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1 /*
2  *  Copyright (c) 2015 The WebRTC project authors. All Rights Reserved.
3  *
4  *  Use of this source code is governed by a BSD-style license
5  *  that can be found in the LICENSE file in the root of the source
6  *  tree. An additional intellectual property rights grant can be found
7  *  in the file PATENTS.  All contributing project authors may
8  *  be found in the AUTHORS file in the root of the source tree.
9  */
10 
11 #include "logging/rtc_event_log/rtc_event_log_impl.h"
12 
13 #include <functional>
14 #include <limits>
15 #include <memory>
16 #include <utility>
17 #include <vector>
18 
19 #include "absl/types/optional.h"
20 #include "api/task_queue/queued_task.h"
21 #include "api/task_queue/task_queue_base.h"
22 #include "logging/rtc_event_log/encoder/rtc_event_log_encoder_legacy.h"
23 #include "logging/rtc_event_log/encoder/rtc_event_log_encoder_new_format.h"
24 #include "rtc_base/checks.h"
25 #include "rtc_base/constructor_magic.h"
26 #include "rtc_base/event.h"
27 #include "rtc_base/logging.h"
28 #include "rtc_base/numerics/safe_conversions.h"
29 #include "rtc_base/numerics/safe_minmax.h"
30 #include "rtc_base/time_utils.h"
31 
32 namespace webrtc {
33 namespace {
34 constexpr size_t kMaxEventsInHistory = 10000;
35 // The config-history is supposed to be unbounded, but needs to have some bound
36 // to prevent an attack via unreasonable memory use.
37 constexpr size_t kMaxEventsInConfigHistory = 1000;
38 
CreateEncoder(RtcEventLog::EncodingType type)39 std::unique_ptr<RtcEventLogEncoder> CreateEncoder(
40     RtcEventLog::EncodingType type) {
41   switch (type) {
42     case RtcEventLog::EncodingType::Legacy:
43       RTC_LOG(LS_INFO) << "Creating legacy encoder for RTC event log.";
44       return std::make_unique<RtcEventLogEncoderLegacy>();
45     case RtcEventLog::EncodingType::NewFormat:
46       RTC_LOG(LS_INFO) << "Creating new format encoder for RTC event log.";
47       return std::make_unique<RtcEventLogEncoderNewFormat>();
48     default:
49       RTC_LOG(LS_ERROR) << "Unknown RtcEventLog encoder type (" << int(type)
50                         << ")";
51       RTC_NOTREACHED();
52       return std::unique_ptr<RtcEventLogEncoder>(nullptr);
53   }
54 }
55 }  // namespace
56 
RtcEventLogImpl(RtcEventLog::EncodingType encoding_type,TaskQueueFactory * task_queue_factory)57 RtcEventLogImpl::RtcEventLogImpl(RtcEventLog::EncodingType encoding_type,
58                                  TaskQueueFactory* task_queue_factory)
59     : event_encoder_(CreateEncoder(encoding_type)),
60       num_config_events_written_(0),
61       last_output_ms_(rtc::TimeMillis()),
62       output_scheduled_(false),
63       logging_state_started_(false),
64       task_queue_(
65           std::make_unique<rtc::TaskQueue>(task_queue_factory->CreateTaskQueue(
66               "rtc_event_log",
67               TaskQueueFactory::Priority::NORMAL))) {}
68 
~RtcEventLogImpl()69 RtcEventLogImpl::~RtcEventLogImpl() {
70   // If we're logging to the output, this will stop that. Blocking function.
71   if (logging_state_started_) {
72     logging_state_checker_.Detach();
73     StopLogging();
74   }
75 
76   // We want to block on any executing task by invoking ~TaskQueue() before
77   // we set unique_ptr's internal pointer to null.
78   rtc::TaskQueue* tq = task_queue_.get();
79   delete tq;
80   task_queue_.release();
81 }
82 
StartLogging(std::unique_ptr<RtcEventLogOutput> output,int64_t output_period_ms)83 bool RtcEventLogImpl::StartLogging(std::unique_ptr<RtcEventLogOutput> output,
84                                    int64_t output_period_ms) {
85   RTC_DCHECK(output_period_ms == kImmediateOutput || output_period_ms > 0);
86 
87   if (!output->IsActive()) {
88     // TODO(eladalon): We may want to remove the IsActive method. Otherwise
89     // we probably want to be consistent and terminate any existing output.
90     return false;
91   }
92 
93   const int64_t timestamp_us = rtc::TimeMicros();
94   const int64_t utc_time_us = rtc::TimeUTCMicros();
95   RTC_LOG(LS_INFO) << "Starting WebRTC event log. (Timestamp, UTC) = "
96                       "("
97                    << timestamp_us << ", " << utc_time_us << ").";
98 
99   RTC_DCHECK_RUN_ON(&logging_state_checker_);
100   logging_state_started_ = true;
101   // Binding to |this| is safe because |this| outlives the |task_queue_|.
102   task_queue_->PostTask([this, output_period_ms, timestamp_us, utc_time_us,
103                          output = std::move(output)]() mutable {
104     RTC_DCHECK_RUN_ON(task_queue_.get());
105     RTC_DCHECK(output->IsActive());
106     output_period_ms_ = output_period_ms;
107     event_output_ = std::move(output);
108     num_config_events_written_ = 0;
109     WriteToOutput(event_encoder_->EncodeLogStart(timestamp_us, utc_time_us));
110     LogEventsFromMemoryToOutput();
111   });
112 
113   return true;
114 }
115 
StopLogging()116 void RtcEventLogImpl::StopLogging() {
117   RTC_LOG(LS_INFO) << "Stopping WebRTC event log.";
118   // TODO(danilchap): Do not block current thread waiting on the task queue.
119   // It might work for now, for current callers, but disallows caller to share
120   // threads with the |task_queue_|.
121   rtc::Event output_stopped;
122   StopLogging([&output_stopped]() { output_stopped.Set(); });
123   output_stopped.Wait(rtc::Event::kForever);
124 
125   RTC_LOG(LS_INFO) << "WebRTC event log successfully stopped.";
126 }
127 
StopLogging(std::function<void ()> callback)128 void RtcEventLogImpl::StopLogging(std::function<void()> callback) {
129   RTC_DCHECK_RUN_ON(&logging_state_checker_);
130   logging_state_started_ = false;
131   task_queue_->PostTask([this, callback] {
132     RTC_DCHECK_RUN_ON(task_queue_.get());
133     if (event_output_) {
134       RTC_DCHECK(event_output_->IsActive());
135       LogEventsFromMemoryToOutput();
136     }
137     StopLoggingInternal();
138     callback();
139   });
140 }
141 
Log(std::unique_ptr<RtcEvent> event)142 void RtcEventLogImpl::Log(std::unique_ptr<RtcEvent> event) {
143   RTC_CHECK(event);
144 
145   // Binding to |this| is safe because |this| outlives the |task_queue_|.
146   task_queue_->PostTask([this, event = std::move(event)]() mutable {
147     RTC_DCHECK_RUN_ON(task_queue_.get());
148     LogToMemory(std::move(event));
149     if (event_output_)
150       ScheduleOutput();
151   });
152 }
153 
ScheduleOutput()154 void RtcEventLogImpl::ScheduleOutput() {
155   RTC_DCHECK(event_output_ && event_output_->IsActive());
156   if (history_.size() >= kMaxEventsInHistory) {
157     // We have to emergency drain the buffer. We can't wait for the scheduled
158     // output task because there might be other event incoming before that.
159     LogEventsFromMemoryToOutput();
160     return;
161   }
162 
163   RTC_DCHECK(output_period_ms_.has_value());
164   if (*output_period_ms_ == kImmediateOutput) {
165     // We are already on the |task_queue_| so there is no reason to post a task
166     // if we want to output immediately.
167     LogEventsFromMemoryToOutput();
168     return;
169   }
170 
171   if (!output_scheduled_) {
172     output_scheduled_ = true;
173     // Binding to |this| is safe because |this| outlives the |task_queue_|.
174     auto output_task = [this]() {
175       RTC_DCHECK_RUN_ON(task_queue_.get());
176       if (event_output_) {
177         RTC_DCHECK(event_output_->IsActive());
178         LogEventsFromMemoryToOutput();
179       }
180       output_scheduled_ = false;
181     };
182     const int64_t now_ms = rtc::TimeMillis();
183     const int64_t time_since_output_ms = now_ms - last_output_ms_;
184     const uint32_t delay = rtc::SafeClamp(
185         *output_period_ms_ - time_since_output_ms, 0, *output_period_ms_);
186     task_queue_->PostDelayedTask(output_task, delay);
187   }
188 }
189 
LogToMemory(std::unique_ptr<RtcEvent> event)190 void RtcEventLogImpl::LogToMemory(std::unique_ptr<RtcEvent> event) {
191   std::deque<std::unique_ptr<RtcEvent>>& container =
192       event->IsConfigEvent() ? config_history_ : history_;
193   const size_t container_max_size =
194       event->IsConfigEvent() ? kMaxEventsInConfigHistory : kMaxEventsInHistory;
195 
196   if (container.size() >= container_max_size) {
197     RTC_DCHECK(!event_output_);  // Shouldn't lose events if we have an output.
198     container.pop_front();
199   }
200   container.push_back(std::move(event));
201 }
202 
LogEventsFromMemoryToOutput()203 void RtcEventLogImpl::LogEventsFromMemoryToOutput() {
204   RTC_DCHECK(event_output_ && event_output_->IsActive());
205   last_output_ms_ = rtc::TimeMillis();
206 
207   // Serialize all stream configurations that haven't already been written to
208   // this output. |num_config_events_written_| is used to track which configs we
209   // have already written. (Note that the config may have been written to
210   // previous outputs; configs are not discarded.)
211   std::string encoded_configs;
212   RTC_DCHECK_LE(num_config_events_written_, config_history_.size());
213   if (num_config_events_written_ < config_history_.size()) {
214     const auto begin = config_history_.begin() + num_config_events_written_;
215     const auto end = config_history_.end();
216     encoded_configs = event_encoder_->EncodeBatch(begin, end);
217     num_config_events_written_ = config_history_.size();
218   }
219 
220   // Serialize the events in the event queue. Note that the write may fail,
221   // for example if we are writing to a file and have reached the maximum limit.
222   // We don't get any feedback if this happens, so we still remove the events
223   // from the event log history. This is normally not a problem, but if another
224   // log is started immediately after the first one becomes full, then one
225   // cannot rely on the second log to contain everything that isn't in the first
226   // log; one batch of events might be missing.
227   std::string encoded_history =
228       event_encoder_->EncodeBatch(history_.begin(), history_.end());
229   history_.clear();
230 
231   WriteConfigsAndHistoryToOutput(encoded_configs, encoded_history);
232 }
233 
WriteConfigsAndHistoryToOutput(const std::string & encoded_configs,const std::string & encoded_history)234 void RtcEventLogImpl::WriteConfigsAndHistoryToOutput(
235     const std::string& encoded_configs,
236     const std::string& encoded_history) {
237   // This function is used to merge the strings instead of calling the output
238   // object twice with small strings. The function also avoids copying any
239   // strings in the typical case where there are no config events.
240   if (encoded_configs.empty()) {
241     WriteToOutput(encoded_history);  // Typical case.
242   } else if (encoded_history.empty()) {
243     WriteToOutput(encoded_configs);  // Very unusual case.
244   } else {
245     WriteToOutput(encoded_configs + encoded_history);
246   }
247 }
248 
StopOutput()249 void RtcEventLogImpl::StopOutput() {
250   event_output_.reset();
251 }
252 
StopLoggingInternal()253 void RtcEventLogImpl::StopLoggingInternal() {
254   if (event_output_) {
255     RTC_DCHECK(event_output_->IsActive());
256     const int64_t timestamp_us = rtc::TimeMicros();
257     event_output_->Write(event_encoder_->EncodeLogEnd(timestamp_us));
258   }
259   StopOutput();
260 }
261 
WriteToOutput(const std::string & output_string)262 void RtcEventLogImpl::WriteToOutput(const std::string& output_string) {
263   RTC_DCHECK(event_output_ && event_output_->IsActive());
264   if (!event_output_->Write(output_string)) {
265     RTC_LOG(LS_ERROR) << "Failed to write RTC event to output.";
266     // The first failure closes the output.
267     RTC_DCHECK(!event_output_->IsActive());
268     StopOutput();  // Clean-up.
269     return;
270   }
271 }
272 
273 }  // namespace webrtc
274