blob: 0d9a1b86ef35cb1dc74bda661868fa4ecb04959f [file] [log] [blame]
// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "chromecast/media/cma/base/buffering_controller.h"
#include "base/bind.h"
#include "base/location.h"
#include "base/single_thread_task_runner.h"
#include "chromecast/base/metrics/cast_metrics_helper.h"
#include "chromecast/media/cma/base/buffering_state.h"
#include "chromecast/media/cma/base/cma_logging.h"
#include "media/base/timestamp_constants.h"
namespace chromecast {
namespace media {
BufferingController::BufferingController(
const scoped_refptr<BufferingConfig>& config,
const BufferingNotificationCB& buffering_notification_cb)
: config_(config),
buffering_notification_cb_(buffering_notification_cb),
is_buffering_(false),
begin_buffering_time_(base::Time()),
last_buffer_end_time_(base::Time()),
initial_buffering_(true),
weak_factory_(this) {
weak_this_ = weak_factory_.GetWeakPtr();
thread_checker_.DetachFromThread();
CMALOG(kLogControl) << __FUNCTION__
<< " High threshold: "
<< config_->high_level().InMilliseconds()
<< "ms Low threshold: "
<< config_->low_level().InMilliseconds() << "ms";
}
BufferingController::~BufferingController() {
// Some weak pointers might possibly be invalidated here.
DCHECK(thread_checker_.CalledOnValidThread());
}
void BufferingController::UpdateHighLevelThreshold(
base::TimeDelta high_level_threshold) {
// Can only decrease the high level threshold.
if (high_level_threshold > config_->high_level())
return;
CMALOG(kLogControl) << "High buffer threshold: "
<< high_level_threshold.InMilliseconds() << "ms";
config_->set_high_level(high_level_threshold);
// Make sure the low level threshold is somewhat consistent.
// Currently, we set it to one third of the high level threshold:
// this value could be adjusted in the future.
base::TimeDelta low_level_threshold = high_level_threshold / 3;
if (low_level_threshold <= config_->low_level()) {
CMALOG(kLogControl) << "Low buffer threshold: "
<< low_level_threshold.InMilliseconds() << "ms";
config_->set_low_level(low_level_threshold);
}
// Signal all the streams the config has changed.
for (StreamList::iterator it = stream_list_.begin();
it != stream_list_.end(); ++it) {
(*it)->OnConfigChanged();
}
// Once all the streams have been notified, the buffering state must be
// updated (no notification is received from the streams).
OnBufferingStateChanged(false, false);
}
scoped_refptr<BufferingState> BufferingController::AddStream(
const std::string& stream_id) {
DCHECK(thread_checker_.CalledOnValidThread());
// Add a new stream to the list of streams being monitored.
scoped_refptr<BufferingState> buffering_state(new BufferingState(
stream_id,
config_,
base::Bind(&BufferingController::OnBufferingStateChanged, weak_this_,
false, false),
base::Bind(&BufferingController::UpdateHighLevelThreshold, weak_this_)));
stream_list_.push_back(buffering_state);
// Update the state and force a notification to the streams.
// TODO(damienv): Should this be a PostTask ?
OnBufferingStateChanged(true, false);
return buffering_state;
}
void BufferingController::SetMediaTime(base::TimeDelta time) {
for (StreamList::iterator it = stream_list_.begin();
it != stream_list_.end(); ++it) {
(*it)->SetMediaTime(time);
}
}
base::TimeDelta BufferingController::GetMaxRenderingTime() const {
base::TimeDelta max_rendering_time(::media::kNoTimestamp);
for (StreamList::const_iterator it = stream_list_.begin();
it != stream_list_.end(); ++it) {
base::TimeDelta max_stream_rendering_time =
(*it)->GetMaxRenderingTime();
if (max_stream_rendering_time == ::media::kNoTimestamp)
return ::media::kNoTimestamp;
if (max_rendering_time == ::media::kNoTimestamp ||
max_stream_rendering_time < max_rendering_time) {
max_rendering_time = max_stream_rendering_time;
}
}
return max_rendering_time;
}
void BufferingController::Reset() {
DCHECK(thread_checker_.CalledOnValidThread());
is_buffering_ = false;
initial_buffering_ = true;
stream_list_.clear();
}
void BufferingController::OnBufferingStateChanged(
bool force_notification, bool buffering_timeout) {
DCHECK(thread_checker_.CalledOnValidThread());
// Log the state of each stream.
DumpState();
bool is_low_buffering = IsLowBufferLevel();
bool is_high_buffering = !is_low_buffering;
if (!buffering_timeout) {
// Hysteresis:
// - to leave buffering, not only should we leave the low buffer level state
// but we should go to the high buffer level state (medium is not enough).
is_high_buffering = IsHighBufferLevel();
}
bool is_buffering_prv = is_buffering_;
if (is_buffering_) {
if (is_high_buffering)
is_buffering_ = false;
} else {
if (is_low_buffering)
is_buffering_ = true;
}
// Start buffering.
if (is_buffering_ && !is_buffering_prv) {
begin_buffering_time_ = base::Time::Now();
}
// End buffering.
if (is_buffering_prv && !is_buffering_) {
base::Time current_time = base::Time::Now();
base::TimeDelta buffering_user_time = current_time - begin_buffering_time_;
chromecast::metrics::CastMetricsHelper* metrics_helper =
chromecast::metrics::CastMetricsHelper::GetInstance();
CMALOG(kLogControl)
<< "Buffering took: "
<< buffering_user_time.InMilliseconds() << "ms";
chromecast::metrics::CastMetricsHelper::BufferingType buffering_type =
initial_buffering_ ?
chromecast::metrics::CastMetricsHelper::kInitialBuffering :
chromecast::metrics::CastMetricsHelper::kBufferingAfterUnderrun;
metrics_helper->LogTimeToBufferAv(buffering_type, buffering_user_time);
if (!initial_buffering_) {
base::TimeDelta time_between_buffering =
begin_buffering_time_ - last_buffer_end_time_;
CMALOG(kLogControl)
<< "Time since last buffering event: "
<< time_between_buffering.InMilliseconds() << "ms";
metrics_helper->RecordApplicationEventWithValue(
"Cast.Platform.PlayTimeBeforeAutoPause",
time_between_buffering.InMilliseconds());
metrics_helper->RecordApplicationEventWithValue(
"Cast.Platform.AutoPauseTime", buffering_user_time.InMilliseconds());
}
// Only the first buffering report is considered "initial buffering".
last_buffer_end_time_ = current_time;
initial_buffering_ = false;
}
if (is_buffering_prv != is_buffering_ || force_notification)
buffering_notification_cb_.Run(is_buffering_);
}
bool BufferingController::IsHighBufferLevel() {
if (stream_list_.empty())
return true;
bool is_high_buffering = true;
for (StreamList::iterator it = stream_list_.begin();
it != stream_list_.end(); ++it) {
BufferingState::State stream_state = (*it)->GetState();
is_high_buffering = is_high_buffering &&
((stream_state == BufferingState::kHighLevel) ||
(stream_state == BufferingState::kEosReached));
}
return is_high_buffering;
}
bool BufferingController::IsLowBufferLevel() {
if (stream_list_.empty())
return false;
for (StreamList::iterator it = stream_list_.begin();
it != stream_list_.end(); ++it) {
BufferingState::State stream_state = (*it)->GetState();
if (stream_state == BufferingState::kLowLevel)
return true;
}
return false;
}
void BufferingController::DumpState() const {
for (StreamList::const_iterator it = stream_list_.begin();
it != stream_list_.end(); ++it) {
CMALOG(kLogControl) << (*it)->ToString();
}
}
} // namespace media
} // namespace chromecast