/****************************************************************************** * $Id$ * * Copyright (c) 2007 Transmission authors and contributors * * 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 OR COPYRIGHT HOLDERS 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 #include #include #include #include #include #include "conf.h" #include "tr_core.h" #include "tr_prefs.h" #include "tr_torrent.h" #include "util.h" static void tr_core_marshal_err( GClosure * closure, GValue * ret SHUTUP, guint count, const GValue * vals, gpointer hint SHUTUP, gpointer marshal ) { typedef void (*TRMarshalErr) ( gpointer, enum tr_core_err, const char *, gpointer ); TRMarshalErr callback; GCClosure * cclosure = (GCClosure*) closure; enum tr_core_err errcode; const char * errstr; gpointer inst, gdata; g_return_if_fail( 3 == count ); inst = g_value_peek_pointer( vals ); errcode = g_value_get_int( vals + 1 ); errstr = g_value_get_string( vals + 2 ); gdata = closure->data; callback = (TRMarshalErr) ( NULL == marshal ? cclosure->callback : marshal ); callback( inst, errcode, errstr, gdata ); } static void tr_core_marshal_prompt( GClosure * closure, GValue * ret SHUTUP, guint count, const GValue * vals, gpointer hint SHUTUP, gpointer marshal ) { typedef void (*TRMarshalPrompt) ( gpointer, GList *, enum tr_torrent_action, gboolean, gpointer ); TRMarshalPrompt callback; GCClosure * cclosure = (GCClosure*) closure; GList * paths; enum tr_torrent_action action; gboolean paused; gpointer inst, gdata; g_return_if_fail( 4 == count ); inst = g_value_peek_pointer( vals ); paths = g_value_get_pointer( vals + 1 ); action = g_value_get_int( vals + 2 ); paused = g_value_get_boolean( vals + 3 ); gdata = closure->data; callback = (TRMarshalPrompt) ( NULL == marshal ? cclosure->callback : marshal ); callback( inst, paths, action, paused, gdata ); } static void tr_core_marshal_data( GClosure * closure, GValue * ret SHUTUP, guint count, const GValue * vals, gpointer hint SHUTUP, gpointer marshal ) { typedef void (*TRMarshalPrompt) ( gpointer, uint8_t *, size_t, gboolean, gpointer ); TRMarshalPrompt callback; GCClosure * cclosure = (GCClosure*) closure; uint8_t * data; size_t size; gboolean paused; gpointer inst, gdata; g_return_if_fail( 4 == count ); inst = g_value_peek_pointer( vals ); data = (uint8_t *) g_value_get_string( vals + 1 ); size = g_value_get_uint( vals + 2 ); paused = g_value_get_boolean( vals + 3 ); gdata = closure->data; callback = (TRMarshalPrompt) ( NULL == marshal ? cclosure->callback : marshal ); callback( inst, data, size, paused, gdata ); } static void tr_core_dispose( GObject * obj ) { TrCore * self = (TrCore *) obj; GObjectClass * parent; GtkTreeIter iter; TrTorrent * tor; if( self->disposed ) { return; } self->disposed = TRUE; pref_save( NULL ); #ifdef REFDBG fprintf( stderr, "core %p dispose\n", self ); #endif /* sever all remaining torrents in the model */ if( gtk_tree_model_get_iter_first( self->model, &iter ) ) do { gtk_tree_model_get( self->model, &iter, MC_TORRENT, &tor, -1 ); tr_torrent_sever( tor ); g_object_unref( tor ); } while( gtk_tree_model_iter_next( self->model, &iter ) ); g_object_unref( self->model ); #ifdef REFDBG fprintf( stderr, "core %p dead\n", self ); #endif /* close the libtransmission instance */ tr_close( self->handle ); /* Chain up to the parent class */ parent = g_type_class_peek( g_type_parent( TR_CORE_TYPE ) ); parent->dispose( obj ); } static void tr_core_class_init( gpointer g_class, gpointer g_class_data SHUTUP ) { GObjectClass * gobject_class; TrCoreClass * core_class; gobject_class = G_OBJECT_CLASS( g_class ); gobject_class->dispose = tr_core_dispose; core_class = TR_CORE_CLASS( g_class ); core_class->errsig = g_signal_new( "error", G_TYPE_FROM_CLASS( g_class ), G_SIGNAL_RUN_LAST, 0, NULL, NULL, tr_core_marshal_err, G_TYPE_NONE, 2, G_TYPE_INT, G_TYPE_STRING ); core_class->promptsig = g_signal_new( "directory-prompt", G_TYPE_FROM_CLASS( g_class ), G_SIGNAL_RUN_LAST, 0, NULL, NULL, tr_core_marshal_prompt, G_TYPE_NONE, 3, G_TYPE_POINTER, G_TYPE_INT, G_TYPE_BOOLEAN ); core_class->promptdatasig = g_signal_new( "directory-prompt-data", G_TYPE_FROM_CLASS( g_class ), G_SIGNAL_RUN_LAST, 0, NULL, NULL, tr_core_marshal_data, G_TYPE_NONE, 3, G_TYPE_STRING, G_TYPE_UINT, G_TYPE_BOOLEAN ); core_class->quitsig = g_signal_new( "quit", G_TYPE_FROM_CLASS( g_class ), G_SIGNAL_RUN_LAST, 0, NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0 ); core_class->prefsig = g_signal_new( "prefs-changed", G_TYPE_FROM_CLASS( g_class ), G_SIGNAL_RUN_LAST, 0, NULL, NULL, g_cclosure_marshal_VOID__STRING, G_TYPE_NONE, 1, G_TYPE_STRING ); } static int compareProgress( GtkTreeModel * model, GtkTreeIter * a, GtkTreeIter * b, gpointer user_data UNUSED ) { int ia, ib; gfloat rateUpA, rateUpB; gfloat rateDownA, rateDownB; gfloat percentDoneA, percentDoneB; guint64 uploadedEverA, uploadedEverB; gtk_tree_model_get( model, a, MC_PROG_D, &percentDoneA, MC_DRATE, &rateDownA, MC_URATE, &rateUpA, MC_UP, &uploadedEverA, -1 ); gtk_tree_model_get( model, b, MC_PROG_D, &percentDoneB, MC_DRATE, &rateDownB, MC_URATE, &rateUpB, MC_UP, &uploadedEverB, -1 ); ia = (int)( rateUpA + rateDownA ); ib = (int)( rateUpB + rateDownB ); if( ia != ib ) return ia - ib; ia = (int)( 100.0 * percentDoneA ); ib = (int)( 100.0 * percentDoneB ); if( ia != ib ) return ia - ib; if( uploadedEverA != uploadedEverB ) return uploadedEverA < uploadedEverB ? -1 : 1; return 0; } #define STR_REVERSE "reverse-" #define STR_PROGRESS "progress" #define STR_NAME "name" static void onSortColumnChanged( GtkTreeSortable * sortable, gpointer unused UNUSED ) { int column; GtkSortType order; if( gtk_tree_sortable_get_sort_column_id( sortable, &column, &order ) ) { GString * gstr = g_string_new( NULL ); switch( column ) { case MC_PROG_D: g_string_assign( gstr, STR_PROGRESS ); break; default: g_string_assign( gstr, STR_NAME ); break; } if( order == GTK_SORT_DESCENDING ) g_string_prepend( gstr, STR_REVERSE ); pref_string_set( PREF_KEY_SORT_COLUMN, gstr->str ); g_string_free( gstr, TRUE ); } } void tr_core_set_sort_column_from_prefs( TrCore * core ) { char * val = pref_string_get( PREF_KEY_SORT_COLUMN ); char * freeme = val; gint column; GtkSortType order = GTK_SORT_ASCENDING; if( g_str_has_prefix( val, STR_REVERSE ) ) { order = GTK_SORT_DESCENDING; val += strlen( STR_REVERSE ); } if( !strcmp( val, STR_PROGRESS ) ) column = MC_PROG_D; else /* default */ column = MC_NAME; gtk_tree_sortable_set_sort_column_id ( GTK_TREE_SORTABLE( core->model ), column, order ); g_free( freeme ); } static void tr_core_init( GTypeInstance * instance, gpointer g_class SHUTUP ) { TrCore * self = (TrCore *) instance; GtkListStore * store; /* column types for the model used to store torrent information */ /* keep this in sync with the enum near the bottom of tr_core.h */ GType types[] = { /* info->name, info->totalSize, info->hashString, status, */ G_TYPE_STRING, G_TYPE_UINT64, G_TYPE_STRING, G_TYPE_INT, /* error, errorString, percentComplete, percentDone, rateDownload, rateUpload, */ G_TYPE_INT, G_TYPE_STRING, G_TYPE_FLOAT, G_TYPE_FLOAT, G_TYPE_FLOAT, G_TYPE_FLOAT, /* eta, peersConnected, peersUploading, peersDownloading, seeders, */ G_TYPE_INT, G_TYPE_INT, G_TYPE_INT, G_TYPE_INT, G_TYPE_INT, /* leechers, completedFromTracker, downloaded, uploaded */ G_TYPE_INT, G_TYPE_INT, G_TYPE_UINT64, G_TYPE_UINT64, /* left, TrTorrent object, ID for IPC */ G_TYPE_UINT64, TR_TORRENT_TYPE, G_TYPE_INT, }; #ifdef REFDBG fprintf( stderr, "core %p init\n", self ); #endif /* create the model used to store torrent data */ g_assert( ALEN( types ) == MC_ROW_COUNT ); store = gtk_list_store_newv( MC_ROW_COUNT, types ); g_signal_connect( store, "sort-column-changed", G_CALLBACK(onSortColumnChanged), NULL ); gtk_tree_sortable_set_sort_func( GTK_TREE_SORTABLE(store), MC_PROG_D, compareProgress, NULL, NULL ); self->model = GTK_TREE_MODEL( store ); self->handle = tr_init( "gtk" ); self->nextid = 1; self->quitting = FALSE; self->disposed = FALSE; } GType tr_core_get_type( void ) { static GType type = 0; if( 0 == type ) { static const GTypeInfo info = { sizeof( TrCoreClass ), NULL, /* base_init */ NULL, /* base_finalize */ tr_core_class_init, /* class_init */ NULL, /* class_finalize */ NULL, /* class_data */ sizeof( TrCore ), 0, /* n_preallocs */ tr_core_init, /* instance_init */ NULL, }; type = g_type_register_static( G_TYPE_OBJECT, "TrCore", &info, 0 ); } return type; } /** *** **/ TrCore * tr_core_new( void ) { return g_object_new( TR_CORE_TYPE, NULL ); } GtkTreeModel * tr_core_model( TrCore * self ) { g_return_val_if_fail (TR_IS_CORE(self), NULL); return self->disposed ? NULL : self->model; } tr_handle * tr_core_handle( TrCore * self ) { g_return_val_if_fail (TR_IS_CORE(self), NULL); return self->disposed ? NULL : self->handle; } void tr_core_shutdown( TrCore * self ) { GtkTreeIter iter; TR_IS_CORE( self ); if( self->disposed ) return; g_assert( !self->quitting ); self->quitting = TRUE; /* try to stop all the torrents nicely */ if ( gtk_tree_model_get_iter_first( self->model, &iter) ) do { TrTorrent * tor; gtk_tree_model_get( self->model, &iter, MC_TORRENT, &tor, -1 ); tr_torrent_sever( tor ); g_object_unref( tor ); } while( gtk_list_store_remove( GTK_LIST_STORE(self->model), &iter ) ); /* shut down nat traversal */ tr_natTraversalEnable( self->handle, 0 ); } gboolean tr_core_quiescent( TrCore * self ) { const tr_handle_status * hstat; TR_IS_CORE( self ); g_assert( self->quitting ); if( self->disposed ) return TRUE; if ( tr_torrentCount( self->handle ) != 0 ) return FALSE; hstat = tr_handleStatus( self->handle ); return TR_NAT_TRAVERSAL_DISABLED == hstat->natTraversalStatus; } static void tr_core_insert( TrCore * self, TrTorrent * tor ) { GtkTreeIter iter; const tr_info * inf; gtk_list_store_append( GTK_LIST_STORE( self->model ), &iter ); inf = tr_torrent_info( tor ); gtk_list_store_set( GTK_LIST_STORE( self->model ), &iter, MC_NAME, inf->name, MC_SIZE, inf->totalSize, MC_HASH, inf->hashString, MC_TORRENT, tor, MC_ID, self->nextid, -1); g_object_unref( tor ); self->nextid++; } int tr_core_load( TrCore * self, gboolean paused ) { int i; int count = 0; tr_torrent ** torrents; char * path; TR_IS_CORE( self ); path = getdownloaddir( ); torrents = tr_loadTorrents ( self->handle, path, paused, &count ); for( i=0; ierrsig, 0, type, msg ); } gboolean tr_core_add_dir( TrCore * self, const char * path, const char * dir, enum tr_torrent_action act, gboolean paused ) { TrTorrent * tor; char * errstr; TR_IS_CORE( self ); errstr = NULL; tor = tr_torrent_new( self->handle, path, dir, act, paused, &errstr ); if( NULL == tor ) { tr_core_errsig( self, TR_CORE_ERR_ADD_TORRENT, errstr ); g_free( errstr ); return FALSE; } g_assert( NULL == errstr ); tr_core_insert( self, tor ); return TRUE; } int tr_core_add_list( TrCore * self, GList * paths, enum tr_torrent_action act, gboolean paused ) { char * dir; int count; TR_IS_CORE( self ); if( pref_flag_get( PREF_KEY_DIR_ASK ) ) { TrCoreClass * class = g_type_class_peek( TR_CORE_TYPE ); g_signal_emit( self, class->promptsig, 0, paths, act, paused ); return 0; } dir = getdownloaddir(); count = 0; for( ; paths; paths=paths->next ) if( tr_core_add_dir( self, paths->data, dir, act, paused ) ) count++; g_free( dir ); return count; } gboolean tr_core_add_data( TrCore * self, uint8_t * data, size_t size, gboolean paused ) { gboolean ret; char * path; TR_IS_CORE( self ); if( pref_flag_get( PREF_KEY_DIR_ASK ) ) { TrCoreClass * class = g_type_class_peek( TR_CORE_TYPE ); g_signal_emit( self, class->promptdatasig, 0, data, size, paused ); return FALSE; } path = getdownloaddir( ); ret = tr_core_add_data_dir( self, data, size, path, paused ); g_free( path ); return ret; } gboolean tr_core_add_data_dir( TrCore * self, uint8_t * data, size_t size, const char * dir, gboolean paused ) { TrTorrent * tor; char * errstr = NULL; TR_IS_CORE( self ); tor = tr_torrent_new_with_data( self->handle, data, size, dir, paused, &errstr ); if( NULL == tor ) { tr_core_errsig( self, TR_CORE_ERR_ADD_TORRENT, errstr ); g_free( errstr ); return FALSE; } g_assert( NULL == errstr ); tr_core_insert( self, tor ); return TRUE; } void tr_core_torrents_added( TrCore * self ) { TR_IS_CORE( self ); tr_core_update( self ); tr_core_errsig( self, TR_CORE_ERR_NO_MORE_TORRENTS, NULL ); } void tr_core_delete_torrent( TrCore * self, GtkTreeIter * iter ) { TrTorrent * tor; TR_IS_CORE( self ); gtk_tree_model_get( self->model, iter, MC_TORRENT, &tor, -1 ); gtk_list_store_remove( GTK_LIST_STORE( self->model ), iter ); tr_torrentRemoveSaved( tr_torrent_handle( tor ) ); tr_torrent_sever( tor ); } void tr_core_update( TrCore * self ) { GtkTreeIter iter; TrTorrent * tor; const tr_stat * st; TR_IS_CORE( self ); if( gtk_tree_model_get_iter_first( self->model, &iter ) ) do { gtk_tree_model_get( self->model, &iter, MC_TORRENT, &tor, -1 ); st = tr_torrent_stat( tor ); g_object_unref( tor ); tr_torrent_check_seeding_cap ( tor ); /* XXX find out if setting the same data emits changed signal */ gtk_list_store_set( GTK_LIST_STORE( self->model ), &iter, MC_STAT, st->status, MC_ERR, st->error, MC_TERR, st->errorString, MC_PROG_C, st->percentComplete, MC_PROG_D, st->percentDone, MC_DRATE, st->rateDownload, MC_URATE, st->rateUpload, MC_ETA, st->eta, MC_PEERS, st->peersConnected, MC_UPEERS, st->peersGettingFromUs, MC_DPEERS, st->peersSendingToUs, MC_SEED, st->seeders, MC_LEECH, st->leechers, MC_DONE, st->completedFromTracker, MC_DOWN, st->downloadedEver, MC_UP, st->uploadedEver, MC_LEFT, st->leftUntilDone, -1 ); } while( gtk_tree_model_iter_next( self->model, &iter ) ); } void tr_core_quit( TrCore * self ) { TrCoreClass * class; TR_IS_CORE( self ); class = g_type_class_peek( TR_CORE_TYPE ); g_signal_emit( self, class->quitsig, 0 ); } /** *** Prefs **/ static void commitPrefsChange( TrCore * self, const char * key ) { TrCoreClass * class = g_type_class_peek( TR_CORE_TYPE ); pref_save( NULL ); g_signal_emit( self, class->prefsig, 0, key ); } void tr_core_set_pref( TrCore * self, const char * key, const char * newval ) { char * oldval = pref_string_get( key ); if( tr_strcmp( oldval, newval ) ) { pref_string_set( key, newval ); commitPrefsChange( self, key ); } g_free( oldval ); } void tr_core_set_pref_bool( TrCore * self, const char * key, gboolean newval ) { const gboolean oldval = pref_flag_get( key ); if( oldval != newval ) { pref_flag_set( key, newval ); commitPrefsChange( self, key ); } } void tr_core_set_pref_int( TrCore * self, const char * key, int newval ) { const int oldval = pref_int_get( key ); if( oldval != newval ) { pref_int_set( key, newval ); commitPrefsChange( self, key ); } }