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/*
* Copyright (c) 2012 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.
*/
#ifndef WEBRTC_MODULES_VIDEO_CODING_INCLUDE_VIDEO_CODING_H_
#define WEBRTC_MODULES_VIDEO_CODING_INCLUDE_VIDEO_CODING_H_
#if defined(WEBRTC_WIN)
// This is a workaround on Windows due to the fact that some Windows
// headers define CreateEvent as a macro to either CreateEventW or CreateEventA.
// This can cause problems since we use that name as well and could
// declare them as one thing here whereas in another place a windows header
// may have been included and then implementing CreateEvent() causes compilation
// errors. So for consistency, we include the main windows header here.
#include <windows.h>
#endif
#include "webrtc/api/video/video_frame.h"
#include "webrtc/modules/include/module.h"
#include "webrtc/modules/include/module_common_types.h"
#include "webrtc/modules/video_coding/include/video_coding_defines.h"
#include "webrtc/system_wrappers/include/event_wrapper.h"
namespace webrtc {
class Clock;
class EncodedImageCallback;
// TODO(pbos): Remove VCMQMSettingsCallback completely. This might be done by
// removing the VCM and use VideoSender/VideoReceiver as a public interface
// directly.
class VCMQMSettingsCallback;
class VideoBitrateAllocator;
class VideoEncoder;
class VideoDecoder;
struct CodecSpecificInfo;
class EventFactory {
public:
virtual ~EventFactory() {}
virtual EventWrapper* CreateEvent() = 0;
};
class EventFactoryImpl : public EventFactory {
public:
virtual ~EventFactoryImpl() {}
virtual EventWrapper* CreateEvent() { return EventWrapper::Create(); }
};
// Used to indicate which decode with errors mode should be used.
enum VCMDecodeErrorMode {
kNoErrors, // Never decode with errors. Video will freeze
// if nack is disabled.
kSelectiveErrors, // Frames that are determined decodable in
// VCMSessionInfo may be decoded with missing
// packets. As not all incomplete frames will be
// decodable, video will freeze if nack is disabled.
kWithErrors // Release frames as needed. Errors may be
// introduced as some encoded frames may not be
// complete.
};
class VideoCodingModule : public Module {
public:
enum SenderNackMode { kNackNone, kNackAll, kNackSelective };
// DEPRECATED.
static VideoCodingModule* Create(Clock* clock, EventFactory* event_factory);
/*
* Sender
*/
// Registers a codec to be used for encoding. Calling this
// API multiple times overwrites any previously registered codecs.
//
// NOTE: Must be called on the thread that constructed the VCM instance.
//
// Input:
// - sendCodec : Settings for the codec to be registered.
// - numberOfCores : The number of cores the codec is allowed
// to use.
// - maxPayloadSize : The maximum size each payload is allowed
// to have. Usually MTU - overhead.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t RegisterSendCodec(const VideoCodec* sendCodec,
uint32_t numberOfCores,
uint32_t maxPayloadSize) = 0;
// Register an external encoder object. This can not be used together with
// external decoder callbacks.
//
// Input:
// - externalEncoder : Encoder object to be used for encoding frames
// inserted
// with the AddVideoFrame API.
// - payloadType : The payload type bound which this encoder is bound
// to.
//
// Return value : VCM_OK, on success.
// < 0, on error.
// TODO(pbos): Remove return type when unused elsewhere.
virtual int32_t RegisterExternalEncoder(VideoEncoder* externalEncoder,
uint8_t payloadType,
bool internalSource = false) = 0;
// API to get currently configured encoder target bitrate in bits/s.
//
// Return value : 0, on success.
// < 0, on error.
virtual int Bitrate(unsigned int* bitrate) const = 0;
// API to get currently configured encoder target frame rate.
//
// Return value : 0, on success.
// < 0, on error.
virtual int FrameRate(unsigned int* framerate) const = 0;
// Sets the parameters describing the send channel. These parameters are
// inputs to the
// Media Optimization inside the VCM and also specifies the target bit rate
// for the
// encoder. Bit rate used by NACK should already be compensated for by the
// user.
//
// Input:
// - target_bitrate : The target bitrate for VCM in bits/s.
// - lossRate : Fractions of lost packets the past second.
// (loss rate in percent = 100 * packetLoss /
// 255)
// - rtt : Current round-trip time in ms.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t SetChannelParameters(uint32_t target_bitrate,
uint8_t lossRate,
int64_t rtt) = 0;
// Sets the parameters describing the receive channel. These parameters are
// inputs to the
// Media Optimization inside the VCM.
//
// Input:
// - rtt : Current round-trip time in ms.
// with the most amount available bandwidth in
// a conference
// scenario
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t SetReceiveChannelParameters(int64_t rtt) = 0;
// Deprecated: This method currently does not have any effect.
// Register a video protection callback which will be called to deliver
// the requested FEC rate and NACK status (on/off).
// TODO(perkj): Remove once no projects use it.
virtual int32_t RegisterProtectionCallback(
VCMProtectionCallback* protection) = 0;
// Enable or disable a video protection method.
//
// Input:
// - videoProtection : The method to enable or disable.
// - enable : True if the method should be enabled, false if
// it should be disabled.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t SetVideoProtection(VCMVideoProtection videoProtection,
bool enable) = 0;
// Add one raw video frame to the encoder. This function does all the
// necessary
// processing, then decides what frame type to encode, or if the frame should
// be
// dropped. If the frame should be encoded it passes the frame to the encoder
// before it returns.
//
// Input:
// - videoFrame : Video frame to encode.
// - codecSpecificInfo : Extra codec information, e.g., pre-parsed
// in-band signaling.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t AddVideoFrame(
const VideoFrame& videoFrame,
const CodecSpecificInfo* codecSpecificInfo = NULL) = 0;
// Next frame encoded should be an intra frame (keyframe).
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t IntraFrameRequest(size_t stream_index) = 0;
// Frame Dropper enable. Can be used to disable the frame dropping when the
// encoder
// over-uses its bit rate. This API is designed to be used when the encoded
// frames
// are supposed to be stored to an AVI file, or when the I420 codec is used
// and the
// target bit rate shouldn't affect the frame rate.
//
// Input:
// - enable : True to enable the setting, false to disable it.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t EnableFrameDropper(bool enable) = 0;
/*
* Receiver
*/
// Register possible receive codecs, can be called multiple times for
// different codecs.
// The module will automatically switch between registered codecs depending on
// the
// payload type of incoming frames. The actual decoder will be created when
// needed.
//
// Input:
// - receiveCodec : Settings for the codec to be registered.
// - numberOfCores : Number of CPU cores that the decoder is allowed
// to use.
// - requireKeyFrame : Set this to true if you don't want any delta
// frames
// to be decoded until the first key frame has been
// decoded.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t RegisterReceiveCodec(const VideoCodec* receiveCodec,
int32_t numberOfCores,
bool requireKeyFrame = false) = 0;
// Register an externally defined decoder/renderer object. Can be a decoder
// only or a
// decoder coupled with a renderer. Note that RegisterReceiveCodec must be
// called to
// be used for decoding incoming streams.
//
// Input:
// - externalDecoder : The external decoder/renderer object.
// - payloadType : The payload type which this decoder should
// be
// registered to.
//
virtual void RegisterExternalDecoder(VideoDecoder* externalDecoder,
uint8_t payloadType) = 0;
// Register a receive callback. Will be called whenever there is a new frame
// ready
// for rendering.
//
// Input:
// - receiveCallback : The callback object to be used by the
// module when a
// frame is ready for rendering.
// De-register with a NULL pointer.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t RegisterReceiveCallback(
VCMReceiveCallback* receiveCallback) = 0;
// Register a receive statistics callback which will be called to deliver
// information
// about the video stream received by the receiving side of the VCM, for
// instance the
// average frame rate and bit rate.
//
// Input:
// - receiveStats : The callback object to register.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t RegisterReceiveStatisticsCallback(
VCMReceiveStatisticsCallback* receiveStats) = 0;
// Register a frame type request callback. This callback will be called when
// the
// module needs to request specific frame types from the send side.
//
// Input:
// - frameTypeCallback : The callback object to be used by the
// module when
// requesting a specific type of frame from
// the send side.
// De-register with a NULL pointer.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t RegisterFrameTypeCallback(
VCMFrameTypeCallback* frameTypeCallback) = 0;
// Registers a callback which is called whenever the receive side of the VCM
// encounters holes in the packet sequence and needs packets to be
// retransmitted.
//
// Input:
// - callback : The callback to be registered in the VCM.
//
// Return value : VCM_OK, on success.
// <0, on error.
virtual int32_t RegisterPacketRequestCallback(
VCMPacketRequestCallback* callback) = 0;
// Waits for the next frame in the jitter buffer to become complete
// (waits no longer than maxWaitTimeMs), then passes it to the decoder for
// decoding.
// Should be called as often as possible to get the most out of the decoder.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t Decode(uint16_t maxWaitTimeMs = 200) = 0;
// Insert a parsed packet into the receiver side of the module. Will be placed
// in the
// jitter buffer waiting for the frame to become complete. Returns as soon as
// the packet
// has been placed in the jitter buffer.
//
// Input:
// - incomingPayload : Payload of the packet.
// - payloadLength : Length of the payload.
// - rtpInfo : The parsed header.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t IncomingPacket(const uint8_t* incomingPayload,
size_t payloadLength,
const WebRtcRTPHeader& rtpInfo) = 0;
// Minimum playout delay (Used for lip-sync). This is the minimum delay
// required
// to sync with audio. Not included in VideoCodingModule::Delay()
// Defaults to 0 ms.
//
// Input:
// - minPlayoutDelayMs : Additional delay in ms.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t SetMinimumPlayoutDelay(uint32_t minPlayoutDelayMs) = 0;
// Set the time required by the renderer to render a frame.
//
// Input:
// - timeMS : The time in ms required by the renderer to render a
// frame.
//
// Return value : VCM_OK, on success.
// < 0, on error.
virtual int32_t SetRenderDelay(uint32_t timeMS) = 0;
// The total delay desired by the VCM. Can be less than the minimum
// delay set with SetMinimumPlayoutDelay.
//
// Return value : Total delay in ms, on success.
// < 0, on error.
virtual int32_t Delay() const = 0;
// Robustness APIs
// DEPRECATED.
// Set the receiver robustness mode. The mode decides how the receiver
// responds to losses in the stream. The type of counter-measure is selected
// through the robustnessMode parameter. The errorMode parameter decides if it
// is allowed to display frames corrupted by losses. Note that not all
// combinations of the two parameters are feasible. An error will be
// returned for invalid combinations.
// Input:
// - robustnessMode : selected robustness mode.
// - errorMode : selected error mode.
//
// Return value : VCM_OK, on success;
// < 0, on error.
enum ReceiverRobustness { kNone, kHardNack };
virtual int SetReceiverRobustnessMode(ReceiverRobustness robustnessMode,
VCMDecodeErrorMode errorMode) = 0;
// Set the decode error mode. The mode decides which errors (if any) are
// allowed in decodable frames. Note that setting decode_error_mode to
// anything other than kWithErrors without enabling nack will cause
// long-term freezes (resulting from frequent key frame requests) if
// packet loss occurs.
virtual void SetDecodeErrorMode(VCMDecodeErrorMode decode_error_mode) = 0;
// Sets the maximum number of sequence numbers that we are allowed to NACK
// and the oldest sequence number that we will consider to NACK. If a
// sequence number older than |max_packet_age_to_nack| is missing
// a key frame will be requested. A key frame will also be requested if the
// time of incomplete or non-continuous frames in the jitter buffer is above
// |max_incomplete_time_ms|.
virtual void SetNackSettings(size_t max_nack_list_size,
int max_packet_age_to_nack,
int max_incomplete_time_ms) = 0;
// Setting a desired delay to the VCM receiver. Video rendering will be
// delayed by at least desired_delay_ms.
virtual int SetMinReceiverDelay(int desired_delay_ms) = 0;
virtual void RegisterPostEncodeImageCallback(
EncodedImageCallback* post_encode_callback) = 0;
// Releases pending decode calls, permitting faster thread shutdown.
virtual void TriggerDecoderShutdown() = 0;
};
} // namespace webrtc
#endif // WEBRTC_MODULES_VIDEO_CODING_INCLUDE_VIDEO_CODING_H_