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// Copyright 2013 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.
#ifndef MEDIA_CAST_CAST_CONFIG_H_
#define MEDIA_CAST_CAST_CONFIG_H_
#include <list>
#include <string>
#include <vector>
#include "base/basictypes.h"
#include "base/callback.h"
#include "base/memory/ref_counted.h"
#include "base/memory/shared_memory.h"
#include "base/single_thread_task_runner.h"
#include "base/time/time.h"
#include "media/cast/cast_defines.h"
#include "media/cast/net/cast_transport_config.h"
namespace media {
class VideoEncodeAccelerator;
namespace cast {
// TODO(miu): Merge AudioSenderConfig and VideoSenderConfig and make their
// naming/documentation consistent with FrameReceiverConfig.
struct AudioSenderConfig {
AudioSenderConfig();
~AudioSenderConfig();
// Identifier referring to the sender, used by the receiver.
uint32 ssrc;
// The receiver's SSRC identifier.
uint32 incoming_feedback_ssrc;
int rtcp_interval;
std::string rtcp_c_name;
// The total amount of time between a frame's capture/recording on the sender
// and its playback on the receiver (i.e., shown to a user). This is fixed as
// a value large enough to give the system sufficient time to encode,
// transmit/retransmit, receive, decode, and render; given its run-time
// environment (sender/receiver hardware performance, network conditions,
// etc.).
base::TimeDelta target_playout_delay;
// RTP payload type enum: Specifies the type/encoding of frame data.
int rtp_payload_type;
bool use_external_encoder;
int frequency;
int channels;
int bitrate; // Set to <= 0 for "auto variable bitrate" (libopus knows best).
Codec codec;
// The AES crypto key and initialization vector. Each of these strings
// contains the data in binary form, of size kAesKeySize. If they are empty
// strings, crypto is not being used.
std::string aes_key;
std::string aes_iv_mask;
};
struct VideoSenderConfig {
VideoSenderConfig();
~VideoSenderConfig();
// Identifier referring to the sender, used by the receiver.
uint32 ssrc;
// The receiver's SSRC identifier.
uint32 incoming_feedback_ssrc; // TODO(miu): Rename to receiver_ssrc.
int rtcp_interval;
std::string rtcp_c_name;
// The total amount of time between a frame's capture/recording on the sender
// and its playback on the receiver (i.e., shown to a user). This is fixed as
// a value large enough to give the system sufficient time to encode,
// transmit/retransmit, receive, decode, and render; given its run-time
// environment (sender/receiver hardware performance, network conditions,
// etc.).
base::TimeDelta target_playout_delay;
// RTP payload type enum: Specifies the type/encoding of frame data.
int rtp_payload_type;
bool use_external_encoder;
int width; // Incoming frames will be scaled to this size.
int height;
float congestion_control_back_off;
int max_bitrate;
int min_bitrate;
int start_bitrate;
int max_qp;
int min_qp;
int max_frame_rate;
int max_number_of_video_buffers_used; // Max value depend on codec.
Codec codec;
int number_of_encode_threads;
// The AES crypto key and initialization vector. Each of these strings
// contains the data in binary form, of size kAesKeySize. If they are empty
// strings, crypto is not being used.
std::string aes_key;
std::string aes_iv_mask;
};
// TODO(miu): Naming and minor type changes are badly needed in a later CL.
struct FrameReceiverConfig {
FrameReceiverConfig();
~FrameReceiverConfig();
// The receiver's SSRC identifier.
uint32 feedback_ssrc; // TODO(miu): Rename to receiver_ssrc for clarity.
// The sender's SSRC identifier.
uint32 incoming_ssrc; // TODO(miu): Rename to sender_ssrc for clarity.
// Mean interval (in milliseconds) between RTCP reports.
// TODO(miu): Remove this since it's never not kDefaultRtcpIntervalMs.
int rtcp_interval;
// CNAME representing this receiver.
// TODO(miu): Remove this since it should be derived elsewhere (probably in
// the transport layer).
std::string rtcp_c_name;
// The total amount of time between a frame's capture/recording on the sender
// and its playback on the receiver (i.e., shown to a user). This is fixed as
// a value large enough to give the system sufficient time to encode,
// transmit/retransmit, receive, decode, and render; given its run-time
// environment (sender/receiver hardware performance, network conditions,
// etc.).
int rtp_max_delay_ms; // TODO(miu): Change to TimeDelta target_playout_delay.
// RTP payload type enum: Specifies the type/encoding of frame data.
int rtp_payload_type;
// RTP timebase: The number of RTP units advanced per one second. For audio,
// this is the sampling rate. For video, by convention, this is 90 kHz.
int frequency; // TODO(miu): Rename to rtp_timebase for clarity.
// Number of channels. For audio, this is normally 2. For video, this must
// be 1 as Cast does not have support for stereoscopic video.
int channels;
// The target frame rate. For audio, this is normally 100 (i.e., frames have
// a duration of 10ms each). For video, this is normally 30, but any frame
// rate is supported.
int max_frame_rate; // TODO(miu): Rename to target_frame_rate.
// Codec used for the compression of signal data.
// TODO(miu): Merge the AudioCodec and VideoCodec enums into one so this union
// is not necessary.
Codec codec;
// The AES crypto key and initialization vector. Each of these strings
// contains the data in binary form, of size kAesKeySize. If they are empty
// strings, crypto is not being used.
std::string aes_key;
std::string aes_iv_mask;
};
// Import from media::cast.
typedef Packet Packet;
typedef PacketList PacketList;
typedef base::Callback<void(CastInitializationStatus)>
CastInitializationCallback;
typedef base::Callback<void(scoped_refptr<base::SingleThreadTaskRunner>,
scoped_ptr<media::VideoEncodeAccelerator>)>
ReceiveVideoEncodeAcceleratorCallback;
typedef base::Callback<void(const ReceiveVideoEncodeAcceleratorCallback&)>
CreateVideoEncodeAcceleratorCallback;
typedef base::Callback<void(scoped_ptr<base::SharedMemory>)>
ReceiveVideoEncodeMemoryCallback;
typedef base::Callback<void(size_t size,
const ReceiveVideoEncodeMemoryCallback&)>
CreateVideoEncodeMemoryCallback;
} // namespace cast
} // namespace media
#endif // MEDIA_CAST_CAST_CONFIG_H_