/* -*-mode: C; fill-column: 78; c-basic-offset: 4; compile-command: "make MEMDEBUG=TRUE";-*- */ /* * Copyright 2006-2007 by Eric House (xwords@eehouse.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 XWFEATURE_BLUETOOTH /* http://www.btessentials.com/examples/examples.html is good for some of this stuff. Copyright allows free use. */ #include #include #include #include #include #if defined BT_USE_L2CAP # include #elif defined BT_USE_RFCOMM # include #endif #include #include #include "linuxbt.h" #include "comms.h" #include "strutils.h" #define MAX_CLIENTS 1 #if defined BT_USE_L2CAP # define L2_RF_ADDR struct sockaddr_l2 #elif defined BT_USE_RFCOMM # define L2_RF_ADDR struct sockaddr_rc #endif typedef struct LinBtStuff { CommonGlobals* globals; void* sockStorage; union { struct { int listener; /* socket */ void* listenerStorage; XP_Bool threadDie; sdp_session_t* session; } master; } u; /* A single socket's fine as long as there's only one client allowed. */ int socket; XP_Bool amMaster; } LinBtStuff; static LinBtStuff* lbt_make( MPFORMAL XP_Bool amMaster ) { LinBtStuff* btStuff = (LinBtStuff*)XP_MALLOC( mpool, sizeof(*btStuff) ); XP_MEMSET( btStuff, 0, sizeof(*btStuff) ); btStuff->amMaster = amMaster; btStuff->socket = -1; return btStuff; } /* lbt_make */ static L2_RF_ADDR* getL2Addr( const CommsAddrRec const* addrP, L2_RF_ADDR* const saddr ) { LOG_FUNC(); L2_RF_ADDR* result = NULL; uint8_t svc_uuid_int[] = XW_BT_UUID; int status; bdaddr_t target; uuid_t svc_uuid; sdp_list_t *response_list, *search_list, *attrid_list; sdp_session_t *session = 0; uint32_t range = 0x0000ffff; XP_MEMCPY( &target, &addrP->u.bt.btAddr, sizeof(target) ); // connect to the SDP server running on the remote machine session = sdp_connect( BDADDR_ANY, &target, 0 ); if ( NULL == session ) { XP_LOGF( "%s: sdp_connect->%s", __func__, strerror(errno) ); } else { sdp_uuid128_create( &svc_uuid, &svc_uuid_int ); search_list = sdp_list_append( 0, &svc_uuid ); attrid_list = sdp_list_append( 0, &range ); response_list = NULL; status = sdp_service_search_attr_req( session, search_list, SDP_ATTR_REQ_RANGE, attrid_list, &response_list ); if( status == 0 ) { sdp_list_t *r; // go through each of the service records for ( r = response_list; r && !result; r = r->next ) { sdp_list_t *proto_list = NULL; sdp_record_t *rec = (sdp_record_t*) r->data; // get a list of the protocol sequences if( sdp_get_access_protos( rec, &proto_list ) == 0 ) { #if defined BT_USE_L2CAP unsigned short psm = sdp_get_proto_port( proto_list, L2CAP_UUID ); if ( psm > 0 ) { sdp_list_free( proto_list, 0 ); saddr->l2_family = AF_BLUETOOTH; saddr->l2_psm = htobs( psm ); XP_MEMCPY( &saddr->l2_bdaddr, &addrP->u.bt.btAddr, sizeof(saddr->l2_bdaddr) ); result = saddr; } #elif defined BT_USE_RFCOMM int channel = sdp_get_proto_port( proto_list, RFCOMM_UUID ); if ( channel > 0 ) { XP_LOGF( "got channel: %d", channel ); saddr->rc_channel = (uint8_t)channel; saddr->rc_family = AF_BLUETOOTH; XP_MEMCPY( &saddr->rc_bdaddr, &addrP->u.bt.btAddr, sizeof(saddr->rc_bdaddr) ); result = saddr; } #endif } sdp_record_free( rec ); } } sdp_list_free( response_list, 0 ); sdp_list_free( search_list, 0 ); sdp_list_free( attrid_list, 0 ); sdp_close( session ); } LOG_RETURNF( "%p", result ); return result; } /* getL2Addr */ static void lbt_connectSocket( LinBtStuff* btStuff, const CommsAddrRec* addrP ) { int sock; LOG_FUNC(); // allocate a socket sock = socket( AF_BLUETOOTH, #if defined BT_USE_L2CAP SOCK_SEQPACKET, BTPROTO_L2CAP #elif defined BT_USE_RFCOMM SOCK_STREAM, BTPROTO_RFCOMM #endif ); if ( sock < 0 ) { XP_LOGF( "%s: socket->%s", __func__, strerror(errno) ); } else { L2_RF_ADDR saddr; XP_MEMSET( &saddr, 0, sizeof(saddr) ); if ( (NULL != getL2Addr( addrP, &saddr ) ) // set the connection parameters (who to connect to) // connect to server && (0 == connect( sock, (struct sockaddr *)&saddr, sizeof(saddr) )) ) { CommonGlobals* globals = btStuff->globals; (*globals->socketChanged)( globals->socketChangedClosure, -1, sock, &btStuff->sockStorage ); btStuff->socket = sock; } else { XP_LOGF( "%s: connect->%s; closing socket %d", __func__, strerror(errno), sock ); close( sock ); } } } /* lbt_connectSocket */ static XP_Bool lbt_accept( int listener, void* ctxt ) { CommonGlobals* globals = (CommonGlobals*)ctxt; LinBtStuff* btStuff = globals->btStuff; int sock = -1; L2_RF_ADDR inaddr; socklen_t slen; XP_Bool success; LOG_FUNC(); XP_LOGF( "%s: calling accept", __func__ ); slen = sizeof( inaddr ); XP_ASSERT( listener == btStuff->u.master.listener ); sock = accept( listener, (struct sockaddr *)&inaddr, &slen ); XP_LOGF( "%s: accept returned; socket = %d", __func__, sock ); success = sock >= 0; if ( success ) { (*globals->socketChanged)( globals->socketChangedClosure, -1, sock, &btStuff->sockStorage ); XP_ASSERT( btStuff->socket == -1 ); btStuff->socket = sock; } else { XP_LOGF( "%s: accept->%s", __func__, strerror(errno) ); } return success; } /* lbt_accept */ static void lbt_register( LinBtStuff* btStuff, unsigned short l2_psm, uint8_t XP_UNUSED_RFCOMM(rc_channel) ) { LOG_FUNC(); if ( NULL == btStuff->u.master.session ) { uint8_t svc_uuid_int[] = XW_BT_UUID; const char *service_name = XW_BT_NAME; const char *svc_dsc = "An open source word game"; const char *service_prov = "xwords.sf.net"; uuid_t svc_uuid; sdp_list_t *root_list = 0, *proto_list = 0, *access_proto_list = 0, *svc_class_list = 0, *profile_list = 0; sdp_record_t record = { 0 }; sdp_session_t *session = NULL; sdp_list_t *l2cap_list = 0; sdp_data_t *psm = 0; #if defined BT_USE_L2CAP #elif defined BT_USE_RFCOMM sdp_list_t *rfcomm_list = 0; sdp_data_t *channel = 0; #endif // set the general service ID sdp_uuid128_create( &svc_uuid, &svc_uuid_int ); sdp_set_service_id( &record, svc_uuid ); // set l2cap information uuid_t l2cap_uuid; sdp_uuid16_create( &l2cap_uuid, L2CAP_UUID ); l2cap_list = sdp_list_append( 0, &l2cap_uuid ); /* from pybluez source */ unsigned short l2cap_psm = l2_psm; psm = sdp_data_alloc( SDP_UINT16, &l2cap_psm ); sdp_list_append( l2cap_list, psm ); proto_list = sdp_list_append( 0, l2cap_list ); #if defined BT_USE_RFCOMM uuid_t rfcomm_uuid; uint8_t rfcomm_channel = rc_channel; sdp_uuid16_create( &rfcomm_uuid, RFCOMM_UUID ); channel = sdp_data_alloc( SDP_UINT8, &rfcomm_channel ); rfcomm_list = sdp_list_append( 0, &rfcomm_uuid ); sdp_list_append( rfcomm_list, channel ); sdp_list_append( proto_list, rfcomm_list ); #endif access_proto_list = sdp_list_append( 0, proto_list ); sdp_set_access_protos( &record, access_proto_list ); // set the name, provider, and description sdp_set_info_attr(&record, service_name, service_prov, svc_dsc); // connect to the local SDP server, register the service record, // and disconnect session = sdp_connect( BDADDR_ANY, BDADDR_LOCAL, SDP_RETRY_IF_BUSY ); if ( NULL == session ) { XP_LOGF( "%s: sdp_connect->%s", __func__, strerror(errno) ); } XP_ASSERT( NULL != session ); sdp_record_register( session, &record, 0 ); // cleanup sdp_data_free( psm ); sdp_list_free( root_list, 0 ); sdp_list_free( access_proto_list, 0 ); sdp_list_free( svc_class_list, 0 ); sdp_list_free( profile_list, 0 ); #if defined BT_USE_L2CAP sdp_list_free( l2cap_list, 0 ); #elif defined BT_USE_RFCOMM sdp_list_free( rfcomm_list, 0 ); sdp_data_free( channel ); #endif btStuff->u.master.session = session; } } /* lbt_register */ static void lbt_listenerSetup( CommonGlobals* globals ) { LinBtStuff* btStuff = globals->btStuff; L2_RF_ADDR saddr; int listener; uint8_t rc_channel = 0; listener = socket( AF_BLUETOOTH, #if defined BT_USE_L2CAP SOCK_SEQPACKET, BTPROTO_L2CAP #elif defined BT_USE_RFCOMM SOCK_STREAM, BTPROTO_RFCOMM #endif ); btStuff->u.master.listener = listener; XP_MEMSET( &saddr, 0, sizeof(saddr) ); #if defined BT_USE_L2CAP saddr.l2_family = AF_BLUETOOTH; saddr.l2_bdaddr = *BDADDR_ANY; saddr.l2_psm = htobs( XW_PSM ); /* need to associate uuid with this before opening? */ if ( 0 != bind( listener, (struct sockaddr *)&saddr, sizeof(saddr) ) ) { XP_LOGF( "%s: bind->%s", __func__, strerror(errno) ); } #elif defined BT_USE_RFCOMM saddr.rc_family = AF_BLUETOOTH; saddr.rc_bdaddr = *BDADDR_ANY; for ( rc_channel = 1; rc_channel < 30; ++rc_channel ) { saddr.rc_channel = rc_channel; XP_LOGF( "setting channel: %d", saddr.rc_channel ); if ( 0 == bind( listener, (struct sockaddr *)&saddr, sizeof(saddr) ) ) { break; } } #endif XP_LOGF( "%s: calling listen on socket %d", __func__, listener ); listen( listener, MAX_CLIENTS ); lbt_register( btStuff, htobs( XW_PSM ), rc_channel ); (*globals->addAcceptor)( listener, lbt_accept, globals, &btStuff->u.master.listenerStorage ); } /* lbt_listenerSetup */ void linux_bt_open( CommonGlobals* globals, XP_Bool amMaster ) { LinBtStuff* btStuff = globals->btStuff; if ( !btStuff ) { btStuff = globals->btStuff = lbt_make( MPPARM(globals->params->util->mpool) amMaster ); btStuff->globals = globals; btStuff->socket = -1; globals->btStuff = btStuff; if ( amMaster ) { lbt_listenerSetup( globals ); } else { if ( btStuff->socket < 0 ) { CommsAddrRec addr; comms_getAddr( globals->game.comms, &addr ); lbt_connectSocket( btStuff, &addr ); } } } } /* linux_bt_open */ void linux_bt_reset( CommonGlobals* globals ) { XP_Bool amMaster = globals->btStuff->amMaster; LOG_FUNC(); linux_bt_close( globals ); linux_bt_open( globals, amMaster ); LOG_RETURN_VOID(); } void linux_bt_close( CommonGlobals* globals ) { LinBtStuff* btStuff = globals->btStuff; if ( !!btStuff ) { if ( btStuff->amMaster ) { XP_LOGF( "%s: closing listener socket %d", __func__, btStuff->u.master.listener ); /* Remove from main event loop */ (*globals->addAcceptor)( -1, NULL, globals, &btStuff->u.master.listenerStorage ); close( btStuff->u.master.listener ); btStuff->u.master.listener = -1; sdp_close( btStuff->u.master.session ); XP_LOGF( "sleeping for Palm's sake..." ); sleep( 2 ); /* see if this gives palm a chance to not hang */ } if ( btStuff->socket != -1 ) { (*globals->socketChanged)( globals->socketChangedClosure, btStuff->socket, -1, &btStuff->sockStorage ); (void)close( btStuff->socket ); } XP_FREE( globals->params->util->mpool, btStuff ); globals->btStuff = NULL; } } /* linux_bt_close */ XP_S16 linux_bt_send( const XP_U8* buf, XP_U16 buflen, const CommsAddrRec* addrP, CommonGlobals* globals ) { XP_S16 nSent = -1; LinBtStuff* btStuff; XP_LOGF( "%s(len=%d)", __func__, buflen ); LOG_HEX( buf, buflen, __func__ ); btStuff = globals->btStuff; if ( !!btStuff ) { CommsAddrRec addr; if ( !addrP ) { comms_getAddr( globals->game.comms, &addr ); addrP = &addr; } if ( btStuff->socket < 0 && !btStuff->amMaster ) { lbt_connectSocket( btStuff, addrP ); } if ( btStuff->socket >= 0 ) { #if defined BT_USE_RFCOMM unsigned short len = htons(buflen); nSent = write( btStuff->socket, &len, sizeof(len) ); assert( nSent == sizeof(len) ); #endif nSent = write( btStuff->socket, buf, buflen ); if ( nSent < 0 ) { XP_LOGF( "%s: send->%s", __func__, strerror(errno) ); } else if ( nSent < buflen ) { XP_LOGF( "%s: sent only %d bytes of %d", __func__, nSent, buflen ); /* Need to loop until sent if this is happening */ XP_ASSERT( 0 ); } } else { XP_LOGF( "%s: socket still not set", __func__ ); } } LOG_RETURNF( "%d", nSent ); return nSent; } /* linux_bt_send */ #if defined BT_USE_RFCOMM static void read_all( int sock, unsigned char* buf, const int len ) { int totalRead = 0; while ( totalRead < len ) { int nRead = read( sock, buf+totalRead, len-totalRead ); if ( nRead < 0 ) { XP_LOGF( "%s: read->%s", __func__, strerror(errno) ); break; } totalRead += nRead; XP_ASSERT( totalRead <= len ); } } #endif XP_S16 linux_bt_receive( int sock, XP_U8* buf, XP_U16 buflen ) { XP_S16 nRead = 0; LOG_FUNC(); XP_ASSERT( sock >= 0 ); #if defined BT_USE_RFCOMM read_all( sock, (unsigned char*)&nRead, sizeof(nRead) ); nRead = ntohs(nRead); XP_LOGF( "nRead=%d", nRead ); XP_ASSERT( nRead < buflen ); read_all( sock, buf, nRead ); LOG_HEX( buf, nRead, __func__ ); #else nRead = read( sock, buf, buflen ); if ( nRead < 0 ) { XP_LOGF( "%s: read->%s", __func__, strerror(errno) ); } #endif LOG_RETURNF( "%d", nRead ); return nRead; } void linux_bt_socketclosed( CommonGlobals* globals, int XP_UNUSED_DBG(sock) ) { LinBtStuff* btStuff = globals->btStuff; LOG_FUNC(); XP_ASSERT( sock == btStuff->socket ); btStuff->socket = -1; } #endif /* XWFEATURE_BLUETOOTH */