/* * Copyright (c) 2000, 2001, 2002 Fabrice Bellard * * This file is part of FFmpeg. * * FFmpeg is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * FFmpeg is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with FFmpeg; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /** * @file * multiple format streaming server based on the FFmpeg libraries */ #include "config.h" #if !HAVE_CLOSESOCKET #define closesocket close #endif #include #include #include #include "libavformat/avformat.h" /* FIXME: those are internal headers, ffserver _really_ shouldn't use them */ #include "libavformat/ffm.h" #include "libavformat/network.h" #include "libavformat/os_support.h" #include "libavformat/rtpdec.h" #include "libavformat/rtpproto.h" #include "libavformat/rtsp.h" #include "libavformat/rtspcodes.h" #include "libavformat/avio_internal.h" #include "libavformat/internal.h" #include "libavformat/url.h" #include "libavutil/avassert.h" #include "libavutil/avstring.h" #include "libavutil/lfg.h" #include "libavutil/dict.h" #include "libavutil/intreadwrite.h" #include "libavutil/mathematics.h" #include "libavutil/random_seed.h" #include "libavutil/parseutils.h" #include "libavutil/opt.h" #include "libavutil/time.h" #include #if HAVE_UNISTD_H #include #endif #include #include #if HAVE_POLL_H #include #endif #include #include #include #include #include "cmdutils.h" #include "ffserver_config.h" const char program_name[] = "ffserver"; const int program_birth_year = 2000; static const OptionDef options[]; enum HTTPState { HTTPSTATE_WAIT_REQUEST, HTTPSTATE_SEND_HEADER, HTTPSTATE_SEND_DATA_HEADER, HTTPSTATE_SEND_DATA, /* sending TCP or UDP data */ HTTPSTATE_SEND_DATA_TRAILER, HTTPSTATE_RECEIVE_DATA, HTTPSTATE_WAIT_FEED, /* wait for data from the feed */ HTTPSTATE_READY, RTSPSTATE_WAIT_REQUEST, RTSPSTATE_SEND_REPLY, RTSPSTATE_SEND_PACKET, }; static const char * const http_state[] = { "HTTP_WAIT_REQUEST", "HTTP_SEND_HEADER", "SEND_DATA_HEADER", "SEND_DATA", "SEND_DATA_TRAILER", "RECEIVE_DATA", "WAIT_FEED", "READY", "RTSP_WAIT_REQUEST", "RTSP_SEND_REPLY", "RTSP_SEND_PACKET", }; #define IOBUFFER_INIT_SIZE 8192 /* timeouts are in ms */ #define HTTP_REQUEST_TIMEOUT (15 * 1000) #define RTSP_REQUEST_TIMEOUT (3600 * 24 * 1000) #define SYNC_TIMEOUT (10 * 1000) typedef struct RTSPActionServerSetup { uint32_t ipaddr; char transport_option[512]; } RTSPActionServerSetup; typedef struct { int64_t count1, count2; int64_t time1, time2; } DataRateData; /* context associated with one connection */ typedef struct HTTPContext { enum HTTPState state; int fd; /* socket file descriptor */ struct sockaddr_in from_addr; /* origin */ struct pollfd *poll_entry; /* used when polling */ int64_t timeout; uint8_t *buffer_ptr, *buffer_end; int http_error; int post; int chunked_encoding; int chunk_size; /* 0 if it needs to be read */ struct HTTPContext *next; int got_key_frame; /* stream 0 => 1, stream 1 => 2, stream 2=> 4 */ int64_t data_count; /* feed input */ int feed_fd; /* input format handling */ AVFormatContext *fmt_in; int64_t start_time; /* In milliseconds - this wraps fairly often */ int64_t first_pts; /* initial pts value */ int64_t cur_pts; /* current pts value from the stream in us */ int64_t cur_frame_duration; /* duration of the current frame in us */ int cur_frame_bytes; /* output frame size, needed to compute the time at which we send each packet */ int pts_stream_index; /* stream we choose as clock reference */ int64_t cur_clock; /* current clock reference value in us */ /* output format handling */ struct FFServerStream *stream; /* -1 is invalid stream */ int feed_streams[FFSERVER_MAX_STREAMS]; /* index of streams in the feed */ int switch_feed_streams[FFSERVER_MAX_STREAMS]; /* index of streams in the feed */ int switch_pending; AVFormatContext fmt_ctx; /* instance of FFServerStream for one user */ int last_packet_sent; /* true if last data packet was sent */ int suppress_log; DataRateData datarate; int wmp_client_id; char protocol[16]; char method[16]; char url[128]; int buffer_size; uint8_t *buffer; int is_packetized; /* if true, the stream is packetized */ int packet_stream_index; /* current stream for output in state machine */ /* RTSP state specific */ uint8_t *pb_buffer; /* XXX: use that in all the code */ AVIOContext *pb; int seq; /* RTSP sequence number */ /* RTP state specific */ enum RTSPLowerTransport rtp_protocol; char session_id[32]; /* session id */ AVFormatContext *rtp_ctx[FFSERVER_MAX_STREAMS]; /* RTP/UDP specific */ URLContext *rtp_handles[FFSERVER_MAX_STREAMS]; /* RTP/TCP specific */ struct HTTPContext *rtsp_c; uint8_t *packet_buffer, *packet_buffer_ptr, *packet_buffer_end; } HTTPContext; typedef struct FeedData { long long data_count; float avg_frame_size; /* frame size averaged over last frames with exponential mean */ } FeedData; static HTTPContext *first_http_ctx; static FFServerConfig config = { .nb_max_http_connections = 2000, .nb_max_connections = 5, .max_bandwidth = 1000, .use_defaults = 1, }; static void new_connection(int server_fd, int is_rtsp); static void close_connection(HTTPContext *c); /* HTTP handling */ static int handle_connection(HTTPContext *c); static inline void print_stream_params(AVIOContext *pb, FFServerStream *stream); static void compute_status(HTTPContext *c); static int open_input_stream(HTTPContext *c, const char *info); static int http_parse_request(HTTPContext *c); static int http_send_data(HTTPContext *c); static int http_start_receive_data(HTTPContext *c); static int http_receive_data(HTTPContext *c); /* RTSP handling */ static int rtsp_parse_request(HTTPContext *c); static void rtsp_cmd_describe(HTTPContext *c, const char *url); static void rtsp_cmd_options(HTTPContext *c, const char *url); static void rtsp_cmd_setup(HTTPContext *c, const char *url, RTSPMessageHeader *h); static void rtsp_cmd_play(HTTPContext *c, const char *url, RTSPMessageHeader *h); static void rtsp_cmd_interrupt(HTTPContext *c, const char *url, RTSPMessageHeader *h, int pause_only); /* SDP handling */ static int prepare_sdp_description(FFServerStream *stream, uint8_t **pbuffer, struct in_addr my_ip); /* RTP handling */ static HTTPContext *rtp_new_connection(struct sockaddr_in *from_addr, FFServerStream *stream, const char *session_id, enum RTSPLowerTransport rtp_protocol); static int rtp_new_av_stream(HTTPContext *c, int stream_index, struct sockaddr_in *dest_addr, HTTPContext *rtsp_c); static const char *my_program_name; static int no_launch; static int need_to_start_children; /* maximum number of simultaneous HTTP connections */ static unsigned int nb_connections; static uint64_t current_bandwidth; /* Making this global saves on passing it around everywhere */ static int64_t cur_time; static AVLFG random_state; static FILE *logfile = NULL; static void htmlstrip(char *s) { while (s && *s) { s += strspn(s, "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ,. "); if (*s) *s++ = '?'; } } static int64_t ffm_read_write_index(int fd) { uint8_t buf[8]; if (lseek(fd, 8, SEEK_SET) < 0) return AVERROR(EIO); if (read(fd, buf, 8) != 8) return AVERROR(EIO); return AV_RB64(buf); } static int ffm_write_write_index(int fd, int64_t pos) { uint8_t buf[8]; int i; for(i=0;i<8;i++) buf[i] = (pos >> (56 - i * 8)) & 0xff; if (lseek(fd, 8, SEEK_SET) < 0) return AVERROR(EIO); if (write(fd, buf, 8) != 8) return AVERROR(EIO); return 8; } static void ffm_set_write_index(AVFormatContext *s, int64_t pos, int64_t file_size) { FFMContext *ffm = s->priv_data; ffm->write_index = pos; ffm->file_size = file_size; } static char *ctime1(char *buf2, int buf_size) { time_t ti; char *p; ti = time(NULL); p = ctime(&ti); av_strlcpy(buf2, p, buf_size); p = buf2 + strlen(p) - 1; if (*p == '\n') *p = '\0'; return buf2; } static void http_vlog(const char *fmt, va_list vargs) { static int print_prefix = 1; char buf[32]; if (!logfile) return; if (print_prefix) { ctime1(buf, sizeof(buf)); fprintf(logfile, "%s ", buf); } print_prefix = strstr(fmt, "\n") != NULL; vfprintf(logfile, fmt, vargs); fflush(logfile); } #ifdef __GNUC__ __attribute__ ((format (printf, 1, 2))) #endif static void http_log(const char *fmt, ...) { va_list vargs; va_start(vargs, fmt); http_vlog(fmt, vargs); va_end(vargs); } static void http_av_log(void *ptr, int level, const char *fmt, va_list vargs) { static int print_prefix = 1; AVClass *avc = ptr ? *(AVClass**)ptr : NULL; if (level > av_log_get_level()) return; if (print_prefix && avc) http_log("[%s @ %p]", avc->item_name(ptr), ptr); print_prefix = strstr(fmt, "\n") != NULL; http_vlog(fmt, vargs); } static void log_connection(HTTPContext *c) { if (c->suppress_log) return; http_log("%s - - [%s] \"%s %s\" %d %"PRId64"\n", inet_ntoa(c->from_addr.sin_addr), c->method, c->url, c->protocol, (c->http_error ? c->http_error : 200), c->data_count); } static void update_datarate(DataRateData *drd, int64_t count) { if (!drd->time1 && !drd->count1) { drd->time1 = drd->time2 = cur_time; drd->count1 = drd->count2 = count; } else if (cur_time - drd->time2 > 5000) { drd->time1 = drd->time2; drd->count1 = drd->count2; drd->time2 = cur_time; drd->count2 = count; } } /* In bytes per second */ static int compute_datarate(DataRateData *drd, int64_t count) { if (cur_time == drd->time1) return 0; return ((count - drd->count1) * 1000) / (cur_time - drd->time1); } static void start_children(FFServerStream *feed) { char pathname[1024]; char *slash; int i; if (no_launch) return; /* replace "ffserver" with "ffmpeg" in the path of current * program. Ignore user provided path */ av_strlcpy(pathname, my_program_name, sizeof(pathname)); slash = strrchr(pathname, '/'); if (!slash) slash = pathname; else slash++; strcpy(slash, "ffmpeg"); for (; feed; feed = feed->next) { if (!feed->child_argv || feed->pid) continue; feed->pid_start = time(0); feed->pid = fork(); if (feed->pid < 0) { http_log("Unable to create children\n"); exit(1); } if (feed->pid) continue; /* In child */ http_log("Launch command line: "); http_log("%s ", pathname); for (i = 1; feed->child_argv[i] && feed->child_argv[i][0]; i++) http_log("%s ", feed->child_argv[i]); http_log("\n"); for (i = 3; i < 256; i++) close(i); if (!config.debug) { if (!freopen("/dev/null", "r", stdin)) http_log("failed to redirect STDIN to /dev/null\n;"); if (!freopen("/dev/null", "w", stdout)) http_log("failed to redirect STDOUT to /dev/null\n;"); if (!freopen("/dev/null", "w", stderr)) http_log("failed to redirect STDERR to /dev/null\n;"); } signal(SIGPIPE, SIG_DFL); execvp(pathname, feed->child_argv); _exit(1); } } /* open a listening socket */ static int socket_open_listen(struct sockaddr_in *my_addr) { int server_fd, tmp; server_fd = socket(AF_INET,SOCK_STREAM,0); if (server_fd < 0) { perror ("socket"); return -1; } tmp = 1; if (setsockopt(server_fd, SOL_SOCKET, SO_REUSEADDR, &tmp, sizeof(tmp))) av_log(NULL, AV_LOG_WARNING, "setsockopt SO_REUSEADDR failed\n"); my_addr->sin_family = AF_INET; if (bind (server_fd, (struct sockaddr *) my_addr, sizeof (*my_addr)) < 0) { char bindmsg[32]; snprintf(bindmsg, sizeof(bindmsg), "bind(port %d)", ntohs(my_addr->sin_port)); perror (bindmsg); closesocket(server_fd); return -1; } if (listen (server_fd, 5) < 0) { perror ("listen"); closesocket(server_fd); return -1; } if (ff_socket_nonblock(server_fd, 1) < 0) av_log(NULL, AV_LOG_WARNING, "ff_socket_nonblock failed\n"); return server_fd; } /* start all multicast streams */ static void start_multicast(void) { FFServerStream *stream; char session_id[32]; HTTPContext *rtp_c; struct sockaddr_in dest_addr = {0}; int default_port, stream_index; unsigned int random0, random1; default_port = 6000; for(stream = config.first_stream; stream; stream = stream->next) { if (!stream->is_multicast) continue; random0 = av_lfg_get(&random_state); random1 = av_lfg_get(&random_state); /* open the RTP connection */ snprintf(session_id, sizeof(session_id), "%08x%08x", random0, random1); /* choose a port if none given */ if (stream->multicast_port == 0) { stream->multicast_port = default_port; default_port += 100; } dest_addr.sin_family = AF_INET; dest_addr.sin_addr = stream->multicast_ip; dest_addr.sin_port = htons(stream->multicast_port); rtp_c = rtp_new_connection(&dest_addr, stream, session_id, RTSP_LOWER_TRANSPORT_UDP_MULTICAST); if (!rtp_c) continue; if (open_input_stream(rtp_c, "") < 0) { http_log("Could not open input stream for stream '%s'\n", stream->filename); continue; } /* open each RTP stream */ for(stream_index = 0; stream_index < stream->nb_streams; stream_index++) { dest_addr.sin_port = htons(stream->multicast_port + 2 * stream_index); if (rtp_new_av_stream(rtp_c, stream_index, &dest_addr, NULL) >= 0) continue; http_log("Could not open output stream '%s/streamid=%d'\n", stream->filename, stream_index); exit(1); } rtp_c->state = HTTPSTATE_SEND_DATA; } } /* main loop of the HTTP server */ static int http_server(void) { int server_fd = 0, rtsp_server_fd = 0; int ret, delay; struct pollfd *poll_table, *poll_entry; HTTPContext *c, *c_next; poll_table = av_mallocz_array(config.nb_max_http_connections + 2, sizeof(*poll_table)); if(!poll_table) { http_log("Impossible to allocate a poll table handling %d " "connections.\n", config.nb_max_http_connections); return -1; } if (config.http_addr.sin_port) { server_fd = socket_open_listen(&config.http_addr); if (server_fd < 0) { av_free(poll_table); return -1; } } if (config.rtsp_addr.sin_port) { rtsp_server_fd = socket_open_listen(&config.rtsp_addr); if (rtsp_server_fd < 0) { av_free(poll_table); closesocket(server_fd); return -1; } } if (!rtsp_server_fd && !server_fd) { http_log("HTTP and RTSP disabled.\n"); av_free(poll_table); return -1; } http_log("FFserver started.\n"); start_children(config.first_feed); start_multicast(); for(;;) { poll_entry = poll_table; if (server_fd) { poll_entry->fd = server_fd; poll_entry->events = POLLIN; poll_entry++; } if (rtsp_server_fd) { poll_entry->fd = rtsp_server_fd; poll_entry->events = POLLIN; poll_entry++; } /* wait for events on each HTTP handle */ c = first_http_ctx; delay = 1000; while (c) { int fd; fd = c->fd; switch(c->state) { case HTTPSTATE_SEND_HEADER: case RTSPSTATE_SEND_REPLY: case RTSPSTATE_SEND_PACKET: c->poll_entry = poll_entry; poll_entry->fd = fd; poll_entry->events = POLLOUT; poll_entry++; break; case HTTPSTATE_SEND_DATA_HEADER: case HTTPSTATE_SEND_DATA: case HTTPSTATE_SEND_DATA_TRAILER: if (!c->is_packetized) { /* for TCP, we output as much as we can * (may need to put a limit) */ c->poll_entry = poll_entry; poll_entry->fd = fd; poll_entry->events = POLLOUT; poll_entry++; } else { /* when ffserver is doing the timing, we work by * looking at which packet needs to be sent every * 10 ms (one tick wait XXX: 10 ms assumed) */ if (delay > 10) delay = 10; } break; case HTTPSTATE_WAIT_REQUEST: case HTTPSTATE_RECEIVE_DATA: case HTTPSTATE_WAIT_FEED: case RTSPSTATE_WAIT_REQUEST: /* need to catch errors */ c->poll_entry = poll_entry; poll_entry->fd = fd; poll_entry->events = POLLIN;/* Maybe this will work */ poll_entry++; break; default: c->poll_entry = NULL; break; } c = c->next; } /* wait for an event on one connection. We poll at least every * second to handle timeouts */ do { ret = poll(poll_table, poll_entry - poll_table, delay); if (ret < 0 && ff_neterrno() != AVERROR(EAGAIN) && ff_neterrno() != AVERROR(EINTR)) { av_free(poll_table); return -1; } } while (ret < 0); cur_time = av_gettime() / 1000; if (need_to_start_children) { need_to_start_children = 0; start_children(config.first_feed); } /* now handle the events */ for(c = first_http_ctx; c; c = c_next) { c_next = c->next; if (handle_connection(c) < 0) { log_connection(c); /* close and free the connection */ close_connection(c); } } poll_entry = poll_table; if (server_fd) { /* new HTTP connection request ? */ if (poll_entry->revents & POLLIN) new_connection(server_fd, 0); poll_entry++; } if (rtsp_server_fd) { /* new RTSP connection request ? */ if (poll_entry->revents & POLLIN) new_connection(rtsp_server_fd, 1); } } } /* start waiting for a new HTTP/RTSP request */ static void start_wait_request(HTTPContext *c, int is_rtsp) { c->buffer_ptr = c->buffer; c->buffer_end = c->buffer + c->buffer_size - 1; /* leave room for '\0' */ c->state = is_rtsp ? RTSPSTATE_WAIT_REQUEST : HTTPSTATE_WAIT_REQUEST; c->timeout = cur_time + (is_rtsp ? RTSP_REQUEST_TIMEOUT : HTTP_REQUEST_TIMEOUT); } static void http_send_too_busy_reply(int fd) { char buffer[400]; int len = snprintf(buffer, sizeof(buffer), "HTTP/1.0 503 Server too busy\r\n" "Content-type: text/html\r\n" "\r\n" "Too busy\r\n" "

The server is too busy to serve your request at this time.

\r\n" "

The number of current connections is %u, and this exceeds the limit of %u.

\r\n" "\r\n", nb_connections, config.nb_max_connections); av_assert0(len < sizeof(buffer)); if (send(fd, buffer, len, 0) < len) av_log(NULL, AV_LOG_WARNING, "Could not send too-busy reply, send() failed\n"); } static void new_connection(int server_fd, int is_rtsp) { struct sockaddr_in from_addr; socklen_t len; int fd; HTTPContext *c = NULL; len = sizeof(from_addr); fd = accept(server_fd, (struct sockaddr *)&from_addr, &len); if (fd < 0) { http_log("error during accept %s\n", strerror(errno)); return; } if (ff_socket_nonblock(fd, 1) < 0) av_log(NULL, AV_LOG_WARNING, "ff_socket_nonblock failed\n"); if (nb_connections >= config.nb_max_connections) { http_send_too_busy_reply(fd); goto fail; } /* add a new connection */ c = av_mallocz(sizeof(HTTPContext)); if (!c) goto fail; c->fd = fd; c->poll_entry = NULL; c->from_addr = from_addr; c->buffer_size = IOBUFFER_INIT_SIZE; c->buffer = av_malloc(c->buffer_size); if (!c->buffer) goto fail; c->next = first_http_ctx; first_http_ctx = c; nb_connections++; start_wait_request(c, is_rtsp); return; fail: if (c) { av_freep(&c->buffer); av_free(c); } closesocket(fd); } static void close_connection(HTTPContext *c) { HTTPContext **cp, *c1; int i, nb_streams; AVFormatContext *ctx; AVStream *st; /* remove connection from list */ cp = &first_http_ctx; while (*cp) { c1 = *cp; if (c1 == c) *cp = c->next; else cp = &c1->next; } /* remove references, if any (XXX: do it faster) */ for(c1 = first_http_ctx; c1; c1 = c1->next) { if (c1->rtsp_c == c) c1->rtsp_c = NULL; } /* remove connection associated resources */ if (c->fd >= 0) closesocket(c->fd); if (c->fmt_in) { /* close each frame parser */ for(i=0;ifmt_in->nb_streams;i++) { st = c->fmt_in->streams[i]; if (st->codec->codec) avcodec_close(st->codec); } avformat_close_input(&c->fmt_in); } /* free RTP output streams if any */ nb_streams = 0; if (c->stream) nb_streams = c->stream->nb_streams; for(i=0;irtp_ctx[i]; if (ctx) { av_write_trailer(ctx); av_dict_free(&ctx->metadata); av_freep(&ctx->streams[0]); av_freep(&ctx); } ffurl_close(c->rtp_handles[i]); } ctx = &c->fmt_ctx; if (!c->last_packet_sent && c->state == HTTPSTATE_SEND_DATA_TRAILER) { /* prepare header */ if (ctx->oformat && avio_open_dyn_buf(&ctx->pb) >= 0) { av_write_trailer(ctx); av_freep(&c->pb_buffer); avio_close_dyn_buf(ctx->pb, &c->pb_buffer); } } for(i=0; inb_streams; i++) av_freep(&ctx->streams[i]); av_freep(&ctx->streams); av_freep(&ctx->priv_data); if (c->stream && !c->post && c->stream->stream_type == STREAM_TYPE_LIVE) current_bandwidth -= c->stream->bandwidth; /* signal that there is no feed if we are the feeder socket */ if (c->state == HTTPSTATE_RECEIVE_DATA && c->stream) { c->stream->feed_opened = 0; close(c->feed_fd); } av_freep(&c->pb_buffer); av_freep(&c->packet_buffer); av_freep(&c->buffer); av_free(c); nb_connections--; } static int handle_connection(HTTPContext *c) { int len, ret; uint8_t *ptr; switch(c->state) { case HTTPSTATE_WAIT_REQUEST: case RTSPSTATE_WAIT_REQUEST: /* timeout ? */ if ((c->timeout - cur_time) < 0) return -1; if (c->poll_entry->revents & (POLLERR | POLLHUP)) return -1; /* no need to read if no events */ if (!(c->poll_entry->revents & POLLIN)) return 0; /* read the data */ read_loop: if (!(len = recv(c->fd, c->buffer_ptr, 1, 0))) return -1; if (len < 0) { if (ff_neterrno() != AVERROR(EAGAIN) && ff_neterrno() != AVERROR(EINTR)) return -1; break; } /* search for end of request. */ c->buffer_ptr += len; ptr = c->buffer_ptr; if ((ptr >= c->buffer + 2 && !memcmp(ptr-2, "\n\n", 2)) || (ptr >= c->buffer + 4 && !memcmp(ptr-4, "\r\n\r\n", 4))) { /* request found : parse it and reply */ if (c->state == HTTPSTATE_WAIT_REQUEST) ret = http_parse_request(c); else ret = rtsp_parse_request(c); if (ret < 0) return -1; } else if (ptr >= c->buffer_end) { /* request too long: cannot do anything */ return -1; } else goto read_loop; break; case HTTPSTATE_SEND_HEADER: if (c->poll_entry->revents & (POLLERR | POLLHUP)) return -1; /* no need to write if no events */ if (!(c->poll_entry->revents & POLLOUT)) return 0; len = send(c->fd, c->buffer_ptr, c->buffer_end - c->buffer_ptr, 0); if (len < 0) { if (ff_neterrno() != AVERROR(EAGAIN) && ff_neterrno() != AVERROR(EINTR)) { goto close_connection; } break; } c->buffer_ptr += len; if (c->stream) c->stream->bytes_served += len; c->data_count += len; if (c->buffer_ptr >= c->buffer_end) { av_freep(&c->pb_buffer); /* if error, exit */ if (c->http_error) return -1; /* all the buffer was sent : synchronize to the incoming * stream */ c->state = HTTPSTATE_SEND_DATA_HEADER; c->buffer_ptr = c->buffer_end = c->buffer; } break; case HTTPSTATE_SEND_DATA: case HTTPSTATE_SEND_DATA_HEADER: case HTTPSTATE_SEND_DATA_TRAILER: /* for packetized output, we consider we can always write (the * input streams set the speed). It may be better to verify * that we do not rely too much on the kernel queues */ if (!c->is_packetized) { if (c->poll_entry->revents & (POLLERR | POLLHUP)) return -1; /* no need to read if no events */ if (!(c->poll_entry->revents & POLLOUT)) return 0; } if (http_send_data(c) < 0) return -1; /* close connection if trailer sent */ if (c->state == HTTPSTATE_SEND_DATA_TRAILER) return -1; /* Check if it is a single jpeg frame 123 */ if (c->stream->single_frame && c->data_count > c->cur_frame_bytes && c->cur_frame_bytes > 0) { close_connection(c); } break; case HTTPSTATE_RECEIVE_DATA: /* no need to read if no events */ if (c->poll_entry->revents & (POLLERR | POLLHUP)) return -1; if (!(c->poll_entry->revents & POLLIN)) return 0; if (http_receive_data(c) < 0) return -1; break; case HTTPSTATE_WAIT_FEED: /* no need to read if no events */ if (c->poll_entry->revents & (POLLIN | POLLERR | POLLHUP)) return -1; /* nothing to do, we'll be waken up by incoming feed packets */ break; case RTSPSTATE_SEND_REPLY: if (c->poll_entry->revents & (POLLERR | POLLHUP)) goto close_connection; /* no need to write if no events */ if (!(c->poll_entry->revents & POLLOUT)) return 0; len = send(c->fd, c->buffer_ptr, c->buffer_end - c->buffer_ptr, 0); if (len < 0) { if (ff_neterrno() != AVERROR(EAGAIN) && ff_neterrno() != AVERROR(EINTR)) { goto close_connection; } break; } c->buffer_ptr += len; c->data_count += len; if (c->buffer_ptr >= c->buffer_end) { /* all the buffer was sent : wait for a new request */ av_freep(&c->pb_buffer); start_wait_request(c, 1); } break; case RTSPSTATE_SEND_PACKET: if (c->poll_entry->revents & (POLLERR | POLLHUP)) { av_freep(&c->packet_buffer); return -1; } /* no need to write if no events */ if (!(c->poll_entry->revents & POLLOUT)) return 0; len = send(c->fd, c->packet_buffer_ptr, c->packet_buffer_end - c->packet_buffer_ptr, 0); if (len < 0) { if (ff_neterrno() != AVERROR(EAGAIN) && ff_neterrno() != AVERROR(EINTR)) { /* error : close connection */ av_freep(&c->packet_buffer); return -1; } break; } c->packet_buffer_ptr += len; if (c->packet_buffer_ptr >= c->packet_buffer_end) { /* all the buffer was sent : wait for a new request */ av_freep(&c->packet_buffer); c->state = RTSPSTATE_WAIT_REQUEST; } break; case HTTPSTATE_READY: /* nothing to do */ break; default: return -1; } return 0; close_connection: av_freep(&c->pb_buffer); return -1; } static int extract_rates(char *rates, int ratelen, const char *request) { const char *p; for (p = request; *p && *p != '\r' && *p != '\n'; ) { if (av_strncasecmp(p, "Pragma:", 7) == 0) { const char *q = p + 7; while (*q && *q != '\n' && av_isspace(*q)) q++; if (av_strncasecmp(q, "stream-switch-entry=", 20) == 0) { int stream_no; int rate_no; q += 20; memset(rates, 0xff, ratelen); while (1) { while (*q && *q != '\n' && *q != ':') q++; if (sscanf(q, ":%d:%d", &stream_no, &rate_no) != 2) break; stream_no--; if (stream_no < ratelen && stream_no >= 0) rates[stream_no] = rate_no; while (*q && *q != '\n' && !av_isspace(*q)) q++; } return 1; } } p = strchr(p, '\n'); if (!p) break; p++; } return 0; } static int find_stream_in_feed(FFServerStream *feed, AVCodecContext *codec, int bit_rate) { int i; int best_bitrate = 100000000; int best = -1; for (i = 0; i < feed->nb_streams; i++) { AVCodecContext *feed_codec = feed->streams[i]->codec; if (feed_codec->codec_id != codec->codec_id || feed_codec->sample_rate != codec->sample_rate || feed_codec->width != codec->width || feed_codec->height != codec->height) continue; /* Potential stream */ /* We want the fastest stream less than bit_rate, or the slowest * faster than bit_rate */ if (feed_codec->bit_rate <= bit_rate) { if (best_bitrate > bit_rate || feed_codec->bit_rate > best_bitrate) { best_bitrate = feed_codec->bit_rate; best = i; } continue; } if (feed_codec->bit_rate < best_bitrate) { best_bitrate = feed_codec->bit_rate; best = i; } } return best; } static int modify_current_stream(HTTPContext *c, char *rates) { int i; FFServerStream *req = c->stream; int action_required = 0; /* Not much we can do for a feed */ if (!req->feed) return 0; for (i = 0; i < req->nb_streams; i++) { AVCodecContext *codec = req->streams[i]->codec; switch(rates[i]) { case 0: c->switch_feed_streams[i] = req->feed_streams[i]; break; case 1: c->switch_feed_streams[i] = find_stream_in_feed(req->feed, codec, codec->bit_rate / 2); break; case 2: /* Wants off or slow */ c->switch_feed_streams[i] = find_stream_in_feed(req->feed, codec, codec->bit_rate / 4); #ifdef WANTS_OFF /* This doesn't work well when it turns off the only stream! */ c->switch_feed_streams[i] = -2; c->feed_streams[i] = -2; #endif break; } if (c->switch_feed_streams[i] >= 0 && c->switch_feed_streams[i] != c->feed_streams[i]) { action_required = 1; } } return action_required; } static void get_word(char *buf, int buf_size, const char **pp) { const char *p; char *q; p = *pp; p += strspn(p, SPACE_CHARS); q = buf; while (!av_isspace(*p) && *p != '\0') { if ((q - buf) < buf_size - 1) *q++ = *p; p++; } if (buf_size > 0) *q = '\0'; *pp = p; } static FFServerIPAddressACL* parse_dynamic_acl(FFServerStream *stream, HTTPContext *c) { FILE* f; char line[1024]; char cmd[1024]; FFServerIPAddressACL *acl = NULL; int line_num = 0; const char *p; f = fopen(stream->dynamic_acl, "r"); if (!f) { perror(stream->dynamic_acl); return NULL; } acl = av_mallocz(sizeof(FFServerIPAddressACL)); if (!acl) { fclose(f); return NULL; } /* Build ACL */ while (fgets(line, sizeof(line), f)) { line_num++; p = line; while (av_isspace(*p)) p++; if (*p == '\0' || *p == '#') continue; ffserver_get_arg(cmd, sizeof(cmd), &p); if (!av_strcasecmp(cmd, "ACL")) ffserver_parse_acl_row(NULL, NULL, acl, p, stream->dynamic_acl, line_num); } fclose(f); return acl; } static void free_acl_list(FFServerIPAddressACL *in_acl) { FFServerIPAddressACL *pacl, *pacl2; pacl = in_acl; while(pacl) { pacl2 = pacl; pacl = pacl->next; av_freep(pacl2); } } static int validate_acl_list(FFServerIPAddressACL *in_acl, HTTPContext *c) { enum FFServerIPAddressAction last_action = IP_DENY; FFServerIPAddressACL *acl; struct in_addr *src = &c->from_addr.sin_addr; unsigned long src_addr = src->s_addr; for (acl = in_acl; acl; acl = acl->next) { if (src_addr >= acl->first.s_addr && src_addr <= acl->last.s_addr) return (acl->action == IP_ALLOW) ? 1 : 0; last_action = acl->action; } /* Nothing matched, so return not the last action */ return (last_action == IP_DENY) ? 1 : 0; } static int validate_acl(FFServerStream *stream, HTTPContext *c) { int ret = 0; FFServerIPAddressACL *acl; /* if stream->acl is null validate_acl_list will return 1 */ ret = validate_acl_list(stream->acl, c); if (stream->dynamic_acl[0]) { acl = parse_dynamic_acl(stream, c); ret = validate_acl_list(acl, c); free_acl_list(acl); } return ret; } /** * compute the real filename of a file by matching it without its * extensions to all the stream's filenames */ static void compute_real_filename(char *filename, int max_size) { char file1[1024]; char file2[1024]; char *p; FFServerStream *stream; /* compute filename by matching without the file extensions */ av_strlcpy(file1, filename, sizeof(file1)); p = strrchr(file1, '.'); if (p) *p = '\0'; for(stream = config.first_stream; stream; stream = stream->next) { av_strlcpy(file2, stream->filename, sizeof(file2)); p = strrchr(file2, '.'); if (p) *p = '\0'; if (!strcmp(file1, file2)) { av_strlcpy(filename, stream->filename, max_size); break; } } } enum RedirType { REDIR_NONE, REDIR_ASX, REDIR_RAM, REDIR_ASF, REDIR_RTSP, REDIR_SDP, }; /* parse HTTP request and prepare header */ static int http_parse_request(HTTPContext *c) { const char *p; char *p1; enum RedirType redir_type; char cmd[32]; char info[1024], filename[1024]; char url[1024], *q; char protocol[32]; char msg[1024]; const char *mime_type; FFServerStream *stream; int i; char ratebuf[32]; const char *useragent = 0; p = c->buffer; get_word(cmd, sizeof(cmd), &p); av_strlcpy(c->method, cmd, sizeof(c->method)); if (!strcmp(cmd, "GET")) c->post = 0; else if (!strcmp(cmd, "POST")) c->post = 1; else return -1; get_word(url, sizeof(url), &p); av_strlcpy(c->url, url, sizeof(c->url)); get_word(protocol, sizeof(protocol), (const char **)&p); if (strcmp(protocol, "HTTP/1.0") && strcmp(protocol, "HTTP/1.1")) return -1; av_strlcpy(c->protocol, protocol, sizeof(c->protocol)); if (config.debug) http_log("%s - - New connection: %s %s\n", inet_ntoa(c->from_addr.sin_addr), cmd, url); /* find the filename and the optional info string in the request */ p1 = strchr(url, '?'); if (p1) { av_strlcpy(info, p1, sizeof(info)); *p1 = '\0'; } else info[0] = '\0'; av_strlcpy(filename, url + ((*url == '/') ? 1 : 0), sizeof(filename)-1); for (p = c->buffer; *p && *p != '\r' && *p != '\n'; ) { if (av_strncasecmp(p, "User-Agent:", 11) == 0) { useragent = p + 11; if (*useragent && *useragent != '\n' && av_isspace(*useragent)) useragent++; break; } p = strchr(p, '\n'); if (!p) break; p++; } redir_type = REDIR_NONE; if (av_match_ext(filename, "asx")) { redir_type = REDIR_ASX; filename[strlen(filename)-1] = 'f'; } else if (av_match_ext(filename, "asf") && (!useragent || av_strncasecmp(useragent, "NSPlayer", 8))) { /* if this isn't WMP or lookalike, return the redirector file */ redir_type = REDIR_ASF; } else if (av_match_ext(filename, "rpm,ram")) { redir_type = REDIR_RAM; strcpy(filename + strlen(filename)-2, "m"); } else if (av_match_ext(filename, "rtsp")) { redir_type = REDIR_RTSP; compute_real_filename(filename, sizeof(filename) - 1); } else if (av_match_ext(filename, "sdp")) { redir_type = REDIR_SDP; compute_real_filename(filename, sizeof(filename) - 1); } /* "redirect" request to index.html */ if (!strlen(filename)) av_strlcpy(filename, "index.html", sizeof(filename) - 1); stream = config.first_stream; while (stream) { if (!strcmp(stream->filename, filename) && validate_acl(stream, c)) break; stream = stream->next; } if (!stream) { snprintf(msg, sizeof(msg), "File '%s' not found", url); http_log("File '%s' not found\n", url); goto send_error; } c->stream = stream; memcpy(c->feed_streams, stream->feed_streams, sizeof(c->feed_streams)); memset(c->switch_feed_streams, -1, sizeof(c->switch_feed_streams)); if (stream->stream_type == STREAM_TYPE_REDIRECT) { c->http_error = 301; q = c->buffer; snprintf(q, c->buffer_size, "HTTP/1.0 301 Moved\r\n" "Location: %s\r\n" "Content-type: text/html\r\n" "\r\n" "Moved\r\n" "You should be redirected.\r\n" "\r\n", stream->feed_filename, stream->feed_filename); q += strlen(q); /* prepare output buffer */ c->buffer_ptr = c->buffer; c->buffer_end = q; c->state = HTTPSTATE_SEND_HEADER; return 0; } /* If this is WMP, get the rate information */ if (extract_rates(ratebuf, sizeof(ratebuf), c->buffer)) { if (modify_current_stream(c, ratebuf)) { for (i = 0; i < FF_ARRAY_ELEMS(c->feed_streams); i++) { if (c->switch_feed_streams[i] >= 0) c->switch_feed_streams[i] = -1; } } } if (c->post == 0 && stream->stream_type == STREAM_TYPE_LIVE) current_bandwidth += stream->bandwidth; /* If already streaming this feed, do not let start another feeder. */ if (stream->feed_opened) { snprintf(msg, sizeof(msg), "This feed is already being received."); http_log("Feed '%s' already being received\n", stream->feed_filename); goto send_error; } if (c->post == 0 && config.max_bandwidth < current_bandwidth) { c->http_error = 503; q = c->buffer; snprintf(q, c->buffer_size, "HTTP/1.0 503 Server too busy\r\n" "Content-type: text/html\r\n" "\r\n" "Too busy\r\n" "

The server is too busy to serve your request at this time.

\r\n" "

The bandwidth being served (including your stream) is %"PRIu64"kbit/sec, " "and this exceeds the limit of %"PRIu64"kbit/sec.

\r\n" "\r\n", current_bandwidth, config.max_bandwidth); q += strlen(q); /* prepare output buffer */ c->buffer_ptr = c->buffer; c->buffer_end = q; c->state = HTTPSTATE_SEND_HEADER; return 0; } if (redir_type != REDIR_NONE) { const char *hostinfo = 0; for (p = c->buffer; *p && *p != '\r' && *p != '\n'; ) { if (av_strncasecmp(p, "Host:", 5) == 0) { hostinfo = p + 5; break; } p = strchr(p, '\n'); if (!p) break; p++; } if (hostinfo) { char *eoh; char hostbuf[260]; while (av_isspace(*hostinfo)) hostinfo++; eoh = strchr(hostinfo, '\n'); if (eoh) { if (eoh[-1] == '\r') eoh--; if (eoh - hostinfo < sizeof(hostbuf) - 1) { memcpy(hostbuf, hostinfo, eoh - hostinfo); hostbuf[eoh - hostinfo] = 0; c->http_error = 200; q = c->buffer; switch(redir_type) { case REDIR_ASX: snprintf(q, c->buffer_size, "HTTP/1.0 200 ASX Follows\r\n" "Content-type: video/x-ms-asf\r\n" "\r\n" "\r\n" //"\r\n" "\r\n" "\r\n", hostbuf, filename, info); q += strlen(q); break; case REDIR_RAM: snprintf(q, c->buffer_size, "HTTP/1.0 200 RAM Follows\r\n" "Content-type: audio/x-pn-realaudio\r\n" "\r\n" "# Autogenerated by ffserver\r\n" "http://%s/%s%s\r\n", hostbuf, filename, info); q += strlen(q); break; case REDIR_ASF: snprintf(q, c->buffer_size, "HTTP/1.0 200 ASF Redirect follows\r\n" "Content-type: video/x-ms-asf\r\n" "\r\n" "[Reference]\r\n" "Ref1=http://%s/%s%s\r\n", hostbuf, filename, info); q += strlen(q); break; case REDIR_RTSP: { char hostname[256], *p; /* extract only hostname */ av_strlcpy(hostname, hostbuf, sizeof(hostname)); p = strrchr(hostname, ':'); if (p) *p = '\0'; snprintf(q, c->buffer_size, "HTTP/1.0 200 RTSP Redirect follows\r\n" /* XXX: incorrect MIME type ? */ "Content-type: application/x-rtsp\r\n" "\r\n" "rtsp://%s:%d/%s\r\n", hostname, ntohs(config.rtsp_addr.sin_port), filename); q += strlen(q); } break; case REDIR_SDP: { uint8_t *sdp_data; int sdp_data_size; socklen_t len; struct sockaddr_in my_addr; snprintf(q, c->buffer_size, "HTTP/1.0 200 OK\r\n" "Content-type: application/sdp\r\n" "\r\n"); q += strlen(q); len = sizeof(my_addr); /* XXX: Should probably fail? */ if (getsockname(c->fd, (struct sockaddr *)&my_addr, &len)) http_log("getsockname() failed\n"); /* XXX: should use a dynamic buffer */ sdp_data_size = prepare_sdp_description(stream, &sdp_data, my_addr.sin_addr); if (sdp_data_size > 0) { memcpy(q, sdp_data, sdp_data_size); q += sdp_data_size; *q = '\0'; av_free(sdp_data); } } break; default: abort(); break; } /* prepare output buffer */ c->buffer_ptr = c->buffer; c->buffer_end = q; c->state = HTTPSTATE_SEND_HEADER; return 0; } } } snprintf(msg, sizeof(msg), "ASX/RAM file not handled"); goto send_error; } stream->conns_served++; /* XXX: add there authenticate and IP match */ if (c->post) { /* if post, it means a feed is being sent */ if (!stream->is_feed) { /* However it might be a status report from WMP! Let us log the * data as it might come handy one day. */ const char *logline = 0; int client_id = 0; for (p = c->buffer; *p && *p != '\r' && *p != '\n'; ) { if (av_strncasecmp(p, "Pragma: log-line=", 17) == 0) { logline = p; break; } if (av_strncasecmp(p, "Pragma: client-id=", 18) == 0) client_id = strtol(p + 18, 0, 10); p = strchr(p, '\n'); if (!p) break; p++; } if (logline) { char *eol = strchr(logline, '\n'); logline += 17; if (eol) { if (eol[-1] == '\r') eol--; http_log("%.*s\n", (int) (eol - logline), logline); c->suppress_log = 1; } } #ifdef DEBUG http_log("\nGot request:\n%s\n", c->buffer); #endif if (client_id && extract_rates(ratebuf, sizeof(ratebuf), c->buffer)) { HTTPContext *wmpc; /* Now we have to find the client_id */ for (wmpc = first_http_ctx; wmpc; wmpc = wmpc->next) { if (wmpc->wmp_client_id == client_id) break; } if (wmpc && modify_current_stream(wmpc, ratebuf)) wmpc->switch_pending = 1; } snprintf(msg, sizeof(msg), "POST command not handled"); c->stream = 0; goto send_error; } if (http_start_receive_data(c) < 0) { snprintf(msg, sizeof(msg), "could not open feed"); goto send_error; } c->http_error = 0; c->state = HTTPSTATE_RECEIVE_DATA; return 0; } #ifdef DEBUG if (strcmp(stream->filename + strlen(stream->filename) - 4, ".asf") == 0) http_log("\nGot request:\n%s\n", c->buffer); #endif if (c->stream->stream_type == STREAM_TYPE_STATUS) goto send_status; /* open input stream */ if (open_input_stream(c, info) < 0) { snprintf(msg, sizeof(msg), "Input stream corresponding to '%s' not found", url); goto send_error; } /* prepare HTTP header */ c->buffer[0] = 0; av_strlcatf(c->buffer, c->buffer_size, "HTTP/1.0 200 OK\r\n"); mime_type = c->stream->fmt->mime_type; if (!mime_type) mime_type = "application/x-octet-stream"; av_strlcatf(c->buffer, c->buffer_size, "Pragma: no-cache\r\n"); /* for asf, we need extra headers */ if (!strcmp(c->stream->fmt->name,"asf_stream")) { /* Need to allocate a client id */ c->wmp_client_id = av_lfg_get(&random_state); av_strlcatf(c->buffer, c->buffer_size, "Server: Cougar 4.1.0.3923\r\nCache-Control: no-cache\r\nPragma: client-id=%d\r\nPragma: features=\"broadcast\"\r\n", c->wmp_client_id); } av_strlcatf(c->buffer, c->buffer_size, "Content-Type: %s\r\n", mime_type); av_strlcatf(c->buffer, c->buffer_size, "\r\n"); q = c->buffer + strlen(c->buffer); /* prepare output buffer */ c->http_error = 0; c->buffer_ptr = c->buffer; c->buffer_end = q; c->state = HTTPSTATE_SEND_HEADER; return 0; send_error: c->http_error = 404; q = c->buffer; htmlstrip(msg); snprintf(q, c->buffer_size, "HTTP/1.0 404 Not Found\r\n" "Content-type: text/html\r\n" "\r\n" "\n" "404 Not Found\n" "%s\n" "\n", msg); q += strlen(q); /* prepare output buffer */ c->buffer_ptr = c->buffer; c->buffer_end = q; c->state = HTTPSTATE_SEND_HEADER; return 0; send_status: compute_status(c); /* horrible: we use this value to avoid * going to the send data state */ c->http_error = 200; c->state = HTTPSTATE_SEND_HEADER; return 0; } static void fmt_bytecount(AVIOContext *pb, int64_t count) { static const char suffix[] = " kMGTP"; const char *s; for (s = suffix; count >= 100000 && s[1]; count /= 1000, s++); avio_printf(pb, "%"PRId64"%c", count, *s); } static inline void print_stream_params(AVIOContext *pb, FFServerStream *stream) { int i, stream_no; const char *type = "unknown"; char parameters[64]; AVStream *st; AVCodec *codec; stream_no = stream->nb_streams; avio_printf(pb, "
Stream" "typekbits/scodec" "Parameters\n"); for (i = 0; i < stream_no; i++) { st = stream->streams[i]; codec = avcodec_find_encoder(st->codec->codec_id); parameters[0] = 0; switch(st->codec->codec_type) { case AVMEDIA_TYPE_AUDIO: type = "audio"; snprintf(parameters, sizeof(parameters), "%d channel(s), %d Hz", st->codec->channels, st->codec->sample_rate); break; case AVMEDIA_TYPE_VIDEO: type = "video"; snprintf(parameters, sizeof(parameters), "%dx%d, q=%d-%d, fps=%d", st->codec->width, st->codec->height, st->codec->qmin, st->codec->qmax, st->codec->time_base.den / st->codec->time_base.num); break; default: abort(); } avio_printf(pb, "
%d%s%d" "%s%s\n", i, type, st->codec->bit_rate/1000, codec ? codec->name : "", parameters); } avio_printf(pb, "
\n"); } static void compute_status(HTTPContext *c) { HTTPContext *c1; FFServerStream *stream; char *p; time_t ti; int i, len; AVIOContext *pb; if (avio_open_dyn_buf(&pb) < 0) { /* XXX: return an error ? */ c->buffer_ptr = c->buffer; c->buffer_end = c->buffer; return; } avio_printf(pb, "HTTP/1.0 200 OK\r\n"); avio_printf(pb, "Content-type: text/html\r\n"); avio_printf(pb, "Pragma: no-cache\r\n"); avio_printf(pb, "\r\n"); avio_printf(pb, "%s Status\n", program_name); if (c->stream->feed_filename[0]) avio_printf(pb, "\n", c->stream->feed_filename); avio_printf(pb, "\n"); avio_printf(pb, "

%s Status

\n", program_name); /* format status */ avio_printf(pb, "

Available Streams

\n"); avio_printf(pb, "\n"); avio_printf(pb, "
PathServed
Conns

bytes
FormatBit rate
kbits/s
Video
kbits/s

Codec
Audio
kbits/s

Codec
Feed\n"); stream = config.first_stream; while (stream) { char sfilename[1024]; char *eosf; if (stream->feed == stream) { stream = stream->next; continue; } av_strlcpy(sfilename, stream->filename, sizeof(sfilename) - 10); eosf = sfilename + strlen(sfilename); if (eosf - sfilename >= 4) { if (strcmp(eosf - 4, ".asf") == 0) strcpy(eosf - 4, ".asx"); else if (strcmp(eosf - 3, ".rm") == 0) strcpy(eosf - 3, ".ram"); else if (stream->fmt && !strcmp(stream->fmt->name, "rtp")) { /* generate a sample RTSP director if * unicast. Generate an SDP redirector if * multicast */ eosf = strrchr(sfilename, '.'); if (!eosf) eosf = sfilename + strlen(sfilename); if (stream->is_multicast) strcpy(eosf, ".sdp"); else strcpy(eosf, ".rtsp"); } } avio_printf(pb, "
%s ", sfilename, stream->filename); avio_printf(pb, " %d ", stream->conns_served); fmt_bytecount(pb, stream->bytes_served); switch(stream->stream_type) { case STREAM_TYPE_LIVE: { int audio_bit_rate = 0; int video_bit_rate = 0; const char *audio_codec_name = ""; const char *video_codec_name = ""; const char *audio_codec_name_extra = ""; const char *video_codec_name_extra = ""; for(i=0;inb_streams;i++) { AVStream *st = stream->streams[i]; AVCodec *codec = avcodec_find_encoder(st->codec->codec_id); switch(st->codec->codec_type) { case AVMEDIA_TYPE_AUDIO: audio_bit_rate += st->codec->bit_rate; if (codec) { if (*audio_codec_name) audio_codec_name_extra = "..."; audio_codec_name = codec->name; } break; case AVMEDIA_TYPE_VIDEO: video_bit_rate += st->codec->bit_rate; if (codec) { if (*video_codec_name) video_codec_name_extra = "..."; video_codec_name = codec->name; } break; case AVMEDIA_TYPE_DATA: video_bit_rate += st->codec->bit_rate; break; default: abort(); } } avio_printf(pb, " %s %d " " %d %s %s " "%d %s %s", stream->fmt->name, stream->bandwidth, video_bit_rate / 1000, video_codec_name, video_codec_name_extra, audio_bit_rate / 1000, audio_codec_name, audio_codec_name_extra); if (stream->feed) avio_printf(pb, "%s", stream->feed->filename); else avio_printf(pb, "%s", stream->feed_filename); avio_printf(pb, "\n"); } break; default: avio_printf(pb, " - - " " - - \n"); break; } stream = stream->next; } avio_printf(pb, "
\n"); stream = config.first_stream; while (stream) { if (stream->feed != stream) { stream = stream->next; continue; } avio_printf(pb, "

Feed %s

", stream->filename); if (stream->pid) { avio_printf(pb, "Running as pid %"PRId64".\n", (int64_t) stream->pid); #if defined(linux) { FILE *pid_stat; char ps_cmd[64]; /* This is somewhat linux specific I guess */ snprintf(ps_cmd, sizeof(ps_cmd), "ps -o \"%%cpu,cputime\" --no-headers %"PRId64"", (int64_t) stream->pid); pid_stat = popen(ps_cmd, "r"); if (pid_stat) { char cpuperc[10]; char cpuused[64]; if (fscanf(pid_stat, "%9s %63s", cpuperc, cpuused) == 2) { avio_printf(pb, "Currently using %s%% of the cpu. " "Total time used %s.\n", cpuperc, cpuused); } fclose(pid_stat); } } #endif avio_printf(pb, "

"); } print_stream_params(pb, stream); stream = stream->next; } /* connection status */ avio_printf(pb, "

Connection Status

\n"); avio_printf(pb, "Number of connections: %d / %d
\n", nb_connections, config.nb_max_connections); avio_printf(pb, "Bandwidth in use: %"PRIu64"k / %"PRIu64"k
\n", current_bandwidth, config.max_bandwidth); avio_printf(pb, "\n"); avio_printf(pb, "
#FileIPProtoStateTarget " "bits/secActual bits/secBytes transferred\n"); c1 = first_http_ctx; i = 0; while (c1) { int bitrate; int j; bitrate = 0; if (c1->stream) { for (j = 0; j < c1->stream->nb_streams; j++) { if (!c1->stream->feed) bitrate += c1->stream->streams[j]->codec->bit_rate; else if (c1->feed_streams[j] >= 0) bitrate += c1->stream->feed->streams[c1->feed_streams[j]]->codec->bit_rate; } } i++; p = inet_ntoa(c1->from_addr.sin_addr); avio_printf(pb, "
%d%s%s%s%s%s" "", i, c1->stream ? c1->stream->filename : "", c1->state == HTTPSTATE_RECEIVE_DATA ? "(input)" : "", p, c1->protocol, http_state[c1->state]); fmt_bytecount(pb, bitrate); avio_printf(pb, ""); fmt_bytecount(pb, compute_datarate(&c1->datarate, c1->data_count) * 8); avio_printf(pb, ""); fmt_bytecount(pb, c1->data_count); avio_printf(pb, "\n"); c1 = c1->next; } avio_printf(pb, "
\n"); /* date */ ti = time(NULL); p = ctime(&ti); avio_printf(pb, "
Generated at %s", p); avio_printf(pb, "\n\n"); len = avio_close_dyn_buf(pb, &c->pb_buffer); c->buffer_ptr = c->pb_buffer; c->buffer_end = c->pb_buffer + len; } static int open_input_stream(HTTPContext *c, const char *info) { char buf[128]; char input_filename[1024]; AVFormatContext *s = NULL; int buf_size, i, ret; int64_t stream_pos; /* find file name */ if (c->stream->feed) { strcpy(input_filename, c->stream->feed->feed_filename); buf_size = FFM_PACKET_SIZE; /* compute position (absolute time) */ if (av_find_info_tag(buf, sizeof(buf), "date", info)) { if ((ret = av_parse_time(&stream_pos, buf, 0)) < 0) { http_log("Invalid date specification '%s' for stream\n", buf); return ret; } } else if (av_find_info_tag(buf, sizeof(buf), "buffer", info)) { int prebuffer = strtol(buf, 0, 10); stream_pos = av_gettime() - prebuffer * (int64_t)1000000; } else stream_pos = av_gettime() - c->stream->prebuffer * (int64_t)1000; } else { strcpy(input_filename, c->stream->feed_filename); buf_size = 0; /* compute position (relative time) */ if (av_find_info_tag(buf, sizeof(buf), "date", info)) { if ((ret = av_parse_time(&stream_pos, buf, 1)) < 0) { http_log("Invalid date specification '%s' for stream\n", buf); return ret; } } else stream_pos = 0; } if (!input_filename[0]) { http_log("No filename was specified for stream\n"); return AVERROR(EINVAL); } /* open stream */ ret = avformat_open_input(&s, input_filename, c->stream->ifmt, &c->stream->in_opts); if (ret < 0) { http_log("Could not open input '%s': %s\n", input_filename, av_err2str(ret)); return ret; } /* set buffer size */ if (buf_size > 0) { ret = ffio_set_buf_size(s->pb, buf_size); if (ret < 0) { http_log("Failed to set buffer size\n"); return ret; } } s->flags |= AVFMT_FLAG_GENPTS; c->fmt_in = s; if (strcmp(s->iformat->name, "ffm") && (ret = avformat_find_stream_info(c->fmt_in, NULL)) < 0) { http_log("Could not find stream info for input '%s'\n", input_filename); avformat_close_input(&s); return ret; } /* choose stream as clock source (we favor the video stream if * present) for packet sending */ c->pts_stream_index = 0; for(i=0;istream->nb_streams;i++) { if (c->pts_stream_index == 0 && c->stream->streams[i]->codec->codec_type == AVMEDIA_TYPE_VIDEO) { c->pts_stream_index = i; } } if (c->fmt_in->iformat->read_seek) av_seek_frame(c->fmt_in, -1, stream_pos, 0); /* set the start time (needed for maxtime and RTP packet timing) */ c->start_time = cur_time; c->first_pts = AV_NOPTS_VALUE; return 0; } /* return the server clock (in us) */ static int64_t get_server_clock(HTTPContext *c) { /* compute current pts value from system time */ return (cur_time - c->start_time) * 1000; } /* return the estimated time (in us) at which the current packet must be sent */ static int64_t get_packet_send_clock(HTTPContext *c) { int bytes_left, bytes_sent, frame_bytes; frame_bytes = c->cur_frame_bytes; if (frame_bytes <= 0) return c->cur_pts; bytes_left = c->buffer_end - c->buffer_ptr; bytes_sent = frame_bytes - bytes_left; return c->cur_pts + (c->cur_frame_duration * bytes_sent) / frame_bytes; } static int http_prepare_data(HTTPContext *c) { int i, len, ret; AVFormatContext *ctx; av_freep(&c->pb_buffer); switch(c->state) { case HTTPSTATE_SEND_DATA_HEADER: ctx = avformat_alloc_context(); if (!ctx) return AVERROR(ENOMEM); c->fmt_ctx = *ctx; av_freep(&ctx); av_dict_copy(&(c->fmt_ctx.metadata), c->stream->metadata, 0); c->fmt_ctx.streams = av_mallocz_array(c->stream->nb_streams, sizeof(AVStream *)); if (!c->fmt_ctx.streams) return AVERROR(ENOMEM); for(i=0;istream->nb_streams;i++) { AVStream *src; c->fmt_ctx.streams[i] = av_mallocz(sizeof(AVStream)); /* if file or feed, then just take streams from FFServerStream * struct */ if (!c->stream->feed || c->stream->feed == c->stream) src = c->stream->streams[i]; else src = c->stream->feed->streams[c->stream->feed_streams[i]]; *(c->fmt_ctx.streams[i]) = *src; c->fmt_ctx.streams[i]->priv_data = 0; /* XXX: should be done in AVStream, not in codec */ c->fmt_ctx.streams[i]->codec->frame_number = 0; } /* set output format parameters */ c->fmt_ctx.oformat = c->stream->fmt; c->fmt_ctx.nb_streams = c->stream->nb_streams; c->got_key_frame = 0; /* prepare header and save header data in a stream */ if (avio_open_dyn_buf(&c->fmt_ctx.pb) < 0) { /* XXX: potential leak */ return -1; } c->fmt_ctx.pb->seekable = 0; /* * HACK to avoid MPEG-PS muxer to spit many underflow errors * Default value from FFmpeg * Try to set it using configuration option */ c->fmt_ctx.max_delay = (int)(0.7*AV_TIME_BASE); if ((ret = avformat_write_header(&c->fmt_ctx, NULL)) < 0) { http_log("Error writing output header for stream '%s': %s\n", c->stream->filename, av_err2str(ret)); return ret; } av_dict_free(&c->fmt_ctx.metadata); len = avio_close_dyn_buf(c->fmt_ctx.pb, &c->pb_buffer); c->buffer_ptr = c->pb_buffer; c->buffer_end = c->pb_buffer + len; c->state = HTTPSTATE_SEND_DATA; c->last_packet_sent = 0; break; case HTTPSTATE_SEND_DATA: /* find a new packet */ /* read a packet from the input stream */ if (c->stream->feed) ffm_set_write_index(c->fmt_in, c->stream->feed->feed_write_index, c->stream->feed->feed_size); if (c->stream->max_time && c->stream->max_time + c->start_time - cur_time < 0) /* We have timed out */ c->state = HTTPSTATE_SEND_DATA_TRAILER; else { AVPacket pkt; redo: ret = av_read_frame(c->fmt_in, &pkt); if (ret < 0) { if (c->stream->feed) { /* if coming from feed, it means we reached the end of the * ffm file, so must wait for more data */ c->state = HTTPSTATE_WAIT_FEED; return 1; /* state changed */ } if (ret == AVERROR(EAGAIN)) { /* input not ready, come back later */ return 0; } if (c->stream->loop) { avformat_close_input(&c->fmt_in); if (open_input_stream(c, "") < 0) goto no_loop; goto redo; } else { no_loop: /* must send trailer now because EOF or error */ c->state = HTTPSTATE_SEND_DATA_TRAILER; } } else { int source_index = pkt.stream_index; /* update first pts if needed */ if (c->first_pts == AV_NOPTS_VALUE) { c->first_pts = av_rescale_q(pkt.dts, c->fmt_in->streams[pkt.stream_index]->time_base, AV_TIME_BASE_Q); c->start_time = cur_time; } /* send it to the appropriate stream */ if (c->stream->feed) { /* if coming from a feed, select the right stream */ if (c->switch_pending) { c->switch_pending = 0; for(i=0;istream->nb_streams;i++) { if (c->switch_feed_streams[i] == pkt.stream_index) if (pkt.flags & AV_PKT_FLAG_KEY) c->switch_feed_streams[i] = -1; if (c->switch_feed_streams[i] >= 0) c->switch_pending = 1; } } for(i=0;istream->nb_streams;i++) { if (c->stream->feed_streams[i] == pkt.stream_index) { AVStream *st = c->fmt_in->streams[source_index]; pkt.stream_index = i; if (pkt.flags & AV_PKT_FLAG_KEY && (st->codec->codec_type == AVMEDIA_TYPE_VIDEO || c->stream->nb_streams == 1)) c->got_key_frame = 1; if (!c->stream->send_on_key || c->got_key_frame) goto send_it; } } } else { AVCodecContext *codec; AVStream *ist, *ost; send_it: ist = c->fmt_in->streams[source_index]; /* specific handling for RTP: we use several * output streams (one for each RTP connection). * XXX: need more abstract handling */ if (c->is_packetized) { /* compute send time and duration */ c->cur_pts = av_rescale_q(pkt.dts, ist->time_base, AV_TIME_BASE_Q); c->cur_pts -= c->first_pts; c->cur_frame_duration = av_rescale_q(pkt.duration, ist->time_base, AV_TIME_BASE_Q); /* find RTP context */ c->packet_stream_index = pkt.stream_index; ctx = c->rtp_ctx[c->packet_stream_index]; if(!ctx) { av_free_packet(&pkt); break; } codec = ctx->streams[0]->codec; /* only one stream per RTP connection */ pkt.stream_index = 0; } else { ctx = &c->fmt_ctx; /* Fudge here */ codec = ctx->streams[pkt.stream_index]->codec; } if (c->is_packetized) { int max_packet_size; if (c->rtp_protocol == RTSP_LOWER_TRANSPORT_TCP) max_packet_size = RTSP_TCP_MAX_PACKET_SIZE; else max_packet_size = c->rtp_handles[c->packet_stream_index]->max_packet_size; ret = ffio_open_dyn_packet_buf(&ctx->pb, max_packet_size); } else ret = avio_open_dyn_buf(&ctx->pb); if (ret < 0) { /* XXX: potential leak */ return -1; } ost = ctx->streams[pkt.stream_index]; ctx->pb->seekable = 0; if (pkt.dts != AV_NOPTS_VALUE) pkt.dts = av_rescale_q(pkt.dts, ist->time_base, ost->time_base); if (pkt.pts != AV_NOPTS_VALUE) pkt.pts = av_rescale_q(pkt.pts, ist->time_base, ost->time_base); pkt.duration = av_rescale_q(pkt.duration, ist->time_base, ost->time_base); if ((ret = av_write_frame(ctx, &pkt)) < 0) { http_log("Error writing frame to output for stream '%s': %s\n", c->stream->filename, av_err2str(ret)); c->state = HTTPSTATE_SEND_DATA_TRAILER; } av_freep(&c->pb_buffer); len = avio_close_dyn_buf(ctx->pb, &c->pb_buffer); c->cur_frame_bytes = len; c->buffer_ptr = c->pb_buffer; c->buffer_end = c->pb_buffer + len; codec->frame_number++; if (len == 0) { av_free_packet(&pkt); goto redo; } } av_free_packet(&pkt); } } break; default: case HTTPSTATE_SEND_DATA_TRAILER: /* last packet test ? */ if (c->last_packet_sent || c->is_packetized) return -1; ctx = &c->fmt_ctx; /* prepare header */ if (avio_open_dyn_buf(&ctx->pb) < 0) { /* XXX: potential leak */ return -1; } c->fmt_ctx.pb->seekable = 0; av_write_trailer(ctx); len = avio_close_dyn_buf(ctx->pb, &c->pb_buffer); c->buffer_ptr = c->pb_buffer; c->buffer_end = c->pb_buffer + len; c->last_packet_sent = 1; break; } return 0; } /* should convert the format at the same time */ /* send data starting at c->buffer_ptr to the output connection * (either UDP or TCP) */ static int http_send_data(HTTPContext *c) { int len, ret; for(;;) { if (c->buffer_ptr >= c->buffer_end) { ret = http_prepare_data(c); if (ret < 0) return -1; else if (ret) /* state change requested */ break; } else { if (c->is_packetized) { /* RTP data output */ len = c->buffer_end - c->buffer_ptr; if (len < 4) { /* fail safe - should never happen */ fail1: c->buffer_ptr = c->buffer_end; return 0; } len = (c->buffer_ptr[0] << 24) | (c->buffer_ptr[1] << 16) | (c->buffer_ptr[2] << 8) | (c->buffer_ptr[3]); if (len > (c->buffer_end - c->buffer_ptr)) goto fail1; if ((get_packet_send_clock(c) - get_server_clock(c)) > 0) { /* nothing to send yet: we can wait */ return 0; } c->data_count += len; update_datarate(&c->datarate, c->data_count); if (c->stream) c->stream->bytes_served += len; if (c->rtp_protocol == RTSP_LOWER_TRANSPORT_TCP) { /* RTP packets are sent inside the RTSP TCP connection */ AVIOContext *pb; int interleaved_index, size; uint8_t header[4]; HTTPContext *rtsp_c; rtsp_c = c->rtsp_c; /* if no RTSP connection left, error */ if (!rtsp_c) return -1; /* if already sending something, then wait. */ if (rtsp_c->state != RTSPSTATE_WAIT_REQUEST) break; if (avio_open_dyn_buf(&pb) < 0) goto fail1; interleaved_index = c->packet_stream_index * 2; /* RTCP packets are sent at odd indexes */ if (c->buffer_ptr[1] == 200) interleaved_index++; /* write RTSP TCP header */ header[0] = '$'; header[1] = interleaved_index; header[2] = len >> 8; header[3] = len; avio_write(pb, header, 4); /* write RTP packet data */ c->buffer_ptr += 4; avio_write(pb, c->buffer_ptr, len); size = avio_close_dyn_buf(pb, &c->packet_buffer); /* prepare asynchronous TCP sending */ rtsp_c->packet_buffer_ptr = c->packet_buffer; rtsp_c->packet_buffer_end = c->packet_buffer + size; c->buffer_ptr += len; /* send everything we can NOW */ len = send(rtsp_c->fd, rtsp_c->packet_buffer_ptr, rtsp_c->packet_buffer_end - rtsp_c->packet_buffer_ptr, 0); if (len > 0) rtsp_c->packet_buffer_ptr += len; if (rtsp_c->packet_buffer_ptr < rtsp_c->packet_buffer_end) { /* if we could not send all the data, we will * send it later, so a new state is needed to * "lock" the RTSP TCP connection */ rtsp_c->state = RTSPSTATE_SEND_PACKET; break; } else /* all data has been sent */ av_freep(&c->packet_buffer); } else { /* send RTP packet directly in UDP */ c->buffer_ptr += 4; ffurl_write(c->rtp_handles[c->packet_stream_index], c->buffer_ptr, len); c->buffer_ptr += len; /* here we continue as we can send several packets * per 10 ms slot */ } } else { /* TCP data output */ len = send(c->fd, c->buffer_ptr, c->buffer_end - c->buffer_ptr, 0); if (len < 0) { if (ff_neterrno() != AVERROR(EAGAIN) && ff_neterrno() != AVERROR(EINTR)) /* error : close connection */ return -1; else return 0; } c->buffer_ptr += len; c->data_count += len; update_datarate(&c->datarate, c->data_count); if (c->stream) c->stream->bytes_served += len; break; } } } /* for(;;) */ return 0; } static int http_start_receive_data(HTTPContext *c) { int fd; int ret; if (c->stream->feed_opened) { http_log("Stream feed '%s' was not opened\n", c->stream->feed_filename); return AVERROR(EINVAL); } /* Don't permit writing to this one */ if (c->stream->readonly) { http_log("Cannot write to read-only file '%s'\n", c->stream->feed_filename); return AVERROR(EINVAL); } /* open feed */ fd = open(c->stream->feed_filename, O_RDWR); if (fd < 0) { ret = AVERROR(errno); http_log("Could not open feed file '%s': %s\n", c->stream->feed_filename, strerror(errno)); return ret; } c->feed_fd = fd; if (c->stream->truncate) { /* truncate feed file */ ffm_write_write_index(c->feed_fd, FFM_PACKET_SIZE); http_log("Truncating feed file '%s'\n", c->stream->feed_filename); if (ftruncate(c->feed_fd, FFM_PACKET_SIZE) < 0) { ret = AVERROR(errno); http_log("Error truncating feed file '%s': %s\n", c->stream->feed_filename, strerror(errno)); return ret; } } else { ret = ffm_read_write_index(fd); if (ret < 0) { http_log("Error reading write index from feed file '%s': %s\n", c->stream->feed_filename, strerror(errno)); return ret; } c->stream->feed_write_index = ret; } c->stream->feed_write_index = FFMAX(ffm_read_write_index(fd), FFM_PACKET_SIZE); c->stream->feed_size = lseek(fd, 0, SEEK_END); lseek(fd, 0, SEEK_SET); /* init buffer input */ c->buffer_ptr = c->buffer; c->buffer_end = c->buffer + FFM_PACKET_SIZE; c->stream->feed_opened = 1; c->chunked_encoding = !!av_stristr(c->buffer, "Transfer-Encoding: chunked"); return 0; } static int http_receive_data(HTTPContext *c) { HTTPContext *c1; int len, loop_run = 0; while (c->chunked_encoding && !c->chunk_size && c->buffer_end > c->buffer_ptr) { /* read chunk header, if present */ len = recv(c->fd, c->buffer_ptr, 1, 0); if (len < 0) { if (ff_neterrno() != AVERROR(EAGAIN) && ff_neterrno() != AVERROR(EINTR)) /* error : close connection */ goto fail; return 0; } else if (len == 0) { /* end of connection : close it */ goto fail; } else if (c->buffer_ptr - c->buffer >= 2 && !memcmp(c->buffer_ptr - 1, "\r\n", 2)) { c->chunk_size = strtol(c->buffer, 0, 16); if (c->chunk_size <= 0) { // end of stream or invalid chunk size c->chunk_size = 0; goto fail; } c->buffer_ptr = c->buffer; break; } else if (++loop_run > 10) /* no chunk header, abort */ goto fail; else c->buffer_ptr++; } if (c->buffer_end > c->buffer_ptr) { len = recv(c->fd, c->buffer_ptr, FFMIN(c->chunk_size, c->buffer_end - c->buffer_ptr), 0); if (len < 0) { if (ff_neterrno() != AVERROR(EAGAIN) && ff_neterrno() != AVERROR(EINTR)) /* error : close connection */ goto fail; } else if (len == 0) /* end of connection : close it */ goto fail; else { av_assert0(len <= c->chunk_size); c->chunk_size -= len; c->buffer_ptr += len; c->data_count += len; update_datarate(&c->datarate, c->data_count); } } if (c->buffer_ptr - c->buffer >= 2 && c->data_count > FFM_PACKET_SIZE) { if (c->buffer[0] != 'f' || c->buffer[1] != 'm') { http_log("Feed stream has become desynchronized -- disconnecting\n"); goto fail; } } if (c->buffer_ptr >= c->buffer_end) { FFServerStream *feed = c->stream; /* a packet has been received : write it in the store, except * if header */ if (c->data_count > FFM_PACKET_SIZE) { /* XXX: use llseek or url_seek * XXX: Should probably fail? */ if (lseek(c->feed_fd, feed->feed_write_index, SEEK_SET) == -1) http_log("Seek to %"PRId64" failed\n", feed->feed_write_index); if (write(c->feed_fd, c->buffer, FFM_PACKET_SIZE) < 0) { http_log("Error writing to feed file: %s\n", strerror(errno)); goto fail; } feed->feed_write_index += FFM_PACKET_SIZE; /* update file size */ if (feed->feed_write_index > c->stream->feed_size) feed->feed_size = feed->feed_write_index; /* handle wrap around if max file size reached */ if (c->stream->feed_max_size && feed->feed_write_index >= c->stream->feed_max_size) feed->feed_write_index = FFM_PACKET_SIZE; /* write index */ if (ffm_write_write_index(c->feed_fd, feed->feed_write_index) < 0) { http_log("Error writing index to feed file: %s\n", strerror(errno)); goto fail; } /* wake up any waiting connections */ for(c1 = first_http_ctx; c1; c1 = c1->next) { if (c1->state == HTTPSTATE_WAIT_FEED && c1->stream->feed == c->stream->feed) c1->state = HTTPSTATE_SEND_DATA; } } else { /* We have a header in our hands that contains useful data */ AVFormatContext *s = avformat_alloc_context(); AVIOContext *pb; AVInputFormat *fmt_in; int i; if (!s) goto fail; /* use feed output format name to find corresponding input format */ fmt_in = av_find_input_format(feed->fmt->name); if (!fmt_in) goto fail; pb = avio_alloc_context(c->buffer, c->buffer_end - c->buffer, 0, NULL, NULL, NULL, NULL); if (!pb) goto fail; pb->seekable = 0; s->pb = pb; if (avformat_open_input(&s, c->stream->feed_filename, fmt_in, NULL) < 0) { av_freep(&pb); goto fail; } /* Now we have the actual streams */ if (s->nb_streams != feed->nb_streams) { avformat_close_input(&s); av_freep(&pb); http_log("Feed '%s' stream number does not match registered feed\n", c->stream->feed_filename); goto fail; } for (i = 0; i < s->nb_streams; i++) { AVStream *fst = feed->streams[i]; AVStream *st = s->streams[i]; avcodec_copy_context(fst->codec, st->codec); } avformat_close_input(&s); av_freep(&pb); } c->buffer_ptr = c->buffer; } return 0; fail: c->stream->feed_opened = 0; close(c->feed_fd); /* wake up any waiting connections to stop waiting for feed */ for(c1 = first_http_ctx; c1; c1 = c1->next) { if (c1->state == HTTPSTATE_WAIT_FEED && c1->stream->feed == c->stream->feed) c1->state = HTTPSTATE_SEND_DATA_TRAILER; } return -1; } /********************************************************************/ /* RTSP handling */ static void rtsp_reply_header(HTTPContext *c, enum RTSPStatusCode error_number) { const char *str; time_t ti; struct tm *tm; char buf2[32]; str = RTSP_STATUS_CODE2STRING(error_number); if (!str) str = "Unknown Error"; avio_printf(c->pb, "RTSP/1.0 %d %s\r\n", error_number, str); avio_printf(c->pb, "CSeq: %d\r\n", c->seq); /* output GMT time */ ti = time(NULL); tm = gmtime(&ti); strftime(buf2, sizeof(buf2), "%a, %d %b %Y %H:%M:%S", tm); avio_printf(c->pb, "Date: %s GMT\r\n", buf2); } static void rtsp_reply_error(HTTPContext *c, enum RTSPStatusCode error_number) { rtsp_reply_header(c, error_number); avio_printf(c->pb, "\r\n"); } static int rtsp_parse_request(HTTPContext *c) { const char *p, *p1, *p2; char cmd[32]; char url[1024]; char protocol[32]; char line[1024]; int len; RTSPMessageHeader header1 = { 0 }, *header = &header1; c->buffer_ptr[0] = '\0'; p = c->buffer; get_word(cmd, sizeof(cmd), &p); get_word(url, sizeof(url), &p); get_word(protocol, sizeof(protocol), &p); av_strlcpy(c->method, cmd, sizeof(c->method)); av_strlcpy(c->url, url, sizeof(c->url)); av_strlcpy(c->protocol, protocol, sizeof(c->protocol)); if (avio_open_dyn_buf(&c->pb) < 0) { /* XXX: cannot do more */ c->pb = NULL; /* safety */ return -1; } /* check version name */ if (strcmp(protocol, "RTSP/1.0")) { rtsp_reply_error(c, RTSP_STATUS_VERSION); goto the_end; } /* parse each header line */ /* skip to next line */ while (*p != '\n' && *p != '\0') p++; if (*p == '\n') p++; while (*p != '\0') { p1 = memchr(p, '\n', (char *)c->buffer_ptr - p); if (!p1) break; p2 = p1; if (p2 > p && p2[-1] == '\r') p2--; /* skip empty line */ if (p2 == p) break; len = p2 - p; if (len > sizeof(line) - 1) len = sizeof(line) - 1; memcpy(line, p, len); line[len] = '\0'; ff_rtsp_parse_line(header, line, NULL, NULL); p = p1 + 1; } /* handle sequence number */ c->seq = header->seq; if (!strcmp(cmd, "DESCRIBE")) rtsp_cmd_describe(c, url); else if (!strcmp(cmd, "OPTIONS")) rtsp_cmd_options(c, url); else if (!strcmp(cmd, "SETUP")) rtsp_cmd_setup(c, url, header); else if (!strcmp(cmd, "PLAY")) rtsp_cmd_play(c, url, header); else if (!strcmp(cmd, "PAUSE")) rtsp_cmd_interrupt(c, url, header, 1); else if (!strcmp(cmd, "TEARDOWN")) rtsp_cmd_interrupt(c, url, header, 0); else rtsp_reply_error(c, RTSP_STATUS_METHOD); the_end: len = avio_close_dyn_buf(c->pb, &c->pb_buffer); c->pb = NULL; /* safety */ if (len < 0) /* XXX: cannot do more */ return -1; c->buffer_ptr = c->pb_buffer; c->buffer_end = c->pb_buffer + len; c->state = RTSPSTATE_SEND_REPLY; return 0; } static int prepare_sdp_description(FFServerStream *stream, uint8_t **pbuffer, struct in_addr my_ip) { AVFormatContext *avc; AVStream *avs = NULL; AVOutputFormat *rtp_format = av_guess_format("rtp", NULL, NULL); AVDictionaryEntry *entry = av_dict_get(stream->metadata, "title", NULL, 0); int i; *pbuffer = NULL; avc = avformat_alloc_context(); if (!avc || !rtp_format) return -1; avc->oformat = rtp_format; av_dict_set(&avc->metadata, "title", entry ? entry->value : "No Title", 0); avc->nb_streams = stream->nb_streams; if (stream->is_multicast) { snprintf(avc->filename, 1024, "rtp://%s:%d?multicast=1?ttl=%d", inet_ntoa(stream->multicast_ip), stream->multicast_port, stream->multicast_ttl); } else snprintf(avc->filename, 1024, "rtp://0.0.0.0"); avc->streams = av_malloc_array(avc->nb_streams, sizeof(*avc->streams)); if (!avc->streams) goto sdp_done; avs = av_malloc_array(avc->nb_streams, sizeof(*avs)); if (!avs) goto sdp_done; for(i = 0; i < stream->nb_streams; i++) { avc->streams[i] = &avs[i]; avc->streams[i]->codec = stream->streams[i]->codec; } *pbuffer = av_mallocz(2048); if (!*pbuffer) goto sdp_done; av_sdp_create(&avc, 1, *pbuffer, 2048); sdp_done: av_freep(&avc->streams); av_dict_free(&avc->metadata); av_free(avc); av_free(avs); return *pbuffer ? strlen(*pbuffer) : AVERROR(ENOMEM); } static void rtsp_cmd_options(HTTPContext *c, const char *url) { /* rtsp_reply_header(c, RTSP_STATUS_OK); */ avio_printf(c->pb, "RTSP/1.0 %d %s\r\n", RTSP_STATUS_OK, "OK"); avio_printf(c->pb, "CSeq: %d\r\n", c->seq); avio_printf(c->pb, "Public: %s\r\n", "OPTIONS, DESCRIBE, SETUP, TEARDOWN, PLAY, PAUSE"); avio_printf(c->pb, "\r\n"); } static void rtsp_cmd_describe(HTTPContext *c, const char *url) { FFServerStream *stream; char path1[1024]; const char *path; uint8_t *content; int content_length; socklen_t len; struct sockaddr_in my_addr; /* find which URL is asked */ av_url_split(NULL, 0, NULL, 0, NULL, 0, NULL, path1, sizeof(path1), url); path = path1; if (*path == '/') path++; for(stream = config.first_stream; stream; stream = stream->next) { if (!stream->is_feed && stream->fmt && !strcmp(stream->fmt->name, "rtp") && !strcmp(path, stream->filename)) { goto found; } } /* no stream found */ rtsp_reply_error(c, RTSP_STATUS_NOT_FOUND); return; found: /* prepare the media description in SDP format */ /* get the host IP */ len = sizeof(my_addr); getsockname(c->fd, (struct sockaddr *)&my_addr, &len); content_length = prepare_sdp_description(stream, &content, my_addr.sin_addr); if (content_length < 0) { rtsp_reply_error(c, RTSP_STATUS_INTERNAL); return; } rtsp_reply_header(c, RTSP_STATUS_OK); avio_printf(c->pb, "Content-Base: %s/\r\n", url); avio_printf(c->pb, "Content-Type: application/sdp\r\n"); avio_printf(c->pb, "Content-Length: %d\r\n", content_length); avio_printf(c->pb, "\r\n"); avio_write(c->pb, content, content_length); av_free(content); } static HTTPContext *find_rtp_session(const char *session_id) { HTTPContext *c; if (session_id[0] == '\0') return NULL; for(c = first_http_ctx; c; c = c->next) { if (!strcmp(c->session_id, session_id)) return c; } return NULL; } static RTSPTransportField *find_transport(RTSPMessageHeader *h, enum RTSPLowerTransport lower_transport) { RTSPTransportField *th; int i; for(i=0;inb_transports;i++) { th = &h->transports[i]; if (th->lower_transport == lower_transport) return th; } return NULL; } static void rtsp_cmd_setup(HTTPContext *c, const char *url, RTSPMessageHeader *h) { FFServerStream *stream; int stream_index, rtp_port, rtcp_port; char buf[1024]; char path1[1024]; const char *path; HTTPContext *rtp_c; RTSPTransportField *th; struct sockaddr_in dest_addr; RTSPActionServerSetup setup; /* find which URL is asked */ av_url_split(NULL, 0, NULL, 0, NULL, 0, NULL, path1, sizeof(path1), url); path = path1; if (*path == '/') path++; /* now check each stream */ for(stream = config.first_stream; stream; stream = stream->next) { if (stream->is_feed || !stream->fmt || strcmp(stream->fmt->name, "rtp")) { continue; } /* accept aggregate filenames only if single stream */ if (!strcmp(path, stream->filename)) { if (stream->nb_streams != 1) { rtsp_reply_error(c, RTSP_STATUS_AGGREGATE); return; } stream_index = 0; goto found; } for(stream_index = 0; stream_index < stream->nb_streams; stream_index++) { snprintf(buf, sizeof(buf), "%s/streamid=%d", stream->filename, stream_index); if (!strcmp(path, buf)) goto found; } } /* no stream found */ rtsp_reply_error(c, RTSP_STATUS_SERVICE); /* XXX: right error ? */ return; found: /* generate session id if needed */ if (h->session_id[0] == '\0') { unsigned random0 = av_lfg_get(&random_state); unsigned random1 = av_lfg_get(&random_state); snprintf(h->session_id, sizeof(h->session_id), "%08x%08x", random0, random1); } /* find RTP session, and create it if none found */ rtp_c = find_rtp_session(h->session_id); if (!rtp_c) { /* always prefer UDP */ th = find_transport(h, RTSP_LOWER_TRANSPORT_UDP); if (!th) { th = find_transport(h, RTSP_LOWER_TRANSPORT_TCP); if (!th) { rtsp_reply_error(c, RTSP_STATUS_TRANSPORT); return; } } rtp_c = rtp_new_connection(&c->from_addr, stream, h->session_id, th->lower_transport); if (!rtp_c) { rtsp_reply_error(c, RTSP_STATUS_BANDWIDTH); return; } /* open input stream */ if (open_input_stream(rtp_c, "") < 0) { rtsp_reply_error(c, RTSP_STATUS_INTERNAL); return; } } /* test if stream is OK (test needed because several SETUP needs * to be done for a given file) */ if (rtp_c->stream != stream) { rtsp_reply_error(c, RTSP_STATUS_SERVICE); return; } /* test if stream is already set up */ if (rtp_c->rtp_ctx[stream_index]) { rtsp_reply_error(c, RTSP_STATUS_STATE); return; } /* check transport */ th = find_transport(h, rtp_c->rtp_protocol); if (!th || (th->lower_transport == RTSP_LOWER_TRANSPORT_UDP && th->client_port_min <= 0)) { rtsp_reply_error(c, RTSP_STATUS_TRANSPORT); return; } /* setup default options */ setup.transport_option[0] = '\0'; dest_addr = rtp_c->from_addr; dest_addr.sin_port = htons(th->client_port_min); /* setup stream */ if (rtp_new_av_stream(rtp_c, stream_index, &dest_addr, c) < 0) { rtsp_reply_error(c, RTSP_STATUS_TRANSPORT); return; } /* now everything is OK, so we can send the connection parameters */ rtsp_reply_header(c, RTSP_STATUS_OK); /* session ID */ avio_printf(c->pb, "Session: %s\r\n", rtp_c->session_id); switch(rtp_c->rtp_protocol) { case RTSP_LOWER_TRANSPORT_UDP: rtp_port = ff_rtp_get_local_rtp_port(rtp_c->rtp_handles[stream_index]); rtcp_port = ff_rtp_get_local_rtcp_port(rtp_c->rtp_handles[stream_index]); avio_printf(c->pb, "Transport: RTP/AVP/UDP;unicast;" "client_port=%d-%d;server_port=%d-%d", th->client_port_min, th->client_port_max, rtp_port, rtcp_port); break; case RTSP_LOWER_TRANSPORT_TCP: avio_printf(c->pb, "Transport: RTP/AVP/TCP;interleaved=%d-%d", stream_index * 2, stream_index * 2 + 1); break; default: break; } if (setup.transport_option[0] != '\0') avio_printf(c->pb, ";%s", setup.transport_option); avio_printf(c->pb, "\r\n"); avio_printf(c->pb, "\r\n"); } /** * find an RTP connection by using the session ID. Check consistency * with filename */ static HTTPContext *find_rtp_session_with_url(const char *url, const char *session_id) { HTTPContext *rtp_c; char path1[1024]; const char *path; char buf[1024]; int s, len; rtp_c = find_rtp_session(session_id); if (!rtp_c) return NULL; /* find which URL is asked */ av_url_split(NULL, 0, NULL, 0, NULL, 0, NULL, path1, sizeof(path1), url); path = path1; if (*path == '/') path++; if(!strcmp(path, rtp_c->stream->filename)) return rtp_c; for(s=0; sstream->nb_streams; ++s) { snprintf(buf, sizeof(buf), "%s/streamid=%d", rtp_c->stream->filename, s); if(!strncmp(path, buf, sizeof(buf))) /* XXX: Should we reply with RTSP_STATUS_ONLY_AGGREGATE * if nb_streams>1? */ return rtp_c; } len = strlen(path); if (len > 0 && path[len - 1] == '/' && !strncmp(path, rtp_c->stream->filename, len - 1)) return rtp_c; return NULL; } static void rtsp_cmd_play(HTTPContext *c, const char *url, RTSPMessageHeader *h) { HTTPContext *rtp_c; rtp_c = find_rtp_session_with_url(url, h->session_id); if (!rtp_c) { rtsp_reply_error(c, RTSP_STATUS_SESSION); return; } if (rtp_c->state != HTTPSTATE_SEND_DATA && rtp_c->state != HTTPSTATE_WAIT_FEED && rtp_c->state != HTTPSTATE_READY) { rtsp_reply_error(c, RTSP_STATUS_STATE); return; } rtp_c->state = HTTPSTATE_SEND_DATA; /* now everything is OK, so we can send the connection parameters */ rtsp_reply_header(c, RTSP_STATUS_OK); /* session ID */ avio_printf(c->pb, "Session: %s\r\n", rtp_c->session_id); avio_printf(c->pb, "\r\n"); } static void rtsp_cmd_interrupt(HTTPContext *c, const char *url, RTSPMessageHeader *h, int pause_only) { HTTPContext *rtp_c; rtp_c = find_rtp_session_with_url(url, h->session_id); if (!rtp_c) { rtsp_reply_error(c, RTSP_STATUS_SESSION); return; } if (pause_only) { if (rtp_c->state != HTTPSTATE_SEND_DATA && rtp_c->state != HTTPSTATE_WAIT_FEED) { rtsp_reply_error(c, RTSP_STATUS_STATE); return; } rtp_c->state = HTTPSTATE_READY; rtp_c->first_pts = AV_NOPTS_VALUE; } /* now everything is OK, so we can send the connection parameters */ rtsp_reply_header(c, RTSP_STATUS_OK); /* session ID */ avio_printf(c->pb, "Session: %s\r\n", rtp_c->session_id); avio_printf(c->pb, "\r\n"); if (!pause_only) close_connection(rtp_c); } /********************************************************************/ /* RTP handling */ static HTTPContext *rtp_new_connection(struct sockaddr_in *from_addr, FFServerStream *stream, const char *session_id, enum RTSPLowerTransport rtp_protocol) { HTTPContext *c = NULL; const char *proto_str; /* XXX: should output a warning page when coming * close to the connection limit */ if (nb_connections >= config.nb_max_connections) goto fail; /* add a new connection */ c = av_mallocz(sizeof(HTTPContext)); if (!c) goto fail; c->fd = -1; c->poll_entry = NULL; c->from_addr = *from_addr; c->buffer_size = IOBUFFER_INIT_SIZE; c->buffer = av_malloc(c->buffer_size); if (!c->buffer) goto fail; nb_connections++; c->stream = stream; av_strlcpy(c->session_id, session_id, sizeof(c->session_id)); c->state = HTTPSTATE_READY; c->is_packetized = 1; c->rtp_protocol = rtp_protocol; /* protocol is shown in statistics */ switch(c->rtp_protocol) { case RTSP_LOWER_TRANSPORT_UDP_MULTICAST: proto_str = "MCAST"; break; case RTSP_LOWER_TRANSPORT_UDP: proto_str = "UDP"; break; case RTSP_LOWER_TRANSPORT_TCP: proto_str = "TCP"; break; default: proto_str = "???"; break; } av_strlcpy(c->protocol, "RTP/", sizeof(c->protocol)); av_strlcat(c->protocol, proto_str, sizeof(c->protocol)); current_bandwidth += stream->bandwidth; c->next = first_http_ctx; first_http_ctx = c; return c; fail: if (c) { av_freep(&c->buffer); av_free(c); } return NULL; } /** * add a new RTP stream in an RTP connection (used in RTSP SETUP * command). If RTP/TCP protocol is used, TCP connection 'rtsp_c' is * used. */ static int rtp_new_av_stream(HTTPContext *c, int stream_index, struct sockaddr_in *dest_addr, HTTPContext *rtsp_c) { AVFormatContext *ctx; AVStream *st; char *ipaddr; URLContext *h = NULL; uint8_t *dummy_buf; int max_packet_size; /* now we can open the relevant output stream */ ctx = avformat_alloc_context(); if (!ctx) return -1; ctx->oformat = av_guess_format("rtp", NULL, NULL); st = av_mallocz(sizeof(AVStream)); if (!st) goto fail; ctx->nb_streams = 1; ctx->streams = av_mallocz_array(ctx->nb_streams, sizeof(AVStream *)); if (!ctx->streams) goto fail; ctx->streams[0] = st; if (!c->stream->feed || c->stream->feed == c->stream) memcpy(st, c->stream->streams[stream_index], sizeof(AVStream)); else memcpy(st, c->stream->feed->streams[c->stream->feed_streams[stream_index]], sizeof(AVStream)); st->priv_data = NULL; /* build destination RTP address */ ipaddr = inet_ntoa(dest_addr->sin_addr); switch(c->rtp_protocol) { case RTSP_LOWER_TRANSPORT_UDP: case RTSP_LOWER_TRANSPORT_UDP_MULTICAST: /* RTP/UDP case */ /* XXX: also pass as parameter to function ? */ if (c->stream->is_multicast) { int ttl; ttl = c->stream->multicast_ttl; if (!ttl) ttl = 16; snprintf(ctx->filename, sizeof(ctx->filename), "rtp://%s:%d?multicast=1&ttl=%d", ipaddr, ntohs(dest_addr->sin_port), ttl); } else { snprintf(ctx->filename, sizeof(ctx->filename), "rtp://%s:%d", ipaddr, ntohs(dest_addr->sin_port)); } if (ffurl_open(&h, ctx->filename, AVIO_FLAG_WRITE, NULL, NULL) < 0) goto fail; c->rtp_handles[stream_index] = h; max_packet_size = h->max_packet_size; break; case RTSP_LOWER_TRANSPORT_TCP: /* RTP/TCP case */ c->rtsp_c = rtsp_c; max_packet_size = RTSP_TCP_MAX_PACKET_SIZE; break; default: goto fail; } http_log("%s:%d - - \"PLAY %s/streamid=%d %s\"\n", ipaddr, ntohs(dest_addr->sin_port), c->stream->filename, stream_index, c->protocol); /* normally, no packets should be output here, but the packet size may * be checked */ if (ffio_open_dyn_packet_buf(&ctx->pb, max_packet_size) < 0) /* XXX: close stream */ goto fail; if (avformat_write_header(ctx, NULL) < 0) { fail: if (h) ffurl_close(h); av_free(st); av_free(ctx); return -1; } avio_close_dyn_buf(ctx->pb, &dummy_buf); av_free(dummy_buf); c->rtp_ctx[stream_index] = ctx; return 0; } /********************************************************************/ /* ffserver initialization */ static AVStream *add_av_stream1(FFServerStream *stream, AVCodecContext *codec, int copy) { AVStream *fst; if(stream->nb_streams >= FF_ARRAY_ELEMS(stream->streams)) return NULL; fst = av_mallocz(sizeof(AVStream)); if (!fst) return NULL; if (copy) { fst->codec = avcodec_alloc_context3(codec->codec); if (!fst->codec) { av_free(fst); return NULL; } avcodec_copy_context(fst->codec, codec); } else /* live streams must use the actual feed's codec since it may be * updated later to carry extradata needed by them. */ fst->codec = codec; fst->priv_data = av_mallocz(sizeof(FeedData)); fst->index = stream->nb_streams; avpriv_set_pts_info(fst, 33, 1, 90000); fst->sample_aspect_ratio = codec->sample_aspect_ratio; stream->streams[stream->nb_streams++] = fst; return fst; } /* return the stream number in the feed */ static int add_av_stream(FFServerStream *feed, AVStream *st) { AVStream *fst; AVCodecContext *av, *av1; int i; av = st->codec; for(i=0;inb_streams;i++) { av1 = feed->streams[i]->codec; if (av1->codec_id == av->codec_id && av1->codec_type == av->codec_type && av1->bit_rate == av->bit_rate) { switch(av->codec_type) { case AVMEDIA_TYPE_AUDIO: if (av1->channels == av->channels && av1->sample_rate == av->sample_rate) return i; break; case AVMEDIA_TYPE_VIDEO: if (av1->width == av->width && av1->height == av->height && av1->time_base.den == av->time_base.den && av1->time_base.num == av->time_base.num && av1->gop_size == av->gop_size) return i; break; default: abort(); } } } fst = add_av_stream1(feed, av, 0); if (!fst) return -1; if (av_stream_get_recommended_encoder_configuration(st)) av_stream_set_recommended_encoder_configuration(fst, av_strdup(av_stream_get_recommended_encoder_configuration(st))); return feed->nb_streams - 1; } static void remove_stream(FFServerStream *stream) { FFServerStream **ps; ps = &config.first_stream; while (*ps) { if (*ps == stream) *ps = (*ps)->next; else ps = &(*ps)->next; } } /* specific MPEG4 handling : we extract the raw parameters */ static void extract_mpeg4_header(AVFormatContext *infile) { int mpeg4_count, i, size; AVPacket pkt; AVStream *st; const uint8_t *p; infile->flags |= AVFMT_FLAG_NOFILLIN | AVFMT_FLAG_NOPARSE; mpeg4_count = 0; for(i=0;inb_streams;i++) { st = infile->streams[i]; if (st->codec->codec_id == AV_CODEC_ID_MPEG4 && st->codec->extradata_size == 0) { mpeg4_count++; } } if (!mpeg4_count) return; printf("MPEG4 without extra data: trying to find header in %s\n", infile->filename); while (mpeg4_count > 0) { if (av_read_frame(infile, &pkt) < 0) break; st = infile->streams[pkt.stream_index]; if (st->codec->codec_id == AV_CODEC_ID_MPEG4 && st->codec->extradata_size == 0) { av_freep(&st->codec->extradata); /* fill extradata with the header */ /* XXX: we make hard suppositions here ! */ p = pkt.data; while (p < pkt.data + pkt.size - 4) { /* stop when vop header is found */ if (p[0] == 0x00 && p[1] == 0x00 && p[2] == 0x01 && p[3] == 0xb6) { size = p - pkt.data; st->codec->extradata = av_mallocz(size + AV_INPUT_BUFFER_PADDING_SIZE); st->codec->extradata_size = size; memcpy(st->codec->extradata, pkt.data, size); break; } p++; } mpeg4_count--; } av_free_packet(&pkt); } } /* compute the needed AVStream for each file */ static void build_file_streams(void) { FFServerStream *stream, *stream_next; int i, ret; /* gather all streams */ for(stream = config.first_stream; stream; stream = stream_next) { AVFormatContext *infile = NULL; stream_next = stream->next; if (stream->stream_type == STREAM_TYPE_LIVE && !stream->feed) { /* the stream comes from a file */ /* try to open the file */ /* open stream */ if (stream->fmt && !strcmp(stream->fmt->name, "rtp")) { /* specific case : if transport stream output to RTP, * we use a raw transport stream reader */ av_dict_set(&stream->in_opts, "mpeg2ts_compute_pcr", "1", 0); } if (!stream->feed_filename[0]) { http_log("Unspecified feed file for stream '%s'\n", stream->filename); goto fail; } http_log("Opening feed file '%s' for stream '%s'\n", stream->feed_filename, stream->filename); ret = avformat_open_input(&infile, stream->feed_filename, stream->ifmt, &stream->in_opts); if (ret < 0) { http_log("Could not open '%s': %s\n", stream->feed_filename, av_err2str(ret)); /* remove stream (no need to spend more time on it) */ fail: remove_stream(stream); } else { /* find all the AVStreams inside and reference them in * 'stream' */ if (avformat_find_stream_info(infile, NULL) < 0) { http_log("Could not find codec parameters from '%s'\n", stream->feed_filename); avformat_close_input(&infile); goto fail; } extract_mpeg4_header(infile); for(i=0;inb_streams;i++) add_av_stream1(stream, infile->streams[i]->codec, 1); avformat_close_input(&infile); } } } } /* compute the needed AVStream for each feed */ static void build_feed_streams(void) { FFServerStream *stream, *feed; int i; /* gather all streams */ for(stream = config.first_stream; stream; stream = stream->next) { feed = stream->feed; if (!feed) continue; if (stream->is_feed) { for(i=0;inb_streams;i++) stream->feed_streams[i] = i; } else { /* we handle a stream coming from a feed */ for(i=0;inb_streams;i++) stream->feed_streams[i] = add_av_stream(feed, stream->streams[i]); } } /* create feed files if needed */ for(feed = config.first_feed; feed; feed = feed->next_feed) { int fd; if (avio_check(feed->feed_filename, AVIO_FLAG_READ) > 0) { /* See if it matches */ AVFormatContext *s = NULL; int matches = 0; if (avformat_open_input(&s, feed->feed_filename, NULL, NULL) >= 0) { /* set buffer size */ int ret = ffio_set_buf_size(s->pb, FFM_PACKET_SIZE); if (ret < 0) { http_log("Failed to set buffer size\n"); exit(1); } /* Now see if it matches */ if (s->nb_streams == feed->nb_streams) { matches = 1; for(i=0;inb_streams;i++) { AVStream *sf, *ss; sf = feed->streams[i]; ss = s->streams[i]; if (sf->index != ss->index || sf->id != ss->id) { http_log("Index & Id do not match for stream %d (%s)\n", i, feed->feed_filename); matches = 0; } else { AVCodecContext *ccf, *ccs; ccf = sf->codec; ccs = ss->codec; #define CHECK_CODEC(x) (ccf->x != ccs->x) if (CHECK_CODEC(codec_id) || CHECK_CODEC(codec_type)) { http_log("Codecs do not match for stream %d\n", i); matches = 0; } else if (CHECK_CODEC(bit_rate) || CHECK_CODEC(flags)) { http_log("Codec bitrates do not match for stream %d\n", i); matches = 0; } else if (ccf->codec_type == AVMEDIA_TYPE_VIDEO) { if (CHECK_CODEC(time_base.den) || CHECK_CODEC(time_base.num) || CHECK_CODEC(width) || CHECK_CODEC(height)) { http_log("Codec width, height and framerate do not match for stream %d\n", i); matches = 0; } } else if (ccf->codec_type == AVMEDIA_TYPE_AUDIO) { if (CHECK_CODEC(sample_rate) || CHECK_CODEC(channels) || CHECK_CODEC(frame_size)) { http_log("Codec sample_rate, channels, frame_size do not match for stream %d\n", i); matches = 0; } } else { http_log("Unknown codec type\n"); matches = 0; } } if (!matches) break; } } else http_log("Deleting feed file '%s' as stream counts differ (%d != %d)\n", feed->feed_filename, s->nb_streams, feed->nb_streams); avformat_close_input(&s); } else http_log("Deleting feed file '%s' as it appears to be corrupt\n", feed->feed_filename); if (!matches) { if (feed->readonly) { http_log("Unable to delete feed file '%s' as it is marked readonly\n", feed->feed_filename); exit(1); } unlink(feed->feed_filename); } } if (avio_check(feed->feed_filename, AVIO_FLAG_WRITE) <= 0) { AVFormatContext *s = avformat_alloc_context(); if (!s) { http_log("Failed to allocate context\n"); exit(1); } if (feed->readonly) { http_log("Unable to create feed file '%s' as it is marked readonly\n", feed->feed_filename); exit(1); } /* only write the header of the ffm file */ if (avio_open(&s->pb, feed->feed_filename, AVIO_FLAG_WRITE) < 0) { http_log("Could not open output feed file '%s'\n", feed->feed_filename); exit(1); } s->oformat = feed->fmt; s->nb_streams = feed->nb_streams; s->streams = feed->streams; if (avformat_write_header(s, NULL) < 0) { http_log("Container doesn't support the required parameters\n"); exit(1); } /* XXX: need better API */ av_freep(&s->priv_data); avio_closep(&s->pb); s->streams = NULL; s->nb_streams = 0; avformat_free_context(s); } /* get feed size and write index */ fd = open(feed->feed_filename, O_RDONLY); if (fd < 0) { http_log("Could not open output feed file '%s'\n", feed->feed_filename); exit(1); } feed->feed_write_index = FFMAX(ffm_read_write_index(fd), FFM_PACKET_SIZE); feed->feed_size = lseek(fd, 0, SEEK_END); /* ensure that we do not wrap before the end of file */ if (feed->feed_max_size && feed->feed_max_size < feed->feed_size) feed->feed_max_size = feed->feed_size; close(fd); } } /* compute the bandwidth used by each stream */ static void compute_bandwidth(void) { unsigned bandwidth; int i; FFServerStream *stream; for(stream = config.first_stream; stream; stream = stream->next) { bandwidth = 0; for(i=0;inb_streams;i++) { AVStream *st = stream->streams[i]; switch(st->codec->codec_type) { case AVMEDIA_TYPE_AUDIO: case AVMEDIA_TYPE_VIDEO: bandwidth += st->codec->bit_rate; break; default: break; } } stream->bandwidth = (bandwidth + 999) / 1000; } } static void handle_child_exit(int sig) { pid_t pid; int status, uptime; while ((pid = waitpid(-1, &status, WNOHANG)) > 0) { FFServerStream *feed; for (feed = config.first_feed; feed; feed = feed->next) { if (feed->pid != pid) continue; uptime = time(0) - feed->pid_start; feed->pid = 0; fprintf(stderr, "%s: Pid %"PRId64" exited with status %d after %d seconds\n", feed->filename, (int64_t) pid, status, uptime); if (uptime < 30) /* Turn off any more restarts */ ffserver_free_child_args(&feed->child_argv); } } need_to_start_children = 1; } static void opt_debug(void) { config.debug = 1; snprintf(config.logfilename, sizeof(config.logfilename), "-"); } void show_help_default(const char *opt, const char *arg) { printf("usage: ffserver [options]\n" "Hyper fast multi format Audio/Video streaming server\n"); printf("\n"); show_help_options(options, "Main options:", 0, 0, 0); } static const OptionDef options[] = { #include "cmdutils_common_opts.h" { "n", OPT_BOOL, {(void *)&no_launch }, "enable no-launch mode" }, { "d", 0, {(void*)opt_debug}, "enable debug mode" }, { "f", HAS_ARG | OPT_STRING, {(void*)&config.filename }, "use configfile instead of /etc/ffserver.conf", "configfile" }, { NULL }, }; int main(int argc, char **argv) { struct sigaction sigact = { { 0 } }; int ret = 0; init_dynload(); config.filename = av_strdup("/etc/ffserver.conf"); parse_loglevel(argc, argv, options); av_register_all(); avformat_network_init(); show_banner(argc, argv, options); my_program_name = argv[0]; parse_options(NULL, argc, argv, options, NULL); unsetenv("http_proxy"); /* Kill the http_proxy */ av_lfg_init(&random_state, av_get_random_seed()); sigact.sa_handler = handle_child_exit; sigact.sa_flags = SA_NOCLDSTOP | SA_RESTART; sigaction(SIGCHLD, &sigact, 0); if ((ret = ffserver_parse_ffconfig(config.filename, &config)) < 0) { fprintf(stderr, "Error reading configuration file '%s': %s\n", config.filename, av_err2str(ret)); exit(1); } av_freep(&config.filename); /* open log file if needed */ if (config.logfilename[0] != '\0') { if (!strcmp(config.logfilename, "-")) logfile = stdout; else logfile = fopen(config.logfilename, "a"); av_log_set_callback(http_av_log); } build_file_streams(); build_feed_streams(); compute_bandwidth(); /* signal init */ signal(SIGPIPE, SIG_IGN); if (http_server() < 0) { http_log("Could not start server\n"); exit(1); } return 0; }