/* * Copyright (C) Roman Arutyunyan */ #include #include #include "ngx_rtmp.h" #include "ngx_rtmp_amf.h" static void ngx_rtmp_recv(ngx_event_t *rev); static void ngx_rtmp_send(ngx_event_t *rev); static void ngx_rtmp_ping(ngx_event_t *rev); static ngx_int_t ngx_rtmp_finalize_set_chunk_size(ngx_rtmp_session_t *s); ngx_uint_t ngx_rtmp_naccepted; ngx_rtmp_bandwidth_t ngx_rtmp_bw_out; ngx_rtmp_bandwidth_t ngx_rtmp_bw_in; #ifdef NGX_DEBUG char* ngx_rtmp_message_type(uint8_t type) { static char* types[] = { "?", "chunk_size", "abort", "ack", "user", "ack_size", "bandwidth", "edge", "audio", "video", "?", "?", "?", "?", "?", "amf3_meta", "amf3_shared", "amf3_cmd", "amf_meta", "amf_shared", "amf_cmd", "?", "aggregate" }; return type < sizeof(types) / sizeof(types[0]) ? types[type] : "?"; } char* ngx_rtmp_user_message_type(uint16_t evt) { static char* evts[] = { "stream_begin", "stream_eof", "stream dry", "set_buflen", "recorded", "", "ping_request", "ping_response", }; return evt < sizeof(evts) / sizeof(evts[0]) ? evts[evt] : "?"; } #endif void ngx_rtmp_cycle(ngx_rtmp_session_t *s) { ngx_connection_t *c; c = s->connection; c->read->handler = ngx_rtmp_recv; c->write->handler = ngx_rtmp_send; s->ping_evt.data = c; s->ping_evt.log = c->log; s->ping_evt.handler = ngx_rtmp_ping; ngx_rtmp_reset_ping(s); ngx_rtmp_recv(c->read); } static ngx_chain_t * ngx_rtmp_alloc_in_buf(ngx_rtmp_session_t *s) { ngx_chain_t *cl; ngx_buf_t *b; size_t size; if ((cl = ngx_alloc_chain_link(s->in_pool)) == NULL || (cl->buf = ngx_calloc_buf(s->in_pool)) == NULL) { return NULL; } cl->next = NULL; b = cl->buf; size = s->in_chunk_size + NGX_RTMP_MAX_CHUNK_HEADER; b->start = b->last = b->pos = ngx_palloc(s->in_pool, size); if (b->start == NULL) { return NULL; } b->end = b->start + size; return cl; } void ngx_rtmp_reset_ping(ngx_rtmp_session_t *s) { ngx_rtmp_core_srv_conf_t *cscf; cscf = ngx_rtmp_get_module_srv_conf(s, ngx_rtmp_core_module); if (cscf->ping == 0) { return; } s->ping_active = 0; s->ping_reset = 0; ngx_add_timer(&s->ping_evt, cscf->ping); ngx_log_debug1(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "ping: wait %Mms", cscf->ping); } static void ngx_rtmp_ping(ngx_event_t *pev) { ngx_connection_t *c; ngx_rtmp_session_t *s; ngx_rtmp_core_srv_conf_t *cscf; c = pev->data; s = c->data; cscf = ngx_rtmp_get_module_srv_conf(s, ngx_rtmp_core_module); /* i/o event has happened; no need to ping */ if (s->ping_reset) { ngx_rtmp_reset_ping(s); return; } if (s->ping_active) { ngx_log_error(NGX_LOG_INFO, c->log, 0, "ping: unresponded"); ngx_rtmp_finalize_session(s); return; } if (cscf->busy) { ngx_log_error(NGX_LOG_INFO, c->log, 0, "ping: not busy between pings"); ngx_rtmp_finalize_session(s); return; } ngx_log_debug1(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "ping: schedule %Mms", cscf->ping_timeout); if (ngx_rtmp_send_ping_request(s, (uint32_t)ngx_current_msec) != NGX_OK) { ngx_rtmp_finalize_session(s); return; } s->ping_active = 1; ngx_add_timer(pev, cscf->ping_timeout); } static void ngx_rtmp_recv(ngx_event_t *rev) { ngx_int_t n; ngx_connection_t *c; ngx_rtmp_session_t *s; ngx_rtmp_core_srv_conf_t *cscf; ngx_rtmp_header_t *h; ngx_rtmp_stream_t *st, *st0; ngx_chain_t *in, *head; ngx_buf_t *b; u_char *p, *pp, *old_pos; size_t size, fsize, old_size; uint8_t fmt, ext; uint32_t csid, timestamp; c = rev->data; s = c->data; b = NULL; old_pos = NULL; old_size = 0; cscf = ngx_rtmp_get_module_srv_conf(s, ngx_rtmp_core_module); if (c->destroyed) { return; } for( ;; ) { st = &s->in_streams[s->in_csid]; /* allocate new buffer */ if (st->in == NULL) { st->in = ngx_rtmp_alloc_in_buf(s); if (st->in == NULL) { ngx_log_error(NGX_LOG_INFO, c->log, 0, "in buf alloc failed"); ngx_rtmp_finalize_session(s); return; } } h = &st->hdr; in = st->in; b = in->buf; if (old_size) { ngx_log_debug1(NGX_LOG_DEBUG_RTMP, c->log, 0, "reusing formerly read data: %d", old_size); b->pos = b->start; size = ngx_min((size_t) (b->end - b->start), old_size); b->last = ngx_movemem(b->pos, old_pos, size); if (s->in_chunk_size_changing) { ngx_rtmp_finalize_set_chunk_size(s); } } else { if (old_pos) { b->pos = b->last = b->start; } n = c->recv(c, b->last, b->end - b->last); if (n == NGX_ERROR || n == 0) { ngx_rtmp_finalize_session(s); return; } if (n == NGX_AGAIN) { if (ngx_handle_read_event(c->read, 0) != NGX_OK) { ngx_rtmp_finalize_session(s); } return; } s->ping_reset = 1; ngx_rtmp_update_bandwidth(&ngx_rtmp_bw_in, n); b->last += n; s->in_bytes += n; if (s->in_bytes >= 0xf0000000) { ngx_log_debug0(NGX_LOG_DEBUG_RTMP, c->log, 0, "resetting byte counter"); s->in_bytes = 0; s->in_last_ack = 0; } if (s->ack_size && s->in_bytes - s->in_last_ack >= s->ack_size) { s->in_last_ack = s->in_bytes; ngx_log_debug1(NGX_LOG_DEBUG_RTMP, c->log, 0, "sending RTMP ACK(%uD)", s->in_bytes); if (ngx_rtmp_send_ack(s, s->in_bytes)) { ngx_rtmp_finalize_session(s); return; } } } old_pos = NULL; old_size = 0; /* parse headers */ if (b->pos == b->start) { p = b->pos; /* chunk basic header */ fmt = (*p >> 6) & 0x03; csid = *p++ & 0x3f; if (csid == 0) { if (b->last - p < 1) continue; csid = 64; csid += *(uint8_t*)p++; } else if (csid == 1) { if (b->last - p < 2) continue; csid = 64; csid += *(uint8_t*)p++; csid += (uint32_t)256 * (*(uint8_t*)p++); } ngx_log_debug2(NGX_LOG_DEBUG_RTMP, c->log, 0, "RTMP bheader fmt=%d csid=%D", (int)fmt, csid); if (csid >= (uint32_t)cscf->max_streams) { ngx_log_error(NGX_LOG_INFO, c->log, 0, "RTMP in chunk stream too big: %D >= %D", csid, cscf->max_streams); ngx_rtmp_finalize_session(s); return; } /* link orphan */ if (s->in_csid == 0) { /* unlink from stream #0 */ st->in = st->in->next; /* link to new stream */ s->in_csid = csid; st = &s->in_streams[csid]; if (st->in == NULL) { in->next = in; } else { in->next = st->in->next; st->in->next = in; } st->in = in; h = &st->hdr; h->csid = csid; } ext = st->ext; timestamp = st->dtime; if (fmt <= 2 ) { if (b->last - p < 3) continue; /* timestamp: * big-endian 3b -> little-endian 4b */ pp = (u_char*)×tamp; pp[2] = *p++; pp[1] = *p++; pp[0] = *p++; pp[3] = 0; ext = (timestamp == 0x00ffffff); if (fmt <= 1) { if (b->last - p < 4) continue; /* size: * big-endian 3b -> little-endian 4b * type: * 1b -> 1b*/ pp = (u_char*)&h->mlen; pp[2] = *p++; pp[1] = *p++; pp[0] = *p++; pp[3] = 0; h->type = *(uint8_t*)p++; if (fmt == 0) { if (b->last - p < 4) continue; /* stream: * little-endian 4b -> little-endian 4b */ pp = (u_char*)&h->msid; pp[0] = *p++; pp[1] = *p++; pp[2] = *p++; pp[3] = *p++; } } } /* extended header */ if (ext) { if (b->last - p < 4) continue; pp = (u_char*)×tamp; pp[3] = *p++; pp[2] = *p++; pp[1] = *p++; pp[0] = *p++; } if (st->len == 0) { /* Messages with type=3 should * never have ext timestamp field * according to standard. * However that's not always the case * in real life */ st->ext = (ext && cscf->publish_time_fix); if (fmt) { st->dtime = timestamp; } else { h->timestamp = timestamp; st->dtime = 0; } } ngx_log_debug8(NGX_LOG_DEBUG_RTMP, c->log, 0, "RTMP mheader fmt=%d %s (%d) " "time=%uD+%uD mlen=%D len=%D msid=%D", (int)fmt, ngx_rtmp_message_type(h->type), (int)h->type, h->timestamp, st->dtime, h->mlen, st->len, h->msid); /* header done */ b->pos = p; if (h->mlen > cscf->max_message) { ngx_log_error(NGX_LOG_INFO, c->log, 0, "too big message: %uz", cscf->max_message); ngx_rtmp_finalize_session(s); return; } } size = b->last - b->pos; fsize = h->mlen - st->len; if (size < ngx_min(fsize, s->in_chunk_size)) continue; /* buffer is ready */ if (fsize > s->in_chunk_size) { /* collect fragmented chunks */ st->len += s->in_chunk_size; b->last = b->pos + s->in_chunk_size; old_pos = b->last; old_size = size - s->in_chunk_size; } else { /* handle! */ head = st->in->next; st->in->next = NULL; b->last = b->pos + fsize; old_pos = b->last; old_size = size - fsize; st->len = 0; h->timestamp += st->dtime; if (ngx_rtmp_receive_message(s, h, head) != NGX_OK) { ngx_rtmp_finalize_session(s); return; } if (s->in_chunk_size_changing) { /* copy old data to a new buffer */ if (!old_size) { ngx_rtmp_finalize_set_chunk_size(s); } } else { /* add used bufs to stream #0 */ st0 = &s->in_streams[0]; st->in->next = st0->in; st0->in = head; st->in = NULL; } } s->in_csid = 0; } } static void ngx_rtmp_send(ngx_event_t *wev) { ngx_connection_t *c; ngx_rtmp_session_t *s; ngx_int_t n; ngx_rtmp_core_srv_conf_t *cscf; c = wev->data; s = c->data; if (c->destroyed) { return; } if (wev->timedout) { ngx_log_error(NGX_LOG_INFO, c->log, NGX_ETIMEDOUT, "client timed out"); c->timedout = 1; ngx_rtmp_finalize_session(s); return; } if (wev->timer_set) { ngx_del_timer(wev); } if (s->out_chain == NULL && s->out_pos != s->out_last) { s->out_chain = s->out[s->out_pos]; s->out_bpos = s->out_chain->buf->pos; } while (s->out_chain) { n = c->send(c, s->out_bpos, s->out_chain->buf->last - s->out_bpos); if (n == NGX_AGAIN || n == 0) { ngx_add_timer(c->write, s->timeout); if (ngx_handle_write_event(c->write, 0) != NGX_OK) { ngx_rtmp_finalize_session(s); } return; } if (n < 0) { ngx_rtmp_finalize_session(s); return; } s->out_bytes += n; s->ping_reset = 1; ngx_rtmp_update_bandwidth(&ngx_rtmp_bw_out, n); s->out_bpos += n; if (s->out_bpos == s->out_chain->buf->last) { s->out_chain = s->out_chain->next; if (s->out_chain == NULL) { cscf = ngx_rtmp_get_module_srv_conf(s, ngx_rtmp_core_module); ngx_rtmp_free_shared_chain(cscf, s->out[s->out_pos]); ++s->out_pos; s->out_pos %= s->out_queue; if (s->out_pos == s->out_last) { break; } s->out_chain = s->out[s->out_pos]; } s->out_bpos = s->out_chain->buf->pos; } } if (wev->active) { ngx_del_event(wev, NGX_WRITE_EVENT, 0); } #if (nginx_version >= 1007012) ngx_event_process_posted((ngx_cycle_t *) ngx_cycle,(ngx_queue_t *) &s->posted_dry_events); #else ngx_event_process_posted((ngx_cycle_t *) ngx_cycle, &s->posted_dry_events); #endif } void ngx_rtmp_prepare_message(ngx_rtmp_session_t *s, ngx_rtmp_header_t *h, ngx_rtmp_header_t *lh, ngx_chain_t *out) { ngx_chain_t *l; u_char *p, *pp; ngx_int_t hsize, thsize, nbufs; uint32_t mlen, timestamp, ext_timestamp; static uint8_t hdrsize[] = { 12, 8, 4, 1 }; u_char th[7]; ngx_rtmp_core_srv_conf_t *cscf; uint8_t fmt; ngx_connection_t *c; c = s->connection; cscf = ngx_rtmp_get_module_srv_conf(s, ngx_rtmp_core_module); if (h->csid >= (uint32_t)cscf->max_streams) { ngx_log_error(NGX_LOG_INFO, c->log, 0, "RTMP out chunk stream too big: %D >= %D", h->csid, cscf->max_streams); ngx_rtmp_finalize_session(s); return; } /* detect packet size */ mlen = 0; nbufs = 0; for(l = out; l; l = l->next) { mlen += (l->buf->last - l->buf->pos); ++nbufs; } fmt = 0; if (lh && lh->csid && h->msid == lh->msid) { ++fmt; if (h->type == lh->type && mlen && mlen == lh->mlen) { ++fmt; if (h->timestamp == lh->timestamp) { ++fmt; } } timestamp = h->timestamp - lh->timestamp; } else { timestamp = h->timestamp; } /*if (lh) { *lh = *h; lh->mlen = mlen; }*/ hsize = hdrsize[fmt]; ngx_log_debug8(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "RTMP prep %s (%d) fmt=%d csid=%uD timestamp=%uD " "mlen=%uD msid=%uD nbufs=%d", ngx_rtmp_message_type(h->type), (int)h->type, (int)fmt, h->csid, timestamp, mlen, h->msid, nbufs); ext_timestamp = 0; if (timestamp >= 0x00ffffff) { ext_timestamp = timestamp; timestamp = 0x00ffffff; hsize += 4; } if (h->csid >= 64) { ++hsize; if (h->csid >= 320) { ++hsize; } } /* fill initial header */ out->buf->pos -= hsize; p = out->buf->pos; /* basic header */ *p = (fmt << 6); if (h->csid >= 2 && h->csid <= 63) { *p++ |= (((uint8_t)h->csid) & 0x3f); } else if (h->csid >= 64 && h->csid < 320) { ++p; *p++ = (uint8_t)(h->csid - 64); } else { *p++ |= 1; *p++ = (uint8_t)(h->csid - 64); *p++ = (uint8_t)((h->csid - 64) >> 8); } /* create fmt3 header for successive fragments */ thsize = p - out->buf->pos; ngx_memcpy(th, out->buf->pos, thsize); th[0] |= 0xc0; /* message header */ if (fmt <= 2) { pp = (u_char*)×tamp; *p++ = pp[2]; *p++ = pp[1]; *p++ = pp[0]; if (fmt <= 1) { pp = (u_char*)&mlen; *p++ = pp[2]; *p++ = pp[1]; *p++ = pp[0]; *p++ = h->type; if (fmt == 0) { pp = (u_char*)&h->msid; *p++ = pp[0]; *p++ = pp[1]; *p++ = pp[2]; *p++ = pp[3]; } } } /* extended header */ if (ext_timestamp) { pp = (u_char*)&ext_timestamp; *p++ = pp[3]; *p++ = pp[2]; *p++ = pp[1]; *p++ = pp[0]; /* This CONTRADICTS the standard * but that's the way flash client * wants data to be encoded; * ffmpeg complains */ if (cscf->play_time_fix) { ngx_memcpy(&th[thsize], p - 4, 4); thsize += 4; } } /* append headers to successive fragments */ for(out = out->next; out; out = out->next) { out->buf->pos -= thsize; ngx_memcpy(out->buf->pos, th, thsize); } } ngx_int_t ngx_rtmp_send_message(ngx_rtmp_session_t *s, ngx_chain_t *out, ngx_uint_t priority) { ngx_uint_t nmsg; nmsg = (s->out_last - s->out_pos) % s->out_queue + 1; if (priority > 3) { priority = 3; } /* drop packet? * Note we always leave 1 slot free */ if (nmsg + priority * s->out_queue / 4 >= s->out_queue) { ngx_log_debug2(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "RTMP drop message bufs=%ui, priority=%ui", nmsg, priority); return NGX_AGAIN; } s->out[s->out_last++] = out; s->out_last %= s->out_queue; ngx_rtmp_acquire_shared_chain(out); ngx_log_debug3(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "RTMP send nmsg=%ui, priority=%ui #%ui", nmsg, priority, s->out_last); if (priority && s->out_buffer && nmsg < s->out_cork) { return NGX_OK; } if (!s->connection->write->active) { ngx_rtmp_send(s->connection->write); /*return ngx_add_event(s->connection->write, NGX_WRITE_EVENT, NGX_CLEAR_EVENT);*/ } return NGX_OK; } ngx_int_t ngx_rtmp_receive_message(ngx_rtmp_session_t *s, ngx_rtmp_header_t *h, ngx_chain_t *in) { ngx_rtmp_core_main_conf_t *cmcf; ngx_array_t *evhs; size_t n; ngx_rtmp_handler_pt *evh; cmcf = ngx_rtmp_get_module_main_conf(s, ngx_rtmp_core_module); #ifdef NGX_DEBUG { int nbufs; ngx_chain_t *ch; for(nbufs = 1, ch = in; ch->next; ch = ch->next, ++nbufs); ngx_log_debug7(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "RTMP recv %s (%d) csid=%D timestamp=%D " "mlen=%D msid=%D nbufs=%d", ngx_rtmp_message_type(h->type), (int)h->type, h->csid, h->timestamp, h->mlen, h->msid, nbufs); } #endif if (h->type > NGX_RTMP_MSG_MAX) { ngx_log_debug1(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "unexpected RTMP message type: %d", (int)h->type); return NGX_OK; } evhs = &cmcf->events[h->type]; evh = evhs->elts; ngx_log_debug1(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "nhandlers: %d", evhs->nelts); for(n = 0; n < evhs->nelts; ++n, ++evh) { if (!evh) { continue; } ngx_log_debug1(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "calling handler %d", n); switch ((*evh)(s, h, in)) { case NGX_ERROR: ngx_log_debug1(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "handler %d failed", n); return NGX_ERROR; case NGX_DONE: return NGX_OK; } } return NGX_OK; } ngx_int_t ngx_rtmp_set_chunk_size(ngx_rtmp_session_t *s, ngx_uint_t size) { ngx_rtmp_core_srv_conf_t *cscf; ngx_chain_t *li, *fli, *lo, *flo; ngx_buf_t *bi, *bo; ngx_int_t n; ngx_log_debug1(NGX_LOG_DEBUG_RTMP, s->connection->log, 0, "setting chunk_size=%ui", size); cscf = ngx_rtmp_get_module_srv_conf(s, ngx_rtmp_core_module); s->in_old_pool = s->in_pool; s->in_chunk_size = size; s->in_pool = ngx_create_pool(4096, s->connection->log); /* copy existing chunk data */ if (s->in_old_pool) { s->in_chunk_size_changing = 1; s->in_streams[0].in = NULL; for(n = 1; n < cscf->max_streams; ++n) { /* stream buffer is circular * for all streams except for the current one * (which caused this chunk size change); * we can simply ignore it */ li = s->in_streams[n].in; if (li == NULL || li->next == NULL) { s->in_streams[n].in = NULL; continue; } /* move from last to the first */ li = li->next; fli = li; lo = ngx_rtmp_alloc_in_buf(s); if (lo == NULL) { return NGX_ERROR; } flo = lo; for ( ;; ) { bi = li->buf; bo = lo->buf; if (bo->end - bo->last >= bi->last - bi->pos) { bo->last = ngx_cpymem(bo->last, bi->pos, bi->last - bi->pos); li = li->next; if (li == fli) { lo->next = flo; s->in_streams[n].in = lo; break; } continue; } bi->pos += (ngx_cpymem(bo->last, bi->pos, bo->end - bo->last) - bo->last); bo->last = bo->end; lo->next = ngx_rtmp_alloc_in_buf(s); lo = lo->next; if (lo == NULL) { return NGX_ERROR; } } } } return NGX_OK; } static ngx_int_t ngx_rtmp_finalize_set_chunk_size(ngx_rtmp_session_t *s) { if (s->in_chunk_size_changing && s->in_old_pool) { ngx_destroy_pool(s->in_old_pool); s->in_old_pool = NULL; s->in_chunk_size_changing = 0; } return NGX_OK; }