/* * Copyright (c) 2016-present The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/ZLMediaKit/ZLMediaKit). * * Use of this source code is governed by MIT-like license that can be found in the * LICENSE file in the root of the source tree. All contributing project authors * may be found in the AUTHORS file in the root of the source tree. */ #include "Rtmp/utils.h" #include "H264Rtmp.h" using namespace std; using namespace toolkit; #define CHECK_RET(...) \ try { \ CHECK(__VA_ARGS__); \ } catch (AssertFailedException & ex) { \ WarnL << ex.what(); \ return; \ } namespace mediakit { void H264RtmpDecoder::inputRtmp(const RtmpPacket::Ptr &pkt) { if (pkt->isConfigFrame()) { CHECK_RET(pkt->size() > 5); getTrack()->setExtraData((uint8_t *)pkt->data() + 5, pkt->size() - 5); return; } CHECK_RET(pkt->size() > 9); uint8_t *cts_ptr = (uint8_t *)(pkt->buffer.data() + 2); int32_t cts = (((cts_ptr[0] << 16) | (cts_ptr[1] << 8) | (cts_ptr[2])) + 0xff800000) ^ 0xff800000; auto pts = pkt->time_stamp + cts; splitFrame((uint8_t *)pkt->data() + 5, pkt->size() - 5, pkt->time_stamp, pts); } void H264RtmpDecoder::splitFrame(const uint8_t *data, size_t size, uint32_t dts, uint32_t pts) { auto end = data + size; while (data + 4 < end) { uint32_t frame_len = load_be32(data); data += 4; if (data + frame_len > end) { break; } outputFrame((const char *)data, frame_len, dts, pts); data += frame_len; } } void H264RtmpDecoder::outputFrame(const char *data, size_t len, uint32_t dts, uint32_t pts) { auto frame = FrameImp::create(); frame->_prefix_size = 4; frame->_dts = dts; frame->_pts = pts; frame->_buffer.assign("\x00\x00\x00\x01", 4); // 添加264头 frame->_buffer.append(data, len); RtmpCodec::inputFrame(frame); } //////////////////////////////////////////////////////////////////////// void H264RtmpEncoder::flush() { inputFrame(nullptr); } bool H264RtmpEncoder::inputFrame(const Frame::Ptr &frame) { if (!_rtmp_packet) { _rtmp_packet = RtmpPacket::create(); //flags/not config/cts预占位 _rtmp_packet->buffer.resize(5); } return _merger.inputFrame(frame, [this](uint64_t dts, uint64_t pts, const Buffer::Ptr &, bool have_key_frame) { // flags _rtmp_packet->buffer[0] = (uint8_t)RtmpVideoCodec::h264 | ((uint8_t)(have_key_frame ? RtmpFrameType::key_frame : RtmpFrameType::inter_frame) << 4); _rtmp_packet->buffer[1] = (uint8_t)RtmpH264PacketType::h264_nalu; int32_t cts = pts - dts; // cts set_be24(&_rtmp_packet->buffer[2], cts); _rtmp_packet->time_stamp = dts; _rtmp_packet->body_size = _rtmp_packet->buffer.size(); _rtmp_packet->chunk_id = CHUNK_VIDEO; _rtmp_packet->stream_index = STREAM_MEDIA; _rtmp_packet->type_id = MSG_VIDEO; // 输出rtmp packet RtmpCodec::inputRtmp(_rtmp_packet); _rtmp_packet = nullptr; }, &_rtmp_packet->buffer); } void H264RtmpEncoder::makeConfigPacket() { auto flags = (uint8_t)RtmpVideoCodec::h264; flags |= ((uint8_t)RtmpFrameType::key_frame << 4); auto pkt = RtmpPacket::create(); // header pkt->buffer.push_back(flags); pkt->buffer.push_back((uint8_t)RtmpH264PacketType::h264_config_header); // cts pkt->buffer.append("\x0\x0\x0", 3); // AVCDecoderConfigurationRecord start auto extra_data = getTrack()->getExtraData(); CHECK(extra_data); pkt->buffer.append(extra_data->data(), extra_data->size()); pkt->body_size = pkt->buffer.size(); pkt->chunk_id = CHUNK_VIDEO; pkt->stream_index = STREAM_MEDIA; pkt->time_stamp = 0; pkt->type_id = MSG_VIDEO; RtmpCodec::inputRtmp(pkt); } }//namespace mediakit