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xlxd/src/cg3protocol.cpp

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//
// cg3protocol.cpp
// xlxd
//
// Created by Marius Petrescu (YO2LOJ) on 03/06/2019.
// Copyright © 2019 Marius Petrescu (YO2LOJ). All rights reserved.
//
// ----------------------------------------------------------------------------
// This file is part of xlxd.
//
// xlxd 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 3 of the License, or
// (at your option) any later version.
//
// xlxd 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 Foobar. If not, see <http://www.gnu.org/licenses/>.
// ----------------------------------------------------------------------------
#include "main.h"
#include <string.h>
#include <sys/stat.h>
#include "cg3client.h"
#include "cg3protocol.h"
#include "creflector.h"
#include "cgatekeeper.h"
#include <netinet/ip.h>
#include <netinet/ip_icmp.h>
////////////////////////////////////////////////////////////////////////////////////////
// operation
bool CG3Protocol::Init(void)
{
bool ok;
ReadOptions();
// base class
ok = CProtocol::Init();
// update reflector callsign
m_ReflectorCallsign.PatchCallsign(0, (const uint8 *)"XLX", 3);
// create our DV socket
ok &= m_Socket.Open(G3_DV_PORT);
if ( !ok )
{
std::cout << "Error opening socket on port UDP" << G3_DV_PORT << " on ip " << g_Reflector.GetListenIp() << std::endl;
}
//create helper sockets
ok &= m_PresenceSocket.Open(G3_PRESENCE_PORT);
if ( !ok )
{
std::cout << "Error opening socket on port UDP" << G3_PRESENCE_PORT << " on ip " << g_Reflector.GetListenIp() << std::endl;
}
ok &= m_ConfigSocket.Open(G3_CONFIG_PORT);
if ( !ok )
{
std::cout << "Error opening socket on port UDP" << G3_CONFIG_PORT << " on ip " << g_Reflector.GetListenIp() << std::endl;
}
#ifndef DEBUG_NO_G3_ICMP_SOCKET
ok &= m_IcmpRawSocket.Open(IPPROTO_ICMP);
if ( !ok )
{
std::cout << "Error opening raw socket for ICMP" << std::endl;
}
if (ok)
{
// start helper threads
m_pPresenceThread = new std::thread(PresenceThread, this);
m_pPresenceThread = new std::thread(ConfigThread, this);
m_pPresenceThread = new std::thread(IcmpThread, this);
}
#endif
// update time
m_LastKeepaliveTime.Now();
// done
return ok;
}
void CG3Protocol::Close(void)
{
if (m_pPresenceThread != NULL)
{
m_pPresenceThread->join();
delete m_pPresenceThread;
m_pPresenceThread = NULL;
}
if (m_pConfigThread != NULL)
{
m_pConfigThread->join();
delete m_pConfigThread;
m_pConfigThread = NULL;
}
if (m_pIcmpThread != NULL)
{
m_pIcmpThread->join();
delete m_pIcmpThread;
m_pIcmpThread = NULL;
}
}
////////////////////////////////////////////////////////////////////////////////////////
// private threads
void CG3Protocol::PresenceThread(CG3Protocol *This)
{
while ( !This->m_bStopThread )
{
This->PresenceTask();
}
}
void CG3Protocol::ConfigThread(CG3Protocol *This)
{
while ( !This->m_bStopThread )
{
This->ConfigTask();
}
}
void CG3Protocol::IcmpThread(CG3Protocol *This)
{
while ( !This->m_bStopThread )
{
This->IcmpTask();
}
}
////////////////////////////////////////////////////////////////////////////////////////
// presence task
void CG3Protocol::PresenceTask(void)
{
CBuffer Buffer;
CIp ReqIp;
CCallsign Callsign;
CCallsign Owner;
CCallsign Terminal;
if ( m_PresenceSocket.Receive(&Buffer, &ReqIp, 20) != -1 )
{
CIp Ip(ReqIp);
Ip.GetSockAddr()->sin_port = htons(G3_DV_PORT);
if (Buffer.size() == 32)
{
Callsign.SetCallsign(&Buffer.data()[8], 8);
Owner.SetCallsign(&Buffer.data()[16], 8);
Terminal.SetCallsign(&Buffer.data()[24], 8);
std::cout << "Presence from " << Ip << " as " << Callsign << " on terminal " << Terminal << std::endl;
// accept
Buffer.data()[2] = 0x80; // response
Buffer.data()[3] = 0x00; // ok
if (m_GwAddress == 0)
{
Buffer.Append(*(uint32 *)m_ConfigSocket.GetLocalAddr());
}
else
{
Buffer.Append(m_GwAddress);
}
CClients *clients = g_Reflector.GetClients();
int index = -1;
CClient *extant = NULL;
while ( (extant = clients->FindNextClient(PROTOCOL_G3, &index)) != NULL )
{
CIp ClIp = extant->GetIp();
if (ClIp.GetAddr() == Ip.GetAddr())
{
break;
}
}
if (extant == NULL)
{
index = -1;
// do we already have a client with the same call (IP changed)?
while ( (extant = clients->FindNextClient(PROTOCOL_G3, &index)) != NULL )
{
{
if (extant->GetCallsign().HasSameCallsign(Terminal))
{
//delete old client
clients->RemoveClient(extant);
break;
}
}
}
// create new client
CG3Client *client = new CG3Client(Terminal, Ip);
// and append
clients->AddClient(client);
}
else
{
// client changed callsign
if (!extant->GetCallsign().HasSameCallsign(Terminal))
{
//delete old client
clients->RemoveClient(extant);
// create new client
CG3Client *client = new CG3Client(Terminal, Ip);
// and append
clients->AddClient(client);
}
}
g_Reflector.ReleaseClients();
m_PresenceSocket.Send(Buffer, ReqIp);
}
}
}
////////////////////////////////////////////////////////////////////////////////////////
// configuration task
void CG3Protocol::ConfigTask(void)
{
CBuffer Buffer;
CIp Ip;
CCallsign Call;
bool isRepeaterCall;
if ( m_ConfigSocket.Receive(&Buffer, &Ip, 20) != -1 )
{
if (Buffer.size() == 16)
{
if (memcmp(&Buffer.data()[8], " ", 8) == 0)
{
Call.SetCallsign(GetReflectorCallsign(), 8);
}
else
{
Call.SetCallsign(&Buffer.data()[8], 8);
}
isRepeaterCall = ((Buffer.data()[2] & 0x10) == 0x10);
std::cout << "Config request from " << Ip << " for " << Call << " (" << ((char *)(isRepeaterCall)?"repeater":"routed") << ")" << std::endl;
//std::cout << "Local address: " << inet_ntoa(*m_ConfigSocket.GetLocalAddr()) << std::endl;
Buffer.data()[2] |= 0x80; // response
if (isRepeaterCall)
{
if ((Call.HasSameCallsign(GetReflectorCallsign())) && (g_Reflector.IsValidModule(Call.GetModule())))
{
Buffer.data()[3] = 0x00; // ok
}
else
{
std::cout << "Module " << Call << " invalid" << std::endl;
Buffer.data()[3] = 0x01; // reject
}
}
else
{
// reject routed calls for now
Buffer.data()[3] = 0x01; // reject
}
char module = Call.GetModule();
if (!strchr(m_Modules.c_str(), module) && !strchr(m_Modules.c_str(), '*'))
{
// restricted
std::cout << "Module " << Call << " restricted by configuration" << std::endl;
Buffer.data()[3] = 0x01; // reject
}
// UR
Buffer.resize(8);
Buffer.Append((uint8 *)(const char *)Call, CALLSIGN_LEN - 1);
Buffer.Append((uint8)module);
// RPT1
Buffer.Append((uint8 *)(const char *)GetReflectorCallsign(), CALLSIGN_LEN - 1);
Buffer.Append((uint8)'G');
// RPT2
Buffer.Append((uint8 *)(const char *)GetReflectorCallsign(), CALLSIGN_LEN - 1);
if (isRepeaterCall)
{
Buffer.Append((uint8)Call.GetModule());
}
else
{
// routed - no module for now
Buffer.Append((uint8)' ');
}
if (Buffer.data()[3] == 0x00)
{
std::cout << "External G3 gateway address " << inet_ntoa(*(in_addr *)&m_GwAddress) << std::endl;
if (m_GwAddress == 0)
{
Buffer.Append(*(uint32 *)m_ConfigSocket.GetLocalAddr());
}
else
{
Buffer.Append(m_GwAddress);
}
}
else
{
Buffer.Append(0u);
}
m_ConfigSocket.Send(Buffer, Ip);
}
}
}
////////////////////////////////////////////////////////////////////////////////////////
// icmp task
void CG3Protocol::IcmpTask(void)
{
CBuffer Buffer;
CIp Ip;
int iIcmpType;
if ((iIcmpType = m_IcmpRawSocket.IcmpReceive(&Buffer, &Ip, 20)) != -1)
{
if (iIcmpType == ICMP_DEST_UNREACH)
{
CClients *clients = g_Reflector.GetClients();
int index = -1;
CClient *client = NULL;
while ( (client = clients->FindNextClient(PROTOCOL_G3, &index)) != NULL )
{
CIp ClientIp = client->GetIp();
if (ClientIp.GetAddr() == Ip.GetAddr())
{
clients->RemoveClient(client);
}
}
g_Reflector.ReleaseClients();
}
}
}
////////////////////////////////////////////////////////////////////////////////////////
// DV task
void CG3Protocol::Task(void)
{
CBuffer Buffer;
CIp Ip;
CCallsign Callsign;
char ToLinkModule;
int ProtRev;
CDvHeaderPacket *Header;
CDvFramePacket *Frame;
CDvLastFramePacket *LastFrame;
// any incoming packet ?
if ( m_Socket.Receive(&Buffer, &Ip, 20) != -1 )
{
CIp ClIp;
CIp *BaseIp = NULL;
CClients *clients = g_Reflector.GetClients();
int index = -1;
CClient *client = NULL;
while ( (client = clients->FindNextClient(PROTOCOL_G3, &index)) != NULL )
{
ClIp = client->GetIp();
if (ClIp.GetAddr() == Ip.GetAddr())
{
BaseIp = &ClIp;
client->Alive();
// supress host checks - no ping needed to trigger potential ICMPs
// the regular data flow will do it
m_LastKeepaliveTime.Now();
break;
}
}
g_Reflector.ReleaseClients();
if (BaseIp != NULL)
{
// crack the packet
if ( (Frame = IsValidDvFramePacket(Buffer)) != NULL )
{
//std::cout << "Terminal DV frame" << std::endl;
// handle it
OnDvFramePacketIn(Frame, BaseIp);
}
else if ( (Header = IsValidDvHeaderPacket(Buffer)) != NULL )
{
//std::cout << "Terminal DV header" << std::endl;
// callsign muted?
if ( g_GateKeeper.MayTransmit(Header->GetMyCallsign(), Ip, PROTOCOL_G3, Header->GetRpt2Module()) )
{
// handle it
OnDvHeaderPacketIn(Header, *BaseIp);
}
else
{
delete Header;
}
}
else if ( (LastFrame = IsValidDvLastFramePacket(Buffer)) != NULL )
{
//std::cout << "Terminal DV last frame" << std::endl;
// handle it
OnDvLastFramePacketIn(LastFrame, BaseIp);
}
else
{
//std::cout << "Invalid terminal packet (" << Buffer.size() << ")" << std::endl;
//std::cout << Buffer.data() << std::endl;
}
}
else
{
//std::cout << "Invalid client " << Ip << std::endl;
}
}
// handle end of streaming timeout
CheckStreamsTimeout();
// handle queue from reflector
HandleQueue();
// keep alive during idle if needed
if ( m_LastKeepaliveTime.DurationSinceNow() > G3_KEEPALIVE_PERIOD )
{
// handle keep alives
HandleKeepalives();
// update time
m_LastKeepaliveTime.Now();
// reload option if needed - called once every G3_KEEPALIVE_PERIOD
NeedReload();
}
}
////////////////////////////////////////////////////////////////////////////////////////
// queue helper
void CG3Protocol::HandleQueue(void)
{
m_Queue.Lock();
while ( !m_Queue.empty() )
{
// supress host checks
m_LastKeepaliveTime.Now();
// get the packet
CPacket *packet = m_Queue.front();
m_Queue.pop();
// encode it
CBuffer buffer;
if ( EncodeDvPacket(*packet, &buffer) )
{
// and push it to all our clients linked to the module and who are not streaming in
CClients *clients = g_Reflector.GetClients();
int index = -1;
CClient *client = NULL;
while ( (client = clients->FindNextClient(PROTOCOL_G3, &index)) != NULL )
{
// is this client busy ?
if ( !client->IsAMaster() && (client->GetReflectorModule() == packet->GetModuleId()) )
{
// not busy, send the packet
int n = packet->IsDvHeader() ? 5 : 1;
for ( int i = 0; i < n; i++ )
{
m_Socket.Send(buffer, client->GetIp());
}
}
}
g_Reflector.ReleaseClients();
}
// done
delete packet;
}
m_Queue.Unlock();
}
////////////////////////////////////////////////////////////////////////////////////////
// keepalive helpers
void CG3Protocol::HandleKeepalives(void)
{
// G3 Terminal mode does not support keepalive
// We will send some short packed and expect
// A ICMP unreachable on failure
CBuffer keepalive((uint8 *)"PING", 4);
// iterate on clients
CClients *clients = g_Reflector.GetClients();
int index = -1;
CClient *client = NULL;
while ( (client = clients->FindNextClient(PROTOCOL_G3, &index)) != NULL )
{
if (!client->IsAlive())
{
clients->RemoveClient(client);
}
else
{
// send keepalive packet
m_Socket.Send(keepalive, client->GetIp());
}
}
g_Reflector.ReleaseClients();
}
////////////////////////////////////////////////////////////////////////////////////////
// streams helpers
bool CG3Protocol::OnDvHeaderPacketIn(CDvHeaderPacket *Header, const CIp &Ip)
{
bool newstream = false;
// find the stream
CPacketStream *stream = GetStream(Header->GetStreamId(), &Ip);
if ( stream == NULL )
{
// no stream open yet, open a new one
CCallsign via(Header->GetRpt1Callsign());
// find this client
CClients *clients = g_Reflector.GetClients();
int index = -1;
CClient *client = NULL;
while ( (client = clients->FindNextClient(PROTOCOL_G3, &index)) != NULL )
{
CIp ClIp = client->GetIp();
if (ClIp.GetAddr() == Ip.GetAddr())
{
break;
}
}
if ( client != NULL )
{
// move it to the proper module
if (m_ReflectorCallsign.HasSameCallsign(Header->GetRpt2Callsign()))
{
if (client->GetReflectorModule() != Header->GetRpt2Callsign().GetModule())
{
char new_module = Header->GetRpt2Callsign().GetModule();
if (strchr(m_Modules.c_str(), '*') || strchr(m_Modules.c_str(), new_module))
{
client->SetReflectorModule(new_module);
}
else
{
// drop if invalid module
delete Header;
g_Reflector.ReleaseClients();
return NULL;
}
}
// get client callsign
via = client->GetCallsign();
// and try to open the stream
if ( (stream = g_Reflector.OpenStream(Header, client)) != NULL )
{
// keep the handle
m_Streams.push_back(stream);
newstream = true;
}
// update last heard
g_Reflector.GetUsers()->Hearing(Header->GetMyCallsign(), via, Header->GetRpt2Callsign());
g_Reflector.ReleaseUsers();
// delete header if needed
if ( !newstream )
{
delete Header;
}
}
else
{
// drop
delete Header;
}
}
// release
g_Reflector.ReleaseClients();
}
else
{
// stream already open
// skip packet, but tickle the stream
stream->Tickle();
// and delete packet
delete Header;
}
// done
return newstream;
}
////////////////////////////////////////////////////////////////////////////////////////
// packet decoding helpers
CDvHeaderPacket *CG3Protocol::IsValidDvHeaderPacket(const CBuffer &Buffer)
{
CDvHeaderPacket *header = NULL;
if ( (Buffer.size() == 56) && (Buffer.Compare((uint8 *)"DSVT", 4) == 0) &&
(Buffer.data()[4] == 0x10) && (Buffer.data()[8] == 0x20) )
{
// create packet
header = new CDvHeaderPacket((struct dstar_header *)&(Buffer.data()[15]),
*((uint16 *)&(Buffer.data()[12])), 0x80);
// check validity of packet
if ( !header->IsValid() )
{
delete header;
header = NULL;
}
}
return header;
}
CDvFramePacket *CG3Protocol::IsValidDvFramePacket(const CBuffer &Buffer)
{
CDvFramePacket *dvframe = NULL;
if ( (Buffer.size() == 27) && (Buffer.Compare((uint8 *)"DSVT", 4) == 0) &&
(Buffer.data()[4] == 0x20) && (Buffer.data()[8] == 0x20) &&
((Buffer.data()[14] & 0x40) == 0) )
{
// create packet
dvframe = new CDvFramePacket((struct dstar_dvframe *)&(Buffer.data()[15]),
*((uint16 *)&(Buffer.data()[12])), Buffer.data()[14]);
// check validity of packet
if ( !dvframe->IsValid() )
{
delete dvframe;
dvframe = NULL;
}
}
return dvframe;
}
CDvLastFramePacket *CG3Protocol::IsValidDvLastFramePacket(const CBuffer &Buffer)
{
CDvLastFramePacket *dvframe = NULL;
if ( (Buffer.size() == 27) && (Buffer.Compare((uint8 *)"DSVT", 4) == 0) &&
(Buffer.data()[4] == 0x20) && (Buffer.data()[8] == 0x20) &&
((Buffer.data()[14] & 0x40) != 0) )
{
// create packet
dvframe = new CDvLastFramePacket((struct dstar_dvframe *)&(Buffer.data()[15]),
*((uint16 *)&(Buffer.data()[12])), Buffer.data()[14]);
// check validity of packet
if ( !dvframe->IsValid() )
{
delete dvframe;
dvframe = NULL;
}
}
return dvframe;
}
////////////////////////////////////////////////////////////////////////////////////////
// packet encoding helpers
bool CG3Protocol::EncodeDvHeaderPacket(const CDvHeaderPacket &Packet, CBuffer *Buffer) const
{
uint8 tag[] = { 'D','S','V','T',0x10,0x00,0x00,0x00,0x20,0x00,0x01,0x02 };
struct dstar_header DstarHeader;
Packet.ConvertToDstarStruct(&DstarHeader);
Buffer->Set(tag, sizeof(tag));
Buffer->Append(Packet.GetStreamId());
Buffer->Append((uint8)0x80);
Buffer->Append((uint8 *)&DstarHeader, sizeof(struct dstar_header));
return true;
}
bool CG3Protocol::EncodeDvFramePacket(const CDvFramePacket &Packet, CBuffer *Buffer) const
{
uint8 tag[] = { 'D','S','V','T',0x20,0x00,0x00,0x00,0x20,0x00,0x01,0x02 };
Buffer->Set(tag, sizeof(tag));
Buffer->Append(Packet.GetStreamId());
Buffer->Append((uint8)(Packet.GetPacketId() % 21));
Buffer->Append((uint8 *)Packet.GetAmbe(), AMBE_SIZE);
Buffer->Append((uint8 *)Packet.GetDvData(), DVDATA_SIZE);
return true;
}
bool CG3Protocol::EncodeDvLastFramePacket(const CDvLastFramePacket &Packet, CBuffer *Buffer) const
{
uint8 tag1[] = { 'D','S','V','T',0x20,0x00,0x00,0x00,0x20,0x00,0x01,0x02 };
uint8 tag2[] = { 0x55,0xC8,0x7A,0x00,0x00,0x00,0x00,0x00,0x00,0x25,0x1A,0xC6 };
Buffer->Set(tag1, sizeof(tag1));
Buffer->Append(Packet.GetStreamId());
Buffer->Append((uint8)((Packet.GetPacketId() % 21) | 0x40));
Buffer->Append(tag2, sizeof(tag2));
return true;
}
////////////////////////////////////////////////////////////////////////////////////////
// option helpers
char *CG3Protocol::TrimWhiteSpaces(char *str)
{
char *end;
while ((*str == ' ') || (*str == '\t')) str++;
if (*str == 0)
return str;
end = str + strlen(str) - 1;
while ((end > str) && ((*end == ' ') || (*end == '\t') || (*end == '\r'))) end --;
*(end + 1) = 0;
return str;
}
void CG3Protocol::NeedReload(void)
{
struct stat fileStat;
if (::stat(TERMINALOPTIONS_PATH, &fileStat) != -1)
{
if (m_LastModTime != fileStat.st_mtime)
{
ReadOptions();
// we have new options - iterate on clients for potential removal
CClients *clients = g_Reflector.GetClients();
int index = -1;
CClient *client = NULL;
while ( (client = clients->FindNextClient(PROTOCOL_G3, &index)) != NULL )
{
char module = client->GetReflectorModule();
if (!strchr(m_Modules.c_str(), module) && !strchr(m_Modules.c_str(), '*'))
{
clients->RemoveClient(client);
}
}
g_Reflector.ReleaseClients();
}
}
}
void CG3Protocol::ReadOptions(void)
{
char sz[256];
int opts = 0;
std::ifstream file(TERMINALOPTIONS_PATH);
if (file.is_open())
{
m_GwAddress = 0u;
m_Modules = "*";
while (file.getline(sz, sizeof(sz)).good())
{
char *szt = TrimWhiteSpaces(sz);
char *szval;
if ((::strlen(szt) > 0) && szt[0] != '#')
{
if ((szt = ::strtok(szt, " ,\t")) != NULL)
{
if ((szval = ::strtok(NULL, " ,\t")) != NULL)
{
if (::strncmp(szt, "address", 7) == 0)
{
in_addr addr = { .s_addr = inet_addr(szval) };
if (addr.s_addr)
{
std::cout << "G3 handler address set to " << inet_ntoa(addr) << std::endl;
m_GwAddress = addr.s_addr;
opts++;
}
}
else if (strncmp(szt, "modules", 7) == 0)
{
std::cout << "G3 handler module list set to " << szval << std::endl;
m_Modules = szval;
opts++;
}
else
{
// unknown option - ignore
}
}
}
}
}
std::cout << "G3 handler loaded " << opts << " options from file " << TERMINALOPTIONS_PATH << std::endl;
file.close();
struct stat fileStat;
if (::stat(TERMINALOPTIONS_PATH, &fileStat) != -1)
{
m_LastModTime = fileStat.st_mtime;
}
}
}
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