/* -*-mode: C; fill-column: 78; c-basic-offset: 4; -*- */ /* * Copyright 2001 by Eric House (fixin@peak.org). All rights reserved. * * 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. */ #ifdef USE_STDIO # include #endif #include "comms.h" #include "util.h" #include "game.h" #include "xwstream.h" #include "memstream.h" #include "xwrelay.h" #include "strutils.h" #define cEND 0x65454e44 #ifndef XWFEATURE_STANDALONE_ONLY EXTERN_C_START typedef struct MsgQueueElem { struct MsgQueueElem* next; XP_U8* msg; XP_U16 len; XP_U16 channelNo; MsgID msgID; /* saved for ease of deletion */ } MsgQueueElem; typedef struct AddressRecord { struct AddressRecord* next; CommsAddrRec addr; #ifdef DEBUG XP_U16 lastACK; XP_U16 nUniqueBytes; #endif MsgID nextMsgID; /* on a per-channel basis */ MsgID lastMsgReceived; /* on a per-channel basis */ XP_PlayerAddr channelNo; XWHostID hostID; /* used for relay case */ } AddressRecord; #define ADDRESSRECORD_SIZE_68K 20 typedef enum { COMMS_RELAYSTATE_UNCONNECTED , COMMS_RELAYSTATE_CONNECT_PENDING , COMMS_RELAYSTATE_CONNECTED } CommsRelaystate; struct CommsCtxt { XW_UtilCtxt* util; XP_U32 connID; /* 0 means ignore; otherwise must match */ XP_U16 nextChannelNo; AddressRecord* recs; /* return addresses */ TransportSend sendproc; void* sendClosure; MsgQueueElem* msgQueueHead; MsgQueueElem* msgQueueTail; XP_U16 queueLen; CommsAddrRec addr; /* Stuff for relays */ XWHostID myHostID; /* 0 if unset, 1 if acting as server, random for client */ CommsRelaystate relayState; /* not saved: starts at UNCONNECTED */ XP_U16 cookieID; /* standin for cookie; set by relay */ /* heartbeat: for periodic pings if relay thinks the network the device is on requires them. Not saved since only valid when connected, and we reconnect for every game and after restarting. */ XP_U16 heartbeat; XP_Bool isServer; XP_Bool connecting; #ifdef DEBUG XP_U16 nUniqueBytes; #endif MPSLOT }; /**************************************************************************** * prototypes ****************************************************************************/ static AddressRecord* rememberChannelAddress( CommsCtxt* comms, XP_PlayerAddr channelNo, XWHostID id, CommsAddrRec* addr ); static XP_Bool channelToAddress( CommsCtxt* comms, XP_PlayerAddr channelNo, CommsAddrRec** addr ); static AddressRecord* getRecordFor( CommsCtxt* comms, XP_PlayerAddr channelNo ); static XP_S16 sendMsg( CommsCtxt* comms, MsgQueueElem* elem ); static void addToQueue( CommsCtxt* comms, MsgQueueElem* newMsgElem ); static XP_U16 countAddrRecs( CommsCtxt* comms ); static void comms_relayConnect( CommsCtxt* comms ); static XP_Bool comms_send_relay( CommsCtxt* comms, XWRELAY_Cmd cmd, XWHostID destID, void* data, int dlen ); static XWHostID getDestID( CommsCtxt* comms, XP_PlayerAddr channelNo ); /**************************************************************************** * implementation ****************************************************************************/ CommsCtxt* comms_make( MPFORMAL XW_UtilCtxt* util, XP_Bool isServer, TransportSend sendproc, void* closure ) { XWHostID hostID; CommsCtxt* result = (CommsCtxt*)XP_MALLOC( mpool, sizeof(*result) ); XP_MEMSET( result, 0, sizeof(*result) ); MPASSIGN(result->mpool, mpool); result->isServer = isServer; result->sendproc = sendproc; result->sendClosure = closure; result->util = util; if ( isServer ) { hostID = HOST_ID_SERVER; } else { do { hostID = XP_RANDOM(); } while ( hostID == HOST_ID_NONE || hostID == HOST_ID_SERVER ); } result->myHostID = hostID; XP_LOGF( "set myHostID to %d", result->myHostID ); result->relayState = COMMS_RELAYSTATE_UNCONNECTED; return result; } /* comms_make */ static void cleanupInternal( CommsCtxt* comms ) { MsgQueueElem* msg; MsgQueueElem* next; for ( msg = comms->msgQueueHead; !!msg; msg = next ) { next = msg->next; XP_FREE( comms->mpool, msg->msg ); XP_FREE( comms->mpool, msg ); } comms->queueLen = 0; comms->msgQueueHead = comms->msgQueueTail = (MsgQueueElem*)NULL; } /* cleanupInternal */ static void cleanupAddrRecs( CommsCtxt* comms ) { AddressRecord* recs; AddressRecord* next; for ( recs = comms->recs; !!recs; recs = next ) { next = recs->next; XP_FREE( comms->mpool, recs ); } comms->recs = (AddressRecord*)NULL; } /* cleanupAddrRecs */ void comms_reset( CommsCtxt* comms, XP_Bool isServer ) { cleanupInternal( comms ); comms->isServer = isServer; cleanupAddrRecs( comms ); comms->nextChannelNo = 0; comms->connID = CONN_ID_NONE; } /* comms_reset */ void comms_destroy( CommsCtxt* comms ) { cleanupInternal( comms ); cleanupAddrRecs( comms ); XP_FREE( comms->mpool, comms ); } /* comms_destroy */ void comms_setConnID( CommsCtxt* comms, XP_U32 connID ) { comms->connID = connID; XP_STATUSF( "set connID to %lx", connID ); } /* comms_setConnID */ static void addrFromStream( CommsAddrRec* addrP, XWStreamCtxt* stream ) { CommsAddrRec addr; addr.conType = stream_getBits( stream, 3 ); switch( addr.conType ) { case COMMS_CONN_UNUSED: XP_ASSERT( 0 ); break; case COMMS_CONN_BT: case COMMS_CONN_IR: /* nothing to save */ break; case COMMS_CONN_IP_NOUSE: stringFromStreamHere( stream, addr.u.ip.hostName_ip, sizeof(addr.u.ip.hostName_ip) ); addr.u.ip.ipAddr_ip = stream_getU32( stream ); addr.u.ip.port_ip = stream_getU16( stream ); break; case COMMS_CONN_RELAY: stringFromStreamHere( stream, addr.u.ip_relay.cookie, sizeof(addr.u.ip_relay.cookie) ); stringFromStreamHere( stream, addr.u.ip_relay.hostName, sizeof(addr.u.ip_relay.hostName) ); addr.u.ip_relay.ipAddr = stream_getU32( stream ); addr.u.ip_relay.port = stream_getU16( stream ); break; default: /* shut up, compiler */ break; } XP_MEMCPY( addrP, &addr, sizeof(*addrP) ); } /* addrFromStream */ CommsCtxt* comms_makeFromStream( MPFORMAL XWStreamCtxt* stream, XW_UtilCtxt* util, TransportSend sendproc, void* closure ) { CommsCtxt* comms; XP_Bool isServer; XP_U16 nAddrRecs; AddressRecord** prevsAddrNext; MsgQueueElem** prevsQueueNext; short i; isServer = stream_getU8( stream ); comms = comms_make( MPPARM(mpool) util, isServer, sendproc, closure ); comms->connID = stream_getU32( stream ); comms->nextChannelNo = stream_getU16( stream ); comms->myHostID = stream_getU16( stream ); comms->cookieID = stream_getU16( stream ); #ifdef DEBUG comms->nUniqueBytes = stream_getU16( stream ); #endif comms->queueLen = stream_getU8( stream ); nAddrRecs = stream_getU8( stream ); prevsAddrNext = &comms->recs; for ( i = 0; i < nAddrRecs; ++i ) { AddressRecord* rec = (AddressRecord*)XP_MALLOC( mpool, sizeof(*rec)); CommsAddrRec* addr; XP_MEMSET( rec, 0, sizeof(*rec) ); addr = &rec->addr; addrFromStream( addr, stream ); rec->nextMsgID = stream_getU16( stream ); rec->lastMsgReceived = stream_getU16( stream ); rec->channelNo = stream_getU16( stream ); rec->hostID = stream_getU16( stream ); #ifdef DEBUG rec->lastACK = stream_getU16( stream ); rec->nUniqueBytes = stream_getU16( stream ); #endif rec->next = (AddressRecord*)NULL; *prevsAddrNext = rec; prevsAddrNext = &rec->next; } prevsQueueNext = &comms->msgQueueHead; for ( i = 0; i < comms->queueLen; ++i ) { MsgQueueElem* msg = (MsgQueueElem*)XP_MALLOC( mpool, sizeof(*msg) ); msg->channelNo = stream_getU16( stream ); msg->msgID = stream_getU32( stream ); msg->len = stream_getU16( stream ); msg->msg = (XP_U8*)XP_MALLOC( mpool, msg->len ); stream_getBytes( stream, msg->msg, msg->len ); msg->next = (MsgQueueElem*)NULL; *prevsQueueNext = comms->msgQueueTail = msg; comms->msgQueueTail = msg; prevsQueueNext = &msg->next; } addrFromStream( &comms->addr, stream ); #ifdef DEBUG XP_ASSERT( stream_getU32( stream ) == cEND ); #endif comms->relayState = COMMS_RELAYSTATE_UNCONNECTED; comms_relayConnect( comms ); return comms; } /* comms_makeFromStream */ static void addrToStream( XWStreamCtxt* stream, CommsAddrRec* addrP ) { CommsAddrRec addr; XP_MEMCPY( &addr, addrP, sizeof(addr) ); stream_putBits( stream, 3, addr.conType ); switch( addr.conType ) { #ifdef DEBUG case COMMS_CONN_UNUSED: case LAST_____FOO: XP_ASSERT( 0 ); break; #endif case COMMS_CONN_BT: case COMMS_CONN_IR: /* nothing to save */ break; case COMMS_CONN_IP_NOUSE: stringToStream( stream, addr.u.ip.hostName_ip ); stream_putU32( stream, addr.u.ip.ipAddr_ip ); stream_putU16( stream, addr.u.ip.port_ip ); break; case COMMS_CONN_RELAY: stringToStream( stream, addr.u.ip_relay.cookie ); stringToStream( stream, addr.u.ip_relay.hostName ); stream_putU32( stream, addr.u.ip_relay.ipAddr ); stream_putU16( stream, addr.u.ip_relay.port ); break; } } /* addrToStream */ void comms_writeToStream( CommsCtxt* comms, XWStreamCtxt* stream ) { XP_U16 nAddrRecs; AddressRecord* rec; MsgQueueElem* msg; stream_putU8( stream, (XP_U8)comms->isServer ); stream_putU32( stream, comms->connID ); stream_putU16( stream, comms->nextChannelNo ); stream_putU16( stream, comms->myHostID ); stream_putU16( stream, comms->cookieID ); #ifdef DEBUG stream_putU16( stream, comms->nUniqueBytes ); #endif XP_ASSERT( comms->queueLen <= 255 ); stream_putU8( stream, (XP_U8)comms->queueLen ); nAddrRecs = countAddrRecs(comms); stream_putU8( stream, (XP_U8)nAddrRecs ); for ( rec = comms->recs; !!rec; rec = rec->next ) { CommsAddrRec* addr = &rec->addr; addrToStream( stream, addr ); stream_putU16( stream, (XP_U16)rec->nextMsgID ); stream_putU16( stream, (XP_U16)rec->lastMsgReceived ); stream_putU16( stream, rec->channelNo ); stream_putU16( stream, rec->hostID ); #ifdef DEBUG stream_putU16( stream, rec->lastACK ); stream_putU16( stream, rec->nUniqueBytes ); #endif } for ( msg = comms->msgQueueHead; !!msg; msg = msg->next ) { stream_putU16( stream, msg->channelNo ); stream_putU32( stream, msg->msgID ); stream_putU16( stream, msg->len ); stream_putBytes( stream, msg->msg, msg->len ); } addrToStream( stream, &comms->addr ); #ifdef DEBUG stream_putU32( stream, cEND ); #endif } /* comms_writeToStream */ void comms_getAddr( CommsCtxt* comms, CommsAddrRec* addr ) { XP_ASSERT( !!comms ); XP_MEMCPY( addr, &comms->addr, sizeof(*addr) ); } /* comms_getAddr */ void comms_getInitialAddr( CommsAddrRec* addr ) { /* default values; default is still IR where there's a choice */ addr->conType = COMMS_CONN_RELAY; addr->u.ip_relay.ipAddr = 0L; /* force 'em to set it */ addr->u.ip_relay.port = 10999; { char* name = "eehouse.org"; XP_MEMCPY( addr->u.ip_relay.hostName, name, XP_STRLEN(name)+1 ); } addr->u.ip_relay.cookie[0] = '\0'; } void comms_setAddr( CommsCtxt* comms, CommsAddrRec* addr ) { XP_MEMCPY( &comms->addr, addr, sizeof(comms->addr) ); #ifdef BEYOND_IR /* util_listenPortChange( comms->util, listenPort ); */ #endif /* We should now have a cookie so we can connect??? */ comms_relayConnect( comms ); } /* comms_setAddr */ CommsConnType comms_getConType( CommsCtxt* comms ) { return comms->addr.conType; } /* comms_getConType */ /* Send a message using the sequentially next MsgID. Save the message so * resend can work. */ XP_S16 comms_send( CommsCtxt* comms, XWStreamCtxt* stream ) { XP_U16 streamSize = stream_getSize( stream ); XP_U16 headerLen; XP_PlayerAddr channelNo = stream_getAddress( stream ); AddressRecord* rec = getRecordFor( comms, channelNo ); MsgID msgID = (!!rec)? ++rec->nextMsgID : 0; MsgID lastMsgRcd = (!!rec)? rec->lastMsgReceived : 0; MsgQueueElem* newMsgElem; XWStreamCtxt* msgStream; XP_DEBUGF( "assigning msgID of " XP_LD " on chnl %d", msgID, channelNo ); #ifdef DEBUG if ( !!rec ) { rec->nUniqueBytes += streamSize; } else { comms->nUniqueBytes += streamSize; } #endif newMsgElem = (MsgQueueElem*)XP_MALLOC( comms->mpool, sizeof( *newMsgElem ) ); newMsgElem->channelNo = channelNo; newMsgElem->msgID = msgID; msgStream = mem_stream_make( MPPARM(comms->mpool) util_getVTManager(comms->util), NULL, 0, (MemStreamCloseCallback)NULL ); stream_open( msgStream ); stream_putU32( msgStream, comms->connID ); stream_putU16( msgStream, channelNo ); stream_putU32( msgStream, msgID ); stream_putU32( msgStream, lastMsgRcd ); headerLen = stream_getSize( msgStream ); newMsgElem->len = streamSize + headerLen; newMsgElem->msg = (XP_U8*)XP_MALLOC( comms->mpool, newMsgElem->len ); stream_getBytes( msgStream, newMsgElem->msg, headerLen ); stream_destroy( msgStream ); stream_getBytes( stream, newMsgElem->msg + headerLen, streamSize ); addToQueue( comms, newMsgElem ); return sendMsg( comms, newMsgElem ); } /* comms_send */ /* Add new message to the end of the list. The list needs to be kept in order * by ascending msgIDs within each channel since if there's a resend that's * the order in which they need to be sent. */ static void addToQueue( CommsCtxt* comms, MsgQueueElem* newMsgElem ) { newMsgElem->next = (MsgQueueElem*)NULL; if ( !comms->msgQueueHead ) { comms->msgQueueHead = comms->msgQueueTail = newMsgElem; XP_ASSERT( comms->queueLen == 0 ); comms->queueLen = 1; } else { XP_ASSERT( !!comms->msgQueueTail ); comms->msgQueueTail->next = newMsgElem; comms->msgQueueTail = newMsgElem; XP_ASSERT( comms->queueLen > 0 ); ++comms->queueLen; } XP_STATUSF( "addToQueue: queueLen now %d", comms->queueLen ); } /* addToQueue */ #ifdef DEBUG static void printQueue( CommsCtxt* comms ) { MsgQueueElem* elem; short i; for ( elem = comms->msgQueueHead, i = 0; i < comms->queueLen; elem = elem->next, ++i ) { XP_STATUSF( "\t%d: channel: %d; msgID: " XP_LD, i+1, elem->channelNo, elem->msgID ); } } #else #define printQueue(foo) #endif /* We've received on some channel a message with a certain ID. This means * that all messages sent on that channel with lower IDs have been received * and can be removed from our queue. */ static void removeFromQueue( CommsCtxt* comms, XP_PlayerAddr channelNo, MsgID msgID ) { MsgQueueElem* elem; MsgQueueElem* prev; XP_STATUSF( "looking to remove msgs prior or equal to " XP_LD " for channel %d (queue len now %d)", msgID, channelNo, comms->queueLen ); for ( prev = (MsgQueueElem*)NULL, elem = comms->msgQueueHead; !!elem; prev = elem, elem = elem->next ) { /* remove the 0-channel message if we've established a channel number. Only clients should have any 0-channel messages in the queue, and receiving something from the server is an implicit ACK */ if ( elem->channelNo == 0 && channelNo != 0 ) { XP_ASSERT( !comms->isServer ); /* I've seen this fail once */ XP_ASSERT( elem->msgID == 0 ); /* will the check below pass? */ } else if ( elem->channelNo != channelNo ) { continue; } if ( elem->msgID <= msgID ) { if ( !prev ) { /* it's the first element */ comms->msgQueueHead = elem->next; prev = comms->msgQueueHead; /* so elem=prev below will work */ } else { prev->next = elem->next; } if ( comms->msgQueueTail == elem ) { comms->msgQueueTail = prev; } XP_FREE( comms->mpool, elem->msg ); XP_FREE( comms->mpool, elem ); elem = prev; --comms->queueLen; if ( !elem ) { break; } } } XP_STATUSF( "removeFromQueue: queueLen now %d", comms->queueLen ); XP_ASSERT( comms->queueLen > 0 || comms->msgQueueHead == NULL ); printQueue( comms ); } /* removeFromQueue */ static XP_S16 sendMsg( CommsCtxt* comms, MsgQueueElem* elem ) { XP_S16 result = 0; XP_PlayerAddr channelNo; CommsAddrRec* addr; channelNo = elem->channelNo; if ( comms_getConType( comms ) == COMMS_CONN_RELAY ) { if ( comms->relayState == COMMS_RELAYSTATE_CONNECTED ) { XWHostID destID = getDestID( comms, channelNo ); result = comms_send_relay( comms, XWRELAY_MSG_TORELAY, destID, elem->msg, elem->len ); } else { XP_LOGF( "skipping message: not connected" ); } } else { if ( !channelToAddress( comms, channelNo, &addr ) ) { addr = NULL; } XP_ASSERT( !!comms->sendproc ); result = (*comms->sendproc)( elem->msg, elem->len, addr, comms->sendClosure ); } return result; } /* sendMsg */ XP_S16 comms_resendAll( CommsCtxt* comms ) { MsgQueueElem* msg; XP_S16 result = 0; for ( msg = comms->msgQueueHead; !!msg; msg = msg->next ) { XP_S16 oneResult = sendMsg( comms, msg ); if ( result == 0 && oneResult != 0 ) { result = oneResult; } XP_STATUSF( "resend: msgid=" XP_LD "; rslt=%d", msg->msgID, oneResult ); } return result; } /* comms_resend */ static XP_Bool relayPreProcess( CommsCtxt* comms, XWStreamCtxt* stream, XWHostID* senderID ) { XP_Bool consumed; XWHostID destID, srcID; XP_U16 cookieID; if ( comms->addr.conType != COMMS_CONN_RELAY ) { consumed = XP_FALSE; /* nothing for us to do here! */ } else { XWRELAY_Cmd cmd = stream_getU8( stream ); switch( cmd ) { case XWRELAY_CONNECTRESP: consumed = XP_TRUE; comms->relayState = COMMS_RELAYSTATE_CONNECTED; comms->heartbeat = stream_getU16( stream ); comms->cookieID = stream_getU16( stream ); XP_LOGF( "got XWRELAY_CONNECTRESP; set cookieID = %d", comms->cookieID ); /* We're connected now. Send any pending messages. This may need to be done later since we're inside the platform's socket read proc now. */ comms_resendAll( comms ); break; case XWRELAY_MSG_FROMRELAY: cookieID = stream_getU16( stream ); srcID = stream_getU16( stream ); destID = stream_getU16( stream ); XP_LOGF( "cookieID: %d; srcID: %d; destID: %d", cookieID, srcID, destID ); /* If these values don't check out, drop it */ consumed = cookieID != comms->cookieID && destID != comms->myHostID; if ( consumed ) { XP_LOGF( "rejecting data message" ); } else { *senderID = srcID; } break; default: consumed = XP_TRUE; /* drop it */ XP_LOGF( "dropping relay msg with cmd %d", (XP_U16)cmd ); } } return consumed; } /* checkForRelay */ /* read a raw buffer into a stream, stripping off the headers and keeping * any necessary stats. * * Keep track of return addresses by channel. If the message's channel number * is 0, assign a new channel number and associate an address with it. * Otherwise update the address, which may have changed since we last heard * from this channel. * * There may be messages that are only about the comms 'protocol', that * contain nothing to be passed to the server. In that case, return false * indicating the caller that all processing is finished. * * conType tells both how to interpret the addr and whether to expect any * special fields in the message itself. In the IP case, for example, the * port component of a return address is in the message but the IP address * component will be passed in. */ XP_Bool comms_checkIncomingStream( CommsCtxt* comms, XWStreamCtxt* stream, CommsAddrRec* addr ) { XP_U16 channelNo; XP_U32 connID; MsgID msgID; MsgID lastMsgRcd; XP_Bool validMessage = XP_TRUE; AddressRecord* recs = (AddressRecord*)NULL; XWHostID senderID; XP_ASSERT( addr == NULL || comms->addr.conType == addr->conType ); if ( relayPreProcess( comms, stream, &senderID ) ) { return XP_FALSE; } connID = stream_getU32( stream ); XP_STATUSF( "read connID of %lx", connID ); if ( comms->connID == connID || comms->connID == CONN_ID_NONE ) { channelNo = stream_getU16( stream ); msgID = stream_getU32( stream ); lastMsgRcd = stream_getU32( stream ); XP_DEBUGF( "rcd: msg " XP_LD " on chnl %d", msgID, channelNo ); removeFromQueue( comms, channelNo, lastMsgRcd ); if ( channelNo == 0 ) { XP_ASSERT( comms->isServer ); XP_ASSERT( msgID == 0 ); channelNo = ++comms->nextChannelNo; XP_STATUSF( "assigning channelNo=%d", channelNo ); } else { recs = getRecordFor( comms, channelNo ); /* messageID for an incomming message should be one greater than * the id most recently used for that channel. */ if ( !!recs && (msgID != recs->lastMsgReceived + 1) ) { XP_DEBUGF( "unex msgID " XP_LD " (expt " XP_LD ")", msgID, recs->lastMsgReceived+1 ); validMessage = XP_FALSE; } #ifdef DEBUG if ( !!recs ) { XP_ASSERT( lastMsgRcd < 0x0000FFFF ); recs->lastACK = (XP_U16)lastMsgRcd; } #endif } if ( validMessage ) { XP_LOGF( "remembering senderID %x for channel %d", senderID, channelNo ); recs = rememberChannelAddress( comms, channelNo, senderID, addr ); stream_setAddress( stream, channelNo ); if ( !!recs ) { recs->lastMsgReceived = msgID; } XP_STATUSF( "set channel %d's lastMsgReceived to " XP_LD, channelNo, msgID ); } } else { validMessage = XP_FALSE; XP_STATUSF( "refusing non-matching connID; got %lx, wanted %lx", connID, comms->connID ); } return validMessage; } /* comms_checkIncomingStream */ #ifdef DEBUG void comms_getStats( CommsCtxt* comms, XWStreamCtxt* stream ) { XP_UCHAR buf[100]; AddressRecord* rec; XP_SNPRINTF( (XP_UCHAR*)buf, sizeof(buf), (XP_UCHAR*)"msg queue len: %d\n", comms->queueLen ); stream_putBytes( stream, buf, (XP_U16)XP_STRLEN( buf ) ); XP_SNPRINTF( (XP_UCHAR*)buf, sizeof(buf), (XP_UCHAR*)"channel-less bytes sent: %d\n", comms->nUniqueBytes ); stream_putBytes( stream, buf, (XP_U16)XP_STRLEN( buf ) ); for ( rec = comms->recs; !!rec; rec = rec->next ) { XP_SNPRINTF( (XP_UCHAR*)buf, sizeof(buf), (XP_UCHAR*)" Stats for channel: %d\n", rec->channelNo ); stream_putBytes( stream, buf, (XP_U16)XP_STRLEN( buf ) ); XP_SNPRINTF( (XP_UCHAR*)buf, sizeof(buf), (XP_UCHAR*)"Last msg sent: " XP_LD "\n", rec->nextMsgID ); stream_putBytes( stream, buf, (XP_U16)XP_STRLEN( buf ) ); XP_SNPRINTF( (XP_UCHAR*)buf, sizeof(buf), (XP_UCHAR*)"Unique bytes sent: %d\n", rec->nUniqueBytes ); stream_putBytes( stream, buf, (XP_U16)XP_STRLEN( buf ) ); XP_SNPRINTF( (XP_UCHAR*)buf, sizeof(buf), (XP_UCHAR*)"Last message acknowledged: %d\n", rec->lastACK); stream_putBytes( stream, buf, (XP_U16)XP_STRLEN( buf ) ); } } /* comms_getStats */ #endif static AddressRecord* rememberChannelAddress( CommsCtxt* comms, XP_PlayerAddr channelNo, XWHostID hostID, CommsAddrRec* addr ) { AddressRecord* recs = NULL; recs = getRecordFor( comms, channelNo ); if ( !recs ) { /* not found; add a new entry */ recs = (AddressRecord*)XP_MALLOC( comms->mpool, sizeof(*recs) ); recs->nextMsgID = 0; recs->channelNo = channelNo; recs->hostID = hostID; #ifdef DEBUG recs->nUniqueBytes = 0; #endif recs->next = comms->recs; comms->recs = recs; } /* overwrite existing address with new one. I assume that's the right move. */ if ( !!recs ) { if ( !!addr ) { XP_MEMCPY( &recs->addr, addr, sizeof(recs->addr) ); XP_ASSERT( recs->hostID == hostID ); } else { XP_MEMSET( &recs->addr, 0, sizeof(recs->addr) ); } } return recs; } /* rememberChannelAddress */ static XP_Bool channelToAddress( CommsCtxt* comms, XP_PlayerAddr channelNo, CommsAddrRec** addr ) { AddressRecord* recs = getRecordFor( comms, channelNo ); if ( !!recs ) { *addr = &recs->addr; return XP_TRUE; } else { return XP_FALSE; } } /* channelToAddress */ static XWHostID getDestID( CommsCtxt* comms, XP_PlayerAddr channelNo ) { XWHostID id = HOST_ID_NONE; if ( channelNo == CHANNEL_NONE ) { id = HOST_ID_SERVER; } else { AddressRecord* recs; for ( recs = comms->recs; !!recs; recs = recs->next ) { if ( recs->channelNo == channelNo ) { id = recs->hostID; } } } XP_LOGF( "getDestID(%d) => %x", channelNo, id ); return id; } /* getDestID */ static AddressRecord* getRecordFor( CommsCtxt* comms, XP_PlayerAddr channelNo ) { AddressRecord* recs; if ( channelNo == CHANNEL_NONE ) { return (AddressRecord*)NULL; } for ( recs = comms->recs; !!recs; recs = recs->next ) { if ( recs->channelNo == channelNo ) { return recs; } } return (AddressRecord*)NULL; } /* getRecordFor */ static XP_U16 countAddrRecs( CommsCtxt* comms ) { short count = 0; AddressRecord* recs; for ( recs = comms->recs; !!recs; recs = recs->next ) { ++count; } return count; } /* countAddrRecs */ static XP_Bool comms_send_relay( CommsCtxt* comms, XWRELAY_Cmd cmd, XWHostID destID, void* data, int dlen ) { XP_U16 result = 0; XP_U16 len = 0; CommsAddrRec addr; XWStreamCtxt* tmpStream; XP_U8* buf; comms_getAddr( comms, &addr ); tmpStream = mem_stream_make( MPPARM(comms->mpool) util_getVTManager(comms->util), NULL, 0, (MemStreamCloseCallback)NULL ); if ( tmpStream != NULL ) { stream_open( tmpStream ); stream_putU8( tmpStream, cmd ); if ( cmd == XWRELAY_MSG_TORELAY ) { stream_putU16( tmpStream, comms->cookieID ); stream_putU16( tmpStream, comms->myHostID ); stream_putU16( tmpStream, destID ); if ( data != NULL && dlen > 0 ) { stream_putBytes( tmpStream, data, dlen ); } } else if ( cmd == XWRELAY_CONNECT ) { XP_U8 clen; clen = XP_STRLEN( addr.u.ip_relay.cookie ); stream_putU8( tmpStream, clen ); stream_putBytes( tmpStream, addr.u.ip_relay.cookie, clen ); stream_putU16( tmpStream, comms->myHostID ); XP_LOGF( "writing cookieID of %d", comms->cookieID ); stream_putU16( tmpStream, comms->cookieID ); comms->relayState = COMMS_RELAYSTATE_CONNECT_PENDING; } len = stream_getSize( tmpStream ); buf = XP_MALLOC( comms->mpool, len ); if ( buf != NULL ) { stream_getBytes( tmpStream, buf, len ); } stream_destroy( tmpStream ); if ( buf != NULL ) { XP_LOGF( "passing %d bytes to sendproc", len ); result = (*comms->sendproc)( buf, len, &addr, comms->sendClosure ); } XP_FREE( comms->mpool, buf ); } return result == len; } /* comms_send_relay */ /* Send a CONNECT message to the relay. This opens up a connection to the * relay, and tells it our hostID and cookie so that it can associatate it * with a socket. In the CONNECT_RESP we should get back what? */ static void comms_relayConnect( CommsCtxt* comms ) { XP_LOGF( "comms_relayConnect called" ); if ( !comms->connecting ) { comms->connecting = XP_TRUE; comms_send_relay( comms, XWRELAY_CONNECT, HOST_ID_NONE, NULL, 0 ); comms->connecting = XP_FALSE; } } /* comms_relayConnect */ EXTERN_C_END #endif /* #ifndef XWFEATURE_STANDALONE_ONLY */