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ffmpeg/ffserver.c
Michael Niedermayer bb3ed3bae6 Merge remote-tracking branch 'qatar/master' 
* qatar/master:
  fate: Add FATE tests for the Ut Video encoder
  lavc: add Ut Video encoder
  mpegvideo_enc: remove stray duplicate line from 7f9aaa4
  swscale: x86: fix #endif comments in rgb2rgb template file
  avconv: mark more options as expert.
  avconv: split printing "main options" into global and per-file.
  avconv: refactor help printing.

Conflicts:
	Changelog
	ffmpeg_opt.c
	ffserver.c
	libavcodec/version.h

Merged-by: Michael Niedermayer <michaelni@gmx.at>
2012-08-20 17:31:55 +02:00

4745 lines
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/*
* 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 <string.h>
#include <stdlib.h>
#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/rtsp.h"
#include "libavformat/avio_internal.h"
#include "libavformat/internal.h"
#include "libavformat/url.h"
#include "libavutil/avstring.h"
#include "libavutil/lfg.h"
#include "libavutil/dict.h"
#include "libavutil/mathematics.h"
#include "libavutil/random_seed.h"
#include "libavutil/parseutils.h"
#include "libavutil/opt.h"
#include <stdarg.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/ioctl.h>
#if HAVE_POLL_H
#include <poll.h>
#endif
#include <errno.h>
#include <time.h>
#include <sys/wait.h>
#include <signal.h>
#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif
#include "cmdutils.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 *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 MAX_STREAMS 20
#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 FFStream *stream;
/* -1 is invalid stream */
int feed_streams[MAX_STREAMS]; /* index of streams in the feed */
int switch_feed_streams[MAX_STREAMS]; /* index of streams in the feed */
int switch_pending;
AVFormatContext fmt_ctx; /* instance of FFStream 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[MAX_STREAMS];
/* RTP/UDP specific */
URLContext *rtp_handles[MAX_STREAMS];
/* RTP/TCP specific */
struct HTTPContext *rtsp_c;
uint8_t *packet_buffer, *packet_buffer_ptr, *packet_buffer_end;
} HTTPContext;
/* each generated stream is described here */
enum StreamType {
STREAM_TYPE_LIVE,
STREAM_TYPE_STATUS,
STREAM_TYPE_REDIRECT,
};
enum IPAddressAction {
IP_ALLOW = 1,
IP_DENY,
};
typedef struct IPAddressACL {
struct IPAddressACL *next;
enum IPAddressAction action;
/* These are in host order */
struct in_addr first;
struct in_addr last;
} IPAddressACL;
/* description of each stream of the ffserver.conf file */
typedef struct FFStream {
enum StreamType stream_type;
char filename[1024]; /* stream filename */
struct FFStream *feed; /* feed we are using (can be null if
coming from file) */
AVDictionary *in_opts; /* input parameters */
AVInputFormat *ifmt; /* if non NULL, force input format */
AVOutputFormat *fmt;
IPAddressACL *acl;
char dynamic_acl[1024];
int nb_streams;
int prebuffer; /* Number of millseconds early to start */
int64_t max_time; /* Number of milliseconds to run */
int send_on_key;
AVStream *streams[MAX_STREAMS];
int feed_streams[MAX_STREAMS]; /* index of streams in the feed */
char feed_filename[1024]; /* file name of the feed storage, or
input file name for a stream */
char author[512];
char title[512];
char copyright[512];
char comment[512];
pid_t pid; /* Of ffmpeg process */
time_t pid_start; /* Of ffmpeg process */
char **child_argv;
struct FFStream *next;
unsigned bandwidth; /* bandwidth, in kbits/s */
/* RTSP options */
char *rtsp_option;
/* multicast specific */
int is_multicast;
struct in_addr multicast_ip;
int multicast_port; /* first port used for multicast */
int multicast_ttl;
int loop; /* if true, send the stream in loops (only meaningful if file) */
/* feed specific */
int feed_opened; /* true if someone is writing to the feed */
int is_feed; /* true if it is a feed */
int readonly; /* True if writing is prohibited to the file */
int truncate; /* True if feeder connection truncate the feed file */
int conns_served;
int64_t bytes_served;
int64_t feed_max_size; /* maximum storage size, zero means unlimited */
int64_t feed_write_index; /* current write position in feed (it wraps around) */
int64_t feed_size; /* current size of feed */
struct FFStream *next_feed;
} FFStream;
typedef struct FeedData {
long long data_count;
float avg_frame_size; /* frame size averaged over last frames with exponential mean */
} FeedData;
static struct sockaddr_in my_http_addr;
static struct sockaddr_in my_rtsp_addr;
static char logfilename[1024];
static HTTPContext *first_http_ctx;
static FFStream *first_feed; /* contains only feeds */
static FFStream *first_stream; /* contains all streams, including feeds */
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 int http_parse_request(HTTPContext *c);
static int http_send_data(HTTPContext *c);
static void compute_status(HTTPContext *c);
static int open_input_stream(HTTPContext *c, const char *info);
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_pause(HTTPContext *c, const char *url, RTSPMessageHeader *h);
static void rtsp_cmd_teardown(HTTPContext *c, const char *url, RTSPMessageHeader *h);
/* SDP handling */
static int prepare_sdp_description(FFStream *stream, uint8_t **pbuffer,
struct in_addr my_ip);
/* RTP handling */
static HTTPContext *rtp_new_connection(struct sockaddr_in *from_addr,
FFStream *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 const char *my_program_dir;
static const char *config_filename = "/etc/ffserver.conf";
static int ffserver_debug;
static int ffserver_daemon;
static int no_launch;
static int need_to_start_children;
/* maximum number of simultaneous HTTP connections */
static unsigned int nb_max_http_connections = 2000;
static unsigned int nb_max_connections = 5;
static unsigned int nb_connections;
static uint64_t max_bandwidth = 1000;
static uint64_t current_bandwidth;
static int64_t cur_time; // Making this global saves on passing it around everywhere
static AVLFG random_state;
static FILE *logfile = NULL;
/* FIXME: make ffserver work with IPv6 */
void av_noreturn exit_program(int ret)
{
exit(ret);
}
/* resolve host with also IP address parsing */
static int resolve_host(struct in_addr *sin_addr, const char *hostname)
{
if (!ff_inet_aton(hostname, sin_addr)) {
#if HAVE_GETADDRINFO
struct addrinfo *ai, *cur;
struct addrinfo hints = { 0 };
hints.ai_family = AF_INET;
if (getaddrinfo(hostname, NULL, &hints, &ai))
return -1;
/* getaddrinfo returns a linked list of addrinfo structs.
* Even if we set ai_family = AF_INET above, make sure
* that the returned one actually is of the correct type. */
for (cur = ai; cur; cur = cur->ai_next) {
if (cur->ai_family == AF_INET) {
*sin_addr = ((struct sockaddr_in *)cur->ai_addr)->sin_addr;
freeaddrinfo(ai);
return 0;
}
}
freeaddrinfo(ai);
return -1;
#else
struct hostent *hp;
hp = gethostbyname(hostname);
if (!hp)
return -1;
memcpy(sin_addr, hp->h_addr_list[0], sizeof(struct in_addr));
#endif
}
return 0;
}
static char *ctime1(char *buf2)
{
time_t ti;
char *p;
ti = time(NULL);
p = ctime(&ti);
strcpy(buf2, p);
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;
if (logfile) {
if (print_prefix) {
char buf[32];
ctime1(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(FFStream *feed)
{
if (no_launch)
return;
for (; feed; feed = feed->next) {
if (feed->child_argv && !feed->pid) {
feed->pid_start = time(0);
feed->pid = fork();
if (feed->pid < 0) {
http_log("Unable to create children\n");
exit(1);
}
if (!feed->pid) {
/* In child */
char pathname[1024];
char *slash;
int i;
av_strlcpy(pathname, my_program_name, sizeof(pathname));
slash = strrchr(pathname, '/');
if (!slash)
slash = pathname;
else
slash++;
strcpy(slash, "ffmpeg");
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 (!ffserver_debug) {
i = open("/dev/null", O_RDWR);
if (i != -1) {
dup2(i, 0);
dup2(i, 1);
dup2(i, 2);
close(i);
}
}
/* This is needed to make relative pathnames work */
if (chdir(my_program_dir) < 0) {
http_log("chdir failed\n");
exit(1);
}
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;
setsockopt(server_fd, SOL_SOCKET, SO_REUSEADDR, &tmp, sizeof(tmp));
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;
}
ff_socket_nonblock(server_fd, 1);
return server_fd;
}
/* start all multicast streams */
static void start_multicast(void)
{
FFStream *stream;
char session_id[32];
HTTPContext *rtp_c;
struct sockaddr_in dest_addr;
int default_port, stream_index;
default_port = 6000;
for(stream = first_stream; stream != NULL; stream = stream->next) {
if (stream->is_multicast) {
/* open the RTP connection */
snprintf(session_id, sizeof(session_id), "%08x%08x",
av_lfg_get(&random_state), av_lfg_get(&random_state));
/* 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) {
http_log("Could not open output stream '%s/streamid=%d'\n",
stream->filename, stream_index);
exit(1);
}
}
/* change state to send data */
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, delay1;
struct pollfd *poll_table, *poll_entry;
HTTPContext *c, *c_next;
if(!(poll_table = av_mallocz((nb_max_http_connections + 2)*sizeof(*poll_table)))) {
http_log("Impossible to allocate a poll table handling %d connections.\n", nb_max_http_connections);
return -1;
}
if (my_http_addr.sin_port) {
server_fd = socket_open_listen(&my_http_addr);
if (server_fd < 0)
return -1;
}
if (my_rtsp_addr.sin_port) {
rtsp_server_fd = socket_open_listen(&my_rtsp_addr);
if (rtsp_server_fd < 0)
return -1;
}
if (!rtsp_server_fd && !server_fd) {
http_log("HTTP and RTSP disabled.\n");
return -1;
}
http_log("FFserver started.\n");
start_children(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 != NULL) {
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 need to be sent every
10 ms */
delay1 = 10; /* one tick wait XXX: 10 ms assumed */
if (delay1 < delay)
delay = delay1;
}
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))
return -1;
} while (ret < 0);
cur_time = av_gettime() / 1000;
if (need_to_start_children) {
need_to_start_children = 0;
start_children(first_feed);
}
/* now handle the events */
for(c = first_http_ctx; c != NULL; c = c_next) {
c_next = c->next;
if (handle_connection(c) < 0) {
/* close and free the connection */
log_connection(c);
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' */
if (is_rtsp) {
c->timeout = cur_time + RTSP_REQUEST_TIMEOUT;
c->state = RTSPSTATE_WAIT_REQUEST;
} else {
c->timeout = cur_time + HTTP_REQUEST_TIMEOUT;
c->state = HTTPSTATE_WAIT_REQUEST;
}
}
static void http_send_too_busy_reply(int fd)
{
char buffer[300];
int len = snprintf(buffer, sizeof(buffer),
"HTTP/1.0 503 Server too busy\r\n"
"Content-type: text/html\r\n"
"\r\n"
"<html><head><title>Too busy</title></head><body>\r\n"
"<p>The server is too busy to serve your request at this time.</p>\r\n"
"<p>The number of current connections is %d, and this exceeds the limit of %d.</p>\r\n"
"</body></html>\r\n",
nb_connections, nb_max_connections);
send(fd, buffer, len, 0);
}
static void new_connection(int server_fd, int is_rtsp)
{
struct sockaddr_in from_addr;
int fd, len;
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;
}
ff_socket_nonblock(fd, 1);
if (nb_connections >= 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_free(c->buffer);
av_free(c);
}
closesocket(fd);
}
static void close_connection(HTTPContext *c)
{
HTTPContext **cp, *c1;
int i, nb_streams;
AVFormatContext *ctx;
URLContext *h;
AVStream *st;
/* remove connection from list */
cp = &first_http_ctx;
while ((*cp) != NULL) {
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 != NULL; 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;i<c->fmt_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;i<nb_streams;i++) {
ctx = c->rtp_ctx[i];
if (ctx) {
av_write_trailer(ctx);
av_dict_free(&ctx->metadata);
av_free(ctx->streams[0]);
av_free(ctx);
}
h = c->rtp_handles[i];
if (h)
ffurl_close(h);
}
ctx = &c->fmt_ctx;
if (!c->last_packet_sent && c->state == HTTPSTATE_SEND_DATA_TRAILER) {
if (ctx->oformat) {
/* prepare header */
if (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; i<ctx->nb_streams; i++)
av_free(ctx->streams[i]);
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_free(c->buffer);
av_free(c);
nb_connections--;
}
static int handle_connection(HTTPContext *c)
{
int len, ret;
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:
len = recv(c->fd, c->buffer_ptr, 1, 0);
if (len < 0) {
if (ff_neterrno() != AVERROR(EAGAIN) &&
ff_neterrno() != AVERROR(EINTR))
return -1;
} else if (len == 0) {
return -1;
} else {
/* search for end of request. */
uint8_t *ptr;
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)) {
/* error : close connection */
av_freep(&c->pb_buffer);
return -1;
}
} else {
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 sets 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;
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)) {
av_freep(&c->pb_buffer);
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)) {
/* error : close connection */
av_freep(&c->pb_buffer);
return -1;
}
} else {
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;
}
} else {
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;
}
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' && 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' && !isspace(*q))
q++;
}
return 1;
}
}
p = strchr(p, '\n');
if (!p)
break;
p++;
}
return 0;
}
static int find_stream_in_feed(FFStream *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;
}
} else {
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;
FFStream *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;
}
/* XXX: factorize in utils.c ? */
/* XXX: take care with different space meaning */
static void skip_spaces(const char **pp)
{
const char *p;
p = *pp;
while (*p == ' ' || *p == '\t')
p++;
*pp = p;
}
static void get_word(char *buf, int buf_size, const char **pp)
{
const char *p;
char *q;
p = *pp;
skip_spaces(&p);
q = buf;
while (!isspace(*p) && *p != '\0') {
if ((q - buf) < buf_size - 1)
*q++ = *p;
p++;
}
if (buf_size > 0)
*q = '\0';
*pp = p;
}
static void get_arg(char *buf, int buf_size, const char **pp)
{
const char *p;
char *q;
int quote;
p = *pp;
while (isspace(*p)) p++;
q = buf;
quote = 0;
if (*p == '\"' || *p == '\'')
quote = *p++;
for(;;) {
if (quote) {
if (*p == quote)
break;
} else {
if (isspace(*p))
break;
}
if (*p == '\0')
break;
if ((q - buf) < buf_size - 1)
*q++ = *p;
p++;
}
*q = '\0';
if (quote && *p == quote)
p++;
*pp = p;
}
static void parse_acl_row(FFStream *stream, FFStream* feed, IPAddressACL *ext_acl,
const char *p, const char *filename, int line_num)
{
char arg[1024];
IPAddressACL acl;
int errors = 0;
get_arg(arg, sizeof(arg), &p);
if (av_strcasecmp(arg, "allow") == 0)
acl.action = IP_ALLOW;
else if (av_strcasecmp(arg, "deny") == 0)
acl.action = IP_DENY;
else {
fprintf(stderr, "%s:%d: ACL action '%s' is not ALLOW or DENY\n",
filename, line_num, arg);
errors++;
}
get_arg(arg, sizeof(arg), &p);
if (resolve_host(&acl.first, arg) != 0) {
fprintf(stderr, "%s:%d: ACL refers to invalid host or ip address '%s'\n",
filename, line_num, arg);
errors++;
} else
acl.last = acl.first;
get_arg(arg, sizeof(arg), &p);
if (arg[0]) {
if (resolve_host(&acl.last, arg) != 0) {
fprintf(stderr, "%s:%d: ACL refers to invalid host or ip address '%s'\n",
filename, line_num, arg);
errors++;
}
}
if (!errors) {
IPAddressACL *nacl = av_mallocz(sizeof(*nacl));
IPAddressACL **naclp = 0;
acl.next = 0;
*nacl = acl;
if (stream)
naclp = &stream->acl;
else if (feed)
naclp = &feed->acl;
else if (ext_acl)
naclp = &ext_acl;
else {
fprintf(stderr, "%s:%d: ACL found not in <stream> or <feed>\n",
filename, line_num);
errors++;
}
if (naclp) {
while (*naclp)
naclp = &(*naclp)->next;
*naclp = nacl;
}
}
}
static IPAddressACL* parse_dynamic_acl(FFStream *stream, HTTPContext *c)
{
FILE* f;
char line[1024];
char cmd[1024];
IPAddressACL *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(IPAddressACL));
/* Build ACL */
for(;;) {
if (fgets(line, sizeof(line), f) == NULL)
break;
line_num++;
p = line;
while (isspace(*p))
p++;
if (*p == '\0' || *p == '#')
continue;
get_arg(cmd, sizeof(cmd), &p);
if (!av_strcasecmp(cmd, "ACL"))
parse_acl_row(NULL, NULL, acl, p, stream->dynamic_acl, line_num);
}
fclose(f);
return acl;
}
static void free_acl_list(IPAddressACL *in_acl)
{
IPAddressACL *pacl,*pacl2;
pacl = in_acl;
while(pacl) {
pacl2 = pacl;
pacl = pacl->next;
av_freep(pacl2);
}
}
static int validate_acl_list(IPAddressACL *in_acl, HTTPContext *c)
{
enum IPAddressAction last_action = IP_DENY;
IPAddressACL *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(FFStream *stream, HTTPContext *c)
{
int ret = 0;
IPAddressACL *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 filenames */
static void compute_real_filename(char *filename, int max_size)
{
char file1[1024];
char file2[1024];
char *p;
FFStream *stream;
/* compute filename by matching without the file extensions */
av_strlcpy(file1, filename, sizeof(file1));
p = strrchr(file1, '.');
if (p)
*p = '\0';
for(stream = first_stream; stream != NULL; 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)
{
char *p;
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;
FFStream *stream;
int i;
char ratebuf[32];
char *useragent = 0;
p = c->buffer;
get_word(cmd, sizeof(cmd), (const char **)&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), (const char **)&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 (ffserver_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 */
p = strchr(url, '?');
if (p) {
av_strlcpy(info, p, sizeof(info));
*p = '\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' && 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) != 0)) {
/* 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 = first_stream;
while (stream != NULL) {
if (!strcmp(stream->filename, filename) && validate_acl(stream, c))
break;
stream = stream->next;
}
if (stream == NULL) {
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;
q += snprintf(q, c->buffer_size,
"HTTP/1.0 301 Moved\r\n"
"Location: %s\r\n"
"Content-type: text/html\r\n"
"\r\n"
"<html><head><title>Moved</title></head><body>\r\n"
"You should be <a href=\"%s\">redirected</a>.\r\n"
"</body></html>\r\n", stream->feed_filename, stream->feed_filename);
/* 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 && max_bandwidth < current_bandwidth) {
c->http_error = 503;
q = c->buffer;
q += snprintf(q, c->buffer_size,
"HTTP/1.0 503 Server too busy\r\n"
"Content-type: text/html\r\n"
"\r\n"
"<html><head><title>Too busy</title></head><body>\r\n"
"<p>The server is too busy to serve your request at this time.</p>\r\n"
"<p>The bandwidth being served (including your stream) is %"PRIu64"kbit/sec, "
"and this exceeds the limit of %"PRIu64"kbit/sec.</p>\r\n"
"</body></html>\r\n", current_bandwidth, max_bandwidth);
/* prepare output buffer */
c->buffer_ptr = c->buffer;
c->buffer_end = q;
c->state = HTTPSTATE_SEND_HEADER;
return 0;
}
if (redir_type != REDIR_NONE) {
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 (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:
q += snprintf(q, c->buffer_size,
"HTTP/1.0 200 ASX Follows\r\n"
"Content-type: video/x-ms-asf\r\n"
"\r\n"
"<ASX Version=\"3\">\r\n"
//"<!-- Autogenerated by ffserver -->\r\n"
"<ENTRY><REF HREF=\"http://%s/%s%s\"/></ENTRY>\r\n"
"</ASX>\r\n", hostbuf, filename, info);
break;
case REDIR_RAM:
q += 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);
break;
case REDIR_ASF:
q += 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);
break;
case REDIR_RTSP:
{
char hostname[256], *p;
/* extract only hostname */
av_strlcpy(hostname, hostbuf, sizeof(hostname));
p = strrchr(hostname, ':');
if (p)
*p = '\0';
q += 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(my_rtsp_addr.sin_port), filename);
}
break;
case REDIR_SDP:
{
uint8_t *sdp_data;
int sdp_data_size, len;
struct sockaddr_in my_addr;
q += snprintf(q, c->buffer_size,
"HTTP/1.0 200 OK\r\n"
"Content-type: application/sdp\r\n"
"\r\n");
len = sizeof(my_addr);
getsockname(c->fd, (struct sockaddr *)&my_addr, &len);
/* 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 in handy one day. */
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 */
q = c->buffer;
q += snprintf(q, q - (char *) 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";
q += snprintf(q, q - (char *) 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);
q += snprintf(q, q - (char *) 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);
}
q += snprintf(q, q - (char *) c->buffer + c->buffer_size, "Content-Type: %s\r\n", mime_type);
q += snprintf(q, q - (char *) c->buffer + c->buffer_size, "\r\n");
/* 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;
q += snprintf(q, c->buffer_size,
"HTTP/1.0 404 Not Found\r\n"
"Content-type: text/html\r\n"
"\r\n"
"<html>\n"
"<head><title>404 Not Found</title></head>\n"
"<body>%s</body>\n"
"</html>\n", msg);
/* prepare output buffer */
c->buffer_ptr = c->buffer;
c->buffer_end = q;
c->state = HTTPSTATE_SEND_HEADER;
return 0;
send_status:
compute_status(c);
c->http_error = 200; /* horrible : we use this value to avoid
going to the send data state */
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 void compute_status(HTTPContext *c)
{
HTTPContext *c1;
FFStream *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: %s\r\n", "text/html");
avio_printf(pb, "Pragma: no-cache\r\n");
avio_printf(pb, "\r\n");
avio_printf(pb, "<html><head><title>%s Status</title>\n", program_name);
if (c->stream->feed_filename[0])
avio_printf(pb, "<link rel=\"shortcut icon\" href=\"%s\">\n", c->stream->feed_filename);
avio_printf(pb, "</head>\n<body>");
avio_printf(pb, "<h1>%s Status</h1>\n", program_name);
/* format status */
avio_printf(pb, "<h2>Available Streams</h2>\n");
avio_printf(pb, "<table cellspacing=0 cellpadding=4>\n");
avio_printf(pb, "<tr><th valign=top>Path<th align=left>Served<br>Conns<th><br>bytes<th valign=top>Format<th>Bit rate<br>kbits/s<th align=left>Video<br>kbits/s<th><br>Codec<th align=left>Audio<br>kbits/s<th><br>Codec<th align=left valign=top>Feed\n");
stream = first_stream;
while (stream != NULL) {
char sfilename[1024];
char *eosf;
if (stream->feed != stream) {
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, "<tr><td><a href=\"/%s\">%s</a> ",
sfilename, stream->filename);
avio_printf(pb, "<td align=right> %d <td align=right> ",
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;i<stream->nb_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, "<td align=center> %s <td align=right> %d <td align=right> %d <td> %s %s <td align=right> %d <td> %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, "<td>%s", stream->feed->filename);
else
avio_printf(pb, "<td>%s", stream->feed_filename);
avio_printf(pb, "\n");
}
break;
default:
avio_printf(pb, "<td align=center> - <td align=right> - <td align=right> - <td><td align=right> - <td>\n");
break;
}
}
stream = stream->next;
}
avio_printf(pb, "</table>\n");
stream = first_stream;
while (stream != NULL) {
if (stream->feed == stream) {
avio_printf(pb, "<h2>Feed %s</h2>", stream->filename);
if (stream->pid) {
avio_printf(pb, "Running as pid %d.\n", stream->pid);
#if defined(linux) && !defined(CONFIG_NOCUTILS)
{
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 %d",
stream->pid);
pid_stat = popen(ps_cmd, "r");
if (pid_stat) {
char cpuperc[10];
char cpuused[64];
if (fscanf(pid_stat, "%10s %64s", 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, "<p>");
}
avio_printf(pb, "<table cellspacing=0 cellpadding=4><tr><th>Stream<th>type<th>kbits/s<th align=left>codec<th align=left>Parameters\n");
for (i = 0; i < stream->nb_streams; i++) {
AVStream *st = stream->streams[i];
AVCodec *codec = avcodec_find_encoder(st->codec->codec_id);
const char *type = "unknown";
char parameters[64