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rocksdb/utilities/trace/replayer_impl.cc

314 lines
9.6 KiB

// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
#include "utilities/trace/replayer_impl.h"
#include <cmath>
#include <thread>
#include "rocksdb/options.h"
#include "rocksdb/slice.h"
#include "rocksdb/system_clock.h"
#include "util/threadpool_imp.h"
namespace ROCKSDB_NAMESPACE {
ReplayerImpl::ReplayerImpl(DB* db,
const std::vector<ColumnFamilyHandle*>& handles,
std::unique_ptr<TraceReader>&& reader)
: Replayer(),
trace_reader_(std::move(reader)),
prepared_(false),
trace_end_(false),
header_ts_(0),
exec_handler_(TraceRecord::NewExecutionHandler(db, handles)),
env_(db->GetEnv()),
trace_file_version_(-1) {}
ReplayerImpl::~ReplayerImpl() {
exec_handler_.reset();
trace_reader_.reset();
}
Status ReplayerImpl::Prepare() {
Trace header;
int db_version;
Status s = ReadHeader(&header);
if (!s.ok()) {
return s;
}
s = TracerHelper::ParseTraceHeader(header, &trace_file_version_, &db_version);
if (!s.ok()) {
return s;
}
header_ts_ = header.ts;
prepared_ = true;
trace_end_ = false;
return Status::OK();
}
Status ReplayerImpl::Next(std::unique_ptr<TraceRecord>* record) {
if (!prepared_) {
return Status::Incomplete("Not prepared!");
}
if (trace_end_) {
return Status::Incomplete("Trace end.");
}
Trace trace;
Status s = ReadTrace(&trace); // ReadTrace is atomic
// Reached the trace end.
if (s.ok() && trace.type == kTraceEnd) {
trace_end_ = true;
return Status::Incomplete("Trace end.");
}
if (!s.ok() || record == nullptr) {
return s;
}
return TracerHelper::DecodeTraceRecord(&trace, trace_file_version_, record);
}
Status ReplayerImpl::Execute(const std::unique_ptr<TraceRecord>& record,
std::unique_ptr<TraceRecordResult>* result) {
return record->Accept(exec_handler_.get(), result);
}
Status ReplayerImpl::Replay(
const ReplayOptions& options,
const std::function<void(Status, std::unique_ptr<TraceRecordResult>&&)>&
result_callback) {
if (options.fast_forward <= 0.0) {
return Status::InvalidArgument("Wrong fast forward speed!");
}
if (!prepared_) {
return Status::Incomplete("Not prepared!");
}
if (trace_end_) {
return Status::Incomplete("Trace end.");
}
Status s = Status::OK();
if (options.num_threads <= 1) {
// num_threads == 0 or num_threads == 1 uses single thread.
std::chrono::system_clock::time_point replay_epoch =
std::chrono::system_clock::now();
while (s.ok()) {
Trace trace;
s = ReadTrace(&trace);
// If already at trace end, ReadTrace should return Status::Incomplete().
if (!s.ok()) {
break;
}
// No need to sleep before breaking the loop if at the trace end.
if (trace.type == kTraceEnd) {
trace_end_ = true;
s = Status::Incomplete("Trace end.");
break;
}
// In single-threaded replay, decode first then sleep.
std::unique_ptr<TraceRecord> record;
s = TracerHelper::DecodeTraceRecord(&trace, trace_file_version_, &record);
if (!s.ok() && !s.IsNotSupported()) {
break;
}
std::chrono::system_clock::time_point sleep_to =
replay_epoch +
std::chrono::microseconds(static_cast<uint64_t>(std::llround(
1.0 * (trace.ts - header_ts_) / options.fast_forward)));
if (sleep_to > std::chrono::system_clock::now()) {
std::this_thread::sleep_until(sleep_to);
}
// Skip unsupported traces, stop for other errors.
if (s.IsNotSupported()) {
if (result_callback != nullptr) {
result_callback(s, nullptr);
}
s = Status::OK();
continue;
}
if (result_callback == nullptr) {
s = Execute(record, nullptr);
} else {
std::unique_ptr<TraceRecordResult> res;
s = Execute(record, &res);
result_callback(s, std::move(res));
}
}
} else {
// Multi-threaded replay.
ThreadPoolImpl thread_pool;
thread_pool.SetHostEnv(env_);
thread_pool.SetBackgroundThreads(static_cast<int>(options.num_threads));
std::mutex mtx;
// Background decoding and execution status.
Status bg_s = Status::OK();
uint64_t last_err_ts = static_cast<uint64_t>(-1);
// Callback function used in background work to update bg_s for the ealiest
// TraceRecord which has execution error. This is different from the
// timestamp of the first execution error (either start or end timestamp).
//
// Suppose TraceRecord R1, R2, with timestamps T1 < T2. Their execution
// timestamps are T1_start, T1_end, T2_start, T2_end.
// Single-thread: there must be T1_start < T1_end < T2_start < T2_end.
// Multi-thread: T1_start < T2_start may not be enforced. Orders of them are
// totally unknown.
// In order to report the same `first` error in both single-thread and
// multi-thread replay, we can only rely on the TraceRecords' timestamps,
// rather than their executin timestamps. Although in single-thread replay,
// the first error is also the last error, while in multi-thread replay, the
// first error may not be the first error in execution, and it may not be
// the last error in exeution as well.
auto error_cb = [&mtx, &bg_s, &last_err_ts](Status err, uint64_t err_ts) {
std::lock_guard<std::mutex> gd(mtx);
// Only record the first error.
if (!err.ok() && !err.IsNotSupported() && err_ts < last_err_ts) {
bg_s = err;
last_err_ts = err_ts;
}
};
std::chrono::system_clock::time_point replay_epoch =
std::chrono::system_clock::now();
while (bg_s.ok() && s.ok()) {
Trace trace;
s = ReadTrace(&trace);
// If already at trace end, ReadTrace should return Status::Incomplete().
if (!s.ok()) {
break;
}
TraceType trace_type = trace.type;
// No need to sleep before breaking the loop if at the trace end.
if (trace_type == kTraceEnd) {
trace_end_ = true;
s = Status::Incomplete("Trace end.");
break;
}
// In multi-threaded replay, sleep first then start decoding and
// execution in a thread.
std::chrono::system_clock::time_point sleep_to =
replay_epoch +
std::chrono::microseconds(static_cast<uint64_t>(std::llround(
1.0 * (trace.ts - header_ts_) / options.fast_forward)));
if (sleep_to > std::chrono::system_clock::now()) {
std::this_thread::sleep_until(sleep_to);
}
if (trace_type == kTraceWrite || trace_type == kTraceGet ||
trace_type == kTraceIteratorSeek ||
trace_type == kTraceIteratorSeekForPrev ||
trace_type == kTraceMultiGet) {
std::unique_ptr<ReplayerWorkerArg> ra(new ReplayerWorkerArg);
ra->trace_entry = std::move(trace);
ra->handler = exec_handler_.get();
ra->trace_file_version = trace_file_version_;
ra->error_cb = error_cb;
ra->result_cb = result_callback;
thread_pool.Schedule(&ReplayerImpl::BackgroundWork, ra.release(),
nullptr, nullptr);
} else {
// Skip unsupported traces.
if (result_callback != nullptr) {
result_callback(Status::NotSupported("Unsupported trace type."),
nullptr);
}
}
}
thread_pool.WaitForJobsAndJoinAllThreads();
if (!bg_s.ok()) {
s = bg_s;
}
}
if (s.IsIncomplete()) {
// Reaching eof returns Incomplete status at the moment.
// Could happen when killing a process without calling EndTrace() API.
// TODO: Add better error handling.
trace_end_ = true;
return Status::OK();
}
return s;
}
uint64_t ReplayerImpl::GetHeaderTimestamp() const { return header_ts_; }
Status ReplayerImpl::ReadHeader(Trace* header) {
assert(header != nullptr);
Status s = trace_reader_->Reset();
if (!s.ok()) {
return s;
}
std::string encoded_trace;
// Read the trace head
s = trace_reader_->Read(&encoded_trace);
if (!s.ok()) {
return s;
}
return TracerHelper::DecodeHeader(encoded_trace, header);
}
Status ReplayerImpl::ReadTrace(Trace* trace) {
assert(trace != nullptr);
std::string encoded_trace;
// We don't know if TraceReader is implemented thread-safe, so we protect the
// reading trace part with a mutex. The decoding part does not need to be
// protected since it's local.
{
std::lock_guard<std::mutex> guard(mutex_);
Status s = trace_reader_->Read(&encoded_trace);
if (!s.ok()) {
return s;
}
}
return TracerHelper::DecodeTrace(encoded_trace, trace);
}
void ReplayerImpl::BackgroundWork(void* arg) {
std::unique_ptr<ReplayerWorkerArg> ra(
reinterpret_cast<ReplayerWorkerArg*>(arg));
assert(ra != nullptr);
std::unique_ptr<TraceRecord> record;
Status s = TracerHelper::DecodeTraceRecord(&(ra->trace_entry),
ra->trace_file_version, &record);
if (!s.ok()) {
// Stop the replay
if (ra->error_cb != nullptr) {
ra->error_cb(s, ra->trace_entry.ts);
}
// Report the result
if (ra->result_cb != nullptr) {
ra->result_cb(s, nullptr);
}
return;
}
if (ra->result_cb == nullptr) {
s = record->Accept(ra->handler, nullptr);
} else {
std::unique_ptr<TraceRecordResult> res;
s = record->Accept(ra->handler, &res);
ra->result_cb(s, std::move(res));
}
record.reset();
}
} // namespace ROCKSDB_NAMESPACE