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/*
* libjingle
* Copyright 2012 Google Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
* EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "talk/app/webrtc/videosource.h"
#include <vector>
#include <cstdlib>
#include "talk/app/webrtc/mediaconstraintsinterface.h"
#include "talk/session/media/channelmanager.h"
using cricket::CaptureState;
using webrtc::MediaConstraintsInterface;
using webrtc::MediaSourceInterface;
namespace {
const double kRoundingTruncation = 0.0005;
enum {
MSG_VIDEOCAPTURESTATECONNECT,
MSG_VIDEOCAPTURESTATEDISCONNECT,
MSG_VIDEOCAPTURESTATECHANGE,
};
// Default resolution. If no constraint is specified, this is the resolution we
// will use.
static const cricket::VideoFormatPod kDefaultFormat =
{640, 480, FPS_TO_INTERVAL(30), cricket::FOURCC_ANY};
// List of formats used if the camera doesn't support capability enumeration.
static const cricket::VideoFormatPod kVideoFormats[] = {
{1920, 1080, FPS_TO_INTERVAL(30), cricket::FOURCC_ANY},
{1280, 720, FPS_TO_INTERVAL(30), cricket::FOURCC_ANY},
{960, 720, FPS_TO_INTERVAL(30), cricket::FOURCC_ANY},
{640, 360, FPS_TO_INTERVAL(30), cricket::FOURCC_ANY},
{640, 480, FPS_TO_INTERVAL(30), cricket::FOURCC_ANY},
{320, 240, FPS_TO_INTERVAL(30), cricket::FOURCC_ANY},
{320, 180, FPS_TO_INTERVAL(30), cricket::FOURCC_ANY}
};
MediaSourceInterface::SourceState
GetReadyState(cricket::CaptureState state) {
switch (state) {
case cricket::CS_STARTING:
return MediaSourceInterface::kInitializing;
case cricket::CS_RUNNING:
return MediaSourceInterface::kLive;
case cricket::CS_FAILED:
case cricket::CS_NO_DEVICE:
case cricket::CS_STOPPED:
return MediaSourceInterface::kEnded;
case cricket::CS_PAUSED:
return MediaSourceInterface::kMuted;
default:
ASSERT(false && "GetReadyState unknown state");
}
return MediaSourceInterface::kEnded;
}
void SetUpperLimit(int new_limit, int* original_limit) {
if (*original_limit < 0 || new_limit < *original_limit)
*original_limit = new_limit;
}
// Updates |format_upper_limit| from |constraint|.
// If constraint.maxFoo is smaller than format_upper_limit.foo,
// set format_upper_limit.foo to constraint.maxFoo.
void SetUpperLimitFromConstraint(
const MediaConstraintsInterface::Constraint& constraint,
cricket::VideoFormat* format_upper_limit) {
if (constraint.key == MediaConstraintsInterface::kMaxWidth) {
int value = rtc::FromString<int>(constraint.value);
SetUpperLimit(value, &(format_upper_limit->width));
} else if (constraint.key == MediaConstraintsInterface::kMaxHeight) {
int value = rtc::FromString<int>(constraint.value);
SetUpperLimit(value, &(format_upper_limit->height));
}
}
// Fills |format_out| with the max width and height allowed by |constraints|.
void FromConstraintsForScreencast(
const MediaConstraintsInterface::Constraints& constraints,
cricket::VideoFormat* format_out) {
typedef MediaConstraintsInterface::Constraints::const_iterator
ConstraintsIterator;
cricket::VideoFormat upper_limit(-1, -1, 0, 0);
for (ConstraintsIterator constraints_it = constraints.begin();
constraints_it != constraints.end(); ++constraints_it)
SetUpperLimitFromConstraint(*constraints_it, &upper_limit);
if (upper_limit.width >= 0)
format_out->width = upper_limit.width;
if (upper_limit.height >= 0)
format_out->height = upper_limit.height;
}
// Returns true if |constraint| is fulfilled. |format_out| can differ from
// |format_in| if the format is changed by the constraint. Ie - the frame rate
// can be changed by setting maxFrameRate.
bool NewFormatWithConstraints(
const MediaConstraintsInterface::Constraint& constraint,
const cricket::VideoFormat& format_in,
bool mandatory,
cricket::VideoFormat* format_out) {
ASSERT(format_out != NULL);
*format_out = format_in;
if (constraint.key == MediaConstraintsInterface::kMinWidth) {
int value = rtc::FromString<int>(constraint.value);
return (value <= format_in.width);
} else if (constraint.key == MediaConstraintsInterface::kMaxWidth) {
int value = rtc::FromString<int>(constraint.value);
return (value >= format_in.width);
} else if (constraint.key == MediaConstraintsInterface::kMinHeight) {
int value = rtc::FromString<int>(constraint.value);
return (value <= format_in.height);
} else if (constraint.key == MediaConstraintsInterface::kMaxHeight) {
int value = rtc::FromString<int>(constraint.value);
return (value >= format_in.height);
} else if (constraint.key == MediaConstraintsInterface::kMinFrameRate) {
int value = rtc::FromString<int>(constraint.value);
return (value <= cricket::VideoFormat::IntervalToFps(format_in.interval));
} else if (constraint.key == MediaConstraintsInterface::kMaxFrameRate) {
int value = rtc::FromString<int>(constraint.value);
if (value == 0) {
if (mandatory) {
// TODO(ronghuawu): Convert the constraint value to float when sub-1fps
// is supported by the capturer.
return false;
} else {
value = 1;
}
}
if (value <= cricket::VideoFormat::IntervalToFps(format_in.interval))
format_out->interval = cricket::VideoFormat::FpsToInterval(value);
return true;
} else if (constraint.key == MediaConstraintsInterface::kMinAspectRatio) {
double value = rtc::FromString<double>(constraint.value);
// The aspect ratio in |constraint.value| has been converted to a string and
// back to a double, so it may have a rounding error.
// E.g if the value 1/3 is converted to a string, the string will not have
// infinite length.
// We add a margin of 0.0005 which is high enough to detect the same aspect
// ratio but small enough to avoid matching wrong aspect ratios.
double ratio = static_cast<double>(format_in.width) / format_in.height;
return (value <= ratio + kRoundingTruncation);
} else if (constraint.key == MediaConstraintsInterface::kMaxAspectRatio) {
double value = rtc::FromString<double>(constraint.value);
double ratio = static_cast<double>(format_in.width) / format_in.height;
// Subtract 0.0005 to avoid rounding problems. Same as above.
const double kRoundingTruncation = 0.0005;
return (value >= ratio - kRoundingTruncation);
} else if (constraint.key == MediaConstraintsInterface::kNoiseReduction) {
// These are actually options, not constraints, so they can be satisfied
// regardless of the format.
return true;
}
LOG(LS_WARNING) << "Found unknown MediaStream constraint. Name:"
<< constraint.key << " Value:" << constraint.value;
return false;
}
// Removes cricket::VideoFormats from |formats| that don't meet |constraint|.
void FilterFormatsByConstraint(
const MediaConstraintsInterface::Constraint& constraint,
bool mandatory,
std::vector<cricket::VideoFormat>* formats) {
std::vector<cricket::VideoFormat>::iterator format_it =
formats->begin();
while (format_it != formats->end()) {
// Modify the format_it to fulfill the constraint if possible.
// Delete it otherwise.
if (!NewFormatWithConstraints(constraint, (*format_it),
mandatory, &(*format_it))) {
format_it = formats->erase(format_it);
} else {
++format_it;
}
}
}
// Returns a vector of cricket::VideoFormat that best match |constraints|.
std::vector<cricket::VideoFormat> FilterFormats(
const MediaConstraintsInterface::Constraints& mandatory,
const MediaConstraintsInterface::Constraints& optional,
const std::vector<cricket::VideoFormat>& supported_formats) {
typedef MediaConstraintsInterface::Constraints::const_iterator
ConstraintsIterator;
std::vector<cricket::VideoFormat> candidates = supported_formats;
for (ConstraintsIterator constraints_it = mandatory.begin();
constraints_it != mandatory.end(); ++constraints_it)
FilterFormatsByConstraint(*constraints_it, true, &candidates);
if (candidates.size() == 0)
return candidates;
// Ok - all mandatory checked and we still have a candidate.
// Let's try filtering using the optional constraints.
for (ConstraintsIterator constraints_it = optional.begin();
constraints_it != optional.end(); ++constraints_it) {
std::vector<cricket::VideoFormat> current_candidates = candidates;
FilterFormatsByConstraint(*constraints_it, false, &current_candidates);
if (current_candidates.size() > 0) {
candidates = current_candidates;
}
}
// We have done as good as we can to filter the supported resolutions.
return candidates;
}
// Find the format that best matches the default video size.
// Constraints are optional and since the performance of a video call
// might be bad due to bitrate limitations, CPU, and camera performance,
// it is better to select a resolution that is as close as possible to our
// default and still meets the contraints.
const cricket::VideoFormat& GetBestCaptureFormat(
const std::vector<cricket::VideoFormat>& formats) {
ASSERT(formats.size() > 0);
int default_area = kDefaultFormat.width * kDefaultFormat.height;
std::vector<cricket::VideoFormat>::const_iterator it = formats.begin();
std::vector<cricket::VideoFormat>::const_iterator best_it = formats.begin();
int best_diff_area = std::abs(default_area - it->width * it->height);
int64 best_diff_interval = kDefaultFormat.interval;
for (; it != formats.end(); ++it) {
int diff_area = std::abs(default_area - it->width * it->height);
int64 diff_interval = std::abs(kDefaultFormat.interval - it->interval);
if (diff_area < best_diff_area ||
(diff_area == best_diff_area && diff_interval < best_diff_interval)) {
best_diff_area = diff_area;
best_diff_interval = diff_interval;
best_it = it;
}
}
return *best_it;
}
// Set |option| to the highest-priority value of |key| in the constraints.
// Return false if the key is mandatory, and the value is invalid.
bool ExtractOption(const MediaConstraintsInterface* all_constraints,
const std::string& key, cricket::Settable<bool>* option) {
size_t mandatory = 0;
bool value;
if (FindConstraint(all_constraints, key, &value, &mandatory)) {
option->Set(value);
return true;
}
return mandatory == 0;
}
// Search |all_constraints| for known video options. Apply all options that are
// found with valid values, and return false if any mandatory video option was
// found with an invalid value.
bool ExtractVideoOptions(const MediaConstraintsInterface* all_constraints,
cricket::VideoOptions* options) {
bool all_valid = true;
all_valid &= ExtractOption(all_constraints,
MediaConstraintsInterface::kNoiseReduction,
&(options->video_noise_reduction));
return all_valid;
}
class FrameInputWrapper : public cricket::VideoRenderer {
public:
explicit FrameInputWrapper(cricket::VideoCapturer* capturer)
: capturer_(capturer) {
ASSERT(capturer_ != NULL);
}
virtual ~FrameInputWrapper() {}
// VideoRenderer implementation.
bool SetSize(int width, int height, int reserved) override { return true; }
bool RenderFrame(const cricket::VideoFrame* frame) override {
if (!capturer_->IsRunning()) {
return true;
}
// This signal will be made on media engine render thread. The clients
// of this signal should have no assumptions on what thread this signal
// come from.
capturer_->SignalVideoFrame(capturer_, frame);
return true;
}
private:
cricket::VideoCapturer* capturer_;
int width_;
int height_;
DISALLOW_COPY_AND_ASSIGN(FrameInputWrapper);
};
} // anonymous namespace
namespace webrtc {
rtc::scoped_refptr<VideoSource> VideoSource::Create(
cricket::ChannelManager* channel_manager,
cricket::VideoCapturer* capturer,
const webrtc::MediaConstraintsInterface* constraints) {
ASSERT(channel_manager != NULL);
ASSERT(capturer != NULL);
rtc::scoped_refptr<VideoSource> source(
new rtc::RefCountedObject<VideoSource>(channel_manager,
capturer));
source->Initialize(constraints);
return source;
}
VideoSource::VideoSource(cricket::ChannelManager* channel_manager,
cricket::VideoCapturer* capturer)
: channel_manager_(channel_manager),
video_capturer_(capturer),
state_(kInitializing) {
channel_manager_->SignalVideoCaptureStateChange.connect(
this, &VideoSource::OnStateChange);
}
VideoSource::~VideoSource() {
channel_manager_->StopVideoCapture(video_capturer_.get(), format_);
channel_manager_->SignalVideoCaptureStateChange.disconnect(this);
}
void VideoSource::Initialize(
const webrtc::MediaConstraintsInterface* constraints) {
std::vector<cricket::VideoFormat> formats =
channel_manager_->GetSupportedFormats(video_capturer_.get());
if (formats.empty()) {
if (video_capturer_->IsScreencast()) {
// The screen capturer can accept any resolution and we will derive the
// format from the constraints if any.
// Note that this only affects tab capturing, not desktop capturing,
// since the desktop capturer does not respect the VideoFormat passed in.
formats.push_back(cricket::VideoFormat(kDefaultFormat));
} else {
// The VideoCapturer implementation doesn't support capability
// enumeration. We need to guess what the camera supports.
for (int i = 0; i < ARRAY_SIZE(kVideoFormats); ++i) {
formats.push_back(cricket::VideoFormat(kVideoFormats[i]));
}
}
}
if (constraints) {
MediaConstraintsInterface::Constraints mandatory_constraints =
constraints->GetMandatory();
MediaConstraintsInterface::Constraints optional_constraints;
optional_constraints = constraints->GetOptional();
if (video_capturer_->IsScreencast()) {
// Use the maxWidth and maxHeight allowed by constraints for screencast.
FromConstraintsForScreencast(mandatory_constraints, &(formats[0]));
}
formats = FilterFormats(mandatory_constraints, optional_constraints,
formats);
}
if (formats.size() == 0) {
LOG(LS_WARNING) << "Failed to find a suitable video format.";
SetState(kEnded);
return;
}
cricket::VideoOptions options;
if (!ExtractVideoOptions(constraints, &options)) {
LOG(LS_WARNING) << "Could not satisfy mandatory options.";
SetState(kEnded);
return;
}
options_.SetAll(options);
format_ = GetBestCaptureFormat(formats);
// Start the camera with our best guess.
// TODO(perkj): Should we try again with another format it it turns out that
// the camera doesn't produce frames with the correct format? Or will
// cricket::VideCapturer be able to re-scale / crop to the requested
// resolution?
if (!channel_manager_->StartVideoCapture(video_capturer_.get(), format_)) {
SetState(kEnded);
return;
}
// Initialize hasn't succeeded until a successful state change has occurred.
}
cricket::VideoRenderer* VideoSource::FrameInput() {
// Defer creation of frame_input_ until it's needed, e.g. the local video
// sources will never need it.
if (!frame_input_) {
frame_input_.reset(new FrameInputWrapper(video_capturer_.get()));
}
return frame_input_.get();
}
void VideoSource::Stop() {
channel_manager_->StopVideoCapture(video_capturer_.get(), format_);
}
void VideoSource::Restart() {
if (!channel_manager_->StartVideoCapture(video_capturer_.get(), format_)) {
SetState(kEnded);
return;
}
for(cricket::VideoRenderer* sink : sinks_) {
channel_manager_->AddVideoRenderer(video_capturer_.get(), sink);
}
}
void VideoSource::AddSink(cricket::VideoRenderer* output) {
sinks_.push_back(output);
channel_manager_->AddVideoRenderer(video_capturer_.get(), output);
}
void VideoSource::RemoveSink(cricket::VideoRenderer* output) {
sinks_.remove(output);
channel_manager_->RemoveVideoRenderer(video_capturer_.get(), output);
}
// OnStateChange listens to the ChannelManager::SignalVideoCaptureStateChange.
// This signal is triggered for all video capturers. Not only the one we are
// interested in.
void VideoSource::OnStateChange(cricket::VideoCapturer* capturer,
cricket::CaptureState capture_state) {
if (capturer == video_capturer_.get()) {
SetState(GetReadyState(capture_state));
}
}
void VideoSource::SetState(SourceState new_state) {
if (VERIFY(state_ != new_state)) {
state_ = new_state;
FireOnChanged();
}
}
} // namespace webrtc