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webrtc / src / a6d26ec6a2a6eccb35b3456010956bf4f53a2659 / . / webrtc / call / rtc_event_log_helper_thread.cc
blob: c0f89726311bbc1c983f43291327463289ec0e82 [file] [log] [blame]
/*
* Copyright (c) 2016 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "webrtc/call/rtc_event_log_helper_thread.h"
#include <algorithm>
#include "webrtc/base/checks.h"
#include "webrtc/system_wrappers/include/logging.h"
#ifdef ENABLE_RTC_EVENT_LOG
namespace webrtc {
namespace {
const int kEventsInHistory = 10000;
bool IsConfigEvent(const rtclog::Event& event) {
rtclog::Event_EventType event_type = event.type();
return event_type == rtclog::Event::VIDEO_RECEIVER_CONFIG_EVENT ||
event_type == rtclog::Event::VIDEO_SENDER_CONFIG_EVENT ||
event_type == rtclog::Event::AUDIO_RECEIVER_CONFIG_EVENT ||
event_type == rtclog::Event::AUDIO_SENDER_CONFIG_EVENT;
}
} // namespace
// RtcEventLogImpl member functions.
RtcEventLogHelperThread::RtcEventLogHelperThread(
SwapQueue<ControlMessage>* message_queue,
SwapQueue<std::unique_ptr<rtclog::Event>>* event_queue,
const Clock* const clock)
: message_queue_(message_queue),
event_queue_(event_queue),
history_(kEventsInHistory),
config_history_(),
file_(FileWrapper::Create()),
thread_(&ThreadOutputFunction, this, "RtcEventLog thread"),
max_size_bytes_(std::numeric_limits<int64_t>::max()),
written_bytes_(0),
start_time_(0),
stop_time_(std::numeric_limits<int64_t>::max()),
has_recent_event_(false),
most_recent_event_(),
output_string_(),
wake_periodically_(false, false),
wake_from_hibernation_(false, false),
file_finished_(false, false),
clock_(clock) {
RTC_DCHECK(message_queue_);
RTC_DCHECK(event_queue_);
RTC_DCHECK(clock_);
thread_.Start();
}
RtcEventLogHelperThread::~RtcEventLogHelperThread() {
ControlMessage message;
message.message_type = ControlMessage::TERMINATE_THREAD;
message.stop_time = clock_->TimeInMicroseconds();
while (!message_queue_->Insert(&message)) {
// We can't destroy the event log until we have stopped the thread,
// so clear the message queue and try again. Note that if we clear
// any STOP_FILE events, then the threads calling StopLogging would likely
// wait indefinitely. However, there should not be any such calls as we
// are executing the destructor.
LOG(LS_WARNING) << "Clearing message queue to terminate thread.";
message_queue_->Clear();
}
wake_from_hibernation_.Set();
wake_periodically_.Set(); // Wake up the output thread.
thread_.Stop(); // Wait for the thread to terminate.
}
void RtcEventLogHelperThread::WaitForFileFinished() {
wake_from_hibernation_.Set();
wake_periodically_.Set();
file_finished_.Wait(rtc::Event::kForever);
}
void RtcEventLogHelperThread::SignalNewEvent() {
wake_from_hibernation_.Set();
}
bool RtcEventLogHelperThread::AppendEventToString(rtclog::Event* event) {
rtclog::EventStream event_stream;
event_stream.add_stream();
event_stream.mutable_stream(0)->Swap(event);
// We create a new event stream per event but because of the way protobufs
// are encoded, events can be merged by concatenating them. Therefore,
// it will look like a single stream when we read it back from file.
bool stop = true;
if (written_bytes_ + static_cast<int64_t>(output_string_.size()) +
event_stream.ByteSize() <=
max_size_bytes_) {
event_stream.AppendToString(&output_string_);
stop = false;
}
// Swap the event back so that we don't mix event types in the queues.
event_stream.mutable_stream(0)->Swap(event);
return stop;
}
bool RtcEventLogHelperThread::LogToMemory() {
RTC_DCHECK(!file_->is_open());
bool message_received = false;
// Process each event earlier than the current time and append it to the
// appropriate history_.
int64_t current_time = clock_->TimeInMicroseconds();
if (!has_recent_event_) {
has_recent_event_ = event_queue_->Remove(&most_recent_event_);
}
while (has_recent_event_ &&
most_recent_event_->timestamp_us() <= current_time) {
if (IsConfigEvent(*most_recent_event_)) {
config_history_.push_back(std::move(most_recent_event_));
} else {
history_.push_back(std::move(most_recent_event_));
}
has_recent_event_ = event_queue_->Remove(&most_recent_event_);
message_received = true;
}
return message_received;
}
void RtcEventLogHelperThread::StartLogFile() {
RTC_DCHECK(file_->is_open());
bool stop = false;
output_string_.clear();
// Create and serialize the LOG_START event.
rtclog::Event start_event;
start_event.set_timestamp_us(start_time_);
start_event.set_type(rtclog::Event::LOG_START);
AppendEventToString(&start_event);
// Serialize the config information for all old streams.
for (auto& event : config_history_) {
AppendEventToString(event.get());
}
// Serialize the events in the event queue.
while (!history_.empty() && !stop) {
stop = AppendEventToString(history_.front().get());
if (!stop) {
history_.pop_front();
}
}
// Write to file.
if (!file_->Write(output_string_.data(), output_string_.size())) {
LOG(LS_ERROR) << "FileWrapper failed to write WebRtcEventLog file.";
// The current FileWrapper implementation closes the file on error.
RTC_DCHECK(!file_->is_open());
return;
}
written_bytes_ += output_string_.size();
// Free the allocated memory since we probably won't need this amount of
// space again.
output_string_.clear();
output_string_.shrink_to_fit();
if (stop) {
RTC_DCHECK(file_->is_open());
StopLogFile();
}
}
bool RtcEventLogHelperThread::LogToFile() {
RTC_DCHECK(file_->is_open());
output_string_.clear();
bool message_received = false;
// Append each event older than both the current time and the stop time
// to the output_string_.
int64_t current_time = clock_->TimeInMicroseconds();
int64_t time_limit = std::min(current_time, stop_time_);
if (!has_recent_event_) {
has_recent_event_ = event_queue_->Remove(&most_recent_event_);
}
bool stop = false;
while (!stop && has_recent_event_ &&
most_recent_event_->timestamp_us() <= time_limit) {
stop = AppendEventToString(most_recent_event_.get());
if (!stop) {
if (IsConfigEvent(*most_recent_event_)) {
config_history_.push_back(std::move(most_recent_event_));
}
has_recent_event_ = event_queue_->Remove(&most_recent_event_);
}
message_received = true;
}
// Write string to file.
if (!file_->Write(output_string_.data(), output_string_.size())) {
LOG(LS_ERROR) << "FileWrapper failed to write WebRtcEventLog file.";
// The current FileWrapper implementation closes the file on error.
RTC_DCHECK(!file_->is_open());
return message_received;
}
written_bytes_ += output_string_.size();
// We want to stop logging if we have reached the file size limit. We also
// want to stop logging if the remaining events are more recent than the
// time limit, or in other words if we have terminated the loop despite
// having more events in the queue.
if ((has_recent_event_ && most_recent_event_->timestamp_us() > stop_time_) ||
stop) {
RTC_DCHECK(file_->is_open());
StopLogFile();
}
return message_received;
}
void RtcEventLogHelperThread::StopLogFile() {
RTC_DCHECK(file_->is_open());
output_string_.clear();
rtclog::Event end_event;
// This function can be called either because we have reached the stop time,
// or because we have reached the log file size limit. Therefore, use the
// current time if we have not reached the time limit.
end_event.set_timestamp_us(
std::min(stop_time_, clock_->TimeInMicroseconds()));
end_event.set_type(rtclog::Event::LOG_END);
AppendEventToString(&end_event);
if (written_bytes_ + static_cast<int64_t>(output_string_.size()) <=
max_size_bytes_) {
if (!file_->Write(output_string_.data(), output_string_.size())) {
LOG(LS_ERROR) << "FileWrapper failed to write WebRtcEventLog file.";
// The current FileWrapper implementation closes the file on error.
RTC_DCHECK(!file_->is_open());
}
written_bytes_ += output_string_.size();
}
max_size_bytes_ = std::numeric_limits<int64_t>::max();
written_bytes_ = 0;
start_time_ = 0;
stop_time_ = std::numeric_limits<int64_t>::max();
output_string_.clear();
file_->CloseFile();
RTC_DCHECK(!file_->is_open());
}
void RtcEventLogHelperThread::ProcessEvents() {
ControlMessage message;
while (true) {
bool message_received = false;
// Process control messages.
while (message_queue_->Remove(&message)) {
switch (message.message_type) {
case ControlMessage::START_FILE:
if (!file_->is_open()) {
max_size_bytes_ = message.max_size_bytes;
start_time_ = message.start_time;
stop_time_ = message.stop_time;
file_.swap(message.file);
StartLogFile();
} else {
// Already started. Ignore message and close file handle.
message.file->CloseFile();
}
message_received = true;
break;
case ControlMessage::STOP_FILE:
if (file_->is_open()) {
stop_time_ = message.stop_time;
LogToFile(); // Log remaining events from message queues.
}
// LogToFile might stop on it's own so we need to recheck the state.
if (file_->is_open()) {
StopLogFile();
}
file_finished_.Set();
message_received = true;
break;
case ControlMessage::TERMINATE_THREAD:
if (file_->is_open()) {
StopLogFile();
}
return;
}
}
// Write events to file or memory.
if (file_->is_open()) {
message_received |= LogToFile();
} else {
message_received |= LogToMemory();
}
// Accumulate a new batch of events instead of processing them one at a
// time.
if (message_received) {
wake_periodically_.Wait(100);
} else {
wake_from_hibernation_.Wait(rtc::Event::kForever);
}
}
}
bool RtcEventLogHelperThread::ThreadOutputFunction(void* obj) {
RtcEventLogHelperThread* helper = static_cast<RtcEventLogHelperThread*>(obj);
helper->ProcessEvents();
return false;
}
} // namespace webrtc
#endif // ENABLE_RTC_EVENT_LOG