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mariadb/storage/rocksdb/rdb_i_s.cc
Oleksandr Byelkin f52954ef42 Merge commit '10.4' into 10.5
2023-07-20 11:54:52 +02:00

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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 */
#include <my_global.h>
/* C++ standard header files */
#include <algorithm>
#include <cctype>
#include <map>
#include <string>
#include <vector>
/* MySQL header files */
#include <sql_show.h>
/* RocksDB header files */
#include "rocksdb/compaction_filter.h"
#include "rocksdb/convenience.h"
#include "rocksdb/filter_policy.h"
#include "rocksdb/memtablerep.h"
#include "rocksdb/merge_operator.h"
#include "rocksdb/slice_transform.h"
#include "rocksdb/utilities/transaction_db.h"
/* MyRocks header files */
#include "./ha_rocksdb.h"
#include "./ha_rocksdb_proto.h"
#include "./rdb_cf_manager.h"
#include "./rdb_datadic.h"
#include "./rdb_utils.h"
#include "./rdb_mariadb_server_port.h"
#include "./rdb_mariadb_port.h"
namespace myrocks {
/**
Define the INFORMATION_SCHEMA (I_S) structures needed by MyRocks storage
engine.
*/
#define ROCKSDB_FIELD_INFO(_name_, _len_, _type_, _flag_) \
{ _name_, _len_, _type_, 0, _flag_, nullptr, 0 }
#define ROCKSDB_FIELD_INFO_END \
ROCKSDB_FIELD_INFO(nullptr, 0, MYSQL_TYPE_NULL, 0)
/*
Support for INFORMATION_SCHEMA.ROCKSDB_CFSTATS dynamic table
*/
namespace RDB_CFSTATS_FIELD {
enum { CF_NAME = 0, STAT_TYPE, VALUE };
} // namespace RDB_CFSTATS_FIELD
using Column = Show::Column;
using CEnd = Show::CEnd;
using Varchar = Show::Varchar;
using SShort = Show::SShort;
using SLong = Show::SLong;
using SLonglong = Show::SLonglong;
using ULonglong = Show::ULonglong;
using Double = Show::Double;
static ST_FIELD_INFO rdb_i_s_cfstats_fields_info[] = {
Column("CF_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("STAT_TYPE", Varchar(NAME_LEN + 1), NOT_NULL),
Column("VALUE", SLonglong(), NOT_NULL),
CEnd()
};
static int rdb_i_s_cfstats_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
DBUG_ASSERT(tables->table->field != nullptr);
int ret = 0;
uint64_t val;
const std::vector<std::pair<const std::string, std::string>> cf_properties = {
{rocksdb::DB::Properties::kNumImmutableMemTable,
"NUM_IMMUTABLE_MEM_TABLE"},
{rocksdb::DB::Properties::kMemTableFlushPending,
"MEM_TABLE_FLUSH_PENDING"},
{rocksdb::DB::Properties::kCompactionPending, "COMPACTION_PENDING"},
{rocksdb::DB::Properties::kCurSizeActiveMemTable,
"CUR_SIZE_ACTIVE_MEM_TABLE"},
{rocksdb::DB::Properties::kCurSizeAllMemTables,
"CUR_SIZE_ALL_MEM_TABLES"},
{rocksdb::DB::Properties::kNumEntriesActiveMemTable,
"NUM_ENTRIES_ACTIVE_MEM_TABLE"},
{rocksdb::DB::Properties::kNumEntriesImmMemTables,
"NUM_ENTRIES_IMM_MEM_TABLES"},
{rocksdb::DB::Properties::kEstimateTableReadersMem,
"NON_BLOCK_CACHE_SST_MEM_USAGE"},
{rocksdb::DB::Properties::kNumLiveVersions, "NUM_LIVE_VERSIONS"}};
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
const Rdb_cf_manager &cf_manager = rdb_get_cf_manager();
for (const auto &cf_name : cf_manager.get_cf_names()) {
DBUG_ASSERT(!cf_name.empty());
rocksdb::ColumnFamilyHandle *cfh = cf_manager.get_cf(cf_name);
if (cfh == nullptr) {
continue;
}
for (const auto &property : cf_properties) {
if (!rdb->GetIntProperty(cfh, property.first, &val)) {
continue;
}
tables->table->field[RDB_CFSTATS_FIELD::CF_NAME]->store(
cf_name.c_str(), cf_name.size(), system_charset_info);
tables->table->field[RDB_CFSTATS_FIELD::STAT_TYPE]->store(
property.second.c_str(), property.second.size(), system_charset_info);
tables->table->field[RDB_CFSTATS_FIELD::VALUE]->store(val, true);
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret) {
DBUG_RETURN(ret);
}
}
}
DBUG_RETURN(0);
}
static int rdb_i_s_cfstats_init(void *p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_cfstats_fields_info;
schema->fill_table = rdb_i_s_cfstats_fill_table;
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_DBSTATS dynamic table
*/
namespace RDB_DBSTATS_FIELD {
enum { STAT_TYPE = 0, VALUE };
} // namespace RDB_DBSTATS_FIELD
static ST_FIELD_INFO rdb_i_s_dbstats_fields_info[] = {
Column("STAT_TYPE", Varchar(NAME_LEN + 1), NOT_NULL),
Column("VALUE", SLonglong(), NOT_NULL),
CEnd()};
static int rdb_i_s_dbstats_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
DBUG_ASSERT(tables->table->field != nullptr);
int ret = 0;
uint64_t val;
const std::vector<std::pair<std::string, std::string>> db_properties = {
{rocksdb::DB::Properties::kBackgroundErrors, "DB_BACKGROUND_ERRORS"},
{rocksdb::DB::Properties::kNumSnapshots, "DB_NUM_SNAPSHOTS"},
{rocksdb::DB::Properties::kOldestSnapshotTime,
"DB_OLDEST_SNAPSHOT_TIME"}};
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
const rocksdb::BlockBasedTableOptions &table_options =
rdb_get_table_options();
for (const auto &property : db_properties) {
if (!rdb->GetIntProperty(property.first, &val)) {
continue;
}
tables->table->field[RDB_DBSTATS_FIELD::STAT_TYPE]->store(
property.second.c_str(), property.second.size(), system_charset_info);
tables->table->field[RDB_DBSTATS_FIELD::VALUE]->store(val, true);
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret) {
DBUG_RETURN(ret);
}
}
/*
Currently, this can only show the usage of a block cache allocated
directly by the handlerton. If the column family config specifies a block
cache (i.e. the column family option has a parameter such as
block_based_table_factory={block_cache=1G}), then the block cache is
allocated within the rocksdb::GetColumnFamilyOptionsFromString().
There is no interface to retrieve this block cache, nor fetch the usage
information from the column family.
*/
val = (table_options.block_cache ? table_options.block_cache->GetUsage() : 0);
tables->table->field[RDB_DBSTATS_FIELD::STAT_TYPE]->store(
STRING_WITH_LEN("DB_BLOCK_CACHE_USAGE"), system_charset_info);
tables->table->field[RDB_DBSTATS_FIELD::VALUE]->store(val, true);
ret =
static_cast<int>(my_core::schema_table_store_record(thd, tables->table));
DBUG_RETURN(ret);
}
static int rdb_i_s_dbstats_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_dbstats_fields_info;
schema->fill_table = rdb_i_s_dbstats_fill_table;
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_PERF_CONTEXT dynamic table
*/
namespace RDB_PERF_CONTEXT_FIELD {
enum { TABLE_SCHEMA = 0, TABLE_NAME, PARTITION_NAME, STAT_TYPE, VALUE };
} // namespace RDB_PERF_CONTEXT_FIELD
static ST_FIELD_INFO rdb_i_s_perf_context_fields_info[] = {
Column("TABLE_SCHEMA", Varchar(NAME_LEN + 1), NOT_NULL),
Column("TABLE_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("PARTITION_NAME", Varchar(NAME_LEN + 1), NULLABLE),
Column("STAT_TYPE", Varchar(NAME_LEN + 1), NOT_NULL),
Column("VALUE", SLonglong(), NOT_NULL),
CEnd()};
static int rdb_i_s_perf_context_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
int ret = 0;
Field **field = tables->table->field;
DBUG_ASSERT(field != nullptr);
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
const std::vector<std::string> tablenames = rdb_get_open_table_names();
for (const auto &it : tablenames) {
std::string str, dbname, tablename, partname;
Rdb_perf_counters counters;
int rc = rdb_normalize_tablename(it, &str);
if (rc != HA_EXIT_SUCCESS) {
DBUG_RETURN(rc);
}
if (rdb_split_normalized_tablename(str, &dbname, &tablename, &partname)) {
continue;
}
if (rdb_get_table_perf_counters(it.c_str(), &counters)) {
continue;
}
field[RDB_PERF_CONTEXT_FIELD::TABLE_SCHEMA]->store(
dbname.c_str(), dbname.size(), system_charset_info);
field[RDB_PERF_CONTEXT_FIELD::TABLE_NAME]->store(
tablename.c_str(), tablename.size(), system_charset_info);
if (partname.size() == 0) {
field[RDB_PERF_CONTEXT_FIELD::PARTITION_NAME]->set_null();
} else {
field[RDB_PERF_CONTEXT_FIELD::PARTITION_NAME]->set_notnull();
field[RDB_PERF_CONTEXT_FIELD::PARTITION_NAME]->store(
partname.c_str(), partname.size(), system_charset_info);
}
for (int i = 0; i < PC_MAX_IDX; i++) {
field[RDB_PERF_CONTEXT_FIELD::STAT_TYPE]->store(
rdb_pc_stat_types[i].c_str(), rdb_pc_stat_types[i].size(),
system_charset_info);
field[RDB_PERF_CONTEXT_FIELD::VALUE]->store(counters.m_value[i], true);
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret) {
DBUG_RETURN(ret);
}
}
}
DBUG_RETURN(0);
}
static int rdb_i_s_perf_context_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_perf_context_fields_info;
schema->fill_table = rdb_i_s_perf_context_fill_table;
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_PERF_CONTEXT_GLOBAL dynamic table
*/
namespace RDB_PERF_CONTEXT_GLOBAL_FIELD {
enum { STAT_TYPE = 0, VALUE };
} // namespace RDB_PERF_CONTEXT_GLOBAL_FIELD
static ST_FIELD_INFO rdb_i_s_perf_context_global_fields_info[] = {
Column("STAT_TYPE", Varchar(NAME_LEN + 1), NOT_NULL),
Column("VALUE", SLonglong(), NOT_NULL),
CEnd()};
static int rdb_i_s_perf_context_global_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
DBUG_ASSERT(tables->table->field != nullptr);
int ret = 0;
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
// Get a copy of the global perf counters.
Rdb_perf_counters global_counters;
rdb_get_global_perf_counters(&global_counters);
for (int i = 0; i < PC_MAX_IDX; i++) {
tables->table->field[RDB_PERF_CONTEXT_GLOBAL_FIELD::STAT_TYPE]->store(
rdb_pc_stat_types[i].c_str(), rdb_pc_stat_types[i].size(),
system_charset_info);
tables->table->field[RDB_PERF_CONTEXT_GLOBAL_FIELD::VALUE]->store(
global_counters.m_value[i], true);
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret) {
DBUG_RETURN(ret);
}
}
DBUG_RETURN(0);
}
static int rdb_i_s_perf_context_global_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_perf_context_global_fields_info;
schema->fill_table = rdb_i_s_perf_context_global_fill_table;
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_CFOPTIONS dynamic table
*/
namespace RDB_CFOPTIONS_FIELD {
enum { CF_NAME = 0, OPTION_TYPE, VALUE };
} // namespace RDB_CFOPTIONS_FIELD
static ST_FIELD_INFO rdb_i_s_cfoptions_fields_info[] = {
Column("CF_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("OPTION_TYPE", Varchar(NAME_LEN + 1), NOT_NULL),
Column("VALUE", Varchar(NAME_LEN + 1), NOT_NULL),
CEnd()};
static int rdb_i_s_cfoptions_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
int ret = 0;
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
Rdb_cf_manager &cf_manager = rdb_get_cf_manager();
for (const auto &cf_name : cf_manager.get_cf_names()) {
std::string val;
rocksdb::ColumnFamilyOptions opts;
DBUG_ASSERT(!cf_name.empty());
cf_manager.get_cf_options(cf_name, &opts);
std::vector<std::pair<std::string, std::string>> cf_option_types = {
{"COMPARATOR", opts.comparator == nullptr
? "NULL"
: std::string(opts.comparator->Name())},
{"MERGE_OPERATOR", opts.merge_operator == nullptr
? "NULL"
: std::string(opts.merge_operator->Name())},
{"COMPACTION_FILTER",
opts.compaction_filter == nullptr
? "NULL"
: std::string(opts.compaction_filter->Name())},
{"COMPACTION_FILTER_FACTORY",
opts.compaction_filter_factory == nullptr
? "NULL"
: std::string(opts.compaction_filter_factory->Name())},
{"WRITE_BUFFER_SIZE", std::to_string(opts.write_buffer_size)},
{"MAX_WRITE_BUFFER_NUMBER",
std::to_string(opts.max_write_buffer_number)},
{"MIN_WRITE_BUFFER_NUMBER_TO_MERGE",
std::to_string(opts.min_write_buffer_number_to_merge)},
{"NUM_LEVELS", std::to_string(opts.num_levels)},
{"LEVEL0_FILE_NUM_COMPACTION_TRIGGER",
std::to_string(opts.level0_file_num_compaction_trigger)},
{"LEVEL0_SLOWDOWN_WRITES_TRIGGER",
std::to_string(opts.level0_slowdown_writes_trigger)},
{"LEVEL0_STOP_WRITES_TRIGGER",
std::to_string(opts.level0_stop_writes_trigger)},
{"MAX_MEM_COMPACTION_LEVEL",
std::to_string(opts.max_mem_compaction_level)},
{"TARGET_FILE_SIZE_BASE", std::to_string(opts.target_file_size_base)},
{"TARGET_FILE_SIZE_MULTIPLIER",
std::to_string(opts.target_file_size_multiplier)},
{"MAX_BYTES_FOR_LEVEL_BASE",
std::to_string(opts.max_bytes_for_level_base)},
{"LEVEL_COMPACTION_DYNAMIC_LEVEL_BYTES",
opts.level_compaction_dynamic_level_bytes ? "ON" : "OFF"},
{"MAX_BYTES_FOR_LEVEL_MULTIPLIER",
std::to_string(opts.max_bytes_for_level_multiplier)},
{"SOFT_RATE_LIMIT", std::to_string(opts.soft_rate_limit)},
{"HARD_RATE_LIMIT", std::to_string(opts.hard_rate_limit)},
{"RATE_LIMIT_DELAY_MAX_MILLISECONDS",
std::to_string(opts.rate_limit_delay_max_milliseconds)},
{"ARENA_BLOCK_SIZE", std::to_string(opts.arena_block_size)},
{"DISABLE_AUTO_COMPACTIONS",
opts.disable_auto_compactions ? "ON" : "OFF"},
{"PURGE_REDUNDANT_KVS_WHILE_FLUSH",
opts.purge_redundant_kvs_while_flush ? "ON" : "OFF"},
{"MAX_SEQUENTIAL_SKIP_IN_ITERATIONS",
std::to_string(opts.max_sequential_skip_in_iterations)},
{"MEMTABLE_FACTORY", opts.memtable_factory == nullptr
? "NULL"
: opts.memtable_factory->Name()},
{"INPLACE_UPDATE_SUPPORT", opts.inplace_update_support ? "ON" : "OFF"},
{"INPLACE_UPDATE_NUM_LOCKS",
opts.inplace_update_num_locks ? "ON" : "OFF"},
{"MEMTABLE_PREFIX_BLOOM_BITS_RATIO",
std::to_string(opts.memtable_prefix_bloom_size_ratio)},
{"MEMTABLE_PREFIX_BLOOM_HUGE_PAGE_TLB_SIZE",
std::to_string(opts.memtable_huge_page_size)},
{"BLOOM_LOCALITY", std::to_string(opts.bloom_locality)},
{"MAX_SUCCESSIVE_MERGES", std::to_string(opts.max_successive_merges)},
{"OPTIMIZE_FILTERS_FOR_HITS",
(opts.optimize_filters_for_hits ? "ON" : "OFF")},
};
// get MAX_BYTES_FOR_LEVEL_MULTIPLIER_ADDITIONAL option value
val = opts.max_bytes_for_level_multiplier_additional.empty() ? "NULL" : "";
for (const auto &level : opts.max_bytes_for_level_multiplier_additional) {
val.append(std::to_string(level) + ":");
}
val.pop_back();
cf_option_types.push_back(
{"MAX_BYTES_FOR_LEVEL_MULTIPLIER_ADDITIONAL", val});
// get COMPRESSION_TYPE option value
GetStringFromCompressionType(&val, opts.compression);
if (val.empty()) {
val = "NULL";
}
cf_option_types.push_back({"COMPRESSION_TYPE", val});
// get COMPRESSION_PER_LEVEL option value
val = opts.compression_per_level.empty() ? "NULL" : "";
for (const auto &compression_type : opts.compression_per_level) {
std::string res;
GetStringFromCompressionType(&res, compression_type);
if (!res.empty()) {
val.append(res + ":");
}
}
val.pop_back();
cf_option_types.push_back({"COMPRESSION_PER_LEVEL", val});
// get compression_opts value
val = std::to_string(opts.compression_opts.window_bits) + ":";
val.append(std::to_string(opts.compression_opts.level) + ":");
val.append(std::to_string(opts.compression_opts.strategy));
cf_option_types.push_back({"COMPRESSION_OPTS", val});
// bottommost_compression
if (opts.bottommost_compression) {
std::string res;
GetStringFromCompressionType(&res, opts.bottommost_compression);
if (!res.empty()) {
cf_option_types.push_back({"BOTTOMMOST_COMPRESSION", res});
}
}
// get PREFIX_EXTRACTOR option
cf_option_types.push_back(
{"PREFIX_EXTRACTOR", opts.prefix_extractor == nullptr
? "NULL"
: std::string(opts.prefix_extractor->Name())});
// get COMPACTION_STYLE option
switch (opts.compaction_style) {
case rocksdb::kCompactionStyleLevel:
val = "kCompactionStyleLevel";
break;
case rocksdb::kCompactionStyleUniversal:
val = "kCompactionStyleUniversal";
break;
case rocksdb::kCompactionStyleFIFO:
val = "kCompactionStyleFIFO";
break;
case rocksdb::kCompactionStyleNone:
val = "kCompactionStyleNone";
break;
default:
val = "NULL";
}
cf_option_types.push_back({"COMPACTION_STYLE", val});
// get COMPACTION_OPTIONS_UNIVERSAL related options
const rocksdb::CompactionOptionsUniversal compac_opts =
opts.compaction_options_universal;
val = "{SIZE_RATIO=";
val.append(std::to_string(compac_opts.size_ratio));
val.append("; MIN_MERGE_WIDTH=");
val.append(std::to_string(compac_opts.min_merge_width));
val.append("; MAX_MERGE_WIDTH=");
val.append(std::to_string(compac_opts.max_merge_width));
val.append("; MAX_SIZE_AMPLIFICATION_PERCENT=");
val.append(std::to_string(compac_opts.max_size_amplification_percent));
val.append("; COMPRESSION_SIZE_PERCENT=");
val.append(std::to_string(compac_opts.compression_size_percent));
val.append("; STOP_STYLE=");
switch (compac_opts.stop_style) {
case rocksdb::kCompactionStopStyleSimilarSize:
val.append("kCompactionStopStyleSimilarSize}");
break;
case rocksdb::kCompactionStopStyleTotalSize:
val.append("kCompactionStopStyleTotalSize}");
break;
default:
val.append("}");
}
cf_option_types.push_back({"COMPACTION_OPTIONS_UNIVERSAL", val});
// get COMPACTION_OPTION_FIFO option
cf_option_types.push_back(
{"COMPACTION_OPTION_FIFO::MAX_TABLE_FILES_SIZE",
std::to_string(opts.compaction_options_fifo.max_table_files_size)});
// get table related options
std::vector<std::string> table_options =
split_into_vector(opts.table_factory->GetPrintableTableOptions(), '\n');
for (auto option : table_options) {
option.erase(std::remove(option.begin(), option.end(), ' '),
option.end());
int pos = option.find(":");
std::string option_name = option.substr(0, pos);
std::string option_value = option.substr(pos + 1, option.length());
std::transform(option_name.begin(), option_name.end(),
option_name.begin(),
[](unsigned char c) { return std::toupper(c); });
cf_option_types.push_back(
{"TABLE_FACTORY::" + option_name, option_value});
}
for (const auto &cf_option_type : cf_option_types) {
DBUG_ASSERT(tables->table != nullptr);
DBUG_ASSERT(tables->table->field != nullptr);
tables->table->field[RDB_CFOPTIONS_FIELD::CF_NAME]->store(
cf_name.c_str(), cf_name.size(), system_charset_info);
tables->table->field[RDB_CFOPTIONS_FIELD::OPTION_TYPE]->store(
cf_option_type.first.c_str(), cf_option_type.first.size(),
system_charset_info);
tables->table->field[RDB_CFOPTIONS_FIELD::VALUE]->store(
cf_option_type.second.c_str(), cf_option_type.second.size(),
system_charset_info);
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret) {
DBUG_RETURN(ret);
}
}
}
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_GLOBAL_INFO dynamic table
*/
namespace RDB_GLOBAL_INFO_FIELD {
enum { TYPE = 0, NAME, VALUE };
}
static ST_FIELD_INFO rdb_i_s_global_info_fields_info[] = {
Column("TYPE", Varchar(FN_REFLEN + 1), NOT_NULL),
Column("NAME", Varchar(FN_REFLEN + 1), NOT_NULL),
Column("VALUE", Varchar(FN_REFLEN + 1), NOT_NULL),
CEnd()};
/*
* helper function for rdb_i_s_global_info_fill_table
* to insert (TYPE, KEY, VALUE) rows into
* information_schema.rocksdb_global_info
*/
static int rdb_global_info_fill_row(my_core::THD *const thd,
my_core::TABLE_LIST *const tables,
const char *const type,
const char *const name,
const char *const value) {
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
DBUG_ASSERT(type != nullptr);
DBUG_ASSERT(name != nullptr);
DBUG_ASSERT(value != nullptr);
Field **field = tables->table->field;
DBUG_ASSERT(field != nullptr);
field[RDB_GLOBAL_INFO_FIELD::TYPE]->store(type, strlen(type),
system_charset_info);
field[RDB_GLOBAL_INFO_FIELD::NAME]->store(name, strlen(name),
system_charset_info);
field[RDB_GLOBAL_INFO_FIELD::VALUE]->store(value, strlen(value),
system_charset_info);
return my_core::schema_table_store_record(thd, tables->table);
}
static int rdb_i_s_global_info_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
static const uint32_t INT_BUF_LEN = 21;
static const uint32_t CF_ID_INDEX_BUF_LEN = 60;
int ret = 0;
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
/* binlog info */
Rdb_binlog_manager *const blm = rdb_get_binlog_manager();
DBUG_ASSERT(blm != nullptr);
char file_buf[FN_REFLEN + 1] = {0};
my_off_t pos = 0;
char pos_buf[INT_BUF_LEN] = {0};
char gtid_buf[GTID_BUF_LEN] = {0};
if (blm->read(file_buf, &pos, gtid_buf)) {
snprintf(pos_buf, INT_BUF_LEN, "%llu", (ulonglong)pos);
ret |= rdb_global_info_fill_row(thd, tables, "BINLOG", "FILE", file_buf);
ret |= rdb_global_info_fill_row(thd, tables, "BINLOG", "POS", pos_buf);
ret |= rdb_global_info_fill_row(thd, tables, "BINLOG", "GTID", gtid_buf);
}
/* max index info */
const Rdb_dict_manager *const dict_manager = rdb_get_dict_manager();
DBUG_ASSERT(dict_manager != nullptr);
uint32_t max_index_id;
char max_index_id_buf[INT_BUF_LEN] = {0};
if (dict_manager->get_max_index_id(&max_index_id)) {
snprintf(max_index_id_buf, INT_BUF_LEN, "%u", max_index_id);
ret |= rdb_global_info_fill_row(thd, tables, "MAX_INDEX_ID", "MAX_INDEX_ID",
max_index_id_buf);
}
/* cf_id -> cf_flags */
char cf_id_buf[INT_BUF_LEN] = {0};
char cf_value_buf[FN_REFLEN + 1] = {0};
const Rdb_cf_manager &cf_manager = rdb_get_cf_manager();
for (const auto &cf_handle : cf_manager.get_all_cf()) {
DBUG_ASSERT(cf_handle != nullptr);
uint flags;
if (!dict_manager->get_cf_flags(cf_handle->GetID(), &flags)) {
// NO_LINT_DEBUG
sql_print_error(
"RocksDB: Failed to get column family flags "
"from CF with id = %u. MyRocks data dictionary may "
"be corrupted.",
cf_handle->GetID());
abort();
}
snprintf(cf_id_buf, INT_BUF_LEN, "%u", cf_handle->GetID());
snprintf(cf_value_buf, FN_REFLEN, "%s [%u]", cf_handle->GetName().c_str(),
flags);
ret |= rdb_global_info_fill_row(thd, tables, "CF_FLAGS", cf_id_buf,
cf_value_buf);
if (ret) {
break;
}
}
/* DDL_DROP_INDEX_ONGOING */
std::unordered_set<GL_INDEX_ID> gl_index_ids;
dict_manager->get_ongoing_index_operation(
&gl_index_ids, Rdb_key_def::DDL_DROP_INDEX_ONGOING);
char cf_id_index_buf[CF_ID_INDEX_BUF_LEN] = {0};
for (auto gl_index_id : gl_index_ids) {
snprintf(cf_id_index_buf, CF_ID_INDEX_BUF_LEN, "cf_id:%u,index_id:%u",
gl_index_id.cf_id, gl_index_id.index_id);
ret |= rdb_global_info_fill_row(thd, tables, "DDL_DROP_INDEX_ONGOING",
cf_id_index_buf, "");
if (ret) {
break;
}
}
DBUG_RETURN(ret);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_COMPACTION_STATS dynamic table
*/
static int rdb_i_s_compact_stats_fill_table(
my_core::THD *thd, my_core::TABLE_LIST *tables,
my_core::Item *cond MY_ATTRIBUTE((__unused__))) {
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ENTER_FUNC();
int ret = 0;
rocksdb::DB *rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
Rdb_cf_manager &cf_manager = rdb_get_cf_manager();
for (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;
bool bool_ret MY_ATTRIBUTE((__unused__));
bool_ret = rdb->GetMapProperty(cfh, "rocksdb.cfstats", &props);
DBUG_ASSERT(bool_ret);
const std::string prop_name_prefix = "compaction.";
for (auto const &prop_ent : props) {
std::string prop_name = prop_ent.first;
if (prop_name.find(prop_name_prefix) != 0) {
continue;
}
std::string value = prop_ent.second;
std::size_t del_pos = prop_name.find('.', prop_name_prefix.size());
DBUG_ASSERT(del_pos != std::string::npos);
std::string level_str = prop_name.substr(
prop_name_prefix.size(), del_pos - prop_name_prefix.size());
std::string type_str = prop_name.substr(del_pos + 1);
Field **field = tables->table->field;
DBUG_ASSERT(field != nullptr);
field[0]->store(cf_name.c_str(), cf_name.size(), system_charset_info);
field[1]->store(level_str.c_str(), level_str.size(), system_charset_info);
field[2]->store(type_str.c_str(), type_str.size(), system_charset_info);
field[3]->store(std::stod(value));
ret |= static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret != 0) {
DBUG_RETURN(ret);
}
}
}
DBUG_RETURN(ret);
}
static ST_FIELD_INFO rdb_i_s_compact_stats_fields_info[] = {
Column("CF_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("LEVEL", Varchar(FN_REFLEN + 1), NOT_NULL),
Column("TYPE", Varchar(FN_REFLEN + 1), NOT_NULL),
Column("VALUE", Double(MY_INT64_NUM_DECIMAL_DIGITS), NOT_NULL),
CEnd()};
namespace // anonymous namespace = not visible outside this source file
{
struct Rdb_ddl_scanner : public Rdb_tables_scanner {
my_core::THD *m_thd;
my_core::TABLE *m_table;
int add_table(Rdb_tbl_def *tdef) override;
};
} // anonymous namespace
/*
Support for INFORMATION_SCHEMA.ROCKSDB_DDL dynamic table
*/
namespace RDB_DDL_FIELD {
enum {
TABLE_SCHEMA = 0,
TABLE_NAME,
PARTITION_NAME,
INDEX_NAME,
COLUMN_FAMILY,
INDEX_NUMBER,
INDEX_TYPE,
KV_FORMAT_VERSION,
TTL_DURATION,
INDEX_FLAGS,
CF,
AUTO_INCREMENT
};
} // namespace RDB_DDL_FIELD
static ST_FIELD_INFO rdb_i_s_ddl_fields_info[] = {
Column("TABLE_SCHEMA", Varchar(NAME_LEN + 1), NOT_NULL),
Column("TABLE_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("PARTITION_NAME", Varchar(NAME_LEN + 1), NULLABLE),
Column("INDEX_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("COLUMN_FAMILY", SLong(), NOT_NULL),
Column("INDEX_NUMBER", SLong(), NOT_NULL),
Column("INDEX_TYPE", SShort(6), NOT_NULL),
Column("KV_FORMAT_VERSION", SShort(6), NOT_NULL),
Column("TTL_DURATION", SLonglong(), NOT_NULL),
Column("INDEX_FLAGS", SLonglong(), NOT_NULL),
Column("CF", Varchar(NAME_LEN + 1), NOT_NULL),
Column("AUTO_INCREMENT", ULonglong(), NULLABLE),
CEnd()};
int Rdb_ddl_scanner::add_table(Rdb_tbl_def *tdef) {
DBUG_ASSERT(tdef != nullptr);
int ret = 0;
DBUG_ASSERT(m_table != nullptr);
Field **field = m_table->field;
DBUG_ASSERT(field != nullptr);
const Rdb_dict_manager *dict_manager = rdb_get_dict_manager();
const std::string &dbname = tdef->base_dbname();
field[RDB_DDL_FIELD::TABLE_SCHEMA]->store(dbname.c_str(), dbname.size(),
system_charset_info);
const std::string &tablename = tdef->base_tablename();
field[RDB_DDL_FIELD::TABLE_NAME]->store(tablename.c_str(), tablename.size(),
system_charset_info);
const std::string &partname = tdef->base_partition();
if (partname.length() == 0) {
field[RDB_DDL_FIELD::PARTITION_NAME]->set_null();
} else {
field[RDB_DDL_FIELD::PARTITION_NAME]->set_notnull();
field[RDB_DDL_FIELD::PARTITION_NAME]->store(
partname.c_str(), partname.size(), system_charset_info);
}
for (uint i = 0; i < tdef->m_key_count; i++) {
const Rdb_key_def &kd = *tdef->m_key_descr_arr[i];
field[RDB_DDL_FIELD::INDEX_NAME]->store(kd.m_name.c_str(), kd.m_name.size(),
system_charset_info);
GL_INDEX_ID gl_index_id = kd.get_gl_index_id();
field[RDB_DDL_FIELD::COLUMN_FAMILY]->store(gl_index_id.cf_id, true);
field[RDB_DDL_FIELD::INDEX_NUMBER]->store(gl_index_id.index_id, true);
field[RDB_DDL_FIELD::INDEX_TYPE]->store(kd.m_index_type, true);
field[RDB_DDL_FIELD::KV_FORMAT_VERSION]->store(kd.m_kv_format_version,
true);
field[RDB_DDL_FIELD::TTL_DURATION]->store(kd.m_ttl_duration, true);
field[RDB_DDL_FIELD::INDEX_FLAGS]->store(kd.m_index_flags_bitmap, true);
std::string cf_name = kd.get_cf()->GetName();
field[RDB_DDL_FIELD::CF]->store(cf_name.c_str(), cf_name.size(),
system_charset_info);
ulonglong auto_incr;
if (dict_manager->get_auto_incr_val(tdef->get_autoincr_gl_index_id(),
&auto_incr)) {
field[RDB_DDL_FIELD::AUTO_INCREMENT]->set_notnull();
field[RDB_DDL_FIELD::AUTO_INCREMENT]->store(auto_incr, true);
} else {
field[RDB_DDL_FIELD::AUTO_INCREMENT]->set_null();
}
ret = my_core::schema_table_store_record(m_thd, m_table);
if (ret) return ret;
}
return HA_EXIT_SUCCESS;
}
static int rdb_i_s_ddl_fill_table(my_core::THD *const thd,
my_core::TABLE_LIST *const tables,
my_core::Item *const cond) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
int ret = 0;
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
Rdb_ddl_scanner ddl_arg;
ddl_arg.m_thd = thd;
ddl_arg.m_table = tables->table;
Rdb_ddl_manager *ddl_manager = rdb_get_ddl_manager();
DBUG_ASSERT(ddl_manager != nullptr);
ret = ddl_manager->scan_for_tables(&ddl_arg);
DBUG_RETURN(ret);
}
static int rdb_i_s_ddl_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
my_core::ST_SCHEMA_TABLE *schema;
DBUG_ASSERT(p != nullptr);
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_ddl_fields_info;
schema->fill_table = rdb_i_s_ddl_fill_table;
DBUG_RETURN(0);
}
static int rdb_i_s_cfoptions_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_cfoptions_fields_info;
schema->fill_table = rdb_i_s_cfoptions_fill_table;
DBUG_RETURN(0);
}
static int rdb_i_s_global_info_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = reinterpret_cast<my_core::ST_SCHEMA_TABLE *>(p);
schema->fields_info = rdb_i_s_global_info_fields_info;
schema->fill_table = rdb_i_s_global_info_fill_table;
DBUG_RETURN(0);
}
static int rdb_i_s_compact_stats_init(void *p) {
my_core::ST_SCHEMA_TABLE *schema;
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
schema = reinterpret_cast<my_core::ST_SCHEMA_TABLE *>(p);
schema->fields_info = rdb_i_s_compact_stats_fields_info;
schema->fill_table = rdb_i_s_compact_stats_fill_table;
DBUG_RETURN(0);
}
/* Given a path to a file return just the filename portion. */
static std::string rdb_filename_without_path(const std::string &path) {
/* Find last slash in path */
const size_t pos = path.rfind('/');
/* None found? Just return the original string */
if (pos == std::string::npos) {
return std::string(path);
}
/* Return everything after the slash (or backslash) */
return path.substr(pos + 1);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_SST_PROPS dynamic table
*/
namespace RDB_SST_PROPS_FIELD {
enum {
SST_NAME = 0,
COLUMN_FAMILY,
DATA_BLOCKS,
ENTRIES,
RAW_KEY_SIZE,
RAW_VALUE_SIZE,
DATA_BLOCK_SIZE,
INDEX_BLOCK_SIZE,
INDEX_PARTITIONS,
TOP_LEVEL_INDEX_SIZE,
FILTER_BLOCK_SIZE,
COMPRESSION_ALGO,
CREATION_TIME,
FILE_CREATION_TIME,
OLDEST_KEY_TIME,
FILTER_POLICY,
COMPRESSION_OPTIONS,
};
} // namespace RDB_SST_PROPS_FIELD
static ST_FIELD_INFO rdb_i_s_sst_props_fields_info[] = {
Column("SST_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("COLUMN_FAMILY", SLong(), NOT_NULL),
Column("DATA_BLOCKS", SLonglong(), NOT_NULL),
Column("ENTRIES", SLonglong(), NOT_NULL),
Column("RAW_KEY_SIZE", SLonglong(), NOT_NULL),
Column("RAW_VALUE_SIZE", SLonglong(), NOT_NULL),
Column("DATA_BLOCK_SIZE", SLonglong(), NOT_NULL),
Column("INDEX_BLOCK_SIZE", SLonglong(), NOT_NULL),
Column("INDEX_PARTITIONS", SLong(), NOT_NULL),
Column("TOP_LEVEL_INDEX_SIZE", SLonglong(), NOT_NULL),
Column("FILTER_BLOCK_SIZE", SLonglong(), NOT_NULL),
Column("COMPRESSION_ALGO", Varchar(NAME_LEN + 1), NOT_NULL),
Column("CREATION_TIME", SLonglong(), NOT_NULL),
Column("FILE_CREATION_TIME", SLonglong(), NOT_NULL),
Column("OLDEST_KEY_TIME", SLonglong(), NOT_NULL),
Column("FILTER_POLICY", Varchar(NAME_LEN + 1), NOT_NULL),
Column("COMPRESSION_OPTIONS", Varchar(NAME_LEN + 1), NOT_NULL),
CEnd()};
static int rdb_i_s_sst_props_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
int ret = 0;
Field **field = tables->table->field;
DBUG_ASSERT(field != nullptr);
/* Iterate over all the column families */
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
const Rdb_cf_manager &cf_manager = rdb_get_cf_manager();
for (const auto &cf_handle : cf_manager.get_all_cf()) {
/* Grab the the properties of all the tables in the column family */
rocksdb::TablePropertiesCollection table_props_collection;
const rocksdb::Status s =
rdb->GetPropertiesOfAllTables(cf_handle, &table_props_collection);
if (!s.ok()) {
continue;
}
/* Iterate over all the items in the collection, each of which contains a
* name and the actual properties */
for (const auto &props : table_props_collection) {
/* Add the SST name into the output */
const std::string sst_name = rdb_filename_without_path(props.first);
field[RDB_SST_PROPS_FIELD::SST_NAME]->store(
sst_name.data(), sst_name.size(), system_charset_info);
field[RDB_SST_PROPS_FIELD::COLUMN_FAMILY]->store(
props.second->column_family_id, true);
field[RDB_SST_PROPS_FIELD::DATA_BLOCKS]->store(
props.second->num_data_blocks, true);
field[RDB_SST_PROPS_FIELD::ENTRIES]->store(props.second->num_entries,
true);
field[RDB_SST_PROPS_FIELD::RAW_KEY_SIZE]->store(
props.second->raw_key_size, true);
field[RDB_SST_PROPS_FIELD::RAW_VALUE_SIZE]->store(
props.second->raw_value_size, true);
field[RDB_SST_PROPS_FIELD::DATA_BLOCK_SIZE]->store(
props.second->data_size, true);
field[RDB_SST_PROPS_FIELD::INDEX_BLOCK_SIZE]->store(
props.second->index_size, true);
field[RDB_SST_PROPS_FIELD::INDEX_PARTITIONS]->store(
props.second->index_partitions, true);
field[RDB_SST_PROPS_FIELD::TOP_LEVEL_INDEX_SIZE]->store(
props.second->top_level_index_size, true);
field[RDB_SST_PROPS_FIELD::FILTER_BLOCK_SIZE]->store(
props.second->filter_size, true);
if (props.second->compression_name.empty()) {
field[RDB_SST_PROPS_FIELD::COMPRESSION_ALGO]->set_null();
} else {
field[RDB_SST_PROPS_FIELD::COMPRESSION_ALGO]->store(
props.second->compression_name.c_str(),
props.second->compression_name.size(), system_charset_info);
}
field[RDB_SST_PROPS_FIELD::CREATION_TIME]->store(
props.second->creation_time, true);
field[RDB_SST_PROPS_FIELD::FILE_CREATION_TIME]->store(
props.second->file_creation_time, true);
field[RDB_SST_PROPS_FIELD::OLDEST_KEY_TIME]->store(
props.second->oldest_key_time, true);
if (props.second->filter_policy_name.empty()) {
field[RDB_SST_PROPS_FIELD::FILTER_POLICY]->set_null();
} else {
field[RDB_SST_PROPS_FIELD::FILTER_POLICY]->store(
props.second->filter_policy_name.c_str(),
props.second->filter_policy_name.size(), system_charset_info);
}
if (props.second->compression_options.empty()) {
field[RDB_SST_PROPS_FIELD::COMPRESSION_OPTIONS]->set_null();
} else {
field[RDB_SST_PROPS_FIELD::COMPRESSION_OPTIONS]->store(
props.second->compression_options.c_str(),
props.second->compression_options.size(), system_charset_info);
}
/* Tell MySQL about this row in the virtual table */
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret != 0) {
DBUG_RETURN(ret);
}
}
}
DBUG_RETURN(ret);
}
/* Initialize the information_schema.rocksdb_sst_props virtual table */
static int rdb_i_s_sst_props_init(void *const p) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_sst_props_fields_info;
schema->fill_table = rdb_i_s_sst_props_fill_table;
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_INDEX_FILE_MAP dynamic table
*/
namespace RDB_INDEX_FILE_MAP_FIELD {
enum {
COLUMN_FAMILY = 0,
INDEX_NUMBER,
SST_NAME,
NUM_ROWS,
DATA_SIZE,
ENTRY_DELETES,
ENTRY_SINGLEDELETES,
ENTRY_MERGES,
ENTRY_OTHERS,
DISTINCT_KEYS_PREFIX
};
} // namespace RDB_INDEX_FILE_MAP_FIELD
static ST_FIELD_INFO rdb_i_s_index_file_map_fields_info[] = {
/* The information_schema.rocksdb_index_file_map virtual table has four
* fields:
* COLUMN_FAMILY => the index's column family contained in the SST file
* INDEX_NUMBER => the index id contained in the SST file
* SST_NAME => the name of the SST file containing some indexes
* NUM_ROWS => the number of entries of this index id in this SST file
* DATA_SIZE => the data size stored in this SST file for this index id */
Column("COLUMN_FAMILY", SLong(), NOT_NULL),
Column("INDEX_NUMBER", SLong(), NOT_NULL),
Column("SST_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("NUM_ROWS", SLonglong(), NOT_NULL),
Column("DATA_SIZE", SLonglong(), NOT_NULL),
Column("ENTRY_DELETES", SLonglong(), NOT_NULL),
Column("ENTRY_SINGLEDELETES", SLonglong(), NOT_NULL),
Column("ENTRY_MERGES", SLonglong(), NOT_NULL),
Column("ENTRY_OTHERS", SLonglong(), NOT_NULL),
Column("DISTINCT_KEYS_PREFIX",Varchar(MAX_REF_PARTS * 25), NOT_NULL),
CEnd()};
/* Fill the information_schema.rocksdb_index_file_map virtual table */
static int rdb_i_s_index_file_map_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
int ret = 0;
Field **field = tables->table->field;
DBUG_ASSERT(field != nullptr);
/* Iterate over all the column families */
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
const Rdb_cf_manager &cf_manager = rdb_get_cf_manager();
for (const auto &cf_handle : cf_manager.get_all_cf()) {
/* Grab the the properties of all the tables in the column family */
rocksdb::TablePropertiesCollection table_props_collection;
const rocksdb::Status s =
rdb->GetPropertiesOfAllTables(cf_handle, &table_props_collection);
if (!s.ok()) {
continue;
}
/* Iterate over all the items in the collection, each of which contains a
* name and the actual properties */
for (const auto &props : table_props_collection) {
/* Add the SST name into the output */
const std::string sst_name = rdb_filename_without_path(props.first);
field[RDB_INDEX_FILE_MAP_FIELD::SST_NAME]->store(
sst_name.data(), sst_name.size(), system_charset_info);
/* Get the __indexstats__ data out of the table property */
std::vector<Rdb_index_stats> stats;
Rdb_tbl_prop_coll::read_stats_from_tbl_props(props.second, &stats);
if (stats.empty()) {
field[RDB_INDEX_FILE_MAP_FIELD::COLUMN_FAMILY]->store(-1, true);
field[RDB_INDEX_FILE_MAP_FIELD::INDEX_NUMBER]->store(-1, true);
field[RDB_INDEX_FILE_MAP_FIELD::NUM_ROWS]->store(-1, true);
field[RDB_INDEX_FILE_MAP_FIELD::DATA_SIZE]->store(-1, true);
field[RDB_INDEX_FILE_MAP_FIELD::ENTRY_DELETES]->store(-1, true);
field[RDB_INDEX_FILE_MAP_FIELD::ENTRY_SINGLEDELETES]->store(-1, true);
field[RDB_INDEX_FILE_MAP_FIELD::ENTRY_MERGES]->store(-1, true);
field[RDB_INDEX_FILE_MAP_FIELD::ENTRY_OTHERS]->store(-1, true);
} else {
for (const auto &it : stats) {
/* Add the index number, the number of rows, and data size to the
* output */
field[RDB_INDEX_FILE_MAP_FIELD::COLUMN_FAMILY]->store(
it.m_gl_index_id.cf_id, true);
field[RDB_INDEX_FILE_MAP_FIELD::INDEX_NUMBER]->store(
it.m_gl_index_id.index_id, true);
field[RDB_INDEX_FILE_MAP_FIELD::NUM_ROWS]->store(it.m_rows, true);
field[RDB_INDEX_FILE_MAP_FIELD::DATA_SIZE]->store(it.m_data_size,
true);
field[RDB_INDEX_FILE_MAP_FIELD::ENTRY_DELETES]->store(
it.m_entry_deletes, true);
field[RDB_INDEX_FILE_MAP_FIELD::ENTRY_SINGLEDELETES]->store(
it.m_entry_single_deletes, true);
field[RDB_INDEX_FILE_MAP_FIELD::ENTRY_MERGES]->store(
it.m_entry_merges, true);
field[RDB_INDEX_FILE_MAP_FIELD::ENTRY_OTHERS]->store(
it.m_entry_others, true);
std::string distinct_keys_prefix;
for (size_t i = 0; i < it.m_distinct_keys_per_prefix.size(); i++) {
if (i > 0) {
distinct_keys_prefix += ",";
}
distinct_keys_prefix +=
std::to_string(it.m_distinct_keys_per_prefix[i]);
}
field[RDB_INDEX_FILE_MAP_FIELD::DISTINCT_KEYS_PREFIX]->store(
distinct_keys_prefix.data(), distinct_keys_prefix.size(),
system_charset_info);
/* Tell MySQL about this row in the virtual table */
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret != 0) {
break;
}
}
}
}
}
DBUG_RETURN(ret);
}
/* Initialize the information_schema.rocksdb_index_file_map virtual table */
static int rdb_i_s_index_file_map_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_index_file_map_fields_info;
schema->fill_table = rdb_i_s_index_file_map_fill_table;
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_LOCKS dynamic table
*/
namespace RDB_LOCKS_FIELD {
enum { COLUMN_FAMILY_ID = 0, TRANSACTION_ID, KEY, MODE };
} // namespace RDB_LOCKS_FIELD
static ST_FIELD_INFO rdb_i_s_lock_info_fields_info[] = {
Column("COLUMN_FAMILY_ID", SLong(), NOT_NULL),
Column("TRANSACTION_ID", SLong(), NOT_NULL),
Column("KEY", Varchar(FN_REFLEN + 1), NOT_NULL),
Column("MODE", Varchar(32), NOT_NULL),
CEnd()};
/* Fill the information_schema.rocksdb_locks virtual table */
static int rdb_i_s_lock_info_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
DBUG_ASSERT(tables->table->field != nullptr);
int ret = 0;
rocksdb::TransactionDB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
/* cf id -> rocksdb::KeyLockInfo */
std::unordered_multimap<uint32_t, rocksdb::KeyLockInfo> lock_info =
rdb->GetLockStatusData();
for (const auto &lock : lock_info) {
const uint32_t cf_id = lock.first;
const auto &key_lock_info = lock.second;
const auto key_hexstr = rdb_hexdump(key_lock_info.key.c_str(),
key_lock_info.key.length(), FN_REFLEN);
for (const auto &id : key_lock_info.ids) {
tables->table->field[RDB_LOCKS_FIELD::COLUMN_FAMILY_ID]->store(cf_id,
true);
tables->table->field[RDB_LOCKS_FIELD::TRANSACTION_ID]->store(id, true);
tables->table->field[RDB_LOCKS_FIELD::KEY]->store(
key_hexstr.c_str(), key_hexstr.size(), system_charset_info);
tables->table->field[RDB_LOCKS_FIELD::MODE]->store(
key_lock_info.exclusive ? "X" : "S", 1, system_charset_info);
/* Tell MySQL about this row in the virtual table */
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret != 0) {
break;
}
}
}
DBUG_RETURN(ret);
}
/* Initialize the information_schema.rocksdb_lock_info virtual table */
static int rdb_i_s_lock_info_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_lock_info_fields_info;
schema->fill_table = rdb_i_s_lock_info_fill_table;
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_TRX dynamic table
*/
namespace RDB_TRX_FIELD {
enum {
TRANSACTION_ID = 0,
STATE,
NAME,
WRITE_COUNT,
LOCK_COUNT,
TIMEOUT_SEC,
WAITING_KEY,
WAITING_COLUMN_FAMILY_ID,
IS_REPLICATION,
SKIP_TRX_API,
READ_ONLY,
HAS_DEADLOCK_DETECTION,
NUM_ONGOING_BULKLOAD,
THREAD_ID,
QUERY
};
} // namespace RDB_TRX_FIELD
static ST_FIELD_INFO rdb_i_s_trx_info_fields_info[] = {
Column("TRANSACTION_ID", SLonglong(), NOT_NULL),
Column("STATE", Varchar(NAME_LEN + 1), NOT_NULL),
Column("NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("WRITE_COUNT", SLonglong(), NOT_NULL),
Column("LOCK_COUNT", SLonglong(), NOT_NULL),
Column("TIMEOUT_SEC", SLong(), NOT_NULL),
Column("WAITING_KEY", Varchar(FN_REFLEN + 1), NOT_NULL),
Column("WAITING_COLUMN_FAMILY_ID",SLong(), NOT_NULL),
Column("IS_REPLICATION", SLong(), NOT_NULL),
Column("SKIP_TRX_API", SLong(), NOT_NULL),
Column("READ_ONLY", SLong(), NOT_NULL),
Column("HAS_DEADLOCK_DETECTION", SLong(), NOT_NULL),
Column("NUM_ONGOING_BULKLOAD", SLong(), NOT_NULL),
Column("THREAD_ID", SLong(), NOT_NULL),
Column("QUERY", Varchar(NAME_LEN + 1), NOT_NULL),
CEnd()};
/* Fill the information_schema.rocksdb_trx virtual table */
static int rdb_i_s_trx_info_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
DBUG_ASSERT(tables->table->field != nullptr);
int ret = 0;
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
const std::vector<Rdb_trx_info> &all_trx_info = rdb_get_all_trx_info();
for (const auto &info : all_trx_info) {
auto name_hexstr =
rdb_hexdump(info.name.c_str(), info.name.length(), NAME_LEN);
auto key_hexstr = rdb_hexdump(info.waiting_key.c_str(),
info.waiting_key.length(), FN_REFLEN);
tables->table->field[RDB_TRX_FIELD::TRANSACTION_ID]->store(info.trx_id,
true);
tables->table->field[RDB_TRX_FIELD::STATE]->store(
info.state.c_str(), info.state.length(), system_charset_info);
tables->table->field[RDB_TRX_FIELD::NAME]->store(
name_hexstr.c_str(), name_hexstr.length(), system_charset_info);
tables->table->field[RDB_TRX_FIELD::WRITE_COUNT]->store(info.write_count,
true);
tables->table->field[RDB_TRX_FIELD::LOCK_COUNT]->store(info.lock_count,
true);
tables->table->field[RDB_TRX_FIELD::TIMEOUT_SEC]->store(info.timeout_sec,
false);
tables->table->field[RDB_TRX_FIELD::WAITING_KEY]->store(
key_hexstr.c_str(), key_hexstr.length(), system_charset_info);
tables->table->field[RDB_TRX_FIELD::WAITING_COLUMN_FAMILY_ID]->store(
info.waiting_cf_id, true);
tables->table->field[RDB_TRX_FIELD::IS_REPLICATION]->store(
info.is_replication, false);
tables->table->field[RDB_TRX_FIELD::SKIP_TRX_API]->store(info.skip_trx_api,
false);
tables->table->field[RDB_TRX_FIELD::READ_ONLY]->store(info.read_only,
false);
tables->table->field[RDB_TRX_FIELD::HAS_DEADLOCK_DETECTION]->store(
info.deadlock_detect, false);
tables->table->field[RDB_TRX_FIELD::NUM_ONGOING_BULKLOAD]->store(
info.num_ongoing_bulk_load, false);
tables->table->field[RDB_TRX_FIELD::THREAD_ID]->store(info.thread_id, true);
tables->table->field[RDB_TRX_FIELD::QUERY]->store(
info.query_str.c_str(), info.query_str.length(), system_charset_info);
/* Tell MySQL about this row in the virtual table */
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret != 0) {
break;
}
}
DBUG_RETURN(ret);
}
/* Initialize the information_schema.rocksdb_trx_info virtual table */
static int rdb_i_s_trx_info_init(void *const p) {
DBUG_ENTER_FUNC();
if (prevent_myrocks_loading)
DBUG_RETURN(1);
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_trx_info_fields_info;
schema->fill_table = rdb_i_s_trx_info_fill_table;
DBUG_RETURN(0);
}
/*
Support for INFORMATION_SCHEMA.ROCKSDB_DEADLOCK dynamic table
*/
namespace RDB_DEADLOCK_FIELD {
enum {
DEADLOCK_ID = 0,
TIMESTAMP,
TRANSACTION_ID,
CF_NAME,
WAITING_KEY,
LOCK_TYPE,
INDEX_NAME,
TABLE_NAME,
ROLLED_BACK,
};
} // namespace RDB_DEADLOCK_FIELD
static ST_FIELD_INFO rdb_i_s_deadlock_info_fields_info[] = {
Column("DEADLOCK_ID", SLonglong(), NOT_NULL),
Column("TIMESTAMP", SLonglong(), NOT_NULL),
Column("TRANSACTION_ID", SLonglong(), NOT_NULL),
Column("CF_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("WAITING_KEY", Varchar(FN_REFLEN + 1), NOT_NULL),
Column("LOCK_TYPE", Varchar(NAME_LEN + 1), NOT_NULL),
Column("INDEX_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("TABLE_NAME", Varchar(NAME_LEN + 1), NOT_NULL),
Column("ROLLED_BACK", SLonglong(), NOT_NULL),
CEnd()};
/* Fill the information_schema.rocksdb_trx virtual table */
static int rdb_i_s_deadlock_info_fill_table(
my_core::THD *const thd, my_core::TABLE_LIST *const tables,
my_core::Item *const cond MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(thd != nullptr);
DBUG_ASSERT(tables != nullptr);
DBUG_ASSERT(tables->table != nullptr);
DBUG_ASSERT(tables->table->field != nullptr);
static const std::string str_exclusive("EXCLUSIVE");
static const std::string str_shared("SHARED");
int ret = 0;
rocksdb::DB *const rdb = rdb_get_rocksdb_db();
if (!rdb) {
DBUG_RETURN(ret);
}
const std::vector<Rdb_deadlock_info> &all_dl_info = rdb_get_deadlock_info();
ulonglong id = 0;
for (const auto &info : all_dl_info) {
auto deadlock_time = info.deadlock_time;
for (const auto &trx_info : info.path) {
tables->table->field[RDB_DEADLOCK_FIELD::DEADLOCK_ID]->store(id, true);
tables->table->field[RDB_DEADLOCK_FIELD::TIMESTAMP]->store(deadlock_time,
true);
tables->table->field[RDB_DEADLOCK_FIELD::TRANSACTION_ID]->store(
trx_info.trx_id, true);
tables->table->field[RDB_DEADLOCK_FIELD::CF_NAME]->store(
trx_info.cf_name.c_str(), trx_info.cf_name.length(),
system_charset_info);
tables->table->field[RDB_DEADLOCK_FIELD::WAITING_KEY]->store(
trx_info.waiting_key.c_str(), trx_info.waiting_key.length(),
system_charset_info);
if (trx_info.exclusive_lock) {
tables->table->field[RDB_DEADLOCK_FIELD::LOCK_TYPE]->store(
str_exclusive.c_str(), str_exclusive.length(), system_charset_info);
} else {
tables->table->field[RDB_DEADLOCK_FIELD::LOCK_TYPE]->store(
str_shared.c_str(), str_shared.length(), system_charset_info);
}
tables->table->field[RDB_DEADLOCK_FIELD::INDEX_NAME]->store(
trx_info.index_name.c_str(), trx_info.index_name.length(),
system_charset_info);
tables->table->field[RDB_DEADLOCK_FIELD::TABLE_NAME]->store(
trx_info.table_name.c_str(), trx_info.table_name.length(),
system_charset_info);
tables->table->field[RDB_DEADLOCK_FIELD::ROLLED_BACK]->store(
trx_info.trx_id == info.victim_trx_id, true);
/* Tell MySQL about this row in the virtual table */
ret = static_cast<int>(
my_core::schema_table_store_record(thd, tables->table));
if (ret != 0) {
break;
}
}
id++;
}
DBUG_RETURN(ret);
}
/* Initialize the information_schema.rocksdb_trx_info virtual table */
static int rdb_i_s_deadlock_info_init(void *const p) {
DBUG_ENTER_FUNC();
DBUG_ASSERT(p != nullptr);
my_core::ST_SCHEMA_TABLE *schema;
schema = (my_core::ST_SCHEMA_TABLE *)p;
schema->fields_info = rdb_i_s_deadlock_info_fields_info;
schema->fill_table = rdb_i_s_deadlock_info_fill_table;
DBUG_RETURN(0);
}
static int rdb_i_s_deinit(void *p MY_ATTRIBUTE((__unused__))) {
DBUG_ENTER_FUNC();
DBUG_RETURN(0);
}
static struct st_mysql_information_schema rdb_i_s_info = {
MYSQL_INFORMATION_SCHEMA_INTERFACE_VERSION};
struct st_maria_plugin rdb_i_s_cfstats = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_CFSTATS",
"Facebook",
"RocksDB column family stats",
PLUGIN_LICENSE_GPL,
rdb_i_s_cfstats_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_dbstats = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_DBSTATS",
"Facebook",
"RocksDB database stats",
PLUGIN_LICENSE_GPL,
rdb_i_s_dbstats_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_perf_context = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_PERF_CONTEXT",
"Facebook",
"RocksDB perf context stats",
PLUGIN_LICENSE_GPL,
rdb_i_s_perf_context_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_perf_context_global = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_PERF_CONTEXT_GLOBAL",
"Facebook",
"RocksDB perf context stats (all)",
PLUGIN_LICENSE_GPL,
rdb_i_s_perf_context_global_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_cfoptions = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_CF_OPTIONS",
"Facebook",
"RocksDB column family options",
PLUGIN_LICENSE_GPL,
rdb_i_s_cfoptions_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_global_info = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_GLOBAL_INFO",
"Facebook",
"RocksDB global info",
PLUGIN_LICENSE_GPL,
rdb_i_s_global_info_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_compact_stats = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_COMPACTION_STATS",
"Facebook",
"RocksDB compaction stats",
PLUGIN_LICENSE_GPL,
rdb_i_s_compact_stats_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_ddl = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_DDL",
"Facebook",
"RocksDB Data Dictionary",
PLUGIN_LICENSE_GPL,
rdb_i_s_ddl_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_sst_props = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_SST_PROPS",
"Facebook",
"RocksDB SST Properties",
PLUGIN_LICENSE_GPL,
rdb_i_s_sst_props_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_index_file_map = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_INDEX_FILE_MAP",
"Facebook",
"RocksDB index file map",
PLUGIN_LICENSE_GPL,
rdb_i_s_index_file_map_init,
rdb_i_s_deinit,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_lock_info = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_LOCKS",
"Facebook",
"RocksDB lock information",
PLUGIN_LICENSE_GPL,
rdb_i_s_lock_info_init,
nullptr,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_trx_info = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_TRX",
"Facebook",
"RocksDB transaction information",
PLUGIN_LICENSE_GPL,
rdb_i_s_trx_info_init,
nullptr,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
struct st_maria_plugin rdb_i_s_deadlock_info = {
MYSQL_INFORMATION_SCHEMA_PLUGIN,
&rdb_i_s_info,
"ROCKSDB_DEADLOCK",
"Facebook",
"RocksDB transaction information",
PLUGIN_LICENSE_GPL,
rdb_i_s_deadlock_info_init,
nullptr,
0x0001, /* version number (0.1) */
nullptr, /* status variables */
nullptr, /* system variables */
nullptr, /* config options */
MYROCKS_MARIADB_PLUGIN_MATURITY_LEVEL
};
} // namespace myrocks
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