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srs.librtmp

The client library srs-librtmp of SRS(https://github.com/ossrs/srs)

This repository is exported by SRS3.0+, please read the wiki( CN, EN ).

When you program on linux, the exported project or files can be direclty used.

For windows, I provides a visual studio project example.

We also patch the librtmp to work better with SRS, to get the debug srs ip/pid/cid, which is very important to fast debug.

RTMP

The API to publish or play RTMP stream.

  1. Create RTMP object:

    /**
 * create/destroy a rtmp protocol stack.
 * @url rtmp url, for example:
 *         rtmp://localhost/live/livestream
 * @remark default timeout to 30s if not set by srs_rtmp_set_timeout.
 *
 * @return a rtmp handler, or NULL if error occured.
 */
extern srs_rtmp_t srs_rtmp_create(const char* url);

  2. Handshake with server:

    /**
* connect and handshake with server
* category: publish/play
* previous: rtmp-create
* next: connect-app
*
* @return 0, success; otherswise, failed.
*/
extern int srs_rtmp_handshake(srs_rtmp_t rtmp);

  3. Setup the RTMP object:

    /**
* Set the schema of URL when connect to tcUrl by srs_rtmp_connect_app.
 * @param schema, The schema of URL, @see srs_url_schema.
 * @return 0, success; otherswise, failed.
 */
extern int srs_rtmp_set_schema(srs_rtmp_t rtmp, enum srs_url_schema schema);

  4. Connect to RTMP app:

    /**
* connect to rtmp vhost/app
* category: publish/play
* previous: handshake
* next: publish or play
*
* @return 0, success; otherswise, failed.
*/
extern int srs_rtmp_connect_app(srs_rtmp_t rtmp);

  5. Retrieve server informations:

    /**
 * Retrieve server ip from RTMP handler.
 * @Param ip A NULL terminated string specifies the server ip.
 * @Param pid An int specifies the PID of server. -1 is no PID information.
 * @Param cid An int specifies the CID of connection. -1 is no CID information.
 * @remark For SRS, ip/pid/cid is the UUID of a client. For other server, these values maybe unknown.
 * @remark When connected to server by srs_rtmp_connect_app, the information is ready to be retrieved.
 * @return 0, success; otherswise, failed.
 */
extern int srs_rtmp_get_server_id(srs_rtmp_t rtmp, char** ip, int* pid, int* cid);

/**
 * Retrieve server signature from RTMP handler.
 * @Param sig A NULL terminated string specifies the server signature.
 * @remark When connected to server by srs_rtmp_connect_app, the information is ready to be retrieved.
 * @return 0, success; otherswise, failed.
 */
extern int srs_rtmp_get_server_sig(srs_rtmp_t rtmp, char** sig);

/**
 * Retrieve server version from RTMP handler, which in major.minor.revision.build format.
 * @remark When connected to server by srs_rtmp_connect_app, the information is ready to be retrieved.
 * @return 0, success; otherswise, failed.
 */
extern int srs_rtmp_get_server_version(srs_rtmp_t rtmp, int* major, int* minor, int* revision, int* build);

  6. Start play or publish stream:

    /**
* play a live/vod stream.
* category: play
* previous: connect-app
* next: destroy
* @return 0, success; otherwise, failed.
*/
extern int srs_rtmp_play_stream(srs_rtmp_t rtmp);

/**
* publish a live stream.
* category: publish
* previous: connect-app
* next: destroy
* @return 0, success; otherwise, failed.
*/
extern int srs_rtmp_publish_stream(srs_rtmp_t rtmp);

  7. Send or receive RTMP packet:

    /**
* E.4.1 FLV Tag, page 75
*/
// 8 = audio
#define SRS_RTMP_TYPE_AUDIO 8
// 9 = video
#define SRS_RTMP_TYPE_VIDEO 9
// 18 = script data
#define SRS_RTMP_TYPE_SCRIPT 18
/**
* read a audio/video/script-data packet from rtmp stream.
* @param type, output the packet type, macros:
*            SRS_RTMP_TYPE_AUDIO, FlvTagAudio
*            SRS_RTMP_TYPE_VIDEO, FlvTagVideo
*            SRS_RTMP_TYPE_SCRIPT, FlvTagScript
*            otherswise, invalid type.
* @param timestamp, in ms, overflow in 50days
* @param data, the packet data, according to type:
*             FlvTagAudio, @see "E.4.2.1 AUDIODATA"
*            FlvTagVideo, @see "E.4.3.1 VIDEODATA"
*            FlvTagScript, @see "E.4.4.1 SCRIPTDATA"
*            User can free the packet by srs_rtmp_free_packet.
* @param size, size of packet.
* @return the error code. 0 for success; otherwise, error.
*
* @remark: for read, user must free the data.
* @remark: for write, user should never free the data, even if error.
* @example /trunk/research/librtmp/srs_play.c
* @example /trunk/research/librtmp/srs_publish.c
*
* @return 0, success; otherswise, failed.
*/
extern int srs_rtmp_read_packet(srs_rtmp_t rtmp,
    char* type, uint32_t* timestamp, char** data, int* size
);
extern int srs_rtmp_write_packet(srs_rtmp_t rtmp,
    char type, uint32_t timestamp, char* data, int size
);

  8. Destroy RTMP object:

    /**
* close and destroy the rtmp stack.
* @remark, user should never use the rtmp again.
*/
extern void srs_rtmp_destroy(srs_rtmp_t rtmp);

RAW AAC Data

The API to send RAW AAC frame over RTMP.

  1. Determine whether frame is in ADTS format:

    /**
* whether aac raw data is in adts format,
* which bytes sequence matches '1111 1111 1111'B, that is 0xFFF.
* @param aac_raw_data the input aac raw data, a encoded aac frame data.
* @param ac_raw_size the size of aac raw data.
*
* @reamrk used to check whether current frame is in adts format.
*       @see ISO_IEC_14496-3-AAC-2001.pdf, page 75, 1.A.2.2 ADTS
* @example /trunk/research/librtmp/srs_aac_raw_publish.c
*
* @return 0 false; otherwise, true.
*/
extern srs_bool srs_aac_is_adts(char* aac_raw_data, int ac_raw_size);

  2. Parse the RAW AAC ADTS frame, get the size of AAC data:

    /**
* parse the adts header to get the frame size,
* which bytes sequence matches '1111 1111 1111'B, that is 0xFFF.
* @param aac_raw_data the input aac raw data, a encoded aac frame data.
* @param ac_raw_size the size of aac raw data.
*
* @return failed when <=0 failed; otherwise, ok.
*/
extern int srs_aac_adts_frame_size(char* aac_raw_data, int ac_raw_size);

  3. Write the RAW AAC frame over RTMP:

    /**
* write an audio raw frame to srs.
* not similar to h.264 video, the audio never aggregated, always
* encoded one frame by one, so this api is used to write a frame.
*
* @param sound_format Format of SoundData. The following values are defined:
*               0 = Linear PCM, platform endian
*               1 = ADPCM
*               2 = MP3
*               3 = Linear PCM, little endian
*               4 = Nellymoser 16 kHz mono
*               5 = Nellymoser 8 kHz mono
*               6 = Nellymoser
*               7 = G.711 A-law logarithmic PCM
*               8 = G.711 mu-law logarithmic PCM
*               9 = reserved
*               10 = AAC
*               11 = Speex
*               14 = MP3 8 kHz
*               15 = Device-specific sound
*               Formats 7, 8, 14, and 15 are reserved.
*               AAC is supported in Flash Player 9,0,115,0 and higher.
*               Speex is supported in Flash Player 10 and higher.
* @param sound_rate Sampling rate. The following values are defined:
*               0 = 5.5 kHz
*               1 = 11 kHz
*               2 = 22 kHz
*               3 = 44 kHz
* @param sound_size Size of each audio sample. This parameter only pertains to
*               uncompressed formats. Compressed formats always decode
*               to 16 bits internally.
*               0 = 8-bit samples
*               1 = 16-bit samples
* @param sound_type Mono or stereo sound
*               0 = Mono sound
*               1 = Stereo sound
* @param timestamp The timestamp of audio.
*
* @example /trunk/research/librtmp/srs_aac_raw_publish.c
* @example /trunk/research/librtmp/srs_audio_raw_publish.c
*
* @remark for aac, the frame must be in ADTS format.
*       @see ISO_IEC_14496-3-AAC-2001.pdf, page 75, 1.A.2.2 ADTS
* @remark for aac, only support profile 1-4, AAC main/LC/SSR/LTP,
*       @see ISO_IEC_14496-3-AAC-2001.pdf, page 23, 1.5.1.1 Audio object type
*
* @see https://github.com/ossrs/srs/issues/212
* @see E.4.2.1 AUDIODATA of video_file_format_spec_v10_1.pdf
*
* @return 0, success; otherswise, failed.
*/
extern int srs_audio_write_raw_frame(srs_rtmp_t rtmp,
    char sound_format, char sound_rate, char sound_size, char sound_type,
    char* frame, int frame_size, uint32_t timestamp
);

RAW H.264 Data

The API to send RAW H.264 frame over RTMP.

  1. Check whether RAW H.264 is in annexb format:

    /**
* whether h264 raw data starts with the annexb,
* which bytes sequence matches N[00] 00 00 01, where N>=0.
* @param h264_raw_data the input h264 raw data, a encoded h.264 I/P/B frame data.
* @paam h264_raw_size the size of h264 raw data.
* @param pnb_start_code output the size of start code, must >=3.
*       NULL to ignore.
*
* @reamrk used to check whether current frame is in annexb format.
* @example /trunk/research/librtmp/srs_h264_raw_publish.c
*
* @return 0 false; otherwise, true.
*/
extern srs_bool srs_h264_startswith_annexb(
    char* h264_raw_data, int h264_raw_size,
    int* pnb_start_code
);

  2. Write H.264 RAW frame over RTMP:

    /**
* write h.264 raw frame over RTMP to rtmp server.
* @param frames the input h264 raw data, encoded h.264 I/P/B frames data.
*       frames can be one or more than one frame,
*       each frame prefixed h.264 annexb header, by N[00] 00 00 01, where N>=0,
*       for instance, frame = header(00 00 00 01) + payload(67 42 80 29 95 A0 14 01 6E 40)
*       about annexb, @see ISO_IEC_14496-10-AVC-2003.pdf, page 211.
* @param frames_size the size of h264 raw data.
*       assert frames_size > 0, at least has 1 bytes header.
* @param dts the dts of h.264 raw data.
* @param pts the pts of h.264 raw data.
*
* @remark, user should free the frames.
* @remark, the tbn of dts/pts is 1/1000 for RTMP, that is, in ms.
* @remark, cts = pts - dts
* @remark, use srs_h264_startswith_annexb to check whether frame is annexb format.
* @example /trunk/research/librtmp/srs_h264_raw_publish.c
* @see https://github.com/ossrs/srs/issues/66
*
* @return 0, success; otherswise, failed.
*       for dvbsp error, @see srs_h264_is_dvbsp_error().
*       for duplictated sps error, @see srs_h264_is_duplicated_sps_error().
*       for duplictated pps error, @see srs_h264_is_duplicated_pps_error().
*/
/**
For the example file:
    http://winlinvip.github.io/srs.release/3rdparty/720p.h264.raw
The data sequence is:
    // SPS
    000000016742802995A014016E40
    // PPS
    0000000168CE3880
    // IFrame
    0000000165B8041014C038008B0D0D3A071.....
    // PFrame
    0000000141E02041F8CDDC562BBDEFAD2F.....
User can send the SPS+PPS, then each frame:
    // SPS+PPS
    srs_h264_write_raw_frames('000000016742802995A014016E400000000168CE3880', size, dts, pts)
    // IFrame
    srs_h264_write_raw_frames('0000000165B8041014C038008B0D0D3A071......', size, dts, pts)
    // PFrame
    srs_h264_write_raw_frames('0000000141E02041F8CDDC562BBDEFAD2F......', size, dts, pts)
User also can send one by one:
    // SPS
    srs_h264_write_raw_frames('000000016742802995A014016E4', size, dts, pts)
    // PPS
    srs_h264_write_raw_frames('00000000168CE3880', size, dts, pts)
    // IFrame
    srs_h264_write_raw_frames('0000000165B8041014C038008B0D0D3A071......', size, dts, pts)
    // PFrame
    srs_h264_write_raw_frames('0000000141E02041F8CDDC562BBDEFAD2F......', size, dts, pts)
*/
extern int srs_h264_write_raw_frames(srs_rtmp_t rtmp,
    char* frames, int frames_size, uint32_t dts, uint32_t pts
);

MP4 File Format

The API to read MP4 format.

  1. Open MP4 file:

    /* Open mp4 file for muxer(write) or demuxer(read). */
extern srs_mp4_t srs_mp4_open_read(const char* file);

  2. Initialize the MP4 demuxer:

    /**
 * Initialize mp4 demuxer in non-seek mode.
 * @remark Only support non-seek mode, that is fmp4 or moov before mdata.
 *      For the live streaming, we must feed stream frame by frame.
 */
extern int srs_mp4_init_demuxer(srs_mp4_t mp4);

  3. Read next sample(header and frame payload):

    /**
 * Read a sample form mp4.
 * @remark User can use srs_mp4_sample_to_flv_tag to convert mp4 sampel to flv tag.
 *      Use the srs_mp4_to_flv_tag_size to calc the flv tag data size to alloc.
 */
extern int srs_mp4_read_sample(srs_mp4_t mp4, srs_mp4_sample_t* sample);

Remark: Use srs_mp4_is_eof to check whether EOF.

  1. Calculate the size of FLV tag, converted from MP4 sample:

    /**
 * Calc the size of flv tag, for the mp4 sample to convert to.
 */
extern int32_t srs_mp4_sizeof(srs_mp4_t mp4, srs_mp4_sample_t* sample);

  2. Convert MP4 sample to FLV tag:

    /**
 * Covert mp4 sample to flv tag.
 */
extern int srs_mp4_to_flv_tag(srs_mp4_t mp4, srs_mp4_sample_t* sample, char* type, uint32_t* time, char* data, int32_t size);

Remark: User must allocate the tag payload. Reamrk: User can send the FLV tag over RTMP.

  1. Free the MP4 sample:

    /**
 * Free the allocated mp4 sample.
 */
extern void srs_mp4_free_sample(srs_mp4_sample_t* sample);

  2. Destroy MP4 file:

    extern void srs_mp4_close(srs_mp4_t mp4);

FLV File Format

The API to read or write FLV file.

  1. Open the FLV file, in read or write mode:

    /* open flv file for both read/write. */
extern srs_flv_t srs_flv_open_read(const char* file);
extern srs_flv_t srs_flv_open_write(const char* file);

  2. Read the FLV file header from file:

    /**
* read the flv header. 9bytes header.
* @param header, @see E.2 The FLV header, flv_v10_1.pdf in SRS doc.
*   3bytes, signature, "FLV",
*   1bytes, version, 0x01,
*   1bytes, flags, UB[5] 0, UB[1] audio present, UB[1] 0, UB[1] video present.
*   4bytes, dataoffset, 0x09, The length of this header in bytes
*
* @return 0, success; otherswise, failed.
* @remark, drop the 4bytes zero previous tag size.
*/
extern int srs_flv_read_header(srs_flv_t flv, char header[9]);

Reamark: Use srs_flv_is_eof to check whether EOF.

  1. Read a FLV tag from file: 
    /**
* read the flv tag header, 1bytes tag, 3bytes data_size,
* 4bytes time, 3bytes stream id.
* @param ptype, output the type of tag, macros:
*            SRS_RTMP_TYPE_AUDIO, FlvTagAudio
*            SRS_RTMP_TYPE_VIDEO, FlvTagVideo
*            SRS_RTMP_TYPE_SCRIPT, FlvTagScript
* @param pdata_size, output the size of tag data.
* @param ptime, output the time of tag, the dts in ms.
*
* @return 0, success; otherswise, failed.
* @remark, user must ensure the next is a tag, srs never check it.
*/
extern int srs_flv_read_tag_header(srs_flv_t flv,
    char* ptype, int32_t* pdata_size, uint32_t* ptime
);

Reamark: Use srs_flv_is_eof to check whether EOF.

  1. Read a FLV tag body from file:
    /**
    * read the tag data. drop the 4bytes previous tag size
    * @param data, the data to read, user alloc and free it.
    * @param size, the size of data to read, get by srs_flv_read_tag_header().
    * @remark, srs will ignore and drop the 4bytes previous tag size.
    */
    extern int srs_flv_read_tag_data(srs_flv_t flv, char* data, int32_t size);

Reamark: Use srs_flv_is_eof to check whether EOF.

  1. Write the FLV file header to file:

    /**
* write the flv header. 9bytes header.
* @param header, @see E.2 The FLV header, flv_v10_1.pdf in SRS doc.
*   3bytes, signature, "FLV",
*   1bytes, version, 0x01,
*   1bytes, flags, UB[5] 0, UB[1] audio present, UB[1] 0, UB[1] video present.
*   4bytes, dataoffset, 0x09, The length of this header in bytes
*
* @return 0, success; otherswise, failed.
* @remark, auto write the 4bytes zero previous tag size.
*/
extern int srs_flv_write_header(srs_flv_t flv, char header[9]);

  2. Write a FLV tag header and body to file:

    /**
* write the flv tag to file.
*
* @return 0, success; otherswise, failed.
* @remark, auto write the 4bytes zero previous tag size.
*/
/* write flv tag to file, auto write the 4bytes previous tag size */
extern int srs_flv_write_tag(srs_flv_t flv,
    char type, int32_t time, char* data, int size
);

  3. Close the FLV file:

    extern void srs_flv_close(srs_flv_t flv);

AMF0 Format

The following APIs are AMF0 codec.

  1. Number defined as double:
typedef double srs_amf0_number;
  1. Create AMF0 instance:
extern srs_amf0_t srs_amf0_create_string(const char* value);
extern srs_amf0_t srs_amf0_create_number(srs_amf0_number value);
extern srs_amf0_t srs_amf0_create_ecma_array();
extern srs_amf0_t srs_amf0_create_strict_array();
extern srs_amf0_t srs_amf0_create_object();
  1. Parse AMF0 instance from buffer:
extern srs_amf0_t srs_amf0_parse(char* data, int size, int* nparsed);
  1. Encode AMF0 instance to buffer:
extern int srs_amf0_size(srs_amf0_t amf0);
extern int srs_amf0_serialize(srs_amf0_t amf0, char* data, int size);
  1. Detect the type of AMF0 instance:
extern srs_bool srs_amf0_is_string(srs_amf0_t amf0);
extern srs_bool srs_amf0_is_boolean(srs_amf0_t amf0);
extern srs_bool srs_amf0_is_number(srs_amf0_t amf0);
extern srs_bool srs_amf0_is_null(srs_amf0_t amf0);
extern srs_bool srs_amf0_is_object(srs_amf0_t amf0);
extern srs_bool srs_amf0_is_ecma_array(srs_amf0_t amf0);
extern srs_bool srs_amf0_is_strict_array(srs_amf0_t amf0);
  1. Convert the AMF0 instance to basic type:
extern const char* srs_amf0_to_string(srs_amf0_t amf0);
extern srs_bool srs_amf0_to_boolean(srs_amf0_t amf0);
extern srs_amf0_number srs_amf0_to_number(srs_amf0_t amf0);
  1. Set the AMF0 Number:
extern void srs_amf0_set_number(srs_amf0_t amf0, srs_amf0_number value);
  1. For AMF0 Object instance:
extern int srs_amf0_object_property_count(srs_amf0_t amf0);
extern const char* srs_amf0_object_property_name_at(srs_amf0_t amf0, int index);
extern srs_amf0_t srs_amf0_object_property_value_at(srs_amf0_t amf0, int index);
extern srs_amf0_t srs_amf0_object_property(srs_amf0_t amf0, const char* name);
extern void srs_amf0_object_property_set(srs_amf0_t amf0, const char* name, srs_amf0_t value);
extern void srs_amf0_object_clear(srs_amf0_t amf0);
  1. For AMF0 EcmaArray instance:
extern int srs_amf0_ecma_array_property_count(srs_amf0_t amf0);
extern const char* srs_amf0_ecma_array_property_name_at(srs_amf0_t amf0, int index);
extern srs_amf0_t srs_amf0_ecma_array_property_value_at(srs_amf0_t amf0, int index);
extern srs_amf0_t srs_amf0_ecma_array_property(srs_amf0_t amf0, const char* name);
extern void srs_amf0_ecma_array_property_set(srs_amf0_t amf0, const char* name, srs_amf0_t value);
  1. For AMF0 StrictArray instance:
extern int srs_amf0_strict_array_property_count(srs_amf0_t amf0);
extern srs_amf0_t srs_amf0_strict_array_property_at(srs_amf0_t amf0, int index);
extern void srs_amf0_strict_array_append(srs_amf0_t amf0, srs_amf0_t value);
  1. Destroy AMF0 instance:
extern void srs_amf0_free(srs_amf0_t amf0);

Winlin 2014.11

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The client library srs-librtmp of SRS(https://github.com/ossrs/srs)

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