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rocksdb/db/internal_stats.cc
Nathan Bronson 7d87f02799 support for concurrent adds to memtable 
Summary:
This diff adds support for concurrent adds to the skiplist memtable
implementations.  Memory allocation is made thread-safe by the addition of
a spinlock, with small per-core buffers to avoid contention.  Concurrent
memtable writes are made via an additional method and don't impose a
performance overhead on the non-concurrent case, so parallelism can be
selected on a per-batch basis.

Write thread synchronization is an increasing bottleneck for higher levels
of concurrency, so this diff adds --enable_write_thread_adaptive_yield
(default off).  This feature causes threads joining a write batch
group to spin for a short time (default 100 usec) using sched_yield,
rather than going to sleep on a mutex.  If the timing of the yield calls
indicates that another thread has actually run during the yield then
spinning is avoided.  This option improves performance for concurrent
situations even without parallel adds, although it has the potential to
increase CPU usage (and the heuristic adaptation is not yet mature).

Parallel writes are not currently compatible with
inplace updates, update callbacks, or delete filtering.
Enable it with --allow_concurrent_memtable_write (and
--enable_write_thread_adaptive_yield).  Parallel memtable writes
are performance neutral when there is no actual parallelism, and in
my experiments (SSD server-class Linux and varying contention and key
sizes for fillrandom) they are always a performance win when there is
more than one thread.

Statistics are updated earlier in the write path, dropping the number
of DB mutex acquisitions from 2 to 1 for almost all cases.

This diff was motivated and inspired by Yahoo's cLSM work.  It is more
conservative than cLSM: RocksDB's write batch group leader role is
preserved (along with all of the existing flush and write throttling
logic) and concurrent writers are blocked until all memtable insertions
have completed and the sequence number has been advanced, to preserve
linearizability.

My test config is "db_bench -benchmarks=fillrandom -threads=$T
-batch_size=1 -memtablerep=skip_list -value_size=100 --num=1000000/$T
-level0_slowdown_writes_trigger=9999 -level0_stop_writes_trigger=9999
-disable_auto_compactions --max_write_buffer_number=8
-max_background_flushes=8 --disable_wal --write_buffer_size=160000000
--block_size=16384 --allow_concurrent_memtable_write" on a two-socket
Xeon E5-2660 @ 2.2Ghz with lots of memory and an SSD hard drive.  With 1
thread I get ~440Kops/sec.  Peak performance for 1 socket (numactl
-N1) is slightly more than 1Mops/sec, at 16 threads.  Peak performance
across both sockets happens at 30 threads, and is ~900Kops/sec, although
with fewer threads there is less performance loss when the system has
background work.

Test Plan:
1. concurrent stress tests for InlineSkipList and DynamicBloom
2. make clean; make check
3. make clean; DISABLE_JEMALLOC=1 make valgrind_check; valgrind db_bench
4. make clean; COMPILE_WITH_TSAN=1 make all check; db_bench
5. make clean; COMPILE_WITH_ASAN=1 make all check; db_bench
6. make clean; OPT=-DROCKSDB_LITE make check
7. verify no perf regressions when disabled

Reviewers: igor, sdong

Reviewed By: sdong

Subscribers: MarkCallaghan, IslamAbdelRahman, anthony, yhchiang, rven, sdong, guyg8, kradhakrishnan, dhruba

Differential Revision: https://reviews.facebook.net/D50589
2015-12-25 11:03:40 -08:00

768 lines
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// This source code is licensed under the BSD-style license found in the
// LICENSE file in the root directory of this source tree. An additional grant
// of patent rights can be found in the PATENTS file in the same directory.
//
// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
#include "db/internal_stats.h"
#ifndef __STDC_FORMAT_MACROS
#define __STDC_FORMAT_MACROS
#endif
#include <inttypes.h>
#include <string>
#include <algorithm>
#include <vector>
#include "db/column_family.h"
#include "db/db_impl.h"
#include "util/string_util.h"
namespace rocksdb {
#ifndef ROCKSDB_LITE
namespace {
const double kMB = 1048576.0;
const double kGB = kMB * 1024;
const double kMicrosInSec = 1000000.0;
void PrintLevelStatsHeader(char* buf, size_t len, const std::string& cf_name) {
snprintf(
buf, len,
"\n** Compaction Stats [%s] **\n"
"Level Files Size(MB) Score Read(GB) Rn(GB) Rnp1(GB) "
"Write(GB) Wnew(GB) Moved(GB) W-Amp Rd(MB/s) Wr(MB/s) "
"Comp(sec) Comp(cnt) Avg(sec) KeyIn KeyDrop\n"
"--------------------------------------------------------------------"
"-----------------------------------------------------------"
"--------------------------------------\n",
cf_name.c_str());
}
void PrintLevelStats(char* buf, size_t len, const std::string& name,
int num_files, int being_compacted, double total_file_size,
double score, double w_amp,
const InternalStats::CompactionStats& stats) {
uint64_t bytes_read =
stats.bytes_read_non_output_levels + stats.bytes_read_output_level;
int64_t bytes_new =
stats.bytes_written - stats.bytes_read_output_level;
double elapsed = (stats.micros + 1) / kMicrosInSec;
std::string num_input_records = NumberToHumanString(stats.num_input_records);
std::string num_dropped_records =
NumberToHumanString(stats.num_dropped_records);
snprintf(buf, len,
"%4s %6d/%-3d %8.2f %5.1f " /* Level, Files, Size(MB), Score */
"%8.1f " /* Read(GB) */
"%7.1f " /* Rn(GB) */
"%8.1f " /* Rnp1(GB) */
"%9.1f " /* Write(GB) */
"%8.1f " /* Wnew(GB) */
"%9.1f " /* Moved(GB) */
"%5.1f " /* W-Amp */
"%8.1f " /* Rd(MB/s) */
"%8.1f " /* Wr(MB/s) */
"%9.0f " /* Comp(sec) */
"%9d " /* Comp(cnt) */
"%8.3f " /* Avg(sec) */
"%7s " /* KeyIn */
"%6s\n", /* KeyDrop */
name.c_str(),
num_files, being_compacted, total_file_size / kMB, score,
bytes_read / kGB, stats.bytes_read_non_output_levels / kGB,
stats.bytes_read_output_level / kGB, stats.bytes_written / kGB,
bytes_new / kGB, stats.bytes_moved / kGB, w_amp,
bytes_read / kMB / elapsed, stats.bytes_written / kMB / elapsed,
stats.micros / kMicrosInSec, stats.count,
stats.count == 0 ? 0 : stats.micros / kMicrosInSec / stats.count,
num_input_records.c_str(), num_dropped_records.c_str());
}
}
static const std::string rocksdb_prefix = "rocksdb.";
static const std::string num_files_at_level_prefix = "num-files-at-level";
static const std::string allstats = "stats";
static const std::string sstables = "sstables";
static const std::string cfstats = "cfstats";
static const std::string dbstats = "dbstats";
static const std::string levelstats = "levelstats";
static const std::string num_immutable_mem_table = "num-immutable-mem-table";
static const std::string num_immutable_mem_table_flushed =
"num-immutable-mem-table-flushed";
static const std::string mem_table_flush_pending = "mem-table-flush-pending";
static const std::string compaction_pending = "compaction-pending";
static const std::string background_errors = "background-errors";
static const std::string cur_size_active_mem_table =
"cur-size-active-mem-table";
static const std::string cur_size_unflushed_mem_tables =
"cur-size-all-mem-tables";
static const std::string cur_size_all_mem_tables = "size-all-mem-tables";
static const std::string num_entries_active_mem_table =
"num-entries-active-mem-table";
static const std::string num_entries_imm_mem_tables =
"num-entries-imm-mem-tables";
static const std::string num_deletes_active_mem_table =
"num-deletes-active-mem-table";
static const std::string num_deletes_imm_mem_tables =
"num-deletes-imm-mem-tables";
static const std::string estimate_num_keys = "estimate-num-keys";
static const std::string estimate_table_readers_mem =
"estimate-table-readers-mem";
static const std::string is_file_deletions_enabled =
"is-file-deletions-enabled";
static const std::string num_snapshots = "num-snapshots";
static const std::string oldest_snapshot_time = "oldest-snapshot-time";
static const std::string num_live_versions = "num-live-versions";
static const std::string estimate_live_data_size = "estimate-live-data-size";
static const std::string base_level = "base-level";
static const std::string total_sst_files_size = "total-sst-files-size";
static const std::string estimate_pending_comp_bytes =
"estimate-pending-compaction-bytes";
static const std::string aggregated_table_properties =
"aggregated-table-properties";
static const std::string aggregated_table_properties_at_level =
aggregated_table_properties + "-at-level";
static const std::string num_running_compactions = "num-running-compactions";
static const std::string num_running_flushes = "num-running-flushes";
const std::string DB::Properties::kNumFilesAtLevelPrefix =
rocksdb_prefix + num_files_at_level_prefix;
const std::string DB::Properties::kStats = rocksdb_prefix + allstats;
const std::string DB::Properties::kSSTables = rocksdb_prefix + sstables;
const std::string DB::Properties::kCFStats = rocksdb_prefix + cfstats;
const std::string DB::Properties::kDBStats = rocksdb_prefix + dbstats;
const std::string DB::Properties::kNumImmutableMemTable =
rocksdb_prefix + num_immutable_mem_table;
const std::string DB::Properties::kMemTableFlushPending =
rocksdb_prefix + mem_table_flush_pending;
const std::string DB::Properties::kCompactionPending =
rocksdb_prefix + compaction_pending;
const std::string DB::Properties::kNumRunningCompactions =
rocksdb_prefix + num_running_compactions;
const std::string DB::Properties::kNumRunningFlushes =
rocksdb_prefix + num_running_flushes;
const std::string DB::Properties::kBackgroundErrors =
rocksdb_prefix + background_errors;
const std::string DB::Properties::kCurSizeActiveMemTable =
rocksdb_prefix + cur_size_active_mem_table;
const std::string DB::Properties::kCurSizeAllMemTables =
rocksdb_prefix + cur_size_unflushed_mem_tables;
const std::string DB::Properties::kSizeAllMemTables =
rocksdb_prefix + cur_size_all_mem_tables;
const std::string DB::Properties::kNumEntriesActiveMemTable =
rocksdb_prefix + num_entries_active_mem_table;
const std::string DB::Properties::kNumEntriesImmMemTables =
rocksdb_prefix + num_entries_imm_mem_tables;
const std::string DB::Properties::kNumDeletesActiveMemTable =
rocksdb_prefix + num_deletes_active_mem_table;
const std::string DB::Properties::kNumDeletesImmMemTables =
rocksdb_prefix + num_deletes_imm_mem_tables;
const std::string DB::Properties::kEstimateNumKeys =
rocksdb_prefix + estimate_num_keys;
const std::string DB::Properties::kEstimateTableReadersMem =
rocksdb_prefix + estimate_table_readers_mem;
const std::string DB::Properties::kIsFileDeletionsEnabled =
rocksdb_prefix + is_file_deletions_enabled;
const std::string DB::Properties::kNumSnapshots =
rocksdb_prefix + num_snapshots;
const std::string DB::Properties::kOldestSnapshotTime =
rocksdb_prefix + oldest_snapshot_time;
const std::string DB::Properties::kNumLiveVersions =
rocksdb_prefix + num_live_versions;
const std::string DB::Properties::kEstimateLiveDataSize =
rocksdb_prefix + estimate_live_data_size;
const std::string DB::Properties::kTotalSstFilesSize =
rocksdb_prefix + total_sst_files_size;
const std::string DB::Properties::kEstimatePendingCompactionBytes =
rocksdb_prefix + estimate_pending_comp_bytes;
const std::string DB::Properties::kAggregatedTableProperties =
rocksdb_prefix + aggregated_table_properties;
const std::string DB::Properties::kAggregatedTablePropertiesAtLevel =
rocksdb_prefix + aggregated_table_properties_at_level;
DBPropertyType GetPropertyType(const Slice& property, bool* is_int_property,
bool* need_out_of_mutex) {
assert(is_int_property != nullptr);
assert(need_out_of_mutex != nullptr);
Slice in = property;
Slice prefix(rocksdb_prefix);
*need_out_of_mutex = false;
*is_int_property = false;
if (!in.starts_with(prefix)) {
return kUnknown;
}
in.remove_prefix(prefix.size());
if (in.starts_with(num_files_at_level_prefix)) {
return kNumFilesAtLevel;
} else if (in == levelstats) {
return kLevelStats;
} else if (in == allstats) {
return kStats;
} else if (in == cfstats) {
return kCFStats;
} else if (in == dbstats) {
return kDBStats;
} else if (in == sstables) {
return kSsTables;
} else if (in == aggregated_table_properties) {
return kAggregatedTableProperties;
} else if (in.starts_with(aggregated_table_properties_at_level)) {
return kAggregatedTablePropertiesAtLevel;
}
*is_int_property = true;
if (in == num_immutable_mem_table) {
return kNumImmutableMemTable;
} else if (in == num_immutable_mem_table_flushed) {
return kNumImmutableMemTableFlushed;
} else if (in == mem_table_flush_pending) {
return kMemtableFlushPending;
} else if (in == compaction_pending) {
return kCompactionPending;
} else if (in == background_errors) {
return kBackgroundErrors;
} else if (in == cur_size_active_mem_table) {
return kCurSizeActiveMemTable;
} else if (in == cur_size_unflushed_mem_tables) {
return kCurSizeAllMemTables;
} else if (in == cur_size_all_mem_tables) {
return kSizeAllMemTables;
} else if (in == num_entries_active_mem_table) {
return kNumEntriesInMutableMemtable;
} else if (in == num_entries_imm_mem_tables) {
return kNumEntriesInImmutableMemtable;
} else if (in == num_deletes_active_mem_table) {
return kNumDeletesInMutableMemtable;
} else if (in == num_deletes_imm_mem_tables) {
return kNumDeletesInImmutableMemtable;
} else if (in == estimate_num_keys) {
return kEstimatedNumKeys;
} else if (in == estimate_table_readers_mem) {
*need_out_of_mutex = true;
return kEstimatedUsageByTableReaders;
} else if (in == is_file_deletions_enabled) {
return kIsFileDeletionEnabled;
} else if (in == num_snapshots) {
return kNumSnapshots;
} else if (in == oldest_snapshot_time) {
return kOldestSnapshotTime;
} else if (in == num_live_versions) {
return kNumLiveVersions;
} else if (in == estimate_live_data_size) {
*need_out_of_mutex = true;
return kEstimateLiveDataSize;
} else if (in == base_level) {
return kBaseLevel;
} else if (in == total_sst_files_size) {
return kTotalSstFilesSize;
} else if (in == estimate_pending_comp_bytes) {
return kEstimatePendingCompactionBytes;
} else if (in == num_running_flushes) {
return kNumRunningFlushes;
} else if (in == num_running_compactions) {
return kNumRunningCompactions;
}
return kUnknown;
}
bool InternalStats::GetIntPropertyOutOfMutex(DBPropertyType property_type,
Version* version,
uint64_t* value) const {
assert(value != nullptr);
const auto* vstorage = cfd_->current()->storage_info();
switch (property_type) {
case kEstimatedUsageByTableReaders:
*value = (version == nullptr) ?
0 : version->GetMemoryUsageByTableReaders();
return true;
case kEstimateLiveDataSize:
*value = vstorage->EstimateLiveDataSize();
return true;
default:
return false;
}
}
bool InternalStats::GetStringProperty(DBPropertyType property_type,
const Slice& property,
std::string* value) {
assert(value != nullptr);
auto* current = cfd_->current();
const auto* vstorage = current->storage_info();
Slice in = property;
switch (property_type) {
case kNumFilesAtLevel: {
in.remove_prefix(strlen("rocksdb.num-files-at-level"));
uint64_t level;
bool ok = ConsumeDecimalNumber(&in, &level) && in.empty();
if (!ok || (int)level >= number_levels_) {
return false;
} else {
char buf[100];
snprintf(buf, sizeof(buf), "%d",
vstorage->NumLevelFiles(static_cast<int>(level)));
*value = buf;
return true;
}
}
case kLevelStats: {
char buf[1000];
snprintf(buf, sizeof(buf),
"Level Files Size(MB)\n"
"--------------------\n");
value->append(buf);
for (int level = 0; level < number_levels_; level++) {
snprintf(buf, sizeof(buf), "%3d %8d %8.0f\n", level,
vstorage->NumLevelFiles(level),
vstorage->NumLevelBytes(level) / kMB);
value->append(buf);
}
return true;
}
case kStats: {
if (!GetStringProperty(kCFStats, DB::Properties::kCFStats, value)) {
return false;
}
if (!GetStringProperty(kDBStats, DB::Properties::kDBStats, value)) {
return false;
}
return true;
}
case kCFStats: {
DumpCFStats(value);
return true;
}
case kDBStats: {
DumpDBStats(value);
return true;
}
case kSsTables:
*value = current->DebugString();
return true;
case kAggregatedTableProperties: {
std::shared_ptr<const TableProperties> tp;
auto s = cfd_->current()->GetAggregatedTableProperties(&tp);
if (!s.ok()) {
return false;
}
*value = tp->ToString();
return true;
}
case kAggregatedTablePropertiesAtLevel: {
in.remove_prefix(
DB::Properties::kAggregatedTablePropertiesAtLevel.length());
uint64_t level;
bool ok = ConsumeDecimalNumber(&in, &level) && in.empty();
if (!ok || static_cast<int>(level) >= number_levels_) {
return false;
}
std::shared_ptr<const TableProperties> tp;
auto s = cfd_->current()->GetAggregatedTableProperties(
&tp, static_cast<int>(level));
if (!s.ok()) {
return false;
}
*value = tp->ToString();
return true;
}
default:
return false;
}
}
bool InternalStats::GetIntProperty(DBPropertyType property_type,
uint64_t* value, DBImpl* db) const {
db->mutex_.AssertHeld();
const auto* vstorage = cfd_->current()->storage_info();
switch (property_type) {
case kNumImmutableMemTable:
*value = cfd_->imm()->NumNotFlushed();
return true;
case kNumImmutableMemTableFlushed:
*value = cfd_->imm()->NumFlushed();
return true;
case kMemtableFlushPending:
// Return number of mem tables that are ready to flush (made immutable)
*value = (cfd_->imm()->IsFlushPending() ? 1 : 0);
return true;
case kNumRunningFlushes:
*value = db->num_running_flushes();
return true;
case kCompactionPending:
// 1 if the system already determines at least one compaction is needed.
// 0 otherwise,
*value = (cfd_->compaction_picker()->NeedsCompaction(vstorage) ? 1 : 0);
return true;
case kNumRunningCompactions:
*value = db->num_running_compactions_;
return true;
case kBackgroundErrors:
// Accumulated number of errors in background flushes or compactions.
*value = GetBackgroundErrorCount();
return true;
case kCurSizeActiveMemTable:
// Current size of the active memtable
*value = cfd_->mem()->ApproximateMemoryUsage();
return true;
case kCurSizeAllMemTables:
// Current size of the active memtable + immutable memtables
*value = cfd_->mem()->ApproximateMemoryUsage() +
cfd_->imm()->ApproximateUnflushedMemTablesMemoryUsage();
return true;
case kSizeAllMemTables:
*value = cfd_->mem()->ApproximateMemoryUsage() +
cfd_->imm()->ApproximateMemoryUsage();
return true;
case kNumEntriesInMutableMemtable:
// Current number of entires in the active memtable
*value = cfd_->mem()->num_entries();
return true;
case kNumEntriesInImmutableMemtable:
// Current number of entries in the immutable memtables
*value = cfd_->imm()->current()->GetTotalNumEntries();
return true;
case kNumDeletesInMutableMemtable:
// Current number of entires in the active memtable
*value = cfd_->mem()->num_deletes();
return true;
case kNumDeletesInImmutableMemtable:
// Current number of entries in the immutable memtables
*value = cfd_->imm()->current()->GetTotalNumDeletes();
return true;
case kEstimatedNumKeys:
// Estimate number of entries in the column family:
// Use estimated entries in tables + total entries in memtables.
*value = cfd_->mem()->num_entries() +
cfd_->imm()->current()->GetTotalNumEntries() -
(cfd_->mem()->num_deletes() +
cfd_->imm()->current()->GetTotalNumDeletes()) *
2 +
vstorage->GetEstimatedActiveKeys();
return true;
case kNumSnapshots:
*value = db->snapshots().count();
return true;
case kOldestSnapshotTime:
*value = static_cast<uint64_t>(db->snapshots().GetOldestSnapshotTime());
return true;
case kNumLiveVersions:
*value = cfd_->GetNumLiveVersions();
return true;
case kIsFileDeletionEnabled:
*value = db->IsFileDeletionsEnabled();
return true;
case kBaseLevel:
*value = vstorage->base_level();
return true;
case kTotalSstFilesSize:
*value = cfd_->GetTotalSstFilesSize();
return true;
case kEstimatePendingCompactionBytes:
*value = vstorage->estimated_compaction_needed_bytes();
return true;
default:
return false;
}
}
void InternalStats::DumpDBStats(std::string* value) {
char buf[1000];
// DB-level stats, only available from default column family
double seconds_up = (env_->NowMicros() - started_at_ + 1) / kMicrosInSec;
double interval_seconds_up = seconds_up - db_stats_snapshot_.seconds_up;
snprintf(buf, sizeof(buf),
"\n** DB Stats **\nUptime(secs): %.1f total, %.1f interval\n",
seconds_up, interval_seconds_up);
value->append(buf);
// Cumulative
uint64_t user_bytes_written = GetDBStats(InternalStats::BYTES_WRITTEN);
uint64_t num_keys_written = GetDBStats(InternalStats::NUMBER_KEYS_WRITTEN);
uint64_t write_other = GetDBStats(InternalStats::WRITE_DONE_BY_OTHER);
uint64_t write_self = GetDBStats(InternalStats::WRITE_DONE_BY_SELF);
uint64_t wal_bytes = GetDBStats(InternalStats::WAL_FILE_BYTES);
uint64_t wal_synced = GetDBStats(InternalStats::WAL_FILE_SYNCED);
uint64_t write_with_wal = GetDBStats(InternalStats::WRITE_WITH_WAL);
uint64_t write_stall_micros = GetDBStats(InternalStats::WRITE_STALL_MICROS);
uint64_t compact_bytes_read = 0;
uint64_t compact_bytes_write = 0;
uint64_t compact_micros = 0;
const int kHumanMicrosLen = 32;
char human_micros[kHumanMicrosLen];
// Data
// writes: total number of write requests.
// keys: total number of key updates issued by all the write requests
// batches: number of group commits issued to the DB. Each group can contain
// one or more writes.
// so writes/keys is the average number of put in multi-put or put
// writes/batches is the average group commit size.
//
// The format is the same for interval stats.
snprintf(buf, sizeof(buf),
"Cumulative writes: %s writes, %s keys, %s batches, "
"%.1f writes per batch, ingest: %.2f GB, %.2f MB/s\n",
NumberToHumanString(write_other + write_self).c_str(),
NumberToHumanString(num_keys_written).c_str(),
NumberToHumanString(write_self).c_str(),
(write_other + write_self) / static_cast<double>(write_self + 1),
user_bytes_written / kGB, user_bytes_written / kMB / seconds_up);
value->append(buf);
// WAL
snprintf(buf, sizeof(buf),
"Cumulative WAL: %s writes, %s syncs, "
"%.2f writes per sync, written: %.2f GB, %.2f MB/s\n",
NumberToHumanString(write_with_wal).c_str(),
NumberToHumanString(wal_synced).c_str(),
write_with_wal / static_cast<double>(wal_synced + 1),
wal_bytes / kGB, wal_bytes / kMB / seconds_up);
value->append(buf);
// Compact
for (int level = 0; level < number_levels_; level++) {
compact_bytes_read += comp_stats_[level].bytes_read_output_level +
comp_stats_[level].bytes_read_non_output_levels;
compact_bytes_write += comp_stats_[level].bytes_written;
compact_micros += comp_stats_[level].micros;
}
snprintf(buf, sizeof(buf),
"Cumulative compaction: %.2f GB write, %.2f MB/s write, "
"%.2f GB read, %.2f MB/s read, %.1f seconds\n",
compact_bytes_write / kGB, compact_bytes_write / kMB / seconds_up,
compact_bytes_read / kGB, compact_bytes_read / kMB / seconds_up,
compact_micros / kMicrosInSec);
value->append(buf);
// Stall
AppendHumanMicros(write_stall_micros, human_micros, kHumanMicrosLen, true);
snprintf(buf, sizeof(buf),
"Cumulative stall: %s, %.1f percent\n",
human_micros,
// 10000 = divide by 1M to get secs, then multiply by 100 for pct
write_stall_micros / 10000.0 / std::max(seconds_up, 0.001));
value->append(buf);
// Interval
uint64_t interval_write_other = write_other - db_stats_snapshot_.write_other;
uint64_t interval_write_self = write_self - db_stats_snapshot_.write_self;
uint64_t interval_num_keys_written =
num_keys_written - db_stats_snapshot_.num_keys_written;
snprintf(buf, sizeof(buf),
"Interval writes: %s writes, %s keys, %s batches, "
"%.1f writes per batch, ingest: %.2f MB, %.2f MB/s\n",
NumberToHumanString(
interval_write_other + interval_write_self).c_str(),
NumberToHumanString(interval_num_keys_written).c_str(),
NumberToHumanString(interval_write_self).c_str(),
static_cast<double>(interval_write_other + interval_write_self) /
(interval_write_self + 1),
(user_bytes_written - db_stats_snapshot_.ingest_bytes) / kMB,
(user_bytes_written - db_stats_snapshot_.ingest_bytes) / kMB /
std::max(interval_seconds_up, 0.001)),
value->append(buf);
uint64_t interval_write_with_wal =
write_with_wal - db_stats_snapshot_.write_with_wal;
uint64_t interval_wal_synced = wal_synced - db_stats_snapshot_.wal_synced;
uint64_t interval_wal_bytes = wal_bytes - db_stats_snapshot_.wal_bytes;
snprintf(buf, sizeof(buf),
"Interval WAL: %s writes, %s syncs, "
"%.2f writes per sync, written: %.2f MB, %.2f MB/s\n",
NumberToHumanString(interval_write_with_wal).c_str(),
NumberToHumanString(interval_wal_synced).c_str(),
interval_write_with_wal /
static_cast<double>(interval_wal_synced + 1),
interval_wal_bytes / kGB,
interval_wal_bytes / kMB / std::max(interval_seconds_up, 0.001));
value->append(buf);
// Compaction
uint64_t interval_compact_bytes_write =
compact_bytes_write - db_stats_snapshot_.compact_bytes_write;
uint64_t interval_compact_bytes_read =
compact_bytes_read - db_stats_snapshot_.compact_bytes_read;
uint64_t interval_compact_micros =
compact_micros - db_stats_snapshot_.compact_micros;
snprintf(
buf, sizeof(buf),
"Interval compaction: %.2f GB write, %.2f MB/s write, "
"%.2f GB read, %.2f MB/s read, %.1f seconds\n",
interval_compact_bytes_write / kGB,
interval_compact_bytes_write / kMB / std::max(interval_seconds_up, 0.001),
interval_compact_bytes_read / kGB,
interval_compact_bytes_read / kMB / std::max(interval_seconds_up, 0.001),
interval_compact_micros / kMicrosInSec);
value->append(buf);
// Stall
AppendHumanMicros(
write_stall_micros - db_stats_snapshot_.write_stall_micros,
human_micros, kHumanMicrosLen, true);
snprintf(buf, sizeof(buf),
"Interval stall: %s, %.1f percent\n",
human_micros,
// 10000 = divide by 1M to get secs, then multiply by 100 for pct
(write_stall_micros - db_stats_snapshot_.write_stall_micros) /
10000.0 / std::max(interval_seconds_up, 0.001));
value->append(buf);
for (int level = 0; level < number_levels_; level++) {
if (!file_read_latency_[level].Empty()) {
char buf2[5000];
snprintf(buf2, sizeof(buf2),
"** Level %d read latency histogram (micros):\n%s\n", level,
file_read_latency_[level].ToString().c_str());
value->append(buf2);
}
}
db_stats_snapshot_.seconds_up = seconds_up;
db_stats_snapshot_.ingest_bytes = user_bytes_written;
db_stats_snapshot_.write_other = write_other;
db_stats_snapshot_.write_self = write_self;
db_stats_snapshot_.num_keys_written = num_keys_written;
db_stats_snapshot_.wal_bytes = wal_bytes;
db_stats_snapshot_.wal_synced = wal_synced;
db_stats_snapshot_.write_with_wal = write_with_wal;
db_stats_snapshot_.write_stall_micros = write_stall_micros;
db_stats_snapshot_.compact_bytes_write = compact_bytes_write;
db_stats_snapshot_.compact_bytes_read = compact_bytes_read;
db_stats_snapshot_.compact_micros = compact_micros;
}
void InternalStats::DumpCFStats(std::string* value) {
const VersionStorageInfo* vstorage = cfd_->current()->storage_info();
int num_levels_to_check =
(cfd_->ioptions()->compaction_style != kCompactionStyleFIFO)
? vstorage->num_levels() - 1
: 1;
// Compaction scores are sorted base on its value. Restore them to the
// level order
std::vector<double> compaction_score(number_levels_, 0);
for (int i = 0; i < num_levels_to_check; ++i) {
compaction_score[vstorage->CompactionScoreLevel(i)] =
vstorage->CompactionScore(i);
}
// Count # of files being compacted for each level
std::vector<int> files_being_compacted(number_levels_, 0);
for (int level = 0; level < number_levels_; ++level) {
for (auto* f : vstorage->LevelFiles(level)) {
if (f->being_compacted) {
++files_being_compacted[level];
}
}
}
char buf[1000];
// Per-ColumnFamily stats
PrintLevelStatsHeader(buf, sizeof(buf), cfd_->GetName());
value->append(buf);
CompactionStats stats_sum(0);
int total_files = 0;
int total_files_being_compacted = 0;
double total_file_size = 0;
for (int level = 0; level < number_levels_; level++) {
int files = vstorage->NumLevelFiles(level);
total_files += files;
total_files_being_compacted += files_being_compacted[level];
if (comp_stats_[level].micros > 0 || files > 0) {
stats_sum.Add(comp_stats_[level]);
total_file_size += vstorage->NumLevelBytes(level);
double w_amp =
(comp_stats_[level].bytes_read_non_output_levels == 0) ? 0.0
: static_cast<double>(comp_stats_[level].bytes_written) /
comp_stats_[level].bytes_read_non_output_levels;
PrintLevelStats(buf, sizeof(buf), "L" + ToString(level), files,
files_being_compacted[level],
static_cast<double>(vstorage->NumLevelBytes(level)),
compaction_score[level],
w_amp, comp_stats_[level]);
value->append(buf);
}
}
uint64_t curr_ingest = cf_stats_value_[BYTES_FLUSHED];
// Cumulative summary
double w_amp = stats_sum.bytes_written / static_cast<double>(curr_ingest + 1);
uint64_t total_stall_count =
cf_stats_count_[LEVEL0_SLOWDOWN_TOTAL] +
cf_stats_count_[LEVEL0_NUM_FILES_TOTAL] +
cf_stats_count_[SOFT_PENDING_COMPACTION_BYTES_LIMIT] +
cf_stats_count_[HARD_PENDING_COMPACTION_BYTES_LIMIT] +
cf_stats_count_[MEMTABLE_COMPACTION] + cf_stats_count_[MEMTABLE_SLOWDOWN];
// Stats summary across levels
PrintLevelStats(buf, sizeof(buf), "Sum", total_files,
total_files_being_compacted, total_file_size, 0, w_amp,
stats_sum);
value->append(buf);
// Interval summary
uint64_t interval_ingest =
curr_ingest - cf_stats_snapshot_.ingest_bytes + 1;
CompactionStats interval_stats(stats_sum);
interval_stats.Subtract(cf_stats_snapshot_.comp_stats);
w_amp = interval_stats.bytes_written / static_cast<double>(interval_ingest);
PrintLevelStats(buf, sizeof(buf), "Int", 0, 0, 0, 0, w_amp, interval_stats);
value->append(buf);
snprintf(buf, sizeof(buf),
"Flush(GB): cumulative %.3f, interval %.3f\n",
curr_ingest / kGB, interval_ingest / kGB);
value->append(buf);
snprintf(buf, sizeof(buf), "Stalls(count): %" PRIu64
" level0_slowdown, "
"%" PRIu64
" level0_slowdown_with_compaction, "
"%" PRIu64
" level0_numfiles, "
"%" PRIu64
" level0_numfiles_with_compaction, "
"%" PRIu64
" stop for pending_compaction_bytes, "
"%" PRIu64
" slowdown for pending_compaction_bytes, "
"%" PRIu64
" memtable_compaction, "
"%" PRIu64
" memtable_slowdown, "
"interval %" PRIu64 " total count\n",
cf_stats_count_[LEVEL0_SLOWDOWN_TOTAL],
cf_stats_count_[LEVEL0_SLOWDOWN_WITH_COMPACTION],
cf_stats_count_[LEVEL0_NUM_FILES_TOTAL],
cf_stats_count_[LEVEL0_NUM_FILES_WITH_COMPACTION],
cf_stats_count_[HARD_PENDING_COMPACTION_BYTES_LIMIT],
cf_stats_count_[SOFT_PENDING_COMPACTION_BYTES_LIMIT],
cf_stats_count_[MEMTABLE_COMPACTION],
cf_stats_count_[MEMTABLE_SLOWDOWN],
total_stall_count - cf_stats_snapshot_.stall_count);
value->append(buf);
cf_stats_snapshot_.ingest_bytes = curr_ingest;
cf_stats_snapshot_.comp_stats = stats_sum;
cf_stats_snapshot_.stall_count = total_stall_count;
}
#else
DBPropertyType GetPropertyType(const Slice& property, bool* is_int_property,
bool* need_out_of_mutex) {
return kUnknown;
}
#endif // !ROCKSDB_LITE
} // namespace rocksdb
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