg;
/* MariaDB: Pass RANGE_SCAN_ASC when we support ICP on backwards scans */
set_end_range(end_key);
range_key_part = table->key_info[active_index].key_part;
if (!start_key) {
// Read first record
result = ha_index_first(table->record[0]);
} else {
#ifdef MARIAROCKS_NOT_YET
if (is_using_prohibited_gap_locks(
is_using_full_unique_key(active_index, start_key->keypart_map,
start_key->flag))) {
DBUG_RETURN(HA_ERR_LOCK_DEADLOCK);
}
#endif
increment_statistics(&SSV::ha_read_key_count);
result =
index_read_map_impl(table->record[0], start_key->key,
start_key->keypart_map, start_key->flag, end_key);
}
if (result) {
DBUG_RETURN((result == HA_ERR_KEY_NOT_FOUND) ? HA_ERR_END_OF_FILE : result);
}
if (compare_key(end_range) <= 0) {
DBUG_RETURN(HA_EXIT_SUCCESS);
} else {
/*
The last read row does not fall in the range. So request
storage engine to release row lock if possible.
*/
unlock_row();
DBUG_RETURN(HA_ERR_END_OF_FILE);
}
}
int ha_rocksdb::prepare_index_scan()
{
range_key_part= table->key_info[active_index].key_part;
set_end_range(NULL);
return 0;
}
int ha_rocksdb::prepare_range_scan(const key_range *start_key,
const key_range *end_key)
{
range_key_part= table->key_info[active_index].key_part;
if (start_key)
{
m_save_start_range= *start_key;
m_start_range= &m_save_start_range;
}
else
m_start_range= NULL;
set_end_range(end_key);
return 0;
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::index_read_map(uchar *const buf, const uchar *const key,
key_part_map keypart_map,
enum ha_rkey_function find_flag) {
DBUG_ENTER_FUNC();
DBUG_RETURN(index_read_map_impl(buf, key, keypart_map, find_flag, nullptr));
}
/*
See storage/rocksdb/rocksdb-range-access.txt for description of how MySQL
index navigation commands are converted into RocksDB lookup commands.
This function takes end_key as an argument, and it is set on range scan.
MyRocks needs to decide whether prefix bloom filter can be used or not.
To decide to use prefix bloom filter or not, calculating equal condition
length
is needed. On equal lookups (find_flag == HA_READ_KEY_EXACT), equal
condition length is the same as rocksdb::Slice.size() of the start key.
On range scan, equal condition length is MIN(start_key, end_key) of the
rocksdb::Slice expression.
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::index_read_map_impl(uchar *const buf, const uchar *const key,
key_part_map keypart_map,
enum ha_rkey_function find_flag,
const key_range *end_key) {
DBUG_ENTER_FUNC();
DBUG_EXECUTE_IF("myrocks_busy_loop_on_row_read", int debug_i = 0;
while (1) { debug_i++; });
int rc = 0;
THD *thd = ha_thd();
DEBUG_SYNC(thd, "rocksdb.check_flags_rmi");
if (thd && thd->killed) {
rc = HA_ERR_QUERY_INTERRUPTED;
DBUG_RETURN(rc);
}
const Rdb_key_def &kd = *m_key_descr_arr[active_index];
const uint actual_key_parts = kd.get_key_parts();
bool using_full_key = is_using_full_key(keypart_map, actual_key_parts);
if (!end_key) end_key = end_range;
/* By default, we don't need the retrieved records to match the prefix */
m_sk_match_prefix = nullptr;
#ifdef MARIAROCKS_NOT_YET
stats.rows_requested++;
#endif
if (active_index == table->s->primary_key && find_flag == HA_READ_KEY_EXACT &&
using_full_key) {
/*
Equality lookup over primary key, using full tuple.
This is a special case, use DB::Get.
*/
const uint size = kd.pack_index_tuple(table, m_pack_buffer,
m_pk_packed_tuple, m_record_buffer,
key, keypart_map);
bool skip_lookup = is_blind_delete_enabled();
rc = get_row_by_rowid(buf, m_pk_packed_tuple, size, skip_lookup, false);
if (!rc && !skip_lookup) {
#ifdef MARIAROCKS_NOT_YET
stats.rows_read++;
stats.rows_index_first++;
#endif
update_row_stats(ROWS_READ);
}
DBUG_RETURN(rc);
}
/*
Unique secondary index performs lookups without the extended key fields
*/
uint packed_size;
if (active_index != table->s->primary_key &&
table->key_info[active_index].flags & HA_NOSAME &&
find_flag == HA_READ_KEY_EXACT && using_full_key) {
key_part_map tmp_map = (key_part_map(1) << table->key_info[active_index]
.user_defined_key_parts) -
1;
packed_size = kd.pack_index_tuple(table, m_pack_buffer, m_sk_packed_tuple,
m_record_buffer, key, tmp_map);
if (table->key_info[active_index].user_defined_key_parts !=
kd.get_key_parts()) {
using_full_key = false;
}
} else {
packed_size = kd.pack_index_tuple(table, m_pack_buffer, m_sk_packed_tuple,
m_record_buffer, key, keypart_map);
}
if ((pushed_idx_cond && pushed_idx_cond_keyno == active_index) &&
(find_flag == HA_READ_KEY_EXACT || find_flag == HA_READ_PREFIX_LAST)) {
/*
We are doing a point index lookup, and ICP is enabled. It is possible
that this call will be followed by ha_rocksdb->index_next_same() call.
Do what InnoDB does: save the lookup tuple now. We will need it in
index_next_same/find_icp_matching_index_rec in order to stop scanning
as soon as index record doesn't match the lookup tuple.
When not using ICP, handler::index_next_same() will make sure that rows
that don't match the lookup prefix are not returned.
row matches the lookup prefix.
*/
m_sk_match_prefix = m_sk_match_prefix_buf;
m_sk_match_length = packed_size;
memcpy(m_sk_match_prefix, m_sk_packed_tuple, packed_size);
}
int bytes_changed_by_succ = 0;
if (find_flag == HA_READ_PREFIX_LAST_OR_PREV ||
find_flag == HA_READ_PREFIX_LAST || find_flag == HA_READ_AFTER_KEY) {
/* See below */
bytes_changed_by_succ = kd.successor(m_sk_packed_tuple, packed_size);
}
rocksdb::Slice slice(reinterpret_cast<const char *>(m_sk_packed_tuple),
packed_size);
uint end_key_packed_size = 0;
/*
In MariaDB, the end_key is always the bigger end of the range.
If we are doing a reverse-ordered scan (that is, walking from the bigger
key values to smaller), we should use the smaller end of range as end_key.
*/
const key_range *cur_end_key= end_key;
if (find_flag == HA_READ_PREFIX_LAST_OR_PREV ||
find_flag == HA_READ_BEFORE_KEY)
{
cur_end_key= m_start_range;
}
const uint eq_cond_len =
calc_eq_cond_len(kd, find_flag, slice, bytes_changed_by_succ, cur_end_key,
&end_key_packed_size);
bool use_all_keys = false;
if (find_flag == HA_READ_KEY_EXACT &&
my_count_bits(keypart_map) == kd.get_key_parts()) {
use_all_keys = true;
}
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
const bool is_new_snapshot = !tx->has_snapshot();
// Loop as long as we get a deadlock error AND we end up creating the
// snapshot here (i.e. it did not exist prior to this)
for (;;) {
DEBUG_SYNC(thd, "rocksdb.check_flags_rmi_scan");
if (thd && thd->killed) {
rc = HA_ERR_QUERY_INTERRUPTED;
break;
}
/*
This will open the iterator and position it at a record that's equal or
greater than the lookup tuple.
*/
setup_scan_iterator(kd, &slice, use_all_keys, eq_cond_len);
/*
Once we are positioned on from above, move to the position we really
want: See storage/rocksdb/rocksdb-range-access.txt
*/
bool move_forward;
rc =
position_to_correct_key(kd, find_flag, using_full_key, key, keypart_map,
slice, &move_forward, tx->m_snapshot_timestamp);
if (rc) {
break;
}
m_skip_scan_it_next_call = false;
/*
Now get the data for the row into 'buf'. If we were using a primary key
then we have all the rows we need. For a secondary key we now need to
lookup the primary key.
*/
if (active_index == table->s->primary_key) {
rc = read_row_from_primary_key(buf);
} else {
rc = read_row_from_secondary_key(buf, kd, move_forward);
}
if (!should_recreate_snapshot(rc, is_new_snapshot)) {
break; /* Exit the loop */
}
// release the snapshot and iterator so they will be regenerated
tx->release_snapshot();
release_scan_iterator();
}
if (rc) {
/*
This status is returned on any error
the only possible error condition is record-not-found
*/
table->status = STATUS_NOT_FOUND;
} else {
table->status = 0;
#ifdef MARIAROCKS_NOT_YET
stats.rows_read++;
stats.rows_index_first++;
#endif
update_row_stats(ROWS_READ);
}
DBUG_RETURN(rc);
}
/*
@brief
Scan the secondary index until we find an index record that satisfies ICP
@param move_forward TRUE <=> move m_scan_it forward
FALSE <=> move m_scan_it backward
@param buf Record buffer (must be the same buffer that
pushed index condition points to, in practice
it is table->record[0])
@detail
Move the current iterator m_scan_it until we get an index tuple that
satisfies the pushed Index Condition.
(if there is no pushed index condition, return right away)
@return
0 - Index tuple satisfies ICP, can do index read.
other - error code
*/
int ha_rocksdb::find_icp_matching_index_rec(const bool move_forward,
uchar *const buf) {
if (pushed_idx_cond && pushed_idx_cond_keyno == active_index) {
const Rdb_key_def &kd = *m_key_descr_arr[active_index];
THD *thd = ha_thd();
while (1) {
int rc = rocksdb_skip_expired_records(kd, m_scan_it, !move_forward);
if (rc != HA_EXIT_SUCCESS) {
return rc;
}
if (thd && thd->killed) {
return HA_ERR_QUERY_INTERRUPTED;
}
if (!is_valid(m_scan_it)) {
table->status = STATUS_NOT_FOUND;
return HA_ERR_END_OF_FILE;
}
const rocksdb::Slice rkey = m_scan_it->key();
if (!kd.covers_key(rkey)) {
table->status = STATUS_NOT_FOUND;
return HA_ERR_END_OF_FILE;
}
if (m_sk_match_prefix) {
const rocksdb::Slice prefix((const char *)m_sk_match_prefix,
m_sk_match_length);
if (!kd.value_matches_prefix(rkey, prefix)) {
table->status = STATUS_NOT_FOUND;
return HA_ERR_END_OF_FILE;
}
}
const rocksdb::Slice value = m_scan_it->value();
int err = kd.unpack_record(table, buf, &rkey, &value,
m_converter->get_verify_row_debug_checksums());
if (err != HA_EXIT_SUCCESS) {
return err;
}
const check_result_t icp_status= handler_index_cond_check(this);
if (icp_status == CHECK_NEG) {
rocksdb_smart_next(!move_forward, m_scan_it);
continue; /* Get the next (or prev) index tuple */
}
else if (icp_status == CHECK_OUT_OF_RANGE ||
icp_status == CHECK_ABORTED_BY_USER) {
/* We have walked out of range we are scanning */
table->status = STATUS_NOT_FOUND;
return HA_ERR_END_OF_FILE;
}
else /* icp_status == CHECK_POS */
{
/* Index Condition is satisfied. We have rc==0, proceed to fetch the
* row. */
break;
}
}
}
return HA_EXIT_SUCCESS;
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
/**
@return
HA_ADMIN_OK OK
other HA_ADMIN error code
*/
int ha_rocksdb::check(THD *const thd, HA_CHECK_OPT *const check_opt) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(check_opt != nullptr);
const uint pk = pk_index(table, m_tbl_def);
String rowkey_copy;
String sec_key_copy;
const char *const table_name = table->s->table_name.str;
// Only when debugging: don't use snapshot when reading
// Rdb_transaction *tx= get_or_create_tx(table->in_use);
// tx->snapshot= nullptr;
bool save_verify_row_debug_checksums =
m_converter->get_verify_row_debug_checksums();
m_converter->set_verify_row_debug_checksums(true);
/* For each secondary index, check that we can get a PK value from it */
// NO_LINT_DEBUG
sql_print_verbose_info("CHECKTABLE %s: Checking table %s", table_name,
table_name);
ha_rows UNINIT_VAR(row_checksums_at_start); // set/used iff first_index==true
ha_rows row_checksums = ha_rows(-1);
bool first_index = true;
for (uint keyno = 0; keyno < table->s->keys; keyno++) {
if (keyno != pk) {
extra(HA_EXTRA_KEYREAD);
ha_index_init(keyno, true);
ha_rows rows = 0;
ha_rows checksums = 0;
if (first_index) {
row_checksums_at_start = m_converter->get_row_checksums_checked();
}
int res;
// NO_LINT_DEBUG
sql_print_verbose_info("CHECKTABLE %s: Checking index %s", table_name,
table->key_info[keyno].name.str);
while (1) {
if (!rows) {
res = index_first(table->record[0]);
} else {
res = index_next(table->record[0]);
}
if (res == HA_ERR_END_OF_FILE) break;
if (res) {
// error
// NO_LINT_DEBUG
sql_print_error("CHECKTABLE %s: .. row %lld: index scan error %d",
table_name, rows, res);
goto error;
}
rocksdb::Slice key = m_scan_it->key();
sec_key_copy.copy(key.data(), key.size(), &my_charset_bin);
rowkey_copy.copy(m_last_rowkey.ptr(), m_last_rowkey.length(),
&my_charset_bin);
if (m_key_descr_arr[keyno]->unpack_info_has_checksum(
m_scan_it->value())) {
checksums++;
}
if ((res = get_row_by_rowid(table->record[0], rowkey_copy.ptr(),
rowkey_copy.length()))) {
// NO_LINT_DEBUG
sql_print_error(
"CHECKTABLE %s: .. row %lld: "
"failed to fetch row by rowid",
table_name, rows);
goto error;
}
longlong hidden_pk_id = 0;
if (has_hidden_pk(table) &&
read_hidden_pk_id_from_rowkey(&hidden_pk_id)) {
goto error;
}
/* Check if we get the same PK value */
uint packed_size = m_pk_descr->pack_record(
table, m_pack_buffer, table->record[0], m_pk_packed_tuple, nullptr,
false, hidden_pk_id);
if (packed_size != rowkey_copy.length() ||
memcmp(m_pk_packed_tuple, rowkey_copy.ptr(), packed_size)) {
// NO_LINT_DEBUG
sql_print_error("CHECKTABLE %s: .. row %lld: PK value mismatch",
table_name, rows);
goto print_and_error;
}
/* Check if we get the same secondary key value */
packed_size = m_key_descr_arr[keyno]->pack_record(
table, m_pack_buffer, table->record[0], m_sk_packed_tuple,
&m_sk_tails, false, hidden_pk_id);
if (packed_size != sec_key_copy.length() ||
memcmp(m_sk_packed_tuple, sec_key_copy.ptr(), packed_size)) {
// NO_LINT_DEBUG
sql_print_error(
"CHECKTABLE %s: .. row %lld: "
"secondary index value mismatch",
table_name, rows);
goto print_and_error;
}
rows++;
continue;
print_and_error : {
std::string buf;
buf = rdb_hexdump(rowkey_copy.ptr(), rowkey_copy.length(),
RDB_MAX_HEXDUMP_LEN);
// NO_LINT_DEBUG
sql_print_error("CHECKTABLE %s: rowkey: %s", table_name, buf.c_str());
buf = rdb_hexdump(m_retrieved_record.data(), m_retrieved_record.size(),
RDB_MAX_HEXDUMP_LEN);
// NO_LINT_DEBUG
sql_print_error("CHECKTABLE %s: record: %s", table_name, buf.c_str());
buf = rdb_hexdump(sec_key_copy.ptr(), sec_key_copy.length(),
RDB_MAX_HEXDUMP_LEN);
// NO_LINT_DEBUG
sql_print_error("CHECKTABLE %s: index: %s", table_name, buf.c_str());
goto error;
}
}
// NO_LINT_DEBUG
sql_print_verbose_info("CHECKTABLE %s: ... %lld index entries checked "
"(%lld had checksums)",
table_name, rows, checksums);
if (first_index) {
row_checksums =
m_converter->get_row_checksums_checked() - row_checksums_at_start;
first_index = false;
}
ha_index_end();
}
}
if (row_checksums != ha_rows(-1)) {
// NO_LINT_DEBUG
sql_print_verbose_info("CHECKTABLE %s: %lld table records had checksums",
table_name, row_checksums);
}
extra(HA_EXTRA_NO_KEYREAD);
m_converter->set_verify_row_debug_checksums(save_verify_row_debug_checksums);
/*
TODO(sergiy): we should check also for PK records that are missing in
the secondary indexes.
For that, need to walk through the PK and check that every PK record has a
proper counterpart in each secondary index.
*/
DBUG_RETURN(HA_ADMIN_OK);
error:
m_converter->set_verify_row_debug_checksums(save_verify_row_debug_checksums);
ha_index_or_rnd_end();
extra(HA_EXTRA_NO_KEYREAD);
DBUG_RETURN(HA_ADMIN_CORRUPT);
}
static void dbug_dump_str(FILE *const out, const char *const str, int len) {
fprintf(out, "\"");
for (int i = 0; i < len; i++) {
if (str[i] > 32) {
fprintf(out, "%c", str[i]);
} else {
fprintf(out, "\\%d", str[i]);
}
}
fprintf(out, "\"");
}
/*
Debugging help: dump the whole database into a human-readable file.
Usage:
dbug_dump_database(rdb);
*/
void dbug_dump_database(rocksdb::DB *const db) {
FILE *const out = fopen("/tmp/rocksdb.dump", "wt");
if (!out) return;
rocksdb::Iterator *it = db->NewIterator(rocksdb::ReadOptions());
for (it->SeekToFirst(); it->Valid(); it->Next()) {
rocksdb::Slice key = it->key();
rocksdb::Slice val = it->value();
dbug_dump_str(out, key.data(), key.size());
fprintf(out, " -> ");
dbug_dump_str(out, val.data(), val.size());
fprintf(out, "\n");
}
delete it;
fclose(out);
}
rocksdb::Status ha_rocksdb::get_for_update(
Rdb_transaction *const tx, rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key, rocksdb::PinnableSlice *const value) const {
DBUG_ASSERT(m_lock_rows != RDB_LOCK_NONE);
const bool exclusive = m_lock_rows != RDB_LOCK_READ;
const bool do_validate =
my_core::thd_tx_isolation(ha_thd()) > ISO_READ_COMMITTED;
rocksdb::Status s =
tx->get_for_update(column_family, key, value, exclusive, do_validate);
#ifndef DBUG_OFF
++rocksdb_num_get_for_update_calls;
#endif
return s;
}
bool ha_rocksdb::is_blind_delete_enabled() {
THD *thd = ha_thd();
/*
Note: in MariaDB, thd->lex->table_count is only set for multi-table DELETE,
not for single-table DELETE. So we check thd->lex->query_tables instead.
*/
return (THDVAR(thd, blind_delete_primary_key) &&
thd->lex->sql_command == SQLCOM_DELETE &&
thd->lex->query_tables && !thd->lex->query_tables->next_global &&
table->s->keys == 1 &&
!has_hidden_pk(table) && !thd->rgi_slave);
}
/*
Given a rowid (i.e. packed PK) as a parameter, get the record.
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::get_row_by_rowid(uchar *const buf, const char *const rowid,
const uint rowid_size, const bool skip_lookup,
const bool skip_ttl_check) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(table != nullptr);
int rc;
rocksdb::Slice key_slice(rowid, rowid_size);
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
DBUG_ASSERT(tx != nullptr);
#ifdef ENABLED_DEBUG_SYNC
DEBUG_SYNC(ha_thd(), "rocksdb.get_row_by_rowid");
DBUG_EXECUTE_IF("dbug.rocksdb.get_row_by_rowid", {
THD *thd = ha_thd();
const char act[] =
"now signal Reached "
"wait_for signal.rocksdb.get_row_by_rowid_let_running";
DBUG_ASSERT(opt_debug_sync_timeout > 0);
DBUG_ASSERT(!debug_sync_set_action(thd, STRING_WITH_LEN(act)));
};);
#endif /* ENABLED_DEBUG_SYNC */
bool found;
rocksdb::Status s;
/* Pretend row found without looking up */
if (skip_lookup) {
#ifdef MARIAROCKS_NOT_YET
stats.rows_deleted_blind++;
#endif
update_row_stats(ROWS_DELETED_BLIND);
m_last_rowkey.copy((const char *)rowid, rowid_size, &my_charset_bin);
table->status = 0;
DBUG_RETURN(0);
}
if (m_lock_rows == RDB_LOCK_NONE) {
tx->acquire_snapshot(true);
s = tx->get(m_pk_descr->get_cf(), key_slice, &m_retrieved_record);
} else if (m_insert_with_update && m_dup_pk_found) {
DBUG_ASSERT(m_pk_descr->get_keyno() == m_dupp_errkey);
DBUG_ASSERT(m_dup_pk_retrieved_record.length() ==
m_retrieved_record.size());
DBUG_ASSERT(memcmp(m_dup_pk_retrieved_record.ptr(),
m_retrieved_record.data(),
m_retrieved_record.size()) == 0);
// do nothing - we already have the result in m_retrieved_record and
// already taken the lock
s = rocksdb::Status::OK();
} else {
s = get_for_update(tx, m_pk_descr->get_cf(), key_slice,
&m_retrieved_record);
}
DBUG_EXECUTE_IF("rocksdb_return_status_corrupted",
dbug_change_status_to_corrupted(&s););
if (!s.IsNotFound() && !s.ok()) {
DBUG_RETURN(tx->set_status_error(table->in_use, s, *m_pk_descr, m_tbl_def,
m_table_handler));
}
found = !s.IsNotFound();
table->status = STATUS_NOT_FOUND;
if (found) {
/* If we found the record, but it's expired, pretend we didn't find it. */
if (!skip_ttl_check && m_pk_descr->has_ttl() &&
should_hide_ttl_rec(*m_pk_descr, m_retrieved_record,
tx->m_snapshot_timestamp)) {
DBUG_RETURN(HA_ERR_KEY_NOT_FOUND);
}
m_last_rowkey.copy((const char *)rowid, rowid_size, &my_charset_bin);
rc = convert_record_from_storage_format(&key_slice, buf);
if (!rc) {
table->status = 0;
}
} else {
/*
Note: we don't need to unlock the row. It is intentional that we keep
locks on rows that don't exist.
*/
rc = HA_ERR_KEY_NOT_FOUND;
}
DBUG_RETURN(rc);
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::index_next(uchar *const buf) {
DBUG_ENTER_FUNC();
bool moves_forward = true;
if (m_key_descr_arr[active_index]->m_is_reverse_cf) {
moves_forward = false;
}
int rc = index_next_with_direction(buf, moves_forward);
if (rc == HA_ERR_KEY_NOT_FOUND) rc = HA_ERR_END_OF_FILE;
DBUG_RETURN(rc);
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::index_prev(uchar *const buf) {
DBUG_ENTER_FUNC();
bool moves_forward = false;
if (m_key_descr_arr[active_index]->m_is_reverse_cf) {
moves_forward = true;
}
int rc = index_next_with_direction(buf, moves_forward);
if (rc == HA_ERR_KEY_NOT_FOUND) rc = HA_ERR_END_OF_FILE;
DBUG_RETURN(rc);
}
int ha_rocksdb::index_next_with_direction(uchar *const buf, bool move_forward) {
DBUG_ENTER_FUNC();
int rc;
if (active_index == pk_index(table, m_tbl_def)) {
rc = rnd_next_with_direction(buf, move_forward);
} else {
THD *thd = ha_thd();
for (;;) {
DEBUG_SYNC(thd, "rocksdb.check_flags_inwd");
if (thd && thd->killed) {
rc = HA_ERR_QUERY_INTERRUPTED;
break;
}
if (m_skip_scan_it_next_call) {
m_skip_scan_it_next_call = false;
} else {
if (move_forward) {
m_scan_it->Next(); /* this call cannot fail */
} else {
m_scan_it->Prev();
}
}
rc = rocksdb_skip_expired_records(*m_key_descr_arr[active_index],
m_scan_it, !move_forward);
if (rc != HA_EXIT_SUCCESS) {
break;
}
rc = find_icp_matching_index_rec(move_forward, buf);
if (!rc) rc = secondary_index_read(active_index, buf);
if (!should_skip_invalidated_record(rc)) {
break;
}
}
}
DBUG_RETURN(rc);
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::index_first(uchar *const buf) {
DBUG_ENTER_FUNC();
m_sk_match_prefix = nullptr;
int rc = m_key_descr_arr[active_index]->m_is_reverse_cf
? index_last_intern(buf)
: index_first_intern(buf);
if (rc == HA_ERR_KEY_NOT_FOUND) rc = HA_ERR_END_OF_FILE;
DBUG_RETURN(rc);
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::index_last(uchar *const buf) {
DBUG_ENTER_FUNC();
m_sk_match_prefix = nullptr;
int rc = m_key_descr_arr[active_index]->m_is_reverse_cf
? index_first_intern(buf)
: index_last_intern(buf);
if (rc == HA_ERR_KEY_NOT_FOUND) rc = HA_ERR_END_OF_FILE;
DBUG_RETURN(rc);
}
/*
Start scanning from the "first" value.
The 'first' here means "the first from start of the key space".
For reverse-ordered key spaces, the first value will be the biggest, 'zzzz'.
An picture of a forward-ordered keyspace (remember, the keys have form
'indexnr-keyval'. Suppose the index we are at has number n)
(n-1) - ...
( n ) <--- 1. (n) doesn't exist in the db but it would be here.
( n ) - aaa <--- 2. Seek("n") will put us here on the first index
( n ) - bbb record.
( n ) - cc
So, need to do: Seek(n);
A backward-ordered keyspace:
(n+1) - bbb
(n+1) - aaa
(n+1) <--- (n+1) doesn't exist in the db but would be here.
( n ) - ccc <--- 1. We need to be here.
( n ) - bbb
( n ) - aaa
( n )
So, need to: Seek(n+1);
*/
int ha_rocksdb::index_first_intern(uchar *const buf) {
DBUG_ENTER_FUNC();
uchar *key;
uint key_size;
int rc;
if (is_pk(active_index, table, m_tbl_def)) {
key = m_pk_packed_tuple;
} else {
key = m_sk_packed_tuple;
}
DBUG_ASSERT(key != nullptr);
const Rdb_key_def &kd = *m_key_descr_arr[active_index];
int key_start_matching_bytes = kd.get_first_key(key, &key_size);
rocksdb::Slice index_key((const char *)key, key_size);
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
DBUG_ASSERT(tx != nullptr);
const bool is_new_snapshot = !tx->has_snapshot();
// Loop as long as we get a deadlock error AND we end up creating the
// snapshot here (i.e. it did not exist prior to this)
for (;;) {
setup_scan_iterator(kd, &index_key, false, key_start_matching_bytes);
m_scan_it->Seek(index_key);
m_skip_scan_it_next_call = true;
rc = index_next_with_direction(buf, true);
if (!should_recreate_snapshot(rc, is_new_snapshot)) {
break; /* exit the loop */
}
// release the snapshot and iterator so they will be regenerated
tx->release_snapshot();
release_scan_iterator();
}
if (!rc) {
/*
index_next is always incremented on success, so decrement if it is
index_first instead
*/
#ifdef MARIAROCKS_NOT_YET
stats.rows_index_first++;
stats.rows_index_next--;
#endif
}
DBUG_RETURN(rc);
}
/**
@details
Start scanning from the "last" value
The 'last' here means "the last from start of the key space".
For reverse-ordered key spaces, we will actually read the smallest value.
An picture of a forward-ordered keyspace (remember, the keys have form
'indexnr-keyval'. Suppose the we are at a key that has number n)
(n-1)-something
( n )-aaa
( n )-bbb
( n )-ccc <----------- Need to seek to here.
(n+1) <---- Doesn't exist, but would be here.
(n+1)-smth, or no value at all
RocksDB's Iterator::SeekForPrev($val) seeks to "at $val or last value that's
smaller". We can't seek to "(n)-ccc" directly, because we don't know what
is the value of 'ccc' (the biggest record with prefix (n)). Instead, we seek
to "(n+1)", which is the least possible value that's greater than any value
in index #n.
So, need to: it->SeekForPrev(n+1)
A backward-ordered keyspace:
(n+1)-something
( n ) - ccc
( n ) - bbb
( n ) - aaa <---------------- (*) Need to seek here.
( n ) <--- Doesn't exist, but would be here.
(n-1)-smth, or no value at all
So, need to: it->SeekForPrev(n)
*/
int ha_rocksdb::index_last_intern(uchar *const buf) {
DBUG_ENTER_FUNC();
uchar *key;
uint key_size;
int rc;
if (is_pk(active_index, table, m_tbl_def)) {
key = m_pk_packed_tuple;
} else {
key = m_sk_packed_tuple;
}
DBUG_ASSERT(key != nullptr);
const Rdb_key_def &kd = *m_key_descr_arr[active_index];
int key_end_matching_bytes = kd.get_last_key(key, &key_size);
rocksdb::Slice index_key((const char *)key, key_size);
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
DBUG_ASSERT(tx != nullptr);
bool is_new_snapshot = !tx->has_snapshot();
// Loop as long as we get a deadlock error AND we end up creating the
// snapshot here (i.e. it did not exist prior to this)
for (;;) {
setup_scan_iterator(kd, &index_key, false, key_end_matching_bytes);
m_scan_it->SeekForPrev(index_key);
m_skip_scan_it_next_call = false;
if (is_pk(active_index, table, m_tbl_def)) {
m_skip_scan_it_next_call = true;
rc = rnd_next_with_direction(buf, false);
} else {
rc = find_icp_matching_index_rec(false /*move_forward*/, buf);
if (!rc) rc = secondary_index_read(active_index, buf);
}
if (!should_recreate_snapshot(rc, is_new_snapshot)) {
break; /* exit the loop */
}
// release the snapshot and iterator so they will be regenerated
tx->release_snapshot();
release_scan_iterator();
}
if (!rc) {
/*
index_next is always incremented on success, so decrement if it is
index_first instead
*/
#ifdef MARIAROCKS_NOT_YET
stats.rows_index_first++;
stats.rows_index_next--;
#endif
}
DBUG_RETURN(rc);
}
void ha_rocksdb::unlock_row() {
DBUG_ENTER_FUNC();
if (m_lock_rows != RDB_LOCK_NONE) {
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
tx->release_lock(m_pk_descr->get_cf(),
std::string(m_last_rowkey.ptr(), m_last_rowkey.length()));
}
DBUG_VOID_RETURN;
}
/*
Returning true if SingleDelete can be used.
- Secondary Indexes can always use SingleDelete.
- If the index is PRIMARY KEY, and if all of the columns of the table
are covered by the PRIMARY KEY, SingleDelete can be used.
*/
bool ha_rocksdb::can_use_single_delete(const uint index) const {
return (index != pk_index(table, m_tbl_def) ||
(!has_hidden_pk(table) &&
table->key_info[index].ext_key_parts == table->s->fields));
}
bool ha_rocksdb::skip_unique_check() const {
/*
We want to skip unique checks if:
1) bulk_load is on
2) this table is in the whitelist of tables to skip and the replication
lag has reached a large enough value (see unique_check_lag_threshold
and unique_check_lage_reset_threshold)
3) the user set unique_checks option to 0, and the table does not have
any indexes. If the table has secondary keys, then those might becomes
inconsisted/corrupted
4) We're using read-free replication
*/
return THDVAR(table->in_use, bulk_load) ||
(m_force_skip_unique_check && m_skip_unique_check) ||
(my_core::thd_test_options(table->in_use,
OPTION_RELAXED_UNIQUE_CHECKS) &&
m_tbl_def->m_key_count == 1) ||
#ifdef MARIAROCKS_NOT_YET
use_read_free_rpl();
#else
FALSE;
#endif
}
#ifdef MARIAROCKS_NOT_YET // MDEV-10975
void ha_rocksdb::set_force_skip_unique_check(bool skip) {
DBUG_ENTER_FUNC();
m_force_skip_unique_check = skip;
DBUG_VOID_RETURN;
}
#endif
bool ha_rocksdb::commit_in_the_middle() {
return THDVAR(table->in_use, bulk_load) ||
THDVAR(table->in_use, commit_in_the_middle);
}
/*
Executing bulk commit if it should.
@retval true if bulk commit failed
@retval false if bulk commit was skipped or succeeded
*/
bool ha_rocksdb::do_bulk_commit(Rdb_transaction *const tx) {
return commit_in_the_middle() &&
tx->get_write_count() >= THDVAR(table->in_use, bulk_load_size) &&
tx->flush_batch();
}
/*
If table was created without primary key, SQL layer represents the primary
key number as MAX_INDEXES. Hence, this function returns true if the table
does not contain a primary key. (In which case we generate a hidden
'auto-incremented' pk.)
*/
bool ha_rocksdb::has_hidden_pk(const TABLE *const table) const {
return Rdb_key_def::table_has_hidden_pk(table);
}
/*
Returns true if given index number is a hidden_pk.
- This is used when a table is created with no primary key.
*/
bool ha_rocksdb::is_hidden_pk(const uint index, const TABLE *const table_arg,
const Rdb_tbl_def *const tbl_def_arg) {
DBUG_ASSERT(table_arg->s != nullptr);
return (table_arg->s->primary_key == MAX_INDEXES &&
index == tbl_def_arg->m_key_count - 1);
}
/* Returns index of primary key */
uint ha_rocksdb::pk_index(const TABLE *const table_arg,
const Rdb_tbl_def *const tbl_def_arg) {
DBUG_ASSERT(table_arg->s != nullptr);
return table_arg->s->primary_key == MAX_INDEXES ? tbl_def_arg->m_key_count - 1
: table_arg->s->primary_key;
}
/* Returns true if given index number is a primary key */
bool ha_rocksdb::is_pk(const uint index, const TABLE *const table_arg,
const Rdb_tbl_def *const tbl_def_arg) {
DBUG_ASSERT(table_arg->s != nullptr);
return index == table_arg->s->primary_key ||
is_hidden_pk(index, table_arg, tbl_def_arg);
}
uint ha_rocksdb::max_supported_key_part_length() const {
DBUG_ENTER_FUNC();
DBUG_RETURN(rocksdb_large_prefix ? MAX_INDEX_COL_LEN_LARGE
: MAX_INDEX_COL_LEN_SMALL);
}
const char *ha_rocksdb::get_key_name(const uint index,
const TABLE *const table_arg,
const Rdb_tbl_def *const tbl_def_arg) {
if (is_hidden_pk(index, table_arg, tbl_def_arg)) {
return HIDDEN_PK_NAME;
}
DBUG_ASSERT(table_arg->key_info != nullptr);
DBUG_ASSERT(table_arg->key_info[index].name.str != nullptr);
return table_arg->key_info[index].name.str;
}
const char *ha_rocksdb::get_key_comment(const uint index,
const TABLE *const table_arg,
const Rdb_tbl_def *const tbl_def_arg) {
if (is_hidden_pk(index, table_arg, tbl_def_arg)) {
return nullptr;
}
DBUG_ASSERT(table_arg->key_info != nullptr);
return table_arg->key_info[index].comment.str;
}
const std::string ha_rocksdb::generate_cf_name(
const uint index, const TABLE *const table_arg,
const Rdb_tbl_def *const tbl_def_arg, bool *per_part_match_found) {
DBUG_ASSERT(table_arg != nullptr);
DBUG_ASSERT(tbl_def_arg != nullptr);
DBUG_ASSERT(per_part_match_found != nullptr);
// When creating CF-s the caller needs to know if there was a custom CF name
// specified for a given paritition.
*per_part_match_found = false;
// Index comment is used to define the column family name specification(s).
// If there was no comment, we get an emptry string, and it means "use the
// default column family".
const char *const comment = get_key_comment(index, table_arg, tbl_def_arg);
// `get_key_comment` can return `nullptr`, that's why this.
std::string key_comment = comment ? comment : "";
std::string cf_name = Rdb_key_def::parse_comment_for_qualifier(
key_comment, table_arg, tbl_def_arg, per_part_match_found,
RDB_CF_NAME_QUALIFIER);
if (IF_PARTITIONING(table_arg->part_info,nullptr) != nullptr && !*per_part_match_found) {
// At this point we tried to search for a custom CF name for a partition,
// but none was specified. Therefore default one will be used.
return "";
}
// If we didn't find any partitioned/non-partitioned qualifiers, return the
// comment itself. NOTE: this currently handles returning the cf name
// specified in the index comment in the case of no partitions, which doesn't
// use any qualifiers at the moment. (aka its a special case)
if (cf_name.empty() && !key_comment.empty()) {
return key_comment;
}
return cf_name;
}
const std::string ha_rocksdb::get_table_comment(const TABLE *const table_arg) {
DBUG_ASSERT(table_arg->s != nullptr);
return table_arg->s->comment.str;
}
/**
Write a new row
@param[in] buf new row data to write
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::write_row(const uchar *const buf) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(buf != nullptr);
DBUG_ASSERT(buf == table->record[0]);
DBUG_ASSERT(m_lock_rows == RDB_LOCK_WRITE);
/*
Note: "buf == table->record[0]" is copied from innodb. I am not aware of
any use cases where this condition is not true.
*/
if (table->next_number_field && buf == table->record[0]) {
int err;
if ((err = update_auto_increment())) {
DBUG_RETURN(err);
}
}
// clear cache at beginning of write for INSERT ON DUPLICATE
// we may get multiple write->fail->read->update if there are multiple
// values from INSERT
m_dup_pk_found = false;
const int rv = update_write_row(nullptr, buf, skip_unique_check());
if (rv == 0) {
#ifdef MARIAROCKS_NOT_YET
stats.rows_inserted++;
#endif
update_row_stats(ROWS_INSERTED);
}
DBUG_RETURN(rv);
}
/**
Constructing m_last_rowkey (MyRocks key expression) from
before_update|delete image (MySQL row expression).
m_last_rowkey is normally set during lookup phase, such as
rnd_next_with_direction() and rnd_pos(). With Read Free Replication,
these read functions are skipped and update_rows(), delete_rows() are
called without setting m_last_rowkey. This function sets m_last_rowkey
for Read Free Replication.
*/
void ha_rocksdb::set_last_rowkey(const uchar *const old_data) {
#ifdef MARIAROCKS_NOT_YET
if (old_data && use_read_free_rpl()) {
const int old_pk_size = m_pk_descr->pack_record(
table, m_pack_buffer, old_data, m_pk_packed_tuple, nullptr, false);
m_last_rowkey.copy((const char *)m_pk_packed_tuple, old_pk_size,
&my_charset_bin);
}
#endif
}
/**
Collect update data for primary key
@param[in, out] row_info hold all data for update row, such as
new row data/old row data
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::get_pk_for_update(struct update_row_info *const row_info) {
int size;
/*
Get new row key for any insert, and any update where the pk is not hidden.
Row key for updates with hidden pk is handled below.
*/
if (!has_hidden_pk(table)) {
row_info->hidden_pk_id = 0;
row_info->new_pk_unpack_info = &m_pk_unpack_info;
size = m_pk_descr->pack_record(
table, m_pack_buffer, row_info->new_data, m_pk_packed_tuple,
row_info->new_pk_unpack_info, false, 0, 0, nullptr);
} else if (row_info->old_data == nullptr) {
row_info->hidden_pk_id = update_hidden_pk_val();
size =
m_pk_descr->pack_hidden_pk(row_info->hidden_pk_id, m_pk_packed_tuple);
} else {
/*
If hidden primary key, rowkey for new record will always be the same as
before
*/
size = row_info->old_pk_slice.size();
memcpy(m_pk_packed_tuple, row_info->old_pk_slice.data(), size);
int err = read_hidden_pk_id_from_rowkey(&row_info->hidden_pk_id);
if (err) {
return err;
}
}
row_info->new_pk_slice =
rocksdb::Slice((const char *)m_pk_packed_tuple, size);
return HA_EXIT_SUCCESS;
}
/**
Check the specified primary key value is unique and also lock the row
@param[in] key_id key index
@param[in] row_info hold all data for update row, such as old row
data and new row data
@param[out] found whether the primary key exists before.
@param[out] pk_changed whether primary key is changed
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::check_and_lock_unique_pk(const uint key_id,
const struct update_row_info &row_info,
bool *const found) {
DBUG_ASSERT(found != nullptr);
DBUG_ASSERT(row_info.old_pk_slice.size() == 0 ||
row_info.new_pk_slice.compare(row_info.old_pk_slice) != 0);
/* Ignore PK violations if this is a optimized 'replace into' */
#ifdef MARIAROCKS_NOT_YET
const bool ignore_pk_unique_check = ha_thd()->lex->blind_replace_into;
#else
const bool ignore_pk_unique_check= false;
#endif
/*
Perform a read to determine if a duplicate entry exists. For primary
keys, a point lookup will be sufficient.
note: we intentionally don't set options.snapshot here. We want to read
the latest committed data.
*/
/*
To prevent race conditions like below, it is necessary to
take a lock for a target row. get_for_update() holds a gap lock if
target key does not exist, so below conditions should never
happen.
1) T1 Get(empty) -> T2 Get(empty) -> T1 Put(insert) -> T1 commit
-> T2 Put(overwrite) -> T2 commit
2) T1 Get(empty) -> T1 Put(insert, not committed yet) -> T2 Get(empty)
-> T2 Put(insert, blocked) -> T1 commit -> T2 commit(overwrite)
*/
const rocksdb::Status s =
get_for_update(row_info.tx, m_pk_descr->get_cf(), row_info.new_pk_slice,
ignore_pk_unique_check ? nullptr : &m_retrieved_record);
if (!s.ok() && !s.IsNotFound()) {
return row_info.tx->set_status_error(
table->in_use, s, *m_key_descr_arr[key_id], m_tbl_def, m_table_handler);
}
bool key_found = ignore_pk_unique_check ? false : !s.IsNotFound();
/*
If the pk key has ttl, we may need to pretend the row wasn't
found if it is already expired.
*/
if (key_found && m_pk_descr->has_ttl() &&
should_hide_ttl_rec(*m_pk_descr, m_retrieved_record,
(row_info.tx->m_snapshot_timestamp
? row_info.tx->m_snapshot_timestamp
: static_cast<int64_t>(std::time(nullptr))))) {
key_found = false;
}
if (key_found && row_info.old_data == nullptr && m_insert_with_update) {
// In INSERT ON DUPLICATE KEY UPDATE ... case, if the insert failed
// due to a duplicate key, remember the last key and skip the check
// next time
m_dup_pk_found = true;
#ifndef DBUG_OFF
// save it for sanity checking later
m_dup_pk_retrieved_record.copy(m_retrieved_record.data(),
m_retrieved_record.size(), &my_charset_bin);
#endif
}
*found = key_found;
return HA_EXIT_SUCCESS;
}
/**
Check the specified secondary key value is unique and also lock the row
@param[in] key_id key index
@param[in] row_info hold all data for update row, such as old row
data and new row data
@param[out] found whether specified key value exists before.
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::check_and_lock_sk(const uint key_id,
const struct update_row_info &row_info,
bool *const found) {
DBUG_ASSERT(found != nullptr);
*found = false;
/*
Can skip checking this key if none of the key fields have changed.
*/
if (row_info.old_data != nullptr && !m_update_scope.is_set(key_id)) {
return HA_EXIT_SUCCESS;
}
KEY *key_info = nullptr;
uint n_null_fields = 0;
uint user_defined_key_parts = 1;
key_info = &table->key_info[key_id];
user_defined_key_parts = key_info->user_defined_key_parts;
/*
If there are no uniqueness requirements, there's no need to obtain a
lock for this key.
*/
if (!(key_info->flags & HA_NOSAME)) {
return HA_EXIT_SUCCESS;
}
const Rdb_key_def &kd = *m_key_descr_arr[key_id];
/*
Calculate the new key for obtaining the lock
For unique secondary indexes, the key used for locking does not
include the extended fields.
*/
int size =
kd.pack_record(table, m_pack_buffer, row_info.new_data, m_sk_packed_tuple,
nullptr, false, 0, user_defined_key_parts, &n_null_fields);
if (n_null_fields > 0) {
/*
If any fields are marked as NULL this will never match another row as
to NULL never matches anything else including another NULL.
*/
return HA_EXIT_SUCCESS;
}
const rocksdb::Slice new_slice =
rocksdb::Slice((const char *)m_sk_packed_tuple, size);
/*
Acquire lock on the old key in case of UPDATE
*/
if (row_info.old_data != nullptr) {
size = kd.pack_record(table, m_pack_buffer, row_info.old_data,
m_sk_packed_tuple_old, nullptr, false, 0,
user_defined_key_parts);
const rocksdb::Slice old_slice =
rocksdb::Slice((const char *)m_sk_packed_tuple_old, size);
const rocksdb::Status s =
get_for_update(row_info.tx, kd.get_cf(), old_slice, nullptr);
if (!s.ok()) {
return row_info.tx->set_status_error(table->in_use, s, kd, m_tbl_def,
m_table_handler);
}
/*
If the old and new keys are the same we're done since we've already taken
the lock on the old key
*/
if (!new_slice.compare(old_slice)) {
return HA_EXIT_SUCCESS;
}
}
/*
Perform a read to determine if a duplicate entry exists - since this is
a secondary indexes a range scan is needed.
note: we intentionally don't set options.snapshot here. We want to read
the latest committed data.
*/
const bool all_parts_used = (user_defined_key_parts == kd.get_key_parts());
/*
This iterator seems expensive since we need to allocate and free
memory for each unique index.
If this needs to be optimized, for keys without NULL fields, the
extended primary key fields can be migrated to the value portion of the
key. This enables using Get() instead of Seek() as in the primary key
case.
The bloom filter may need to be disabled for this lookup.
*/
uchar lower_bound_buf[Rdb_key_def::INDEX_NUMBER_SIZE];
uchar upper_bound_buf[Rdb_key_def::INDEX_NUMBER_SIZE];
rocksdb::Slice lower_bound_slice;
rocksdb::Slice upper_bound_slice;
const bool total_order_seek = !check_bloom_and_set_bounds(
ha_thd(), kd, new_slice, all_parts_used, Rdb_key_def::INDEX_NUMBER_SIZE,
lower_bound_buf, upper_bound_buf, &lower_bound_slice, &upper_bound_slice);
const bool fill_cache = !THDVAR(ha_thd(), skip_fill_cache);
const rocksdb::Status s =
get_for_update(row_info.tx, kd.get_cf(), new_slice, nullptr);
if (!s.ok() && !s.IsNotFound()) {
return row_info.tx->set_status_error(table->in_use, s, kd, m_tbl_def,
m_table_handler);
}
rocksdb::Iterator *const iter = row_info.tx->get_iterator(
kd.get_cf(), total_order_seek, fill_cache, lower_bound_slice,
upper_bound_slice, true /* read current data */,
false /* acquire snapshot */);
/*
Need to scan the transaction to see if there is a duplicate key.
Also need to scan RocksDB and verify the key has not been deleted
in the transaction.
*/
iter->Seek(new_slice);
*found = !read_key_exact(kd, iter, all_parts_used, new_slice,
row_info.tx->m_snapshot_timestamp);
delete iter;
return HA_EXIT_SUCCESS;
}
/**
Enumerate all keys to check their uniquess and also lock it
@param[in] row_info hold all data for update row, such as old row
data and new row data
@param[out] pk_changed whether primary key is changed
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::check_uniqueness_and_lock(
const struct update_row_info &row_info, bool pk_changed) {
/*
Go through each index and determine if the index has uniqueness
requirements. If it does, then try to obtain a row lock on the new values.
Once all locks have been obtained, then perform the changes needed to
update/insert the row.
*/
for (uint key_id = 0; key_id < m_tbl_def->m_key_count; key_id++) {
bool found;
int rc;
if (is_pk(key_id, table, m_tbl_def)) {
if (row_info.old_pk_slice.size() > 0 && !pk_changed) {
found = false;
rc = HA_EXIT_SUCCESS;
} else {
rc = check_and_lock_unique_pk(key_id, row_info, &found);
}
} else {
rc = check_and_lock_sk(key_id, row_info, &found);
}
if (rc != HA_EXIT_SUCCESS) {
return rc;
}
if (found) {
/* There is a row with this key already, so error out. */
errkey = key_id;
m_dupp_errkey = errkey;
return HA_ERR_FOUND_DUPP_KEY;
}
}
return HA_EXIT_SUCCESS;
}
/**
Check whether secondary key value is duplicate or not
@param[in] table_arg the table currently working on
@param[in key_def the key_def is being checked
@param[in] key secondary key storage data
@param[out] sk_info hold secondary key memcmp datas(new/old)
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::check_duplicate_sk(const TABLE *table_arg,
const Rdb_key_def &key_def,
const rocksdb::Slice *key,
struct unique_sk_buf_info *sk_info) {
uint n_null_fields = 0;
const rocksdb::Comparator *index_comp = key_def.get_cf()->GetComparator();
/* Get proper SK buffer. */
uchar *sk_buf = sk_info->swap_and_get_sk_buf();
/* Get memcmp form of sk without extended pk tail */
uint sk_memcmp_size =
key_def.get_memcmp_sk_parts(table_arg, *key, sk_buf, &n_null_fields);
sk_info->sk_memcmp_key =
rocksdb::Slice(reinterpret_cast<char *>(sk_buf), sk_memcmp_size);
if (sk_info->sk_memcmp_key_old.size() > 0 && n_null_fields == 0 &&
index_comp->Compare(sk_info->sk_memcmp_key, sk_info->sk_memcmp_key_old) ==
0) {
return 1;
}
sk_info->sk_memcmp_key_old = sk_info->sk_memcmp_key;
return 0;
}
int ha_rocksdb::bulk_load_key(Rdb_transaction *const tx, const Rdb_key_def &kd,
const rocksdb::Slice &key,
const rocksdb::Slice &value, bool sort) {
DBUG_ENTER_FUNC();
int res;
THD *thd = ha_thd();
if (thd && thd->killed) {
DBUG_RETURN(HA_ERR_QUERY_INTERRUPTED);
}
rocksdb::ColumnFamilyHandle *cf = kd.get_cf();
// In the case of unsorted inserts, m_sst_info allocated here is not
// used to store the keys. It is still used to indicate when tables
// are switched.
if (m_sst_info == nullptr || m_sst_info->is_done()) {
m_sst_info.reset(new Rdb_sst_info(rdb, m_table_handler->m_table_name,
kd.get_name(), cf, *rocksdb_db_options,
THDVAR(ha_thd(), trace_sst_api)));
res = tx->start_bulk_load(this, m_sst_info);
if (res != HA_EXIT_SUCCESS) {
DBUG_RETURN(res);
}
}
DBUG_ASSERT(m_sst_info);
if (sort) {
Rdb_index_merge *key_merge;
DBUG_ASSERT(cf != nullptr);
res = tx->get_key_merge(kd.get_gl_index_id(), cf, &key_merge);
if (res == HA_EXIT_SUCCESS) {
res = key_merge->add(key, value);
}
} else {
res = m_sst_info->put(key, value);
}
DBUG_RETURN(res);
}
int ha_rocksdb::finalize_bulk_load(bool print_client_error) {
DBUG_ENTER_FUNC();
int res = HA_EXIT_SUCCESS;
/* Skip if there are no possible ongoing bulk loads */
if (m_sst_info) {
if (m_sst_info->is_done()) {
m_sst_info.reset();
DBUG_RETURN(res);
}
Rdb_sst_info::Rdb_sst_commit_info commit_info;
// Wrap up the current work in m_sst_info and get ready to commit
// This transfer the responsibility of commit over to commit_info
res = m_sst_info->finish(&commit_info, print_client_error);
if (res == 0) {
// Make sure we have work to do - under race condition we could lose
// to another thread and end up with no work
if (commit_info.has_work()) {
rocksdb::IngestExternalFileOptions opts;
opts.move_files = true;
opts.snapshot_consistency = false;
opts.allow_global_seqno = false;
opts.allow_blocking_flush = false;
const rocksdb::Status s = rdb->IngestExternalFile(
commit_info.get_cf(), commit_info.get_committed_files(), opts);
if (!s.ok()) {
if (print_client_error) {
Rdb_sst_info::report_error_msg(s, nullptr);
}
res = HA_ERR_ROCKSDB_BULK_LOAD;
} else {
// Mark the list of SST files as committed, otherwise they'll get
// cleaned up when commit_info destructs
commit_info.commit();
}
}
}
m_sst_info.reset();
}
DBUG_RETURN(res);
}
/**
Update an existing primary key record or write a new primary key record
@param[in] kd the primary key is being update/write
@param[in] update_row_info hold all row data, such as old row data and
new row data
@param[in] pk_changed whether primary key is changed
@return
HA_EXIT_SUCCESS OK
Other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::update_write_pk(const Rdb_key_def &kd,
const struct update_row_info &row_info,
bool pk_changed) {
uint key_id = kd.get_keyno();
bool hidden_pk = is_hidden_pk(key_id, table, m_tbl_def);
ulonglong bytes_written = 0;
/*
If the PK has changed, or if this PK uses single deletes and this is an
update, the old key needs to be deleted. In the single delete case, it
might be possible to have this sequence of keys: PUT(X), PUT(X), SD(X),
resulting in the first PUT(X) showing up.
*/
if (!hidden_pk && (pk_changed || ((row_info.old_pk_slice.size() > 0) &&
can_use_single_delete(key_id)))) {
const rocksdb::Status s = delete_or_singledelete(
key_id, row_info.tx, kd.get_cf(), row_info.old_pk_slice);
if (!s.ok()) {
return row_info.tx->set_status_error(table->in_use, s, kd, m_tbl_def,
m_table_handler);
} else {
bytes_written = row_info.old_pk_slice.size();
}
}
if (table->found_next_number_field) {
update_auto_incr_val_from_field();
}
int rc = HA_EXIT_SUCCESS;
rocksdb::Slice value_slice;
/* Prepare the new record to be written into RocksDB */
if ((rc = m_converter->encode_value_slice(
m_pk_descr, row_info.new_pk_slice, row_info.new_pk_unpack_info,
!row_info.old_pk_slice.empty(), should_store_row_debug_checksums(),
m_ttl_bytes, &m_ttl_bytes_updated, &value_slice))) {
return rc;
}
const auto cf = m_pk_descr->get_cf();
if (rocksdb_enable_bulk_load_api && THDVAR(table->in_use, bulk_load) &&
!hidden_pk) {
/*
Write the primary key directly to an SST file using an SstFileWriter
*/
rc = bulk_load_key(row_info.tx, kd, row_info.new_pk_slice, value_slice,
THDVAR(table->in_use, bulk_load_allow_unsorted));
} else if (row_info.skip_unique_check || row_info.tx->m_ddl_transaction) {
/*
It is responsibility of the user to make sure that the data being
inserted doesn't violate any unique keys.
*/
row_info.tx->get_indexed_write_batch()->Put(cf, row_info.new_pk_slice,
value_slice);
} else {
const bool assume_tracked = can_assume_tracked(ha_thd());
const auto s = row_info.tx->put(cf, row_info.new_pk_slice, value_slice,
assume_tracked);
if (!s.ok()) {
if (s.IsBusy()) {
errkey = table->s->primary_key;
m_dupp_errkey = errkey;
rc = HA_ERR_FOUND_DUPP_KEY;
} else {
rc = row_info.tx->set_status_error(table->in_use, s, *m_pk_descr,
m_tbl_def, m_table_handler);
}
}
}
if (rc == HA_EXIT_SUCCESS) {
row_info.tx->update_bytes_written(
bytes_written + row_info.new_pk_slice.size() + value_slice.size());
}
return rc;
}
/**
update an existing secondary key record or write a new secondary key record
@param[in] table_arg Table we're working on
@param[in] kd The secondary key being update/write
@param[in] row_info data structure contains old row data and new row data
@param[in] bulk_load_sk whether support bulk load. Currently it is only
support for write
@return
HA_EXIT_SUCCESS OK
Other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::update_write_sk(const TABLE *const table_arg,
const Rdb_key_def &kd,
const struct update_row_info &row_info,
const bool bulk_load_sk) {
int new_packed_size;
int old_packed_size;
int rc = HA_EXIT_SUCCESS;
rocksdb::Slice new_key_slice;
rocksdb::Slice new_value_slice;
rocksdb::Slice old_key_slice;
const uint key_id = kd.get_keyno();
ulonglong bytes_written = 0;
/*
Can skip updating this key if none of the key fields have changed and, if
this table has TTL, the TTL timestamp has not changed.
*/
if (row_info.old_data != nullptr && !m_update_scope.is_set(key_id) &&
(!kd.has_ttl() || !m_ttl_bytes_updated)) {
return HA_EXIT_SUCCESS;
}
bool store_row_debug_checksums = should_store_row_debug_checksums();
new_packed_size =
kd.pack_record(table_arg, m_pack_buffer, row_info.new_data,
m_sk_packed_tuple, &m_sk_tails, store_row_debug_checksums,
row_info.hidden_pk_id, 0, nullptr, m_ttl_bytes);
if (row_info.old_data != nullptr) {
// The old value
old_packed_size = kd.pack_record(
table_arg, m_pack_buffer, row_info.old_data, m_sk_packed_tuple_old,
&m_sk_tails_old, store_row_debug_checksums, row_info.hidden_pk_id, 0,
nullptr, m_ttl_bytes);
/*
Check if we are going to write the same value. This can happen when
one does
UPDATE tbl SET col='foo'
and we are looking at the row that already has col='foo'.
We also need to compare the unpack info. Suppose, the collation is
case-insensitive, and unpack info contains information about whether
the letters were uppercase and lowercase. Then, both 'foo' and 'FOO'
will have the same key value, but different data in unpack_info.
(note: anyone changing bytewise_compare should take this code into
account)
*/
if (old_packed_size == new_packed_size &&
m_sk_tails_old.get_current_pos() == m_sk_tails.get_current_pos() &&
!(kd.has_ttl() && m_ttl_bytes_updated) &&
memcmp(m_sk_packed_tuple_old, m_sk_packed_tuple, old_packed_size) ==
0 &&
memcmp(m_sk_tails_old.ptr(), m_sk_tails.ptr(),
m_sk_tails.get_current_pos()) == 0) {
return HA_EXIT_SUCCESS;
}
/*
Deleting entries from secondary index should skip locking, but
be visible to the transaction.
(also note that DDL statements do not delete rows, so this is not a DDL
statement)
*/
old_key_slice = rocksdb::Slice(
reinterpret_cast<const char *>(m_sk_packed_tuple_old), old_packed_size);
row_info.tx->get_indexed_write_batch()->SingleDelete(kd.get_cf(),
old_key_slice);
bytes_written = old_key_slice.size();
}
new_key_slice = rocksdb::Slice(
reinterpret_cast<const char *>(m_sk_packed_tuple), new_packed_size);
new_value_slice =
rocksdb::Slice(reinterpret_cast<const char *>(m_sk_tails.ptr()),
m_sk_tails.get_current_pos());
if (bulk_load_sk && row_info.old_data == nullptr) {
rc = bulk_load_key(row_info.tx, kd, new_key_slice, new_value_slice, true);
} else {
row_info.tx->get_indexed_write_batch()->Put(kd.get_cf(), new_key_slice,
new_value_slice);
}
row_info.tx->update_bytes_written(bytes_written + new_key_slice.size() +
new_value_slice.size());
return rc;
}
/**
Update existing indexes(PK/SKs) or write new indexes(PK/SKs)
@param[in] row_info hold all row data, such as old key/new key
@param[in] pk_changed whether primary key is changed
@return
HA_EXIT_SUCCESS OK
Other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::update_write_indexes(const struct update_row_info &row_info,
const bool pk_changed) {
int rc;
bool bulk_load_sk;
// The PK must be updated first to pull out the TTL value.
rc = update_write_pk(*m_pk_descr, row_info, pk_changed);
if (rc != HA_EXIT_SUCCESS) {
return rc;
}
// Update the remaining indexes. Allow bulk loading only if
// allow_sk is enabled
bulk_load_sk = rocksdb_enable_bulk_load_api &&
THDVAR(table->in_use, bulk_load) &&
THDVAR(table->in_use, bulk_load_allow_sk);
for (uint key_id = 0; key_id < m_tbl_def->m_key_count; key_id++) {
if (is_pk(key_id, table, m_tbl_def)) {
continue;
}
rc = update_write_sk(table, *m_key_descr_arr[key_id], row_info,
bulk_load_sk);
if (rc != HA_EXIT_SUCCESS) {
return rc;
}
}
return HA_EXIT_SUCCESS;
}
/**
Update an existing row or write a new row
@param[in] old_data nullptr for write, non-null for update
@param[in] new_data non-null for write/update
@param[in] skip_unique_check whether to check uniqueness
@return
HA_EXIT_SUCCESS OK
Other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::update_write_row(const uchar *const old_data,
const uchar *const new_data,
const bool skip_unique_check) {
DBUG_ENTER_FUNC();
THD *thd = ha_thd();
if (thd && thd->killed) {
DBUG_RETURN(HA_ERR_QUERY_INTERRUPTED);
}
bool pk_changed = false;
struct update_row_info row_info;
row_info.old_data = old_data;
row_info.new_data = new_data;
row_info.skip_unique_check = skip_unique_check;
row_info.new_pk_unpack_info = nullptr;
set_last_rowkey(old_data);
row_info.tx = get_or_create_tx(table->in_use);
if (old_data != nullptr) {
row_info.old_pk_slice =
rocksdb::Slice(m_last_rowkey.ptr(), m_last_rowkey.length());
/* Determine which indexes need updating. */
calc_updated_indexes();
}
/*
Get the new row key into row_info.new_pk_slice
*/
int rc = get_pk_for_update(&row_info);
if (rc != HA_EXIT_SUCCESS) {
DBUG_RETURN(rc);
}
/*
For UPDATEs, if the key has changed, we need to obtain a lock. INSERTs
always require locking.
*/
if (row_info.old_pk_slice.size() > 0) {
pk_changed = row_info.new_pk_slice.compare(row_info.old_pk_slice) != 0;
}
if (!skip_unique_check) {
/*
Check to see if we are going to have failures because of unique
keys. Also lock the appropriate key values.
*/
rc = check_uniqueness_and_lock(row_info, pk_changed);
if (rc != HA_EXIT_SUCCESS) {
DBUG_RETURN(rc);
}
}
DEBUG_SYNC(ha_thd(), "rocksdb.update_write_row_after_unique_check");
/*
At this point, all locks have been obtained, and all checks for duplicate
keys have been performed. No further errors can be allowed to occur from
here because updates to the transaction will be made and those updates
cannot be easily removed without rolling back the entire transaction.
*/
rc = update_write_indexes(row_info, pk_changed);
if (rc != HA_EXIT_SUCCESS) {
DBUG_RETURN(rc);
}
if (old_data != nullptr) {
row_info.tx->incr_update_count();
} else {
row_info.tx->incr_insert_count();
}
row_info.tx->log_table_write_op(m_tbl_def);
if (do_bulk_commit(row_info.tx)) {
DBUG_RETURN(HA_ERR_ROCKSDB_BULK_LOAD);
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/*
Setting iterator upper/lower bounds for Seek/SeekForPrev.
This makes RocksDB to avoid scanning tombstones outside of
the given key ranges, when prefix_same_as_start=true was not passed
(when prefix bloom filter can not be used).
Inversing upper/lower bound is necessary on reverse order CF.
This covers HA_READ_PREFIX_LAST* case as well. For example,
if given query eq condition was 12 bytes and condition was
0x0000b3eb003f65c5e78858b8, and if doing HA_READ_PREFIX_LAST,
eq_cond_len was 11 (see calc_eq_cond_len() for details).
If the index was reverse order, upper bound would be
0x0000b3eb003f65c5e78857, and lower bound would be
0x0000b3eb003f65c5e78859. These cover given eq condition range.
@param lower_bound_buf IN Buffer for lower bound
@param upper_bound_buf IN Buffer for upper bound
@param outer_u
*/
void ha_rocksdb::setup_iterator_bounds(
const Rdb_key_def &kd, const rocksdb::Slice &eq_cond, size_t bound_len,
uchar *const lower_bound, uchar *const upper_bound,
rocksdb::Slice *lower_bound_slice, rocksdb::Slice *upper_bound_slice) {
// If eq_cond is shorter than Rdb_key_def::INDEX_NUMBER_SIZE, we should be
// able to get better bounds just by using index id directly.
if (eq_cond.size() <= Rdb_key_def::INDEX_NUMBER_SIZE) {
DBUG_ASSERT(bound_len == Rdb_key_def::INDEX_NUMBER_SIZE);
uint size;
kd.get_infimum_key(lower_bound, &size);
DBUG_ASSERT(size == Rdb_key_def::INDEX_NUMBER_SIZE);
kd.get_supremum_key(upper_bound, &size);
DBUG_ASSERT(size == Rdb_key_def::INDEX_NUMBER_SIZE);
} else {
DBUG_ASSERT(bound_len <= eq_cond.size());
memcpy(upper_bound, eq_cond.data(), bound_len);
kd.successor(upper_bound, bound_len);
memcpy(lower_bound, eq_cond.data(), bound_len);
kd.predecessor(lower_bound, bound_len);
}
if (kd.m_is_reverse_cf) {
*upper_bound_slice = rocksdb::Slice((const char *)lower_bound, bound_len);
*lower_bound_slice = rocksdb::Slice((const char *)upper_bound, bound_len);
} else {
*upper_bound_slice = rocksdb::Slice((const char *)upper_bound, bound_len);
*lower_bound_slice = rocksdb::Slice((const char *)lower_bound, bound_len);
}
}
/*
Open a cursor
*/
void ha_rocksdb::setup_scan_iterator(const Rdb_key_def &kd,
rocksdb::Slice *const slice,
const bool use_all_keys,
const uint eq_cond_len) {
DBUG_ASSERT(slice->size() >= eq_cond_len);
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
bool skip_bloom = true;
const rocksdb::Slice eq_cond(slice->data(), eq_cond_len);
// The size of m_scan_it_lower_bound (and upper) is technically
// max_packed_sk_len as calculated in ha_rocksdb::alloc_key_buffers. Rather
// than recalculating that number, we pass in the max of eq_cond_len and
// Rdb_key_def::INDEX_NUMBER_SIZE which is guaranteed to be smaller than
// max_packed_sk_len, hence ensuring no buffer overrun.
//
// See ha_rocksdb::setup_iterator_bounds on how the bound_len parameter is
// used.
if (check_bloom_and_set_bounds(
ha_thd(), kd, eq_cond, use_all_keys,
std::max(eq_cond_len, (uint)Rdb_key_def::INDEX_NUMBER_SIZE),
m_scan_it_lower_bound, m_scan_it_upper_bound,
&m_scan_it_lower_bound_slice, &m_scan_it_upper_bound_slice)) {
skip_bloom = false;
}
/*
In some cases, setup_scan_iterator() is called multiple times from
the same query but bloom filter can not always be used.
Suppose the following query example. id2 is VARCHAR(30) and PRIMARY KEY
(id1, id2).
select count(*) from t2 WHERE id1=100 and id2 IN ('00000000000000000000',
'100');
In this case, setup_scan_iterator() is called twice, the first time is for
(id1, id2)=(100, '00000000000000000000') and the second time is for (100,
'100').
If prefix bloom filter length is 24 bytes, prefix bloom filter can be used
for the
first condition but not for the second condition.
If bloom filter condition is changed, currently it is necessary to destroy
and
re-create Iterator.
*/
if (m_scan_it_skips_bloom != skip_bloom) {
release_scan_iterator();
}
/*
SQL layer can call rnd_init() multiple times in a row.
In that case, re-use the iterator, but re-position it at the table start.
*/
if (!m_scan_it) {
const bool fill_cache = !THDVAR(ha_thd(), skip_fill_cache);
if (commit_in_the_middle()) {
DBUG_ASSERT(m_scan_it_snapshot == nullptr);
m_scan_it_snapshot = rdb->GetSnapshot();
auto read_opts = rocksdb::ReadOptions();
// TODO(mung): set based on WHERE conditions
read_opts.total_order_seek = true;
read_opts.snapshot = m_scan_it_snapshot;
m_scan_it = rdb->NewIterator(read_opts, kd.get_cf());
} else {
m_scan_it = tx->get_iterator(kd.get_cf(), skip_bloom, fill_cache,
m_scan_it_lower_bound_slice,
m_scan_it_upper_bound_slice);
}
m_scan_it_skips_bloom = skip_bloom;
}
}
void ha_rocksdb::release_scan_iterator() {
delete m_scan_it;
m_scan_it = nullptr;
if (m_scan_it_snapshot) {
rdb->ReleaseSnapshot(m_scan_it_snapshot);
m_scan_it_snapshot = nullptr;
}
}
void ha_rocksdb::setup_iterator_for_rnd_scan() {
uint key_size;
int key_start_matching_bytes =
m_pk_descr->get_first_key(m_pk_packed_tuple, &key_size);
rocksdb::Slice table_key((const char *)m_pk_packed_tuple, key_size);
setup_scan_iterator(*m_pk_descr, &table_key, false, key_start_matching_bytes);
m_scan_it->Seek(table_key);
m_skip_scan_it_next_call = true;
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::rnd_init(bool scan) {
DBUG_ENTER_FUNC();
THD *thd = ha_thd();
if (thd && thd->killed) {
DBUG_RETURN(HA_ERR_QUERY_INTERRUPTED);
}
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
// when this table is being updated, decode all fields
m_converter->setup_field_decoders(table->read_set,
m_lock_rows == RDB_LOCK_WRITE);
if (scan) {
m_rnd_scan_is_new_snapshot = !tx->has_snapshot();
setup_iterator_for_rnd_scan();
} else {
/* We don't need any preparations for rnd_pos() calls. */
}
// If m_lock_rows is on then we will be doing a get_for_update when accessing
// the index, so don't acquire the snapshot right away. Otherwise acquire
// the snapshot immediately.
tx->acquire_snapshot(m_lock_rows == RDB_LOCK_NONE);
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::rnd_next(uchar *const buf) {
DBUG_ENTER_FUNC();
int rc;
for (;;) {
rc = rnd_next_with_direction(buf, true);
if (!should_recreate_snapshot(rc, m_rnd_scan_is_new_snapshot)) {
break; /* exit the loop */
}
// release the snapshot and iterator and then regenerate them
Rdb_transaction *tx = get_or_create_tx(table->in_use);
tx->release_snapshot();
release_scan_iterator();
setup_iterator_for_rnd_scan();
}
m_rnd_scan_is_new_snapshot = false;
if (rc == HA_ERR_KEY_NOT_FOUND) rc = HA_ERR_END_OF_FILE;
DBUG_RETURN(rc);
}
/*
See also secondary_index_read().
*/
int ha_rocksdb::rnd_next_with_direction(uchar *const buf, bool move_forward) {
DBUG_ENTER_FUNC();
int rc;
THD *thd = ha_thd();
table->status = STATUS_NOT_FOUND;
#ifdef MARIAROCKS_NOT_YET
stats.rows_requested++;
#endif
if (!m_scan_it || !is_valid(m_scan_it)) {
/*
We can get here when SQL layer has called
h->index_init(PRIMARY);
h->index_read_map(full index tuple, HA_READ_KEY_EXACT);
In this case, we should return EOF.
*/
DBUG_RETURN(HA_ERR_END_OF_FILE);
}
for (;;) {
DEBUG_SYNC(thd, "rocksdb.check_flags_rnwd");
if (thd && thd->killed) {
rc = HA_ERR_QUERY_INTERRUPTED;
break;
}
if (m_skip_scan_it_next_call) {
m_skip_scan_it_next_call = false;
} else {
if (move_forward) {
m_scan_it->Next(); /* this call cannot fail */
} else {
m_scan_it->Prev(); /* this call cannot fail */
}
}
if (!is_valid(m_scan_it)) {
rc = HA_ERR_END_OF_FILE;
break;
}
/* check if we're out of this table */
const rocksdb::Slice key = m_scan_it->key();
if (!m_pk_descr->covers_key(key)) {
rc = HA_ERR_END_OF_FILE;
break;
}
if (m_lock_rows != RDB_LOCK_NONE) {
/*
Lock the row we've just read.
Now we call get_for_update which will 1) Take a lock and 2) Will fail
if the row was deleted since the snapshot was taken.
*/
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
DEBUG_SYNC(ha_thd(), "rocksdb_concurrent_delete");
if (m_pk_descr->has_ttl() &&
should_hide_ttl_rec(*m_pk_descr, m_scan_it->value(),
tx->m_snapshot_timestamp)) {
continue;
}
const rocksdb::Status s =
get_for_update(tx, m_pk_descr->get_cf(), key, &m_retrieved_record);
if (s.IsNotFound() &&
should_skip_invalidated_record(HA_ERR_KEY_NOT_FOUND)) {
continue;
}
if (!s.ok()) {
DBUG_RETURN(tx->set_status_error(table->in_use, s, *m_pk_descr,
m_tbl_def, m_table_handler));
}
// If we called get_for_update() use the value from that call not from
// the iterator as it may be stale since we don't have a snapshot
// when m_lock_rows is not RDB_LOCK_NONE.
m_last_rowkey.copy(key.data(), key.size(), &my_charset_bin);
rc = convert_record_from_storage_format(&key, buf);
} else {
// Use the value from the iterator
rocksdb::Slice value = m_scan_it->value();
if (m_pk_descr->has_ttl() &&
should_hide_ttl_rec(
*m_pk_descr, value,
get_or_create_tx(table->in_use)->m_snapshot_timestamp)) {
continue;
}
m_last_rowkey.copy(key.data(), key.size(), &my_charset_bin);
rc = convert_record_from_storage_format(&key, &value, buf);
}
table->status = 0;
break;
}
if (!rc) {
#ifdef MARIAROCKS_NOT_YET
stats.rows_read++;
stats.rows_index_next++;
#endif
update_row_stats(ROWS_READ);
}
DBUG_RETURN(rc);
}
int ha_rocksdb::rnd_end() {
DBUG_ENTER_FUNC();
release_scan_iterator();
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::index_init(uint idx, bool sorted) {
DBUG_ENTER_FUNC();
THD *thd = ha_thd();
if (thd && thd->killed) {
DBUG_RETURN(HA_ERR_QUERY_INTERRUPTED);
}
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
DBUG_ASSERT(tx != nullptr);
m_start_range= NULL;
// when this table is being updated, decode all fields
m_converter->setup_field_decoders(table->read_set,
m_lock_rows == RDB_LOCK_WRITE);
if (!m_keyread_only) {
m_key_descr_arr[idx]->get_lookup_bitmap(table, &m_lookup_bitmap);
}
// If m_lock_rows is not RDB_LOCK_NONE then we will be doing a get_for_update
// when accessing the index, so don't acquire the snapshot right away.
// Otherwise acquire the snapshot immediately.
tx->acquire_snapshot(m_lock_rows == RDB_LOCK_NONE);
active_index = idx;
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/**
@return
HA_EXIT_SUCCESS OK
*/
int ha_rocksdb::index_end() {
DBUG_ENTER_FUNC();
release_scan_iterator();
my_bitmap_free(&m_lookup_bitmap);
active_index = MAX_KEY;
in_range_check_pushed_down = FALSE;
m_start_range= NULL;
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::truncate() {
DBUG_ENTER_FUNC();
DBUG_ASSERT(m_tbl_def != nullptr);
// Save table name to use later
std::string table_name = m_tbl_def->full_tablename();
// Delete current table
int err = delete_table(m_tbl_def);
if (err != HA_EXIT_SUCCESS) {
DBUG_RETURN(err);
}
// Reset auto_increment_value to 1 if auto-increment feature is enabled
// By default, the starting valid value for auto_increment_value is 1
DBUG_RETURN(create_table(
table_name, table,
table->found_next_number_field ? 1 : 0 /* auto_increment_value */));
}
/*
Delete the row we've last read. The row is also passed as parameter.
@detail
The caller guarantees table buf points to the row that was just read.
The row is either table->record[0] or table->record[1].
(Check out InnoDB: row_update_for_mysql() has "UT_NOT_USED(mysql_rec)"
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::delete_row(const uchar *const buf) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(buf != nullptr);
set_last_rowkey(buf);
rocksdb::Slice key_slice(m_last_rowkey.ptr(), m_last_rowkey.length());
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
ulonglong bytes_written = 0;
const uint index = pk_index(table, m_tbl_def);
rocksdb::Status s =
delete_or_singledelete(index, tx, m_pk_descr->get_cf(), key_slice);
if (!s.ok()) {
DBUG_RETURN(tx->set_status_error(table->in_use, s, *m_pk_descr, m_tbl_def,
m_table_handler));
} else {
bytes_written = key_slice.size();
}
longlong hidden_pk_id = 0;
if (m_tbl_def->m_key_count > 1 && has_hidden_pk(table)) {
int err = read_hidden_pk_id_from_rowkey(&hidden_pk_id);
if (err) {
DBUG_RETURN(err);
}
}
// Delete the record for every secondary index
for (uint i = 0; i < m_tbl_def->m_key_count; i++) {
if (!is_pk(i, table, m_tbl_def)) {
int packed_size;
const Rdb_key_def &kd = *m_key_descr_arr[i];
packed_size = kd.pack_record(table, m_pack_buffer, buf, m_sk_packed_tuple,
nullptr, false, hidden_pk_id);
rocksdb::Slice secondary_key_slice(
reinterpret_cast<const char *>(m_sk_packed_tuple), packed_size);
/* Deleting on secondary key doesn't need any locks: */
tx->get_indexed_write_batch()->SingleDelete(kd.get_cf(),
secondary_key_slice);
bytes_written += secondary_key_slice.size();
}
}
tx->incr_delete_count();
tx->log_table_write_op(m_tbl_def);
if (do_bulk_commit(tx)) {
DBUG_RETURN(HA_ERR_ROCKSDB_BULK_LOAD);
}
#ifdef MARIAROCKS_NOT_YET
stats.rows_deleted++;
#endif
update_row_stats(ROWS_DELETED);
tx->update_bytes_written(bytes_written);
DBUG_RETURN(HA_EXIT_SUCCESS);
}
rocksdb::Status ha_rocksdb::delete_or_singledelete(
uint index, Rdb_transaction *const tx,
rocksdb::ColumnFamilyHandle *const column_family,
const rocksdb::Slice &key) {
const bool assume_tracked = can_assume_tracked(ha_thd());
if (can_use_single_delete(index)) {
return tx->single_delete(column_family, key, assume_tracked);
}
return tx->delete_key(column_family, key, assume_tracked);
}
void ha_rocksdb::update_stats(void) {
DBUG_ENTER_FUNC();
stats.records = 0;
stats.index_file_length = 0ul;
stats.data_file_length = 0ul;
stats.mean_rec_length = 0;
for (uint i = 0; i < m_tbl_def->m_key_count; i++) {
if (is_pk(i, table, m_tbl_def)) {
stats.data_file_length = m_pk_descr->m_stats.m_actual_disk_size;
stats.records = m_pk_descr->m_stats.m_rows;
} else {
stats.index_file_length += m_key_descr_arr[i]->m_stats.m_actual_disk_size;
}
}
DBUG_VOID_RETURN;
}
/**
@return
HA_EXIT_SUCCESS OK
HA_EXIT_FAILURE Error
*/
int ha_rocksdb::info(uint flag) {
DBUG_ENTER_FUNC();
if (!table) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
if (flag & HA_STATUS_VARIABLE) {
/*
Test only to simulate corrupted stats
*/
DBUG_EXECUTE_IF("myrocks_simulate_negative_stats",
m_pk_descr->m_stats.m_actual_disk_size =
-m_pk_descr->m_stats.m_actual_disk_size;);
update_stats();
/*
If any stats are negative due to bad cached stats, re-run analyze table
and re-retrieve the stats.
*/
if (static_cast<longlong>(stats.data_file_length) < 0 ||
static_cast<longlong>(stats.index_file_length) < 0 ||
static_cast<longlong>(stats.records) < 0) {
if (calculate_stats_for_table()) {
DBUG_RETURN(HA_EXIT_FAILURE);
}
update_stats();
}
// if number of records is hardcoded, we do not want to force computation
// of memtable cardinalities
if (stats.records == 0 || (rocksdb_force_compute_memtable_stats &&
rocksdb_debug_optimizer_n_rows == 0)) {
// First, compute SST files stats
uchar buf[Rdb_key_def::INDEX_NUMBER_SIZE * 2];
auto r = get_range(pk_index(table, m_tbl_def), buf);
uint64_t sz = 0;
uint8_t include_flags = rocksdb::DB::INCLUDE_FILES;
// recompute SST files stats only if records count is 0
if (stats.records == 0) {
rdb->GetApproximateSizes(m_pk_descr->get_cf(), &r, 1, &sz,
include_flags);
stats.records += sz / ROCKSDB_ASSUMED_KEY_VALUE_DISK_SIZE;
stats.data_file_length += sz;
}
// Second, compute memtable stats. This call is expensive, so cache
// values computed for some time.
uint64_t cachetime = rocksdb_force_compute_memtable_stats_cachetime;
uint64_t time = (cachetime == 0) ? 0 : my_interval_timer() / 1000;
if (cachetime == 0 ||
time > m_table_handler->m_mtcache_last_update + cachetime) {
uint64_t memtableCount;
uint64_t memtableSize;
// the stats below are calculated from skiplist wich is a probablistic
// data structure, so the results vary between test runs
// it also can return 0 for quite a large tables which means that
// cardinality for memtable only indxes will be reported as 0
rdb->GetApproximateMemTableStats(m_pk_descr->get_cf(), r,
&memtableCount, &memtableSize);
// Atomically update all of these fields at the same time
if (cachetime > 0) {
if (m_table_handler->m_mtcache_lock.fetch_add(
1, std::memory_order_acquire) == 0) {
m_table_handler->m_mtcache_count = memtableCount;
m_table_handler->m_mtcache_size = memtableSize;
m_table_handler->m_mtcache_last_update = time;
}
m_table_handler->m_mtcache_lock.fetch_sub(1,
std::memory_order_release);
}
stats.records += memtableCount;
stats.data_file_length += memtableSize;
} else {
// Cached data is still valid, so use it instead
stats.records += m_table_handler->m_mtcache_count;
stats.data_file_length += m_table_handler->m_mtcache_size;
}
// Do like InnoDB does. stats.records=0 confuses the optimizer
if (stats.records == 0 && !(flag & (HA_STATUS_TIME | HA_STATUS_OPEN))) {
stats.records++;
}
}
if (rocksdb_debug_optimizer_n_rows > 0)
stats.records = rocksdb_debug_optimizer_n_rows;
if (stats.records != 0) {
stats.mean_rec_length = stats.data_file_length / stats.records;
}
}
if (flag & HA_STATUS_CONST) {
ref_length = m_pk_descr->max_storage_fmt_length();
for (uint i = 0; i < m_tbl_def->m_key_count; i++) {
if (is_hidden_pk(i, table, m_tbl_def)) {
continue;
}
KEY *const k = &table->key_info[i];
for (uint j = 0; j < k->ext_key_parts; j++) {
const Rdb_index_stats &k_stats = m_key_descr_arr[i]->m_stats;
uint x;
if (k_stats.m_distinct_keys_per_prefix.size() > j &&
k_stats.m_distinct_keys_per_prefix[j] > 0) {
x = k_stats.m_rows / k_stats.m_distinct_keys_per_prefix[j];
/*
If the number of rows is less than the number of prefixes (due to
sampling), the average number of rows with the same prefix is 1.
*/
if (x == 0) {
x = 1;
}
} else {
x = 0;
}
if (x > stats.records) x = stats.records;
if ((x == 0 && rocksdb_debug_optimizer_no_zero_cardinality) ||
rocksdb_debug_optimizer_n_rows > 0) {
// Fake cardinality implementation. For example, (idx1, idx2, idx3)
// index
/*
Make MariaRocks behave the same way as MyRocks does:
1. SQL layer thinks that unique secondary indexes are not extended
with PK columns (both in MySQL and MariaDB)
2. MariaDB also thinks that indexes with partially-covered columns
are not extended with PK columns. Use the same number of
keyparts that MyRocks would use.
*/
uint ext_key_parts2;
if (k->flags & HA_NOSAME)
ext_key_parts2= k->ext_key_parts; // This is #1
else
ext_key_parts2= m_key_descr_arr[i]->get_key_parts(); // This is #2.
// will have rec_per_key for (idx1)=4, (idx1,2)=2, and (idx1,2,3)=1.
// rec_per_key for the whole index is 1, and multiplied by 2^n if
// n suffix columns of the index are not used.
x = 1 << (ext_key_parts2 - j - 1);
}
k->rec_per_key[j] = x;
}
}
stats.create_time = m_tbl_def->get_create_time();
}
if (flag & HA_STATUS_TIME) {
stats.update_time = m_tbl_def->m_update_time;
}
if (flag & HA_STATUS_ERRKEY) {
/*
Currently we support only primary keys so we know which key had a
uniqueness violation.
*/
errkey = m_dupp_errkey;
dup_ref = m_pk_tuple; // TODO(?): this should store packed PK.
}
if (flag & HA_STATUS_AUTO) {
stats.auto_increment_value = m_tbl_def->m_auto_incr_val;
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
void ha_rocksdb::position(const uchar *const record) {
DBUG_ENTER_FUNC();
longlong hidden_pk_id = 0;
if (has_hidden_pk(table) && read_hidden_pk_id_from_rowkey(&hidden_pk_id)) {
DBUG_ASSERT(false); // should never reach here
}
/*
Get packed primary key value from the record.
(Note: m_last_rowkey has the packed PK of last-read-row, which allows to
handle most cases, but there is an exception to this: when slave applies
RBR events, it fills the record and then calls position(); rnd_pos())
Also note that we *can* rely on PK column values being available. This is
because table_flags() includes HA_PRIMARY_KEY_REQUIRED_FOR_POSITION bit.
When that is true, table->prepare_for_position() adds PK columns into the
read set (this may potentially disable index-only access when PK column
cannot be restored from its mem-comparable form in the secondary indexes).
*/
const uint packed_size = m_pk_descr->pack_record(
table, m_pack_buffer, record, ref, nullptr, false, hidden_pk_id);
/*
It could be that mem-comparable form of PK occupies less than ref_length
bytes. Fill the remainder with zeros.
*/
if (ref_length > packed_size) {
memset(ref + packed_size, 0, ref_length - packed_size);
}
DBUG_VOID_RETURN;
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::rnd_pos(uchar *const buf, uchar *const pos) {
DBUG_ENTER_FUNC();
int rc;
size_t len;
#ifdef MARIAROCKS_NOT_YET
stats.rows_requested++;
#endif
len = m_pk_descr->key_length(table,
rocksdb::Slice((const char *)pos, ref_length));
if (len == size_t(-1)) {
DBUG_RETURN(HA_ERR_ROCKSDB_CORRUPT_DATA); /* Data corruption? */
}
rc = get_row_by_rowid(buf, pos, len);
if (!rc) {
#ifdef MARIAROCKS_NOT_YET
stats.rows_read++;
#endif
update_row_stats(ROWS_READ);
}
DBUG_RETURN(rc);
}
/*
@brief
Calculate (if needed) the bitmap of indexes that are modified by the
current query
@detail
The calculation done by checking index definitions against the
table->write_set
column bitmap.
*/
void ha_rocksdb::calc_updated_indexes() {
if (!m_update_scope_is_valid) {
m_update_scope_is_valid = true;
m_update_scope.clear_all();
for (uint keynr = 0; keynr < table->s->keys; keynr++) {
const Rdb_key_def &kd = *m_key_descr_arr[keynr];
/* Walk over all key parts, including the "extended key" suffix */
const uint key_parts = kd.get_key_parts();
for (uint kp = 0; kp < key_parts; kp++) {
if (has_hidden_pk(table) && kp + 1 == key_parts) break;
Field *const field = kd.get_table_field_for_part_no(table, kp);
if (bitmap_is_set(table->write_set, field->field_index)) {
m_update_scope.set_bit(keynr);
break;
}
}
}
}
}
/**
Update an existing row
@param[in] old_data nullptr for write, non-null for update
@param[in] new_data non-null for write/update
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::update_row(const uchar *const old_data,
const uchar *const new_data) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(old_data != nullptr);
DBUG_ASSERT(new_data != nullptr);
DBUG_ASSERT(m_lock_rows == RDB_LOCK_WRITE);
/*
old_data points to record we're updating. It is the same as the record
we've just read (for multi-table UPDATE, too, because SQL layer will make
an rnd_pos() call to re-read the record before calling update_row())
*/
DBUG_ASSERT(new_data == table->record[0]);
const int rv = update_write_row(old_data, new_data, skip_unique_check());
if (rv == 0) {
#ifdef MARIAROCKS_NOT_YET
stats.rows_updated++;
#endif
update_row_stats(ROWS_UPDATED);
}
DBUG_RETURN(rv);
}
/*
MariaDB's temporary: MyRocks has this function in sql/handler.cc:
*/
bool can_hold_read_locks_on_select(THD *thd, thr_lock_type lock_type)
{
return (lock_type == TL_READ_WITH_SHARED_LOCKS
|| lock_type == TL_READ_NO_INSERT
|| (lock_type != TL_IGNORE
&& thd->lex->sql_command != SQLCOM_SELECT));
}
/* The following function was copied from ha_blackhole::store_lock: */
THR_LOCK_DATA **ha_rocksdb::store_lock(THD *const thd, THR_LOCK_DATA **to,
enum thr_lock_type lock_type) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(to != nullptr);
bool in_lock_tables = my_core::thd_in_lock_tables(thd);
/* First, make a decision about MyRocks's internal locking */
if (lock_type >= TL_WRITE_ALLOW_WRITE) {
m_lock_rows = RDB_LOCK_WRITE;
} else if (lock_type == TL_READ_WITH_SHARED_LOCKS) {
m_lock_rows = RDB_LOCK_READ;
} else if (lock_type != TL_IGNORE) {
m_lock_rows = RDB_LOCK_NONE;
if (THDVAR(thd, lock_scanned_rows)) {
/*
The following logic was copied directly from
ha_innobase::store_lock_with_x_type() in
storage/innobase/handler/ha_innodb.cc and causes MyRocks to leave
locks in place on rows that are in a table that is not being updated.
*/
const uint sql_command = my_core::thd_sql_command(thd);
if ((lock_type == TL_READ && in_lock_tables) ||
(lock_type == TL_READ_HIGH_PRIORITY && in_lock_tables) ||
can_hold_read_locks_on_select(thd, lock_type)) {
ulong tx_isolation = my_core::thd_tx_isolation(thd);
if (sql_command != SQLCOM_CHECKSUM &&
((my_core::thd_test_options(thd, OPTION_BIN_LOG) &&
tx_isolation > ISO_READ_COMMITTED) ||
tx_isolation == ISO_SERIALIZABLE ||
(lock_type != TL_READ && lock_type != TL_READ_NO_INSERT) ||
(sql_command != SQLCOM_INSERT_SELECT &&
sql_command != SQLCOM_REPLACE_SELECT &&
sql_command != SQLCOM_UPDATE && sql_command != SQLCOM_DELETE &&
sql_command != SQLCOM_CREATE_TABLE))) {
m_lock_rows = RDB_LOCK_READ;
}
}
}
}
/* Then, tell the SQL layer what kind of locking it should use: */
if (lock_type != TL_IGNORE && m_db_lock.type == TL_UNLOCK) {
/*
Here is where we get into the guts of a row level lock.
If TL_UNLOCK is set
If we are not doing a LOCK TABLE or DISCARD/IMPORT
TABLESPACE, then allow multiple writers
*/
if ((lock_type >= TL_WRITE_CONCURRENT_INSERT && lock_type <= TL_WRITE) &&
!in_lock_tables && !my_core::thd_tablespace_op(thd)) {
lock_type = TL_WRITE_ALLOW_WRITE;
}
/*
In queries of type INSERT INTO t1 SELECT ... FROM t2 ...
MySQL would use the lock TL_READ_NO_INSERT on t2, and that
would conflict with TL_WRITE_ALLOW_WRITE, blocking all inserts
to t2. Convert the lock to a normal read lock to allow
concurrent inserts to t2.
*/
if (lock_type == TL_READ_NO_INSERT && !in_lock_tables) {
lock_type = TL_READ;
}
m_db_lock.type = lock_type;
}
*to++ = &m_db_lock;
DBUG_RETURN(to);
}
void ha_rocksdb::read_thd_vars(THD *const thd) {
m_store_row_debug_checksums = THDVAR(thd, store_row_debug_checksums);
m_converter->set_verify_row_debug_checksums(
THDVAR(thd, verify_row_debug_checksums));
m_checksums_pct = THDVAR(thd, checksums_pct);
}
ulonglong ha_rocksdb::table_flags() const
{
DBUG_ENTER_FUNC();
/*
HA_BINLOG_STMT_CAPABLE
Upstream: MyRocks advertises itself as it supports SBR, but has additional
checks in ha_rocksdb::external_lock()/ start_stmt() which will return an
error if one tries to run the statement.
Exceptions: @@rocksdb_unsafe_for_binlog or we are an SQL slave thread.
MariaDB: Inform the upper layer we don't support SBR, so it switches to RBR
if possible. The exceptions are the same as with the upstream.
HA_REC_NOT_IN_SEQ
If we don't set it, filesort crashes, because it assumes rowids are
1..8 byte numbers
HA_PRIMARY_KEY_IN_READ_INDEX
This flag is always set, even for tables that:
- have no PK
- have some (or all) of PK that can't be decoded from the secondary
index.
HA_REUSES_FILE_NAMES
- Ensures that there is a .frm file when table is dropped or renamed.
*/
THD *thd= ha_thd();
DBUG_RETURN(HA_BINLOG_ROW_CAPABLE |
((thd && (THDVAR(thd, unsafe_for_binlog) ||thd->rgi_slave))?
HA_BINLOG_STMT_CAPABLE : 0) |
HA_REC_NOT_IN_SEQ | HA_CAN_INDEX_BLOBS |
HA_PRIMARY_KEY_IN_READ_INDEX |
HA_PRIMARY_KEY_REQUIRED_FOR_POSITION | HA_NULL_IN_KEY |
HA_PARTIAL_COLUMN_READ | HA_REUSES_FILE_NAMES |
HA_TABLE_SCAN_ON_INDEX);
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (cannot be SE-specific)
*/
int ha_rocksdb::external_lock(THD *const thd, int lock_type) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
int res = HA_EXIT_SUCCESS;
#if 0
// MariaDB uses a different way to implement this, see ha_rocksdb::table_flags
int binlog_format = my_core::thd_binlog_format(thd);
bool unsafe_for_binlog = THDVAR(ha_thd(), unsafe_for_binlog);
/*
A note about (*) below: In fb/mysql, LOCK TABLE myrocks_table WRITE
- produces an error when @@binlog_format='ROW'.
- does not produce an error with @@binlog_format='STATEMENT'
We cannot easily provide this behavior in MariaDB, because LOCK ROWS
changes @@binlog_format for the duration of the statement.
Instead we will make the check in ha_rocksdb::start_stmt and will produce
an error in the first DML statement done under LOCK TABLE
(**) - The same happens for other "DDL-type" commands, so allow them here
as well.
*/
if (lock_type == F_WRLCK && !thd->rgi_slave && !unsafe_for_binlog &&
binlog_format != BINLOG_FORMAT_ROW &&
binlog_format != BINLOG_FORMAT_UNSPEC &&
thd->lex->sql_command != SQLCOM_LOCK_TABLES && // (*)
thd->lex->sql_command != SQLCOM_ANALYZE && // (**)
thd->lex->sql_command != SQLCOM_OPTIMIZE && // (**)
thd->lex->sql_command != SQLCOM_FLUSH && // (**)
my_core::thd_binlog_filter_ok(thd)) {
my_error(ER_REQUIRE_ROW_BINLOG_FORMAT, MYF(0));
DBUG_RETURN(HA_ERR_UNSUPPORTED);
}
#endif
if (lock_type == F_UNLCK) {
Rdb_transaction *const tx = get_tx_from_thd(thd);
if (tx) {
tx->io_perf_end_and_record(&m_io_perf);
tx->m_n_mysql_tables_in_use--;
if (tx->m_n_mysql_tables_in_use == 0 &&
!my_core::thd_test_options(thd,
OPTION_NOT_AUTOCOMMIT | OPTION_BEGIN)) {
/*
Do like InnoDB: when we get here, it's time to commit a
single-statement transaction.
If the statement involved multiple tables, this code will be executed
for each of them, but that's ok because non-first tx->commit() calls
will be no-ops.
*/
if (tx->commit_or_rollback()) {
res = HA_ERR_INTERNAL_ERROR;
}
}
}
} else {
if (my_core::thd_tx_isolation(thd) < ISO_READ_COMMITTED ||
my_core::thd_tx_isolation(thd) > ISO_REPEATABLE_READ) {
my_error(ER_ISOLATION_MODE_NOT_SUPPORTED, MYF(0),
tx_isolation_names[my_core::thd_tx_isolation(thd)]);
DBUG_RETURN(HA_ERR_UNSUPPORTED);
}
/*
It's nice to do the following on start of every statement. The problem
is, handler->start_stmt() is not called for INSERTs.
So, we put this code here.
*/
Rdb_transaction *const tx = get_or_create_tx(thd);
read_thd_vars(thd);
m_update_scope_is_valid = false;
if (skip_unique_check()) {
if ((thd->lex->sql_command == SQLCOM_INSERT ||
thd->lex->sql_command == SQLCOM_LOAD ||
thd->lex->sql_command == SQLCOM_REPLACE) &&
(thd->lex->duplicates == DUP_REPLACE ||
thd->lex->duplicates == DUP_UPDATE)) {
my_error(ER_ON_DUPLICATE_DISABLED, MYF(0), thd->query());
DBUG_RETURN(HA_ERR_UNSUPPORTED);
}
}
if (lock_type == F_WRLCK) {
if (tx->is_tx_read_only()) {
my_error(ER_UPDATES_WITH_CONSISTENT_SNAPSHOT, MYF(0));
DBUG_RETURN(HA_ERR_UNSUPPORTED);
}
#ifdef MARIADB_NOT_YET
if (thd->get_explicit_snapshot()) {
my_error(ER_UPDATES_WITH_EXPLICIT_SNAPSHOT, MYF(0));
DBUG_RETURN(HA_ERR_UNSUPPORTED);
}
#endif
/*
SQL layer signals us to take a write lock. It does so when starting DML
statement. We should put locks on the rows we're reading.
Note: sometimes, external_lock() can be called without a prior
::store_lock call. That's why we need to set lock_* members here, too.
*/
m_lock_rows = RDB_LOCK_WRITE;
if (thd->lex->sql_command == SQLCOM_CREATE_INDEX ||
thd->lex->sql_command == SQLCOM_DROP_INDEX ||
thd->lex->sql_command == SQLCOM_ALTER_TABLE) {
tx->m_ddl_transaction = true;
}
}
tx->m_n_mysql_tables_in_use++;
rocksdb_register_tx(rocksdb_hton, thd, tx);
tx->io_perf_start(&m_io_perf);
}
DBUG_RETURN(res);
}
/**
@note
A quote from ha_innobase::start_stmt():
<quote>
MySQL calls this function at the start of each SQL statement inside LOCK
TABLES. Inside LOCK TABLES the ::external_lock method does not work to
mark SQL statement borders.
</quote>
@return
HA_EXIT_SUCCESS OK
*/
int ha_rocksdb::start_stmt(THD *const thd, thr_lock_type lock_type) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
Rdb_transaction *const tx = get_or_create_tx(thd);
read_thd_vars(thd);
rocksdb_register_tx(ht, thd, tx);
tx->io_perf_start(&m_io_perf);
DBUG_RETURN(HA_EXIT_SUCCESS);
}
rocksdb::Range get_range(uint32_t i,
uchar buf[Rdb_key_def::INDEX_NUMBER_SIZE * 2],
int offset1, int offset2) {
uchar *buf_begin = buf;
uchar *buf_end = buf + Rdb_key_def::INDEX_NUMBER_SIZE;
rdb_netbuf_store_index(buf_begin, i + offset1);
rdb_netbuf_store_index(buf_end, i + offset2);
return rocksdb::Range(
rocksdb::Slice((const char *)buf_begin, Rdb_key_def::INDEX_NUMBER_SIZE),
rocksdb::Slice((const char *)buf_end, Rdb_key_def::INDEX_NUMBER_SIZE));
}
static rocksdb::Range get_range(const Rdb_key_def &kd,
uchar buf[Rdb_key_def::INDEX_NUMBER_SIZE * 2],
int offset1, int offset2) {
return get_range(kd.get_index_number(), buf, offset1, offset2);
}
rocksdb::Range get_range(const Rdb_key_def &kd,
uchar buf[Rdb_key_def::INDEX_NUMBER_SIZE * 2]) {
if (kd.m_is_reverse_cf) {
return myrocks::get_range(kd, buf, 1, 0);
} else {
return myrocks::get_range(kd, buf, 0, 1);
}
}
rocksdb::Range ha_rocksdb::get_range(
const int i, uchar buf[Rdb_key_def::INDEX_NUMBER_SIZE * 2]) const {
return myrocks::get_range(*m_key_descr_arr[i], buf);
}
/*
This function is called with total_order_seek=true, but
upper/lower bound setting is not necessary.
Boundary set is useful when there is no matching key,
but in drop_index_thread's case, it means index is marked as removed,
so no further seek will happen for the index id.
*/
static bool is_myrocks_index_empty(rocksdb::ColumnFamilyHandle *cfh,
const bool is_reverse_cf,
const rocksdb::ReadOptions &read_opts,
const uint index_id) {
bool index_removed = false;
uchar key_buf[Rdb_key_def::INDEX_NUMBER_SIZE] = {0};
rdb_netbuf_store_uint32(key_buf, index_id);
const rocksdb::Slice key =
rocksdb::Slice(reinterpret_cast<char *>(key_buf), sizeof(key_buf));
std::unique_ptr<rocksdb::Iterator> it(rdb->NewIterator(read_opts, cfh));
rocksdb_smart_seek(is_reverse_cf, it.get(), key);
if (!it->Valid()) {
index_removed = true;
} else {
if (memcmp(it->key().data(), key_buf, Rdb_key_def::INDEX_NUMBER_SIZE)) {
// Key does not have same prefix
index_removed = true;
}
}
return index_removed;
}
/*
Drop index thread's main logic
*/
void Rdb_drop_index_thread::run() {
RDB_MUTEX_LOCK_CHECK(m_signal_mutex);
for (;;) {
// The stop flag might be set by shutdown command
// after drop_index_thread releases signal_mutex
// (i.e. while executing expensive Seek()). To prevent drop_index_thread
// from entering long cond_timedwait, checking if stop flag
// is true or not is needed, with drop_index_interrupt_mutex held.
if (m_stop) {
break;
}
timespec ts;
int sec= dict_manager.is_drop_index_empty()
? 24 * 60 * 60 // no filtering
: 60; // filtering
set_timespec(ts,sec);
const auto ret MY_ATTRIBUTE((__unused__)) =
mysql_cond_timedwait(&m_signal_cond, &m_signal_mutex, &ts);
if (m_stop) {
break;
}
// make sure, no program error is returned
DBUG_ASSERT(ret == 0 || ret == ETIMEDOUT);
RDB_MUTEX_UNLOCK_CHECK(m_signal_mutex);
std::unordered_set<GL_INDEX_ID> indices;
dict_manager.get_ongoing_drop_indexes(&indices);
if (!indices.empty()) {
std::unordered_set<GL_INDEX_ID> finished;
rocksdb::ReadOptions read_opts;
read_opts.total_order_seek = true; // disable bloom filter
for (const auto d : indices) {
uint32 cf_flags = 0;
if (!dict_manager.get_cf_flags(d.cf_id, &cf_flags)) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: Failed to get column family flags "
"from cf id %u. MyRocks data dictionary may "
"get corrupted.",
d.cf_id);
if (rocksdb_ignore_datadic_errors)
{
sql_print_error("RocksDB: rocksdb_ignore_datadic_errors=1, "
"trying to continue");
continue;
}
abort();
}
rocksdb::ColumnFamilyHandle *cfh = cf_manager.get_cf(d.cf_id);
DBUG_ASSERT(cfh);
const bool is_reverse_cf = cf_flags & Rdb_key_def::REVERSE_CF_FLAG;
uchar buf[Rdb_key_def::INDEX_NUMBER_SIZE * 2];
rocksdb::Range range = get_range(d.index_id, buf, is_reverse_cf ? 1 : 0,
is_reverse_cf ? 0 : 1);
rocksdb::Status status = DeleteFilesInRange(rdb->GetBaseDB(), cfh,
&range.start, &range.limit);
if (!status.ok()) {
if (status.IsShutdownInProgress()) {
break;
}
rdb_handle_io_error(status, RDB_IO_ERROR_BG_THREAD);
}
status = rdb->CompactRange(getCompactRangeOptions(), cfh, &range.start,
&range.limit);
if (!status.ok()) {
if (status.IsShutdownInProgress()) {
break;
}
rdb_handle_io_error(status, RDB_IO_ERROR_BG_THREAD);
}
if (is_myrocks_index_empty(cfh, is_reverse_cf, read_opts, d.index_id)) {
finished.insert(d);
}
}
if (!finished.empty()) {
dict_manager.finish_drop_indexes(finished);
}
}
RDB_MUTEX_LOCK_CHECK(m_signal_mutex);
}
RDB_MUTEX_UNLOCK_CHECK(m_signal_mutex);
}
Rdb_tbl_def *ha_rocksdb::get_table_if_exists(const char *const tablename) {
std::string str;
if (rdb_normalize_tablename(tablename, &str) != HA_EXIT_SUCCESS) {
// We were not passed table name?
DBUG_ASSERT(0);
return nullptr;
}
return ddl_manager.find(str);
}
/*
Overload func for delete table ---it deletes table meta data in data
dictionary immediately and delete real data in background thread(async)
@param tbl IN MyRocks table definition
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::delete_table(Rdb_tbl_def *const tbl) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(tbl != nullptr);
DBUG_ASSERT(m_tbl_def == nullptr || m_tbl_def == tbl);
const std::unique_ptr<rocksdb::WriteBatch> wb = dict_manager.begin();
rocksdb::WriteBatch *const batch = wb.get();
dict_manager.add_drop_table(tbl->m_key_descr_arr, tbl->m_key_count, batch);
std::string path = std::string("./") + tbl->base_dbname() +
"/" + tbl->base_tablename();
/*
Remove the table entry in data dictionary (this will also remove it from
the persistent data dictionary).
*/
ddl_manager.remove(tbl, batch, true);
delete_table_version(batch, path.c_str());
int err = dict_manager.commit(batch);
if (err) {
DBUG_RETURN(err);
}
rdb_drop_idx_thread.signal();
// avoid dangling pointer
m_tbl_def = nullptr;
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/*
Note: the following function is called when the table is not open. That is,
this->table==nullptr, pk_key_descr==nullptr, etc.
tablename points to line in form "./dbname/tablename".
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (can be SE-specific)
*/
int ha_rocksdb::delete_table(const char *const tablename) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(tablename != nullptr);
/* Find the table in the hash */
Rdb_tbl_def *const tbl = get_table_if_exists(tablename);
if (!tbl) {
DBUG_RETURN(HA_ERR_NO_SUCH_TABLE);
}
DBUG_RETURN(delete_table(tbl));
}
int ha_rocksdb::remove_rows(Rdb_tbl_def *const tbl) {
const rocksdb::WriteOptions wo =
rdb_get_rocksdb_write_options(handler::ha_thd());
rocksdb::ReadOptions opts;
opts.total_order_seek = true;
Rdb_transaction *const tx = get_or_create_tx(table->in_use);
char key_buf[MAX_KEY_LENGTH];
uint key_len;
ulonglong bytes_written = 0;
uchar lower_bound_buf[Rdb_key_def::INDEX_NUMBER_SIZE];
uchar upper_bound_buf[Rdb_key_def::INDEX_NUMBER_SIZE];
rocksdb::Slice lower_bound_slice;
rocksdb::Slice upper_bound_slice;
/*
Remove all records in each index.
(This is is not crash-safe, but it doesn't matter, because bulk row
deletion will be handled on rocksdb side)
*/
for (uint i = 0; i < tbl->m_key_count; i++) {
const Rdb_key_def &kd = *tbl->m_key_descr_arr[i];
kd.get_infimum_key(reinterpret_cast<uchar *>(key_buf), &key_len);
rocksdb::ColumnFamilyHandle *cf = kd.get_cf();
const rocksdb::Slice table_key(key_buf, key_len);
setup_iterator_bounds(kd, table_key, Rdb_key_def::INDEX_NUMBER_SIZE,
lower_bound_buf, upper_bound_buf, &lower_bound_slice,
&upper_bound_slice);
DBUG_ASSERT(key_len == Rdb_key_def::INDEX_NUMBER_SIZE);
opts.iterate_lower_bound = &lower_bound_slice;
opts.iterate_upper_bound = &upper_bound_slice;
std::unique_ptr<rocksdb::Iterator> it(rdb->NewIterator(opts, cf));
it->Seek(table_key);
while (it->Valid()) {
const rocksdb::Slice key = it->key();
if (!kd.covers_key(key)) {
break;
}
rocksdb::Status s;
if (can_use_single_delete(i)) {
s = rdb->SingleDelete(wo, cf, key);
} else {
s = rdb->Delete(wo, cf, key);
}
if (!s.ok()) {
return tx->set_status_error(table->in_use, s, *m_pk_descr, m_tbl_def,
m_table_handler);
}
bytes_written += key.size();
it->Next();
}
}
tx->update_bytes_written(bytes_written);
return HA_EXIT_SUCCESS;
}
/**
@return
HA_EXIT_SUCCESS OK
other HA_ERR error code (cannot be SE-specific)
*/
int ha_rocksdb::rename_table(const char *const from, const char *const to) {
DBUG_ENTER_FUNC();
std::string from_str;
std::string to_str;
std::string from_db;
std::string to_db;
int rc = rdb_normalize_tablename(from, &from_str);
if (rc != HA_EXIT_SUCCESS) {
DBUG_RETURN(rc);
}
rc = rdb_split_normalized_tablename(from_str, &from_db);
if (rc != HA_EXIT_SUCCESS) {
DBUG_RETURN(rc);
}
rc = rdb_normalize_tablename(to, &to_str);
if (rc != HA_EXIT_SUCCESS) {
DBUG_RETURN(rc);
}
rc = rdb_split_normalized_tablename(to_str, &to_db);
if (rc != HA_EXIT_SUCCESS) {
DBUG_RETURN(rc);
}
// If the user changed the database part of the name then validate that the
// 'to' database exists.
if (from_db != to_db && !rdb_database_exists(to_db)) {
// If we return a RocksDB specific error code here we get
// "error: 206 - Unknown error 206". InnoDB gets
// "error -1 - Unknown error -1" so let's match them.
DBUG_RETURN(-1);
}
DBUG_EXECUTE_IF("gen_sql_table_name", to_str = to_str + "#sql-test";);
const std::unique_ptr<rocksdb::WriteBatch> wb = dict_manager.begin();
rocksdb::WriteBatch *const batch = wb.get();
dict_manager.lock();
if (ddl_manager.rename(from_str, to_str, batch)) {
rc = HA_ERR_NO_SUCH_TABLE;
} else {
rc = dict_manager.commit(batch);
}
dict_manager.unlock();
DBUG_RETURN(rc);
}
/**
check_if_incompatible_data() called if ALTER TABLE can't detect otherwise
if new and old definition are compatible
@details If there are no other explicit signs like changed number of
fields this function will be called by compare_tables()
(sql/sql_tables.cc) to decide should we rewrite whole table or only .frm
file.
*/
bool ha_rocksdb::check_if_incompatible_data(HA_CREATE_INFO *const info,
uint table_changes) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(info != nullptr);
// this function is needed only for online alter-table
DBUG_RETURN(COMPATIBLE_DATA_NO);
}
/**
@return
HA_EXIT_SUCCESS OK
*/
int ha_rocksdb::extra(enum ha_extra_function operation) {
DBUG_ENTER_FUNC();
switch (operation) {
case HA_EXTRA_KEYREAD:
m_keyread_only = true;
break;
case HA_EXTRA_NO_KEYREAD:
m_keyread_only = false;
break;
case HA_EXTRA_FLUSH:
/*
If the table has blobs, then they are part of m_retrieved_record.
This call invalidates them.
*/
m_retrieved_record.Reset();
break;
case HA_EXTRA_INSERT_WITH_UPDATE:
// INSERT ON DUPLICATE KEY UPDATE
if (rocksdb_enable_insert_with_update_caching) {
m_insert_with_update = true;
}
break;
case HA_EXTRA_NO_IGNORE_DUP_KEY:
// PAIRED with HA_EXTRA_INSERT_WITH_UPDATE or HA_EXTRA_WRITE_CAN_REPLACE
// that indicates the end of REPLACE / INSERT ON DUPLICATE KEY
m_insert_with_update = false;
break;
default:
break;
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/*
Given a starting key and an ending key, estimate the number of rows that
will exist between the two keys.
*/
ha_rows ha_rocksdb::records_in_range(uint inx, const key_range *const min_key,
const key_range *const max_key,
page_range *pages) {
DBUG_ENTER_FUNC();
ha_rows ret = THDVAR(ha_thd(), records_in_range);
if (ret) {
DBUG_RETURN(ret);
}
if (table->force_index) {
const ha_rows force_rows = THDVAR(ha_thd(), force_index_records_in_range);
if (force_rows) {
DBUG_RETURN(force_rows);
}
}
const Rdb_key_def &kd = *m_key_descr_arr[inx];
uint size1 = 0;
if (min_key) {
size1 = kd.pack_index_tuple(table, m_pack_buffer, m_sk_packed_tuple,
m_record_buffer,
min_key->key, min_key->keypart_map);
if (min_key->flag == HA_READ_PREFIX_LAST_OR_PREV ||
min_key->flag == HA_READ_PREFIX_LAST ||
min_key->flag == HA_READ_AFTER_KEY) {
kd.successor(m_sk_packed_tuple, size1);
}
} else {
kd.get_infimum_key(m_sk_packed_tuple, &size1);
}
uint size2 = 0;
if (max_key) {
size2 = kd.pack_index_tuple(table, m_pack_buffer, m_sk_packed_tuple_old,
m_record_buffer,
max_key->key, max_key->keypart_map);
if (max_key->flag == HA_READ_PREFIX_LAST_OR_PREV ||
max_key->flag == HA_READ_PREFIX_LAST ||
max_key->flag == HA_READ_AFTER_KEY) {
kd.successor(m_sk_packed_tuple_old, size2);
}
// pad the upper key with FFFFs to make sure it is more than the lower
if (size1 > size2) {
memset(m_sk_packed_tuple_old + size2, 0xff, size1 - size2);
size2 = size1;
}
} else {
kd.get_supremum_key(m_sk_packed_tuple_old, &size2);
}
const rocksdb::Slice slice1((const char *)m_sk_packed_tuple, size1);
const rocksdb::Slice slice2((const char *)m_sk_packed_tuple_old, size2);
// slice1 >= slice2 means no row will match
if (slice1.compare(slice2) >= 0) {
DBUG_RETURN(HA_EXIT_SUCCESS);
}
rocksdb::Range r(kd.m_is_reverse_cf ? slice2 : slice1,
kd.m_is_reverse_cf ? slice1 : slice2);
uint64_t sz = 0;
auto disk_size = kd.m_stats.m_actual_disk_size;
if (disk_size == 0) disk_size = kd.m_stats.m_data_size;
auto rows = kd.m_stats.m_rows;
if (rows == 0 || disk_size == 0) {
rows = 1;
disk_size = ROCKSDB_ASSUMED_KEY_VALUE_DISK_SIZE;
}
// Getting statistics, including from Memtables
uint8_t include_flags = rocksdb::DB::INCLUDE_FILES;
rdb->GetApproximateSizes(kd.get_cf(), &r, 1, &sz, include_flags);
ret = rows * sz / disk_size;
uint64_t memTableCount;
rdb->GetApproximateMemTableStats(kd.get_cf(), r, &memTableCount, &sz);
ret += memTableCount;
/*
GetApproximateSizes() gives estimates so ret might exceed stats.records.
MySQL then decides to use full index scan rather than range scan, which
is not efficient for most cases.
To prevent this, changing estimated records slightly smaller than
stats.records.
*/
if (ret >= stats.records) {
ret = stats.records * 0.99;
}
if (rocksdb_debug_optimizer_n_rows > 0) {
ret = rocksdb_debug_optimizer_n_rows;
} else if (ret == 0) {
ret = 1;
}
DBUG_RETURN(ret);
}
void ha_rocksdb::update_create_info(HA_CREATE_INFO *const create_info) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(create_info != nullptr);
if (!(create_info->used_fields & HA_CREATE_USED_AUTO)) {
create_info->auto_increment_value = m_tbl_def->m_auto_incr_val;
}
DBUG_VOID_RETURN;
}
/**
@brief
Doing manual compaction on OPTIMIZE TABLE in RocksDB.
Compaction itself is executed by background thread in RocksDB, but
CompactRange() waits until compaction completes so this function
may take a long time.
Since RocksDB dataset is allocated per index id, OPTIMIZE TABLE
triggers manual compaction for all indexes of the table.
@details
Compaction range is from the beginning of the index id to
the first row of the next index id. When using reverse order
column family, the first row of the next index id should be
the last row of the previous index id.
@return
HA_ADMIN_OK OK
other HA_ADMIN error code
*/
int ha_rocksdb::optimize(THD *const thd, HA_CHECK_OPT *const check_opt) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(check_opt != nullptr);
for (uint i = 0; i < table->s->keys; i++) {
uchar buf[Rdb_key_def::INDEX_NUMBER_SIZE * 2];
auto range = get_range(i, buf);
const rocksdb::Status s = rdb->CompactRange(getCompactRangeOptions(),
m_key_descr_arr[i]->get_cf(),
&range.start, &range.limit);
if (!s.ok()) {
DBUG_RETURN(rdb_error_to_mysql(s));
}
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
static int calculate_stats(
const std::unordered_map<GL_INDEX_ID, std::shared_ptr<const Rdb_key_def>>
&to_recalc,
bool include_memtables) {
DBUG_ENTER_FUNC();
// find per column family key ranges which need to be queried
std::unordered_map<rocksdb::ColumnFamilyHandle *, std::vector<rocksdb::Range>>
ranges;
std::unordered_map<GL_INDEX_ID, Rdb_index_stats> stats;
std::vector<uchar> buf(to_recalc.size() * 2 * Rdb_key_def::INDEX_NUMBER_SIZE);
uchar *bufp = buf.data();
for (const auto &it : to_recalc) {
const GL_INDEX_ID index_id = it.first;
auto &kd = it.second;
ranges[kd->get_cf()].push_back(myrocks::get_range(*kd, bufp));
bufp += 2 * Rdb_key_def::INDEX_NUMBER_SIZE;
stats[index_id] = Rdb_index_stats(index_id);
DBUG_ASSERT(kd->get_key_parts() > 0);
stats[index_id].m_distinct_keys_per_prefix.resize(kd->get_key_parts());
}
// get RocksDB table properties for these ranges
rocksdb::TablePropertiesCollection props;
for (const auto &it : ranges) {
const auto old_size MY_ATTRIBUTE((__unused__)) = props.size();
const auto status = rdb->GetPropertiesOfTablesInRange(
it.first, &it.second[0], it.second.size(), &props);
DBUG_ASSERT(props.size() >= old_size);
if (!status.ok()) {
DBUG_RETURN(ha_rocksdb::rdb_error_to_mysql(
status, "Could not access RocksDB properties"));
}
}
int num_sst = 0;
for (const auto &it : props) {
std::vector<Rdb_index_stats> sst_stats;
Rdb_tbl_prop_coll::read_stats_from_tbl_props(it.second, &sst_stats);
/*
sst_stats is a list of index statistics for indexes that have entries
in the current SST file.
*/
for (const auto &it1 : sst_stats) {
/*
Only update statistics for indexes that belong to this SQL table.
The reason is: We are walking through all SST files that have
entries from this table (and so can compute good statistics). For
other SQL tables, it can be that we're only seeing a small fraction
of table's entries (and so we can't update statistics based on that).
*/
if (stats.find(it1.m_gl_index_id) == stats.end()) {
continue;
}
auto it_index = to_recalc.find(it1.m_gl_index_id);
DBUG_ASSERT(it_index != to_recalc.end());
if (it_index == to_recalc.end()) {
continue;
}
stats[it1.m_gl_index_id].merge(
it1, true, it_index->second->max_storage_fmt_length());
}
num_sst++;
}
if (include_memtables) {
// calculate memtable cardinality
Rdb_tbl_card_coll cardinality_collector(rocksdb_table_stats_sampling_pct);
auto read_opts = rocksdb::ReadOptions();
read_opts.read_tier = rocksdb::ReadTier::kMemtableTier;
for (const auto &it_kd : to_recalc) {
const std::shared_ptr<const Rdb_key_def> &kd = it_kd.second;
Rdb_index_stats &stat = stats[kd->get_gl_index_id()];
uchar r_buf[Rdb_key_def::INDEX_NUMBER_SIZE * 2];
auto r = myrocks::get_range(*kd, r_buf);
uint64_t memtableCount;
uint64_t memtableSize;
rdb->GetApproximateMemTableStats(kd->get_cf(), r, &memtableCount,
&memtableSize);
if (memtableCount < (uint64_t)stat.m_rows / 10) {
// skip tables that already have enough stats from SST files to reduce
// overhead and avoid degradation of big tables stats by sampling from
// relatively tiny (less than 10% of full data set) memtable dataset
continue;
}
std::unique_ptr<rocksdb::Iterator> it =
std::unique_ptr<rocksdb::Iterator>(
rdb->NewIterator(read_opts, kd->get_cf()));
rocksdb::Slice first_index_key((const char *)r_buf,
Rdb_key_def::INDEX_NUMBER_SIZE);
cardinality_collector.Reset();
for (it->Seek(first_index_key); is_valid(it.get()); it->Next()) {
const rocksdb::Slice key = it->key();
if (!kd->covers_key(key)) {
break; // end of this index
}
stat.m_rows++;
cardinality_collector.ProcessKey(key, kd.get(), &stat);
}
cardinality_collector.AdjustStats(&stat);
}
}
// set and persist new stats
ddl_manager.set_stats(stats);
ddl_manager.persist_stats(true);
DBUG_RETURN(HA_EXIT_SUCCESS);
}
int ha_rocksdb::calculate_stats_for_table() {
DBUG_ENTER_FUNC();
std::unordered_map<GL_INDEX_ID, std::shared_ptr<const Rdb_key_def>>
ids_to_check;
for (uint i = 0; i < table->s->keys; i++) {
ids_to_check.insert(std::make_pair(m_key_descr_arr[i]->get_gl_index_id(),
m_key_descr_arr[i]));
}
DBUG_RETURN(calculate_stats(ids_to_check, true));
}
/*
@return
HA_ADMIN_OK OK
other HA_ADMIN error code
*/
int ha_rocksdb::analyze(THD *const thd, HA_CHECK_OPT *const check_opt) {
DBUG_ENTER_FUNC();
if (table) {
if (calculate_stats_for_table() != HA_EXIT_SUCCESS) {
DBUG_RETURN(HA_ADMIN_FAILED);
}
}
// A call to ::info is needed to repopulate some SQL level structs. This is
// necessary for online analyze because we cannot rely on another ::open
// call to call info for us.
if (info(HA_STATUS_CONST | HA_STATUS_VARIABLE) != HA_EXIT_SUCCESS) {
DBUG_RETURN(HA_ADMIN_FAILED);
}
DBUG_RETURN(HA_ADMIN_OK);
}
void ha_rocksdb::get_auto_increment(ulonglong off, ulonglong inc,
ulonglong nb_desired_values,
ulonglong *const first_value,
ulonglong *const nb_reserved_values) {
/*
MySQL has a somewhat complicated way of handling the auto-increment value.
The first time get_auto_increment is called for a statement,
nb_desired_values is the estimate for how many values will be needed. The
engine can then reserve some values, and those will be automatically used
by MySQL, until a hard-coded value shows up in the insert statement, after
which MySQL again calls this function to reset its starting value.
*
For simplicity we will just ignore nb_desired_values - we aren't going to
reserve any extra values for a multi-insert statement. Each row will
simply acquire the next value as needed and we will always tell MySQL that
we only reserved 1 value. Since we are using an atomic value for
m_auto_incr_val this should be safe - if we had to grab a mutex, doing
an actual reserve of some values might be a better solution.
*/
DEBUG_SYNC(ha_thd(), "rocksdb.autoinc_vars");
DEBUG_SYNC(ha_thd(), "rocksdb.autoinc_vars2");
if (off > inc) {
off = 1;
}
Field *field;
ulonglong new_val, max_val;
field = table->key_info[table->s->next_number_index].key_part[0].field;
max_val = rdb_get_int_col_max_value(field);
// Local variable reference to simplify code below
auto &auto_incr = m_tbl_def->m_auto_incr_val;
if (inc == 1) {
DBUG_ASSERT(off == 1);
// Optimization for the standard case where we are always simply
// incrementing from the last position
// Use CAS operation in a loop to make sure automically get the next auto
// increment value while ensuring that we don't wrap around to a negative
// number.
//
// We set auto_incr to the min of max_val and new_val + 1. This means that
// if we're at the maximum, we should be returning the same value for
// multiple rows, resulting in duplicate key errors (as expected).
//
// If we return values greater than the max, the SQL layer will "truncate"
// the value anyway, but it means that we store invalid values into
// auto_incr that will be visible in SHOW CREATE TABLE.
new_val = auto_incr;
while (new_val != std::numeric_limits<ulonglong>::max()) {
if (auto_incr.compare_exchange_weak(new_val,
std::min(new_val + 1, max_val))) {
break;
}
}
} else {
// The next value can be more complicated if either 'inc' or 'off' is not 1
ulonglong last_val = auto_incr;
if (last_val > max_val) {
new_val = std::numeric_limits<ulonglong>::max();
} else {
// Loop until we can correctly update the atomic value
do {
DBUG_ASSERT(last_val > 0);
// Calculate the next value in the auto increment series: offset
// + N * increment where N is 0, 1, 2, ...
//
// For further information please visit:
// http://dev.mysql.com/doc/refman/5.7/en/replication-options-master.html
//
// The following is confusing so here is an explanation:
// To get the next number in the sequence above you subtract out the
// offset, calculate the next sequence (N * increment) and then add the
// offset back in.
//
// The additions are rearranged to avoid overflow. The following is
// equivalent to (last_val - 1 + inc - off) / inc. This uses the fact
// that (a+b)/c = a/c + b/c + (a%c + b%c)/c. To show why:
//
// (a+b)/c
// = (a - a%c + a%c + b - b%c + b%c) / c
// = (a - a%c) / c + (b - b%c) / c + (a%c + b%c) / c
// = a/c + b/c + (a%c + b%c) / c
//
// Now, substitute a = last_val - 1, b = inc - off, c = inc to get the
// following statement.
ulonglong n =
(last_val - 1) / inc + ((last_val - 1) % inc + inc - off) / inc;
// Check if n * inc + off will overflow. This can only happen if we have
// an UNSIGNED BIGINT field.
if (n > (std::numeric_limits<ulonglong>::max() - off) / inc) {
DBUG_ASSERT(max_val == std::numeric_limits<ulonglong>::max());
// The 'last_val' value is already equal to or larger than the largest
// value in the sequence. Continuing would wrap around (technically
// the behavior would be undefined). What should we do?
// We could:
// 1) set the new value to the last possible number in our sequence
// as described above. The problem with this is that this
// number could be smaller than a value in an existing row.
// 2) set the new value to the largest possible number. This number
// may not be in our sequence, but it is guaranteed to be equal
// to or larger than any other value already inserted.
//
// For now I'm going to take option 2.
//
// Returning ULLONG_MAX from get_auto_increment will cause the SQL
// layer to fail with ER_AUTOINC_READ_FAILED. This means that due to
// the SE API for get_auto_increment, inserts will fail with
// ER_AUTOINC_READ_FAILED if the column is UNSIGNED BIGINT, but
// inserts will fail with ER_DUP_ENTRY for other types (or no failure
// if the column is in a non-unique SK).
new_val = std::numeric_limits<ulonglong>::max();
auto_incr = new_val; // Store the largest value into auto_incr
break;
}
new_val = n * inc + off;
// Attempt to store the new value (plus 1 since m_auto_incr_val contains
// the next available value) into the atomic value. If the current
// value no longer matches what we have in 'last_val' this will fail and
// we will repeat the loop (`last_val` will automatically get updated
// with the current value).
//
// See above explanation for inc == 1 for why we use std::min.
} while (!auto_incr.compare_exchange_weak(
last_val, std::min(new_val + 1, max_val)));
}
}
*first_value = new_val;
*nb_reserved_values = 1;
}
#ifndef DBUG_OFF
/* Debugger help function */
static char dbug_item_print_buf[512];
const char *dbug_print_item(Item *const item) {
char *const buf = dbug_item_print_buf;
String str(buf, sizeof(dbug_item_print_buf), &my_charset_bin);
str.length(0);
if (!item) return "(Item*)nullptr";
item->print(&str, QT_ORDINARY);
if (str.c_ptr() == buf) {
return buf;
} else {
return "Couldn't fit into buffer";
}
}
#endif /*DBUG_OFF*/
/**
SQL layer calls this function to push an index condition.
@details
The condition is for index keyno (only one condition can be pushed at a
time).
The caller guarantees that condition refers only to index fields; besides
that, fields must have
$field->part_of_key.set_bit(keyno)
which means that
(handler->index_flags(keyno, $keypart, 0) & HA_KEYREAD_ONLY) == 1
which means that field value can be restored from the index tuple.
@return
Part of condition we couldn't check (always nullptr).
*/
class Item *ha_rocksdb::idx_cond_push(uint keyno, class Item *const idx_cond) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(keyno != MAX_KEY);
DBUG_ASSERT(idx_cond != nullptr);
pushed_idx_cond = idx_cond;
pushed_idx_cond_keyno = keyno;
in_range_check_pushed_down = TRUE;
/* We will check the whole condition */
DBUG_RETURN(nullptr);
}
/*
Checks if inplace alter is supported for a given operation.
*/
my_core::enum_alter_inplace_result ha_rocksdb::check_if_supported_inplace_alter(
TABLE *altered_table, my_core::Alter_inplace_info *const ha_alter_info) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(ha_alter_info != nullptr);
if (ha_alter_info->handler_flags &
~(ALTER_DROP_NON_UNIQUE_NON_PRIM_INDEX |
ALTER_DROP_UNIQUE_INDEX |
ALTER_ADD_NON_UNIQUE_NON_PRIM_INDEX |
ALTER_PARTITIONED |
ALTER_ADD_UNIQUE_INDEX |
ALTER_INDEX_ORDER |
ALTER_CHANGE_CREATE_OPTION)) {
DBUG_RETURN(my_core::HA_ALTER_INPLACE_NOT_SUPPORTED);
}
/* We don't support unique keys on table w/ no primary keys */
if ((ha_alter_info->handler_flags &
ALTER_ADD_UNIQUE_INDEX) &&
has_hidden_pk(altered_table)) {
DBUG_RETURN(my_core::HA_ALTER_INPLACE_NOT_SUPPORTED);
}
/* We only support changing auto_increment for table options. */
if ((ha_alter_info->handler_flags & ALTER_CHANGE_CREATE_OPTION) &&
!(ha_alter_info->create_info->used_fields & HA_CREATE_USED_AUTO)) {
DBUG_RETURN(my_core::HA_ALTER_INPLACE_NOT_SUPPORTED);
}
/* FIXME: MDEV-16099 Use alter algorithm=nocopy or algorithm=instant
for non-InnoDB engine */
DBUG_RETURN(my_core::HA_ALTER_INPLACE_COPY_LOCK);
}
/**
Allows the storage engine to update internal structures with concurrent
writes blocked. If check_if_supported_inplace_alter() returns
HA_ALTER_INPLACE_COPY_NO_LOCK or HA_ALTER_INPLACE_COPY_LOCK.
this function is called with exclusive lock otherwise the same level of
locking as for inplace_alter_table() will be used.
@note Storage engines are responsible for reporting any errors by
calling my_error()/print_error()
@note If this function reports error, commit_inplace_alter_table()
will be called with commit= false.
@note For partitioning, failing to prepare one partition, means that
commit_inplace_alter_table() will be called to roll back changes for
all partitions. This means that commit_inplace_alter_table() might be
called without prepare_inplace_alter_table() having been called first
for a given partition.
@param altered_table TABLE object for new version of table.
@param ha_alter_info Structure describing changes to be done
by ALTER TABLE and holding data used
during in-place alter.
@retval true Error
@retval false Success
*/
bool ha_rocksdb::prepare_inplace_alter_table(
TABLE *const altered_table,
my_core::Alter_inplace_info *const ha_alter_info) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(altered_table != nullptr);
DBUG_ASSERT(ha_alter_info != nullptr);
Rdb_tbl_def *new_tdef = nullptr;
std::shared_ptr<Rdb_key_def> *old_key_descr = nullptr;
std::shared_ptr<Rdb_key_def> *new_key_descr = nullptr;
uint old_n_keys = m_tbl_def->m_key_count;
uint new_n_keys = altered_table->s->keys;
std::unordered_set<std::shared_ptr<Rdb_key_def>> added_indexes;
std::unordered_set<GL_INDEX_ID> dropped_index_ids;
uint n_dropped_keys = 0;
uint n_added_keys = 0;
ulonglong max_auto_incr = 0;
if (ha_alter_info->handler_flags &
(ALTER_DROP_NON_UNIQUE_NON_PRIM_INDEX |
ALTER_DROP_UNIQUE_INDEX |
ALTER_ADD_NON_UNIQUE_NON_PRIM_INDEX |
ALTER_ADD_UNIQUE_INDEX)) {
if (has_hidden_pk(altered_table)) {
new_n_keys += 1;
}
const TABLE *const old_table = table;
old_key_descr = m_tbl_def->m_key_descr_arr;
new_key_descr = new std::shared_ptr<Rdb_key_def>[new_n_keys];
new_tdef = new Rdb_tbl_def(m_tbl_def->full_tablename());
new_tdef->m_key_descr_arr = new_key_descr;
new_tdef->m_key_count = new_n_keys;
new_tdef->m_auto_incr_val =
m_tbl_def->m_auto_incr_val.load(std::memory_order_relaxed);
new_tdef->m_hidden_pk_val =
m_tbl_def->m_hidden_pk_val.load(std::memory_order_relaxed);
if (create_key_defs(altered_table, new_tdef, table, m_tbl_def)) {
/* Delete the new key descriptors */
delete[] new_key_descr;
/*
Explicitly mark as nullptr so we don't accidentally remove entries
from data dictionary on cleanup (or cause double delete[]).
*/
new_tdef->m_key_descr_arr = nullptr;
delete new_tdef;
my_error(ER_KEY_CREATE_DURING_ALTER, MYF(0));
DBUG_RETURN(HA_EXIT_FAILURE);
}
uint i;
uint j;
/* Determine which(if any) key definition(s) need to be dropped */
for (i = 0; i < ha_alter_info->index_drop_count; i++) {
const KEY *const dropped_key = ha_alter_info->index_drop_buffer[i];
for (j = 0; j < old_n_keys; j++) {
const KEY *const old_key =
&old_table->key_info[old_key_descr[j]->get_keyno()];
if (!compare_keys(old_key, dropped_key)) {
dropped_index_ids.insert(old_key_descr[j]->get_gl_index_id());
break;
}
}
}
/* Determine which(if any) key definitions(s) need to be added */
int identical_indexes_found = 0;
for (i = 0; i < ha_alter_info->index_add_count; i++) {
const KEY *const added_key =
&ha_alter_info->key_info_buffer[ha_alter_info->index_add_buffer[i]];
for (j = 0; j < new_n_keys; j++) {
const KEY *const new_key =
&altered_table->key_info[new_key_descr[j]->get_keyno()];
if (!compare_keys(new_key, added_key)) {
/*
Check for cases where an 'identical' index is being dropped and
re-added in a single ALTER statement. Turn this into a no-op as the
index has not changed.
E.G. Unique index -> non-unique index requires no change
Note that cases where the index name remains the same but the
key-parts are changed is already handled in create_inplace_key_defs.
In these cases the index needs to be rebuilt.
*/
if (dropped_index_ids.count(new_key_descr[j]->get_gl_index_id())) {
dropped_index_ids.erase(new_key_descr[j]->get_gl_index_id());
identical_indexes_found++;
} else {
added_indexes.insert(new_key_descr[j]);
}
break;
}
}
}
n_dropped_keys = ha_alter_info->index_drop_count - identical_indexes_found;
n_added_keys = ha_alter_info->index_add_count - identical_indexes_found;
DBUG_ASSERT(dropped_index_ids.size() == n_dropped_keys);
DBUG_ASSERT(added_indexes.size() == n_added_keys);
DBUG_ASSERT(new_n_keys == (old_n_keys - n_dropped_keys + n_added_keys));
}
if (ha_alter_info->handler_flags & ALTER_CHANGE_CREATE_OPTION) {
if (!new_tdef) {
new_tdef = m_tbl_def;
}
if (table->found_next_number_field) {
max_auto_incr = load_auto_incr_value_from_index();
}
}
ha_alter_info->handler_ctx = new Rdb_inplace_alter_ctx(
new_tdef, old_key_descr, new_key_descr, old_n_keys, new_n_keys,
added_indexes, dropped_index_ids, n_added_keys, n_dropped_keys,
max_auto_incr);
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/**
Alter the table structure in-place with operations specified using
HA_ALTER_FLAGS and Alter_inplace_info. The level of concurrency allowed
during this operation depends on the return value from
check_if_supported_inplace_alter().
@note Storage engines are responsible for reporting any errors by
calling my_error()/print_error()
@note If this function reports error, commit_inplace_alter_table()
will be called with commit= false.
@param altered_table TABLE object for new version of table.
@param ha_alter_info Structure describing changes to be done
by ALTER TABLE and holding data used
during in-place alter.
@retval true Error
@retval false Success
*/
bool ha_rocksdb::inplace_alter_table(
TABLE *const altered_table,
my_core::Alter_inplace_info *const ha_alter_info) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(altered_table != nullptr);
DBUG_ASSERT(ha_alter_info != nullptr);
DBUG_ASSERT(ha_alter_info->handler_ctx != nullptr);
Rdb_inplace_alter_ctx *const ctx =
static_cast<Rdb_inplace_alter_ctx *>(ha_alter_info->handler_ctx);
if (ha_alter_info->handler_flags &
(ALTER_ADD_NON_UNIQUE_NON_PRIM_INDEX |
ALTER_ADD_UNIQUE_INDEX)) {
/*
Buffers need to be set up again to account for new, possibly longer
secondary keys.
*/
free_key_buffers();
DBUG_ASSERT(ctx != nullptr);
/*
If adding unique index, allocate special buffers for duplicate checking.
*/
int err;
if ((err = alloc_key_buffers(
altered_table, ctx->m_new_tdef,
ha_alter_info->handler_flags &
ALTER_ADD_UNIQUE_INDEX))) {
my_error(ER_OUT_OF_RESOURCES, MYF(0));
DBUG_RETURN(err);
}
/* Populate all new secondary keys by scanning the primary key. */
if ((err = inplace_populate_sk(altered_table, ctx->m_added_indexes))) {
my_error(ER_SK_POPULATE_DURING_ALTER, MYF(0));
DBUG_RETURN(HA_EXIT_FAILURE);
}
}
DBUG_EXECUTE_IF("myrocks_simulate_index_create_rollback", {
dbug_create_err_inplace_alter();
DBUG_RETURN(HA_EXIT_FAILURE);
};);
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/**
Scan the Primary Key index entries and populate the new secondary keys.
*/
int ha_rocksdb::inplace_populate_sk(
TABLE *const new_table_arg,
const std::unordered_set<std::shared_ptr<Rdb_key_def>> &indexes) {
DBUG_ENTER_FUNC();
int res = HA_EXIT_SUCCESS;
const std::unique_ptr<rocksdb::WriteBatch> wb = dict_manager.begin();
rocksdb::WriteBatch *const batch = wb.get();
/* Update the data dictionary */
std::unordered_set<GL_INDEX_ID> create_index_ids;
for (const auto &index : indexes) {
create_index_ids.insert(index->get_gl_index_id());
}
dict_manager.add_create_index(create_index_ids, batch);
res = dict_manager.commit(batch);
if (res != HA_EXIT_SUCCESS) {
return res;
}
/*
Add uncommitted key definitons to ddl_manager. We need to do this
so that the property collector can find this keydef when it needs to
update stats. The property collector looks for the keydef in the
data dictionary, but it won't be there yet since this key definition
is still in the creation process.
*/
ddl_manager.add_uncommitted_keydefs(indexes);
const bool hidden_pk_exists = has_hidden_pk(table);
Rdb_transaction *tx = get_or_create_tx(table->in_use);
/*
There is one specific scenario where m_sst_info may not be nullptr. This
happens if the handler we're using happens to be the handler where the PK
bulk load was done on. The sequence of events that lead to this is as
follows (T1 is PK bulk load, T2 is SK alter table):
T1: Execute last INSERT statement
T1: Return TABLE and handler object back to Table_cache_manager
T1: Close connection
T2: Execute ALTER statement
T2: Take same TABLE/handler from Table_cache_manager
T2: Call closefrm which will call finalize_bulk_load on every other open
table/handler *except* the one it's on.
T2: Acquire stale snapshot of PK
T1: Call finalize_bulk_load
This is rare because usually, closefrm will call the destructor (and thus
finalize_bulk_load) on the handler where PK bulk load is done. However, if
the thread ids of the bulk load thread and the alter thread differ by a
multiple of table_cache_instances (8 by default), then they hash to the
same bucket in Table_cache_manager and the alter thread will not not call
the destructor on the handler it is holding. Thus, its m_sst_info will not
be nullptr.
At this point, it is safe to refresh the snapshot because we know all other
open handlers have been closed at this point, and the one we're on is the
only one left.
*/
if (m_sst_info) {
if ((res = finalize_bulk_load())) {
DBUG_RETURN(res);
}
tx->commit();
}
const ulonglong rdb_merge_buf_size = THDVAR(ha_thd(), merge_buf_size);
const ulonglong rdb_merge_combine_read_size =
THDVAR(ha_thd(), merge_combine_read_size);
const ulonglong rdb_merge_tmp_file_removal_delay =
THDVAR(ha_thd(), merge_tmp_file_removal_delay_ms);
for (const auto &index : indexes) {
bool is_unique_index =
new_table_arg->key_info[index->get_keyno()].flags & HA_NOSAME;
Rdb_index_merge rdb_merge(tx->get_rocksdb_tmpdir(), rdb_merge_buf_size,
rdb_merge_combine_read_size,
rdb_merge_tmp_file_removal_delay,
index->get_cf());
if ((res = rdb_merge.init())) {
DBUG_RETURN(res);
}
/*
Note: We pass in the currently existing table + tbl_def object here,
as the pk index position may have changed in the case of hidden primary
keys.
*/
const uint pk = pk_index(table, m_tbl_def);
ha_index_init(pk, true);
/* Scan each record in the primary key in order */
for (res = index_first(table->record[0]); res == 0;
res = index_next(table->record[0])) {
longlong hidden_pk_id = 0;
if (hidden_pk_exists &&
(res = read_hidden_pk_id_from_rowkey(&hidden_pk_id))) {
// NO_LINT_DEBUG
sql_print_error("Error retrieving hidden pk id.");
ha_index_end();
DBUG_RETURN(res);
}
/* Create new secondary index entry */
const int new_packed_size = index->pack_record(
new_table_arg, m_pack_buffer, table->record[0], m_sk_packed_tuple,
&m_sk_tails, should_store_row_debug_checksums(), hidden_pk_id, 0,
nullptr, m_ttl_bytes);
const rocksdb::Slice key = rocksdb::Slice(
reinterpret_cast<const char *>(m_sk_packed_tuple), new_packed_size);
const rocksdb::Slice val =
rocksdb::Slice(reinterpret_cast<const char *>(m_sk_tails.ptr()),
m_sk_tails.get_current_pos());
/*
Add record to offset tree in preparation for writing out to
disk in sorted chunks.
*/
if ((res = rdb_merge.add(key, val))) {
ha_index_end();
DBUG_RETURN(res);
}
}
if (res != HA_ERR_END_OF_FILE) {
// NO_LINT_DEBUG
sql_print_error("Error retrieving index entry from primary key.");
ha_index_end();
DBUG_RETURN(res);
}
ha_index_end();
/*
Perform an n-way merge of n sorted buffers on disk, then writes all
results to RocksDB via SSTFileWriter API.
*/
rocksdb::Slice merge_key;
rocksdb::Slice merge_val;
struct unique_sk_buf_info sk_info;
sk_info.dup_sk_buf = m_dup_sk_packed_tuple;
sk_info.dup_sk_buf_old = m_dup_sk_packed_tuple_old;
while ((res = rdb_merge.next(&merge_key, &merge_val)) == 0) {
/* Perform uniqueness check if needed */
if (is_unique_index) {
if (check_duplicate_sk(new_table_arg, *index, &merge_key, &sk_info)) {
/*
Duplicate entry found when trying to create unique secondary key.
We need to unpack the record into new_table_arg->record[0] as it
is used inside print_keydup_error so that the error message shows
the duplicate record.
*/
if (index->unpack_record(
new_table_arg, new_table_arg->record[0], &merge_key,
&merge_val, m_converter->get_verify_row_debug_checksums())) {
/* Should never reach here */
DBUG_ASSERT(0);
}
print_keydup_error(new_table_arg,
&new_table_arg->key_info[index->get_keyno()],
MYF(0));
DBUG_RETURN(ER_DUP_ENTRY);
}
}
/*
Insert key and slice to SST via SSTFileWriter API.
*/
if ((res = bulk_load_key(tx, *index, merge_key, merge_val, false))) {
break;
}
}
/*
Here, res == -1 means that we are finished, while > 0 means an error
occurred.
*/
if (res > 0) {
// NO_LINT_DEBUG
sql_print_error("Error while bulk loading keys in external merge sort.");
DBUG_RETURN(res);
}
bool is_critical_error;
res = tx->finish_bulk_load(&is_critical_error);
if (res && is_critical_error) {
// NO_LINT_DEBUG
sql_print_error("Error finishing bulk load.");
DBUG_RETURN(res);
}
}
/*
Explicitly tell jemalloc to clean up any unused dirty pages at this point.
See https://reviews.facebook.net/D63723 for more details.
*/
purge_all_jemalloc_arenas();
DBUG_EXECUTE_IF("crash_during_online_index_creation", DBUG_SUICIDE(););
DBUG_RETURN(res);
}
/**
Commit or rollback the changes made during prepare_inplace_alter_table()
and inplace_alter_table() inside the storage engine.
Note that in case of rollback the allowed level of concurrency during
this operation will be the same as for inplace_alter_table() and thus
might be higher than during prepare_inplace_alter_table(). (For example,
concurrent writes were blocked during prepare, but might not be during
rollback).
@note Storage engines are responsible for reporting any errors by
calling my_error()/print_error()
@note If this function with commit= true reports error, it will be called
again with commit= false.
@note In case of partitioning, this function might be called for rollback
without prepare_inplace_alter_table() having been called first.
Also partitioned tables sets ha_alter_info->group_commit_ctx to a NULL
terminated array of the partitions handlers and if all of them are
committed as one, then group_commit_ctx should be set to NULL to indicate
to the partitioning handler that all partitions handlers are committed.
@see prepare_inplace_alter_table().
@param altered_table TABLE object for new version of table.
@param ha_alter_info Structure describing changes to be done
by ALTER TABLE and holding data used
during in-place alter.
@param commit True => Commit, False => Rollback.
@retval true Error
@retval false Success
*/
bool ha_rocksdb::commit_inplace_alter_table(
my_core::TABLE *const altered_table,
my_core::Alter_inplace_info *const ha_alter_info, bool commit) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(altered_table != nullptr);
DBUG_ASSERT(ha_alter_info != nullptr);
Rdb_inplace_alter_ctx *const ctx0 =
static_cast<Rdb_inplace_alter_ctx *>(ha_alter_info->handler_ctx);
DEBUG_SYNC(ha_thd(), "rocksdb.commit_in_place_alter_table");
/*
IMPORTANT: When rollback is requested, mysql will abort with
an assertion failure. That means every failed commit during inplace alter
table will result in a fatal error on the server. Indexes ongoing creation
will be detected when the server restarts, and dropped.
For partitioned tables, a rollback call to this function (commit == false)
is done for each partition. A successful commit call only executes once
for all partitions.
*/
if (!commit) {
/* If ctx has not been created yet, nothing to do here */
if (!ctx0) {
DBUG_RETURN(HA_EXIT_SUCCESS);
}
/*
Cannot call destructor for Rdb_tbl_def directly because we don't want to
erase the mappings inside the ddl_manager, as the old_key_descr is still
using them.
*/
if (ctx0->m_new_key_descr) {
/* Delete the new key descriptors */
for (uint i = 0; i < ctx0->m_new_tdef->m_key_count; i++) {
ctx0->m_new_key_descr[i] = nullptr;
}
delete[] ctx0->m_new_key_descr;
ctx0->m_new_key_descr = nullptr;
ctx0->m_new_tdef->m_key_descr_arr = nullptr;
delete ctx0->m_new_tdef;
}
/* Remove uncommitted key definitons from ddl_manager */
ddl_manager.remove_uncommitted_keydefs(ctx0->m_added_indexes);
/* Rollback any partially created indexes */
dict_manager.rollback_ongoing_index_creation();
DBUG_RETURN(HA_EXIT_SUCCESS);
}
DBUG_ASSERT(ctx0);
/*
For partitioned tables, we need to commit all changes to all tables at
once, unlike in the other inplace alter API methods.
*/
inplace_alter_handler_ctx **ctx_array;
inplace_alter_handler_ctx *ctx_single[2];
if (ha_alter_info->group_commit_ctx) {
DBUG_EXECUTE_IF("crash_during_index_creation_partition", DBUG_SUICIDE(););
ctx_array = ha_alter_info->group_commit_ctx;
} else {
ctx_single[0] = ctx0;
ctx_single[1] = nullptr;
ctx_array = ctx_single;
}
DBUG_ASSERT(ctx0 == ctx_array[0]);
ha_alter_info->group_commit_ctx = nullptr;
if (ha_alter_info->handler_flags &
(ALTER_DROP_NON_UNIQUE_NON_PRIM_INDEX |
ALTER_DROP_UNIQUE_INDEX |
ALTER_ADD_NON_UNIQUE_NON_PRIM_INDEX |
ALTER_ADD_UNIQUE_INDEX)) {
const std::unique_ptr<rocksdb::WriteBatch> wb = dict_manager.begin();
rocksdb::WriteBatch *const batch = wb.get();
std::unordered_set<GL_INDEX_ID> create_index_ids;
m_tbl_def = ctx0->m_new_tdef;
m_key_descr_arr = m_tbl_def->m_key_descr_arr;
m_pk_descr = m_key_descr_arr[pk_index(altered_table, m_tbl_def)];
dict_manager.lock();
for (inplace_alter_handler_ctx **pctx = ctx_array; *pctx; pctx++) {
Rdb_inplace_alter_ctx *const ctx =
static_cast<Rdb_inplace_alter_ctx *>(*pctx);
/* Mark indexes to be dropped */
dict_manager.add_drop_index(ctx->m_dropped_index_ids, batch);
for (const auto &index : ctx->m_added_indexes) {
create_index_ids.insert(index->get_gl_index_id());
}
if (ddl_manager.put_and_write(ctx->m_new_tdef, batch)) {
/*
Failed to write new entry into data dictionary, this should never
happen.
*/
DBUG_ASSERT(0);
}
/*
Remove uncommitted key definitons from ddl_manager, as they are now
committed into the data dictionary.
*/
ddl_manager.remove_uncommitted_keydefs(ctx->m_added_indexes);
}
/*
Increment the table version.
*/
ulonglong table_ver = get_table_version(table->s->path.str);
table_ver++;
save_table_version(batch, table->s->path.str, table_ver);
if (dict_manager.commit(batch)) {
/*
Should never reach here. We assume MyRocks will abort if commit fails.
*/
DBUG_ASSERT(0);
}
dict_manager.unlock();
/* Mark ongoing create indexes as finished/remove from data dictionary */
dict_manager.finish_indexes_operation(
create_index_ids, Rdb_key_def::DDL_CREATE_INDEX_ONGOING);
rdb_drop_idx_thread.signal();
}
if (ha_alter_info->handler_flags & ALTER_CHANGE_CREATE_OPTION) {
const std::unique_ptr<rocksdb::WriteBatch> wb = dict_manager.begin();
rocksdb::WriteBatch *const batch = wb.get();
std::unordered_set<GL_INDEX_ID> create_index_ids;
ulonglong auto_incr_val = ha_alter_info->create_info->auto_increment_value;
for (inplace_alter_handler_ctx **pctx = ctx_array; *pctx; pctx++) {
Rdb_inplace_alter_ctx *const ctx =
static_cast<Rdb_inplace_alter_ctx *>(*pctx);
auto_incr_val = std::max(auto_incr_val, ctx->m_max_auto_incr);
dict_manager.put_auto_incr_val(
batch, ctx->m_new_tdef->get_autoincr_gl_index_id(), auto_incr_val,
true /* overwrite */);
ctx->m_new_tdef->m_auto_incr_val = auto_incr_val;
}
if (dict_manager.commit(batch)) {
DBUG_ASSERT(0);
}
}
DBUG_RETURN(HA_EXIT_SUCCESS);
}
#define SHOW_FNAME(name) rocksdb_show_##name
#define DEF_SHOW_FUNC(name, key) \
static int SHOW_FNAME(name)(MYSQL_THD thd, SHOW_VAR * var, char *buff) { \
rocksdb_status_counters.name = \
rocksdb_stats->getTickerCount(rocksdb::key); \
var->type = SHOW_LONGLONG; \
var->value = reinterpret_cast<char *>(&rocksdb_status_counters.name); \
return HA_EXIT_SUCCESS; \
}
#define DEF_STATUS_VAR(name) \
{ "rocksdb_" #name, (char *)&SHOW_FNAME(name), SHOW_FUNC }
#define DEF_STATUS_VAR_PTR(name, ptr, option) \
{ "rocksdb_" name, (char *)ptr, option }
#define DEF_STATUS_VAR_FUNC(name, ptr, option) \
{ name, reinterpret_cast<char *>(ptr), option }
struct rocksdb_status_counters_t {
uint64_t block_cache_miss;
uint64_t block_cache_hit;
uint64_t block_cache_add;
uint64_t block_cache_add_failures;
uint64_t block_cache_index_miss;
uint64_t block_cache_index_hit;
uint64_t block_cache_index_add;
uint64_t block_cache_index_bytes_insert;
uint64_t block_cache_index_bytes_evict;
uint64_t block_cache_filter_miss;
uint64_t block_cache_filter_hit;
uint64_t block_cache_filter_add;
uint64_t block_cache_filter_bytes_insert;
uint64_t block_cache_filter_bytes_evict;
uint64_t block_cache_bytes_read;
uint64_t block_cache_bytes_write;
uint64_t block_cache_data_bytes_insert;
uint64_t block_cache_data_miss;
uint64_t block_cache_data_hit;
uint64_t block_cache_data_add;
uint64_t bloom_filter_useful;
uint64_t bloom_filter_full_positive;
uint64_t bloom_filter_full_true_positive;
uint64_t memtable_hit;
uint64_t memtable_miss;
uint64_t get_hit_l0;
uint64_t get_hit_l1;
uint64_t get_hit_l2_and_up;
uint64_t compaction_key_drop_new;
uint64_t compaction_key_drop_obsolete;
uint64_t compaction_key_drop_user;
uint64_t number_keys_written;
uint64_t number_keys_read;
uint64_t number_keys_updated;
uint64_t bytes_written;
uint64_t bytes_read;
uint64_t number_db_seek;
uint64_t number_db_seek_found;
uint64_t number_db_next;
uint64_t number_db_next_found;
uint64_t number_db_prev;
uint64_t number_db_prev_found;
uint64_t iter_bytes_read;
uint64_t no_file_closes;
uint64_t no_file_opens;
uint64_t no_file_errors;
uint64_t stall_micros;
uint64_t num_iterators;
uint64_t number_multiget_get;
uint64_t number_multiget_keys_read;
uint64_t number_multiget_bytes_read;
uint64_t number_deletes_filtered;
uint64_t number_merge_failures;
uint64_t bloom_filter_prefix_checked;
uint64_t bloom_filter_prefix_useful;
uint64_t number_reseeks_iteration;
uint64_t getupdatessince_calls;
uint64_t block_cachecompressed_miss;
uint64_t block_cachecompressed_hit;
uint64_t wal_synced;
uint64_t wal_bytes;
uint64_t write_self;
uint64_t write_other;
uint64_t write_timedout;
uint64_t write_wal;
uint64_t flush_write_bytes;
uint64_t compact_read_bytes;
uint64_t compact_write_bytes;
uint64_t number_superversion_acquires;
uint64_t number_superversion_releases;
uint64_t number_superversion_cleanups;
uint64_t number_block_not_compressed;
};
static rocksdb_status_counters_t rocksdb_status_counters;
DEF_SHOW_FUNC(block_cache_miss, BLOCK_CACHE_MISS)
DEF_SHOW_FUNC(block_cache_hit, BLOCK_CACHE_HIT)
DEF_SHOW_FUNC(block_cache_add, BLOCK_CACHE_ADD)
DEF_SHOW_FUNC(block_cache_add_failures, BLOCK_CACHE_ADD_FAILURES)
DEF_SHOW_FUNC(block_cache_index_miss, BLOCK_CACHE_INDEX_MISS)
DEF_SHOW_FUNC(block_cache_index_hit, BLOCK_CACHE_INDEX_HIT)
DEF_SHOW_FUNC(block_cache_index_add, BLOCK_CACHE_INDEX_ADD)
DEF_SHOW_FUNC(block_cache_index_bytes_insert, BLOCK_CACHE_INDEX_BYTES_INSERT)
DEF_SHOW_FUNC(block_cache_index_bytes_evict, BLOCK_CACHE_INDEX_BYTES_EVICT)
DEF_SHOW_FUNC(block_cache_filter_miss, BLOCK_CACHE_FILTER_MISS)
DEF_SHOW_FUNC(block_cache_filter_hit, BLOCK_CACHE_FILTER_HIT)
DEF_SHOW_FUNC(block_cache_filter_add, BLOCK_CACHE_FILTER_ADD)
DEF_SHOW_FUNC(block_cache_filter_bytes_insert, BLOCK_CACHE_FILTER_BYTES_INSERT)
DEF_SHOW_FUNC(block_cache_filter_bytes_evict, BLOCK_CACHE_FILTER_BYTES_EVICT)
DEF_SHOW_FUNC(block_cache_bytes_read, BLOCK_CACHE_BYTES_READ)
DEF_SHOW_FUNC(block_cache_bytes_write, BLOCK_CACHE_BYTES_WRITE)
DEF_SHOW_FUNC(block_cache_data_bytes_insert, BLOCK_CACHE_DATA_BYTES_INSERT)
DEF_SHOW_FUNC(block_cache_data_miss, BLOCK_CACHE_DATA_MISS)
DEF_SHOW_FUNC(block_cache_data_hit, BLOCK_CACHE_DATA_HIT)
DEF_SHOW_FUNC(block_cache_data_add, BLOCK_CACHE_DATA_ADD)
DEF_SHOW_FUNC(bloom_filter_useful, BLOOM_FILTER_USEFUL)
DEF_SHOW_FUNC(bloom_filter_full_positive, BLOOM_FILTER_FULL_POSITIVE)
DEF_SHOW_FUNC(bloom_filter_full_true_positive, BLOOM_FILTER_FULL_TRUE_POSITIVE)
DEF_SHOW_FUNC(memtable_hit, MEMTABLE_HIT)
DEF_SHOW_FUNC(memtable_miss, MEMTABLE_MISS)
DEF_SHOW_FUNC(get_hit_l0, GET_HIT_L0)
DEF_SHOW_FUNC(get_hit_l1, GET_HIT_L1)
DEF_SHOW_FUNC(get_hit_l2_and_up, GET_HIT_L2_AND_UP)
DEF_SHOW_FUNC(compaction_key_drop_new, COMPACTION_KEY_DROP_NEWER_ENTRY)
DEF_SHOW_FUNC(compaction_key_drop_obsolete, COMPACTION_KEY_DROP_OBSOLETE)
DEF_SHOW_FUNC(compaction_key_drop_user, COMPACTION_KEY_DROP_USER)
DEF_SHOW_FUNC(number_keys_written, NUMBER_KEYS_WRITTEN)
DEF_SHOW_FUNC(number_keys_read, NUMBER_KEYS_READ)
DEF_SHOW_FUNC(number_keys_updated, NUMBER_KEYS_UPDATED)
DEF_SHOW_FUNC(bytes_written, BYTES_WRITTEN)
DEF_SHOW_FUNC(bytes_read, BYTES_READ)
DEF_SHOW_FUNC(number_db_seek, NUMBER_DB_SEEK)
DEF_SHOW_FUNC(number_db_seek_found, NUMBER_DB_SEEK_FOUND)
DEF_SHOW_FUNC(number_db_next, NUMBER_DB_NEXT)
DEF_SHOW_FUNC(number_db_next_found, NUMBER_DB_NEXT_FOUND)
DEF_SHOW_FUNC(number_db_prev, NUMBER_DB_PREV)
DEF_SHOW_FUNC(number_db_prev_found, NUMBER_DB_PREV_FOUND)
DEF_SHOW_FUNC(iter_bytes_read, ITER_BYTES_READ)
DEF_SHOW_FUNC(no_file_closes, NO_FILE_CLOSES)
DEF_SHOW_FUNC(no_file_opens, NO_FILE_OPENS)
DEF_SHOW_FUNC(no_file_errors, NO_FILE_ERRORS)
DEF_SHOW_FUNC(stall_micros, STALL_MICROS)
DEF_SHOW_FUNC(num_iterators, NO_ITERATORS)
DEF_SHOW_FUNC(number_multiget_get, NUMBER_MULTIGET_CALLS)
DEF_SHOW_FUNC(number_multiget_keys_read, NUMBER_MULTIGET_KEYS_READ)
DEF_SHOW_FUNC(number_multiget_bytes_read, NUMBER_MULTIGET_BYTES_READ)
DEF_SHOW_FUNC(number_deletes_filtered, NUMBER_FILTERED_DELETES)
DEF_SHOW_FUNC(number_merge_failures, NUMBER_MERGE_FAILURES)
DEF_SHOW_FUNC(bloom_filter_prefix_checked, BLOOM_FILTER_PREFIX_CHECKED)
DEF_SHOW_FUNC(bloom_filter_prefix_useful, BLOOM_FILTER_PREFIX_USEFUL)
DEF_SHOW_FUNC(number_reseeks_iteration, NUMBER_OF_RESEEKS_IN_ITERATION)
DEF_SHOW_FUNC(getupdatessince_calls, GET_UPDATES_SINCE_CALLS)
DEF_SHOW_FUNC(block_cachecompressed_miss, BLOCK_CACHE_COMPRESSED_MISS)
DEF_SHOW_FUNC(block_cachecompressed_hit, BLOCK_CACHE_COMPRESSED_HIT)
DEF_SHOW_FUNC(wal_synced, WAL_FILE_SYNCED)
DEF_SHOW_FUNC(wal_bytes, WAL_FILE_BYTES)
DEF_SHOW_FUNC(write_self, WRITE_DONE_BY_SELF)
DEF_SHOW_FUNC(write_other, WRITE_DONE_BY_OTHER)
DEF_SHOW_FUNC(write_timedout, WRITE_TIMEDOUT)
DEF_SHOW_FUNC(write_wal, WRITE_WITH_WAL)
DEF_SHOW_FUNC(flush_write_bytes, FLUSH_WRITE_BYTES)
DEF_SHOW_FUNC(compact_read_bytes, COMPACT_READ_BYTES)
DEF_SHOW_FUNC(compact_write_bytes, COMPACT_WRITE_BYTES)
DEF_SHOW_FUNC(number_superversion_acquires, NUMBER_SUPERVERSION_ACQUIRES)
DEF_SHOW_FUNC(number_superversion_releases, NUMBER_SUPERVERSION_RELEASES)
DEF_SHOW_FUNC(number_superversion_cleanups, NUMBER_SUPERVERSION_CLEANUPS)
DEF_SHOW_FUNC(number_block_not_compressed, NUMBER_BLOCK_NOT_COMPRESSED)
static void myrocks_update_status() {
export_stats.rows_deleted = global_stats.rows[ROWS_DELETED];
export_stats.rows_inserted = global_stats.rows[ROWS_INSERTED];
export_stats.rows_read = global_stats.rows[ROWS_READ];
export_stats.rows_updated = global_stats.rows[ROWS_UPDATED];
export_stats.rows_deleted_blind = global_stats.rows[ROWS_DELETED_BLIND];
export_stats.rows_expired = global_stats.rows[ROWS_EXPIRED];
export_stats.rows_filtered = global_stats.rows[ROWS_FILTERED];
export_stats.system_rows_deleted = global_stats.system_rows[ROWS_DELETED];
export_stats.system_rows_inserted = global_stats.system_rows[ROWS_INSERTED];
export_stats.system_rows_read = global_stats.system_rows[ROWS_READ];
export_stats.system_rows_updated = global_stats.system_rows[ROWS_UPDATED];
export_stats.queries_point = global_stats.queries[QUERIES_POINT];
export_stats.queries_range = global_stats.queries[QUERIES_RANGE];
export_stats.covered_secondary_key_lookups =
global_stats.covered_secondary_key_lookups;
}
static void myrocks_update_memory_status() {
std::vector<rocksdb::DB *> dbs;
std::unordered_set<const rocksdb::Cache *> cache_set;
dbs.push_back(rdb);
std::map<rocksdb::MemoryUtil::UsageType, uint64_t> temp_usage_by_type;
rocksdb::MemoryUtil::GetApproximateMemoryUsageByType(dbs, cache_set,
&temp_usage_by_type);
memory_stats.memtable_total =
temp_usage_by_type[rocksdb::MemoryUtil::kMemTableTotal];
memory_stats.memtable_unflushed =
temp_usage_by_type[rocksdb::MemoryUtil::kMemTableUnFlushed];
}
static SHOW_VAR myrocks_status_variables[] = {
DEF_STATUS_VAR_FUNC("rows_deleted", &export_stats.rows_deleted,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("rows_inserted", &export_stats.rows_inserted,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("rows_read", &export_stats.rows_read, SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("rows_updated", &export_stats.rows_updated,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("rows_deleted_blind", &export_stats.rows_deleted_blind,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("rows_expired", &export_stats.rows_expired,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("rows_filtered", &export_stats.rows_filtered,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("system_rows_deleted",
&export_stats.system_rows_deleted, SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("system_rows_inserted",
&export_stats.system_rows_inserted, SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("system_rows_read", &export_stats.system_rows_read,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("system_rows_updated",
&export_stats.system_rows_updated, SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("memtable_total", &memory_stats.memtable_total,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("memtable_unflushed", &memory_stats.memtable_unflushed,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("queries_point", &export_stats.queries_point,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("queries_range", &export_stats.queries_range,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("covered_secondary_key_lookups",
&export_stats.covered_secondary_key_lookups,
SHOW_LONGLONG),
{NullS, NullS, SHOW_LONG}};
static void show_myrocks_vars(THD *thd, SHOW_VAR *var, char *buff) {
myrocks_update_status();
myrocks_update_memory_status();
var->type = SHOW_ARRAY;
var->value = reinterpret_cast<char *>(&myrocks_status_variables);
}
static ulonglong io_stall_prop_value(
const std::map<std::string, std::string> &props, const std::string &key) {
std::map<std::string, std::string>::const_iterator iter =
props.find("io_stalls." + key);
if (iter != props.end()) {
return std::stoull(iter->second);
} else {
DBUG_PRINT("warning",
("RocksDB GetMapPropery hasn't returned key=%s", key.c_str()));
DBUG_ASSERT(0);
return 0;
}
}
static void update_rocksdb_stall_status() {
st_io_stall_stats local_io_stall_stats;
for (const auto &cf_name : cf_manager.get_cf_names()) {
rocksdb::ColumnFamilyHandle *cfh = cf_manager.get_cf(cf_name);
if (cfh == nullptr) {
continue;
}
std::map<std::string, std::string> props;
if (!rdb->GetMapProperty(cfh, "rocksdb.cfstats", &props)) {
continue;
}
local_io_stall_stats.level0_slowdown +=
io_stall_prop_value(props, "level0_slowdown");
local_io_stall_stats.level0_slowdown_with_compaction +=
io_stall_prop_value(props, "level0_slowdown_with_compaction");
local_io_stall_stats.level0_numfiles +=
io_stall_prop_value(props, "level0_numfiles");
local_io_stall_stats.level0_numfiles_with_compaction +=
io_stall_prop_value(props, "level0_numfiles_with_compaction");
local_io_stall_stats.stop_for_pending_compaction_bytes +=
io_stall_prop_value(props, "stop_for_pending_compaction_bytes");
local_io_stall_stats.slowdown_for_pending_compaction_bytes +=
io_stall_prop_value(props, "slowdown_for_pending_compaction_bytes");
local_io_stall_stats.memtable_compaction +=
io_stall_prop_value(props, "memtable_compaction");
local_io_stall_stats.memtable_slowdown +=
io_stall_prop_value(props, "memtable_slowdown");
local_io_stall_stats.total_stop += io_stall_prop_value(props, "total_stop");
local_io_stall_stats.total_slowdown +=
io_stall_prop_value(props, "total_slowdown");
}
io_stall_stats = local_io_stall_stats;
}
static SHOW_VAR rocksdb_stall_status_variables[] = {
DEF_STATUS_VAR_FUNC("l0_file_count_limit_slowdowns",
&io_stall_stats.level0_slowdown, SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("locked_l0_file_count_limit_slowdowns",
&io_stall_stats.level0_slowdown_with_compaction,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("l0_file_count_limit_stops",
&io_stall_stats.level0_numfiles, SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("locked_l0_file_count_limit_stops",
&io_stall_stats.level0_numfiles_with_compaction,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("pending_compaction_limit_stops",
&io_stall_stats.stop_for_pending_compaction_bytes,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("pending_compaction_limit_slowdowns",
&io_stall_stats.slowdown_for_pending_compaction_bytes,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("memtable_limit_stops",
&io_stall_stats.memtable_compaction, SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("memtable_limit_slowdowns",
&io_stall_stats.memtable_slowdown, SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("total_stops", &io_stall_stats.total_stop,
SHOW_LONGLONG),
DEF_STATUS_VAR_FUNC("total_slowdowns", &io_stall_stats.total_slowdown,
SHOW_LONGLONG),
// end of the array marker
{NullS, NullS, SHOW_LONG}};
static void show_rocksdb_stall_vars(THD *thd, SHOW_VAR *var, char *buff) {
update_rocksdb_stall_status();
var->type = SHOW_ARRAY;
var->value = reinterpret_cast<char *>(&rocksdb_stall_status_variables);
}
static SHOW_VAR rocksdb_status_vars[] = {
DEF_STATUS_VAR(block_cache_miss),
DEF_STATUS_VAR(block_cache_hit),
DEF_STATUS_VAR(block_cache_add),
DEF_STATUS_VAR(block_cache_add_failures),
DEF_STATUS_VAR(block_cache_index_miss),
DEF_STATUS_VAR(block_cache_index_hit),
DEF_STATUS_VAR(block_cache_index_add),
DEF_STATUS_VAR(block_cache_index_bytes_insert),
DEF_STATUS_VAR(block_cache_index_bytes_evict),
DEF_STATUS_VAR(block_cache_filter_miss),
DEF_STATUS_VAR(block_cache_filter_hit),
DEF_STATUS_VAR(block_cache_filter_add),
DEF_STATUS_VAR(block_cache_filter_bytes_insert),
DEF_STATUS_VAR(block_cache_filter_bytes_evict),
DEF_STATUS_VAR(block_cache_bytes_read),
DEF_STATUS_VAR(block_cache_bytes_write),
DEF_STATUS_VAR(block_cache_data_bytes_insert),
DEF_STATUS_VAR(block_cache_data_miss),
DEF_STATUS_VAR(block_cache_data_hit),
DEF_STATUS_VAR(block_cache_data_add),
DEF_STATUS_VAR(bloom_filter_useful),
DEF_STATUS_VAR(bloom_filter_full_positive),
DEF_STATUS_VAR(bloom_filter_full_true_positive),
DEF_STATUS_VAR(memtable_hit),
DEF_STATUS_VAR(memtable_miss),
DEF_STATUS_VAR(get_hit_l0),
DEF_STATUS_VAR(get_hit_l1),
DEF_STATUS_VAR(get_hit_l2_and_up),
DEF_STATUS_VAR(compaction_key_drop_new),
DEF_STATUS_VAR(compaction_key_drop_obsolete),
DEF_STATUS_VAR(compaction_key_drop_user),
DEF_STATUS_VAR(number_keys_written),
DEF_STATUS_VAR(number_keys_read),
DEF_STATUS_VAR(number_keys_updated),
DEF_STATUS_VAR(bytes_written),
DEF_STATUS_VAR(bytes_read),
DEF_STATUS_VAR(number_db_seek),
DEF_STATUS_VAR(number_db_seek_found),
DEF_STATUS_VAR(number_db_next),
DEF_STATUS_VAR(number_db_next_found),
DEF_STATUS_VAR(number_db_prev),
DEF_STATUS_VAR(number_db_prev_found),
DEF_STATUS_VAR(iter_bytes_read),
DEF_STATUS_VAR(no_file_closes),
DEF_STATUS_VAR(no_file_opens),
DEF_STATUS_VAR(no_file_errors),
DEF_STATUS_VAR(stall_micros),
DEF_STATUS_VAR(num_iterators),
DEF_STATUS_VAR(number_multiget_get),
DEF_STATUS_VAR(number_multiget_keys_read),
DEF_STATUS_VAR(number_multiget_bytes_read),
DEF_STATUS_VAR(number_deletes_filtered),
DEF_STATUS_VAR(number_merge_failures),
DEF_STATUS_VAR(bloom_filter_prefix_checked),
DEF_STATUS_VAR(bloom_filter_prefix_useful),
DEF_STATUS_VAR(number_reseeks_iteration),
DEF_STATUS_VAR(getupdatessince_calls),
DEF_STATUS_VAR(block_cachecompressed_miss),
DEF_STATUS_VAR(block_cachecompressed_hit),
DEF_STATUS_VAR(wal_synced),
DEF_STATUS_VAR(wal_bytes),
DEF_STATUS_VAR(write_self),
DEF_STATUS_VAR(write_other),
DEF_STATUS_VAR(write_timedout),
DEF_STATUS_VAR(write_wal),
DEF_STATUS_VAR(flush_write_bytes),
DEF_STATUS_VAR(compact_read_bytes),
DEF_STATUS_VAR(compact_write_bytes),
DEF_STATUS_VAR(number_superversion_acquires),
DEF_STATUS_VAR(number_superversion_releases),
DEF_STATUS_VAR(number_superversion_cleanups),
DEF_STATUS_VAR(number_block_not_compressed),
DEF_STATUS_VAR_PTR("row_lock_deadlocks", &rocksdb_row_lock_deadlocks,
SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("row_lock_wait_timeouts",
&rocksdb_row_lock_wait_timeouts, SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("snapshot_conflict_errors",
&rocksdb_snapshot_conflict_errors, SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("wal_group_syncs", &rocksdb_wal_group_syncs,
SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("manual_compactions_processed",
&rocksdb_manual_compactions_processed, SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("manual_compactions_running",
&rocksdb_manual_compactions_running, SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("number_sst_entry_put", &rocksdb_num_sst_entry_put,
SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("number_sst_entry_delete", &rocksdb_num_sst_entry_delete,
SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("number_sst_entry_singledelete",
&rocksdb_num_sst_entry_singledelete, SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("number_sst_entry_merge", &rocksdb_num_sst_entry_merge,
SHOW_LONGLONG),
DEF_STATUS_VAR_PTR("number_sst_entry_other", &rocksdb_num_sst_entry_other,
SHOW_LONGLONG),
#ifndef DBUG_OFF
DEF_STATUS_VAR_PTR("num_get_for_update_calls",
&rocksdb_num_get_for_update_calls, SHOW_LONGLONG),
#endif
// the variables generated by SHOW_FUNC are sorted only by prefix (first
// arg in the tuple below), so make sure it is unique to make sorting
// deterministic as quick sort is not stable
{"rocksdb", reinterpret_cast<char *>(&show_myrocks_vars), SHOW_FUNC},
{"rocksdb_stall", reinterpret_cast<char *>(&show_rocksdb_stall_vars),
SHOW_FUNC},
{NullS, NullS, SHOW_LONG}};
/*
Background thread's main logic
*/
void Rdb_background_thread::run() {
// How many seconds to wait till flushing the WAL next time.
const int WAKE_UP_INTERVAL = 1;
timespec ts_next_sync;
set_timespec(ts_next_sync, WAKE_UP_INTERVAL);
for (;;) {
// Wait until the next timeout or until we receive a signal to stop the
// thread. Request to stop the thread should only be triggered when the
// storage engine is being unloaded.
RDB_MUTEX_LOCK_CHECK(m_signal_mutex);
const auto ret MY_ATTRIBUTE((__unused__)) =
mysql_cond_timedwait(&m_signal_cond, &m_signal_mutex, &ts_next_sync);
// Check that we receive only the expected error codes.
DBUG_ASSERT(ret == 0 || ret == ETIMEDOUT);
const bool local_stop = m_stop;
const bool local_save_stats = m_save_stats;
reset();
RDB_MUTEX_UNLOCK_CHECK(m_signal_mutex);
if (local_stop) {
// If we're here then that's because condition variable was signaled by
// another thread and we're shutting down. Break out the loop to make
// sure that shutdown thread can proceed.
break;
}
// This path should be taken only when the timer expired.
DBUG_ASSERT(ret == ETIMEDOUT);
if (local_save_stats) {
ddl_manager.persist_stats();
}
// Set the next timestamp for mysql_cond_timedwait() (which ends up calling
// pthread_cond_timedwait()) to wait on.
set_timespec(ts_next_sync, WAKE_UP_INTERVAL);
// Flush the WAL. Sync it for both background and never modes to copy
// InnoDB's behavior. For mode never, the wal file isn't even written,
// whereas background writes to the wal file, but issues the syncs in a
// background thread.
if (rdb && (rocksdb_flush_log_at_trx_commit != FLUSH_LOG_SYNC) &&
!rocksdb_db_options->allow_mmap_writes) {
const rocksdb::Status s = rdb->FlushWAL(true);
if (!s.ok()) {
rdb_handle_io_error(s, RDB_IO_ERROR_BG_THREAD);
}
}
// Recalculate statistics for indexes.
if (rocksdb_stats_recalc_rate) {
std::unordered_map<GL_INDEX_ID, std::shared_ptr<const Rdb_key_def>>
to_recalc;
if (rdb_indexes_to_recalc.empty()) {
struct Rdb_index_collector : public Rdb_tables_scanner {
int add_table(Rdb_tbl_def *tdef) override {
for (uint i = 0; i < tdef->m_key_count; i++) {
rdb_indexes_to_recalc.push_back(
tdef->m_key_descr_arr[i]->get_gl_index_id());
}
return HA_EXIT_SUCCESS;
}
} collector;
ddl_manager.scan_for_tables(&collector);
}
while (to_recalc.size() < rocksdb_stats_recalc_rate &&
!rdb_indexes_to_recalc.empty()) {
const auto index_id = rdb_indexes_to_recalc.back();
rdb_indexes_to_recalc.pop_back();
std::shared_ptr<const Rdb_key_def> keydef =
ddl_manager.safe_find(index_id);
if (keydef) {
to_recalc.insert(std::make_pair(keydef->get_gl_index_id(), keydef));
}
}
if (!to_recalc.empty()) {
calculate_stats(to_recalc, false);
}
}
}
// save remaining stats which might've left unsaved
ddl_manager.persist_stats();
}
/*
A background thread to handle manual compactions,
except for dropping indexes/tables. Every second, it checks
pending manual compactions, and it calls CompactRange if there is.
*/
void Rdb_manual_compaction_thread::run() {
mysql_mutex_init(0, &m_mc_mutex, MY_MUTEX_INIT_FAST);
RDB_MUTEX_LOCK_CHECK(m_signal_mutex);
for (;;) {
if (m_stop) {
break;
}
timespec ts;
set_timespec(ts, 1);
const auto ret MY_ATTRIBUTE((__unused__)) =
mysql_cond_timedwait(&m_signal_cond, &m_signal_mutex, &ts);
if (m_stop) {
break;
}
// make sure, no program error is returned
DBUG_ASSERT(ret == 0 || ret == ETIMEDOUT);
RDB_MUTEX_UNLOCK_CHECK(m_signal_mutex);
RDB_MUTEX_LOCK_CHECK(m_mc_mutex);
// Grab the first item and proceed, if not empty.
if (m_requests.empty()) {
RDB_MUTEX_UNLOCK_CHECK(m_mc_mutex);
RDB_MUTEX_LOCK_CHECK(m_signal_mutex);
continue;
}
Manual_compaction_request &mcr = m_requests.begin()->second;
DBUG_ASSERT(mcr.cf != nullptr);
DBUG_ASSERT(mcr.state == Manual_compaction_request::INITED);
mcr.state = Manual_compaction_request::RUNNING;
RDB_MUTEX_UNLOCK_CHECK(m_mc_mutex);
DBUG_ASSERT(mcr.state == Manual_compaction_request::RUNNING);
// NO_LINT_DEBUG
sql_print_information("Manual Compaction id %d cf %s started.", mcr.mc_id,
mcr.cf->GetName().c_str());
rocksdb_manual_compactions_running++;
if (rocksdb_debug_manual_compaction_delay > 0) {
my_sleep(rocksdb_debug_manual_compaction_delay * 1000000);
}
// CompactRange may take a very long time. On clean shutdown,
// it is cancelled by CancelAllBackgroundWork, then status is
// set to shutdownInProgress.
const rocksdb::Status s = rdb->CompactRange(
getCompactRangeOptions(mcr.concurrency), mcr.cf, mcr.start, mcr.limit);
rocksdb_manual_compactions_running--;
if (s.ok()) {
// NO_LINT_DEBUG
sql_print_information("Manual Compaction id %d cf %s ended.", mcr.mc_id,
mcr.cf->GetName().c_str());
} else {
// NO_LINT_DEBUG
sql_print_information("Manual Compaction id %d cf %s aborted. %s",
mcr.mc_id, mcr.cf->GetName().c_str(), s.getState());
if (!s.IsShutdownInProgress()) {
rdb_handle_io_error(s, RDB_IO_ERROR_BG_THREAD);
} else {
DBUG_ASSERT(m_requests.size() == 1);
}
}
rocksdb_manual_compactions_processed++;
clear_manual_compaction_request(mcr.mc_id, false);
RDB_MUTEX_LOCK_CHECK(m_signal_mutex);
}
clear_all_manual_compaction_requests();
DBUG_ASSERT(m_requests.empty());
RDB_MUTEX_UNLOCK_CHECK(m_signal_mutex);
mysql_mutex_destroy(&m_mc_mutex);
}
void Rdb_manual_compaction_thread::clear_all_manual_compaction_requests() {
RDB_MUTEX_LOCK_CHECK(m_mc_mutex);
m_requests.clear();
RDB_MUTEX_UNLOCK_CHECK(m_mc_mutex);
}
void Rdb_manual_compaction_thread::clear_manual_compaction_request(
int mc_id, bool init_only) {
bool erase = true;
RDB_MUTEX_LOCK_CHECK(m_mc_mutex);
auto it = m_requests.find(mc_id);
if (it != m_requests.end()) {
if (init_only) {
Manual_compaction_request mcr = it->second;
if (mcr.state != Manual_compaction_request::INITED) {
erase = false;
}
}
if (erase) {
m_requests.erase(it);
}
} else {
// Current code path guarantees that erasing by the same mc_id happens
// at most once. INITED state may be erased by a thread that requested
// the compaction. RUNNING state is erased by mc thread only.
DBUG_ASSERT(0);
}
RDB_MUTEX_UNLOCK_CHECK(m_mc_mutex);
}
int Rdb_manual_compaction_thread::request_manual_compaction(
rocksdb::ColumnFamilyHandle *cf, rocksdb::Slice *start,
rocksdb::Slice *limit, int concurrency) {
int mc_id = -1;
RDB_MUTEX_LOCK_CHECK(m_mc_mutex);
if (m_requests.size() >= rocksdb_max_manual_compactions) {
RDB_MUTEX_UNLOCK_CHECK(m_mc_mutex);
return mc_id;
}
Manual_compaction_request mcr;
mc_id = mcr.mc_id = ++m_latest_mc_id;
mcr.state = Manual_compaction_request::INITED;
mcr.cf = cf;
mcr.start = start;
mcr.limit = limit;
mcr.concurrency = concurrency;
m_requests.insert(std::make_pair(mcr.mc_id, mcr));
RDB_MUTEX_UNLOCK_CHECK(m_mc_mutex);
return mc_id;
}
bool Rdb_manual_compaction_thread::is_manual_compaction_finished(int mc_id) {
bool finished = false;
RDB_MUTEX_LOCK_CHECK(m_mc_mutex);
if (m_requests.count(mc_id) == 0) {
finished = true;
}
RDB_MUTEX_UNLOCK_CHECK(m_mc_mutex);
return finished;
}
/**
* Locking read + Not Found + Read Committed occurs if we accessed
* a row by Seek, tried to lock it, failed, released and reacquired the
* snapshot (because of READ COMMITTED mode) and the row was deleted by
* someone else in the meantime.
* If so, we either just skipping the row, or re-creating a snapshot
* and seek again. In both cases, Read Committed constraint is not broken.
*/
bool ha_rocksdb::should_skip_invalidated_record(const int rc) {
if ((m_lock_rows != RDB_LOCK_NONE && rc == HA_ERR_KEY_NOT_FOUND &&
my_core::thd_tx_isolation(ha_thd()) == ISO_READ_COMMITTED)) {
return true;
}
return false;
}
/**
* Indicating snapshot needs to be re-created and retrying seek again,
* instead of returning errors or empty set. This is normally applicable
* when hitting kBusy when locking the first row of the transaction,
* with Repeatable Read isolation level.
*/
bool ha_rocksdb::should_recreate_snapshot(const int rc,
const bool is_new_snapshot) {
if (should_skip_invalidated_record(rc) ||
(rc == HA_ERR_ROCKSDB_STATUS_BUSY && is_new_snapshot)) {
return true;
}
return false;
}
/**
* If calling put/delete/singledelete without locking the row,
* it is necessary to pass assume_tracked=false to RocksDB TX API.
* Read Free Replication and Blind Deletes are the cases when
* using TX API and skipping row locking.
*/
bool ha_rocksdb::can_assume_tracked(THD *thd) {
if (/* MARIAROCKS_NOT_YET use_read_free_rpl() ||*/ (THDVAR(thd, blind_delete_primary_key))) {
return false;
}
return true;
}
bool ha_rocksdb::check_bloom_and_set_bounds(
THD *thd, const Rdb_key_def &kd, const rocksdb::Slice &eq_cond,
const bool use_all_keys, size_t bound_len, uchar *const lower_bound,
uchar *const upper_bound, rocksdb::Slice *lower_bound_slice,
rocksdb::Slice *upper_bound_slice) {
bool can_use_bloom = can_use_bloom_filter(thd, kd, eq_cond, use_all_keys);
if (!can_use_bloom) {
setup_iterator_bounds(kd, eq_cond, bound_len, lower_bound, upper_bound,
lower_bound_slice, upper_bound_slice);
}
return can_use_bloom;
}
/**
Deciding if it is possible to use bloom filter or not.
@detail
Even if bloom filter exists, it is not always possible
to use bloom filter. If using bloom filter when you shouldn't,
false negative may happen -- fewer rows than expected may be returned.
It is users' responsibility to use bloom filter correctly.
If bloom filter does not exist, return value does not matter because
RocksDB does not use bloom filter internally.
@param kd
@param eq_cond Equal condition part of the key. This always includes
system index id (4 bytes).
@param use_all_keys True if all key parts are set with equal conditions.
This is aware of extended keys.
*/
bool ha_rocksdb::can_use_bloom_filter(THD *thd, const Rdb_key_def &kd,
const rocksdb::Slice &eq_cond,
const bool use_all_keys) {
bool can_use = false;
if (THDVAR(thd, skip_bloom_filter_on_read)) {
return can_use;
}
const rocksdb::SliceTransform *prefix_extractor = kd.get_extractor();
if (prefix_extractor) {
/*
This is an optimized use case for CappedPrefixTransform.
If eq_cond length >= prefix extractor length and if
all keys are used for equal lookup, it is
always possible to use bloom filter.
Prefix bloom filter can't be used on descending scan with
prefix lookup (i.e. WHERE id1=1 ORDER BY id2 DESC), because of
RocksDB's limitation. On ascending (or not sorting) scan,
keys longer than the capped prefix length will be truncated down
to the capped length and the resulting key is added to the bloom filter.
Keys shorter than the capped prefix length will be added to
the bloom filter. When keys are looked up, key conditionals
longer than the capped length can be used; key conditionals
shorter require all parts of the key to be available
for the short key match.
*/
if ((use_all_keys && prefix_extractor->InRange(eq_cond)) ||
prefix_extractor->SameResultWhenAppended(eq_cond)) {
can_use = true;
} else {
can_use = false;
}
} else {
/*
if prefix extractor is not defined, all key parts have to be
used by eq_cond.
*/
if (use_all_keys) {
can_use = true;
} else {
can_use = false;
}
}
return can_use;
}
/* For modules that need access to the global data structures */
rocksdb::TransactionDB *rdb_get_rocksdb_db() { return rdb; }
Rdb_cf_manager &rdb_get_cf_manager() { return cf_manager; }
const rocksdb::BlockBasedTableOptions &rdb_get_table_options() {
return *rocksdb_tbl_options;
}
bool rdb_is_ttl_enabled() { return rocksdb_enable_ttl; }
bool rdb_is_ttl_read_filtering_enabled() {
return rocksdb_enable_ttl_read_filtering;
}
#ifndef DBUG_OFF
int rdb_dbug_set_ttl_rec_ts() { return rocksdb_debug_ttl_rec_ts; }
int rdb_dbug_set_ttl_snapshot_ts() { return rocksdb_debug_ttl_snapshot_ts; }
int rdb_dbug_set_ttl_read_filter_ts() {
return rocksdb_debug_ttl_read_filter_ts;
}
bool rdb_dbug_set_ttl_ignore_pk() { return rocksdb_debug_ttl_ignore_pk; }
#endif
void rdb_update_global_stats(const operation_type &type, uint count,
bool is_system_table) {
DBUG_ASSERT(type < ROWS_MAX);
if (count == 0) {
return;
}
if (is_system_table) {
global_stats.system_rows[type].add(count);
} else {
global_stats.rows[type].add(count);
}
}
int rdb_get_table_perf_counters(const char *const tablename,
Rdb_perf_counters *const counters) {
DBUG_ASSERT(tablename != nullptr);
Rdb_table_handler *table_handler;
table_handler = rdb_open_tables.get_table_handler(tablename);
if (table_handler == nullptr) {
return HA_ERR_ROCKSDB_INVALID_TABLE;
}
counters->load(table_handler->m_table_perf_context);
rdb_open_tables.release_table_handler(table_handler);
return HA_EXIT_SUCCESS;
}
const char *get_rdb_io_error_string(const RDB_IO_ERROR_TYPE err_type) {
// If this assertion fails then this means that a member has been either added
// to or removed from RDB_IO_ERROR_TYPE enum and this function needs to be
// changed to return the appropriate value.
static_assert(RDB_IO_ERROR_LAST == 4, "Please handle all the error types.");
switch (err_type) {
case RDB_IO_ERROR_TYPE::RDB_IO_ERROR_TX_COMMIT:
return "RDB_IO_ERROR_TX_COMMIT";
case RDB_IO_ERROR_TYPE::RDB_IO_ERROR_DICT_COMMIT:
return "RDB_IO_ERROR_DICT_COMMIT";
case RDB_IO_ERROR_TYPE::RDB_IO_ERROR_BG_THREAD:
return "RDB_IO_ERROR_BG_THREAD";
case RDB_IO_ERROR_TYPE::RDB_IO_ERROR_GENERAL:
return "RDB_IO_ERROR_GENERAL";
default:
DBUG_ASSERT(false);
return "(unknown)";
}
}
// In case of core dump generation we want this function NOT to be optimized
// so that we can capture as much data as possible to debug the root cause
// more efficiently.
#ifdef __GNUC__
#endif
void rdb_handle_io_error(const rocksdb::Status status,
const RDB_IO_ERROR_TYPE err_type) {
if (status.IsIOError()) {
/* skip dumping core if write failed and we are allowed to do so */
#ifdef MARIAROCKS_NOT_YET
if (skip_core_dump_on_error) {
opt_core_file = false;
}
#endif
switch (err_type) {
case RDB_IO_ERROR_TX_COMMIT:
case RDB_IO_ERROR_DICT_COMMIT: {
rdb_log_status_error(status, "failed to write to WAL");
/* NO_LINT_DEBUG */
sql_print_error("MyRocks: aborting on WAL write error.");
abort();
break;
}
case RDB_IO_ERROR_BG_THREAD: {
rdb_log_status_error(status, "BG thread failed to write to RocksDB");
/* NO_LINT_DEBUG */
sql_print_error("MyRocks: aborting on BG write error.");
abort();
break;
}
case RDB_IO_ERROR_GENERAL: {
rdb_log_status_error(status, "failed on I/O");
/* NO_LINT_DEBUG */
sql_print_error("MyRocks: aborting on I/O error.");
abort();
break;
}
default:
DBUG_ASSERT(0);
break;
}
} else if (status.IsCorruption()) {
rdb_log_status_error(status, "data corruption detected!");
rdb_persist_corruption_marker();
/* NO_LINT_DEBUG */
sql_print_error("MyRocks: aborting because of data corruption.");
abort();
} else if (!status.ok()) {
switch (err_type) {
case RDB_IO_ERROR_DICT_COMMIT: {
rdb_log_status_error(status, "Failed to write to WAL (dictionary)");
/* NO_LINT_DEBUG */
sql_print_error("MyRocks: aborting on WAL write error.");
abort();
break;
}
default:
rdb_log_status_error(status, "Failed to read/write in RocksDB");
break;
}
}
}
#ifdef __GNUC__
#endif
Rdb_dict_manager *rdb_get_dict_manager(void) { return &dict_manager; }
Rdb_ddl_manager *rdb_get_ddl_manager(void) { return &ddl_manager; }
Rdb_binlog_manager *rdb_get_binlog_manager(void) { return &binlog_manager; }
void rocksdb_set_compaction_options(
my_core::THD *const thd MY_ATTRIBUTE((__unused__)),
my_core::st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr, const void *const save) {
if (var_ptr && save) {
*(uint64_t *)var_ptr = *(const uint64_t *)save;
}
const Rdb_compact_params params = {
(uint64_t)rocksdb_compaction_sequential_deletes,
(uint64_t)rocksdb_compaction_sequential_deletes_window,
(uint64_t)rocksdb_compaction_sequential_deletes_file_size};
if (properties_collector_factory) {
properties_collector_factory->SetCompactionParams(params);
}
}
void rocksdb_set_table_stats_sampling_pct(
my_core::THD *const thd MY_ATTRIBUTE((__unused__)),
my_core::st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr MY_ATTRIBUTE((__unused__)), const void *const save) {
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const uint32_t new_val = *static_cast<const uint32_t *>(save);
if (new_val != rocksdb_table_stats_sampling_pct) {
rocksdb_table_stats_sampling_pct = new_val;
if (properties_collector_factory) {
properties_collector_factory->SetTableStatsSamplingPct(
rocksdb_table_stats_sampling_pct);
}
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
/*
This function allows setting the rate limiter's bytes per second value
but only if the rate limiter is turned on which has to be done at startup.
If the rate is already 0 (turned off) or we are changing it to 0 (trying
to turn it off) this function will push a warning to the client and do
nothing.
This is similar to the code in innodb_doublewrite_update (found in
storage/innobase/handler/ha_innodb.cc).
*/
void rocksdb_set_rate_limiter_bytes_per_sec(
my_core::THD *const thd,
my_core::st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr MY_ATTRIBUTE((__unused__)), const void *const save) {
const uint64_t new_val = *static_cast<const uint64_t *>(save);
if (new_val == 0 || rocksdb_rate_limiter_bytes_per_sec == 0) {
/*
If a rate_limiter was not enabled at startup we can't change it nor
can we disable it if one was created at startup
*/
push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_WRONG_ARGUMENTS,
"RocksDB: rocksdb_rate_limiter_bytes_per_sec cannot "
"be dynamically changed to or from 0. Do a clean "
"shutdown if you want to change it from or to 0.");
} else if (new_val != rocksdb_rate_limiter_bytes_per_sec) {
/* Apply the new value to the rate limiter and store it locally */
DBUG_ASSERT(rocksdb_rate_limiter != nullptr);
rocksdb_rate_limiter_bytes_per_sec = new_val;
rocksdb_rate_limiter->SetBytesPerSecond(new_val);
}
}
void rocksdb_set_sst_mgr_rate_bytes_per_sec(
my_core::THD *const thd,
my_core::st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr MY_ATTRIBUTE((__unused__)), const void *const save) {
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const uint64_t new_val = *static_cast<const uint64_t *>(save);
if (new_val != rocksdb_sst_mgr_rate_bytes_per_sec) {
rocksdb_sst_mgr_rate_bytes_per_sec = new_val;
rocksdb_db_options->sst_file_manager->SetDeleteRateBytesPerSecond(
rocksdb_sst_mgr_rate_bytes_per_sec);
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
void rocksdb_set_delayed_write_rate(THD *thd, struct st_mysql_sys_var *var,
void *var_ptr, const void *save) {
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const uint64_t new_val = *static_cast<const uint64_t *>(save);
if (rocksdb_delayed_write_rate != new_val) {
rocksdb_delayed_write_rate = new_val;
rocksdb::Status s =
rdb->SetDBOptions({{"delayed_write_rate", std::to_string(new_val)}});
if (!s.ok()) {
/* NO_LINT_DEBUG */
sql_print_warning(
"MyRocks: failed to update delayed_write_rate. "
"status code = %d, status = %s",
s.code(), s.ToString().c_str());
}
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
void rocksdb_set_max_latest_deadlocks(THD *thd, struct st_mysql_sys_var *var,
void *var_ptr, const void *save) {
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const uint32_t new_val = *static_cast<const uint32_t *>(save);
if (rocksdb_max_latest_deadlocks != new_val) {
rocksdb_max_latest_deadlocks = new_val;
rdb->SetDeadlockInfoBufferSize(rocksdb_max_latest_deadlocks);
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
void rdb_set_collation_exception_list(const char *const exception_list) {
DBUG_ASSERT(rdb_collation_exceptions != nullptr);
if (!rdb_collation_exceptions->set_patterns(exception_list)) {
my_core::warn_about_bad_patterns(rdb_collation_exceptions,
"strict_collation_exceptions");
}
}
void rocksdb_set_collation_exception_list(THD *const thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
const void *const save) {
const char *const val = *static_cast<const char *const *>(save);
rdb_set_collation_exception_list(val == nullptr ? "" : val);
//psergey-todo: what is the purpose of the below??
const char *val_copy= val? my_strdup(PSI_INSTRUMENT_ME, val, MYF(0)): nullptr;
my_free(*static_cast<char**>(var_ptr));
*static_cast<const char**>(var_ptr) = val_copy;
}
int mysql_value_to_bool(struct st_mysql_value *value, my_bool *return_value) {
int new_value_type = value->value_type(value);
if (new_value_type == MYSQL_VALUE_TYPE_STRING) {
char buf[16];
int len = sizeof(buf);
const char *str = value->val_str(value, buf, &len);
if (str && (my_strcasecmp(system_charset_info, "true", str) == 0 ||
my_strcasecmp(system_charset_info, "on", str) == 0)) {
*return_value = TRUE;
} else if (str && (my_strcasecmp(system_charset_info, "false", str) == 0 ||
my_strcasecmp(system_charset_info, "off", str) == 0)) {
*return_value = FALSE;
} else {
return 1;
}
} else if (new_value_type == MYSQL_VALUE_TYPE_INT) {
long long intbuf;
value->val_int(value, &intbuf);
if (intbuf > 1) return 1;
*return_value = intbuf > 0 ? TRUE : FALSE;
} else {
return 1;
}
return 0;
}
int rocksdb_check_bulk_load(
THD *const thd, struct st_mysql_sys_var *var MY_ATTRIBUTE((__unused__)),
void *save, struct st_mysql_value *value) {
my_bool new_value;
if (mysql_value_to_bool(value, &new_value) != 0) {
return 1;
}
Rdb_transaction *tx = get_tx_from_thd(thd);
if (tx != nullptr) {
bool is_critical_error;
const int rc = tx->finish_bulk_load(&is_critical_error);
if (rc != 0 && is_critical_error) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: Error %d finalizing last SST file while "
"setting bulk loading variable",
rc);
THDVAR(thd, bulk_load) = 0;
return 1;
}
}
*static_cast<bool *>(save) = new_value;
return 0;
}
int rocksdb_check_bulk_load_allow_unsorted(
THD *const thd, struct st_mysql_sys_var *var MY_ATTRIBUTE((__unused__)),
void *save, struct st_mysql_value *value) {
my_bool new_value;
if (mysql_value_to_bool(value, &new_value) != 0) {
return 1;
}
if (THDVAR(thd, bulk_load)) {
my_error(ER_ERROR_WHEN_EXECUTING_COMMAND, MYF(0), "SET",
"Cannot change this setting while bulk load is enabled");
return 1;
}
*static_cast<bool *>(save) = new_value;
return 0;
}
static void rocksdb_set_max_background_jobs(THD *thd,
struct st_mysql_sys_var *const var,
void *const var_ptr,
const void *const save) {
DBUG_ASSERT(save != nullptr);
DBUG_ASSERT(rocksdb_db_options != nullptr);
DBUG_ASSERT(rocksdb_db_options->env != nullptr);
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const int new_val = *static_cast<const int *>(save);
if (rocksdb_db_options->max_background_jobs != new_val) {
rocksdb_db_options->max_background_jobs = new_val;
rocksdb::Status s =
rdb->SetDBOptions({{"max_background_jobs", std::to_string(new_val)}});
if (!s.ok()) {
/* NO_LINT_DEBUG */
sql_print_warning(
"MyRocks: failed to update max_background_jobs. "
"Status code = %d, status = %s.",
s.code(), s.ToString().c_str());
}
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
static void rocksdb_set_bytes_per_sync(
THD *thd MY_ATTRIBUTE((__unused__)),
struct st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr MY_ATTRIBUTE((__unused__)), const void *const save) {
DBUG_ASSERT(save != nullptr);
DBUG_ASSERT(rocksdb_db_options != nullptr);
DBUG_ASSERT(rocksdb_db_options->env != nullptr);
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const ulonglong new_val = *static_cast<const ulonglong *>(save);
if (rocksdb_db_options->bytes_per_sync != new_val) {
rocksdb_db_options->bytes_per_sync = new_val;
rocksdb::Status s =
rdb->SetDBOptions({{"bytes_per_sync", std::to_string(new_val)}});
if (!s.ok()) {
/* NO_LINT_DEBUG */
sql_print_warning(
"MyRocks: failed to update max_background_jobs. "
"Status code = %d, status = %s.",
s.code(), s.ToString().c_str());
}
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
static void rocksdb_set_wal_bytes_per_sync(
THD *thd MY_ATTRIBUTE((__unused__)),
struct st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *const var_ptr MY_ATTRIBUTE((__unused__)), const void *const save) {
DBUG_ASSERT(save != nullptr);
DBUG_ASSERT(rocksdb_db_options != nullptr);
DBUG_ASSERT(rocksdb_db_options->env != nullptr);
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
const ulonglong new_val = *static_cast<const ulonglong *>(save);
if (rocksdb_db_options->wal_bytes_per_sync != new_val) {
rocksdb_db_options->wal_bytes_per_sync = new_val;
rocksdb::Status s =
rdb->SetDBOptions({{"wal_bytes_per_sync", std::to_string(new_val)}});
if (!s.ok()) {
/* NO_LINT_DEBUG */
sql_print_warning(
"MyRocks: failed to update max_background_jobs. "
"Status code = %d, status = %s.",
s.code(), s.ToString().c_str());
}
}
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
/*
Validating and updating block cache size via sys_var::check path.
SetCapacity may take seconds when reducing block cache, and
sys_var::update holds LOCK_global_system_variables mutex, so
updating block cache size is done at check path instead.
*/
static int rocksdb_validate_set_block_cache_size(
THD *thd MY_ATTRIBUTE((__unused__)),
struct st_mysql_sys_var *const var MY_ATTRIBUTE((__unused__)),
void *var_ptr, struct st_mysql_value *value) {
DBUG_ASSERT(value != nullptr);
long long new_value;
/* value is NULL */
if (value->val_int(value, &new_value)) {
return HA_EXIT_FAILURE;
}
if (new_value < RDB_MIN_BLOCK_CACHE_SIZE ||
(uint64_t)new_value > (uint64_t)LLONG_MAX) {
return HA_EXIT_FAILURE;
}
RDB_MUTEX_LOCK_CHECK(rdb_block_cache_resize_mutex);
const rocksdb::BlockBasedTableOptions &table_options =
rdb_get_table_options();
if (rocksdb_block_cache_size != new_value && table_options.block_cache) {
table_options.block_cache->SetCapacity(new_value);
}
*static_cast<int64_t *>(var_ptr) = static_cast<int64_t>(new_value);
RDB_MUTEX_UNLOCK_CHECK(rdb_block_cache_resize_mutex);
return HA_EXIT_SUCCESS;
}
static int rocksdb_validate_update_cf_options(
THD * /* unused */, struct st_mysql_sys_var * /*unused*/, void *save,
struct st_mysql_value *value) {
char buff[STRING_BUFFER_USUAL_SIZE];
const char *str;
int length;
length = sizeof(buff);
str = value->val_str(value, buff, &length);
// In some cases, str can point to buff in the stack.
// This can cause invalid memory access after validation is finished.
// To avoid this kind case, let's alway duplicate the str if str is not
// nullptr
*(const char **)save = (str == nullptr) ? nullptr : my_strdup(PSI_INSTRUMENT_ME, str, MYF(0));
if (str == nullptr) {
return HA_EXIT_SUCCESS;
}
Rdb_cf_options::Name_to_config_t option_map;
// Basic sanity checking and parsing the options into a map. If this fails
// then there's no point to proceed.
if (!Rdb_cf_options::parse_cf_options(str, &option_map)) {
my_error(ER_WRONG_VALUE_FOR_VAR, MYF(0), "rocksdb_update_cf_options", str);
// Free what we've copied with my_strdup above.
my_free((void*)(*(const char **)save));
return HA_EXIT_FAILURE;
}
// Loop through option_map and create missing column families
for (Rdb_cf_options::Name_to_config_t::iterator it = option_map.begin();
it != option_map.end(); ++it) {
cf_manager.get_or_create_cf(rdb, it->first);
}
return HA_EXIT_SUCCESS;
}
static void rocksdb_set_update_cf_options(
THD *const /* unused */, struct st_mysql_sys_var *const /* unused */,
void *const var_ptr, const void *const save) {
const char *const val = *static_cast<const char *const *>(save);
RDB_MUTEX_LOCK_CHECK(rdb_sysvars_mutex);
my_free(*reinterpret_cast<char **>(var_ptr));
if (!val) {
*reinterpret_cast<char **>(var_ptr) = nullptr;
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
return;
}
DBUG_ASSERT(val != nullptr);
// Reset the pointers regardless of how much success we had with updating
// the CF options. This will results in consistent behavior and avoids
// dealing with cases when only a subset of CF-s was successfully updated.
*reinterpret_cast<const char **>(var_ptr) = val;
// Do the real work of applying the changes.
Rdb_cf_options::Name_to_config_t option_map;
// This should never fail, because of rocksdb_validate_update_cf_options
if (!Rdb_cf_options::parse_cf_options(val, &option_map)) {
my_free(*reinterpret_cast<char**>(var_ptr));
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
return;
}
// For each CF we have, see if we need to update any settings.
for (const auto &cf_name : cf_manager.get_cf_names()) {
DBUG_ASSERT(!cf_name.empty());
rocksdb::ColumnFamilyHandle *cfh = cf_manager.get_cf(cf_name);
DBUG_ASSERT(cfh != nullptr);
const auto it = option_map.find(cf_name);
std::string per_cf_options = (it != option_map.end()) ? it->second : "";
if (!per_cf_options.empty()) {
Rdb_cf_options::Name_to_config_t opt_map;
rocksdb::Status s = rocksdb::StringToMap(per_cf_options, &opt_map);
if (s != rocksdb::Status::OK()) {
// NO_LINT_DEBUG
sql_print_warning(
"MyRocks: failed to convert the options for column "
"family '%s' to a map. %s",
cf_name.c_str(), s.ToString().c_str());
} else {
DBUG_ASSERT(rdb != nullptr);
// Finally we can apply the options.
s = rdb->SetOptions(cfh, opt_map);
if (s != rocksdb::Status::OK()) {
// NO_LINT_DEBUG
sql_print_warning(
"MyRocks: failed to apply the options for column "
"family '%s'. %s",
cf_name.c_str(), s.ToString().c_str());
} else {
// NO_LINT_DEBUG
sql_print_information(
"MyRocks: options for column family '%s' "
"have been successfully updated.",
cf_name.c_str());
// Make sure that data is internally consistent as well and update
// the CF options. This is necessary also to make sure that the CF
// options will be correctly reflected in the relevant table:
// ROCKSDB_CF_OPTIONS in INFORMATION_SCHEMA.
rocksdb::ColumnFamilyOptions cf_options = rdb->GetOptions(cfh);
std::string updated_options;
s = rocksdb::GetStringFromColumnFamilyOptions(&updated_options,
cf_options);
DBUG_ASSERT(s == rocksdb::Status::OK());
DBUG_ASSERT(!updated_options.empty());
cf_manager.update_options_map(cf_name, updated_options);
}
}
}
}
// Our caller (`plugin_var_memalloc_global_update`) will call `my_free` to
// free up resources used before.
RDB_MUTEX_UNLOCK_CHECK(rdb_sysvars_mutex);
}
void rdb_queue_save_stats_request() { rdb_bg_thread.request_save_stats(); }
#ifdef MARIAROCKS_NOT_YET // MDEV-10976
void ha_rocksdb::rpl_before_delete_rows() {
DBUG_ENTER_FUNC();
m_in_rpl_delete_rows = true;
DBUG_VOID_RETURN;
}
void ha_rocksdb::rpl_after_delete_rows() {
DBUG_ENTER_FUNC();
m_in_rpl_delete_rows = false;
DBUG_VOID_RETURN;
}
void ha_rocksdb::rpl_before_update_rows() {
DBUG_ENTER_FUNC();
m_in_rpl_update_rows = true;
DBUG_VOID_RETURN;
}
void ha_rocksdb::rpl_after_update_rows() {
DBUG_ENTER_FUNC();
m_in_rpl_update_rows = false;
DBUG_VOID_RETURN;
}
#if 0
bool ha_rocksdb::is_read_free_rpl_table() const {
return table->s && m_tbl_def->m_is_read_free_rpl_table;
}
#endif
/**
@brief
Read Free Replication can be used or not. Returning true means
Read Free Replication can be used.
*/
bool ha_rocksdb::use_read_free_rpl() const {
DBUG_ENTER_FUNC();
if (!ha_thd()->rli_slave || table->triggers || /* !is_read_free_rpl_table()*/ ) {
DBUG_RETURN(false);
}
#if 0 // MARIAROCKS_NOT_YET : read-free replication is not supported
switch (rocksdb_read_free_rpl) {
case read_free_rpl_type::OFF:
DBUG_RETURN(false);
case read_free_rpl_type::PK_ONLY:
DBUG_RETURN(!has_hidden_pk(table) && table->s->keys == 1);
case read_free_rpl_type::PK_SK:
DBUG_RETURN(!has_hidden_pk(table));
}
#else
DBUG_RETURN(false);
#endif
DBUG_ASSERT(false);
DBUG_RETURN(false);
}
#endif // MARIAROCKS_NOT_YET
double ha_rocksdb::read_time(uint index, uint ranges, ha_rows rows) {
DBUG_ENTER_FUNC();
if (index != table->s->primary_key) {
/* Non covering index range scan */
DBUG_RETURN(handler::read_time(index, ranges, rows));
}
DBUG_RETURN((rows / 20.0) + 1);
}
void ha_rocksdb::print_error(int error, myf errflag) {
if (error == HA_ERR_ROCKSDB_STATUS_BUSY) {
error = HA_ERR_LOCK_DEADLOCK;
}
handler::print_error(error, errflag);
}
std::string make_table_version_lookup_key(const char *path) {
std::string res;
char buf[Rdb_key_def::INDEX_NUMBER_SIZE];
rdb_netbuf_store_index((uchar*)buf, Rdb_key_def::TABLE_VERSION);
res.append(buf, Rdb_key_def::INDEX_NUMBER_SIZE);
res.append("MariaDB:table-version:");
res.append(path);
return res;
}
/*
Save the table version in the data dictionary
@param wb Where to write
@param path Table's path "./db_name/table_name"
@param version Version
*/
void save_table_version(rocksdb::WriteBatch *wb, const char *path,
ulonglong version) {
ulonglong val= htobe64(version);
auto lookup_key = make_table_version_lookup_key(path);
wb->Put(dict_manager.get_system_cf(), lookup_key,
rocksdb::Slice((const char*)&val, sizeof(val)));
}
/*
@brief Read table's version from the data dictionary
@param path The table's path, "./db_name/table_name"
@return
number TTable version as stored in the data dictionary
0 If there's no table version stored.
-1 Read error
*/
ulonglong get_table_version(const char *path) {
auto lookup_key = make_table_version_lookup_key(path);
std::string value;
ulonglong res;
auto s = dict_manager.get_value(rocksdb::Slice(lookup_key), &value);
if (s.IsNotFound()) {
res = 0;
} else if (s.ok()) {
// decode the value
if (value.length() == sizeof(res)) {
memcpy(&res, value.data(), sizeof(res));
res = be64toh(res);
}
else
res = ulonglong(-1);
} else {
res = ulonglong(-1);
}
return res;
}
void delete_table_version(rocksdb::WriteBatch *wb, const char *path) {
auto lookup_key = make_table_version_lookup_key(path);
wb->Delete(dict_manager.get_system_cf(), lookup_key);
}
ulonglong ha_rocksdb::table_version() const {
return get_table_version(table->s->path.str);
}
std::string rdb_corruption_marker_file_name() {
std::string ret(rocksdb_datadir);
ret.append("/ROCKSDB_CORRUPTED");
return ret;
}
void sql_print_verbose_info(const char *format, ...)
{
va_list args;
if (global_system_variables.log_warnings > 2) {
va_start(args, format);
sql_print_information_v(format, args);
va_end(args);
}
}
} // namespace myrocks
/**
Construct and emit duplicate key error message using information
from table's record buffer.
@sa print_keydup_error(table, key, msg, errflag, thd, org_table_name).
*/
void print_keydup_error(TABLE *table, KEY *key, myf errflag,
const THD *thd, const char *org_table_name)
{
print_keydup_error(table, key, ER(ER_DUP_ENTRY_WITH_KEY_NAME), errflag);
}
/*
Register the storage engine plugin outside of myrocks namespace
so that mysql_declare_plugin does not get confused when it does
its name generation.
*/
struct st_mysql_storage_engine rocksdb_storage_engine = {
MYSQL_HANDLERTON_INTERFACE_VERSION};
maria_declare_plugin(rocksdb_se){
MYSQL_STORAGE_ENGINE_PLUGIN, /* Plugin Type */
&rocksdb_storage_engine, /* Plugin Descriptor */
"ROCKSDB", /* Plugin Name */
"Monty Program Ab", /* Plugin Author */
"RocksDB storage engine", /* Plugin Description */
PLUGIN_LICENSE_GPL, /* Plugin Licence */
myrocks::rocksdb_init_func, /* Plugin Entry Point */
myrocks::rocksdb_done_func, /* Plugin Deinitializer */
0x0001, /* version number (0.1) */
myrocks::rocksdb_status_vars, /* status variables */
myrocks::rocksdb_system_variables, /* system variables */
"1.0", /* string version */
myrocks::MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
},
myrocks::rdb_i_s_cfstats, myrocks::rdb_i_s_dbstats,
myrocks::rdb_i_s_perf_context, myrocks::rdb_i_s_perf_context_global,
myrocks::rdb_i_s_cfoptions, myrocks::rdb_i_s_compact_stats,
myrocks::rdb_i_s_global_info, myrocks::rdb_i_s_ddl,
myrocks::rdb_i_s_sst_props, myrocks::rdb_i_s_index_file_map,
myrocks::rdb_i_s_lock_info, myrocks::rdb_i_s_trx_info,
myrocks::rdb_i_s_deadlock_info
maria_declare_plugin_end;
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