av/rtmp/rtmp_c/rtmpsrv.c

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2018-04-19 07:07:15 +03:00
/* Simple RTMP Server
* Copyright (C) 2009 Andrej Stepanchuk
* Copyright (C) 2009-2011 Howard Chu
*
* This Program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This Program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with RTMPDump; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
* http://www.gnu.org/copyleft/gpl.html
*
*/
/* This is just a stub for an RTMP server. It doesn't do anything
* beyond obtaining the connection parameters from the client.
*/
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include <limits.h>
#include <signal.h>
#include <getopt.h>
#include <assert.h>
#include "librtmp/rtmp_sys.h"
#include "librtmp/log.h"
#include "thread.h"
#ifdef linux
#include <linux/netfilter_ipv4.h>
#endif
#ifndef WIN32
#include <sys/types.h>
#include <sys/wait.h>
#endif
#define RD_SUCCESS 0
#define RD_FAILED 1
#define RD_INCOMPLETE 2
#define PACKET_SIZE 1024*1024
#ifdef WIN32
#define InitSockets() {\
WORD version; \
WSADATA wsaData; \
\
version = MAKEWORD(1,1); \
WSAStartup(version, &wsaData); }
#define CleanupSockets() WSACleanup()
#else
#define InitSockets()
#define CleanupSockets()
#endif
#define DUPTIME 5000 /* interval we disallow duplicate requests, in msec */
enum
{
STREAMING_ACCEPTING,
STREAMING_IN_PROGRESS,
STREAMING_STOPPING,
STREAMING_STOPPED
};
typedef struct
{
int socket;
int state;
int streamID;
int arglen;
int argc;
uint32_t filetime; /* time of last download we started */
AVal filename; /* name of last download */
char *connect;
} STREAMING_SERVER;
STREAMING_SERVER *rtmpServer = 0; // server structure pointer
void *sslCtx = NULL;
STREAMING_SERVER *startStreaming(const char *address, int port);
void stopStreaming(STREAMING_SERVER * server);
void AVreplace(AVal *src, const AVal *orig, const AVal *repl);
static const AVal av_dquote = AVC("\"");
static const AVal av_escdquote = AVC("\\\"");
typedef struct
{
char *hostname;
int rtmpport;
int protocol;
int bLiveStream; // is it a live stream? then we can't seek/resume
long int timeout; // timeout connection afte 300 seconds
uint32_t bufferTime;
char *rtmpurl;
AVal playpath;
AVal swfUrl;
AVal tcUrl;
AVal pageUrl;
AVal app;
AVal auth;
AVal swfHash;
AVal flashVer;
AVal subscribepath;
uint32_t swfSize;
uint32_t dStartOffset;
uint32_t dStopOffset;
uint32_t nTimeStamp;
} RTMP_REQUEST;
#define STR2AVAL(av,str) av.av_val = str; av.av_len = strlen(av.av_val)
/* this request is formed from the parameters and used to initialize a new request,
* thus it is a default settings list. All settings can be overriden by specifying the
* parameters in the GET request. */
RTMP_REQUEST defaultRTMPRequest;
#ifdef _DEBUG
uint32_t debugTS = 0;
int pnum = 0;
FILE *netstackdump = NULL;
FILE *netstackdump_read = NULL;
#endif
#define SAVC(x) static const AVal av_##x = AVC(#x)
SAVC(app);
SAVC(connect);
SAVC(flashVer);
SAVC(swfUrl);
SAVC(pageUrl);
SAVC(tcUrl);
SAVC(fpad);
SAVC(capabilities);
SAVC(audioCodecs);
SAVC(videoCodecs);
SAVC(videoFunction);
SAVC(objectEncoding);
SAVC(_result);
SAVC(createStream);
SAVC(getStreamLength);
SAVC(play);
SAVC(fmsVer);
SAVC(mode);
SAVC(level);
SAVC(code);
SAVC(description);
SAVC(secureToken);
static int
SendConnectResult(RTMP *r, double txn)
{
RTMPPacket packet;
char pbuf[384], *pend = pbuf+sizeof(pbuf);
AMFObject obj;
AMFObjectProperty p, op;
AVal av;
packet.m_nChannel = 0x03; // control channel (invoke)
packet.m_headerType = 1; /* RTMP_PACKET_SIZE_MEDIUM; */
packet.m_packetType = RTMP_PACKET_TYPE_INVOKE;
packet.m_nTimeStamp = 0;
packet.m_nInfoField2 = 0;
packet.m_hasAbsTimestamp = 0;
packet.m_body = pbuf + RTMP_MAX_HEADER_SIZE;
char *enc = packet.m_body;
enc = AMF_EncodeString(enc, pend, &av__result);
enc = AMF_EncodeNumber(enc, pend, txn);
*enc++ = AMF_OBJECT;
STR2AVAL(av, "FMS/3,5,1,525");
enc = AMF_EncodeNamedString(enc, pend, &av_fmsVer, &av);
enc = AMF_EncodeNamedNumber(enc, pend, &av_capabilities, 31.0);
enc = AMF_EncodeNamedNumber(enc, pend, &av_mode, 1.0);
*enc++ = 0;
*enc++ = 0;
*enc++ = AMF_OBJECT_END;
*enc++ = AMF_OBJECT;
STR2AVAL(av, "status");
enc = AMF_EncodeNamedString(enc, pend, &av_level, &av);
STR2AVAL(av, "NetConnection.Connect.Success");
enc = AMF_EncodeNamedString(enc, pend, &av_code, &av);
STR2AVAL(av, "Connection succeeded.");
enc = AMF_EncodeNamedString(enc, pend, &av_description, &av);
enc = AMF_EncodeNamedNumber(enc, pend, &av_objectEncoding, r->m_fEncoding);
#if 0
STR2AVAL(av, "58656322c972d6cdf2d776167575045f8484ea888e31c086f7b5ffbd0baec55ce442c2fb");
enc = AMF_EncodeNamedString(enc, pend, &av_secureToken, &av);
#endif
STR2AVAL(p.p_name, "version");
STR2AVAL(p.p_vu.p_aval, "3,5,1,525");
p.p_type = AMF_STRING;
obj.o_num = 1;
obj.o_props = &p;
op.p_type = AMF_OBJECT;
STR2AVAL(op.p_name, "data");
op.p_vu.p_object = obj;
enc = AMFProp_Encode(&op, enc, pend);
*enc++ = 0;
*enc++ = 0;
*enc++ = AMF_OBJECT_END;
packet.m_nBodySize = enc - packet.m_body;
return RTMP_SendPacket(r, &packet, FALSE);
}
static int
SendResultNumber(RTMP *r, double txn, double ID)
{
RTMPPacket packet;
char pbuf[256], *pend = pbuf+sizeof(pbuf);
packet.m_nChannel = 0x03; // control channel (invoke)
packet.m_headerType = 1; /* RTMP_PACKET_SIZE_MEDIUM; */
packet.m_packetType = RTMP_PACKET_TYPE_INVOKE;
packet.m_nTimeStamp = 0;
packet.m_nInfoField2 = 0;
packet.m_hasAbsTimestamp = 0;
packet.m_body = pbuf + RTMP_MAX_HEADER_SIZE;
char *enc = packet.m_body;
enc = AMF_EncodeString(enc, pend, &av__result);
enc = AMF_EncodeNumber(enc, pend, txn);
*enc++ = AMF_NULL;
enc = AMF_EncodeNumber(enc, pend, ID);
packet.m_nBodySize = enc - packet.m_body;
return RTMP_SendPacket(r, &packet, FALSE);
}
SAVC(onStatus);
SAVC(status);
static const AVal av_NetStream_Play_Start = AVC("NetStream.Play.Start");
static const AVal av_Started_playing = AVC("Started playing");
static const AVal av_NetStream_Play_Stop = AVC("NetStream.Play.Stop");
static const AVal av_Stopped_playing = AVC("Stopped playing");
SAVC(details);
SAVC(clientid);
static const AVal av_NetStream_Authenticate_UsherToken = AVC("NetStream.Authenticate.UsherToken");
static int
SendPlayStart(RTMP *r)
{
RTMPPacket packet;
char pbuf[512], *pend = pbuf+sizeof(pbuf);
packet.m_nChannel = 0x03; // control channel (invoke)
packet.m_headerType = 1; /* RTMP_PACKET_SIZE_MEDIUM; */
packet.m_packetType = RTMP_PACKET_TYPE_INVOKE;
packet.m_nTimeStamp = 0;
packet.m_nInfoField2 = 0;
packet.m_hasAbsTimestamp = 0;
packet.m_body = pbuf + RTMP_MAX_HEADER_SIZE;
char *enc = packet.m_body;
enc = AMF_EncodeString(enc, pend, &av_onStatus);
enc = AMF_EncodeNumber(enc, pend, 0);
*enc++ = AMF_OBJECT;
enc = AMF_EncodeNamedString(enc, pend, &av_level, &av_status);
enc = AMF_EncodeNamedString(enc, pend, &av_code, &av_NetStream_Play_Start);
enc = AMF_EncodeNamedString(enc, pend, &av_description, &av_Started_playing);
enc = AMF_EncodeNamedString(enc, pend, &av_details, &r->Link.playpath);
enc = AMF_EncodeNamedString(enc, pend, &av_clientid, &av_clientid);
*enc++ = 0;
*enc++ = 0;
*enc++ = AMF_OBJECT_END;
packet.m_nBodySize = enc - packet.m_body;
return RTMP_SendPacket(r, &packet, FALSE);
}
static int
SendPlayStop(RTMP *r)
{
RTMPPacket packet;
char pbuf[512], *pend = pbuf+sizeof(pbuf);
packet.m_nChannel = 0x03; // control channel (invoke)
packet.m_headerType = 1; /* RTMP_PACKET_SIZE_MEDIUM; */
packet.m_packetType = RTMP_PACKET_TYPE_INVOKE;
packet.m_nTimeStamp = 0;
packet.m_nInfoField2 = 0;
packet.m_hasAbsTimestamp = 0;
packet.m_body = pbuf + RTMP_MAX_HEADER_SIZE;
char *enc = packet.m_body;
enc = AMF_EncodeString(enc, pend, &av_onStatus);
enc = AMF_EncodeNumber(enc, pend, 0);
*enc++ = AMF_OBJECT;
enc = AMF_EncodeNamedString(enc, pend, &av_level, &av_status);
enc = AMF_EncodeNamedString(enc, pend, &av_code, &av_NetStream_Play_Stop);
enc = AMF_EncodeNamedString(enc, pend, &av_description, &av_Stopped_playing);
enc = AMF_EncodeNamedString(enc, pend, &av_details, &r->Link.playpath);
enc = AMF_EncodeNamedString(enc, pend, &av_clientid, &av_clientid);
*enc++ = 0;
*enc++ = 0;
*enc++ = AMF_OBJECT_END;
packet.m_nBodySize = enc - packet.m_body;
return RTMP_SendPacket(r, &packet, FALSE);
}
static void
spawn_dumper(int argc, AVal *av, char *cmd)
{
#ifdef WIN32
STARTUPINFO si = {0};
PROCESS_INFORMATION pi = {0};
si.cb = sizeof(si);
if (CreateProcess(NULL, cmd, NULL, NULL, FALSE, 0, NULL, NULL,
&si, &pi))
{
CloseHandle(pi.hThread);
CloseHandle(pi.hProcess);
}
#else
/* reap any dead children */
while (waitpid(-1, NULL, WNOHANG) > 0);
if (fork() == 0) {
char **argv = malloc((argc+1) * sizeof(char *));
int i;
for (i=0; i<argc; i++) {
argv[i] = av[i].av_val;
argv[i][av[i].av_len] = '\0';
}
argv[i] = NULL;
if ((i = execvp(argv[0], argv)))
_exit(i);
}
#endif
}
static int
countAMF(AMFObject *obj, int *argc)
{
int i, len;
for (i=0, len=0; i < obj->o_num; i++)
{
AMFObjectProperty *p = &obj->o_props[i];
len += 4;
(*argc)+= 2;
if (p->p_name.av_val)
len += 1;
len += 2;
if (p->p_name.av_val)
len += p->p_name.av_len + 1;
switch(p->p_type)
{
case AMF_BOOLEAN:
len += 1;
break;
case AMF_STRING:
len += p->p_vu.p_aval.av_len;
break;
case AMF_NUMBER:
len += 40;
break;
case AMF_OBJECT:
len += 9;
len += countAMF(&p->p_vu.p_object, argc);
(*argc) += 2;
break;
case AMF_NULL:
default:
break;
}
}
return len;
}
static char *
dumpAMF(AMFObject *obj, char *ptr, AVal *argv, int *argc)
{
int i, ac = *argc;
const char opt[] = "NBSO Z";
for (i=0; i < obj->o_num; i++)
{
AMFObjectProperty *p = &obj->o_props[i];
argv[ac].av_val = ptr+1;
argv[ac++].av_len = 2;
ptr += sprintf(ptr, " -C ");
argv[ac].av_val = ptr;
if (p->p_name.av_val)
*ptr++ = 'N';
*ptr++ = opt[p->p_type];
*ptr++ = ':';
if (p->p_name.av_val)
ptr += sprintf(ptr, "%.*s:", p->p_name.av_len, p->p_name.av_val);
switch(p->p_type)
{
case AMF_BOOLEAN:
*ptr++ = p->p_vu.p_number != 0 ? '1' : '0';
argv[ac].av_len = ptr - argv[ac].av_val;
break;
case AMF_STRING:
memcpy(ptr, p->p_vu.p_aval.av_val, p->p_vu.p_aval.av_len);
ptr += p->p_vu.p_aval.av_len;
argv[ac].av_len = ptr - argv[ac].av_val;
break;
case AMF_NUMBER:
ptr += sprintf(ptr, "%f", p->p_vu.p_number);
argv[ac].av_len = ptr - argv[ac].av_val;
break;
case AMF_OBJECT:
*ptr++ = '1';
argv[ac].av_len = ptr - argv[ac].av_val;
ac++;
*argc = ac;
ptr = dumpAMF(&p->p_vu.p_object, ptr, argv, argc);
ac = *argc;
argv[ac].av_val = ptr+1;
argv[ac++].av_len = 2;
argv[ac].av_val = ptr+4;
argv[ac].av_len = 3;
ptr += sprintf(ptr, " -C O:0");
break;
case AMF_NULL:
default:
argv[ac].av_len = ptr - argv[ac].av_val;
break;
}
ac++;
}
*argc = ac;
return ptr;
}
// Returns 0 for OK/Failed/error, 1 for 'Stop or Complete'
int
ServeInvoke(STREAMING_SERVER *server, RTMP * r, RTMPPacket *packet, unsigned int offset)
{
const char *body;
unsigned int nBodySize;
int ret = 0, nRes;
body = packet->m_body + offset;
nBodySize = packet->m_nBodySize - offset;
if (body[0] != 0x02) // make sure it is a string method name we start with
{
RTMP_Log(RTMP_LOGWARNING, "%s, Sanity failed. no string method in invoke packet",
__FUNCTION__);
return 0;
}
AMFObject obj;
nRes = AMF_Decode(&obj, body, nBodySize, FALSE);
if (nRes < 0)
{
RTMP_Log(RTMP_LOGERROR, "%s, error decoding invoke packet", __FUNCTION__);
return 0;
}
AMF_Dump(&obj);
AVal method;
AMFProp_GetString(AMF_GetProp(&obj, NULL, 0), &method);
double txn = AMFProp_GetNumber(AMF_GetProp(&obj, NULL, 1));
RTMP_Log(RTMP_LOGDEBUG, "%s, client invoking <%s>", __FUNCTION__, method.av_val);
if (AVMATCH(&method, &av_connect))
{
AMFObject cobj;
AVal pname, pval;
int i;
server->connect = packet->m_body;
packet->m_body = NULL;
AMFProp_GetObject(AMF_GetProp(&obj, NULL, 2), &cobj);
for (i=0; i<cobj.o_num; i++)
{
pname = cobj.o_props[i].p_name;
pval.av_val = NULL;
pval.av_len = 0;
if (cobj.o_props[i].p_type == AMF_STRING)
pval = cobj.o_props[i].p_vu.p_aval;
if (AVMATCH(&pname, &av_app))
{
r->Link.app = pval;
pval.av_val = NULL;
if (!r->Link.app.av_val)
r->Link.app.av_val = "";
server->arglen += 6 + pval.av_len;
server->argc += 2;
}
else if (AVMATCH(&pname, &av_flashVer))
{
r->Link.flashVer = pval;
pval.av_val = NULL;
server->arglen += 6 + pval.av_len;
server->argc += 2;
}
else if (AVMATCH(&pname, &av_swfUrl))
{
r->Link.swfUrl = pval;
pval.av_val = NULL;
server->arglen += 6 + pval.av_len;
server->argc += 2;
}
else if (AVMATCH(&pname, &av_tcUrl))
{
r->Link.tcUrl = pval;
pval.av_val = NULL;
server->arglen += 6 + pval.av_len;
server->argc += 2;
}
else if (AVMATCH(&pname, &av_pageUrl))
{
r->Link.pageUrl = pval;
pval.av_val = NULL;
server->arglen += 6 + pval.av_len;
server->argc += 2;
}
else if (AVMATCH(&pname, &av_audioCodecs))
{
r->m_fAudioCodecs = cobj.o_props[i].p_vu.p_number;
}
else if (AVMATCH(&pname, &av_videoCodecs))
{
r->m_fVideoCodecs = cobj.o_props[i].p_vu.p_number;
}
else if (AVMATCH(&pname, &av_objectEncoding))
{
r->m_fEncoding = cobj.o_props[i].p_vu.p_number;
}
}
/* Still have more parameters? Copy them */
if (obj.o_num > 3)
{
int i = obj.o_num - 3;
r->Link.extras.o_num = i;
r->Link.extras.o_props = malloc(i*sizeof(AMFObjectProperty));
memcpy(r->Link.extras.o_props, obj.o_props+3, i*sizeof(AMFObjectProperty));
obj.o_num = 3;
server->arglen += countAMF(&r->Link.extras, &server->argc);
}
SendConnectResult(r, txn);
}
else if (AVMATCH(&method, &av_createStream))
{
SendResultNumber(r, txn, ++server->streamID);
}
else if (AVMATCH(&method, &av_getStreamLength))
{
SendResultNumber(r, txn, 10.0);
}
else if (AVMATCH(&method, &av_NetStream_Authenticate_UsherToken))
{
AVal usherToken;
AMFProp_GetString(AMF_GetProp(&obj, NULL, 3), &usherToken);
AVreplace(&usherToken, &av_dquote, &av_escdquote);
server->arglen += 6 + usherToken.av_len;
server->argc += 2;
r->Link.usherToken = usherToken;
}
else if (AVMATCH(&method, &av_play))
{
char *file, *p, *q, *cmd, *ptr;
AVal *argv, av;
int len, argc;
uint32_t now;
RTMPPacket pc = {0};
AMFProp_GetString(AMF_GetProp(&obj, NULL, 3), &r->Link.playpath);
if (!r->Link.playpath.av_len)
return 0;
/*
r->Link.seekTime = AMFProp_GetNumber(AMF_GetProp(&obj, NULL, 4));
if (obj.o_num > 5)
r->Link.length = AMFProp_GetNumber(AMF_GetProp(&obj, NULL, 5));
*/
if (r->Link.tcUrl.av_len)
{
len = server->arglen + r->Link.playpath.av_len + 4 +
sizeof("rtmpdump") + r->Link.playpath.av_len + 12;
server->argc += 5;
cmd = malloc(len + server->argc * sizeof(AVal));
ptr = cmd;
argv = (AVal *)(cmd + len);
argv[0].av_val = cmd;
argv[0].av_len = sizeof("rtmpdump")-1;
ptr += sprintf(ptr, "rtmpdump");
argc = 1;
argv[argc].av_val = ptr + 1;
argv[argc++].av_len = 2;
argv[argc].av_val = ptr + 5;
ptr += sprintf(ptr," -r \"%s\"", r->Link.tcUrl.av_val);
argv[argc++].av_len = r->Link.tcUrl.av_len;
if (r->Link.app.av_val)
{
argv[argc].av_val = ptr + 1;
argv[argc++].av_len = 2;
argv[argc].av_val = ptr + 5;
ptr += sprintf(ptr, " -a \"%s\"", r->Link.app.av_val);
argv[argc++].av_len = r->Link.app.av_len;
}
if (r->Link.flashVer.av_val)
{
argv[argc].av_val = ptr + 1;
argv[argc++].av_len = 2;
argv[argc].av_val = ptr + 5;
ptr += sprintf(ptr, " -f \"%s\"", r->Link.flashVer.av_val);
argv[argc++].av_len = r->Link.flashVer.av_len;
}
if (r->Link.swfUrl.av_val)
{
argv[argc].av_val = ptr + 1;
argv[argc++].av_len = 2;
argv[argc].av_val = ptr + 5;
ptr += sprintf(ptr, " -W \"%s\"", r->Link.swfUrl.av_val);
argv[argc++].av_len = r->Link.swfUrl.av_len;
}
if (r->Link.pageUrl.av_val)
{
argv[argc].av_val = ptr + 1;
argv[argc++].av_len = 2;
argv[argc].av_val = ptr + 5;
ptr += sprintf(ptr, " -p \"%s\"", r->Link.pageUrl.av_val);
argv[argc++].av_len = r->Link.pageUrl.av_len;
}
if (r->Link.usherToken.av_val)
{
argv[argc].av_val = ptr + 1;
argv[argc++].av_len = 2;
argv[argc].av_val = ptr + 5;
ptr += sprintf(ptr, " -j \"%s\"", r->Link.usherToken.av_val);
argv[argc++].av_len = r->Link.usherToken.av_len;
free(r->Link.usherToken.av_val);
r->Link.usherToken.av_val = NULL;
r->Link.usherToken.av_len = 0;
}
if (r->Link.extras.o_num) {
ptr = dumpAMF(&r->Link.extras, ptr, argv, &argc);
AMF_Reset(&r->Link.extras);
}
argv[argc].av_val = ptr + 1;
argv[argc++].av_len = 2;
argv[argc].av_val = ptr + 5;
ptr += sprintf(ptr, " -y \"%.*s\"",
r->Link.playpath.av_len, r->Link.playpath.av_val);
argv[argc++].av_len = r->Link.playpath.av_len;
av = r->Link.playpath;
/* strip trailing URL parameters */
q = memchr(av.av_val, '?', av.av_len);
if (q)
{
if (q == av.av_val)
{
av.av_val++;
av.av_len--;
}
else
{
av.av_len = q - av.av_val;
}
}
/* strip leading slash components */
for (p=av.av_val+av.av_len-1; p>=av.av_val; p--)
if (*p == '/')
{
p++;
av.av_len -= p - av.av_val;
av.av_val = p;
break;
}
/* skip leading dot */
if (av.av_val[0] == '.')
{
av.av_val++;
av.av_len--;
}
file = malloc(av.av_len+5);
memcpy(file, av.av_val, av.av_len);
file[av.av_len] = '\0';
for (p=file; *p; p++)
if (*p == ':')
*p = '_';
/* Add extension if none present */
if (file[av.av_len - 4] != '.')
{
av.av_len += 4;
}
/* Always use flv extension, regardless of original */
if (strcmp(file+av.av_len-4, ".flv"))
{
strcpy(file+av.av_len-4, ".flv");
}
argv[argc].av_val = ptr + 1;
argv[argc++].av_len = 2;
argv[argc].av_val = file;
argv[argc].av_len = av.av_len;
ptr += sprintf(ptr, " -o %s", file);
now = RTMP_GetTime();
if (now - server->filetime < DUPTIME && AVMATCH(&argv[argc], &server->filename))
{
printf("Duplicate request, skipping.\n");
free(file);
}
else
{
printf("\n%s\n\n", cmd);
fflush(stdout);
server->filetime = now;
free(server->filename.av_val);
server->filename = argv[argc++];
spawn_dumper(argc, argv, cmd);
}
free(cmd);
}
pc.m_body = server->connect;
server->connect = NULL;
RTMPPacket_Free(&pc);
ret = 1;
RTMP_SendCtrl(r, 0, 1, 0);
SendPlayStart(r);
RTMP_SendCtrl(r, 1, 1, 0);
SendPlayStop(r);
}
AMF_Reset(&obj);
return ret;
}
int
ServePacket(STREAMING_SERVER *server, RTMP *r, RTMPPacket *packet)
{
int ret = 0;
RTMP_Log(RTMP_LOGDEBUG, "%s, received packet type %02X, size %u bytes", __FUNCTION__,
packet->m_packetType, packet->m_nBodySize);
switch (packet->m_packetType)
{
case RTMP_PACKET_TYPE_CHUNK_SIZE:
// HandleChangeChunkSize(r, packet);
break;
case RTMP_PACKET_TYPE_BYTES_READ_REPORT:
break;
case RTMP_PACKET_TYPE_CONTROL:
// HandleCtrl(r, packet);
break;
case RTMP_PACKET_TYPE_SERVER_BW:
// HandleServerBW(r, packet);
break;
case RTMP_PACKET_TYPE_CLIENT_BW:
// HandleClientBW(r, packet);
break;
case RTMP_PACKET_TYPE_AUDIO:
//RTMP_Log(RTMP_LOGDEBUG, "%s, received: audio %lu bytes", __FUNCTION__, packet.m_nBodySize);
break;
case RTMP_PACKET_TYPE_VIDEO:
//RTMP_Log(RTMP_LOGDEBUG, "%s, received: video %lu bytes", __FUNCTION__, packet.m_nBodySize);
break;
case RTMP_PACKET_TYPE_FLEX_STREAM_SEND:
break;
case RTMP_PACKET_TYPE_FLEX_SHARED_OBJECT:
break;
case RTMP_PACKET_TYPE_FLEX_MESSAGE:
{
RTMP_Log(RTMP_LOGDEBUG, "%s, flex message, size %u bytes, not fully supported",
__FUNCTION__, packet->m_nBodySize);
//RTMP_LogHex(packet.m_body, packet.m_nBodySize);
// some DEBUG code
/*RTMP_LIB_AMFObject obj;
int nRes = obj.Decode(packet.m_body+1, packet.m_nBodySize-1);
if(nRes < 0) {
RTMP_Log(RTMP_LOGERROR, "%s, error decoding AMF3 packet", __FUNCTION__);
//return;
}
obj.Dump(); */
if (ServeInvoke(server, r, packet, 1))
RTMP_Close(r);
break;
}
case RTMP_PACKET_TYPE_INFO:
break;
case RTMP_PACKET_TYPE_SHARED_OBJECT:
break;
case RTMP_PACKET_TYPE_INVOKE:
RTMP_Log(RTMP_LOGDEBUG, "%s, received: invoke %u bytes", __FUNCTION__,
packet->m_nBodySize);
//RTMP_LogHex(packet.m_body, packet.m_nBodySize);
if (ServeInvoke(server, r, packet, 0))
RTMP_Close(r);
break;
case RTMP_PACKET_TYPE_FLASH_VIDEO:
break;
default:
RTMP_Log(RTMP_LOGDEBUG, "%s, unknown packet type received: 0x%02x", __FUNCTION__,
packet->m_packetType);
#ifdef _DEBUG
RTMP_LogHex(RTMP_LOGDEBUG, packet->m_body, packet->m_nBodySize);
#endif
}
return ret;
}
TFTYPE
controlServerThread(void *unused)
{
char ich;
while (1)
{
ich = getchar();
switch (ich)
{
case 'q':
RTMP_LogPrintf("Exiting\n");
stopStreaming(rtmpServer);
exit(0);
break;
default:
RTMP_LogPrintf("Unknown command \'%c\', ignoring\n", ich);
}
}
TFRET();
}
void doServe(STREAMING_SERVER * server, // server socket and state (our listening socket)
int sockfd // client connection socket
)
{
server->state = STREAMING_IN_PROGRESS;
RTMP *rtmp = RTMP_Alloc(); /* our session with the real client */
RTMPPacket packet = { 0 };
// timeout for http requests
fd_set fds;
struct timeval tv;
memset(&tv, 0, sizeof(struct timeval));
tv.tv_sec = 5;
FD_ZERO(&fds);
FD_SET(sockfd, &fds);
if (select(sockfd + 1, &fds, NULL, NULL, &tv) <= 0)
{
RTMP_Log(RTMP_LOGERROR, "Request timeout/select failed, ignoring request");
goto quit;
}
else
{
RTMP_Init(rtmp);
rtmp->m_sb.sb_socket = sockfd;
if (sslCtx && !RTMP_TLS_Accept(rtmp, sslCtx))
{
RTMP_Log(RTMP_LOGERROR, "TLS handshake failed");
goto cleanup;
}
if (!RTMP_Serve(rtmp))
{
RTMP_Log(RTMP_LOGERROR, "Handshake failed");
goto cleanup;
}
}
server->arglen = 0;
while (RTMP_IsConnected(rtmp) && RTMP_ReadPacket(rtmp, &packet))
{
if (!RTMPPacket_IsReady(&packet))
continue;
ServePacket(server, rtmp, &packet);
RTMPPacket_Free(&packet);
}
cleanup:
RTMP_LogPrintf("Closing connection... ");
RTMP_Close(rtmp);
/* Should probably be done by RTMP_Close() ... */
rtmp->Link.playpath.av_val = NULL;
rtmp->Link.tcUrl.av_val = NULL;
rtmp->Link.swfUrl.av_val = NULL;
rtmp->Link.pageUrl.av_val = NULL;
rtmp->Link.app.av_val = NULL;
rtmp->Link.flashVer.av_val = NULL;
if (rtmp->Link.usherToken.av_val)
{
free(rtmp->Link.usherToken.av_val);
rtmp->Link.usherToken.av_val = NULL;
}
RTMP_Free(rtmp);
RTMP_LogPrintf("done!\n\n");
quit:
if (server->state == STREAMING_IN_PROGRESS)
server->state = STREAMING_ACCEPTING;
return;
}
TFTYPE
serverThread(void *arg)
{
STREAMING_SERVER *server = arg;
server->state = STREAMING_ACCEPTING;
while (server->state == STREAMING_ACCEPTING)
{
struct sockaddr_in addr;
socklen_t addrlen = sizeof(struct sockaddr_in);
int sockfd =
accept(server->socket, (struct sockaddr *) &addr, &addrlen);
if (sockfd > 0)
{
#ifdef linux
struct sockaddr_in dest;
char destch[16];
socklen_t destlen = sizeof(struct sockaddr_in);
getsockopt(sockfd, SOL_IP, SO_ORIGINAL_DST, &dest, &destlen);
strcpy(destch, inet_ntoa(dest.sin_addr));
RTMP_Log(RTMP_LOGDEBUG, "%s: accepted connection from %s to %s\n", __FUNCTION__,
inet_ntoa(addr.sin_addr), destch);
#else
RTMP_Log(RTMP_LOGDEBUG, "%s: accepted connection from %s\n", __FUNCTION__,
inet_ntoa(addr.sin_addr));
#endif
/* Create a new thread and transfer the control to that */
doServe(server, sockfd);
RTMP_Log(RTMP_LOGDEBUG, "%s: processed request\n", __FUNCTION__);
}
else
{
RTMP_Log(RTMP_LOGERROR, "%s: accept failed", __FUNCTION__);
}
}
server->state = STREAMING_STOPPED;
TFRET();
}
STREAMING_SERVER *
startStreaming(const char *address, int port)
{
struct sockaddr_in addr;
int sockfd, tmp;
STREAMING_SERVER *server;
sockfd = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
if (sockfd == -1)
{
RTMP_Log(RTMP_LOGERROR, "%s, couldn't create socket", __FUNCTION__);
return 0;
}
tmp = 1;
setsockopt(sockfd, SOL_SOCKET, SO_REUSEADDR,
(char *) &tmp, sizeof(tmp) );
addr.sin_family = AF_INET;
addr.sin_addr.s_addr = inet_addr(address); //htonl(INADDR_ANY);
addr.sin_port = htons(port);
if (bind(sockfd, (struct sockaddr *) &addr, sizeof(struct sockaddr_in)) ==
-1)
{
RTMP_Log(RTMP_LOGERROR, "%s, TCP bind failed for port number: %d", __FUNCTION__,
port);
return 0;
}
if (listen(sockfd, 10) == -1)
{
RTMP_Log(RTMP_LOGERROR, "%s, listen failed", __FUNCTION__);
closesocket(sockfd);
return 0;
}
server = (STREAMING_SERVER *) calloc(1, sizeof(STREAMING_SERVER));
server->socket = sockfd;
ThreadCreate(serverThread, server);
return server;
}
void
stopStreaming(STREAMING_SERVER * server)
{
assert(server);
if (server->state != STREAMING_STOPPED)
{
if (server->state == STREAMING_IN_PROGRESS)
{
server->state = STREAMING_STOPPING;
// wait for streaming threads to exit
while (server->state != STREAMING_STOPPED)
msleep(1);
}
if (closesocket(server->socket))
RTMP_Log(RTMP_LOGERROR, "%s: Failed to close listening socket, error %d",
__FUNCTION__, GetSockError());
server->state = STREAMING_STOPPED;
}
}
void
sigIntHandler(int sig)
{
RTMP_ctrlC = TRUE;
RTMP_LogPrintf("Caught signal: %d, cleaning up, just a second...\n", sig);
if (rtmpServer)
stopStreaming(rtmpServer);
signal(SIGINT, SIG_DFL);
}
int
main(int argc, char **argv)
{
int nStatus = RD_SUCCESS;
int i;
// http streaming server
char DEFAULT_HTTP_STREAMING_DEVICE[] = "0.0.0.0"; // 0.0.0.0 is any device
char *rtmpStreamingDevice = DEFAULT_HTTP_STREAMING_DEVICE; // streaming device, default 0.0.0.0
int nRtmpStreamingPort = 1935; // port
char *cert = NULL, *key = NULL;
RTMP_LogPrintf("RTMP Server %s\n", RTMPDUMP_VERSION);
RTMP_LogPrintf("(c) 2010 Andrej Stepanchuk, Howard Chu; license: GPL\n\n");
RTMP_debuglevel = RTMP_LOGINFO;
for (i = 1; i < argc; i++)
{
if (!strcmp(argv[i], "-z"))
RTMP_debuglevel = RTMP_LOGALL;
else if (!strcmp(argv[i], "-c") && i + 1 < argc)
cert = argv[++i];
else if (!strcmp(argv[i], "-k") && i + 1 < argc)
key = argv[++i];
}
if (cert && key)
sslCtx = RTMP_TLS_AllocServerContext(cert, key);
// init request
memset(&defaultRTMPRequest, 0, sizeof(RTMP_REQUEST));
defaultRTMPRequest.rtmpport = -1;
defaultRTMPRequest.protocol = RTMP_PROTOCOL_UNDEFINED;
defaultRTMPRequest.bLiveStream = FALSE; // is it a live stream? then we can't seek/resume
defaultRTMPRequest.timeout = 300; // timeout connection afte 300 seconds
defaultRTMPRequest.bufferTime = 20 * 1000;
signal(SIGINT, sigIntHandler);
#ifndef WIN32
signal(SIGPIPE, SIG_IGN);
#endif
#ifdef _DEBUG
netstackdump = fopen("netstackdump", "wb");
netstackdump_read = fopen("netstackdump_read", "wb");
#endif
InitSockets();
// start text UI
ThreadCreate(controlServerThread, 0);
// start http streaming
if ((rtmpServer =
startStreaming(rtmpStreamingDevice, nRtmpStreamingPort)) == 0)
{
RTMP_Log(RTMP_LOGERROR, "Failed to start RTMP server, exiting!");
return RD_FAILED;
}
RTMP_LogPrintf("Streaming on rtmp://%s:%d\n", rtmpStreamingDevice,
nRtmpStreamingPort);
while (rtmpServer->state != STREAMING_STOPPED)
{
sleep(1);
}
RTMP_Log(RTMP_LOGDEBUG, "Done, exiting...");
if (sslCtx)
RTMP_TLS_FreeServerContext(sslCtx);
CleanupSockets();
#ifdef _DEBUG
if (netstackdump != 0)
fclose(netstackdump);
if (netstackdump_read != 0)
fclose(netstackdump_read);
#endif
return nStatus;
}
void
AVreplace(AVal *src, const AVal *orig, const AVal *repl)
{
char *srcbeg = src->av_val;
char *srcend = src->av_val + src->av_len;
char *dest, *sptr, *dptr;
int n = 0;
/* count occurrences of orig in src */
sptr = src->av_val;
while (sptr < srcend && (sptr = strstr(sptr, orig->av_val)))
{
n++;
sptr += orig->av_len;
}
if (!n)
return;
dest = malloc(src->av_len + 1 + (repl->av_len - orig->av_len) * n);
sptr = src->av_val;
dptr = dest;
while (sptr < srcend && (sptr = strstr(sptr, orig->av_val)))
{
n = sptr - srcbeg;
memcpy(dptr, srcbeg, n);
dptr += n;
memcpy(dptr, repl->av_val, repl->av_len);
dptr += repl->av_len;
sptr += orig->av_len;
srcbeg = sptr;
}
n = srcend - srcbeg;
memcpy(dptr, srcbeg, n);
dptr += n;
*dptr = '\0';
src->av_val = dest;
src->av_len = dptr - dest;
}