#ifndef __rtmp_h #define __rtmp_h #include #include #include #include "Util/util.h" #include "Util/logger.h" using namespace std; using namespace ZL::Util; #define PORT 1935 #define DEFAULT_CHUNK_LEN 128 #define PACKED __attribute__((packed)) #define HANDSHAKE_PLAINTEXT 0x03 #define RANDOM_LEN (1536 - 8) #define MSG_SET_CHUNK 1 /*Set Chunk Size (1)*/ #define MSG_ABORT 2 /*Abort Message (2)*/ #define MSG_ACK 3 /*Acknowledgement (3)*/ #define MSG_USER_CONTROL 4 /*User Control Messages (4)*/ #define MSG_WIN_SIZE 5 /*Window Acknowledgement Size (5)*/ #define MSG_SET_PEER_BW 6 /*Set Peer Bandwidth (6)*/ #define MSG_AUDIO 8 /*Audio Message (8)*/ #define MSG_VIDEO 9 /*Video Message (9)*/ #define MSG_DATA 18 /*Data Message (18, 15) AMF0*/ #define MSG_DATA3 15 /*Data Message (18, 15) AMF3*/ #define MSG_CMD 20 /*Command Message AMF0 */ #define MSG_CMD3 17 /*Command Message AMF3 */ #define MSG_OBJECT3 16 /*Shared Object Message (19, 16) AMF3*/ #define MSG_OBJECT 19 /*Shared Object Message (19, 16) AMF0*/ #define MSG_AGGREGATE 22 /*Aggregate Message (22)*/ #define CONTROL_STREAM_BEGIN 0 #define CONTROL_STREAM_EOF 1 #define CONTROL_STREAM_DRY 2 #define CONTROL_SETBUFFER 3 #define CONTROL_STREAM_ISRECORDED 4 #define CONTROL_PING_REQUEST 6 #define CONTROL_PING_RESPONSE 7 #define STREAM_CONTROL 0 #define STREAM_MEDIA 1 #define CHUNK_SERVER_REQUEST 2 /*服务器像客户端发出请求时的chunkID*/ #define CHUNK_CLIENT_REQUEST_BEFORE 3 /*客户端在createStream前,向服务器发出请求的chunkID*/ #define CHUNK_CLIENT_REQUEST_AFTER 4 /*客户端在createStream后,向服务器发出请求的chunkID*/ #define FLV_KEY_FRAME 1 #define FLV_INTER_FRAME 2 class RtmpHandshake { public: RtmpHandshake(uint32_t _time, uint8_t *_random = nullptr) { _time = htonl(_time); memcpy(timeStamp, &_time, 4); if (!_random) { random_generate((char *) random, sizeof(random)); } else { memcpy(random, _random, sizeof(random)); } } uint8_t timeStamp[4]; uint8_t zero[4] = { 0 }; uint8_t random[RANDOM_LEN]; private: void random_generate(char* bytes, int size) { static char cdata[] = { 0x73, 0x69, 0x6d, 0x70, 0x6c, 0x65, 0x2d, 0x72, 0x74, 0x6d, 0x70, 0x2d, 0x73, 0x65, 0x72, 0x76, 0x65, 0x72, 0x2d, 0x77, 0x69, 0x6e, 0x6c, 0x69, 0x6e, 0x2d, 0x77, 0x69, 0x6e, 0x74, 0x65, 0x72, 0x73, 0x65, 0x72, 0x76, 0x65, 0x72, 0x40, 0x31, 0x32, 0x36, 0x2e, 0x63, 0x6f, 0x6d }; for (int i = 0; i < size; i++) { bytes[i] = cdata[rand() % (sizeof(cdata) - 1)]; } } }PACKED; class RtmpHeader { public: uint8_t flags; uint8_t timeStamp[3]; uint8_t bodySize[3]; uint8_t typeId; uint8_t streamId[4]; /* Note, this is little-endian while others are BE */ }PACKED; class RtmpPacket { public: typedef std::shared_ptr Ptr; uint8_t typeId; uint32_t bodySize = 0; uint32_t timeStamp = 0; bool extStamp = false; uint32_t streamId; uint32_t chunkId; std::string strBuf; bool isVideoKeyFrame() const { return typeId == MSG_VIDEO && (uint8_t) strBuf[0] >> 4 == FLV_KEY_FRAME && (uint8_t) strBuf[1] == 1; } bool isCfgFrame() const { return (typeId == MSG_VIDEO || typeId == MSG_AUDIO) && (uint8_t) strBuf[1] == 0; } int getMediaType() const { switch (typeId) { case MSG_VIDEO: { return (uint8_t) strBuf[0] & 0x0F; } break; case MSG_AUDIO: { return (uint8_t) strBuf[0] >> 4; } break; default: break; } return 0; } int getAudioSampleRate() const { if (typeId != MSG_AUDIO) { return 0; } int flvSampleRate = ((uint8_t) strBuf[0] & 0x0C) >> 2; const static int sampleRate[] = { 5512, 11025, 22050, 44100 }; return sampleRate[flvSampleRate]; } int getAudioSampleBit() const { if (typeId != MSG_AUDIO) { return 0; } int flvSampleBit = ((uint8_t) strBuf[0] & 0x02) >> 1; const static int sampleBit[] = { 8, 16 }; return sampleBit[flvSampleBit]; } int getAudioChannel() const { if (typeId != MSG_AUDIO) { return 0; } int flvStereoOrMono = (uint8_t) strBuf[0] & 0x01; const static int channel[] = { 1, 2 }; return channel[flvStereoOrMono]; } string getH264SPS() const { string ret; if (getMediaType() != 7) { return ret; } if (!isCfgFrame()) { return ret; } if (strBuf.size() < 13) { WarnL << "bad H264 cfg!"; return ret; } uint16_t sps_size ; memcpy(&sps_size,strBuf.data() + 11,2); sps_size = ntohs(sps_size); if ((int) strBuf.size() < 13 + sps_size) { WarnL << "bad H264 cfg!"; return ret; } ret.assign(strBuf.data() + 13, sps_size); return ret; } string getH264PPS() const { string ret; if (getMediaType() != 7) { return ret; } if (!isCfgFrame()) { return ret; } if (strBuf.size() < 13) { WarnL << "bad H264 cfg!"; return ret; } uint16_t sps_size ; memcpy(&sps_size,strBuf.data() + 11,2); sps_size = ntohs(sps_size); if ((int) strBuf.size() < 13 + sps_size + 1 + 2) { WarnL << "bad H264 cfg!"; return ret; } uint16_t pps_size ; memcpy(&pps_size,strBuf.data() + 13 + sps_size + 1,2); pps_size = ntohs(pps_size); if ((int) strBuf.size() < 13 + sps_size + 1 + 2 + pps_size) { WarnL << "bad H264 cfg!"; return ret; } ret.assign(strBuf.data() + 13 + sps_size + 1 + 2, pps_size); return ret; } string getAacCfg() const { string ret; if (getMediaType() != 10) { return ret; } if (!isCfgFrame()) { return ret; } if (strBuf.size() < 4) { WarnL << "bad aac cfg!"; return ret; } ret = strBuf.substr(2, 2); return ret; } }; #endif