gusucode.com > 一个可以在局域网进行视频聊天的源代码 > 一个可以在局域网进行视频聊天的源代码/jrtp/rtpudpv6transmitter.cpp
/*
This file is a part of JRTPLIB
Copyright (c) 1999-2006 Jori Liesenborgs
Contact: jori.liesenborgs@gmail.com
This library was developed at the "Expertisecentrum Digitale Media"
(http://www.edm.uhasselt.be), a research center of the Hasselt University
(http://www.uhasselt.be). The library is based upon work done for
my thesis at the School for Knowledge Technology (Belgium/The Netherlands).
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
IN THE SOFTWARE.
*/
#include "rtpudpv6transmitter.h"
#ifdef RTP_SUPPORT_IPV6
#include "rtprawpacket.h"
#include "rtpipv6address.h"
#include "rtptimeutilities.h"
#include "rtpdefines.h"
#include <stdio.h>
#if (defined(WIN32) || defined(_WIN32_WCE))
#define RTPSOCKERR INVALID_SOCKET
#define RTPCLOSE(x) closesocket(x)
#define RTPSOCKLENTYPE int
#define RTPIOCTL ioctlsocket
#else // not Win32
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <sys/ioctl.h>
#include <net/if.h>
#include <string.h>
#include <netdb.h>
#include <unistd.h>
#ifdef RTP_HAVE_SYS_FILIO
#include <sys/filio.h>
#endif // RTP_HAVE_SYS_FILIO
#ifdef RTP_HAVE_SYS_SOCKIO
#include <sys/sockio.h>
#endif // RTP_HAVE_SYS_SOCKIO
#ifdef RTP_SUPPORT_IFADDRS
#include <ifaddrs.h>
#endif // RTP_SUPPORT_IFADDRS
#define RTPSOCKERR -1
#define RTPCLOSE(x) close(x)
#ifdef RTP_SOCKLENTYPE_UINT
#define RTPSOCKLENTYPE unsigned int
#else
#define RTPSOCKLENTYPE int
#endif // RTP_SOCKLENTYPE_UINT
#define RTPIOCTL ioctl
#endif // WIN32
#include "rtpdebug.h"
#ifndef _WIN32_WCE
#define RTPUDPV6TRANS_RTPRECEIVEBUFFER 32768
#define RTPUDPV6TRANS_RTCPRECEIVEBUFFER 32768
#define RTPUDPV6TRANS_RTPTRANSMITBUFFER 32768
#define RTPUDPV6TRANS_RTCPTRANSMITBUFFER 32768
#define RTPUDPV6TRANS_MAXPACKSIZE 65535
#define RTPUDPV6TRANS_IFREQBUFSIZE 8192
#else
#define RTPUDPV6TRANS_RTPRECEIVEBUFFER 2048
#define RTPUDPV6TRANS_RTCPRECEIVEBUFFER 2048
#define RTPUDPV6TRANS_RTPTRANSMITBUFFER 2048
#define RTPUDPV6TRANS_RTCPTRANSMITBUFFER 2048
#define RTPUDPV6TRANS_MAXPACKSIZE 2048
#define RTPUDPV6TRANS_IFREQBUFSIZE 2048
#endif // _WIN32_WCE
#define RTPUDPV6TRANS_IS_MCASTADDR(x) (x.s6_addr[0] == 0xFF)
#define RTPUDPV6TRANS_MCASTMEMBERSHIP(socket,type,mcastip,status) {\
struct ipv6_mreq mreq;\
\
mreq.ipv6mr_multiaddr = mcastip;\
mreq.ipv6mr_interface = mcastifidx;\
status = setsockopt(socket,IPPROTO_IPV6,type,(const char *)&mreq,sizeof(struct ipv6_mreq));\
}
#ifdef RTP_SUPPORT_THREAD
#define MAINMUTEX_LOCK { if (threadsafe) mainmutex.Lock(); }
#define MAINMUTEX_UNLOCK { if (threadsafe) mainmutex.Unlock(); }
#define WAITMUTEX_LOCK { if (threadsafe) waitmutex.Lock(); }
#define WAITMUTEX_UNLOCK { if (threadsafe) waitmutex.Unlock(); }
#else
#define MAINMUTEX_LOCK
#define MAINMUTEX_UNLOCK
#define WAITMUTEX_LOCK
#define WAITMUTEX_UNLOCK
#endif // RTP_SUPPORT_THREAD
inline bool operator==(const in6_addr &ip1,const in6_addr &ip2)
{
if (memcmp(&ip1,&ip2,sizeof(in6_addr)) == 0)
return true;
return false;
}
RTPUDPv6Transmitter::RTPUDPv6Transmitter(RTPMemoryManager *mgr) : RTPTransmitter(mgr),multicastgroups(GetMemoryManager(),RTPMEM_TYPE_CLASS_MULTICASTHASHELEMENT),
destinations(GetMemoryManager(),RTPMEM_TYPE_CLASS_DESTINATIONLISTHASHELEMENT),
acceptignoreinfo(GetMemoryManager(),RTPMEM_TYPE_CLASS_ACCEPTIGNOREHASHELEMENT)
{
created = false;
init = false;
#if (defined(WIN32) || defined(_WIN32_WCE))
timeinit.Dummy();
#endif // WIN32 || _WIN32_WCE
}
RTPUDPv6Transmitter::~RTPUDPv6Transmitter()
{
Destroy();
}
int RTPUDPv6Transmitter::Init(bool tsafe)
{
if (init)
return ERR_RTP_UDPV6TRANS_ALREADYINIT;
#ifdef RTP_SUPPORT_THREAD
threadsafe = tsafe;
if (threadsafe)
{
int status;
status = mainmutex.Init();
if (status < 0)
return ERR_RTP_UDPV6TRANS_CANTINITMUTEX;
status = waitmutex.Init();
if (status < 0)
return ERR_RTP_UDPV6TRANS_CANTINITMUTEX;
}
#else
if (tsafe)
return ERR_RTP_NOTHREADSUPPORT;
#endif // RTP_SUPPORT_THREAD
init = true;
return 0;
}
int RTPUDPv6Transmitter::Create(size_t maximumpacketsize,const RTPTransmissionParams *transparams)
{
const RTPUDPv6TransmissionParams *params,defaultparams;
struct sockaddr_in6 addr;
RTPSOCKLENTYPE size;
int status;
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_ALREADYCREATED;
}
// Obtain transmission parameters
if (transparams == 0)
params = &defaultparams;
else
{
if (transparams->GetTransmissionProtocol() != RTPTransmitter::IPv6UDPProto)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_ILLEGALPARAMETERS;
}
params = (const RTPUDPv6TransmissionParams *)transparams;
}
// Check if portbase is even
if (params->GetPortbase()%2 != 0)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_PORTBASENOTEVEN;
}
// create sockets
rtpsock = socket(PF_INET6,SOCK_DGRAM,0);
if (rtpsock == RTPSOCKERR)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_CANTCREATESOCKET;
}
rtcpsock = socket(PF_INET6,SOCK_DGRAM,0);
if (rtcpsock == RTPSOCKERR)
{
RTPCLOSE(rtpsock);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_CANTCREATESOCKET;
}
// set socket buffer sizes
size = RTPUDPV6TRANS_RTPRECEIVEBUFFER;
if (setsockopt(rtpsock,SOL_SOCKET,SO_RCVBUF,(const char *)&size,sizeof(int)) != 0)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_CANTSETRTPRECEIVEBUF;
}
size = RTPUDPV6TRANS_RTPTRANSMITBUFFER;
if (setsockopt(rtpsock,SOL_SOCKET,SO_SNDBUF,(const char *)&size,sizeof(int)) != 0)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_CANTSETRTPTRANSMITBUF;
}
size = RTPUDPV6TRANS_RTCPRECEIVEBUFFER;
if (setsockopt(rtcpsock,SOL_SOCKET,SO_RCVBUF,(const char *)&size,sizeof(int)) != 0)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_CANTSETRTCPRECEIVEBUF;
}
size = RTPUDPV6TRANS_RTCPTRANSMITBUFFER;
if (setsockopt(rtcpsock,SOL_SOCKET,SO_SNDBUF,(const char *)&size,sizeof(int)) != 0)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_CANTSETRTCPTRANSMITBUF;
}
// bind sockets
bindIP = params->GetBindIP();
mcastifidx = params->GetMulticastInterfaceIndex();
memset(&addr,0,sizeof(struct sockaddr_in6));
addr.sin6_family = AF_INET6;
addr.sin6_port = htons(params->GetPortbase());
addr.sin6_addr = bindIP;
if (bind(rtpsock,(struct sockaddr *)&addr,sizeof(struct sockaddr_in6)) != 0)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_CANTBINDRTPSOCKET;
}
memset(&addr,0,sizeof(struct sockaddr_in6));
addr.sin6_family = AF_INET6;
addr.sin6_port = htons(params->GetPortbase()+1);
addr.sin6_addr = bindIP;
if (bind(rtcpsock,(struct sockaddr *)&addr,sizeof(struct sockaddr_in6)) != 0)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_CANTBINDRTCPSOCKET;
}
// Try to obtain local IP addresses
localIPs = params->GetLocalIPList();
if (localIPs.empty()) // User did not provide list of local IP addresses, calculate them
{
int status;
if ((status = CreateLocalIPList()) < 0)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
MAINMUTEX_UNLOCK
return status;
}
#ifdef RTPDEBUG
std::cout << "Found these local IP addresses:" << std::endl;
std::list<in6_addr>::const_iterator it;
for (it = localIPs.begin() ; it != localIPs.end() ; it++)
{
RTPIPv6Address a(*it);
std::cout << a.GetAddressString() << std::endl;
}
#endif // RTPDEBUG
}
#ifdef RTP_SUPPORT_IPV6MULTICAST
if (SetMulticastTTL(params->GetMulticastTTL()))
supportsmulticasting = true;
else
supportsmulticasting = false;
#else // no multicast support enabled
supportsmulticasting = false;
#endif // RTP_SUPPORT_IPV6MULTICAST
if ((status = CreateAbortDescriptors()) < 0)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
MAINMUTEX_UNLOCK
return status;
}
if (maximumpacketsize > RTPUDPV6TRANS_MAXPACKSIZE)
{
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
DestroyAbortDescriptors();
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_SPECIFIEDSIZETOOBIG;
}
maxpacksize = maximumpacketsize;
portbase = params->GetPortbase();
multicastTTL = params->GetMulticastTTL();
receivemode = RTPTransmitter::AcceptAll;
localhostname = 0;
localhostnamelength = 0;
waitingfordata = false;
created = true;
MAINMUTEX_UNLOCK
return 0;
}
void RTPUDPv6Transmitter::Destroy()
{
if (!init)
return;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK;
return;
}
if (localhostname)
{
RTPDeleteByteArray(localhostname,GetMemoryManager());
localhostname = 0;
localhostnamelength = 0;
}
RTPCLOSE(rtpsock);
RTPCLOSE(rtcpsock);
destinations.Clear();
#ifdef RTP_SUPPORT_IPV6MULTICAST
multicastgroups.Clear();
#endif // RTP_SUPPORT_IPV6MULTICAST
FlushPackets();
ClearAcceptIgnoreInfo();
localIPs.clear();
created = false;
if (waitingfordata)
{
AbortWaitInternal();
DestroyAbortDescriptors();
MAINMUTEX_UNLOCK
WAITMUTEX_LOCK // to make sure that the WaitForIncomingData function ended
WAITMUTEX_UNLOCK
}
else
DestroyAbortDescriptors();
MAINMUTEX_UNLOCK
}
RTPTransmissionInfo *RTPUDPv6Transmitter::GetTransmissionInfo()
{
if (!init)
return 0;
MAINMUTEX_LOCK
RTPTransmissionInfo *tinf = RTPNew(GetMemoryManager(),RTPMEM_TYPE_CLASS_RTPTRANSMISSIONINFO) RTPUDPv6TransmissionInfo(localIPs,rtpsock,rtcpsock);
MAINMUTEX_UNLOCK
return tinf;
}
int RTPUDPv6Transmitter::GetLocalHostName(uint8_t *buffer,size_t *bufferlength)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (localhostname == 0)
{
if (localIPs.empty())
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOLOCALIPS;
}
std::list<in6_addr>::const_iterator it;
std::list<std::string> hostnames;
for (it = localIPs.begin() ; it != localIPs.end() ; it++)
{
bool founddouble = false;
bool foundentry = true;
while (!founddouble && foundentry)
{
struct hostent *he;
in6_addr ip = (*it);
he = gethostbyaddr((char *)&ip,sizeof(in6_addr),AF_INET6);
if (he != 0)
{
std::string hname = std::string(he->h_name);
std::list<std::string>::const_iterator it;
for (it = hostnames.begin() ; !founddouble && it != hostnames.end() ; it++)
if ((*it) == hname)
founddouble = true;
if (!founddouble)
hostnames.push_back(hname);
int i = 0;
while (!founddouble && he->h_aliases[i] != 0)
{
std::string hname = std::string(he->h_aliases[i]);
for (it = hostnames.begin() ; !founddouble && it != hostnames.end() ; it++)
if ((*it) == hname)
founddouble = true;
if (!founddouble)
{
hostnames.push_back(hname);
i++;
}
}
}
else
foundentry = false;
}
}
bool found = false;
if (!hostnames.empty()) // try to select the most appropriate hostname
{
std::list<std::string>::const_iterator it;
hostnames.sort();
for (it = hostnames.begin() ; !found && it != hostnames.end() ; it++)
{
if ((*it).find('.') != std::string::npos)
{
found = true;
localhostnamelength = (*it).length();
localhostname = RTPNew(GetMemoryManager(),RTPMEM_TYPE_OTHER) uint8_t [localhostnamelength+1];
if (localhostname == 0)
{
MAINMUTEX_UNLOCK
return ERR_RTP_OUTOFMEM;
}
memcpy(localhostname,(*it).c_str(),localhostnamelength);
localhostname[localhostnamelength] = 0;
}
}
}
if (!found) // use an IP address
{
in6_addr ip;
int len;
char str[48];
uint16_t ip16[8];
int i,j;
it = localIPs.begin();
ip = (*it);
for (i = 0,j = 0 ; j < 8 ; j++,i += 2)
{
ip16[j] = (((uint16_t)ip.s6_addr[i])<<8);
ip16[j] |= ((uint16_t)ip.s6_addr[i+1]);
}
RTP_SNPRINTF(str,48,"%04X:%04X:%04X:%04X:%04X:%04X:%04X:%04X",(int)ip16[0],(int)ip16[1],(int)ip16[2],(int)ip16[3],(int)ip16[4],(int)ip16[5],(int)ip16[6],(int)ip16[7]);
len = strlen(str);
localhostnamelength = len;
localhostname = RTPNew(GetMemoryManager(),RTPMEM_TYPE_OTHER) uint8_t [localhostnamelength+1];
if (localhostname == 0)
{
MAINMUTEX_UNLOCK
return ERR_RTP_OUTOFMEM;
}
memcpy(localhostname,str,localhostnamelength);
localhostname[localhostnamelength] = 0;
}
}
if ((*bufferlength) < localhostnamelength)
{
*bufferlength = localhostnamelength; // tell the application the required size of the buffer
MAINMUTEX_UNLOCK
return ERR_RTP_TRANS_BUFFERLENGTHTOOSMALL;
}
memcpy(buffer,localhostname,localhostnamelength);
*bufferlength = localhostnamelength;
MAINMUTEX_UNLOCK
return 0;
}
bool RTPUDPv6Transmitter::ComesFromThisTransmitter(const RTPAddress *addr)
{
if (!init)
return false;
if (addr == 0)
return false;
MAINMUTEX_LOCK
bool v;
if (created && addr->GetAddressType() == RTPAddress::IPv6Address)
{
const RTPIPv6Address *addr2 = (const RTPIPv6Address *)addr;
bool found = false;
std::list<in6_addr>::const_iterator it;
it = localIPs.begin();
while (!found && it != localIPs.end())
{
in6_addr itip = *it;
in6_addr addrip = addr2->GetIP();
if (memcmp(&addrip,&itip,sizeof(in6_addr)) == 0)
found = true;
else
++it;
}
if (!found)
v = false;
else
{
if (addr2->GetPort() == portbase) // check for RTP port
v = true;
else if (addr2->GetPort() == (portbase+1)) // check for RTCP port
v = true;
else
v = false;
}
}
else
v = false;
MAINMUTEX_UNLOCK
return v;
}
int RTPUDPv6Transmitter::Poll()
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
int status;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
status = PollSocket(true); // poll RTP socket
if (status >= 0)
status = PollSocket(false); // poll RTCP socket
MAINMUTEX_UNLOCK
return status;
}
int RTPUDPv6Transmitter::WaitForIncomingData(const RTPTime &delay,bool *dataavailable)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
fd_set fdset;
struct timeval tv;
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (waitingfordata)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_ALREADYWAITING;
}
FD_ZERO(&fdset);
FD_SET(rtpsock,&fdset);
FD_SET(rtcpsock,&fdset);
FD_SET(abortdesc[0],&fdset);
tv.tv_sec = delay.GetSeconds();
tv.tv_usec = delay.GetMicroSeconds();
waitingfordata = true;
WAITMUTEX_LOCK
MAINMUTEX_UNLOCK
if (select(FD_SETSIZE,&fdset,0,0,&tv) < 0)
{
MAINMUTEX_LOCK
waitingfordata = false;
MAINMUTEX_UNLOCK
WAITMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_ERRORINSELECT;
}
MAINMUTEX_LOCK
waitingfordata = false;
if (!created) // destroy called
{
MAINMUTEX_UNLOCK;
WAITMUTEX_UNLOCK
return 0;
}
// if aborted, read from abort buffer
if (FD_ISSET(abortdesc[0],&fdset))
{
#if (defined(WIN32) || defined(_WIN32_WCE))
char buf[1];
recv(abortdesc[0],buf,1,0);
#else
unsigned char buf[1];
read(abortdesc[0],buf,1);
#endif // WIN32
}
if (dataavailable != 0)
{
if (FD_ISSET(rtpsock,&fdset) || FD_ISSET(rtcpsock,&fdset))
*dataavailable = true;
else
*dataavailable = false;
}
MAINMUTEX_UNLOCK
WAITMUTEX_UNLOCK
return 0;
}
int RTPUDPv6Transmitter::AbortWait()
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (!waitingfordata)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTWAITING;
}
AbortWaitInternal();
MAINMUTEX_UNLOCK
return 0;
}
int RTPUDPv6Transmitter::SendRTPData(const void *data,size_t len)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (len > maxpacksize)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_SPECIFIEDSIZETOOBIG;
}
destinations.GotoFirstElement();
while (destinations.HasCurrentElement())
{
sendto(rtpsock,(const char *)data,len,0,(const struct sockaddr *)destinations.GetCurrentElement().GetRTPSockAddr(),sizeof(struct sockaddr_in6));
destinations.GotoNextElement();
}
MAINMUTEX_UNLOCK
return 0;
}
int RTPUDPv6Transmitter::SendRTCPData(const void *data,size_t len)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (len > maxpacksize)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_SPECIFIEDSIZETOOBIG;
}
destinations.GotoFirstElement();
while (destinations.HasCurrentElement())
{
sendto(rtcpsock,(const char *)data,len,0,(const struct sockaddr *)destinations.GetCurrentElement().GetRTCPSockAddr(),sizeof(struct sockaddr_in6));
destinations.GotoNextElement();
}
MAINMUTEX_UNLOCK
return 0;
}
int RTPUDPv6Transmitter::AddDestination(const RTPAddress &addr)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (addr.GetAddressType() != RTPAddress::IPv6Address)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_INVALIDADDRESSTYPE;
}
RTPIPv6Address &address = (RTPIPv6Address &)addr;
RTPIPv6Destination dest(address.GetIP(),address.GetPort());
int status = destinations.AddElement(dest);
MAINMUTEX_UNLOCK
return status;
}
int RTPUDPv6Transmitter::DeleteDestination(const RTPAddress &addr)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (addr.GetAddressType() != RTPAddress::IPv6Address)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_INVALIDADDRESSTYPE;
}
RTPIPv6Address &address = (RTPIPv6Address &)addr;
RTPIPv6Destination dest(address.GetIP(),address.GetPort());
int status = destinations.DeleteElement(dest);
MAINMUTEX_UNLOCK
return status;
}
void RTPUDPv6Transmitter::ClearDestinations()
{
if (!init)
return;
MAINMUTEX_LOCK
if (created)
destinations.Clear();
MAINMUTEX_UNLOCK
}
bool RTPUDPv6Transmitter::SupportsMulticasting()
{
if (!init)
return false;
MAINMUTEX_LOCK
bool v;
if (!created)
v = false;
else
v = supportsmulticasting;
MAINMUTEX_UNLOCK
return v;
}
#ifdef RTP_SUPPORT_IPV6MULTICAST
int RTPUDPv6Transmitter::JoinMulticastGroup(const RTPAddress &addr)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
int status;
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (addr.GetAddressType() != RTPAddress::IPv6Address)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_INVALIDADDRESSTYPE;
}
const RTPIPv6Address &address = (const RTPIPv6Address &)addr;
in6_addr mcastIP = address.GetIP();
if (!RTPUDPV6TRANS_IS_MCASTADDR(mcastIP))
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTAMULTICASTADDRESS;
}
status = multicastgroups.AddElement(mcastIP);
if (status >= 0)
{
RTPUDPV6TRANS_MCASTMEMBERSHIP(rtpsock,IPV6_JOIN_GROUP,mcastIP,status);
if (status != 0)
{
multicastgroups.DeleteElement(mcastIP);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_COULDNTJOINMULTICASTGROUP;
}
RTPUDPV6TRANS_MCASTMEMBERSHIP(rtcpsock,IPV6_JOIN_GROUP,mcastIP,status);
if (status != 0)
{
RTPUDPV6TRANS_MCASTMEMBERSHIP(rtpsock,IPV6_LEAVE_GROUP,mcastIP,status);
multicastgroups.DeleteElement(mcastIP);
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_COULDNTJOINMULTICASTGROUP;
}
}
MAINMUTEX_UNLOCK
return status;
}
int RTPUDPv6Transmitter::LeaveMulticastGroup(const RTPAddress &addr)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
int status;
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (addr.GetAddressType() != RTPAddress::IPv6Address)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_INVALIDADDRESSTYPE;
}
const RTPIPv6Address &address = (const RTPIPv6Address &)addr;
in6_addr mcastIP = address.GetIP();
if (!RTPUDPV6TRANS_IS_MCASTADDR(mcastIP))
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTAMULTICASTADDRESS;
}
status = multicastgroups.DeleteElement(mcastIP);
if (status >= 0)
{
RTPUDPV6TRANS_MCASTMEMBERSHIP(rtpsock,IPV6_LEAVE_GROUP,mcastIP,status);
RTPUDPV6TRANS_MCASTMEMBERSHIP(rtcpsock,IPV6_LEAVE_GROUP,mcastIP,status);
status = 0;
}
MAINMUTEX_UNLOCK
return status;
}
void RTPUDPv6Transmitter::LeaveAllMulticastGroups()
{
if (!init)
return;
MAINMUTEX_LOCK
if (created)
{
multicastgroups.GotoFirstElement();
while (multicastgroups.HasCurrentElement())
{
in6_addr mcastIP;
int status = 0;
mcastIP = multicastgroups.GetCurrentElement();
RTPUDPV6TRANS_MCASTMEMBERSHIP(rtpsock,IPV6_LEAVE_GROUP,mcastIP,status);
RTPUDPV6TRANS_MCASTMEMBERSHIP(rtcpsock,IPV6_LEAVE_GROUP,mcastIP,status);
multicastgroups.GotoNextElement();
}
multicastgroups.Clear();
}
MAINMUTEX_UNLOCK
}
#else // no multicast support
int RTPUDPv6Transmitter::JoinMulticastGroup(const RTPAddress &addr)
{
return ERR_RTP_UDPV6TRANS_NOMULTICASTSUPPORT;
}
int RTPUDPv6Transmitter::LeaveMulticastGroup(const RTPAddress &addr)
{
return ERR_RTP_UDPV6TRANS_NOMULTICASTSUPPORT;
}
void RTPUDPv6Transmitter::LeaveAllMulticastGroups()
{
}
#endif // RTP_SUPPORT_IPV6MULTICAST
int RTPUDPv6Transmitter::SetReceiveMode(RTPTransmitter::ReceiveMode m)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (m != receivemode)
{
receivemode = m;
acceptignoreinfo.Clear();
}
MAINMUTEX_UNLOCK
return 0;
}
int RTPUDPv6Transmitter::AddToIgnoreList(const RTPAddress &addr)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
int status;
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (addr.GetAddressType() != RTPAddress::IPv6Address)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_INVALIDADDRESSTYPE;
}
if (receivemode != RTPTransmitter::IgnoreSome)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_DIFFERENTRECEIVEMODE;
}
const RTPIPv6Address &address = (const RTPIPv6Address &)addr;
status = ProcessAddAcceptIgnoreEntry(address.GetIP(),address.GetPort());
MAINMUTEX_UNLOCK
return status;
}
int RTPUDPv6Transmitter::DeleteFromIgnoreList(const RTPAddress &addr)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
int status;
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (addr.GetAddressType() != RTPAddress::IPv6Address)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_INVALIDADDRESSTYPE;
}
if (receivemode != RTPTransmitter::IgnoreSome)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_DIFFERENTRECEIVEMODE;
}
const RTPIPv6Address &address = (const RTPIPv6Address &)addr;
status = ProcessDeleteAcceptIgnoreEntry(address.GetIP(),address.GetPort());
MAINMUTEX_UNLOCK
return status;
}
void RTPUDPv6Transmitter::ClearIgnoreList()
{
if (!init)
return;
MAINMUTEX_LOCK
if (created && receivemode == RTPTransmitter::IgnoreSome)
ClearAcceptIgnoreInfo();
MAINMUTEX_UNLOCK
}
int RTPUDPv6Transmitter::AddToAcceptList(const RTPAddress &addr)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
int status;
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (addr.GetAddressType() != RTPAddress::IPv6Address)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_INVALIDADDRESSTYPE;
}
if (receivemode != RTPTransmitter::AcceptSome)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_DIFFERENTRECEIVEMODE;
}
const RTPIPv6Address &address = (const RTPIPv6Address &)addr;
status = ProcessAddAcceptIgnoreEntry(address.GetIP(),address.GetPort());
MAINMUTEX_UNLOCK
return status;
}
int RTPUDPv6Transmitter::DeleteFromAcceptList(const RTPAddress &addr)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
int status;
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (addr.GetAddressType() != RTPAddress::IPv6Address)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_INVALIDADDRESSTYPE;
}
if (receivemode != RTPTransmitter::AcceptSome)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_DIFFERENTRECEIVEMODE;
}
const RTPIPv6Address &address = (const RTPIPv6Address &)addr;
status = ProcessDeleteAcceptIgnoreEntry(address.GetIP(),address.GetPort());
MAINMUTEX_UNLOCK
return status;
}
void RTPUDPv6Transmitter::ClearAcceptList()
{
if (!init)
return;
MAINMUTEX_LOCK
if (created && receivemode == RTPTransmitter::AcceptSome)
ClearAcceptIgnoreInfo();
MAINMUTEX_UNLOCK
}
int RTPUDPv6Transmitter::SetMaximumPacketSize(size_t s)
{
if (!init)
return ERR_RTP_UDPV6TRANS_NOTINIT;
MAINMUTEX_LOCK
if (!created)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_NOTCREATED;
}
if (s > RTPUDPV6TRANS_MAXPACKSIZE)
{
MAINMUTEX_UNLOCK
return ERR_RTP_UDPV6TRANS_SPECIFIEDSIZETOOBIG;
}
maxpacksize = s;
MAINMUTEX_UNLOCK
return 0;
}
bool RTPUDPv6Transmitter::NewDataAvailable()
{
if (!init)
return false;
MAINMUTEX_LOCK
bool v;
if (!created)
v = false;
else
{
if (rawpacketlist.empty())
v = false;
else
v = true;
}
MAINMUTEX_UNLOCK
return v;
}
RTPRawPacket *RTPUDPv6Transmitter::GetNextPacket()
{
if (!init)
return 0;
MAINMUTEX_LOCK
RTPRawPacket *p;
if (!created)
{
MAINMUTEX_UNLOCK
return 0;
}
if (rawpacketlist.empty())
{
MAINMUTEX_UNLOCK
return 0;
}
p = *(rawpacketlist.begin());
rawpacketlist.pop_front();
MAINMUTEX_UNLOCK
return p;
}
// Here the private functions start...
#ifdef RTP_SUPPORT_IPV6MULTICAST
bool RTPUDPv6Transmitter::SetMulticastTTL(uint8_t ttl)
{
int ttl2,status;
ttl2 = (int)ttl;
status = setsockopt(rtpsock,IPPROTO_IPV6,IPV6_MULTICAST_HOPS,(const char *)&ttl2,sizeof(int));
if (status != 0)
return false;
status = setsockopt(rtcpsock,IPPROTO_IPV6,IPV6_MULTICAST_HOPS,(const char *)&ttl2,sizeof(int));
if (status != 0)
return false;
return true;
}
#endif // RTP_SUPPORT_IPV6MULTICAST
void RTPUDPv6Transmitter::FlushPackets()
{
std::list<RTPRawPacket*>::const_iterator it;
for (it = rawpacketlist.begin() ; it != rawpacketlist.end() ; ++it)
RTPDelete(*it,GetMemoryManager());
rawpacketlist.clear();
}
int RTPUDPv6Transmitter::PollSocket(bool rtp)
{
RTPSOCKLENTYPE fromlen;
int recvlen;
char packetbuffer[RTPUDPV6TRANS_MAXPACKSIZE];
#if (defined(WIN32) || defined(_WIN32_WCE))
SOCKET sock;
unsigned long len;
#else
size_t len;
int sock;
#endif // WIN32
struct sockaddr_in6 srcaddr;
if (rtp)
sock = rtpsock;
else
sock = rtcpsock;
len = 0;
RTPIOCTL(sock,FIONREAD,&len);
if (len <= 0)
return 0;
while (len > 0)
{
RTPTime curtime = RTPTime::CurrentTime();
fromlen = sizeof(struct sockaddr_in6);
recvlen = recvfrom(sock,packetbuffer,RTPUDPV6TRANS_MAXPACKSIZE,0,(struct sockaddr *)&srcaddr,&fromlen);
if (recvlen > 0)
{
bool acceptdata;
// got data, process it
if (receivemode == RTPTransmitter::AcceptAll)
acceptdata = true;
else
acceptdata = ShouldAcceptData(srcaddr.sin6_addr,htons(srcaddr.sin6_port));
if (acceptdata)
{
RTPRawPacket *pack;
RTPIPv6Address *addr;
uint8_t *datacopy;
addr = RTPNew(GetMemoryManager(),RTPMEM_TYPE_CLASS_RTPADDRESS) RTPIPv6Address(srcaddr.sin6_addr,ntohs(srcaddr.sin6_port));
if (addr == 0)
return ERR_RTP_OUTOFMEM;
datacopy = RTPNew(GetMemoryManager(),(rtp)?RTPMEM_TYPE_BUFFER_RECEIVEDRTPPACKET:RTPMEM_TYPE_BUFFER_RECEIVEDRTCPPACKET) uint8_t[recvlen];
if (datacopy == 0)
{
RTPDelete(addr,GetMemoryManager());
return ERR_RTP_OUTOFMEM;
}
memcpy(datacopy,packetbuffer,recvlen);
pack = RTPNew(GetMemoryManager(),RTPMEM_TYPE_CLASS_RTPRAWPACKET) RTPRawPacket(datacopy,recvlen,addr,curtime,rtp,GetMemoryManager());
if (pack == 0)
{
RTPDelete(addr,GetMemoryManager());
RTPDeleteByteArray(datacopy,GetMemoryManager());
return ERR_RTP_OUTOFMEM;
}
rawpacketlist.push_back(pack);
}
}
len = 0;
RTPIOCTL(sock,FIONREAD,&len);
}
return 0;
}
int RTPUDPv6Transmitter::ProcessAddAcceptIgnoreEntry(in6_addr ip,uint16_t port)
{
acceptignoreinfo.GotoElement(ip);
if (acceptignoreinfo.HasCurrentElement()) // An entry for this IP address already exists
{
PortInfo *portinf = acceptignoreinfo.GetCurrentElement();
if (port == 0) // select all ports
{
portinf->all = true;
portinf->portlist.clear();
}
else if (!portinf->all)
{
std::list<uint16_t>::const_iterator it,begin,end;
begin = portinf->portlist.begin();
end = portinf->portlist.end();
for (it = begin ; it != end ; it++)
{
if (*it == port) // already in list
return 0;
}
portinf->portlist.push_front(port);
}
}
else // got to create an entry for this IP address
{
PortInfo *portinf;
int status;
portinf = RTPNew(GetMemoryManager(),RTPMEM_TYPE_CLASS_ACCEPTIGNOREPORTINFO) PortInfo();
if (port == 0) // select all ports
portinf->all = true;
else
portinf->portlist.push_front(port);
status = acceptignoreinfo.AddElement(ip,portinf);
if (status < 0)
{
RTPDelete(portinf,GetMemoryManager());
return status;
}
}
return 0;
}
void RTPUDPv6Transmitter::ClearAcceptIgnoreInfo()
{
acceptignoreinfo.GotoFirstElement();
while (acceptignoreinfo.HasCurrentElement())
{
PortInfo *inf;
inf = acceptignoreinfo.GetCurrentElement();
RTPDelete(inf,GetMemoryManager());
acceptignoreinfo.GotoNextElement();
}
acceptignoreinfo.Clear();
}
int RTPUDPv6Transmitter::ProcessDeleteAcceptIgnoreEntry(in6_addr ip,uint16_t port)
{
acceptignoreinfo.GotoElement(ip);
if (!acceptignoreinfo.HasCurrentElement())
return ERR_RTP_UDPV6TRANS_NOSUCHENTRY;
PortInfo *inf;
inf = acceptignoreinfo.GetCurrentElement();
if (port == 0) // delete all entries
{
inf->all = false;
inf->portlist.clear();
}
else // a specific port was selected
{
if (inf->all) // currently, all ports are selected. Add the one to remove to the list
{
// we have to check if the list doesn't contain the port already
std::list<uint16_t>::const_iterator it,begin,end;
begin = inf->portlist.begin();
end = inf->portlist.end();
for (it = begin ; it != end ; it++)
{
if (*it == port) // already in list: this means we already deleted the entry
return ERR_RTP_UDPV6TRANS_NOSUCHENTRY;
}
inf->portlist.push_front(port);
}
else // check if we can find the port in the list
{
std::list<uint16_t>::iterator it,begin,end;
begin = inf->portlist.begin();
end = inf->portlist.end();
for (it = begin ; it != end ; ++it)
{
if (*it == port) // found it!
{
inf->portlist.erase(it);
return 0;
}
}
// didn't find it
return ERR_RTP_UDPV6TRANS_NOSUCHENTRY;
}
}
return 0;
}
bool RTPUDPv6Transmitter::ShouldAcceptData(in6_addr srcip,uint16_t srcport)
{
if (receivemode == RTPTransmitter::AcceptSome)
{
PortInfo *inf;
acceptignoreinfo.GotoElement(srcip);
if (!acceptignoreinfo.HasCurrentElement())
return false;
inf = acceptignoreinfo.GetCurrentElement();
if (!inf->all) // only accept the ones in the list
{
std::list<uint16_t>::const_iterator it,begin,end;
begin = inf->portlist.begin();
end = inf->portlist.end();
for (it = begin ; it != end ; it++)
{
if (*it == srcport)
return true;
}
return false;
}
else // accept all, except the ones in the list
{
std::list<uint16_t>::const_iterator it,begin,end;
begin = inf->portlist.begin();
end = inf->portlist.end();
for (it = begin ; it != end ; it++)
{
if (*it == srcport)
return false;
}
return true;
}
}
else // IgnoreSome
{
PortInfo *inf;
acceptignoreinfo.GotoElement(srcip);
if (!acceptignoreinfo.HasCurrentElement())
return true;
inf = acceptignoreinfo.GetCurrentElement();
if (!inf->all) // ignore the ports in the list
{
std::list<uint16_t>::const_iterator it,begin,end;
begin = inf->portlist.begin();
end = inf->portlist.end();
for (it = begin ; it != end ; it++)
{
if (*it == srcport)
return false;
}
return true;
}
else // ignore all, except the ones in the list
{
std::list<uint16_t>::const_iterator it,begin,end;
begin = inf->portlist.begin();
end = inf->portlist.end();
for (it = begin ; it != end ; it++)
{
if (*it == srcport)
return true;
}
return false;
}
}
return true;
}
#if (defined(WIN32) || defined(_WIN32_WCE))
int RTPUDPv6Transmitter::CreateAbortDescriptors()
{
SOCKET listensock;
int size;
struct sockaddr_in6 addr;
listensock = socket(PF_INET6,SOCK_STREAM,0);
if (listensock == RTPSOCKERR)
return ERR_RTP_UDPV6TRANS_CANTCREATEABORTDESCRIPTORS;
memset(&addr,0,sizeof(struct sockaddr_in6));
addr.sin6_family = AF_INET6;
if (bind(listensock,(struct sockaddr *)&addr,sizeof(struct sockaddr_in6)) != 0)
{
RTPCLOSE(listensock);
return ERR_RTP_UDPV6TRANS_CANTCREATEABORTDESCRIPTORS;
}
memset(&addr,0,sizeof(struct sockaddr_in6));
size = sizeof(struct sockaddr_in6);
if (getsockname(listensock,(struct sockaddr*)&addr,&size) != 0)
{
RTPCLOSE(listensock);
return ERR_RTP_UDPV6TRANS_CANTCREATEABORTDESCRIPTORS;
}
unsigned short connectport = ntohs(addr.sin6_port);
abortdesc[0] = socket(PF_INET6,SOCK_STREAM,0);
if (abortdesc[0] == RTPSOCKERR)
{
RTPCLOSE(listensock);
return ERR_RTP_UDPV6TRANS_CANTCREATEABORTDESCRIPTORS;
}
memset(&addr,0,sizeof(struct sockaddr_in6));
addr.sin6_family = AF_INET6;
if (bind(abortdesc[0],(struct sockaddr *)&addr,sizeof(struct sockaddr_in6)) != 0)
{
RTPCLOSE(listensock);
RTPCLOSE(abortdesc[0]);
return ERR_RTP_UDPV6TRANS_CANTCREATEABORTDESCRIPTORS;
}
if (listen(listensock,1) != 0)
{
RTPCLOSE(listensock);
RTPCLOSE(abortdesc[0]);
return ERR_RTP_UDPV6TRANS_CANTCREATEABORTDESCRIPTORS;
}
memset(&addr,0,sizeof(struct sockaddr_in6));
addr.sin6_family = AF_INET6;
addr.sin6_addr = in6addr_loopback;
addr.sin6_port = htons(connectport);
if (connect(abortdesc[0],(struct sockaddr *)&addr,sizeof(struct sockaddr_in6)) != 0)
{
RTPCLOSE(listensock);
RTPCLOSE(abortdesc[0]);
return ERR_RTP_UDPV6TRANS_CANTCREATEABORTDESCRIPTORS;
}
memset(&addr,0,sizeof(struct sockaddr_in6));
size = sizeof(struct sockaddr_in6);
abortdesc[1] = accept(listensock,(struct sockaddr *)&addr,&size);
if (abortdesc[1] == RTPSOCKERR)
{
RTPCLOSE(listensock);
RTPCLOSE(abortdesc[0]);
return ERR_RTP_UDPV6TRANS_CANTCREATEABORTDESCRIPTORS;
}
// okay, got the connection, close the listening socket
RTPCLOSE(listensock);
return 0;
}
void RTPUDPv6Transmitter::DestroyAbortDescriptors()
{
RTPCLOSE(abortdesc[0]);
RTPCLOSE(abortdesc[1]);
}
#else // in a non winsock environment we can use pipes
int RTPUDPv6Transmitter::CreateAbortDescriptors()
{
if (pipe(abortdesc) < 0)
return ERR_RTP_UDPV6TRANS_CANTCREATEPIPE;
return 0;
}
void RTPUDPv6Transmitter::DestroyAbortDescriptors()
{
close(abortdesc[0]);
close(abortdesc[1]);
}
#endif // WIN32
int RTPUDPv6Transmitter::CreateLocalIPList()
{
// first try to obtain the list from the network interface info
if (!GetLocalIPList_Interfaces())
{
// If this fails, we'll have to depend on DNS info
GetLocalIPList_DNS();
}
AddLoopbackAddress();
return 0;
}
#if (defined(WIN32) || defined(_WIN32_WCE))
bool RTPUDPv6Transmitter::GetLocalIPList_Interfaces()
{
unsigned char buffer[RTPUDPV6TRANS_IFREQBUFSIZE];
DWORD outputsize;
DWORD numaddresses,i;
SOCKET_ADDRESS_LIST *addrlist;
if (WSAIoctl(rtpsock,SIO_ADDRESS_LIST_QUERY,NULL,0,&buffer,RTPUDPV6TRANS_IFREQBUFSIZE,&outputsize,NULL,NULL))
return false;
addrlist = (SOCKET_ADDRESS_LIST *)buffer;
numaddresses = addrlist->iAddressCount;
for (i = 0 ; i < numaddresses ; i++)
{
SOCKET_ADDRESS *sockaddr = &(addrlist->Address[i]);
if (sockaddr->iSockaddrLength == sizeof(struct sockaddr_in6)) // IPv6 address
{
struct sockaddr_in6 *addr = (struct sockaddr_in6 *)sockaddr->lpSockaddr;
localIPs.push_back(addr->sin6_addr);
}
}
if (localIPs.empty())
return false;
return true;
}
#else
#ifdef RTP_SUPPORT_IFADDRS
bool RTPUDPv6Transmitter::GetLocalIPList_Interfaces()
{
struct ifaddrs *addrs,*tmp;
getifaddrs(&addrs);
tmp = addrs;
while (tmp != 0)
{
if (tmp->ifa_addr != 0 && tmp->ifa_addr->sa_family == AF_INET6)
{
struct sockaddr_in6 *inaddr = (struct sockaddr_in6 *)tmp->ifa_addr;
localIPs.push_back(inaddr->sin6_addr);
}
tmp = tmp->ifa_next;
}
freeifaddrs(addrs);
if (localIPs.empty())
return false;
return true;
}
#else
bool RTPUDPv6Transmitter::GetLocalIPList_Interfaces()
{
return false;
}
#endif // RTP_SUPPORT_IFADDRS
#endif // WIN32
void RTPUDPv6Transmitter::GetLocalIPList_DNS()
{
int status;
char name[1024];
gethostname(name,1023);
name[1023] = 0;
struct addrinfo hints;
struct addrinfo *res,*tmp;
memset(&hints,0,sizeof(struct addrinfo));
hints.ai_family = AF_INET6;
hints.ai_socktype = 0;
hints.ai_protocol = 0;
if ((status = getaddrinfo(name,0,&hints,&res)) != 0)
return;
tmp = res;
while (tmp != 0)
{
if (tmp->ai_family == AF_INET6)
{
struct sockaddr_in6 *addr = (struct sockaddr_in6 *)(tmp->ai_addr);
localIPs.push_back(addr->sin6_addr);
}
tmp = tmp->ai_next;
}
freeaddrinfo(res);
}
void RTPUDPv6Transmitter::AbortWaitInternal()
{
#if (defined(WIN32) || defined(_WIN32_WCE))
send(abortdesc[1],"*",1,0);
#else
write(abortdesc[1],"*",1);
#endif // WIN32
}
void RTPUDPv6Transmitter::AddLoopbackAddress()
{
std::list<in6_addr>::const_iterator it;
bool found = false;
for (it = localIPs.begin() ; !found && it != localIPs.end() ; it++)
{
if ((*it) == in6addr_loopback)
found = true;
}
if (!found)
localIPs.push_back(in6addr_loopback);
}
#ifdef RTPDEBUG
void RTPUDPv6Transmitter::Dump()
{
if (!init)
std::cout << "Not initialized" << std::endl;
else
{
MAINMUTEX_LOCK
if (!created)
std::cout << "Not created" << std::endl;
else
{
char str[48];
in6_addr ip;
uint16_t ip16[8];
std::list<in6_addr>::const_iterator it;
int i,j;
std::cout << "Portbase: " << portbase << std::endl;
std::cout << "RTP socket descriptor: " << rtpsock << std::endl;
std::cout << "RTCP socket descriptor: " << rtcpsock << std::endl;
ip = bindIP;
for (i = 0,j = 0 ; j < 8 ; j++,i += 2) { ip16[j] = (((uint16_t)ip.s6_addr[i])<<8); ip16[j] |= ((uint16_t)ip.s6_addr[i+1]); }
RTP_SNPRINTF(str,48,"%04X:%04X:%04X:%04X:%04X:%04X:%04X:%04X",(int)ip16[0],(int)ip16[1],(int)ip16[2],(int)ip16[3],(int)ip16[4],(int)ip16[5],(int)ip16[6],(int)ip16[7]);
std::cout << "Bind IP address: " << str << std::endl;
std::Cout << "Multicast interface index: " << mcastifidx << std::endl;
std::cout << "Local IP addresses:" << std::endl;
for (it = localIPs.begin() ; it != localIPs.end() ; it++)
{
ip = (*it);
for (i = 0,j = 0 ; j < 8 ; j++,i += 2) { ip16[j] = (((uint16_t)ip.s6_addr[i])<<8); ip16[j] |= ((uint16_t)ip.s6_addr[i+1]); }
RTP_SNPRINTF(str,48,"%04X:%04X:%04X:%04X:%04X:%04X:%04X:%04X",(int)ip16[0],(int)ip16[1],(int)ip16[2],(int)ip16[3],(int)ip16[4],(int)ip16[5],(int)ip16[6],(int)ip16[7]);
std::cout << " " << str << std::endl;
}
std::cout << "Multicast TTL: " << (int)multicastTTL << std::endl;
std::cout << "Receive mode: ";
switch (receivemode)
{
case RTPTransmitter::AcceptAll:
std::cout << "Accept all";
break;
case RTPTransmitter::AcceptSome:
std::cout << "Accept some";
break;
case RTPTransmitter::IgnoreSome:
std::cout << "Ignore some";
}
std::cout << std::endl;
if (receivemode != RTPTransmitter::AcceptAll)
{
acceptignoreinfo.GotoFirstElement();
while(acceptignoreinfo.HasCurrentElement())
{
ip = acceptignoreinfo.GetCurrentKey();
for (i = 0,j = 0 ; j < 8 ; j++,i += 2) { ip16[j] = (((uint16_t)ip.s6_addr[i])<<8); ip16[j] |= ((uint16_t)ip.s6_addr[i+1]); }
RTP_SNPRINTF(str,48,"%04X:%04X:%04X:%04X:%04X:%04X:%04X:%04X",(int)ip16[0],(int)ip16[1],(int)ip16[2],(int)ip16[3],(int)ip16[4],(int)ip16[5],(int)ip16[6],(int)ip16[7]);
PortInfo *pinfo = acceptignoreinfo.GetCurrentElement();
std::cout << " " << str << ": ";
if (pinfo->all)
{
std::cout << "All ports";
if (!pinfo->portlist.empty())
std::cout << ", except ";
}
std::list<uint16_t>::const_iterator it;
for (it = pinfo->portlist.begin() ; it != pinfo->portlist.end() ; )
{
std::cout << (*it);
it++;
if (it != pinfo->portlist.end())
std::cout << ", ";
}
std::cout << std::endl;
}
}
std::cout << "Local host name: ";
if (localhostname == 0)
std::cout << "Not set";
else
std::cout << localhostname;
std::cout << std::endl;
std::cout << "List of destinations: ";
destinations.GotoFirstElement();
if (destinations.HasCurrentElement())
{
std::cout << std::endl;
do
{
std::cout << " " << destinations.GetCurrentElement().GetDestinationString() << std::endl;
destinations.GotoNextElement();
} while (destinations.HasCurrentElement());
}
else
std::cout << "Empty" << std::endl;
std::cout << "Supports multicasting: " << ((supportsmulticasting)?"Yes":"No") << std::endl;
#ifdef RTP_SUPPORT_IPV6MULTICAST
std::cout << "List of multicast groups: ";
multicastgroups.GotoFirstElement();
if (multicastgroups.HasCurrentElement())
{
std::cout << std::endl;
do
{
ip = multicastgroups.GetCurrentElement();
for (i = 0,j = 0 ; j < 8 ; j++,i += 2) { ip16[j] = (((uint16_t)ip.s6_addr[i])<<8); ip16[j] |= ((uint16_t)ip.s6_addr[i+1]); }
RTP_SNPRINTF(str,48,"%04X:%04X:%04X:%04X:%04X:%04X:%04X:%04X",(int)ip16[0],(int)ip16[1],(int)ip16[2],(int)ip16[3],(int)ip16[4],(int)ip16[5],(int)ip16[6],(int)ip16[7]);
std::cout << " " << str << std::endl;
multicastgroups.GotoNextElement();
} while (multicastgroups.HasCurrentElement());
}
else
std::cout << "Empty" << std::endl;
#endif // RTP_SUPPORT_IPV6MULTICAST
std::cout << "Number of raw packets in queue: " << rawpacketlist.size() << std::endl;
std::cout << "Maximum allowed packet size: " << maxpacksize << std::endl;
}
MAINMUTEX_UNLOCK
}
}
#endif // RTPDEBUG
#endif // RTP_SUPPORT_IPV6