/* * Copyright (C) 2002-2009 The DOSBox Team * * 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 of the License, 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* $Id: ipx.cpp,v 1.17 2009-05-27 09:15:41 qbix79 Exp $ */ #include "dosbox.h" #if C_IPX #include #include #include #include "cross.h" #include "support.h" #include "cpu.h" #include "regs.h" #include "inout.h" #include "setup.h" #include "debug.h" #include "callback.h" #include "dos_system.h" #include "mem.h" #include "ipx.h" #include "ipxserver.h" #include "timer.h" #include "SDL_net.h" #include "programs.h" #include "pic.h" #define SOCKTABLESIZE 150 // DOS IPX driver was limited to 150 open sockets struct ipxnetaddr { Uint8 netnum[4]; // Both are big endian Uint8 netnode[6]; } localIpxAddr; Bit32u udpPort; bool isIpxServer; bool isIpxConnected; IPaddress ipxServConnIp; // IPAddress for client connection to server UDPsocket ipxClientSocket; int UDPChannel; // Channel used by UDP connection Bit8u recvBuffer[IPXBUFFERSIZE]; // Incoming packet buffer static RealPt ipx_callback; SDLNet_SocketSet clientSocketSet; packetBuffer incomingPacket; static Bit16u socketCount; static Bit16u opensockets[SOCKTABLESIZE]; static Bit16u swapByte(Bit16u sockNum) { return (((sockNum>> 8)) | (sockNum << 8)); } void UnpackIP(PackedIP ipPack, IPaddress * ipAddr) { ipAddr->host = ipPack.host; ipAddr->port = ipPack.port; } void PackIP(IPaddress ipAddr, PackedIP *ipPack) { ipPack->host = ipAddr.host; ipPack->port = ipAddr.port; } ECBClass *ECBList; // Linked list of ECB's ECBClass* ESRList; // ECBs waiting to be ESR notified #ifdef IPX_DEBUGMSG Bitu ECBSerialNumber = 0; Bitu ECBAmount = 0; #endif ECBClass::ECBClass(Bit16u segment, Bit16u offset) { ECBAddr = RealMake(segment, offset); databuffer = 0; #ifdef IPX_DEBUGMSG SerialNumber = ECBSerialNumber; ECBSerialNumber++; ECBAmount++; LOG_IPX("ECB: SN%7d created. Number of ECBs: %3d, ESR %4x:%4x, ECB %4x:%4x", SerialNumber,ECBAmount, real_readw(RealSeg(ECBAddr), RealOff(ECBAddr)+6), real_readw(RealSeg(ECBAddr), RealOff(ECBAddr)+4),segment,offset); #endif isInESRList = false; prevECB = NULL; nextECB = NULL; if (ECBList == NULL) ECBList = this; else { // Transverse the list until we hit the end ECBClass *useECB = ECBList; while(useECB->nextECB != NULL) useECB = useECB->nextECB; useECB->nextECB = this; this->prevECB = useECB; } iuflag = getInUseFlag(); mysocket = getSocket(); } void ECBClass::writeDataBuffer(Bit8u* buffer, Bit16u length) { if(databuffer!=0) delete [] databuffer; databuffer = new Bit8u[length]; memcpy(databuffer,buffer,length); buflen=length; } bool ECBClass::writeData() { Bitu length=buflen; Bit8u* buffer = databuffer; fragmentDescriptor tmpFrag; setInUseFlag(USEFLAG_AVAILABLE); Bitu fragCount = getFragCount(); Bitu bufoffset = 0; for(Bitu i = 0;i < fragCount;i++) { getFragDesc(i,&tmpFrag); for(Bitu t = 0;t < tmpFrag.size;t++) { real_writeb(tmpFrag.segment, tmpFrag.offset + t, buffer[bufoffset]); bufoffset++; if(bufoffset >= length) { setCompletionFlag(COMP_SUCCESS); setImmAddress(&buffer[22]); // Write in source node return true; } } } if(bufoffset < length) { setCompletionFlag(COMP_MALFORMED); return false; } return false; } Bit16u ECBClass::getSocket(void) { return swapByte(real_readw(RealSeg(ECBAddr), RealOff(ECBAddr) + 0xa)); } Bit8u ECBClass::getInUseFlag(void) { return real_readb(RealSeg(ECBAddr), RealOff(ECBAddr) + 0x8); } void ECBClass::setInUseFlag(Bit8u flagval) { iuflag = flagval; real_writeb(RealSeg(ECBAddr), RealOff(ECBAddr) + 0x8, flagval); } void ECBClass::setCompletionFlag(Bit8u flagval) { real_writeb(RealSeg(ECBAddr), RealOff(ECBAddr) + 0x9, flagval); } Bit16u ECBClass::getFragCount(void) { return real_readw(RealSeg(ECBAddr), RealOff(ECBAddr) + 34); } void ECBClass::getFragDesc(Bit16u descNum, fragmentDescriptor *fragDesc) { Bit16u memoff = RealOff(ECBAddr) + 30 + ((descNum+1) * 6); fragDesc->offset = real_readw(RealSeg(ECBAddr), memoff); memoff += 2; fragDesc->segment = real_readw(RealSeg(ECBAddr), memoff); memoff += 2; fragDesc->size = real_readw(RealSeg(ECBAddr), memoff); } RealPt ECBClass::getESRAddr(void) { return RealMake(real_readw(RealSeg(ECBAddr), RealOff(ECBAddr)+6), real_readw(RealSeg(ECBAddr), RealOff(ECBAddr)+4)); } void ECBClass::NotifyESR(void) { Bit32u ESRval = real_readd(RealSeg(ECBAddr), RealOff(ECBAddr)+4); if(ESRval || databuffer) { // databuffer: write data at realmode/v86 time // LOG_IPX("ECB: SN%7d to be notified.", SerialNumber); // take the ECB out of the current list if(prevECB == NULL) { // was the first in the list ECBList = nextECB; if(ECBList != NULL) ECBList->prevECB = NULL; } else { // not the first prevECB->nextECB = nextECB; if(nextECB != NULL) nextECB->prevECB = prevECB; } nextECB = NULL; // put it to the notification queue if(ESRList==NULL) { ESRList = this; prevECB = NULL; } else {// put to end of ESR list ECBClass* useECB = ESRList; while(useECB->nextECB != NULL) useECB = useECB->nextECB; useECB->nextECB = this; prevECB = useECB; } isInESRList = true; PIC_ActivateIRQ(11); } // this one does not want to be notified, delete it right away else delete this; } void ECBClass::setImmAddress(Bit8u *immAddr) { for(Bitu i=0;i<6;i++) real_writeb(RealSeg(ECBAddr), RealOff(ECBAddr)+28+i, immAddr[i]); } void ECBClass::getImmAddress(Bit8u* immAddr) { for(Bitu i=0;i<6;i++) immAddr[i] = real_readb(RealSeg(ECBAddr), RealOff(ECBAddr)+28+i); } ECBClass::~ECBClass() { #ifdef IPX_DEBUGMSG ECBAmount--; LOG_IPX("ECB: SN%7d destroyed. Remaining ECBs: %3d", SerialNumber,ECBAmount); #endif if(isInESRList) { // in ESR list, always the first element is deleted. ESRList=nextECB; } else { if(prevECB == NULL) { // was the first in the list ECBList = nextECB; if(ECBList != NULL) ECBList->prevECB = NULL; } else { // not the first prevECB->nextECB = nextECB; if(nextECB != NULL) nextECB->prevECB = prevECB; } } if(databuffer!=0) delete [] databuffer; } static bool sockInUse(Bit16u sockNum) { for(Bitu i=0;i= SOCKTABLESIZE) { reg_al = 0xfe; // Socket table full return; } if(sockNum == 0x0000) { // Dynamic socket allocation sockAlloc = 0x4002; while(sockInUse(sockAlloc) && (sockAlloc < 0x7fff)) sockAlloc++; if(sockAlloc > 0x7fff) { // I have no idea how this could happen if the IPX driver // is limited to 150 open sockets at a time LOG_MSG("IPX: Out of dynamic sockets"); } sockNum = sockAlloc; } else { if(sockInUse(sockNum)) { reg_al = 0xff; // Socket already open return; } } opensockets[socketCount] = sockNum; socketCount++; reg_al = 0x00; // Success reg_dx = swapByte(sockNum); // Convert back to big-endian } static void CloseSocket(void) { Bit16u sockNum, i; ECBClass* tmpECB = ECBList; ECBClass* tmp2ECB = ECBList; sockNum = swapByte(reg_dx); if(!sockInUse(sockNum)) return; for(i=0;inextECB; if(tmpECB->getSocket()==sockNum) { tmpECB->setCompletionFlag(COMP_CANCELLED); tmpECB->setInUseFlag(USEFLAG_AVAILABLE); delete tmpECB; } tmpECB = tmp2ECB; } } //static RealPt IPXVERpointer; static bool IPX_Multiplex(void) { if(reg_ax != 0x7a00) return false; reg_al = 0xff; SegSet16(es,RealSeg(ipx_callback)); reg_di = RealOff(ipx_callback); //reg_bx = RealOff(IPXVERpointer); //reg_cx = RealSeg(ipx_callback); return true; } static void IPX_AES_EventHandler(Bitu param) { ECBClass* tmpECB = ECBList; ECBClass* tmp2ECB; while(tmpECB!=0) { tmp2ECB = tmpECB->nextECB; if(tmpECB->iuflag==USEFLAG_AESCOUNT && param==(Bitu)tmpECB->ECBAddr) { tmpECB->setCompletionFlag(COMP_SUCCESS); tmpECB->setInUseFlag(USEFLAG_AVAILABLE); tmpECB->NotifyESR(); // LOG_IPX("AES Notification: ECB S/N %d",tmpECB->SerialNumber); return; } tmpECB = tmp2ECB; } LOG_MSG("!!!! Rouge AES !!!!" ); } static void sendPacket(ECBClass* sendecb); static void handleIpxRequest(void) { ECBClass *tmpECB; switch (reg_bx) { case 0x0000: // Open socket OpenSocket(); LOG_IPX("IPX: Open socket %4x", swapByte(reg_dx)); break; case 0x0001: // Close socket LOG_IPX("IPX: Close socket %4x", swapByte(reg_dx)); CloseSocket(); break; case 0x0002: // get local target // es:si // Currently no support for multiple networks for(Bitu i = 0; i < 6; i++) real_writeb(SegValue(es),reg_di+i,real_readb(SegValue(es),reg_si+i+4)); reg_cx=1; // time ticks expected reg_al=0x00; //success break; case 0x0003: // Send packet tmpECB = new ECBClass(SegValue(es),reg_si); if(!incomingPacket.connected) { tmpECB->setInUseFlag(USEFLAG_AVAILABLE); tmpECB->setCompletionFlag(COMP_UNDELIVERABLE); delete tmpECB; // not notify? reg_al = 0xff; // Failure } else { tmpECB->setInUseFlag(USEFLAG_SENDING); //LOG_IPX("IPX: Sending packet on %4x", tmpECB->getSocket()); reg_al = 0x00; // Success sendPacket(tmpECB); } break; case 0x0004: // Listen for packet tmpECB = new ECBClass(SegValue(es),reg_si); // LOG_IPX("ECB: SN%7d RECEIVE.", tmpECB->SerialNumber); if(!sockInUse(tmpECB->getSocket())) { // Socket is not open reg_al = 0xff; tmpECB->setInUseFlag(USEFLAG_AVAILABLE); tmpECB->setCompletionFlag(COMP_HARDWAREERROR); delete tmpECB; } else { reg_al = 0x00; // Success tmpECB->setInUseFlag(USEFLAG_LISTENING); /*LOG_IPX("IPX: Listen for packet on 0x%4x - ESR address %4x:%4x", tmpECB->getSocket(), RealSeg(tmpECB->getESRAddr()), RealOff(tmpECB->getESRAddr()));*/ } break; case 0x0005: // SCHEDULE IPX EVENT case 0x0007: // SCHEDULE SPECIAL IPX EVENT { tmpECB = new ECBClass(SegValue(es),reg_si); // LOG_IPX("ECB: SN%7d AES. T=%fms.", tmpECB->SerialNumber, // (1000.0f/(1193182.0f/65536.0f))*(float)reg_ax); PIC_AddEvent(IPX_AES_EventHandler, (1000.0f/(1193182.0f/65536.0f))*(float)reg_ax,(Bitu)tmpECB->ECBAddr); tmpECB->setInUseFlag(USEFLAG_AESCOUNT); break; } case 0x0006: // cancel operation { RealPt ecbaddress = RealMake(SegValue(es),reg_si); ECBClass* tmpECB= ECBList; ECBClass* tmp2ECB; while(tmpECB) { tmp2ECB=tmpECB->nextECB; if(tmpECB->ECBAddr == ecbaddress) { if(tmpECB->getInUseFlag()==USEFLAG_AESCOUNT) PIC_RemoveSpecificEvents(IPX_AES_EventHandler,(Bitu)ecbaddress); tmpECB->setInUseFlag(USEFLAG_AVAILABLE); tmpECB->setCompletionFlag(COMP_CANCELLED); delete tmpECB; reg_al=0; // Success LOG_IPX("IPX: ECB canceled."); return; } tmpECB=tmp2ECB; } reg_al=0xff; // Fail break; } case 0x0008: // Get interval marker reg_ax = mem_readw(0x46c); // BIOS_TIMER break; case 0x0009: // Get internetwork address { LOG_IPX("IPX: Get internetwork address %2x:%2x:%2x:%2x:%2x:%2x", localIpxAddr.netnode[5], localIpxAddr.netnode[4], localIpxAddr.netnode[3], localIpxAddr.netnode[2], localIpxAddr.netnode[1], localIpxAddr.netnode[0]); Bit8u * addrptr = (Bit8u *)&localIpxAddr; for(Bit16u i=0;i<10;i++) real_writeb(SegValue(es),reg_si+i,addrptr[i]); break; } case 0x000a: // Relinquish control break; // Idle thingy case 0x000b: // Disconnect from Target break; // We don't even connect case 0x000d: // get packet size reg_cx=0; // retry count reg_ax=1024; // real implementation returns 1024 break; case 0x0010: // SPX install check reg_al=0; // SPX not installed break; case 0x001a: // get driver maximum packet size reg_cx=0; // retry count reg_ax=IPXBUFFERSIZE; // max packet size: something near the // ethernet packet size break; default: LOG_MSG("Unhandled IPX function: %4x", reg_bx); break; } } // Entrypoint handler Bitu IPX_Handler(void) { handleIpxRequest(); return CBRET_NONE; } // INT 7A handler Bitu IPX_IntHandler(void) { handleIpxRequest(); return CBRET_NONE; } static void pingAck(IPaddress retAddr) { IPXHeader regHeader; UDPpacket regPacket; Bits result; SDLNet_Write16(0xffff, regHeader.checkSum); SDLNet_Write16(sizeof(regHeader), regHeader.length); SDLNet_Write32(0, regHeader.dest.network); PackIP(retAddr, ®Header.dest.addr.byIP); SDLNet_Write16(0x2, regHeader.dest.socket); SDLNet_Write32(0, regHeader.src.network); memcpy(regHeader.src.addr.byNode.node, localIpxAddr.netnode, sizeof(regHeader.src.addr.byNode.node)); SDLNet_Write16(0x2, regHeader.src.socket); regHeader.transControl = 0; regHeader.pType = 0x0; regPacket.data = (Uint8 *)®Header; regPacket.len = sizeof(regHeader); regPacket.maxlen = sizeof(regHeader); regPacket.channel = UDPChannel; result = SDLNet_UDP_Send(ipxClientSocket, regPacket.channel, ®Packet); } static void pingSend(void) { IPXHeader regHeader; UDPpacket regPacket; Bits result; SDLNet_Write16(0xffff, regHeader.checkSum); SDLNet_Write16(sizeof(regHeader), regHeader.length); SDLNet_Write32(0, regHeader.dest.network); regHeader.dest.addr.byIP.host = 0xffffffff; regHeader.dest.addr.byIP.port = 0xffff; SDLNet_Write16(0x2, regHeader.dest.socket); SDLNet_Write32(0, regHeader.src.network); memcpy(regHeader.src.addr.byNode.node, localIpxAddr.netnode, sizeof(regHeader.src.addr.byNode.node)); SDLNet_Write16(0x2, regHeader.src.socket); regHeader.transControl = 0; regHeader.pType = 0x0; regPacket.data = (Uint8 *)®Header; regPacket.len = sizeof(regHeader); regPacket.maxlen = sizeof(regHeader); regPacket.channel = UDPChannel; result = SDLNet_UDP_Send(ipxClientSocket, regPacket.channel, ®Packet); if(!result) { LOG_MSG("IPX: SDLNet_UDP_Send: %s\n", SDLNet_GetError()); } } static void receivePacket(Bit8u *buffer, Bit16s bufSize) { ECBClass *useECB; ECBClass *nextECB; Bit16u *bufword = (Bit16u *)buffer; Bit16u useSocket = swapByte(bufword[8]); IPXHeader * tmpHeader; tmpHeader = (IPXHeader *)buffer; // Check to see if ping packet if(useSocket == 0x2) { // Is this a broadcast? if((tmpHeader->dest.addr.byIP.host == 0xffffffff) && (tmpHeader->dest.addr.byIP.port == 0xffff)) { // Yes. We should return the ping back to the sender IPaddress tmpAddr; UnpackIP(tmpHeader->src.addr.byIP, &tmpAddr); pingAck(tmpAddr); return; } } useECB = ECBList; while(useECB != NULL) { nextECB = useECB->nextECB; if(useECB->iuflag == USEFLAG_LISTENING && useECB->mysocket == useSocket) { useECB->writeDataBuffer(buffer, bufSize); useECB->NotifyESR(); return; } useECB = nextECB; } LOG_IPX("IPX: RX Packet loss!"); } static void IPX_ClientLoop(void) { int numrecv; UDPpacket inPacket; inPacket.data = (Uint8 *)recvBuffer; inPacket.maxlen = IPXBUFFERSIZE; inPacket.channel = UDPChannel; // Its amazing how much simpler UDP is than TCP numrecv = SDLNet_UDP_Recv(ipxClientSocket, &inPacket); if(numrecv) receivePacket(inPacket.data, inPacket.len); } void DisconnectFromServer(bool unexpected) { if(unexpected) LOG_MSG("IPX: Server disconnected unexpectedly"); if(incomingPacket.connected) { incomingPacket.connected = false; TIMER_DelTickHandler(&IPX_ClientLoop); SDLNet_UDP_Close(ipxClientSocket); } } static void sendPacket(ECBClass* sendecb) { Bit8u outbuffer[IPXBUFFERSIZE]; fragmentDescriptor tmpFrag; Bit16u i, fragCount,t; Bit16s packetsize; Bit16u *wordptr; Bits result; UDPpacket outPacket; sendecb->setInUseFlag(USEFLAG_AVAILABLE); packetsize = 0; fragCount = sendecb->getFragCount(); for(i=0;igetFragDesc(i,&tmpFrag); if(i==0) { // Fragment containing IPX header // Must put source address into header Bit8u * addrptr; // source netnum addrptr = (Bit8u *)&localIpxAddr.netnum; for(Bit16u m=0;m<4;m++) { real_writeb(tmpFrag.segment,tmpFrag.offset+m+18,addrptr[m]); } // source node number addrptr = (Bit8u *)&localIpxAddr.netnode; for(Bit16u m=0;m<6;m++) { real_writeb(tmpFrag.segment,tmpFrag.offset+m+22,addrptr[m]); } // Source socket real_writew(tmpFrag.segment,tmpFrag.offset+28, swapByte(sendecb->getSocket())); // blank checksum real_writew(tmpFrag.segment,tmpFrag.offset, 0xffff); } for(t=0;t=IPXBUFFERSIZE) { LOG_MSG("IPX: Packet size to be sent greater than %d bytes.", IPXBUFFERSIZE); sendecb->setCompletionFlag(COMP_UNDELIVERABLE); sendecb->NotifyESR(); return; } } } // Add length and source socket to IPX header wordptr = (Bit16u *)&outbuffer[0]; // Blank CRC //wordptr[0] = 0xffff; // Length wordptr[1] = swapByte(packetsize); // Source socket //wordptr[14] = swapByte(sendecb->getSocket()); sendecb->getFragDesc(0,&tmpFrag); real_writew(tmpFrag.segment,tmpFrag.offset+2, swapByte(packetsize)); Bit8u immedAddr[6]; sendecb->getImmAddress(immedAddr); // filter out broadcasts and local loopbacks // Real implementation uses the ImmedAddr to check wether this is a broadcast bool islocalbroadcast=true; bool isloopback=true; Bit8u * addrptr; addrptr = (Bit8u *)&localIpxAddr.netnum; for(Bitu m=0;m<4;m++) { if(addrptr[m]!=outbuffer[m+0x6])isloopback=false; } addrptr = (Bit8u *)&localIpxAddr.netnode; for(Bitu m=0;m<6;m++) { if(addrptr[m]!=outbuffer[m+0xa])isloopback=false; if(immedAddr[m]!=0xff) islocalbroadcast=false; } LOG_IPX("SEND crc:%2x",packetCRC(&outbuffer[0], packetsize)); if(!isloopback) { outPacket.channel = UDPChannel; outPacket.data = (Uint8 *)&outbuffer[0]; outPacket.len = packetsize; outPacket.maxlen = packetsize; // Since we're using a channel, we won't send the IP address again result = SDLNet_UDP_Send(ipxClientSocket, UDPChannel, &outPacket); if(result == 0) { LOG_MSG("IPX: Could not send packet: %s", SDLNet_GetError()); sendecb->setCompletionFlag(COMP_HARDWAREERROR); sendecb->NotifyESR(); DisconnectFromServer(true); return; } else { sendecb->setCompletionFlag(COMP_SUCCESS); LOG_IPX("Packet sent: size: %d",packetsize); } } else sendecb->setCompletionFlag(COMP_SUCCESS); if(isloopback||islocalbroadcast) { // Send packet back to ourselves. receivePacket(&outbuffer[0],packetsize); LOG_IPX("Packet back: loopback:%d, broadcast:%d",isloopback,islocalbroadcast); } sendecb->NotifyESR(); } static bool pingCheck(IPXHeader * outHeader) { char buffer[1024]; Bits result; UDPpacket regPacket; IPXHeader *regHeader; regPacket.data = (Uint8 *)buffer; regPacket.maxlen = sizeof(buffer); regPacket.channel = UDPChannel; regHeader = (IPXHeader *)buffer; result = SDLNet_UDP_Recv(ipxClientSocket, ®Packet); if (result != 0) { memcpy(outHeader, regHeader, sizeof(IPXHeader)); return true; } return false; } bool ConnectToServer(char const *strAddr) { int numsent; UDPpacket regPacket; IPXHeader regHeader; if(!SDLNet_ResolveHost(&ipxServConnIp, strAddr, (Bit16u)udpPort)) { // Generate the MAC address. This is made by zeroing out the first two // octets and then using the actual IP address for the last 4 octets. // This idea is from the IPX over IP implementation as specified in RFC 1234: // http://www.faqs.org/rfcs/rfc1234.html // Select an anonymous UDP port ipxClientSocket = SDLNet_UDP_Open(0); if(ipxClientSocket) { // Bind UDP port to address to channel UDPChannel = SDLNet_UDP_Bind(ipxClientSocket,-1,&ipxServConnIp); //ipxClientSocket = SDLNet_TCP_Open(&ipxServConnIp); SDLNet_Write16(0xffff, regHeader.checkSum); SDLNet_Write16(sizeof(regHeader), regHeader.length); // Echo packet with zeroed dest and src is a server registration packet SDLNet_Write32(0, regHeader.dest.network); regHeader.dest.addr.byIP.host = 0x0; regHeader.dest.addr.byIP.port = 0x0; SDLNet_Write16(0x2, regHeader.dest.socket); SDLNet_Write32(0, regHeader.src.network); regHeader.src.addr.byIP.host = 0x0; regHeader.src.addr.byIP.port = 0x0; SDLNet_Write16(0x2, regHeader.src.socket); regHeader.transControl = 0; regPacket.data = (Uint8 *)®Header; regPacket.len = sizeof(regHeader); regPacket.maxlen = sizeof(regHeader); regPacket.channel = UDPChannel; // Send registration string to server. If server doesn't get // this, client will not be registered numsent = SDLNet_UDP_Send(ipxClientSocket, regPacket.channel, ®Packet); if(!numsent) { LOG_MSG("IPX: Unable to connect to server: %s", SDLNet_GetError()); SDLNet_UDP_Close(ipxClientSocket); return false; } else { // Wait for return packet from server. // This will contain our IPX address and port num Bits result; Bit32u ticks, elapsed; ticks = GetTicks(); while(true) { elapsed = GetTicks() - ticks; if(elapsed > 5000) { LOG_MSG("Timeout connecting to server at %s", strAddr); SDLNet_UDP_Close(ipxClientSocket); return false; } CALLBACK_Idle(); result = SDLNet_UDP_Recv(ipxClientSocket, ®Packet); if (result != 0) { memcpy(localIpxAddr.netnode, regHeader.dest.addr.byNode.node, sizeof(localIpxAddr.netnode)); memcpy(localIpxAddr.netnum, regHeader.dest.network, sizeof(localIpxAddr.netnum)); break; } } LOG_MSG("IPX: Connected to server. IPX address is %d:%d:%d:%d:%d:%d", CONVIPX(localIpxAddr.netnode)); incomingPacket.connected = true; TIMER_AddTickHandler(&IPX_ClientLoop); return true; } } else { LOG_MSG("IPX: Unable to open socket"); } } else { LOG_MSG("IPX: Unable resolve connection to server"); } return false; } void IPX_NetworkInit() { localIpxAddr.netnum[0] = 0x0; localIpxAddr.netnum[1] = 0x0; localIpxAddr.netnum[2] = 0x0; localIpxAddr.netnum[3] = 0x1; localIpxAddr.netnode[0] = 0x00; localIpxAddr.netnode[1] = 0x00; localIpxAddr.netnode[2] = 0x00; localIpxAddr.netnode[3] = 0x00; localIpxAddr.netnode[4] = 0x00; localIpxAddr.netnode[5] = 0x00; socketCount = 0; return; } class IPXNET : public Program { public: void HelpCommand(const char *helpStr) { // Help on connect command if(strcasecmp("connect", helpStr) == 0) { WriteOut("IPXNET CONNECT opens a connection to an IPX tunneling server running on another\n"); WriteOut("DosBox session. The \"address\" parameter specifies the IP address or host name\n"); WriteOut("of the server computer. One can also specify the UDP port to use. By default\n"); WriteOut("IPXNET uses port 213, the assigned IANA port for IPX tunneling, for its\nconnection.\n\n"); WriteOut("The syntax for IPXNET CONNECT is:\n\n"); WriteOut("IPXNET CONNECT address \n\n"); return; } // Help on the disconnect command if(strcasecmp("disconnect", helpStr) == 0) { WriteOut("IPXNET DISCONNECT closes the connection to the IPX tunneling server.\n\n"); WriteOut("The syntax for IPXNET DISCONNECT is:\n\n"); WriteOut("IPXNET DISCONNECT\n\n"); return; } // Help on the startserver command if(strcasecmp("startserver", helpStr) == 0) { WriteOut("IPXNET STARTSERVER starts and IPX tunneling server on this DosBox session. By\n"); WriteOut("default, the server will accept connections on UDP port 213, though this can be\n"); WriteOut("changed. Once the server is started, DosBox will automatically start a client\n"); WriteOut("connection to the IPX tunneling server.\n\n"); WriteOut("The syntax for IPXNET STARTSERVER is:\n\n"); WriteOut("IPXNET STARTSERVER \n\n"); return; } // Help on the stop server command if(strcasecmp("stopserver", helpStr) == 0) { WriteOut("IPXNET STOPSERVER stops the IPX tunneling server running on this DosBox\nsession."); WriteOut(" Care should be taken to ensure that all other connections have\nterminated "); WriteOut("as well sinnce stoping the server may cause lockups on other\nmachines still using "); WriteOut("the IPX tunneling server.\n\n"); WriteOut("The syntax for IPXNET STOPSERVER is:\n\n"); WriteOut("IPXNET STOPSERVER\n\n"); return; } // Help on the ping command if(strcasecmp("ping", helpStr) == 0) { WriteOut("IPXNET PING broadcasts a ping request through the IPX tunneled network. In \n"); WriteOut("response, all other connected computers will respond to the ping and report\n"); WriteOut("the time it took to receive and send the ping message.\n\n"); WriteOut("The syntax for IPXNET PING is:\n\n"); WriteOut("IPXNET PING\n\n"); return; } // Help on the status command if(strcasecmp("status", helpStr) == 0) { WriteOut("IPXNET STATUS reports the current state of this DosBox's sessions IPX tunneling\n"); WriteOut("network. For a list of the computers connected to the network use the IPXNET \n"); WriteOut("PING command.\n\n"); WriteOut("The syntax for IPXNET STATUS is:\n\n"); WriteOut("IPXNET STATUS\n\n"); return; } } void Run(void) { WriteOut("IPX Tunneling utility for DosBox\n\n"); if(!cmd->GetCount()) { WriteOut("The syntax of this command is:\n\n"); WriteOut("IPXNET [ CONNECT | DISCONNECT | STARTSERVER | STOPSERVER | PING | HELP |\n STATUS ]\n\n"); return; } if(cmd->FindCommand(1, temp_line)) { if(strcasecmp("help", temp_line.c_str()) == 0) { if(!cmd->FindCommand(2, temp_line)) { WriteOut("The following are valid IPXNET commands:\n\n"); WriteOut("IPXNET CONNECT IPXNET DISCONNECT IPXNET STARTSERVER\n"); WriteOut("IPXNET STOPSERVER IPXNET PING IPXNET STATUS\n\n"); WriteOut("To get help on a specific command, type:\n\n"); WriteOut("IPXNET HELP command\n\n"); } else { HelpCommand(temp_line.c_str()); return; } return; } if(strcasecmp("startserver", temp_line.c_str()) == 0) { if(!isIpxServer) { if(incomingPacket.connected) { WriteOut("IPX Tunneling Client alreadu connected to another server. Disconnect first.\n"); return; } bool startsuccess; if(!cmd->FindCommand(2, temp_line)) { udpPort = 213; } else { udpPort = strtol(temp_line.c_str(), NULL, 10); } startsuccess = IPX_StartServer((Bit16u)udpPort); if(startsuccess) { WriteOut("IPX Tunneling Server started\n"); isIpxServer = true; ConnectToServer("localhost"); } else { WriteOut("IPX Tunneling Server failed to start.\n"); if(udpPort < 1024) WriteOut("Try a port number above 1024. See IPXNET HELP CONNECT on how to specify a port.\n"); } } else { WriteOut("IPX Tunneling Server already started\n"); } return; } if(strcasecmp("stopserver", temp_line.c_str()) == 0) { if(!isIpxServer) { WriteOut("IPX Tunneling Server not running in this DosBox session.\n"); } else { isIpxServer = false; DisconnectFromServer(false); IPX_StopServer(); WriteOut("IPX Tunneling Server stopped."); } return; } if(strcasecmp("connect", temp_line.c_str()) == 0) { char strHost[1024]; if(incomingPacket.connected) { WriteOut("IPX Tunneling Client already connected.\n"); return; } if(!cmd->FindCommand(2, temp_line)) { WriteOut("IPX Server address not specified.\n"); return; } strcpy(strHost, temp_line.c_str()); if(!cmd->FindCommand(3, temp_line)) { udpPort = 213; } else { udpPort = strtol(temp_line.c_str(), NULL, 10); } if(ConnectToServer(strHost)) { WriteOut("IPX Tunneling Client connected to server at %s.\n", strHost); } else { WriteOut("IPX Tunneling Client failed to connect to server at %s.\n", strHost); } return; } if(strcasecmp("disconnect", temp_line.c_str()) == 0) { if(!incomingPacket.connected) { WriteOut("IPX Tunneling Client not connected.\n"); return; } // TODO: Send a packet to the server notifying of disconnect WriteOut("IPX Tunneling Client disconnected from server.\n"); DisconnectFromServer(false); return; } if(strcasecmp("status", temp_line.c_str()) == 0) { WriteOut("IPX Tunneling Status:\n\n"); WriteOut("Server status: "); if(isIpxServer) WriteOut("ACTIVE\n"); else WriteOut("INACTIVE\n"); WriteOut("Client status: "); if(incomingPacket.connected) { WriteOut("CONNECTED -- Server at %d.%d.%d.%d port %d\n", CONVIP(ipxServConnIp.host), udpPort); } else { WriteOut("DISCONNECTED\n"); } if(isIpxServer) { WriteOut("List of active connections:\n\n"); int i; IPaddress *ptrAddr; for(i=0;ihost), SDLNet_Read16(&ptrAddr->port)); } } WriteOut("\n"); } return; } if(strcasecmp("ping", temp_line.c_str()) == 0) { Bit32u ticks; IPXHeader pingHead; if(!incomingPacket.connected) { WriteOut("IPX Tunneling Client not connected.\n"); return; } TIMER_DelTickHandler(&IPX_ClientLoop); WriteOut("Sending broadcast ping:\n\n"); pingSend(); ticks = GetTicks(); while((GetTicks() - ticks) < 1500) { CALLBACK_Idle(); if(pingCheck(&pingHead)) { WriteOut("Response from %d.%d.%d.%d, port %d time=%dms\n", CONVIP(pingHead.src.addr.byIP.host), SDLNet_Read16(&pingHead.src.addr.byIP.port), GetTicks() - ticks); } } TIMER_AddTickHandler(&IPX_ClientLoop); return; } } } }; static void IPXNET_ProgramStart(Program * * make) { *make=new IPXNET; } Bitu IPX_ESRHandler(void) { LOG_IPX("ESR: >>>>>>>>>>>>>>>" ); while(ESRList!=NULL) { // LOG_IPX("ECB: SN%7d notified.", ESRList->SerialNumber); if(ESRList->databuffer) ESRList->writeData(); if(ESRList->getESRAddr()) { // setup registers SegSet16(es, RealSeg(ESRList->ECBAddr)); reg_si = RealOff(ESRList->ECBAddr); reg_al = 0xff; CALLBACK_RunRealFar(RealSeg(ESRList->getESRAddr()), RealOff(ESRList->getESRAddr())); } delete ESRList; } // while IO_WriteB(0xa0,0x63); //EOI11 IO_WriteB(0x20,0x62); //EOI2 LOG_IPX("ESR: <<<<<<<<<<<<<<<"); return CBRET_NONE; } void VFILE_Remove(const char *name); class IPX: public Module_base { private: CALLBACK_HandlerObject callback_ipx; CALLBACK_HandlerObject callback_esr; CALLBACK_HandlerObject callback_ipxint; RealPt old_73_vector; static Bit16u dospage; public: IPX(Section* configuration):Module_base(configuration) { Section_prop * section = static_cast(configuration); if(!section->Get_bool("ipx")) return; if(!SDLNetInited) { if(SDLNet_Init() == -1){ LOG_MSG("SDLNet_Init failed: %s\n", SDLNet_GetError()); return; } SDLNetInited = true; } ECBList = NULL; ESRList = NULL; isIpxServer = false; isIpxConnected = false; IPX_NetworkInit(); DOS_AddMultiplexHandler(IPX_Multiplex); callback_ipx.Install(&IPX_Handler,CB_RETF,"IPX Handler"); ipx_callback = callback_ipx.Get_RealPointer(); callback_ipxint.Install(&IPX_IntHandler,CB_IRET,"IPX (int 7a)"); callback_ipxint.Set_RealVec(0x7a); callback_esr.Allocate(&IPX_ESRHandler,"IPX_ESR"); Bit16u call_ipxesr1 = callback_esr.Get_callback(); if(!dospage) dospage = DOS_GetMemory(2); // can not be freed yet PhysPt phyDospage = PhysMake(dospage,0); LOG_IPX("ESR callback address: %x, HandlerID %d", phyDospage,call_ipxesr1); //save registers phys_writeb(phyDospage+0,(Bit8u)0xFA); // CLI phys_writeb(phyDospage+1,(Bit8u)0x60); // PUSHA phys_writeb(phyDospage+2,(Bit8u)0x1E); // PUSH DS phys_writeb(phyDospage+3,(Bit8u)0x06); // PUSH ES phys_writew(phyDospage+4,(Bit16u)0xA00F); // PUSH FS phys_writew(phyDospage+6,(Bit16u)0xA80F); // PUSH GS // callback phys_writeb(phyDospage+8,(Bit8u)0xFE); // GRP 4 phys_writeb(phyDospage+9,(Bit8u)0x38); // Extra Callback instruction phys_writew(phyDospage+10,call_ipxesr1); // Callback identifier // register recreation phys_writew(phyDospage+12,(Bit16u)0xA90F); // POP GS phys_writew(phyDospage+14,(Bit16u)0xA10F); // POP FS phys_writeb(phyDospage+16,(Bit8u)0x07); // POP ES phys_writeb(phyDospage+17,(Bit8u)0x1F); // POP DS phys_writeb(phyDospage+18,(Bit8u)0x61); // POPA phys_writeb(phyDospage+19,(Bit8u)0xCF); // IRET: restores flags, CS, IP // IPX version 2.12 //phys_writeb(phyDospage+27,(Bit8u)0x2); //phys_writeb(phyDospage+28,(Bit8u)0x12); //IPXVERpointer = RealMake(dospage,27); RealPt ESRRoutineBase = RealMake(dospage, 0); // Interrupt enabling RealSetVec(0x73,ESRRoutineBase,old_73_vector); // IRQ11 IO_WriteB(0xa1,IO_ReadB(0xa1)&(~8)); // enable IRQ11 PROGRAMS_MakeFile("IPXNET.COM",IPXNET_ProgramStart); } ~IPX() { Section_prop * section = static_cast(m_configuration); PIC_RemoveEvents(IPX_AES_EventHandler); if(!section->Get_bool("ipx")) return; if(isIpxServer) { isIpxServer = false; IPX_StopServer(); } DisconnectFromServer(false); DOS_DelMultiplexHandler(IPX_Multiplex); RealSetVec(0x73,old_73_vector); IO_WriteB(0xa1,IO_ReadB(0xa1)|8); // disable IRQ11 PhysPt phyDospage = PhysMake(dospage,0); for(Bitu i = 0;i < 32;i++) phys_writeb(phyDospage+i,(Bit8u)0x00); VFILE_Remove("IPXNET.COM"); } }; static IPX* test; void IPX_ShutDown(Section* sec) { delete test; } void IPX_Init(Section* sec) { test = new IPX(sec); sec->AddDestroyFunction(&IPX_ShutDown,true); } //Initialize static members; Bit16u IPX::dospage = 0; #endif