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FFmpeg/libavformat/rtmpproto.c

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  1. /*

  2.  * RTMP network protocol

  3.  * Copyright (c) 2009 Kostya Shishkov

  4.  *

  5.  * This file is part of Libav.

  6.  *

  7.  * Libav is free software; you can redistribute it and/or

  8.  * modify it under the terms of the GNU Lesser General Public

  9.  * License as published by the Free Software Foundation; either

  10.  * version 2.1 of the License, or (at your option) any later version.

  11.  *

  12.  * Libav is distributed in the hope that it will be useful,

  13.  * but WITHOUT ANY WARRANTY; without even the implied warranty of

  14.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  15.  * Lesser General Public License for more details.

  16.  *

  17.  * You should have received a copy of the GNU Lesser General Public

  18.  * License along with Libav; if not, write to the Free Software

  19.  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA

  20.  */

  21. 

  22. /**

  23.  * @file

  24.  * RTMP protocol

  25.  */

  26. 

  27. #include "libavcodec/bytestream.h"

  28. #include "libavutil/avstring.h"

  29. #include "libavutil/intfloat.h"

  30. #include "libavutil/lfg.h"

  31. #include "libavutil/opt.h"

  32. #include "libavutil/sha.h"

  33. #include "avformat.h"

  34. #include "internal.h"

  35. 

  36. #include "network.h"

  37. 

  38. #include "flv.h"

  39. #include "rtmp.h"

  40. #include "rtmppkt.h"

  41. #include "url.h"

  42. 

  43. //#define DEBUG

  44. 

  45. #define APP_MAX_LENGTH 128

  46. #define PLAYPATH_MAX_LENGTH 256

  47. #define TCURL_MAX_LENGTH 512

  48. #define FLASHVER_MAX_LENGTH 64

  49. 

  50. /** RTMP protocol handler state */

  51. typedef enum {

  52.     STATE_START,      ///< client has not done anything yet

  53.     STATE_HANDSHAKED, ///< client has performed handshake

  54.     STATE_RELEASING,  ///< client releasing stream before publish it (for output)

  55.     STATE_FCPUBLISH,  ///< client FCPublishing stream (for output)

  56.     STATE_CONNECTING, ///< client connected to server successfully

  57.     STATE_READY,      ///< client has sent all needed commands and waits for server reply

  58.     STATE_PLAYING,    ///< client has started receiving multimedia data from server

  59.     STATE_PUBLISHING, ///< client has started sending multimedia data to server (for output)

  60.     STATE_STOPPED,    ///< the broadcast has been stopped

  61. } ClientState;

  62. 

  63. /** protocol handler context */

  64. typedef struct RTMPContext {

  65.     const AVClass *class;

  66.     URLContext*   stream;                     ///< TCP stream used in interactions with RTMP server

  67.     RTMPPacket    prev_pkt[2][RTMP_CHANNELS]; ///< packet history used when reading and sending packets

  68.     int           chunk_size;                 ///< size of the chunks RTMP packets are divided into

  69.     int           is_input;                   ///< input/output flag

  70.     char          *playpath;                  ///< stream identifier to play (with possible "mp4:" prefix)

  71.     int           live;                       ///< 0: recorded, -1: live, -2: both

  72.     char          *app;                       ///< name of application

  73.     char          *conn;                      ///< append arbitrary AMF data to the Connect message

  74.     ClientState   state;                      ///< current state

  75.     int           main_channel_id;            ///< an additional channel ID which is used for some invocations

  76.     uint8_t*      flv_data;                   ///< buffer with data for demuxer

  77.     int           flv_size;                   ///< current buffer size

  78.     int           flv_off;                    ///< number of bytes read from current buffer

  79.     int           flv_nb_packets;             ///< number of flv packets published

  80.     RTMPPacket    out_pkt;                    ///< rtmp packet, created from flv a/v or metadata (for output)

  81.     uint32_t      client_report_size;         ///< number of bytes after which client should report to server

  82.     uint32_t      bytes_read;                 ///< number of bytes read from server

  83.     uint32_t      last_bytes_read;            ///< number of bytes read last reported to server

  84.     int           skip_bytes;                 ///< number of bytes to skip from the input FLV stream in the next write call

  85.     uint8_t       flv_header[11];             ///< partial incoming flv packet header

  86.     int           flv_header_bytes;           ///< number of initialized bytes in flv_header

  87.     int           nb_invokes;                 ///< keeps track of invoke messages

  88.     int           create_stream_invoke;       ///< invoke id for the create stream command

  89.     char*         tcurl;                      ///< url of the target stream

  90.     char*         flashver;                   ///< version of the flash plugin

  91.     char*         swfurl;                     ///< url of the swf player

  92.     int           server_bw;                  ///< server bandwidth

  93.     int           client_buffer_time;         ///< client buffer time in ms

  94.     int           flush_interval;             ///< number of packets flushed in the same request (RTMPT only)

  95. } RTMPContext;

  96. 

  97. #define PLAYER_KEY_OPEN_PART_LEN 30   ///< length of partial key used for first client digest signing

  98. /** Client key used for digest signing */

  99. static const uint8_t rtmp_player_key[] = {

  100.     'G', 'e', 'n', 'u', 'i', 'n', 'e', ' ', 'A', 'd', 'o', 'b', 'e', ' ',

  101.     'F', 'l', 'a', 's', 'h', ' ', 'P', 'l', 'a', 'y', 'e', 'r', ' ', '0', '0', '1',

  102. 

  103.     0xF0, 0xEE, 0xC2, 0x4A, 0x80, 0x68, 0xBE, 0xE8, 0x2E, 0x00, 0xD0, 0xD1, 0x02,

  104.     0x9E, 0x7E, 0x57, 0x6E, 0xEC, 0x5D, 0x2D, 0x29, 0x80, 0x6F, 0xAB, 0x93, 0xB8,

  105.     0xE6, 0x36, 0xCF, 0xEB, 0x31, 0xAE

  106. };

  107. 

  108. #define SERVER_KEY_OPEN_PART_LEN 36   ///< length of partial key used for first server digest signing

  109. /** Key used for RTMP server digest signing */

  110. static const uint8_t rtmp_server_key[] = {

  111.     'G', 'e', 'n', 'u', 'i', 'n', 'e', ' ', 'A', 'd', 'o', 'b', 'e', ' ',

  112.     'F', 'l', 'a', 's', 'h', ' ', 'M', 'e', 'd', 'i', 'a', ' ',

  113.     'S', 'e', 'r', 'v', 'e', 'r', ' ', '0', '0', '1',

  114. 

  115.     0xF0, 0xEE, 0xC2, 0x4A, 0x80, 0x68, 0xBE, 0xE8, 0x2E, 0x00, 0xD0, 0xD1, 0x02,

  116.     0x9E, 0x7E, 0x57, 0x6E, 0xEC, 0x5D, 0x2D, 0x29, 0x80, 0x6F, 0xAB, 0x93, 0xB8,

  117.     0xE6, 0x36, 0xCF, 0xEB, 0x31, 0xAE

  118. };

  119. 

  120. static int rtmp_write_amf_data(URLContext *s, char *param, uint8_t **p)

  121. {

  122.     char *field, *value;

  123.     char type;

  124. 

  125.     /* The type must be B for Boolean, N for number, S for string, O for

  126.      * object, or Z for null. For Booleans the data must be either 0 or 1 for

  127.      * FALSE or TRUE, respectively. Likewise for Objects the data must be

  128.      * 0 or 1 to end or begin an object, respectively. Data items in subobjects

  129.      * may be named, by prefixing the type with 'N' and specifying the name

  130.      * before the value (ie. NB:myFlag:1). This option may be used multiple times

  131.      * to construct arbitrary AMF sequences. */

  132.     if (param[0] && param[1] == ':') {

  133.         type = param[0];

  134.         value = param + 2;

  135.     } else if (param[0] == 'N' && param[1] && param[2] == ':') {

  136.         type = param[1];

  137.         field = param + 3;

  138.         value = strchr(field, ':');

  139.         if (!value)

  140.             goto fail;

  141.         *value = '\0';

  142.         value++;

  143. 

  144.         if (!field || !value)

  145.             goto fail;

  146. 

  147.         ff_amf_write_field_name(p, field);

  148.     } else {

  149.         goto fail;

  150.     }

  151. 

  152.     switch (type) {

  153.     case 'B':

  154.         ff_amf_write_bool(p, value[0] != '0');

  155.         break;

  156.     case 'S':

  157.         ff_amf_write_string(p, value);

  158.         break;

  159.     case 'N':

  160.         ff_amf_write_number(p, strtod(value, NULL));

  161.         break;

  162.     case 'Z':

  163.         ff_amf_write_null(p);

  164.         break;

  165.     case 'O':

  166.         if (value[0] != '0')

  167.             ff_amf_write_object_start(p);

  168.         else

  169.             ff_amf_write_object_end(p);

  170.         break;

  171.     default:

  172.         goto fail;

  173.         break;

  174.     }

  175. 

  176.     return 0;

  177. 

  178. fail:

  179.     av_log(s, AV_LOG_ERROR, "Invalid AMF parameter: %s\n", param);

  180.     return AVERROR(EINVAL);

  181. }

  182. 

  183. /**

  184.  * Generate 'connect' call and send it to the server.

  185.  */

  186. static int gen_connect(URLContext *s, RTMPContext *rt)

  187. {

  188.     RTMPPacket pkt;

  189.     uint8_t *p;

  190.     int ret;

  191. 

  192.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_SYSTEM_CHANNEL, RTMP_PT_INVOKE,

  193.                                      0, 4096)) < 0)

  194.         return ret;

  195. 

  196.     p = pkt.data;

  197. 

  198.     ff_amf_write_string(&p, "connect");

  199.     ff_amf_write_number(&p, ++rt->nb_invokes);

  200.     ff_amf_write_object_start(&p);

  201.     ff_amf_write_field_name(&p, "app");

  202.     ff_amf_write_string(&p, rt->app);

  203. 

  204.     if (!rt->is_input) {

  205.         ff_amf_write_field_name(&p, "type");

  206.         ff_amf_write_string(&p, "nonprivate");

  207.     }

  208.     ff_amf_write_field_name(&p, "flashVer");

  209.     ff_amf_write_string(&p, rt->flashver);

  210. 

  211.     if (rt->swfurl) {

  212.         ff_amf_write_field_name(&p, "swfUrl");

  213.         ff_amf_write_string(&p, rt->swfurl);

  214.     }

  215. 

  216.     ff_amf_write_field_name(&p, "tcUrl");

  217.     ff_amf_write_string(&p, rt->tcurl);

  218.     if (rt->is_input) {

  219.         ff_amf_write_field_name(&p, "fpad");

  220.         ff_amf_write_bool(&p, 0);

  221.         ff_amf_write_field_name(&p, "capabilities");

  222.         ff_amf_write_number(&p, 15.0);

  223. 

  224.         /* Tell the server we support all the audio codecs except

  225.          * SUPPORT_SND_INTEL (0x0008) and SUPPORT_SND_UNUSED (0x0010)

  226.          * which are unused in the RTMP protocol implementation. */

  227.         ff_amf_write_field_name(&p, "audioCodecs");

  228.         ff_amf_write_number(&p, 4071.0);

  229.         ff_amf_write_field_name(&p, "videoCodecs");

  230.         ff_amf_write_number(&p, 252.0);

  231.         ff_amf_write_field_name(&p, "videoFunction");

  232.         ff_amf_write_number(&p, 1.0);

  233.     }

  234.     ff_amf_write_object_end(&p);

  235. 

  236.     if (rt->conn) {

  237.         char *param = rt->conn;

  238. 

  239.         // Write arbitrary AMF data to the Connect message.

  240.         while (param != NULL) {

  241.             char *sep;

  242.             param += strspn(param, " ");

  243.             if (!*param)

  244.                 break;

  245.             sep = strchr(param, ' ');

  246.             if (sep)

  247.                 *sep = '\0';

  248.             if ((ret = rtmp_write_amf_data(s, param, &p)) < 0) {

  249.                 // Invalid AMF parameter.

  250.                 ff_rtmp_packet_destroy(&pkt);

  251.                 return ret;

  252.             }

  253. 

  254.             if (sep)

  255.                 param = sep + 1;

  256.             else

  257.                 break;

  258.         }

  259.     }

  260. 

  261.     pkt.data_size = p - pkt.data;

  262. 

  263.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  264.                                rt->prev_pkt[1]);

  265.     ff_rtmp_packet_destroy(&pkt);

  266. 

  267.     return ret;

  268. }

  269. 

  270. /**

  271.  * Generate 'releaseStream' call and send it to the server. It should make

  272.  * the server release some channel for media streams.

  273.  */

  274. static int gen_release_stream(URLContext *s, RTMPContext *rt)

  275. {

  276.     RTMPPacket pkt;

  277.     uint8_t *p;

  278.     int ret;

  279. 

  280.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_SYSTEM_CHANNEL, RTMP_PT_INVOKE,

  281.                                      0, 29 + strlen(rt->playpath))) < 0)

  282.         return ret;

  283. 

  284.     av_log(s, AV_LOG_DEBUG, "Releasing stream...\n");

  285.     p = pkt.data;

  286.     ff_amf_write_string(&p, "releaseStream");

  287.     ff_amf_write_number(&p, ++rt->nb_invokes);

  288.     ff_amf_write_null(&p);

  289.     ff_amf_write_string(&p, rt->playpath);

  290. 

  291.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  292.                                rt->prev_pkt[1]);

  293.     ff_rtmp_packet_destroy(&pkt);

  294. 

  295.     return ret;

  296. }

  297. 

  298. /**

  299.  * Generate 'FCPublish' call and send it to the server. It should make

  300.  * the server preapare for receiving media streams.

  301.  */

  302. static int gen_fcpublish_stream(URLContext *s, RTMPContext *rt)

  303. {

  304.     RTMPPacket pkt;

  305.     uint8_t *p;

  306.     int ret;

  307. 

  308.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_SYSTEM_CHANNEL, RTMP_PT_INVOKE,

  309.                                      0, 25 + strlen(rt->playpath))) < 0)

  310.         return ret;

  311. 

  312.     av_log(s, AV_LOG_DEBUG, "FCPublish stream...\n");

  313.     p = pkt.data;

  314.     ff_amf_write_string(&p, "FCPublish");

  315.     ff_amf_write_number(&p, ++rt->nb_invokes);

  316.     ff_amf_write_null(&p);

  317.     ff_amf_write_string(&p, rt->playpath);

  318. 

  319.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  320.                                rt->prev_pkt[1]);

  321.     ff_rtmp_packet_destroy(&pkt);

  322. 

  323.     return ret;

  324. }

  325. 

  326. /**

  327.  * Generate 'FCUnpublish' call and send it to the server. It should make

  328.  * the server destroy stream.

  329.  */

  330. static int gen_fcunpublish_stream(URLContext *s, RTMPContext *rt)

  331. {

  332.     RTMPPacket pkt;

  333.     uint8_t *p;

  334.     int ret;

  335. 

  336.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_SYSTEM_CHANNEL, RTMP_PT_INVOKE,

  337.                                      0, 27 + strlen(rt->playpath))) < 0)

  338.         return ret;

  339. 

  340.     av_log(s, AV_LOG_DEBUG, "UnPublishing stream...\n");

  341.     p = pkt.data;

  342.     ff_amf_write_string(&p, "FCUnpublish");

  343.     ff_amf_write_number(&p, ++rt->nb_invokes);

  344.     ff_amf_write_null(&p);

  345.     ff_amf_write_string(&p, rt->playpath);

  346. 

  347.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  348.                                rt->prev_pkt[1]);

  349.     ff_rtmp_packet_destroy(&pkt);

  350. 

  351.     return ret;

  352. }

  353. 

  354. /**

  355.  * Generate 'createStream' call and send it to the server. It should make

  356.  * the server allocate some channel for media streams.

  357.  */

  358. static int gen_create_stream(URLContext *s, RTMPContext *rt)

  359. {

  360.     RTMPPacket pkt;

  361.     uint8_t *p;

  362.     int ret;

  363. 

  364.     av_log(s, AV_LOG_DEBUG, "Creating stream...\n");

  365. 

  366.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_SYSTEM_CHANNEL, RTMP_PT_INVOKE,

  367.                                      0, 25)) < 0)

  368.         return ret;

  369. 

  370.     p = pkt.data;

  371.     ff_amf_write_string(&p, "createStream");

  372.     ff_amf_write_number(&p, ++rt->nb_invokes);

  373.     ff_amf_write_null(&p);

  374.     rt->create_stream_invoke = rt->nb_invokes;

  375. 

  376.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  377.                                rt->prev_pkt[1]);

  378.     ff_rtmp_packet_destroy(&pkt);

  379. 

  380.     return ret;

  381. }

  382. 

  383. 

  384. /**

  385.  * Generate 'deleteStream' call and send it to the server. It should make

  386.  * the server remove some channel for media streams.

  387.  */

  388. static int gen_delete_stream(URLContext *s, RTMPContext *rt)

  389. {

  390.     RTMPPacket pkt;

  391.     uint8_t *p;

  392.     int ret;

  393. 

  394.     av_log(s, AV_LOG_DEBUG, "Deleting stream...\n");

  395. 

  396.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_SYSTEM_CHANNEL, RTMP_PT_INVOKE,

  397.                                      0, 34)) < 0)

  398.         return ret;

  399. 

  400.     p = pkt.data;

  401.     ff_amf_write_string(&p, "deleteStream");

  402.     ff_amf_write_number(&p, ++rt->nb_invokes);

  403.     ff_amf_write_null(&p);

  404.     ff_amf_write_number(&p, rt->main_channel_id);

  405. 

  406.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  407.                                rt->prev_pkt[1]);

  408.     ff_rtmp_packet_destroy(&pkt);

  409. 

  410.     return ret;

  411. }

  412. 

  413. /**

  414.  * Generate client buffer time and send it to the server.

  415.  */

  416. static int gen_buffer_time(URLContext *s, RTMPContext *rt)

  417. {

  418.     RTMPPacket pkt;

  419.     uint8_t *p;

  420.     int ret;

  421. 

  422.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_NETWORK_CHANNEL, RTMP_PT_PING,

  423.                                      1, 10)) < 0)

  424.         return ret;

  425. 

  426.     p = pkt.data;

  427.     bytestream_put_be16(&p, 3);

  428.     bytestream_put_be32(&p, rt->main_channel_id);

  429.     bytestream_put_be32(&p, rt->client_buffer_time);

  430. 

  431.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  432.                                rt->prev_pkt[1]);

  433.     ff_rtmp_packet_destroy(&pkt);

  434. 

  435.     return ret;

  436. }

  437. 

  438. /**

  439.  * Generate 'play' call and send it to the server, then ping the server

  440.  * to start actual playing.

  441.  */

  442. static int gen_play(URLContext *s, RTMPContext *rt)

  443. {

  444.     RTMPPacket pkt;

  445.     uint8_t *p;

  446.     int ret;

  447. 

  448.     av_log(s, AV_LOG_DEBUG, "Sending play command for '%s'\n", rt->playpath);

  449. 

  450.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_VIDEO_CHANNEL, RTMP_PT_INVOKE,

  451.                                      0, 29 + strlen(rt->playpath))) < 0)

  452.         return ret;

  453. 

  454.     pkt.extra = rt->main_channel_id;

  455. 

  456.     p = pkt.data;

  457.     ff_amf_write_string(&p, "play");

  458.     ff_amf_write_number(&p, ++rt->nb_invokes);

  459.     ff_amf_write_null(&p);

  460.     ff_amf_write_string(&p, rt->playpath);

  461.     ff_amf_write_number(&p, rt->live);

  462. 

  463.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  464.                                rt->prev_pkt[1]);

  465.     ff_rtmp_packet_destroy(&pkt);

  466. 

  467.     return ret;

  468. }

  469. 

  470. /**

  471.  * Generate 'publish' call and send it to the server.

  472.  */

  473. static int gen_publish(URLContext *s, RTMPContext *rt)

  474. {

  475.     RTMPPacket pkt;

  476.     uint8_t *p;

  477.     int ret;

  478. 

  479.     av_log(s, AV_LOG_DEBUG, "Sending publish command for '%s'\n", rt->playpath);

  480. 

  481.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_SOURCE_CHANNEL, RTMP_PT_INVOKE,

  482.                                      0, 30 + strlen(rt->playpath))) < 0)

  483.         return ret;

  484. 

  485.     pkt.extra = rt->main_channel_id;

  486. 

  487.     p = pkt.data;

  488.     ff_amf_write_string(&p, "publish");

  489.     ff_amf_write_number(&p, ++rt->nb_invokes);

  490.     ff_amf_write_null(&p);

  491.     ff_amf_write_string(&p, rt->playpath);

  492.     ff_amf_write_string(&p, "live");

  493. 

  494.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  495.                                rt->prev_pkt[1]);

  496.     ff_rtmp_packet_destroy(&pkt);

  497. 

  498.     return ret;

  499. }

  500. 

  501. /**

  502.  * Generate ping reply and send it to the server.

  503.  */

  504. static int gen_pong(URLContext *s, RTMPContext *rt, RTMPPacket *ppkt)

  505. {

  506.     RTMPPacket pkt;

  507.     uint8_t *p;

  508.     int ret;

  509. 

  510.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_NETWORK_CHANNEL, RTMP_PT_PING,

  511.                                      ppkt->timestamp + 1, 6)) < 0)

  512.         return ret;

  513. 

  514.     p = pkt.data;

  515.     bytestream_put_be16(&p, 7);

  516.     bytestream_put_be32(&p, AV_RB32(ppkt->data+2));

  517.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  518.                                rt->prev_pkt[1]);

  519.     ff_rtmp_packet_destroy(&pkt);

  520. 

  521.     return ret;

  522. }

  523. 

  524. /**

  525.  * Generate server bandwidth message and send it to the server.

  526.  */

  527. static int gen_server_bw(URLContext *s, RTMPContext *rt)

  528. {

  529.     RTMPPacket pkt;

  530.     uint8_t *p;

  531.     int ret;

  532. 

  533.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_NETWORK_CHANNEL, RTMP_PT_SERVER_BW,

  534.                                      0, 4)) < 0)

  535.         return ret;

  536. 

  537.     p = pkt.data;

  538.     bytestream_put_be32(&p, rt->server_bw);

  539.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  540.                                rt->prev_pkt[1]);

  541.     ff_rtmp_packet_destroy(&pkt);

  542. 

  543.     return ret;

  544. }

  545. 

  546. /**

  547.  * Generate check bandwidth message and send it to the server.

  548.  */

  549. static int gen_check_bw(URLContext *s, RTMPContext *rt)

  550. {

  551.     RTMPPacket pkt;

  552.     uint8_t *p;

  553.     int ret;

  554. 

  555.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_SYSTEM_CHANNEL, RTMP_PT_INVOKE,

  556.                                      0, 21)) < 0)

  557.         return ret;

  558. 

  559.     p = pkt.data;

  560.     ff_amf_write_string(&p, "_checkbw");

  561.     ff_amf_write_number(&p, ++rt->nb_invokes);

  562.     ff_amf_write_null(&p);

  563. 

  564.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  565.                                rt->prev_pkt[1]);

  566.     ff_rtmp_packet_destroy(&pkt);

  567. 

  568.     return ret;

  569. }

  570. 

  571. /**

  572.  * Generate report on bytes read so far and send it to the server.

  573.  */

  574. static int gen_bytes_read(URLContext *s, RTMPContext *rt, uint32_t ts)

  575. {

  576.     RTMPPacket pkt;

  577.     uint8_t *p;

  578.     int ret;

  579. 

  580.     if ((ret = ff_rtmp_packet_create(&pkt, RTMP_NETWORK_CHANNEL, RTMP_PT_BYTES_READ,

  581.                                      ts, 4)) < 0)

  582.         return ret;

  583. 

  584.     p = pkt.data;

  585.     bytestream_put_be32(&p, rt->bytes_read);

  586.     ret = ff_rtmp_packet_write(rt->stream, &pkt, rt->chunk_size,

  587.                                rt->prev_pkt[1]);

  588.     ff_rtmp_packet_destroy(&pkt);

  589. 

  590.     return ret;

  591. }

  592. 

  593. //TODO: Move HMAC code somewhere. Eventually.

  594. #define HMAC_IPAD_VAL 0x36

  595. #define HMAC_OPAD_VAL 0x5C

  596. 

  597. /**

  598.  * Calculate HMAC-SHA2 digest for RTMP handshake packets.

  599.  *

  600.  * @param src    input buffer

  601.  * @param len    input buffer length (should be 1536)

  602.  * @param gap    offset in buffer where 32 bytes should not be taken into account

  603.  *               when calculating digest (since it will be used to store that digest)

  604.  * @param key    digest key

  605.  * @param keylen digest key length

  606.  * @param dst    buffer where calculated digest will be stored (32 bytes)

  607.  */

  608. static int rtmp_calc_digest(const uint8_t *src, int len, int gap,

  609.                             const uint8_t *key, int keylen, uint8_t *dst)

  610. {

  611.     struct AVSHA *sha;

  612.     uint8_t hmac_buf[64+32] = {0};

  613.     int i;

  614. 

  615.     sha = av_mallocz(av_sha_size);

  616.     if (!sha)

  617.         return AVERROR(ENOMEM);

  618. 

  619.     if (keylen < 64) {

  620.         memcpy(hmac_buf, key, keylen);

  621.     } else {

  622.         av_sha_init(sha, 256);

  623.         av_sha_update(sha,key, keylen);

  624.         av_sha_final(sha, hmac_buf);

  625.     }

  626.     for (i = 0; i < 64; i++)

  627.         hmac_buf[i] ^= HMAC_IPAD_VAL;

  628. 

  629.     av_sha_init(sha, 256);

  630.     av_sha_update(sha, hmac_buf, 64);

  631.     if (gap <= 0) {

  632.         av_sha_update(sha, src, len);

  633.     } else { //skip 32 bytes used for storing digest

  634.         av_sha_update(sha, src, gap);

  635.         av_sha_update(sha, src + gap + 32, len - gap - 32);

  636.     }

  637.     av_sha_final(sha, hmac_buf + 64);

  638. 

  639.     for (i = 0; i < 64; i++)

  640.         hmac_buf[i] ^= HMAC_IPAD_VAL ^ HMAC_OPAD_VAL; //reuse XORed key for opad

  641.     av_sha_init(sha, 256);

  642.     av_sha_update(sha, hmac_buf, 64+32);

  643.     av_sha_final(sha, dst);

  644. 

  645.     av_free(sha);

  646. 

  647.     return 0;

  648. }

  649. 

  650. /**

  651.  * Put HMAC-SHA2 digest of packet data (except for the bytes where this digest

  652.  * will be stored) into that packet.

  653.  *

  654.  * @param buf handshake data (1536 bytes)

  655.  * @return offset to the digest inside input data

  656.  */

  657. static int rtmp_handshake_imprint_with_digest(uint8_t *buf)

  658. {

  659.     int i, digest_pos = 0;

  660.     int ret;

  661. 

  662.     for (i = 8; i < 12; i++)

  663.         digest_pos += buf[i];

  664.     digest_pos = (digest_pos % 728) + 12;

  665. 

  666.     ret = rtmp_calc_digest(buf, RTMP_HANDSHAKE_PACKET_SIZE, digest_pos,

  667.                            rtmp_player_key, PLAYER_KEY_OPEN_PART_LEN,

  668.                            buf + digest_pos);

  669.     if (ret < 0)

  670.         return ret;

  671. 

  672.     return digest_pos;

  673. }

  674. 

  675. /**

  676.  * Verify that the received server response has the expected digest value.

  677.  *

  678.  * @param buf handshake data received from the server (1536 bytes)

  679.  * @param off position to search digest offset from

  680.  * @return 0 if digest is valid, digest position otherwise

  681.  */

  682. static int rtmp_validate_digest(uint8_t *buf, int off)

  683. {

  684.     int i, digest_pos = 0;

  685.     uint8_t digest[32];

  686.     int ret;

  687. 

  688.     for (i = 0; i < 4; i++)

  689.         digest_pos += buf[i + off];

  690.     digest_pos = (digest_pos % 728) + off + 4;

  691. 

  692.     ret = rtmp_calc_digest(buf, RTMP_HANDSHAKE_PACKET_SIZE, digest_pos,

  693.                            rtmp_server_key, SERVER_KEY_OPEN_PART_LEN,

  694.                            digest);

  695.     if (ret < 0)

  696.         return ret;

  697. 

  698.     if (!memcmp(digest, buf + digest_pos, 32))

  699.         return digest_pos;

  700.     return 0;

  701. }

  702. 

  703. /**

  704.  * Perform handshake with the server by means of exchanging pseudorandom data

  705.  * signed with HMAC-SHA2 digest.

  706.  *

  707.  * @return 0 if handshake succeeds, negative value otherwise

  708.  */

  709. static int rtmp_handshake(URLContext *s, RTMPContext *rt)

  710. {

  711.     AVLFG rnd;

  712.     uint8_t tosend    [RTMP_HANDSHAKE_PACKET_SIZE+1] = {

  713.         3,                // unencrypted data

  714.         0, 0, 0, 0,       // client uptime

  715.         RTMP_CLIENT_VER1,

  716.         RTMP_CLIENT_VER2,

  717.         RTMP_CLIENT_VER3,

  718.         RTMP_CLIENT_VER4,

  719.     };

  720.     uint8_t clientdata[RTMP_HANDSHAKE_PACKET_SIZE];

  721.     uint8_t serverdata[RTMP_HANDSHAKE_PACKET_SIZE+1];

  722.     int i;

  723.     int server_pos, client_pos;

  724.     uint8_t digest[32];

  725.     int ret;

  726. 

  727.     av_log(s, AV_LOG_DEBUG, "Handshaking...\n");

  728. 

  729.     av_lfg_init(&rnd, 0xDEADC0DE);

  730.     // generate handshake packet - 1536 bytes of pseudorandom data

  731.     for (i = 9; i <= RTMP_HANDSHAKE_PACKET_SIZE; i++)

  732.         tosend[i] = av_lfg_get(&rnd) >> 24;

  733.     client_pos = rtmp_handshake_imprint_with_digest(tosend + 1);

  734.     if (client_pos < 0)

  735.         return client_pos;

  736. 

  737.     if ((ret = ffurl_write(rt->stream, tosend,

  738.                            RTMP_HANDSHAKE_PACKET_SIZE + 1)) < 0) {

  739.         av_log(s, AV_LOG_ERROR, "Cannot write RTMP handshake request\n");

  740.         return ret;

  741.     }

  742. 

  743.     if ((ret = ffurl_read_complete(rt->stream, serverdata,

  744.                                    RTMP_HANDSHAKE_PACKET_SIZE + 1)) < 0) {

  745.         av_log(s, AV_LOG_ERROR, "Cannot read RTMP handshake response\n");

  746.         return ret;

  747.     }

  748. 

  749.     if ((ret = ffurl_read_complete(rt->stream, clientdata,

  750.                                    RTMP_HANDSHAKE_PACKET_SIZE)) < 0) {

  751.         av_log(s, AV_LOG_ERROR, "Cannot read RTMP handshake response\n");

  752.         return ret;

  753.     }

  754. 

  755.     av_log(s, AV_LOG_DEBUG, "Server version %d.%d.%d.%d\n",

  756.            serverdata[5], serverdata[6], serverdata[7], serverdata[8]);

  757. 

  758.     if (rt->is_input && serverdata[5] >= 3) {

  759.         server_pos = rtmp_validate_digest(serverdata + 1, 772);

  760.         if (server_pos < 0)

  761.             return server_pos;

  762. 

  763.         if (!server_pos) {

  764.             server_pos = rtmp_validate_digest(serverdata + 1, 8);

  765.             if (server_pos < 0)

  766.                 return server_pos;

  767. 

  768.             if (!server_pos) {

  769.                 av_log(s, AV_LOG_ERROR, "Server response validating failed\n");

  770.                 return AVERROR(EIO);

  771.             }

  772.         }

  773. 

  774.         ret = rtmp_calc_digest(tosend + 1 + client_pos, 32, 0, rtmp_server_key,

  775.                                sizeof(rtmp_server_key), digest);

  776.         if (ret < 0)

  777.             return ret;

  778. 

  779.         ret = rtmp_calc_digest(clientdata, RTMP_HANDSHAKE_PACKET_SIZE - 32, 0,

  780.                                digest, 32, digest);

  781.         if (ret < 0)

  782.             return ret;

  783. 

  784.         if (memcmp(digest, clientdata + RTMP_HANDSHAKE_PACKET_SIZE - 32, 32)) {

  785.             av_log(s, AV_LOG_ERROR, "Signature mismatch\n");

  786.             return AVERROR(EIO);

  787.         }

  788. 

  789.         for (i = 0; i < RTMP_HANDSHAKE_PACKET_SIZE; i++)

  790.             tosend[i] = av_lfg_get(&rnd) >> 24;

  791.         ret = rtmp_calc_digest(serverdata + 1 + server_pos, 32, 0,

  792.                                rtmp_player_key, sizeof(rtmp_player_key),

  793.                                digest);

  794.         if (ret < 0)

  795.             return ret;

  796. 

  797.         ret = rtmp_calc_digest(tosend, RTMP_HANDSHAKE_PACKET_SIZE - 32, 0,

  798.                                digest, 32,

  799.                                tosend + RTMP_HANDSHAKE_PACKET_SIZE - 32);

  800.         if (ret < 0)

  801.             return ret;

  802. 

  803.         // write reply back to the server

  804.         if ((ret = ffurl_write(rt->stream, tosend,

  805.                                RTMP_HANDSHAKE_PACKET_SIZE)) < 0)

  806.             return ret;

  807.     } else {

  808.         if ((ret = ffurl_write(rt->stream, serverdata + 1,

  809.                                RTMP_HANDSHAKE_PACKET_SIZE)) < 0)

  810.             return ret;

  811.     }

  812. 

  813.     return 0;

  814. }

  815. 

  816. /**

  817.  * Parse received packet and possibly perform some action depending on

  818.  * the packet contents.

  819.  * @return 0 for no errors, negative values for serious errors which prevent

  820.  *         further communications, positive values for uncritical errors

  821.  */

  822. static int rtmp_parse_result(URLContext *s, RTMPContext *rt, RTMPPacket *pkt)

  823. {

  824.     int i, t;

  825.     const uint8_t *data_end = pkt->data + pkt->data_size;

  826.     int ret;

  827. 

  828. #ifdef DEBUG

  829.     ff_rtmp_packet_dump(s, pkt);

  830. #endif

  831. 

  832.     switch (pkt->type) {

  833.     case RTMP_PT_CHUNK_SIZE:

  834.         if (pkt->data_size != 4) {

  835.             av_log(s, AV_LOG_ERROR,

  836.                    "Chunk size change packet is not 4 bytes long (%d)\n", pkt->data_size);

  837.             return -1;

  838.         }

  839.         if (!rt->is_input)

  840.             if ((ret = ff_rtmp_packet_write(rt->stream, pkt, rt->chunk_size,

  841.                                             rt->prev_pkt[1])) < 0)

  842.                 return ret;

  843.         rt->chunk_size = AV_RB32(pkt->data);

  844.         if (rt->chunk_size <= 0) {

  845.             av_log(s, AV_LOG_ERROR, "Incorrect chunk size %d\n", rt->chunk_size);

  846.             return -1;

  847.         }

  848.         av_log(s, AV_LOG_DEBUG, "New chunk size = %d\n", rt->chunk_size);

  849.         break;

  850.     case RTMP_PT_PING:

  851.         t = AV_RB16(pkt->data);

  852.         if (t == 6)

  853.             if ((ret = gen_pong(s, rt, pkt)) < 0)

  854.                 return ret;

  855.         break;

  856.     case RTMP_PT_CLIENT_BW:

  857.         if (pkt->data_size < 4) {

  858.             av_log(s, AV_LOG_ERROR,

  859.                    "Client bandwidth report packet is less than 4 bytes long (%d)\n",

  860.                    pkt->data_size);

  861.             return -1;

  862.         }

  863.         av_log(s, AV_LOG_DEBUG, "Client bandwidth = %d\n", AV_RB32(pkt->data));

  864.         rt->client_report_size = AV_RB32(pkt->data) >> 1;

  865.         break;

  866.     case RTMP_PT_SERVER_BW:

  867.         rt->server_bw = AV_RB32(pkt->data);

  868.         if (rt->server_bw <= 0) {

  869.             av_log(s, AV_LOG_ERROR, "Incorrect server bandwidth %d\n", rt->server_bw);

  870.             return AVERROR(EINVAL);

  871.         }

  872.         av_log(s, AV_LOG_DEBUG, "Server bandwidth = %d\n", rt->server_bw);

  873.         break;

  874.     case RTMP_PT_INVOKE:

  875.         //TODO: check for the messages sent for wrong state?

  876.         if (!memcmp(pkt->data, "\002\000\006_error", 9)) {

  877.             uint8_t tmpstr[256];

  878. 

  879.             if (!ff_amf_get_field_value(pkt->data + 9, data_end,

  880.                                         "description", tmpstr, sizeof(tmpstr)))

  881.                 av_log(s, AV_LOG_ERROR, "Server error: %s\n",tmpstr);

  882.             return -1;

  883.         } else if (!memcmp(pkt->data, "\002\000\007_result", 10)) {

  884.             switch (rt->state) {

  885.             case STATE_HANDSHAKED:

  886.                 if (!rt->is_input) {

  887.                     if ((ret = gen_release_stream(s, rt)) < 0)

  888.                         return ret;

  889.                     if ((ret = gen_fcpublish_stream(s, rt)) < 0)

  890.                         return ret;

  891.                     rt->state = STATE_RELEASING;

  892.                 } else {

  893.                     if ((ret = gen_server_bw(s, rt)) < 0)

  894.                         return ret;

  895.                     rt->state = STATE_CONNECTING;

  896.                 }

  897.                 if ((ret = gen_create_stream(s, rt)) < 0)

  898.                     return ret;

  899.                 break;

  900.             case STATE_FCPUBLISH:

  901.                 rt->state = STATE_CONNECTING;

  902.                 break;

  903.             case STATE_RELEASING:

  904.                 rt->state = STATE_FCPUBLISH;

  905.                 /* hack for Wowza Media Server, it does not send result for

  906.                  * releaseStream and FCPublish calls */

  907.                 if (!pkt->data[10]) {

  908.                     int pkt_id = av_int2double(AV_RB64(pkt->data + 11));

  909.                     if (pkt_id == rt->create_stream_invoke)

  910.                         rt->state = STATE_CONNECTING;

  911.                 }

  912.                 if (rt->state != STATE_CONNECTING)

  913.                     break;

  914.             case STATE_CONNECTING:

  915.                 //extract a number from the result

  916.                 if (pkt->data[10] || pkt->data[19] != 5 || pkt->data[20]) {

  917.                     av_log(s, AV_LOG_WARNING, "Unexpected reply on connect()\n");

  918.                 } else {

  919.                     rt->main_channel_id = av_int2double(AV_RB64(pkt->data + 21));

  920.                 }

  921.                 if (rt->is_input) {

  922.                     if ((ret = gen_play(s, rt)) < 0)

  923.                         return ret;

  924.                     if ((ret = gen_buffer_time(s, rt)) < 0)

  925.                         return ret;

  926.                 } else {

  927.                     if ((ret = gen_publish(s, rt)) < 0)

  928.                         return ret;

  929.                 }

  930.                 rt->state = STATE_READY;

  931.                 break;

  932.             }

  933.         } else if (!memcmp(pkt->data, "\002\000\010onStatus", 11)) {

  934.             const uint8_t* ptr = pkt->data + 11;

  935.             uint8_t tmpstr[256];

  936. 

  937.             for (i = 0; i < 2; i++) {

  938.                 t = ff_amf_tag_size(ptr, data_end);

  939.                 if (t < 0)

  940.                     return 1;

  941.                 ptr += t;

  942.             }

  943.             t = ff_amf_get_field_value(ptr, data_end,

  944.                                        "level", tmpstr, sizeof(tmpstr));

  945.             if (!t && !strcmp(tmpstr, "error")) {

  946.                 if (!ff_amf_get_field_value(ptr, data_end,

  947.                                             "description", tmpstr, sizeof(tmpstr)))

  948.                     av_log(s, AV_LOG_ERROR, "Server error: %s\n",tmpstr);

  949.                 return -1;

  950.             }

  951.             t = ff_amf_get_field_value(ptr, data_end,

  952.                                        "code", tmpstr, sizeof(tmpstr));

  953.             if (!t && !strcmp(tmpstr, "NetStream.Play.Start")) rt->state = STATE_PLAYING;

  954.             if (!t && !strcmp(tmpstr, "NetStream.Play.Stop")) rt->state = STATE_STOPPED;

  955.             if (!t && !strcmp(tmpstr, "NetStream.Play.UnpublishNotify")) rt->state = STATE_STOPPED;

  956.             if (!t && !strcmp(tmpstr, "NetStream.Publish.Start")) rt->state = STATE_PUBLISHING;

  957.         } else if (!memcmp(pkt->data, "\002\000\010onBWDone", 11)) {

  958.             if ((ret = gen_check_bw(s, rt)) < 0)

  959.                 return ret;

  960.         }

  961.         break;

  962.     default:

  963.         av_log(s, AV_LOG_VERBOSE, "Unknown packet type received 0x%02X\n", pkt->type);

  964.         break;

  965.     }

  966.     return 0;

  967. }

  968. 

  969. /**

  970.  * Interact with the server by receiving and sending RTMP packets until

  971.  * there is some significant data (media data or expected status notification).

  972.  *

  973.  * @param s          reading context

  974.  * @param for_header non-zero value tells function to work until it

  975.  * gets notification from the server that playing has been started,

  976.  * otherwise function will work until some media data is received (or

  977.  * an error happens)

  978.  * @return 0 for successful operation, negative value in case of error

  979.  */

  980. static int get_packet(URLContext *s, int for_header)

  981. {

  982.     RTMPContext *rt = s->priv_data;

  983.     int ret;

  984.     uint8_t *p;

  985.     const uint8_t *next;

  986.     uint32_t data_size;

  987.     uint32_t ts, cts, pts=0;

  988. 

  989.     if (rt->state == STATE_STOPPED)

  990.         return AVERROR_EOF;

  991. 

  992.     for (;;) {

  993.         RTMPPacket rpkt = { 0 };

  994.         if ((ret = ff_rtmp_packet_read(rt->stream, &rpkt,

  995.                                        rt->chunk_size, rt->prev_pkt[0])) <= 0) {

  996.             if (ret == 0) {

  997.                 return AVERROR(EAGAIN);

  998.             } else {

  999.                 return AVERROR(EIO);

  1000.             }

  1001.         }

  1002.         rt->bytes_read += ret;

  1003.         if (rt->bytes_read > rt->last_bytes_read + rt->client_report_size) {

  1004.             av_log(s, AV_LOG_DEBUG, "Sending bytes read report\n");

  1005.             if ((ret = gen_bytes_read(s, rt, rpkt.timestamp + 1)) < 0)

  1006.                 return ret;

  1007.             rt->last_bytes_read = rt->bytes_read;

  1008.         }

  1009. 

  1010.         ret = rtmp_parse_result(s, rt, &rpkt);

  1011.         if (ret < 0) {//serious error in current packet

  1012.             ff_rtmp_packet_destroy(&rpkt);

  1013.             return ret;

  1014.         }

  1015.         if (rt->state == STATE_STOPPED) {

  1016.             ff_rtmp_packet_destroy(&rpkt);

  1017.             return AVERROR_EOF;

  1018.         }

  1019.         if (for_header && (rt->state == STATE_PLAYING || rt->state == STATE_PUBLISHING)) {

  1020.             ff_rtmp_packet_destroy(&rpkt);

  1021.             return 0;

  1022.         }

  1023.         if (!rpkt.data_size || !rt->is_input) {

  1024.             ff_rtmp_packet_destroy(&rpkt);

  1025.             continue;

  1026.         }

  1027.         if (rpkt.type == RTMP_PT_VIDEO || rpkt.type == RTMP_PT_AUDIO ||

  1028.            (rpkt.type == RTMP_PT_NOTIFY && !memcmp("\002\000\012onMetaData", rpkt.data, 13))) {

  1029.             ts = rpkt.timestamp;

  1030. 

  1031.             // generate packet header and put data into buffer for FLV demuxer

  1032.             rt->flv_off  = 0;

  1033.             rt->flv_size = rpkt.data_size + 15;

  1034.             rt->flv_data = p = av_realloc(rt->flv_data, rt->flv_size);

  1035.             bytestream_put_byte(&p, rpkt.type);

  1036.             bytestream_put_be24(&p, rpkt.data_size);

  1037.             bytestream_put_be24(&p, ts);

  1038.             bytestream_put_byte(&p, ts >> 24);

  1039.             bytestream_put_be24(&p, 0);

  1040.             bytestream_put_buffer(&p, rpkt.data, rpkt.data_size);

  1041.             bytestream_put_be32(&p, 0);

  1042.             ff_rtmp_packet_destroy(&rpkt);

  1043.             return 0;

  1044.         } else if (rpkt.type == RTMP_PT_METADATA) {

  1045.             // we got raw FLV data, make it available for FLV demuxer

  1046.             rt->flv_off  = 0;

  1047.             rt->flv_size = rpkt.data_size;

  1048.             rt->flv_data = av_realloc(rt->flv_data, rt->flv_size);

  1049.             /* rewrite timestamps */

  1050.             next = rpkt.data;

  1051.             ts = rpkt.timestamp;

  1052.             while (next - rpkt.data < rpkt.data_size - 11) {

  1053.                 next++;

  1054.                 data_size = bytestream_get_be24(&next);

  1055.                 p=next;

  1056.                 cts = bytestream_get_be24(&next);

  1057.                 cts |= bytestream_get_byte(&next) << 24;

  1058.                 if (pts==0)

  1059.                     pts=cts;

  1060.                 ts += cts - pts;

  1061.                 pts = cts;

  1062.                 bytestream_put_be24(&p, ts);

  1063.                 bytestream_put_byte(&p, ts >> 24);

  1064.                 next += data_size + 3 + 4;

  1065.             }

  1066.             memcpy(rt->flv_data, rpkt.data, rpkt.data_size);

  1067.             ff_rtmp_packet_destroy(&rpkt);

  1068.             return 0;

  1069.         }

  1070.         ff_rtmp_packet_destroy(&rpkt);

  1071.     }

  1072. }

  1073. 

  1074. static int rtmp_close(URLContext *h)

  1075. {

  1076.     RTMPContext *rt = h->priv_data;

  1077.     int ret = 0;

  1078. 

  1079.     if (!rt->is_input) {

  1080.         rt->flv_data = NULL;

  1081.         if (rt->out_pkt.data_size)

  1082.             ff_rtmp_packet_destroy(&rt->out_pkt);

  1083.         if (rt->state > STATE_FCPUBLISH)

  1084.             ret = gen_fcunpublish_stream(h, rt);

  1085.     }

  1086.     if (rt->state > STATE_HANDSHAKED)

  1087.         ret = gen_delete_stream(h, rt);

  1088. 

  1089.     av_freep(&rt->flv_data);

  1090.     ffurl_close(rt->stream);

  1091.     return ret;

  1092. }

  1093. 

  1094. /**

  1095.  * Open RTMP connection and verify that the stream can be played.

  1096.  *

  1097.  * URL syntax: rtmp://server[:port][/app][/playpath]

  1098.  *             where 'app' is first one or two directories in the path

  1099.  *             (e.g. /ondemand/, /flash/live/, etc.)

  1100.  *             and 'playpath' is a file name (the rest of the path,

  1101.  *             may be prefixed with "mp4:")

  1102.  */

  1103. static int rtmp_open(URLContext *s, const char *uri, int flags)

  1104. {

  1105.     RTMPContext *rt = s->priv_data;

  1106.     char proto[8], hostname[256], path[1024], *fname;

  1107.     char *old_app;

  1108.     uint8_t buf[2048];

  1109.     int port;

  1110.     int ret;

  1111. 

  1112.     rt->is_input = !(flags & AVIO_FLAG_WRITE);

  1113. 

  1114.     av_url_split(proto, sizeof(proto), NULL, 0, hostname, sizeof(hostname), &port,

  1115.                  path, sizeof(path), s->filename);

  1116. 

  1117.     if (!strcmp(proto, "rtmpt")) {

  1118.         /* open the http tunneling connection */

  1119.         ff_url_join(buf, sizeof(buf), "rtmphttp", NULL, hostname, port, NULL);

  1120.     } else {

  1121.         /* open the tcp connection */

  1122.         if (port < 0)

  1123.             port = RTMP_DEFAULT_PORT;

  1124.         ff_url_join(buf, sizeof(buf), "tcp", NULL, hostname, port, NULL);

  1125.     }

  1126. 

  1127.     if ((ret = ffurl_open(&rt->stream, buf, AVIO_FLAG_READ_WRITE,

  1128.                           &s->interrupt_callback, NULL)) < 0) {

  1129.         av_log(s , AV_LOG_ERROR, "Cannot open connection %s\n", buf);

  1130.         goto fail;

  1131.     }

  1132. 

  1133.     rt->state = STATE_START;

  1134.     if ((ret = rtmp_handshake(s, rt)) < 0)

  1135.         goto fail;

  1136. 

  1137.     rt->chunk_size = 128;

  1138.     rt->state = STATE_HANDSHAKED;

  1139. 

  1140.     // Keep the application name when it has been defined by the user.

  1141.     old_app = rt->app;

  1142. 

  1143.     rt->app = av_malloc(APP_MAX_LENGTH);

  1144.     if (!rt->app) {

  1145.         ret = AVERROR(ENOMEM);

  1146.         goto fail;

  1147.     }

  1148. 

  1149.     //extract "app" part from path

  1150.     if (!strncmp(path, "/ondemand/", 10)) {

  1151.         fname = path + 10;

  1152.         memcpy(rt->app, "ondemand", 9);

  1153.     } else {

  1154.         char *next = *path ? path + 1 : path;

  1155.         char *p = strchr(next, '/');

  1156.         if (!p) {

  1157.             fname = next;

  1158.             rt->app[0] = '\0';

  1159.         } else {

  1160.             // make sure we do not mismatch a playpath for an application instance

  1161.             char *c = strchr(p + 1, ':');

  1162.             fname = strchr(p + 1, '/');

  1163.             if (!fname || (c && c < fname)) {

  1164.                 fname = p + 1;

  1165.                 av_strlcpy(rt->app, path + 1, p - path);

  1166.             } else {

  1167.                 fname++;

  1168.                 av_strlcpy(rt->app, path + 1, fname - path - 1);

  1169.             }

  1170.         }

  1171.     }

  1172. 

  1173.     if (old_app) {

  1174.         // The name of application has been defined by the user, override it.

  1175.         av_free(rt->app);

  1176.         rt->app = old_app;

  1177.     }

  1178. 

  1179.     if (!rt->playpath) {

  1180.         int len = strlen(fname);

  1181. 

  1182.         rt->playpath = av_malloc(PLAYPATH_MAX_LENGTH);

  1183.         if (!rt->playpath) {

  1184.             ret = AVERROR(ENOMEM);

  1185.             goto fail;

  1186.         }

  1187. 

  1188.         if (!strchr(fname, ':') && len >= 4 &&

  1189.             (!strcmp(fname + len - 4, ".f4v") ||

  1190.              !strcmp(fname + len - 4, ".mp4"))) {

  1191.             memcpy(rt->playpath, "mp4:", 5);

  1192.         } else if (len >= 4 && !strcmp(fname + len - 4, ".flv")) {

  1193.             fname[len - 4] = '\0';

  1194.         } else {

  1195.             rt->playpath[0] = 0;

  1196.         }

  1197.         strncat(rt->playpath, fname, PLAYPATH_MAX_LENGTH - 5);

  1198.     }

  1199. 

  1200.     if (!rt->tcurl) {

  1201.         rt->tcurl = av_malloc(TCURL_MAX_LENGTH);

  1202.         if (!rt->tcurl) {

  1203.             ret = AVERROR(ENOMEM);

  1204.             goto fail;

  1205.         }

  1206.         ff_url_join(rt->tcurl, TCURL_MAX_LENGTH, proto, NULL, hostname,

  1207.                     port, "/%s", rt->app);

  1208.     }

  1209. 

  1210.     if (!rt->flashver) {

  1211.         rt->flashver = av_malloc(FLASHVER_MAX_LENGTH);

  1212.         if (!rt->flashver) {

  1213.             ret = AVERROR(ENOMEM);

  1214.             goto fail;

  1215.         }

  1216.         if (rt->is_input) {

  1217.             snprintf(rt->flashver, FLASHVER_MAX_LENGTH, "%s %d,%d,%d,%d",

  1218.                     RTMP_CLIENT_PLATFORM, RTMP_CLIENT_VER1, RTMP_CLIENT_VER2,

  1219.                     RTMP_CLIENT_VER3, RTMP_CLIENT_VER4);

  1220.         } else {

  1221.             snprintf(rt->flashver, FLASHVER_MAX_LENGTH,

  1222.                     "FMLE/3.0 (compatible; %s)", LIBAVFORMAT_IDENT);

  1223.         }

  1224.     }

  1225. 

  1226.     rt->client_report_size = 1048576;

  1227.     rt->bytes_read = 0;

  1228.     rt->last_bytes_read = 0;

  1229.     rt->server_bw = 2500000;

  1230. 

  1231.     av_log(s, AV_LOG_DEBUG, "Proto = %s, path = %s, app = %s, fname = %s\n",

  1232.            proto, path, rt->app, rt->playpath);

  1233.     if ((ret = gen_connect(s, rt)) < 0)

  1234.         goto fail;

  1235. 

  1236.     do {

  1237.         ret = get_packet(s, 1);

  1238.     } while (ret == EAGAIN);

  1239.     if (ret < 0)

  1240.         goto fail;

  1241. 

  1242.     if (rt->is_input) {

  1243.         // generate FLV header for demuxer

  1244.         rt->flv_size = 13;

  1245.         rt->flv_data = av_realloc(rt->flv_data, rt->flv_size);

  1246.         rt->flv_off  = 0;

  1247.         memcpy(rt->flv_data, "FLV\1\5\0\0\0\011\0\0\0\0", rt->flv_size);

  1248.     } else {

  1249.         rt->flv_size = 0;

  1250.         rt->flv_data = NULL;

  1251.         rt->flv_off  = 0;

  1252.         rt->skip_bytes = 13;

  1253.     }

  1254. 

  1255.     s->max_packet_size = rt->stream->max_packet_size;

  1256.     s->is_streamed     = 1;

  1257.     return 0;

  1258. 

  1259. fail:

  1260.     rtmp_close(s);

  1261.     return ret;

  1262. }

  1263. 

  1264. static int rtmp_read(URLContext *s, uint8_t *buf, int size)

  1265. {

  1266.     RTMPContext *rt = s->priv_data;

  1267.     int orig_size = size;

  1268.     int ret;

  1269. 

  1270.     while (size > 0) {

  1271.         int data_left = rt->flv_size - rt->flv_off;

  1272. 

  1273.         if (data_left >= size) {

  1274.             memcpy(buf, rt->flv_data + rt->flv_off, size);

  1275.             rt->flv_off += size;

  1276.             return orig_size;

  1277.         }

  1278.         if (data_left > 0) {

  1279.             memcpy(buf, rt->flv_data + rt->flv_off, data_left);

  1280.             buf  += data_left;

  1281.             size -= data_left;

  1282.             rt->flv_off = rt->flv_size;

  1283.             return data_left;

  1284.         }

  1285.         if ((ret = get_packet(s, 0)) < 0)

  1286.            return ret;

  1287.     }

  1288.     return orig_size;

  1289. }

  1290. 

  1291. static int rtmp_write(URLContext *s, const uint8_t *buf, int size)

  1292. {

  1293.     RTMPContext *rt = s->priv_data;

  1294.     int size_temp = size;

  1295.     int pktsize, pkttype;

  1296.     uint32_t ts;

  1297.     const uint8_t *buf_temp = buf;

  1298.     uint8_t c;

  1299.     int ret;

  1300. 

  1301.     do {

  1302.         if (rt->skip_bytes) {

  1303.             int skip = FFMIN(rt->skip_bytes, size_temp);

  1304.             buf_temp       += skip;

  1305.             size_temp      -= skip;

  1306.             rt->skip_bytes -= skip;

  1307.             continue;

  1308.         }

  1309. 

  1310.         if (rt->flv_header_bytes < 11) {

  1311.             const uint8_t *header = rt->flv_header;

  1312.             int copy = FFMIN(11 - rt->flv_header_bytes, size_temp);

  1313.             bytestream_get_buffer(&buf_temp, rt->flv_header + rt->flv_header_bytes, copy);

  1314.             rt->flv_header_bytes += copy;

  1315.             size_temp            -= copy;

  1316.             if (rt->flv_header_bytes < 11)

  1317.                 break;

  1318. 

  1319.             pkttype = bytestream_get_byte(&header);

  1320.             pktsize = bytestream_get_be24(&header);

  1321.             ts = bytestream_get_be24(&header);

  1322.             ts |= bytestream_get_byte(&header) << 24;

  1323.             bytestream_get_be24(&header);

  1324.             rt->flv_size = pktsize;

  1325. 

  1326.             //force 12bytes header

  1327.             if (((pkttype == RTMP_PT_VIDEO || pkttype == RTMP_PT_AUDIO) && ts == 0) ||

  1328.                 pkttype == RTMP_PT_NOTIFY) {

  1329.                 if (pkttype == RTMP_PT_NOTIFY)

  1330.                     pktsize += 16;

  1331.                 rt->prev_pkt[1][RTMP_SOURCE_CHANNEL].channel_id = 0;

  1332.             }

  1333. 

  1334.             //this can be a big packet, it's better to send it right here

  1335.             if ((ret = ff_rtmp_packet_create(&rt->out_pkt, RTMP_SOURCE_CHANNEL,

  1336.                                              pkttype, ts, pktsize)) < 0)

  1337.                 return ret;

  1338. 

  1339.             rt->out_pkt.extra = rt->main_channel_id;

  1340.             rt->flv_data = rt->out_pkt.data;

  1341. 

  1342.             if (pkttype == RTMP_PT_NOTIFY)

  1343.                 ff_amf_write_string(&rt->flv_data, "@setDataFrame");

  1344.         }

  1345. 

  1346.         if (rt->flv_size - rt->flv_off > size_temp) {

  1347.             bytestream_get_buffer(&buf_temp, rt->flv_data + rt->flv_off, size_temp);

  1348.             rt->flv_off += size_temp;

  1349.             size_temp = 0;

  1350.         } else {

  1351.             bytestream_get_buffer(&buf_temp, rt->flv_data + rt->flv_off, rt->flv_size - rt->flv_off);

  1352.             size_temp   -= rt->flv_size - rt->flv_off;

  1353.             rt->flv_off += rt->flv_size - rt->flv_off;

  1354.         }

  1355. 

  1356.         if (rt->flv_off == rt->flv_size) {

  1357.             rt->skip_bytes = 4;

  1358. 

  1359.             if ((ret = ff_rtmp_packet_write(rt->stream, &rt->out_pkt,

  1360.                                             rt->chunk_size, rt->prev_pkt[1])) < 0)

  1361.                 return ret;

  1362.             ff_rtmp_packet_destroy(&rt->out_pkt);

  1363.             rt->flv_size = 0;

  1364.             rt->flv_off = 0;

  1365.             rt->flv_header_bytes = 0;

  1366.             rt->flv_nb_packets++;

  1367.         }

  1368.     } while (buf_temp - buf < size);

  1369. 

  1370.     if (rt->flv_nb_packets < rt->flush_interval)

  1371.         return size;

  1372.     rt->flv_nb_packets = 0;

  1373. 

  1374.     /* set stream into nonblocking mode */

  1375.     rt->stream->flags |= AVIO_FLAG_NONBLOCK;

  1376. 

  1377.     /* try to read one byte from the stream */

  1378.     ret = ffurl_read(rt->stream, &c, 1);

  1379. 

  1380.     /* switch the stream back into blocking mode */

  1381.     rt->stream->flags &= ~AVIO_FLAG_NONBLOCK;

  1382. 

  1383.     if (ret == AVERROR(EAGAIN)) {

  1384.         /* no incoming data to handle */

  1385.         return size;

  1386.     } else if (ret < 0) {

  1387.         return ret;

  1388.     } else if (ret == 1) {

  1389.         RTMPPacket rpkt = { 0 };

  1390. 

  1391.         if ((ret = ff_rtmp_packet_read_internal(rt->stream, &rpkt,

  1392.                                                 rt->chunk_size,

  1393.                                                 rt->prev_pkt[0], c)) <= 0)

  1394.              return ret;

  1395. 

  1396.         if ((ret = rtmp_parse_result(s, rt, &rpkt)) < 0)

  1397.             return ret;

  1398. 

  1399.         ff_rtmp_packet_destroy(&rpkt);

  1400.     }

  1401. 

  1402.     return size;

  1403. }

  1404. 

  1405. #define OFFSET(x) offsetof(RTMPContext, x)

  1406. #define DEC AV_OPT_FLAG_DECODING_PARAM

  1407. #define ENC AV_OPT_FLAG_ENCODING_PARAM

  1408. 

  1409. static const AVOption rtmp_options[] = {

  1410.     {"rtmp_app", "Name of application to connect to on the RTMP server", OFFSET(app), AV_OPT_TYPE_STRING, {.str = NULL }, 0, 0, DEC|ENC},

  1411.     {"rtmp_buffer", "Set buffer time in milliseconds. The default is 3000.", OFFSET(client_buffer_time), AV_OPT_TYPE_INT, {3000}, 0, INT_MAX, DEC|ENC},

  1412.     {"rtmp_conn", "Append arbitrary AMF data to the Connect message", OFFSET(conn), AV_OPT_TYPE_STRING, {.str = NULL }, 0, 0, DEC|ENC},

  1413.     {"rtmp_flashver", "Version of the Flash plugin used to run the SWF player.", OFFSET(flashver), AV_OPT_TYPE_STRING, {.str = NULL }, 0, 0, DEC|ENC},

  1414.     {"rtmp_flush_interval", "Number of packets flushed in the same request (RTMPT only).", OFFSET(flush_interval), AV_OPT_TYPE_INT, {10}, 0, INT_MAX, ENC},

  1415.     {"rtmp_live", "Specify that the media is a live stream.", OFFSET(live), AV_OPT_TYPE_INT, {-2}, INT_MIN, INT_MAX, DEC, "rtmp_live"},

  1416.     {"any", "both", 0, AV_OPT_TYPE_CONST, {-2}, 0, 0, DEC, "rtmp_live"},

  1417.     {"live", "live stream", 0, AV_OPT_TYPE_CONST, {-1}, 0, 0, DEC, "rtmp_live"},

  1418.     {"recorded", "recorded stream", 0, AV_OPT_TYPE_CONST, {0}, 0, 0, DEC, "rtmp_live"},

  1419.     {"rtmp_playpath", "Stream identifier to play or to publish", OFFSET(playpath), AV_OPT_TYPE_STRING, {.str = NULL }, 0, 0, DEC|ENC},

  1420.     {"rtmp_swfurl", "URL of the SWF player. By default no value will be sent", OFFSET(swfurl), AV_OPT_TYPE_STRING, {.str = NULL }, 0, 0, DEC|ENC},

  1421.     {"rtmp_tcurl", "URL of the target stream. Defaults to rtmp://host[:port]/app.", OFFSET(tcurl), AV_OPT_TYPE_STRING, {.str = NULL }, 0, 0, DEC|ENC},

  1422.     { NULL },

  1423. };

  1424. 

  1425. static const AVClass rtmp_class = {

  1426.     .class_name = "rtmp",

  1427.     .item_name  = av_default_item_name,

  1428.     .option     = rtmp_options,

  1429.     .version    = LIBAVUTIL_VERSION_INT,

  1430. };

  1431. 

  1432. URLProtocol ff_rtmp_protocol = {

  1433.     .name           = "rtmp",

  1434.     .url_open       = rtmp_open,

  1435.     .url_read       = rtmp_read,

  1436.     .url_write      = rtmp_write,

  1437.     .url_close      = rtmp_close,

  1438.     .priv_data_size = sizeof(RTMPContext),

  1439.     .flags          = URL_PROTOCOL_FLAG_NETWORK,

  1440.     .priv_data_class= &rtmp_class,

  1441. };

  1442. 

  1443. static const AVClass rtmpt_class = {

  1444.     .class_name = "rtmpt",

  1445.     .item_name  = av_default_item_name,

  1446.     .option     = rtmp_options,

  1447.     .version    = LIBAVUTIL_VERSION_INT,

  1448. };

  1449. 

  1450. URLProtocol ff_rtmpt_protocol = {

  1451.     .name            = "rtmpt",

  1452.     .url_open        = rtmp_open,

  1453.     .url_read        = rtmp_read,

  1454.     .url_write       = rtmp_write,

  1455.     .url_close       = rtmp_close,

  1456.     .priv_data_size  = sizeof(RTMPContext),

  1457.     .flags           = URL_PROTOCOL_FLAG_NETWORK,

  1458.     .priv_data_class = &rtmpt_class,

  1459. };