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/*
* Copyright (c) 2011 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.
*/
/*
* This file contains the declaration of the VP8 packetizer class.
* A packetizer object is created for each encoded video frame. The
* constructor is called with the payload data and size,
* together with the fragmentation information and a packetizer mode
* of choice. Alternatively, if no fragmentation info is available, the
* second constructor can be used with only payload data and size; in that
* case the mode kEqualSize is used.
*
* After creating the packetizer, the method NextPacket is called
* repeatedly to get all packets for the frame. The method returns
* false as long as there are more packets left to fetch.
*/
#ifndef MODULES_RTP_RTCP_SOURCE_RTP_FORMAT_VP8_H_
#define MODULES_RTP_RTCP_SOURCE_RTP_FORMAT_VP8_H_
#include <queue>
#include <string>
#include <vector>
#include "modules/include/module_common_types.h"
#include "modules/rtp_rtcp/source/rtp_format.h"
#include "rtc_base/constructormagic.h"
#include "typedefs.h" // NOLINT(build/include)
namespace webrtc {
enum VP8PacketizerMode {
kStrict = 0, // Split partitions if too large;
// never aggregate, balance size.
kAggregate, // Split partitions if too large; aggregate whole partitions.
kEqualSize, // Split entire payload without considering partition limits.
// This will produce equal size packets for the whole frame.
kNumModes,
};
// Packetizer for VP8.
class RtpPacketizerVp8 : public RtpPacketizer {
public:
// Initialize with payload from encoder and fragmentation info.
// The payload_data must be exactly one encoded VP8 frame.
RtpPacketizerVp8(const RTPVideoHeaderVP8& hdr_info,
size_t max_payload_len,
size_t last_packet_reduction_len,
VP8PacketizerMode mode);
// Initialize without fragmentation info. Mode kEqualSize will be used.
// The payload_data must be exactly one encoded VP8 frame.
RtpPacketizerVp8(const RTPVideoHeaderVP8& hdr_info,
size_t max_payload_len,
size_t last_packet_reduction_len);
virtual ~RtpPacketizerVp8();
size_t SetPayloadData(const uint8_t* payload_data,
size_t payload_size,
const RTPFragmentationHeader* fragmentation) override;
// Get the next payload with VP8 payload header.
// Write payload and set marker bit of the |packet|.
// Returns true on success, false otherwise.
bool NextPacket(RtpPacketToSend* packet) override;
std::string ToString() override;
private:
typedef struct {
size_t payload_start_pos;
size_t size;
bool first_fragment;
size_t first_partition_ix;
} InfoStruct;
typedef std::queue<InfoStruct> InfoQueue;
static const int kXBit = 0x80;
static const int kNBit = 0x20;
static const int kSBit = 0x10;
static const int kPartIdField = 0x0F;
static const int kKeyIdxField = 0x1F;
static const int kIBit = 0x80;
static const int kLBit = 0x40;
static const int kTBit = 0x20;
static const int kKBit = 0x10;
static const int kYBit = 0x20;
// Calculate all packet sizes and load to packet info queue.
int GeneratePackets();
// Splits given part of payload (one or more partitions)
// to packets with a given capacity. If |last_partition| flag is set then the
// last packet should be reduced by last_packet_reduction_len_.
void GeneratePacketsSplitPayloadBalanced(size_t payload_offset,
size_t payload_len,
size_t capacity,
bool last_partition,
size_t part_idx);
// Aggregates partitions starting at |part_idx| to packets of
// given |capacity|. Last packet, if containing last partition of the frame
// should be reduced by last_packet_reduction_len_.
// Returns the first unaggregated partition index.
size_t GeneratePacketsAggregatePartitions(size_t part_idx, size_t capacity);
// Insert packet into packet queue.
void QueuePacket(size_t start_pos,
size_t packet_size,
size_t first_partition_in_packet,
bool start_on_new_fragment);
// Write the payload header and copy the payload to the buffer.
// The info in packet_info determines which part of the payload is written
// and what to write in the header fields.
int WriteHeaderAndPayload(const InfoStruct& packet_info,
uint8_t* buffer,
size_t buffer_length) const;
// Write the X field and the appropriate extension fields to buffer.
// The function returns the extension length (including X field), or -1
// on error.
int WriteExtensionFields(uint8_t* buffer, size_t buffer_length) const;
// Set the I bit in the x_field, and write PictureID to the appropriate
// position in buffer. The function returns 0 on success, -1 otherwise.
int WritePictureIDFields(uint8_t* x_field,
uint8_t* buffer,
size_t buffer_length,
size_t* extension_length) const;
// Set the L bit in the x_field, and write Tl0PicIdx to the appropriate
// position in buffer. The function returns 0 on success, -1 otherwise.
int WriteTl0PicIdxFields(uint8_t* x_field,
uint8_t* buffer,
size_t buffer_length,
size_t* extension_length) const;
// Set the T and K bits in the x_field, and write TID, Y and KeyIdx to the
// appropriate position in buffer. The function returns 0 on success,
// -1 otherwise.
int WriteTIDAndKeyIdxFields(uint8_t* x_field,
uint8_t* buffer,
size_t buffer_length,
size_t* extension_length) const;
// Write the PictureID from codec_specific_info_ to buffer. One or two
// bytes are written, depending on magnitude of PictureID. The function
// returns the number of bytes written.
int WritePictureID(uint8_t* buffer, size_t buffer_length) const;
// Calculate and return length (octets) of the variable header fields in
// the next header (i.e., header length in addition to vp8_header_bytes_).
size_t PayloadDescriptorExtraLength() const;
// Calculate and return length (octets) of PictureID field in the next
// header. Can be 0, 1, or 2.
size_t PictureIdLength() const;
// Check whether each of the optional fields will be included in the header.
bool XFieldPresent() const;
bool TIDFieldPresent() const;
bool KeyIdxFieldPresent() const;
bool TL0PicIdxFieldPresent() const;
bool PictureIdPresent() const { return (PictureIdLength() > 0); }
const uint8_t* payload_data_;
size_t payload_size_;
RTPFragmentationHeader part_info_;
const size_t vp8_fixed_payload_descriptor_bytes_; // Length of VP8 payload
// descriptors' fixed part.
const VP8PacketizerMode mode_;
const RTPVideoHeaderVP8 hdr_info_;
size_t num_partitions_;
const size_t max_payload_len_;
const size_t last_packet_reduction_len_;
InfoQueue packets_;
RTC_DISALLOW_COPY_AND_ASSIGN(RtpPacketizerVp8);
};
// Depacketizer for VP8.
class RtpDepacketizerVp8 : public RtpDepacketizer {
public:
virtual ~RtpDepacketizerVp8() {}
bool Parse(ParsedPayload* parsed_payload,
const uint8_t* payload_data,
size_t payload_data_length) override;
};
} // namespace webrtc
#endif // MODULES_RTP_RTCP_SOURCE_RTP_FORMAT_VP8_H_