/* Copyright (c) 2000 Simon Hausmann Copyright (c) 2000 Lars Knoll Copyright (c) 1999 Preston Brown Copyright (c) 1999, 2000 Matthias Ettrich Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include "global.h" #include "dcopc.h" #include "dcopobject.h" #include #include #include #include typedef struct _DcopClientMessage DcopClientMessage; struct _DcopClientMessage { int opcode; CARD32 key; dcop_data *data; }; typedef struct _DcopClientPrivate DcopClientPrivate; struct _DcopClientPrivate { gchar *app_id; IceConn ice_conn; gint major_opcode; gint major_version, minor_version; gchar *vendor, *release; gboolean registered; gchar *sender_id; gchar *default_object; CARD32 key; CARD32 current_key; GList *transaction_list; gboolean transaction; gint32 transaction_id; int opcode; guint post_message_timer; GList *messages; }; struct _DcopClientTransaction { gint32 id; CARD32 key; gchar *sender_id; }; int DCOPAuthCount = 1; const char *DCOPAuthNames[] = {"MIT-MAGIC-COOKIE-1"}; extern IcePoAuthStatus _IcePoMagicCookie1Proc (IceConn, void **, int, int, int, void *, int *, void **, char **); extern IcePaAuthStatus _IcePaMagicCookie1Proc (IceConn, void **, int, int, void *, int *, void **, char **); IcePoAuthProc DCOPClientAuthProcs[] = {_IcePoMagicCookie1Proc}; IcePaAuthProc DCOPServerAuthProcs[] = {_IcePaMagicCookie1Proc}; enum reply_status { Pending, Ok, Rejected, Failed }; typedef struct _reply_struct reply_struct; struct _reply_struct { gint status; gchar **reply_type; dcop_data **reply_data; guint reply_id; }; static void reply_struct_init( reply_struct *s ) { s->status = Pending; s->reply_type = 0; s->reply_data = 0; s->reply_id = 0; } #define P ((DcopClientPrivate *)(client->priv)) #define ERR( emsg ) \ { \ if ( dcop_client_free_error_msg ) \ g_free( dcop_client_error_msg ); \ dcop_client_error_msg = (gchar *)emsg; \ dcop_client_free_error_msg = FALSE; \ } #define CLIENT_CLASS(obj) DCOP_CLIENT_CLASS(GTK_OBJECT_GET_CLASS(obj)) static gchar *dcop_client_server_address = 0; static gchar *dcop_client_error_msg = 0; static gboolean dcop_client_free_error_msg; /* don't use the glib types for args here, as this is an ICE callback (Simon)*/ void dcop_process_message( IceConn ice_conn, IcePointer client_object, int opcode, unsigned long length, Bool swap, IceReplyWaitInfo *replyWait, Bool *replyWaitRet ); gchar *dcop_client_normalize_function_signature( const gchar *fun ); static IcePoVersionRec DCOPVersions[] = { { DCOPVersionMajor, DCOPVersionMinor, dcop_process_message } }; static unsigned int dcop_client_count = 0; static GtkObjectClass *parent_class = 0; static void dcop_client_class_init(DcopClientClass *klass); static void dcop_client_init(DcopClient *client); static gboolean dcop_client_real_process ( DcopClient *client, const char *fun, dcop_data *data, char **reply_type, dcop_data **reply_data ); GtkType dcop_client_get_type(void) { static GtkType dcop_client_type = 0; if (!dcop_client_type) { static const GtkTypeInfo dcop_client_info = { (gchar *)"DcopClient", sizeof(DcopClient), sizeof(DcopClientClass), (GtkClassInitFunc)dcop_client_class_init, (GtkObjectInitFunc)dcop_client_init, 0, 0, 0 }; dcop_client_type = gtk_type_unique(GTK_TYPE_OBJECT, &dcop_client_info); } return dcop_client_type; } static void dcop_client_destroy( GtkObject *obj ); static void dcop_init(void); static void dcop_shutdown(void); void dcop_client_class_init(DcopClientClass *klass) { GtkObjectClass *object_class; object_class = (GtkObjectClass *)klass; parent_class = (GtkObjectClass *)gtk_type_class(gtk_object_get_type()); object_class->destroy = dcop_client_destroy; klass->process = dcop_client_real_process; } void dcop_client_init(DcopClient *client) { DcopClientPrivate *p; /* tststs :-) C++ hackers :-) (Simon)*/ /* p = new GtkDcopClientPrivate;*/ p = g_new( DcopClientPrivate, 1 ); p->app_id = 0; p->ice_conn = 0; p->major_opcode = p->major_version = p->minor_version = 0; p->vendor = p->release = 0; p->registered = FALSE; p->sender_id = 0; p->key = 0; p->current_key = 0; p->post_message_timer = 0; p->messages = 0; p->default_object = 0; p->transaction_list = 0; p->transaction = FALSE; p->transaction_id = 0; p->opcode = 0; client->priv = p; if ( dcop_client_count == 0 ) dcop_init(); dcop_client_count++; } void dcop_client_destroy( GtkObject *obj ) { DcopClient *client = DCOP_CLIENT(obj); g_message( "dcop_client_destructor()\n" ); if ( P->ice_conn && IceConnectionStatus( P->ice_conn ) == IceConnectAccepted ) dcop_client_detach( client ); if ( P->post_message_timer != 0 ) g_source_remove( P->post_message_timer ); { GList *it = g_list_first( P->messages ); while ( it ) { DcopClientMessage *msg = (DcopClientMessage *)it->data; dcop_data_deref( msg->data ); g_free( msg ); it = g_list_next( it ); } g_list_free( P->messages ); } { GList *it = g_list_first( P->transaction_list ); while ( it ) { g_free( ((DcopClientTransaction *)it->data)->sender_id ); g_free( (DcopClientTransaction *)it ); it = g_list_next( it ); } g_list_free( P->transaction_list ); } g_free( P->app_id ); g_free( P->vendor ); g_free( P->release ); g_free( P->sender_id ); g_free( P ); if ( !--dcop_client_count ) dcop_shutdown(); parent_class->destroy(GTK_OBJECT(client)); } void dcop_init() { g_message( "dcop_init\n" ); dcop_client_free_error_msg = FALSE; } void dcop_shutdown() { g_message( "dcop_shutdown\n" ); dcop_free( dcop_client_server_address ); if ( dcop_client_free_error_msg ) dcop_free( dcop_client_error_msg ); } DcopClient *dcop_client_new() { return (DcopClient *) gtk_type_new(dcop_client_get_type()); } void dcop_client_set_server_address( const gchar *addr ) { dcop_string_copy( dcop_client_server_address, addr ); } /* SM DUMMY */ #include static gboolean HostBasedAuthProc ( char* hostname) { /* we don't need any security here, as this is only a hack to * get the protocol number we want for DCOP. We don't use the SM * connection in any way */ return True; } static Status NewClientProc ( SmsConn c, SmPointer p, unsigned long*l, SmsCallbacks*cb, char**s ) { return 0; } static void dcop_client_registerXSM() { char errormsg[256]; if (!SmsInitialize ((char *)("SAMPLE-SM"), (char *)("1.0"), NewClientProc, NULL, HostBasedAuthProc, 256, errormsg)) { g_error( "register xsm failed"); exit( 1 ); } } /* hack*/ extern int _IceLastMajorOpcode; static void dcop_client_xsm_check() { if ( _IceLastMajorOpcode < 1 ) /* hack to enforce the correct ICE major opcode for DCOP*/ dcop_client_registerXSM(); } static gboolean dcop_client_attach_internal( DcopClient *client, gboolean anonymous ) { gboolean bClearServerAddr = FALSE; gchar *fname = 0; const gchar *dcopSrvEnv = 0; gchar *dcopSrv = 0; gchar *dcopServerFileContent = 0; glong dcopServerFileContentSize = 0; ssize_t bytesRead = 0; gchar *newLine = 0; FILE *f = 0; gchar errBuf[1024]; gint setupstat; g_message( "dcop_client_attach\n" ); if ( dcop_client_is_attached( client ) ) dcop_client_detach( client ); dcop_client_xsm_check(); if ( ( P->major_opcode = IceRegisterForProtocolSetup( (char *)("DCOP"), (char *)(DCOPVendorString), (char *)(DCOPReleaseString), 1, DCOPVersions, DCOPAuthCount, (char **)(DCOPAuthNames), DCOPClientAuthProcs, 0 ) ) < 0 ) { ERR( "Communications could not be established." ); return FALSE; } else { g_message( "dcop: major opcode is %d\n", P->major_opcode ); } if ( !dcop_client_server_address ) { dcopSrvEnv = getenv( "DCOPSERVER" ); if ( !dcopSrvEnv || strlen( dcopSrvEnv ) == 0 ) { char hostName[255]; fname = g_strdup( getenv( "HOME" ) ); fname = (gchar *)g_realloc( fname, strlen( fname ) + 1 + 13 ); strcat( fname, "/.DCOPserver_" ); if ( gethostname( hostName, 255 ) == 0 ) { fname = (gchar *)g_realloc( fname, strlen( fname ) + 1 + strlen( hostName ) ); strcat( fname, hostName ); } else { fname = (gchar *)g_realloc( fname, strlen( fname ) + 1 + 9 ); strcat( fname, "localhost" ); } f = fopen( fname, "r" ); if ( f == NULL ) /* try .DCOPServer_hostname_display (for KDE > 2.0) */ { char *i; char *display = getenv( "DISPLAY" ); gchar *display_real = g_strdup( display ); gchar *disppos; /* dcopserver per display, not per screen */ if ( ( disppos = strchr( display_real, '.' ) ) > strchr( display_real, ':' ) && disppos != NULL ) (*disppos) = '\0'; while((i = strchr(display_real, ':')) != NULL) *i = '_'; fname = (gchar *)g_realloc( fname, strlen( fname ) + 1 + 1 + strlen( display_real ) ); strcat( fname, "_" ); strcat( fname, display_real ); g_free( display_real ); f = fopen( fname, "r" ); if ( f == NULL ) { g_free( fname ); ERR( "Cannot open ~/.DCOPserver" ); return FALSE; } } fseek( f, 0L, SEEK_END ); dcopServerFileContentSize = ftell( f ); if ( dcopServerFileContentSize == 0L ) { g_free( fname ); ERR( "Invalid ~/.DCOPserver" ); return FALSE; } fseek( f, 0L, SEEK_SET ); dcopServerFileContent = (gchar *)g_malloc( dcopServerFileContentSize ); bytesRead = fread( (void *)dcopServerFileContent, sizeof(gchar), dcopServerFileContentSize, f ); if ( bytesRead != dcopServerFileContentSize ) { g_free( fname ); g_free( dcopServerFileContent ); fclose( f ); ERR( "Cannot read ~/.DCOPserver" ); return FALSE; } newLine = strchr( dcopServerFileContent, '\n' ); if ( newLine == NULL ) { g_free( fname ); g_free( dcopServerFileContent ); fclose( f ); ERR( "Invalid ~/.DCOPserver" ); return FALSE; } *newLine = '\0'; fclose( f ); g_free( fname ); dcopSrv = g_strdup( dcopServerFileContent ); g_free( dcopServerFileContent ); } else dcopSrv = g_strdup( dcopSrvEnv ); if ( dcopSrv == NULL ) { ERR( "Cannot determine dcop server address." ); return FALSE; } g_message( "dcop server address is : %s\n", dcopSrv ); dcop_client_server_address = dcopSrv; bClearServerAddr = TRUE; } if ( ( P->ice_conn = IceOpenConnection( (char *)( dcop_client_server_address ), (IcePointer)( client ), False, P->major_opcode, sizeof( errBuf ), errBuf ) ) == NULL ) { if ( bClearServerAddr ) dcop_free( dcop_client_server_address ); ERR( g_strdup( errBuf ) ); dcop_client_free_error_msg = TRUE; return FALSE; } IceSetShutdownNegotiation( P->ice_conn, False ); setupstat = IceProtocolSetup( P->ice_conn, P->major_opcode, (IcePointer *)client, False, &(P->major_version), &(P->minor_version), &(P->vendor), &(P->release), sizeof( errBuf ), errBuf ); if ( setupstat == IceProtocolSetupFailure || setupstat == IceProtocolSetupIOError ) { IceCloseConnection( P->ice_conn ); if ( bClearServerAddr ) dcop_free( dcop_client_server_address ); ERR( g_strdup( errBuf ) ); dcop_client_free_error_msg = TRUE; return FALSE; } else if ( setupstat == IceProtocolAlreadyActive ) { if ( bClearServerAddr ) dcop_free( dcop_client_server_address ); ERR( "Internal error in IceOpenConnection" ); return FALSE; } if ( IceConnectionStatus( P->ice_conn ) != IceConnectAccepted ) { if ( bClearServerAddr ) dcop_free( dcop_client_server_address ); ERR( "DCOP server did not accept the connection" ); return FALSE; } if ( anonymous ) dcop_client_register_as( client, "anonymous", TRUE ); return TRUE; } gboolean dcop_client_attach( DcopClient *client ) { if ( !dcop_client_attach_internal( client, TRUE ) ) if ( !dcop_client_attach_internal( client, TRUE ) ) return FALSE; /* try two times!*/ return TRUE; } gboolean dcop_client_detach( DcopClient *client ) { int status; g_message( "dcop_client_detach\n" ); if ( P->ice_conn ) { IceProtocolShutdown( P->ice_conn, P->major_opcode ); status = IceCloseConnection( P->ice_conn ); if ( status != IceClosedNow ) { ERR( "error detaching from DCOP server" ); return FALSE; } else P->ice_conn = 0L; } P->registered = FALSE; return TRUE; } gboolean dcop_client_is_attached( DcopClient *client ) { if ( !P->ice_conn ) return FALSE; return (IceConnectionStatus( P->ice_conn ) == IceConnectAccepted ); } const gchar *dcop_client_register_as( DcopClient *client, const gchar *app_id, gboolean add_pid /* = TRUE */ ) { gchar *result = 0; gchar *id = g_strdup( app_id ); gchar pid[64]; gint pid_len = 0; dcop_data *data = 0; gchar *reply_type = 0; dcop_data *reply_data = 0; g_message( "dcop_client_register_as %s\n", app_id ); if ( dcop_client_is_registered( client ) ) dcop_client_detach( client ); if ( !dcop_client_is_attached( client ) ) if ( !dcop_client_attach_internal( client, FALSE ) ) return result; /*try two times*/ if ( add_pid ) { pid_len = g_snprintf( pid, sizeof( pid ), "-%d", getpid() ); id = (gchar *)g_realloc( id, strlen( id ) + 1 + pid_len ); strcat( id, pid ); } g_message( "trying to register as %s\n", id ); data = dcop_data_ref( dcop_data_new() ); dcop_marshal_string( data, id ); if ( dcop_client_call( client, "DCOPServer", "", "registerAs(TQCString)", data, &reply_type, &reply_data ) ) { dcop_data_reset( reply_data ); dcop_demarshal_string( reply_data, &result ); dcop_data_deref( reply_data ); g_free( reply_type ); } dcop_string_assign( P->app_id, result ); P->registered = ( P->app_id != NULL && strlen( P->app_id ) > 0 ); if ( P->registered ) g_message( "we are registered as %s\n", P->app_id ); else g_message( "registration failed\n" ); dcop_data_deref( data ); g_free( id ); return result; } gboolean dcop_client_is_registered( DcopClient *client ) { return P->registered; } const gchar *dcop_client_app_id( DcopClient *client ) { return P->app_id; } int dcop_client_socket( DcopClient *client ) { if ( P->ice_conn ) return IceConnectionNumber( P->ice_conn ); else return 0; } gboolean dcop_client_send( DcopClient *client, const gchar *rem_app, const gchar *rem_obj, const gchar *rem_fun, dcop_data *data ) { struct DCOPMsg *pMsg = 0; dcop_data *hdata = 0; gchar *func = 0; gboolean res = TRUE; g_message( "dcop_client_send( %s, %s, %s )\n", rem_app, rem_obj, rem_fun); if ( !dcop_client_is_attached( client ) ) return FALSE; if ( strcmp( P->app_id, rem_app ) == 0 ) { gchar *reply_type = 0; dcop_data *reply_data = 0; if ( !dcop_client_receive( client, rem_app, rem_obj, rem_fun, data, &reply_type, &reply_data ) ) g_warning( "dcop failure in app %s:\n object '%s' has no function '%s'", rem_app, rem_obj, rem_fun ); return TRUE; } hdata = dcop_data_ref( dcop_data_new() ); dcop_marshal_string( hdata, P->app_id ); dcop_marshal_string( hdata, rem_app ); dcop_marshal_string( hdata, rem_obj ); func = dcop_client_normalize_function_signature( rem_fun ); dcop_marshal_string( hdata, func ); dcop_marshal_uint32( hdata, data->size ); IceGetHeader( P->ice_conn, P->major_opcode, DCOPSend, sizeof(struct DCOPMsg), struct DCOPMsg, pMsg ); pMsg->key = 1; /* DCOPSend always uses the magic key 1*/ pMsg->length += hdata->size + data->size; IceSendData( P->ice_conn, hdata->size, hdata->ptr ); IceSendData( P->ice_conn, data->size, data->ptr ); /* IceFlush( P->ice_conn ); */ if ( IceConnectionStatus( P->ice_conn ) != IceConnectAccepted ) res = FALSE; g_free( func ); return res; } static gboolean dcop_client_call_internal( DcopClient *client, const gchar *rem_app, const gchar *rem_obj, const gchar *rem_fun, dcop_data *data, gchar **reply_type, dcop_data **reply_data, gint minor_opcode ) { gboolean success = FALSE; struct DCOPMsg *pMsg = 0; dcop_data *hdata = 0; gchar *func = 0; IceReplyWaitInfo waitInfo; reply_struct reply; gboolean readyRet; IceProcessMessagesStatus status; CARD32 old_current_key = 0; reply_struct_init( &reply ); if ( !dcop_client_is_attached( client ) ) return FALSE; old_current_key = P->current_key; if ( !P->current_key ) P->current_key = P->key; /* no key, yet, initiate new call*/ hdata = dcop_data_ref( dcop_data_new() ); dcop_marshal_string( hdata, P->app_id ); dcop_marshal_string( hdata, rem_app ); dcop_marshal_string( hdata, rem_obj ); func = dcop_client_normalize_function_signature( rem_fun ); dcop_marshal_string( hdata, func ); dcop_marshal_uint32( hdata, data->size ); IceGetHeader( P->ice_conn, P->major_opcode, minor_opcode, sizeof(struct DCOPMsg), struct DCOPMsg, pMsg ); pMsg->key = P->current_key; pMsg->length += hdata->size + data->size; IceSendData( P->ice_conn, hdata->size, hdata->ptr ); IceSendData( P->ice_conn, data->size, data->ptr ); if ( IceConnectionStatus( P->ice_conn ) != IceConnectAccepted ) { dcop_data_deref( hdata ); g_free( func ); P->current_key = old_current_key; return FALSE; } IceFlush( P->ice_conn ); waitInfo.sequence_of_request = IceLastSentSequenceNumber( P->ice_conn ); waitInfo.major_opcode_of_request = P->major_opcode; waitInfo.minor_opcode_of_request = minor_opcode; reply.reply_type = reply_type; reply.reply_data = reply_data; waitInfo.reply = (IcePointer)&reply; readyRet = False; do { status = IceProcessMessages( P->ice_conn, &waitInfo, &readyRet ); if ( status == IceProcessMessagesIOError ) { IceCloseConnection( P->ice_conn ); dcop_data_deref( hdata ); g_free( func ); P->current_key = old_current_key; return FALSE; } } while ( !readyRet ); dcop_data_deref( hdata ); success = reply.status == Ok; g_free( func ); P->current_key = old_current_key; return success; } gboolean dcop_client_call( DcopClient *client, const gchar *rem_app, const gchar *rem_obj, const gchar *rem_fun, dcop_data *data, gchar **reply_type, dcop_data **reply_data ) { return dcop_client_call_internal( client, rem_app, rem_obj, rem_fun, data, reply_type, reply_data, DCOPCall ); } gboolean dcop_client_is_application_registered( DcopClient *client, const gchar *app ) { gchar *reply_type = 0; dcop_data *reply_data = 0; dcop_data *data = dcop_data_ref( dcop_data_new() ); gboolean res = FALSE; dcop_marshal_string( data, app ); if ( dcop_client_call( client, "DCOPServer", "", "isApplicationRegistered(TQCString)", data, &reply_type, &reply_data ) ) { dcop_data_reset( reply_data ); dcop_demarshal_boolean( reply_data, &res ); } g_free( reply_type ); if ( reply_data ) dcop_data_deref( reply_data ); dcop_data_deref( data ); return res; } GList *dcop_client_registered_applications( DcopClient *client ) { GList *res = 0; dcop_data *data = 0; dcop_data *reply_data = 0; gchar *reply_type = 0; data = dcop_data_ref( dcop_data_new() ); if ( dcop_client_call( client, "DCOPServer", "", "registeredApplications()", data, &reply_type, &reply_data ) ) { fprintf( stderr, "reply type is %s\n", reply_type ); dcop_data_reset( reply_data ); dcop_demarshal_stringlist( reply_data, &res ); dcop_data_deref( reply_data ); } g_free( reply_type ); dcop_data_deref( data ); return res; } extern GHashTable *object_dict; GList *g_temp_object_list = 0; static void dcop_client_receive_list_objects_internal( gpointer key, gpointer val, gpointer user_data ) { gchar *nam = (gchar *)key; DcopObject *obj = (DcopObject *)val; DcopClient *client = (DcopClient *)user_data; const gchar *id = DCOP_ID( obj ); if ( id && strlen( id ) > 0 ) { if ( P->default_object && strcmp( id, P->default_object ) == 0 ) g_temp_object_list = g_list_append( g_temp_object_list, (gchar *)"default" ); g_temp_object_list = g_list_append( g_temp_object_list, (gchar *)id ); } } gboolean dcop_client_receive( DcopClient *client, const gchar *app, const gchar *obj, const gchar *fun, dcop_data *data, gchar **reply_type, dcop_data **reply_data ) { DcopObject *o; g_message( "dcop_client_receive app=%s obj=%s fun=%s\n", app, obj, fun); if ( obj && strcmp( obj, "DCOPClient" ) == 0 ) { if ( strcmp( fun, "objects()" ) == 0 ) { GList *list = 0; *reply_type = strdup( "QCStringList" ); *reply_data = dcop_data_ref( dcop_data_new() ); if ( object_dict ) { /* GList *it = g_list_first( object_list ); while ( it ) { if ( it->data ) { const gchar *id; o = (DcopObject *)it->data; id = DCOP_ID(o); if ( id && strlen( id ) > 0 ) { if ( P->default_object && strcmp( id, P->default_object ) == 0 ) list = g_list_append( list, (gchar *)"default" ); list = g_list_append( list, (gchar *)id ); } } it = g_list_next( it ); } */ g_temp_object_list = 0; g_hash_table_foreach( object_dict, dcop_client_receive_list_objects_internal, client ); list = g_temp_object_list; } dcop_marshal_stringlist( *reply_data, list ); /* important: only "free" (return to internal allocator) the list*/ /* itself, not it's data, as that data are either static strings*/ /* or strings already owned by someone else*/ g_list_free( list ); return TRUE; } if ( CLIENT_CLASS(client)->process( client, fun, data, reply_type, reply_data ) ) return TRUE; } if ( !obj || strlen( obj ) == 0 || strcmp( obj, "default" ) == 0 ) if ( P->default_object && strlen( P->default_object ) != 0 ) { o = dcop_object_lookup( P->default_object ); if ( o && DCOP_OBJECT_CLASS(GTK_OBJECT_GET_CLASS(o))->process( o, fun, data, reply_type, reply_data ) ) return TRUE; } if ( obj && obj[ strlen( obj ) - 1 ] == '*' ) { gchar *partial_id = (gchar *)g_malloc( strlen( obj ) - 1 ); GList *match_list = 0; strncpy( partial_id, obj, strlen( obj ) - 1 ); match_list = dcop_object_match( partial_id ); if ( match_list ) { GList *it = g_list_first( match_list ); while ( it ) { o = (DcopObject *)it->data; if ( !DCOP_OBJECT_CLASS(GTK_OBJECT_GET_CLASS(o))->process( o, fun, data, reply_type, reply_data ) ) { g_list_free( match_list ); g_free( partial_id ); return FALSE; } it = g_list_next( it ); } g_list_free( match_list ); } g_free( partial_id ); return TRUE; } /* ### proxy support */ o = dcop_object_lookup( obj ); if ( !o ) return FALSE; return DCOP_OBJECT_CLASS(GTK_OBJECT_GET_CLASS(o))->process( o, fun, data, reply_type, reply_data ); } static inline gboolean is_ident_char( gchar x ) { /* Avoid bug in isalnum */ return x == '_' || (x >= '0' && x <= '9') || (x >= 'a' && x <= 'z') || (x >= 'A' && x <= 'Z'); } gchar *dcop_client_normalize_function_signature( const gchar *fun ) { gchar *result; size_t len = strlen( fun ); const gchar *from; gchar *to, *first; gchar last; if ( len == 0 ) return g_strdup( fun ); result = (gchar *)g_malloc( len + 1 ); from = fun; first = to = result; last = 0; while ( 42 ) { while ( *from && isspace( *from ) ) from++; if ( last && is_ident_char( last ) && is_ident_char( *from ) ) *to++ = 0x20; while ( *from && !isspace( *from ) ) { last = *from++; *to++ = last; } if ( !*from ) break; } if ( to > first && *(to-1) == 0x20 ) to--; *to = '\0'; result = (gchar *)g_realloc( result, (int)((long)to - (long)result) + 1 ); return result; } const gchar *dcop_client_sender_id( DcopClient *client ) { return P->sender_id; } gboolean dcop_client_process( DcopClient *client, const gchar *fun, dcop_data *data, gchar **reply_type, dcop_data **reply_data ) { return CLIENT_CLASS( client )->process( client, fun, data, reply_type, reply_data ); } gboolean dcop_client_real_process( DcopClient *client, const gchar *fun, dcop_data *data, gchar **reply_type, dcop_data **reply_data ) { /* empty default implementation*/ return FALSE; } void dcop_client_process_socket_data( DcopClient *client ) { IceProcessMessagesStatus status; g_message( "dcop_client_process_socket_data\n" ); status = IceProcessMessages( P->ice_conn, 0, 0 ); g_message( "dcop_client_process_socket_data : messages processed\n" ); if ( status == IceProcessMessagesIOError ) { IceCloseConnection( P->ice_conn ); g_message( "error receiving data from the DCOP server.\n" ); return; } } const gchar *dcop_client_error_message() { return dcop_client_error_msg; } void dcop_process_internal( DcopClient *client, int opcode, CARD32 key, dcop_data *data_received, gboolean can_post ); /* don't use the glib types for args here, as this is an ICE callback (Simon)*/ void dcop_process_message( IceConn ice_conn, IcePointer client_object, int opcode, unsigned long length, Bool swap, IceReplyWaitInfo *replyWait, Bool *replyWaitRet ) { struct DCOPMsg *pMsg = 0; DcopClient *client = (DcopClient *)client_object; void *data_received; dcop_data *tmp_stream = 0; unsigned int id; char *called_app = 0; char *app = 0; char *obj = 0; char *fun = 0; CARD32 key; IceReadMessageHeader( ice_conn, sizeof( struct DCOPMsg ), struct DCOPMsg, pMsg ); key = pMsg->key; if ( P->key == 0 ) P->key = key; /* received a key from the server*/ data_received = g_malloc( length ); IceReadData( ice_conn, length, data_received ); tmp_stream = dcop_data_ref( dcop_data_new() ); dcop_data_assign( tmp_stream, (char *)data_received, length ); P->opcode = opcode; switch ( opcode ) { case DCOPReplyFailed: if ( replyWait ) { ((reply_struct *)replyWait->reply)->status = Failed; *replyWaitRet = True; break; } else { g_warning( "dcop error: received an unexpected DCOPReplyFailed opcode.\n" ); break; } case DCOPReply: if ( replyWait ) { ((reply_struct *)replyWait->reply)->status = Ok; dcop_demarshal_string( tmp_stream, &called_app ); dcop_demarshal_string( tmp_stream, &app ); dcop_demarshal_string( tmp_stream, ((reply_struct *)replyWait->reply)->reply_type ); dcop_demarshal_data( tmp_stream, ((reply_struct *)replyWait->reply)->reply_data ); *replyWaitRet = True; break; } else { g_warning( "dcop error: received an unexpected DCOPReply.\n" ); break; } case DCOPReplyWait: if ( replyWait ) { dcop_demarshal_string( tmp_stream, &called_app ); dcop_demarshal_string( tmp_stream, &app ); dcop_demarshal_uint32( tmp_stream, &id ); ((reply_struct *)replyWait->reply)->reply_id = id; break; } else { g_warning( "dcop error: received an unexpected DCOPReplyWait.\n" ); break; } case DCOPReplyDelayed: if ( replyWait ) { ((reply_struct *)replyWait->reply)->status = Ok; dcop_demarshal_string( tmp_stream, &called_app ); dcop_demarshal_string( tmp_stream, &app ); dcop_demarshal_uint32( tmp_stream, &id ); dcop_demarshal_string( tmp_stream, ((reply_struct *)replyWait->reply)->reply_type ); dcop_demarshal_data( tmp_stream, ((reply_struct *)replyWait->reply)->reply_data ); if ( id != ((reply_struct *)replyWait->reply)->reply_id ) { ((reply_struct *)replyWait->reply)->status = Failed; g_warning( "dcop error: received a wrong sequence id for DCOPReplyDelayed.\n" ); } *replyWaitRet = True; break; } else { g_message( "dcop error: received an unexpeced DCOPReplyDelayed.\n" ); break; } case DCOPCall: case DCOPFind: case DCOPSend: dcop_process_internal( client, opcode, key, tmp_stream, TRUE ); break; } dcop_data_deref( tmp_stream ); g_free( called_app ); g_free( app ); } static gboolean dcop_client_process_post_messages_internal( gpointer data ) { DcopClient *client = DCOP_CLIENT( data ); GList *it = 0; g_message( "dcop_client_process_post_messages_internal" ); if ( g_list_length( P->messages ) == 0 ) return FALSE; it = g_list_first( P->messages ); while ( it ) { DcopClientMessage *msg = (DcopClientMessage *)it->data; it = g_list_next( it ); g_assert( msg ); if ( P->current_key && msg->key != P->current_key ) continue; P->messages = g_list_remove( P->messages, msg ); dcop_process_internal( client, msg->opcode, msg->key, msg->data, FALSE ); dcop_data_deref( msg->data ); g_free( msg ); } if ( g_list_length( P->messages ) == 0 ) return FALSE; return TRUE; } void dcop_process_internal( DcopClient *client, int opcode, CARD32 key, dcop_data *data_received, gboolean can_post ) { gchar *app = 0; gchar *obj = 0; gchar *fun = 0; char *reply_type = 0; dcop_data *reply_data = 0; gboolean b = FALSE; CARD32 old_current_key = 0; dcop_data *data = 0; dcop_data *reply = 0; struct DCOPMsg *pMsg = 0; dcop_free( P->sender_id ); dcop_demarshal_string( data_received, &P->sender_id ); dcop_demarshal_string( data_received, &app ); dcop_demarshal_string( data_received, &obj ); dcop_demarshal_string( data_received, &fun ); dcop_demarshal_data( data_received, &data ); if ( can_post && P->current_key && key != P->current_key ) { DcopClientMessage *msg = g_new( DcopClientMessage, 1 ); g_message( "posting message with key %i", key ); msg->opcode = opcode; msg->key = key; msg->data = dcop_data_ref( data_received ); P->messages = g_list_append( P->messages, msg ); if ( P->post_message_timer != 0 ) g_source_remove( P->post_message_timer ); P->post_message_timer = g_timeout_add( 0, dcop_client_process_post_messages_internal, client ); return; } old_current_key = P->current_key; if ( opcode != DCOPSend ) /* DCOPSend doesn't change the current key*/ P->current_key = key; if ( opcode == DCOPFind ) { /* #### b = dcop_client_find( app, obj, fun, data, &reply_type, &reply_data ); */ } else b = dcop_client_receive( client, app, obj, fun, data, &reply_type, &reply_data ); if ( opcode == DCOPSend ) { g_free( app ); g_free( obj ); g_free( fun ); if ( data ) dcop_data_deref( data ); g_free( reply_type ); if ( reply_data ) dcop_data_deref( reply_data ); return; } P->current_key = old_current_key; reply = dcop_data_ref( dcop_data_new() ); if ( P->transaction_id ) { dcop_marshal_string( reply, P->app_id ); dcop_marshal_string( reply, P->sender_id ); dcop_marshal_uint32( reply, (guint32)P->transaction_id ); IceGetHeader( P->ice_conn, P->major_opcode, DCOPReplyWait, sizeof( struct DCOPMsg ), struct DCOPMsg, pMsg ); pMsg->key = key; pMsg->length += reply->size; IceSendData( P->ice_conn, reply->size, reply->ptr ); dcop_data_deref( reply ); g_free( app ); g_free( obj ); g_free( fun ); dcop_data_deref( data ); return; } if ( !b ) { g_warning( "dcop failure in app %s:\n object '%s' has no function '%s'", app, obj, fun ); dcop_marshal_string( reply, P->app_id ); dcop_marshal_string( reply, P->sender_id ); IceGetHeader( P->ice_conn, P->major_opcode, DCOPReplyFailed, sizeof( struct DCOPMsg ), struct DCOPMsg, pMsg ); pMsg->key = key; pMsg->length += reply->size; IceSendData( P->ice_conn, reply->size, reply->ptr ); dcop_data_deref( reply ); g_free( app ); g_free( obj ); g_free( fun ); dcop_data_deref( data ); return; } if ( !reply_data ) reply_data = dcop_data_ref( dcop_data_new() ); dcop_marshal_string( reply, P->app_id ); dcop_marshal_string( reply, P->sender_id ); dcop_marshal_string( reply, reply_type ); dcop_marshal_uint32( reply, reply_data->size ); IceGetHeader( P->ice_conn, P->major_opcode, DCOPReply, sizeof( struct DCOPMsg ), struct DCOPMsg, pMsg ); pMsg->key = key; pMsg->length += reply->size + reply_data->size; /* use IceSendData not IceWriteData to avoid a copy. Output buffer shouldn't need to be flushed. */ IceSendData( P->ice_conn, reply->size, reply->ptr ); IceSendData( P->ice_conn, reply_data->size, reply_data->ptr ); dcop_data_deref( reply ); g_free( app ); g_free( obj ); g_free( fun ); dcop_data_deref( data ); dcop_data_deref( reply_data ); } void dcop_client_set_default_object( DcopClient *client, const gchar *obj_id ) { dcop_string_copy( P->default_object, obj_id ); } const gchar *dcop_client_default_object( DcopClient *client ) { return P->default_object; } DcopClientTransaction *dcop_client_begin_transaction( DcopClient *client ) { DcopClientTransaction *transaction = 0; if ( P->opcode == DCOPSend ) return 0; P->transaction = TRUE; transaction = g_new( DcopClientTransaction, 1 ); transaction->sender_id = g_strdup( P->sender_id ); if ( !P->transaction_id ) P->transaction_id++; transaction->id = ++(P->transaction_id); transaction->key = P->current_key; P->transaction_list = g_list_append( P->transaction_list, transaction ); return transaction; } gint32 dcop_client_transaction_id( DcopClient *client ) { if ( P->transaction ) return P->transaction_id; else return 0; } void dcop_client_end_transaction( DcopClient *client, DcopClientTransaction *trans, gchar *reply_type, dcop_data *reply_data ) { struct DCOPMsg *pMsg = 0; dcop_data *data = 0; if ( !trans ) return; if ( !dcop_client_is_attached( client ) ) return; if ( !P->transaction_list ) { g_warning( "dcop_client_end_transaction: no pending transactions!" ); return; } if ( !g_list_find( P->transaction_list, trans ) ) { g_warning( "dcop_client_end_transaction: unknown transaction!" ); return; } P->transaction_list = g_list_remove( P->transaction_list, trans ); data = dcop_data_ref( dcop_data_new() ); dcop_data_ref( reply_data ); dcop_marshal_string( data, P->app_id ); dcop_marshal_string( data, trans->sender_id ); dcop_marshal_uint32( data, (guint32)trans->id ); dcop_marshal_string( data, reply_type ); dcop_marshal_data( data, reply_data ); IceGetHeader( P->ice_conn, P->major_opcode, DCOPReplyDelayed, sizeof( struct DCOPMsg ), struct DCOPMsg, pMsg ); pMsg->key = trans->key; pMsg->length += data->size; IceSendData( P->ice_conn, data->size, data->ptr ); dcop_data_deref( data ); dcop_data_deref( reply_data ); g_free( trans->sender_id ); g_free( trans ); } void dcop_client_emit_dcop_signal( DcopClient *client, const gchar *object, const gchar *signal, dcop_data *data ) { gchar *normalized_signal_name = dcop_client_normalize_function_signature( signal ); gchar *signame = g_strdup( object ); signame = (gchar *)g_realloc( signame, strlen( object ) + 1 + 1 + strlen( normalized_signal_name ) ); strcat( signame, "#" ); strcat( signame, normalized_signal_name ); dcop_client_send( client, "DCOPServer", "emit", signame, data ); g_free( signame ); } gboolean dcop_client_connect_dcop_signal( DcopClient *client, const gchar *sender, const gchar *sender_obj, const gchar *signal, const gchar *receiver_obj, const gchar *slot, gboolean _volatile ) { gchar *reply_type = 0; dcop_data *reply_data = 0; dcop_data *data = dcop_data_ref( dcop_data_new() ); guint8 ivolatile = _volatile ? 1 : 0; gchar *normalized_signame = dcop_client_normalize_function_signature( signal ); gchar *normalized_slotname = dcop_client_normalize_function_signature( slot ); guint8 result = 0; dcop_marshal_string( data, sender ); dcop_marshal_string( data, sender_obj ); dcop_marshal_string( data, normalized_signame ); dcop_marshal_string( data, receiver_obj ); dcop_marshal_string( data, normalized_slotname ); dcop_marshal_uint8( data, ivolatile ); if ( dcop_client_call( client, "DCOPServer", "", "connectSignal(TQCString,TQCString,TQCString,TQCString,TQCString,bool)", data, &reply_type, &reply_data ) == FALSE ) { g_free( normalized_signame ); g_free( normalized_slotname ); dcop_data_deref( data ); return FALSE; } if ( reply_type == NULL || strcmp( reply_type, "bool" ) != 0 || reply_data == NULL ) { g_free( normalized_signame ); g_free( normalized_slotname ); dcop_data_deref( data ); if ( reply_data != NULL ) dcop_data_deref( reply_data ); return FALSE; } dcop_data_reset( reply_data ); dcop_demarshal_uint8( reply_data, &result ); g_free( normalized_signame ); g_free( normalized_slotname ); dcop_data_deref( data ); dcop_data_deref( reply_data ); if ( result == 0 ) return FALSE; return TRUE; } gboolean dcop_client_disconnect_dcop_signal( DcopClient *client, const gchar *sender, const gchar *sender_obj, const gchar *signal, const gchar *receiver_obj, const gchar *slot ) { gchar *reply_type = 0; dcop_data *reply_data = 0; dcop_data *data = dcop_data_ref( dcop_data_new() ); gchar *normalized_signame = dcop_client_normalize_function_signature( signal ); gchar *normalized_slotname = dcop_client_normalize_function_signature( slot ); guint8 result = 0; dcop_marshal_string( data, sender ); dcop_marshal_string( data, sender_obj ); dcop_marshal_string( data, normalized_signame ); dcop_marshal_string( data, receiver_obj ); dcop_marshal_string( data, normalized_slotname ); if ( dcop_client_call( client, "DCOPServer", "", "disconnectSignal(TQCString,TQCString,TQCString,TQCString,TQCString)", data, &reply_type, &reply_data ) == FALSE ) { g_free( normalized_signame ); g_free( normalized_slotname ); dcop_data_deref( data ); return FALSE; } if ( reply_type == NULL || strcmp( reply_type, "bool" ) != 0 || reply_data == NULL ) { g_free( normalized_signame ); g_free( normalized_slotname ); dcop_data_deref( data ); if ( reply_data != NULL ) dcop_data_deref( reply_data ); return FALSE; } dcop_data_reset( reply_data ); dcop_demarshal_uint8( reply_data, &result ); g_free( normalized_signame ); g_free( normalized_slotname ); dcop_data_deref( data ); dcop_data_deref( reply_data ); if ( result == 0 ) return FALSE; return TRUE; } void dcop_client_set_daemon_mode( DcopClient *client, gboolean daemon ) { gchar *reply_type = 0; dcop_data *reply_data = 0; dcop_data *data = dcop_data_ref( dcop_data_new() ); guint8 idaemon = daemon ? 1 : 0; dcop_marshal_uint8( data, idaemon ); dcop_client_call( client, "DCOPServer", "", "setDaemonMode(bool)", data, &reply_type, &reply_data ); if ( reply_data != NULL ) dcop_data_deref( reply_data ); dcop_data_deref( data ); dcop_free( reply_type ); }