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ProxyChannel.cxx
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ProxyChannel.cxx
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//////////////////////////////////////////////////////////////////
//
// ProxyChannel.cxx
//
// Copyright (c) Citron Network Inc. 2001-2002
// Copyright (c) 2002-2024, Jan Willamowius
//
// This work is published under the GNU Public License version 2 (GPLv2)
// see file COPYING for details.
// We also explicitly grant the right to link this code
// with the OpenH323/H323Plus and OpenSSL library.
//
//////////////////////////////////////////////////////////////////
#define __APPLE_USE_RFC_3542 // MacOSX supposedly needs this to be able to set the UDP source IP
#include "config.h"
#include <ptlib.h>
#include <ptclib/random.h>
#include <q931.h>
#include <h245.h>
#include <h323pdu.h>
#include "snmp.h"
#include "gk.h"
#include "gk_const.h"
#include "h323util.h"
#include "Toolkit.h"
#include "stl_supp.h"
#include "gkacct.h"
#include "RasSrv.h"
#include "GkClient.h"
#include "Neighbor.h"
#include "sigmsg.h"
#include "ProxyChannel.h"
#include "GkStatus.h"
#include <queue>
#include <math.h> // needed for ceil() on Solaris 11, OpenBSD
#include <algorithm>
#ifdef HAS_AVAYA_SUPPORT
#include "avaya.h"
#endif
#ifdef H323_H450
#ifdef h323pluslib
#include "h450/h4501.h"
#include "h450/h4502.h"
#else
#include "h4501.h"
#include "h4502.h"
#endif
#include "SoftPBX.h"
#endif
#ifdef HAS_H460
#include <h460/h4601.h>
#ifdef HAS_H46018
#include <h460/h46018.h>
#include <h460/h46019.h>
#endif
#endif
#ifdef HAS_H235_MEDIA
#include "h235/h2351.h"
#include "h235/h2356.h"
#include "h235/h235crypto.h"
#endif
#if _WIN32 || _WIN64
#include <mswsock.h>
# ifndef SHUT_RDWR
# define SHUT_RDWR SD_BOTH
# endif
# ifndef SHUT_WR
# define SHUT_WR SD_SEND
# endif
#endif
#ifdef P_OPENBSD
#include <sys/uio.h>
#endif
using namespace std;
using Routing::Route;
const char* RoutedSec = "RoutedMode";
const char* TLSSec = "TLS";
const char* ProxySection = "Proxy";
char H225_ProtocolID[ProtocolID_BufferSize];
char H245_ProtocolID[ProtocolID_BufferSize];
const char *H225_Protocol_Version[MAX_H323_VERSION + 1] = {
"0.0.8.2250.0.0", // dummy, never used
"0.0.8.2250.0.1",
"0.0.8.2250.0.2",
"0.0.8.2250.0.3",
"0.0.8.2250.0.4",
"0.0.8.2250.0.5",
"0.0.8.2250.0.6",
"0.0.8.2250.0.7"
};
const char *H245_Protocol_Version[MAX_H323_VERSION + 1] = {
"0.0.8.245.0.0", // dummy, never used
"0.0.8.245.0.2",
"0.0.8.245.0.3",
"0.0.8.245.0.5",
"0.0.8.245.0.7",
"0.0.8.245.0.9",
"0.0.8.245.0.13",
"0.0.8.245.0.15"
};
#define UNDEFINED_PAYLOAD_TYPE 255
#define H46019_AUTO_DETECTION_WAIT 4000 // wait n millisec before doing H.460.19 port auto-detection
#define G722_1_OID "0.0.7.7221.1.0"
#define G722_1C_OID "0.0.7.7221.1.1.0"
#define G722_2_OID "0.0.7.7221.2.0"
namespace {
// default timeout (ms) for initial Setup message,
// if not specified in the config file
const long DEFAULT_SETUP_TIMEOUT = 8000;
// time to wait before deleting a closed socket
const long DEFAULT_SOCKET_CLEANUP_TIMEOUT = 5000;
// if socket bind fails, try next DEFAULT_NUM_SEQ_PORTS subsequent port numbers
const int DEFAULT_NUM_SEQ_PORTS = 500;
// maximum number of handler threads GnuGk will start (call signaling or RTP)
const unsigned MAX_HANDLER_NUMBER = 200;
const WORD RTP_BASE_HEADER_LEN = 12;
enum RTPSessionTypes { Unknown = 0, Audio, Video, Presentation, Data };
// RTCP functions used in UDPProxySocket and H46019Session
void ParseRTCP(const callptr & call, WORD sessionID, PIPSocket::Address fromIP, BYTE * wbuffer, WORD buflen);
void BuildReceiverReport(const callptr & call, WORD sessionID, const RTP_ControlFrame & frame, PINDEX offset, bool dst);
H245_H2250LogicalChannelParameters *GetLogicalChannelParameters(H245_OpenLogicalChannel & olc, bool & isReverseLC);
#ifdef HAS_H46018
bool odd(unsigned n) { return (n % 2) != 0; }
#endif
WORD RTP_HeaderSize(const BYTE * buffer, WORD len)
{
WORD header_size = RTP_BASE_HEADER_LEN;
// skip more if header has CSRC or extensions
bool has_extension = (((int)buffer[0] & 0x10) > 0);
int cc = (((int)buffer[0] & 0x0f) << 4);
if (cc)
header_size += (cc * 4);
if (has_extension && (len >= header_size + 4)) {
WORD extension_len = ((int)buffer[header_size+2] * 256) + (int)buffer[header_size+3] + 1;
header_size += (extension_len * 4);
}
//PTRACE(0, "JW extension=" << has_extension << " cc=" << cc << " header_size=" << header_size << " of len=" << len);
if (header_size > len) {
PTRACE(1, "RTP\tError: RTP packet shorter than header");
return min(len, RTP_BASE_HEADER_LEN);
}
return header_size;
}
template <class UUIE>
inline unsigned GetH225Version(const UUIE & uuie)
{
if (uuie.m_protocolIdentifier.GetSize() < 6)
return 0;
else
return uuie.m_protocolIdentifier[5];
}
H245_UnicastAddress *GetH245UnicastAddress(H245_TransportAddress & tsap)
{
if (tsap.GetTag() == H245_TransportAddress::e_unicastAddress) {
H245_UnicastAddress & uniaddr = tsap;
return &uniaddr;
}
return NULL;
}
inline H245_UnicastAddress & operator<<(H245_UnicastAddress & addr, const PIPSocket::Address & ip)
{
if (ip.GetVersion() == 6) {
addr.SetTag(H245_UnicastAddress::e_iP6Address);
H245_UnicastAddress_iP6Address & addrv6 = addr;
for (int i = 0; i < 16; ++i)
addrv6.m_network[i] = ip[i];
} else {
addr.SetTag(H245_UnicastAddress::e_iPAddress);
H245_UnicastAddress_iPAddress & addrv4 = addr;
for (int i = 0; i < 4; ++i)
addrv4.m_network[i] = ip[i];
}
return addr;
}
inline H245_UnicastAddress & operator<<(H245_UnicastAddress & addr, WORD port)
{
if (addr.GetTag() == H245_UnicastAddress::e_iPAddress) {
H245_UnicastAddress_iPAddress & addrv4 = addr;
addrv4.m_tsapIdentifier = port;
} else if (addr.GetTag() == H245_UnicastAddress::e_iP6Address) {
H245_UnicastAddress_iP6Address & addrv6 = addr;
addrv6.m_tsapIdentifier = port;
}
return addr;
}
inline const H245_UnicastAddress & operator>>(const H245_UnicastAddress & addr, PIPSocket::Address & ip)
{
if (addr.GetTag() == H245_UnicastAddress::e_iPAddress) {
const H245_UnicastAddress_iPAddress & addrv4 = addr;
ip = PIPSocket::Address(addrv4.m_network.GetSize(), addrv4.m_network);
} else if (addr.GetTag() == H245_UnicastAddress::e_iP6Address) {
const H245_UnicastAddress_iP6Address & addrv6 = addr;
ip = PIPSocket::Address(addrv6.m_network.GetSize(), addrv6.m_network);
}
return addr;
}
inline const H245_UnicastAddress & operator>>(const H245_UnicastAddress & addr, WORD & port)
{
if (addr.GetTag() == H245_UnicastAddress::e_iPAddress) {
const H245_UnicastAddress_iPAddress & addrv4 = addr;
port = (WORD)addrv4.m_tsapIdentifier;
} else if (addr.GetTag() == H245_UnicastAddress::e_iP6Address) {
const H245_UnicastAddress_iP6Address & addrv6 = addr;
port = (WORD)addrv6.m_tsapIdentifier;
}
return addr;
}
PString GetH245CodecName(const H245_AudioCapability & cap)
{
switch (cap.GetTag()) {
case H245_AudioCapability::e_g711Alaw64k:
return "G711A";
case H245_AudioCapability::e_g711Alaw56k:
return "G711A56";
case H245_AudioCapability::e_g711Ulaw64k:
return "G711U";
case H245_AudioCapability::e_g711Ulaw56k:
return "G711U56";
case H245_AudioCapability::e_g722_64k:
return "G72264";
case H245_AudioCapability::e_g722_56k:
return "G72256";
case H245_AudioCapability::e_g722_48k:
return "G72248";
case H245_AudioCapability::e_g7231:
return "G7231";
case H245_AudioCapability::e_g728:
return "G728";
case H245_AudioCapability::e_g729:
return "G729";
case H245_AudioCapability::e_g729AnnexA:
return "G729A";
case H245_AudioCapability::e_g729wAnnexB:
return "G729B";
case H245_AudioCapability::e_g729AnnexAwAnnexB:
return "G729AB";
case H245_AudioCapability::e_g7231AnnexCCapability:
return "G7231C";
case H245_AudioCapability::e_gsmFullRate:
return "GSMFR";
case H245_AudioCapability::e_gsmHalfRate:
return "GSMHR";
case H245_AudioCapability::e_gsmEnhancedFullRate:
return "GSMEFR";
case H245_AudioCapability::e_genericAudioCapability: {
const H245_GenericCapability & genericcap = cap;
if (genericcap.m_capabilityIdentifier.GetTag() == H245_CapabilityIdentifier::e_standard) {
const PASN_ObjectId & id = genericcap.m_capabilityIdentifier;
if (id == G722_1_OID)
return "G722.1";
if (id == G722_1C_OID)
return "G722.1C";
if (id == G722_2_OID)
return "G722.2";
}
return "GenericAudio";
}
}
return "Unknown";
}
PString GetH245CodecName(const H245_VideoCapability & cap)
{
switch (cap.GetTag()) {
case H245_VideoCapability::e_h261VideoCapability:
return "H.261";
case H245_VideoCapability::e_h263VideoCapability:
return "H.263";
case H245_VideoCapability::e_genericVideoCapability:
return "H.264";
case H245_VideoCapability::e_extendedVideoCapability:
return "H.239";
}
return "Unknown";
}
unsigned GetH245CodecBitrate(const H245_AudioCapability & cap)
{
switch (cap.GetTag()) {
case H245_AudioCapability::e_g711Alaw64k:
return 640;
case H245_AudioCapability::e_g711Alaw56k:
return 560;
case H245_AudioCapability::e_g711Ulaw64k:
return 640;
case H245_AudioCapability::e_g711Ulaw56k:
return 560;
case H245_AudioCapability::e_g722_64k:
return 640;
case H245_AudioCapability::e_g722_56k:
return 560;
case H245_AudioCapability::e_g722_48k:
return 480;
case H245_AudioCapability::e_g7231:
return 63;
case H245_AudioCapability::e_g728:
return 160;
case H245_AudioCapability::e_g729:
return 80;
case H245_AudioCapability::e_g729AnnexA:
return 80;
case H245_AudioCapability::e_g729wAnnexB:
return 80;
case H245_AudioCapability::e_g729AnnexAwAnnexB:
return 80;
case H245_AudioCapability::e_g7231AnnexCCapability:
return 63;
case H245_AudioCapability::e_gsmFullRate:
return 130;
case H245_AudioCapability::e_gsmHalfRate:
return 56;
case H245_AudioCapability::e_gsmEnhancedFullRate:
return 122;
case H245_AudioCapability::e_genericAudioCapability: {
const H245_GenericCapability & genericcap = cap;
if (genericcap.m_capabilityIdentifier.GetTag() == H245_CapabilityIdentifier::e_standard) {
const PASN_ObjectId & id = genericcap.m_capabilityIdentifier;
if (id == G722_1_OID)
return genericcap.m_maxBitRate / 100; // G.722.1 Annex A changes units to bit/s, not 100 bit/s !!!
}
return genericcap.m_maxBitRate;
}
}
return 0;
}
unsigned GetH245CodecBitrate(const H245_VideoCapability & cap)
{
switch (cap.GetTag()) {
case H245_VideoCapability::e_h261VideoCapability: {
const H245_H261VideoCapability & h261cap = cap;
return h261cap.m_maxBitRate;
}
case H245_VideoCapability::e_h263VideoCapability: {
const H245_H263VideoCapability & h263cap = cap;
return h263cap.m_maxBitRate;
}
case H245_VideoCapability::e_genericVideoCapability: {
const H245_GenericCapability & genericcap = cap;
return genericcap.m_maxBitRate;
}
}
return 0;
}
#ifdef HAS_H235_MEDIA
BYTE GetStaticAudioPayloadType(unsigned tag)
{
switch (tag) {
case H245_AudioCapability::e_g711Alaw64k:
case H245_AudioCapability::e_g711Alaw56k:
return 8;
case H245_AudioCapability::e_g711Ulaw64k:
case H245_AudioCapability::e_g711Ulaw56k:
return 0;
case H245_AudioCapability::e_g722_64k:
case H245_AudioCapability::e_g722_56k:
case H245_AudioCapability::e_g722_48k:
return 9;
case H245_AudioCapability::e_g7231:
case H245_AudioCapability::e_g7231AnnexCCapability:
return 4;
case H245_AudioCapability::e_g728:
return 15;
case H245_AudioCapability::e_g729:
case H245_AudioCapability::e_g729AnnexA:
case H245_AudioCapability::e_g729wAnnexB:
case H245_AudioCapability::e_g729AnnexAwAnnexB:
return 18;
case H245_AudioCapability::e_gsmFullRate:
case H245_AudioCapability::e_gsmHalfRate:
case H245_AudioCapability::e_gsmEnhancedFullRate:
return 3;
};
return UNDEFINED_PAYLOAD_TYPE;
};
BYTE GetStaticVideoPayloadType(unsigned tag)
{
switch (tag) {
case H245_VideoCapability::e_h261VideoCapability:
return 31;
case H245_VideoCapability::e_h263VideoCapability:
return 34;
};
return UNDEFINED_PAYLOAD_TYPE;
};
BYTE GetStaticPayloadType(const H245_DataType & type)
{
if (type.GetTag() == H245_DataType::e_audioData) {
const H245_AudioCapability & audioCap = type;
return GetStaticAudioPayloadType(audioCap.GetTag());
}
if (type.GetTag() == H245_DataType::e_videoData) {
const H245_VideoCapability & videoCap = type;
return GetStaticVideoPayloadType(videoCap.GetTag());
}
if (type.GetTag() == H245_DataType::e_h235Media) {
const H245_H235Media & h235data = type;
if (h235data.m_mediaType.GetTag() == H245_H235Media_mediaType::e_audioData) {
const H245_AudioCapability & audioCap = h235data.m_mediaType;
return GetStaticAudioPayloadType(audioCap.GetTag());
}
if (h235data.m_mediaType.GetTag() == H245_H235Media_mediaType::e_videoData) {
const H245_VideoCapability & videoCap = h235data.m_mediaType;
return GetStaticVideoPayloadType(videoCap.GetTag());
}
}
return UNDEFINED_PAYLOAD_TYPE;
}
// pick a random payload type, but not the old one or the plaintext PT
BYTE RandomPT(BYTE oldPT, BYTE plainPT)
{
BYTE newPT = oldPT;
while ((newPT == oldPT) || (newPT == plainPT)) {
newPT = PRandom::Number() % 254 + 1; // generate random in range [1-254]
}
return newPT;
}
bool IsOldH263(const H245_DataType & type)
{
if (type.GetTag() == H245_DataType::e_videoData) {
const H245_VideoCapability & videoCap = type;
if (videoCap.GetTag() == H245_VideoCapability::e_h263VideoCapability) {
const H245_H263VideoCapability & h263cap = videoCap;
return !h263cap.HasOptionalField(H245_H263VideoCapability::e_h263Options);
}
}
if (type.GetTag() == H245_DataType::e_h235Media) {
const H245_H235Media & h235data = type;
if (h235data.m_mediaType.GetTag() == H245_H235Media_mediaType::e_videoData) {
const H245_VideoCapability & videoCap = h235data.m_mediaType;
if (videoCap.GetTag() == H245_VideoCapability::e_h263VideoCapability) {
const H245_H263VideoCapability & h263cap = videoCap;
return !h263cap.HasOptionalField(H245_H263VideoCapability::e_h263Options);
}
}
}
return false;
}
#endif // HAS_H235_MEDIA
} // end of anonymous namespace
// send a UDP datagram and set the source IP (used only for RTP, RAS is using sockets bound to specific IPs)
// the method is highly OS specific
#if _WIN32 || _WIN64
ssize_t UDPSendWithSourceIP(int fd, void * data, size_t len, const IPAndPortAddress & toAddress, PIPSocket::Address * gkIP)
{
#ifdef hasIPV6
struct sockaddr_in6 dest;
#else
struct sockaddr_in dest;
#endif
// set dest address
PIPSocket::Address toIP;
WORD toPort = 0;
if (!IsSet(toAddress) || ! toAddress.GetIpAndPort(toIP, toPort)) {
PTRACE(5, "RTP\tSend error, toAddress not set");
return -1;
}
SetSockaddr(dest, toIP, toPort);
#if (_WIN32_WINNT >= WINDOWS_VISTA)
if (g_pfWSASendMsg && !g_disableSettingUDPSourceIP) {
// set source address
PIPSocket::Address src;
if (gkIP) {
src = * gkIP; // if we have a specific GK IP to use, use that
} else {
src = RasServer::Instance()->GetLocalAddress(toIP); // pick a source IP from gatekeeper interfaces
}
WSABUF wsabuf;
wsabuf.buf = (CHAR *)data;
wsabuf.len = (ULONG)len;
WSAMSG msg;
memset(&msg, 0, sizeof(msg));
msg.name = (struct sockaddr*)&dest;
size_t addr_len = sizeof(sockaddr_in);
#ifdef hasIPV6
if (toIP.GetVersion() == 6)
addr_len = sizeof(sockaddr_in6);
#endif // hasIPV6
msg.namelen = (INT)addr_len;
msg.lpBuffers = &wsabuf;
msg.dwBufferCount = 1;
WSACMSGHDR * cm = NULL;
char cmsg[WSA_CMSG_SPACE(sizeof(struct in_pktinfo))];
unsigned cmsg_data_size = sizeof(struct in_pktinfo);
memset(cmsg, 0, sizeof(cmsg));
msg.Control.buf = cmsg;
msg.Control.len = sizeof(cmsg);
if (!Toolkit::Instance()->IsIPv6Enabled() || (((struct sockaddr*)&dest)->sa_family == AF_INET)) {
// set IPv4 source
cm = WSA_CMSG_FIRSTHDR(&msg);
cm->cmsg_len = WSA_CMSG_LEN(cmsg_data_size);
cm->cmsg_level = IPPROTO_IP;
cm->cmsg_type = IP_PKTINFO;
{
struct in_pktinfo ipi = { 0 };
ipi.ipi_addr.s_addr = src;
memcpy(WSA_CMSG_DATA(cm), &ipi, sizeof(ipi));
}
}
#ifdef hasIPV6
if (Toolkit::Instance()->IsIPv6Enabled()) {
// set IPv6 source with IPV6_PKTINFO
WSACMSGHDR * cm = NULL;
char cmsg6[WSA_CMSG_SPACE(sizeof(struct in6_pktinfo))];
unsigned cmsg6_data_size = sizeof(struct in6_pktinfo);
memset(cmsg6, 0, sizeof(cmsg6));
msg.Control.buf = cmsg6;
msg.Control.len = sizeof(cmsg6);
cm = WSA_CMSG_FIRSTHDR(&msg);
cm->cmsg_len = WSA_CMSG_LEN(cmsg6_data_size);
cm->cmsg_level = IPPROTO_IPV6;
cm->cmsg_type = IPV6_PKTINFO;
{
struct in6_pktinfo ipi = { 0 };
struct sockaddr_in6 s6;
SetSockaddr(s6, src, 0);
ipi.ipi6_addr = s6.sin6_addr;
memcpy(WSA_CMSG_DATA(cm), &ipi, sizeof(ipi));
}
}
#endif // hasIPV6
DWORD bytesSent = 0;
int rc = g_pfWSASendMsg(fd, &msg, 0, &bytesSent, NULL, NULL);
if (rc == 0) {
return bytesSent;
} else {
int err = WSAGetLastError();
PTRACE(7, "RTP\tSend error " << err);
return -1;
}
} else
#endif // WINDOWS_VISTA
{
// on XP we fall back to sendto()
// we can't set the source addr and XP seems to have trouble with IPv6, but IPv4 works OK
return ::sendto(fd, (const char *)data, len, 0, (struct sockaddr *)&dest, sizeof(dest));
}
}
#else // Unix
ssize_t UDPSendWithSourceIP(int fd, void * data, size_t len, const IPAndPortAddress & toAddress, PIPSocket::Address * gkIP)
{
#ifdef hasIPV6
struct sockaddr_in6 dest;
#else
struct sockaddr_in dest;
#endif
// set dest address
PIPSocket::Address toIP;
WORD toPort = 0;
if (!IsSet(toAddress) || !toAddress.GetIpAndPort(toIP, toPort)) {
PTRACE(5, "RTP\tSend error, toAddress not set");
return -1;
}
SetSockaddr(dest, toIP, toPort);
if (g_disableSettingUDPSourceIP) {
size_t addr_len = sizeof(sockaddr_in);
#ifdef hasIPV6
if (toIP.GetVersion() == 6)
addr_len = sizeof(sockaddr_in6);
#endif // hasIPV6
ssize_t bytesSent = sendto(fd, (char *)data, len, 0, (struct sockaddr*)&dest, addr_len);
if (bytesSent < 0) {
PTRACE(5, "RTP\tSend error " << strerror(errno));
}
return bytesSent;
}
struct msghdr msgh;
struct cmsghdr *cmsg;
struct iovec iov = { };
char cbuf[256];
memset(&cbuf, 0, sizeof(cbuf)); // zero the buffer to shut up Valgrind
// Set up iov and msgh structures
memset(&msgh, 0, sizeof(struct msghdr));
iov.iov_base = data;
iov.iov_len = len;
msgh.msg_iov = &iov;
msgh.msg_iovlen = 1;
msgh.msg_name = (struct sockaddr*)&dest;
// must pass short len when sending to IPv4 address on Solaris 11, OpenBSD and NetBSD
// sizeof(dest) is OK on Linux and FreeBSD
size_t addr_len = sizeof(sockaddr_in);
#ifdef hasIPV6
if (toIP.GetVersion() == 6)
addr_len = sizeof(sockaddr_in6);
#endif // hasIPV6
msgh.msg_namelen = addr_len;
// set source address
PIPSocket::Address src;
if (gkIP) {
src = * gkIP; // if we have a specific GK IP to use, use that
} else {
src = RasServer::Instance()->GetLocalAddress(toIP); // pick a source IP from gatekeeper interfaces
}
#ifdef hasIPV6
if (Toolkit::Instance()->IsIPv6Enabled() && (src.GetVersion() == 6)) {
struct in6_pktinfo *pkt;
msgh.msg_control = cbuf;
msgh.msg_controllen = CMSG_SPACE(sizeof(*pkt));
cmsg = CMSG_FIRSTHDR(&msgh);
cmsg->cmsg_level = IPPROTO_IPV6;
cmsg->cmsg_type = IPV6_PKTINFO;
cmsg->cmsg_len = CMSG_LEN(sizeof(*pkt));
pkt = (struct in6_pktinfo *) CMSG_DATA(cmsg);
memset(pkt, 0, sizeof(*pkt));
pkt->ipi6_addr = src;
msgh.msg_controllen = cmsg->cmsg_len;
} else
#endif // hasIPV6
{
#if defined(IP_PKTINFO) && !defined(P_NETBSD) // Linux and Solaris 11 (NetBSD 7 only has incomplete IP_PKTINFO support)
struct in_pktinfo *pkt;
msgh.msg_control = cbuf;
msgh.msg_controllen = CMSG_SPACE(sizeof(*pkt));
cmsg = CMSG_FIRSTHDR(&msgh);
cmsg->cmsg_level = IPPROTO_IP;
cmsg->cmsg_type = IP_PKTINFO;
cmsg->cmsg_len = CMSG_LEN(sizeof(*pkt));
pkt = (struct in_pktinfo *) CMSG_DATA(cmsg);
memset(pkt, 0, sizeof(*pkt));
pkt->ipi_spec_dst = src;
#else
#ifdef IP_SENDSRCADDR // FreeBSD
// FreeBSD doesn't allow IP_SENDSRCADDR on sockets bound to anything else than INADDR_ANY
bool skipSENDSRCADDR = false;
struct sockaddr name;
socklen_t name_len = sizeof(name);
if (getsockname(fd, &name, &name_len) >= 0) {
if (name.sa_family == AF_INET6) {
if (!IN6_IS_ADDR_UNSPECIFIED(&((struct sockaddr_in6 *)&name)->sin6_addr)) {
skipSENDSRCADDR = true;
}
} else {
if (((struct sockaddr_in *)&name)->sin_addr.s_addr != INADDR_ANY) {
skipSENDSRCADDR = true;
}
}
}
if (skipSENDSRCADDR) {
PTRACE(7, "JW RTP: Skipping IP_SENDSRCADDR on this socket");
} else {
struct in_addr *in;
msgh.msg_control = cbuf;
msgh.msg_controllen = CMSG_SPACE(sizeof(*in));
cmsg = CMSG_FIRSTHDR(&msgh);
cmsg->cmsg_level = IPPROTO_IP;
cmsg->cmsg_type = IP_SENDSRCADDR;
cmsg->cmsg_len = CMSG_LEN(sizeof(*in));
in = (struct in_addr *) CMSG_DATA(cmsg);
*in = src;
}
#endif // IP_SENDSRCADDR
#endif // IP_PKTINFO else
}
ssize_t bytesSent = sendmsg(fd, &msgh, 0);
if (bytesSent < 0) {
PTRACE(5, "RTP\tSend error: " << strerror(errno));
}
return bytesSent;
}
#endif
ssize_t UDPSendWithSourceIP(int fd, void * data, size_t len, const PIPSocket::Address & ip, WORD port, PIPSocket::Address * gkIP)
{
const IPAndPortAddress to(ip, port);
return UDPSendWithSourceIP(fd, data, len, to, gkIP);
}
#ifdef HAS_H46018
void RemoveH46019Descriptor(H225_ArrayOf_FeatureDescriptor & supportedFeatures, bool & senderSupportsH46019Multiplexing, bool & isH46019Client)
{
for (PINDEX i = 0; i < supportedFeatures.GetSize(); i++) {
H225_GenericIdentifier & id = supportedFeatures[i].m_id;
if (id.GetTag() == H225_GenericIdentifier::e_standard) {
PASN_Integer & asnInt = id;
if (asnInt.GetValue() == 19) {
senderSupportsH46019Multiplexing = false;
isH46019Client = true;
for (PINDEX p = 0; p < supportedFeatures[i].m_parameters.GetSize(); p++) {
if (supportedFeatures[i].m_parameters[p].m_id.GetTag() == H225_GenericIdentifier::e_standard) {
PASN_Integer & pInt = supportedFeatures[i].m_parameters[p].m_id;
if (pInt == 1) {
senderSupportsH46019Multiplexing = true;
}
if (pInt == 2) {
isH46019Client = false;
}
}
}
// delete, move others 1 up
for (PINDEX j = i + 1; j < supportedFeatures.GetSize(); j++) {
supportedFeatures[j - 1] = supportedFeatures[j];
}
supportedFeatures.SetSize(supportedFeatures.GetSize() - 1);
return;
}
}
}
}
#endif
#ifdef HAS_H46023
// Fix for H323plus 1.25 and prior with H.460.24 Multiplexing parameter being sent in the wrong field
// in the Alerting and Connect message
bool FixH46024Multiplexing(const H225_ArrayOf_GenericData & data, H225_FeatureSet & features)
{
for (PINDEX i = 0; i < data.GetSize(); i++) {
H225_GenericIdentifier & id = data[i].m_id;
if (id.GetTag() == H225_GenericIdentifier::e_standard) {
PASN_Integer & asnInt = id;
if (asnInt.GetValue() == 19) {
features.IncludeOptionalField(H225_FeatureSet::e_supportedFeatures);
H225_ArrayOf_FeatureDescriptor & supportedFeatures = features.m_supportedFeatures;
int sz = supportedFeatures.GetSize();
supportedFeatures.SetSize(sz + 1);
supportedFeatures[sz] = (const H225_FeatureDescriptor &)data[i];
PTRACE(4, "H46023\tCorrecting message in generic field");
return true;
}
}
}
return false;
}
bool HasH46024Descriptor(H225_ArrayOf_FeatureDescriptor & supportedFeatures)
{
bool found = false;
bool senderSupportsH46019Multiplexing = false;
for (PINDEX i = 0; i < supportedFeatures.GetSize(); i++) {
H225_GenericIdentifier & id = supportedFeatures[i].m_id;
if (id.GetTag() == H225_GenericIdentifier::e_standard) {
PASN_Integer & asnInt = id;
if (asnInt.GetValue() == 24)
found = true;
}
}
if (!found)
return false;
// if we are not interzone Multiplexing or don't support it remove the .19 Feature if it is there
for (PINDEX i = 0; i < supportedFeatures.GetSize(); i++) {
H225_GenericIdentifier & id = supportedFeatures[i].m_id;
if (id.GetTag() == H225_GenericIdentifier::e_standard) {
PASN_Integer & asnInt = id;
if (asnInt.GetValue() == 19) {
for (PINDEX p = 0; p < supportedFeatures[i].m_parameters.GetSize(); p++) {
if (supportedFeatures[i].m_parameters[p].m_id.GetTag() == H225_GenericIdentifier::e_standard) {
PASN_Integer & pInt = supportedFeatures[i].m_parameters[p].m_id;
if (pInt == 1)
senderSupportsH46019Multiplexing = true;
}
}
if (!senderSupportsH46019Multiplexing ||
!Toolkit::AsBool(GkConfig()->GetString(ProxySection, "RTPMultiplexing", "0"))) {
for (PINDEX j = i + 1; j < supportedFeatures.GetSize(); j++) {
supportedFeatures[j - 1] = supportedFeatures[j];
}
supportedFeatures.SetSize(supportedFeatures.GetSize() - 1);
}
}
}
}
return found;
}
bool IsH46024ProxyStrategy(CallRec::NatStrategy strat)
{
if (strat == CallRec::e_natUnknown
|| strat == CallRec::e_natLocalProxy
|| strat == CallRec::e_natFullProxy)
return true;
return false;
}
#endif
#ifdef HAS_H46024A
bool GetH245GenericStringOctetString(unsigned id, const H245_ArrayOf_GenericParameter & params, PString & str)
{
for (PINDEX i = 0; i < params.GetSize(); i++) {
const H245_GenericParameter & param = params[i];
const H245_ParameterIdentifier & idm = param.m_parameterIdentifier;
if (idm.GetTag() == H245_ParameterIdentifier::e_standard) {
const PASN_Integer & idx = idm;
if (idx == id) {
const H245_ParameterValue & genvalue = params[i].m_parameterValue;
if (genvalue.GetTag() == H245_ParameterValue::e_octetString) {
const PASN_OctetString & valg = genvalue;
PASN_IA5String data;
if (valg.DecodeSubType(data)) {
str = data;
return true;
}
}
}
}
}
PTRACE(4, "H46024A\tError finding String parameter " << id);
return false;
}
bool GetH245GenericUnsigned(unsigned id, const H245_ArrayOf_GenericParameter & params, unsigned & num)
{
for (PINDEX i = 0; i < params.GetSize(); i++) {
const H245_GenericParameter & param = params[i];
const H245_ParameterIdentifier & idm = param.m_parameterIdentifier;
if (idm.GetTag() == H245_ParameterIdentifier::e_standard) {
const PASN_Integer & idx = idm;
if (idx == id) {
const H245_ParameterValue & genvalue = params[i].m_parameterValue;
if (genvalue.GetTag() == H245_ParameterValue::e_unsigned32Min) {
const PASN_Integer & valg = genvalue;
num = valg;
return true;
}
}
}
}
PTRACE(4, "H46024A\tError finding unsigned parameter " << id);
return false;
}
bool GetH245TransportGenericOctetString(unsigned id, const H245_ArrayOf_GenericParameter & params, H323TransportAddress & str)
{
for (PINDEX i = 0; i < params.GetSize(); i++) {
const H245_GenericParameter & param = params[i];
const H245_ParameterIdentifier & idm = param.m_parameterIdentifier;
if (idm.GetTag() == H245_ParameterIdentifier::e_standard) {
const PASN_Integer & idx = idm;
if (idx == id) {
const H245_ParameterValue & genvalue = params[i].m_parameterValue;
if (genvalue.GetTag() == H245_ParameterValue::e_octetString) {
const PASN_OctetString & valg = genvalue;
H245_TransportAddress addr;
if (valg.DecodeSubType(addr)) {
str = H323TransportAddress(addr);
return true;
}
}
}
}
}
return false;
}
H245_GenericParameter & BuildH245GenericOctetString(H245_GenericParameter & param, unsigned id, const PASN_Object & data)
{
H245_ParameterIdentifier & idm = param.m_parameterIdentifier;
idm.SetTag(H245_ParameterIdentifier::e_standard);
PASN_Integer & idx = idm;
idx = id;
H245_ParameterValue & genvalue = param.m_parameterValue;
genvalue.SetTag(H245_ParameterValue::e_octetString);
PASN_OctetString & valg = genvalue;
valg.EncodeSubType(data);
return param;
}
H245_GenericParameter & BuildH245GenericOctetString(H245_GenericParameter & param, unsigned id, const H323TransportAddress & transport)
{
H245_TransportAddress data;
transport.SetPDU(data);
return BuildH245GenericOctetString(param, id, data);
}
H245_GenericParameter & BuildH245GenericUnsigned(H245_GenericParameter & param, unsigned id, unsigned val)
{
H245_ParameterIdentifier & idm = param.m_parameterIdentifier;
idm.SetTag(H245_ParameterIdentifier::e_standard);
PASN_Integer & idx = idm;
idx = id;
H245_ParameterValue & genvalue = param.m_parameterValue;
genvalue.SetTag(H245_ParameterValue::e_unsigned32Min);
PASN_Integer & xval = genvalue;
xval = val;
return param;
}
#endif
struct PortRange {
PortRange() : port(0), minport(0), maxport(0) { }
WORD GetPort();
int GetNumPorts() const;
void LoadConfig(const char *, const char *, const char * = "");
private:
PortRange(const PortRange &);
PortRange & operator=(const PortRange &);
private:
WORD port, minport, maxport;
PMutex mutex;
};
WORD PortRange::GetPort()
{
if (port == 0)
return 0;
PWaitAndSignal lock(mutex);
WORD result = port++;
if (port > maxport)
port = minport;
if (port < minport) // special case to check for 16-bit wrap around
port = minport;
if (port == 0)
port = 1;
return result;
}
int PortRange::GetNumPorts() const
{
return maxport - minport + 1;
}
void PortRange::LoadConfig(const char *sec, const char *setting, const char *def)
{
PStringArray cfgs = GkConfig()->GetString(sec, setting, def).Tokenise(",.:-/'", FALSE);
if (cfgs.GetSize() >= 2) {
minport = (WORD)cfgs[0].AsUnsigned(), maxport = (WORD)cfgs[1].AsUnsigned();
if (port < minport || port > maxport)
port = minport;
} else
port = 0;
PTRACE_IF(2, port, setting << ": " << minport << '-' << maxport);
}
static PortRange Q931PortRange;
static PortRange H245PortRange;
static PortRange T120PortRange;
static PortRange RTPPortRange;
class H245Socket : public TCPProxySocket {
public: