/* Evolution calendar client * * Copyright (C) 2001 Ximian, Inc. * * Author: Federico Mena-Quintero * * This program is free software; you can redistribute it and/or * modify it under the terms of version 2 of the GNU General Public * License as published by the Free Software Foundation. * * 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 HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include "e-util/e-component-listener.h" #include "e-util/e-config-listener.h" #include "e-util/e-url.h" #include "e-util/e-msgport.h" #include "cal-util/cal-util-marshal.h" #include "cal-util/timeutil.h" #include "cal-client.h" #include "cal-listener.h" #include "query-listener.h" typedef struct { EMutex *mutex; pthread_cond_t cond; ECalendarStatus status; char *uid; GList *list; gboolean bool; char *string; CalQuery *query; QueryListener *listener; } ECalendarOp; /* Private part of the CalClient structure */ struct _CalClientPrivate { /* Load state to avoid multiple loads */ CalClientLoadState load_state; /* URI of the calendar that is being loaded or is already loaded, or * NULL if we are not loaded. */ char *uri; CalObjType type; ECalendarOp *current_op; EMutex *mutex; /* Email address associated with this calendar, or NULL */ char *cal_address; char *alarm_email_address; char *ldap_attribute; /* Scheduling info */ char *capabilities; /* The calendar factories we are contacting */ GList *factories; /* Our calendar listener implementation */ CalListener *listener; /* The calendar client interface object we are contacting */ GNOME_Evolution_Calendar_Cal cal; /* The authentication function */ CalClientAuthFunc auth_func; gpointer auth_user_data; /* A cache of timezones retrieved from the server, to avoid getting them repeatedly for each get_object() call. */ GHashTable *timezones; /* The default timezone to use to resolve DATE and floating DATE-TIME values. */ icaltimezone *default_zone; /* The component listener to keep track of the lifetime of backends */ EComponentListener *comp_listener; }; /* Signal IDs */ enum { CAL_OPENED, CAL_SET_MODE, BACKEND_ERROR, CATEGORIES_CHANGED, FORGET_PASSWORD, BACKEND_DIED, LAST_SIGNAL }; static void cal_client_get_object_timezones_cb (icalparameter *param, void *data); static guint cal_client_signals[LAST_SIGNAL]; static GObjectClass *parent_class; #define E_CALENDAR_CHECK_STATUS(status,error) G_STMT_START{ \ if ((status) == E_CALENDAR_STATUS_OK) { \ return TRUE; \ } \ else { \ const char *msg; \ msg = cal_client_get_error_message ((status)); \ g_set_error ((error), E_CALENDAR_ERROR, (status), msg, (status)); \ return FALSE; \ } }G_STMT_END /* Error quark */ GQuark e_calendar_error_quark (void) { static GQuark q = 0; if (q == 0) q = g_quark_from_static_string ("e-calendar-error-quark"); return q; } GType cal_client_open_status_enum_get_type (void) { static GType cal_client_open_status_enum_type = 0; if (!cal_client_open_status_enum_type) { static GEnumValue values [] = { { CAL_CLIENT_OPEN_SUCCESS, "CalClientOpenSuccess", "success" }, { CAL_CLIENT_OPEN_ERROR, "CalClientOpenError", "error" }, { CAL_CLIENT_OPEN_NOT_FOUND, "CalClientOpenNotFound", "not-found" }, { CAL_CLIENT_OPEN_PERMISSION_DENIED, "CalClientOpenPermissionDenied", "denied" }, { CAL_CLIENT_OPEN_METHOD_NOT_SUPPORTED, "CalClientOpenMethodNotSupported", "unsupported" }, { -1, NULL, NULL } }; cal_client_open_status_enum_type = g_enum_register_static ("CalClientOpenStatusEnum", values); } return cal_client_open_status_enum_type; } GType cal_client_set_mode_status_enum_get_type (void) { static GType cal_client_set_mode_status_enum_type = 0; if (!cal_client_set_mode_status_enum_type) { static GEnumValue values [] = { { CAL_CLIENT_SET_MODE_SUCCESS, "CalClientSetModeSuccess", "success" }, { CAL_CLIENT_SET_MODE_ERROR, "CalClientSetModeError", "error" }, { CAL_CLIENT_SET_MODE_NOT_SUPPORTED, "CalClientSetModeNotSupported", "unsupported" }, { -1, NULL, NULL } }; cal_client_set_mode_status_enum_type = g_enum_register_static ("CalClientSetModeStatusEnum", values); } return cal_client_set_mode_status_enum_type; } GType cal_mode_enum_get_type (void) { static GType cal_mode_enum_type = 0; if (!cal_mode_enum_type) { static GEnumValue values [] = { { CAL_MODE_INVALID, "CalModeInvalid", "invalid" }, { CAL_MODE_LOCAL, "CalModeLocal", "local" }, { CAL_MODE_REMOTE, "CalModeRemote", "remote" }, { CAL_MODE_ANY, "CalModeAny", "any" }, { -1, NULL, NULL } }; cal_mode_enum_type = g_enum_register_static ("CalModeEnum", values); } return cal_mode_enum_type; } /* EBookOp calls */ static ECalendarOp* e_calendar_new_op (CalClient *client) { ECalendarOp *op = g_new0 (ECalendarOp, 1); op->mutex = e_mutex_new (E_MUTEX_SIMPLE); pthread_cond_init (&op->cond, 0); client->priv->current_op = op; return op; } static ECalendarOp* e_calendar_get_op (CalClient *client) { if (!client->priv->current_op) { g_warning (G_STRLOC ": Unexpected response"); return NULL; } return client->priv->current_op; } static void e_calendar_free_op (ECalendarOp *op) { /* XXX more stuff here */ pthread_cond_destroy (&op->cond); e_mutex_destroy (op->mutex); g_free (op); } static void e_calendar_remove_op (CalClient *client, ECalendarOp *op) { if (client->priv->current_op != op) g_warning (G_STRLOC ": Cannot remove op, it's not current"); client->priv->current_op = NULL; } /* Gets rid of the factories that a client knows about */ static void destroy_factories (CalClient *client) { CalClientPrivate *priv; CORBA_Object factory; CORBA_Environment ev; int result; GList *f; priv = client->priv; CORBA_exception_init (&ev); for (f = priv->factories; f; f = f->next) { factory = f->data; result = CORBA_Object_is_nil (factory, &ev); if (BONOBO_EX (&ev)) { g_message ("destroy_factories(): could not see if a factory was nil"); CORBA_exception_free (&ev); continue; } if (result) continue; CORBA_Object_release (factory, &ev); if (BONOBO_EX (&ev)) { g_message ("destroy_factories(): could not release a factory"); CORBA_exception_free (&ev); } } g_list_free (priv->factories); priv->factories = NULL; } /* Gets rid of the calendar client interface object that a client knows about */ static void destroy_cal (CalClient *client) { CalClientPrivate *priv; CORBA_Environment ev; int result; priv = client->priv; CORBA_exception_init (&ev); result = CORBA_Object_is_nil (priv->cal, &ev); if (BONOBO_EX (&ev)) { g_message (G_STRLOC ": could not see if the " "calendar client interface object was nil"); priv->cal = CORBA_OBJECT_NIL; CORBA_exception_free (&ev); return; } CORBA_exception_free (&ev); if (result) return; bonobo_object_release_unref (priv->cal, NULL); priv->cal = CORBA_OBJECT_NIL; } static void free_timezone (gpointer key, gpointer value, gpointer data) { /* Note that the key comes from within the icaltimezone value, so we don't free that. */ icaltimezone_free (value, TRUE); } static void backend_died_cb (EComponentListener *cl, gpointer user_data) { CalClientPrivate *priv; CalClient *client = (CalClient *) user_data; g_return_if_fail (IS_CAL_CLIENT (client)); priv = client->priv; priv->load_state = CAL_CLIENT_LOAD_NOT_LOADED; g_signal_emit (G_OBJECT (client), cal_client_signals[BACKEND_DIED], 0); } /* Signal handlers for the listener's signals */ /* Handle the cal_opened notification from the listener */ static void cal_read_only_cb (CalListener *listener, ECalendarStatus status, gboolean read_only, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->bool = read_only; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_cal_address_cb (CalListener *listener, ECalendarStatus status, const char *address, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->string = g_strdup (address); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_alarm_address_cb (CalListener *listener, ECalendarStatus status, const char *address, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->string = g_strdup (address); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_ldap_attribute_cb (CalListener *listener, ECalendarStatus status, const char *attribute, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->string = g_strdup (attribute); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_static_capabilities_cb (CalListener *listener, ECalendarStatus status, const char *capabilities, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->string = g_strdup (capabilities); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_opened_cb (CalListener *listener, ECalendarStatus status, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_removed_cb (CalListener *listener, ECalendarStatus status, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_object_created_cb (CalListener *listener, ECalendarStatus status, const char *uid, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->uid = g_strdup (uid); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_object_modified_cb (CalListener *listener, ECalendarStatus status, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_object_removed_cb (CalListener *listener, ECalendarStatus status, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_alarm_discarded_cb (CalListener *listener, ECalendarStatus status, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_objects_received_cb (CalListener *listener, ECalendarStatus status, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_objects_sent_cb (CalListener *listener, ECalendarStatus status, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_default_object_requested_cb (CalListener *listener, ECalendarStatus status, const char *object, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->string = g_strdup (object); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_object_requested_cb (CalListener *listener, ECalendarStatus status, const char *object, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->string = g_strdup (object); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_object_list_cb (CalListener *listener, ECalendarStatus status, GList *objects, gpointer data) { CalClient *client = data; ECalendarOp *op; GList *l; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->list = g_list_copy (objects); for (l = op->list; l; l = l->next) l->data = icalcomponent_new_clone (l->data); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_get_timezone_cb (CalListener *listener, ECalendarStatus status, const char *object, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->string = g_strdup (object); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_add_timezone_cb (CalListener *listener, ECalendarStatus status, const char *tzid, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->uid = g_strdup (tzid); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_set_default_timezone_cb (CalListener *listener, ECalendarStatus status, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_get_changes_cb (CalListener *listener, ECalendarStatus status, GList *changes, gpointer data) { CalClient *client = data; ECalendarOp *op; GList *l; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->list = g_list_copy (changes); for (l = op->list; l; l = l->next) { CalClientChange *ccc = l->data, *new_ccc; new_ccc = g_new (CalClientChange, 1); new_ccc->comp = cal_component_clone (ccc->comp); new_ccc->type = ccc->type; l->data = new_ccc; } pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_get_free_busy_cb (CalListener *listener, ECalendarStatus status, GList *freebusy, gpointer data) { CalClient *client = data; ECalendarOp *op; GList *l; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->list = g_list_copy (freebusy); for (l = op->list; l; l = l->next) l->data = cal_component_clone (l->data); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } static void cal_query_cb (CalListener *listener, ECalendarStatus status, GNOME_Evolution_Calendar_Query query, gpointer data) { CalClient *client = data; ECalendarOp *op; op = e_calendar_get_op (client); if (op == NULL) { g_warning (G_STRLOC ": Cannot find operation "); return; } e_mutex_lock (op->mutex); op->status = status; op->query = cal_query_new (query, op->listener, client); pthread_cond_signal (&op->cond); e_mutex_unlock (op->mutex); } /* Handle the cal_set_mode notification from the listener */ static void cal_set_mode_cb (CalListener *listener, GNOME_Evolution_Calendar_Listener_SetModeStatus status, GNOME_Evolution_Calendar_CalMode mode, gpointer data) { CalClient *client; CalClientPrivate *priv; CalClientSetModeStatus client_status; client = CAL_CLIENT (data); priv = client->priv; client_status = CAL_CLIENT_OPEN_ERROR; switch (status) { case GNOME_Evolution_Calendar_Listener_MODE_SET: client_status = CAL_CLIENT_SET_MODE_SUCCESS; break; case GNOME_Evolution_Calendar_Listener_MODE_NOT_SET: client_status = CAL_CLIENT_SET_MODE_ERROR; break; case GNOME_Evolution_Calendar_Listener_MODE_NOT_SUPPORTED: client_status = CAL_CLIENT_SET_MODE_NOT_SUPPORTED; break; default: g_assert_not_reached (); } /* We are *not* inside a signal handler (this is just a simple callback * called from the listener), so there is not a temporary reference to * the client object. We ref() so that we can safely emit our own * signal and clean up. */ g_object_ref (G_OBJECT (client)); g_signal_emit (G_OBJECT (client), cal_client_signals[CAL_SET_MODE], 0, client_status, mode); g_object_unref (G_OBJECT (client)); } /* Handle the error_occurred signal from the listener */ static void backend_error_cb (CalListener *listener, const char *message, gpointer data) { CalClient *client; client = CAL_CLIENT (data); g_signal_emit (G_OBJECT (client), cal_client_signals[BACKEND_ERROR], 0, message); } /* Handle the categories_changed signal from the listener */ static void categories_changed_cb (CalListener *listener, const GNOME_Evolution_Calendar_StringSeq *categories, gpointer data) { CalClient *client; GPtrArray *cats; int i; client = CAL_CLIENT (data); cats = g_ptr_array_new (); g_ptr_array_set_size (cats, categories->_length); for (i = 0; i < categories->_length; i++) cats->pdata[i] = categories->_buffer[i]; g_signal_emit (G_OBJECT (client), cal_client_signals[CATEGORIES_CHANGED], 0, cats); g_ptr_array_free (cats, TRUE); } static gboolean get_factories (const char *str_uri, GList **factories) { GNOME_Evolution_Calendar_CalFactory factory; Bonobo_ServerInfoList *servers; EUri *uri; char *query; int i; /* Determine the protocol and query for factory supporting that */ uri = e_uri_new (str_uri); if (!uri) { g_warning (G_STRLOC ": Invalid uri string"); return FALSE; } query = g_strdup_printf ("repo_ids.has ('IDL:GNOME/Evolution/Calendar/CalFactory:1.0')" " AND calendar:supported_protocols.has ('%s')", uri->protocol); servers = bonobo_activation_query (query, NULL, NULL); g_free (query); e_uri_free (uri); if (!servers) { g_warning (G_STRLOC ": Unable to query for calendar factories"); return FALSE; } /* Try to activate the servers for the protocol */ for (i = 0; i < servers->_length; i++) { const Bonobo_ServerInfo *info; info = servers->_buffer + i; g_message (G_STRLOC ": Activating calendar factory (%s)", info->iid); factory = bonobo_activation_activate_from_id (info->iid, 0, NULL, NULL); if (factory == CORBA_OBJECT_NIL) g_warning (G_STRLOC ": Could not activate calendar factory (%s)", info->iid); else *factories = g_list_append (*factories, factory); } CORBA_free (servers); return TRUE; } /* Object initialization function for the calendar client */ static void cal_client_init (CalClient *client, CalClientClass *klass) { CalClientPrivate *priv; priv = g_new0 (CalClientPrivate, 1); client->priv = priv; priv->load_state = CAL_CLIENT_LOAD_NOT_LOADED; priv->uri = NULL; priv->mutex = e_mutex_new (E_MUTEX_REC); priv->listener = cal_listener_new (cal_set_mode_cb, backend_error_cb, categories_changed_cb, client); priv->cal_address = NULL; priv->alarm_email_address = NULL; priv->ldap_attribute = NULL; priv->capabilities = FALSE; priv->factories = NULL; priv->timezones = g_hash_table_new (g_str_hash, g_str_equal); priv->default_zone = icaltimezone_get_utc_timezone (); priv->comp_listener = NULL; g_signal_connect (G_OBJECT (priv->listener), "read_only", G_CALLBACK (cal_read_only_cb), client); g_signal_connect (G_OBJECT (priv->listener), "cal_address", G_CALLBACK (cal_cal_address_cb), client); g_signal_connect (G_OBJECT (priv->listener), "alarm_address", G_CALLBACK (cal_alarm_address_cb), client); g_signal_connect (G_OBJECT (priv->listener), "ldap_attribute", G_CALLBACK (cal_ldap_attribute_cb), client); g_signal_connect (G_OBJECT (priv->listener), "static_capabilities", G_CALLBACK (cal_static_capabilities_cb), client); g_signal_connect (G_OBJECT (priv->listener), "open", G_CALLBACK (cal_opened_cb), client); g_signal_connect (G_OBJECT (priv->listener), "remove", G_CALLBACK (cal_removed_cb), client); g_signal_connect (G_OBJECT (priv->listener), "create_object", G_CALLBACK (cal_object_created_cb), client); g_signal_connect (G_OBJECT (priv->listener), "modify_object", G_CALLBACK (cal_object_modified_cb), client); g_signal_connect (G_OBJECT (priv->listener), "remove_object", G_CALLBACK (cal_object_removed_cb), client); g_signal_connect (G_OBJECT (priv->listener), "discard_alarm", G_CALLBACK (cal_alarm_discarded_cb), client); g_signal_connect (G_OBJECT (priv->listener), "receive_objects", G_CALLBACK (cal_objects_received_cb), client); g_signal_connect (G_OBJECT (priv->listener), "send_objects", G_CALLBACK (cal_objects_sent_cb), client); g_signal_connect (G_OBJECT (priv->listener), "default_object", G_CALLBACK (cal_default_object_requested_cb), client); g_signal_connect (G_OBJECT (priv->listener), "object", G_CALLBACK (cal_object_requested_cb), client); g_signal_connect (G_OBJECT (priv->listener), "object_list", G_CALLBACK (cal_object_list_cb), client); g_signal_connect (G_OBJECT (priv->listener), "get_timezone", G_CALLBACK (cal_get_timezone_cb), client); g_signal_connect (G_OBJECT (priv->listener), "add_timezone", G_CALLBACK (cal_add_timezone_cb), client); g_signal_connect (G_OBJECT (priv->listener), "set_default_timezone", G_CALLBACK (cal_set_default_timezone_cb), client); g_signal_connect (G_OBJECT (priv->listener), "get_changes", G_CALLBACK (cal_get_changes_cb), client); g_signal_connect (G_OBJECT (priv->listener), "get_free_busy", G_CALLBACK (cal_get_free_busy_cb), client); g_signal_connect (G_OBJECT (priv->listener), "query", G_CALLBACK (cal_query_cb), client); } /* Finalize handler for the calendar client */ static void cal_client_finalize (GObject *object) { CalClient *client; CalClientPrivate *priv; g_return_if_fail (object != NULL); g_return_if_fail (IS_CAL_CLIENT (object)); client = CAL_CLIENT (object); priv = client->priv; if (priv->listener) { cal_listener_stop_notification (priv->listener); bonobo_object_unref (priv->listener); priv->listener = NULL; } if (priv->comp_listener) { g_signal_handlers_disconnect_matched (G_OBJECT (priv->comp_listener), G_SIGNAL_MATCH_DATA, 0, 0, NULL, NULL, client); g_object_unref (G_OBJECT (priv->comp_listener)); priv->comp_listener = NULL; } destroy_factories (client); destroy_cal (client); priv->load_state = CAL_CLIENT_LOAD_NOT_LOADED; if (priv->uri) { g_free (priv->uri); priv->uri = NULL; } if (priv->mutex) { e_mutex_destroy (priv->mutex); priv->mutex = NULL; } if (priv->cal_address) { g_free (priv->cal_address); priv->cal_address = NULL; } if (priv->alarm_email_address) { g_free (priv->alarm_email_address); priv->alarm_email_address = NULL; } if (priv->ldap_attribute) { g_free (priv->ldap_attribute); priv->ldap_attribute = NULL; } if (priv->capabilities) { g_free (priv->capabilities); priv->capabilities = NULL; } g_hash_table_foreach (priv->timezones, free_timezone, NULL); g_hash_table_destroy (priv->timezones); priv->timezones = NULL; g_free (priv); client->priv = NULL; if (G_OBJECT_CLASS (parent_class)->finalize) (* G_OBJECT_CLASS (parent_class)->finalize) (object); } /* Class initialization function for the calendar client */ static void cal_client_class_init (CalClientClass *klass) { GObjectClass *object_class; object_class = (GObjectClass *) klass; parent_class = g_type_class_peek_parent (klass); cal_client_signals[CAL_OPENED] = g_signal_new ("cal_opened", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_FIRST, G_STRUCT_OFFSET (CalClientClass, cal_opened), NULL, NULL, g_cclosure_marshal_VOID__ENUM, G_TYPE_NONE, 1, CAL_CLIENT_OPEN_STATUS_ENUM_TYPE); cal_client_signals[CAL_SET_MODE] = g_signal_new ("cal_set_mode", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_FIRST, G_STRUCT_OFFSET (CalClientClass, cal_set_mode), NULL, NULL, cal_util_marshal_VOID__ENUM_ENUM, G_TYPE_NONE, 2, CAL_CLIENT_SET_MODE_STATUS_ENUM_TYPE, CAL_MODE_ENUM_TYPE); cal_client_signals[BACKEND_ERROR] = g_signal_new ("backend_error", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_FIRST, G_STRUCT_OFFSET (CalClientClass, backend_error), NULL, NULL, g_cclosure_marshal_VOID__STRING, G_TYPE_NONE, 1, G_TYPE_STRING); cal_client_signals[CATEGORIES_CHANGED] = g_signal_new ("categories_changed", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_FIRST, G_STRUCT_OFFSET (CalClientClass, categories_changed), NULL, NULL, g_cclosure_marshal_VOID__POINTER, G_TYPE_NONE, 1, G_TYPE_POINTER); cal_client_signals[FORGET_PASSWORD] = g_signal_new ("forget_password", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_FIRST, G_STRUCT_OFFSET (CalClientClass, forget_password), NULL, NULL, g_cclosure_marshal_VOID__STRING, G_TYPE_NONE, 1, G_TYPE_STRING); cal_client_signals[BACKEND_DIED] = g_signal_new ("backend_died", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_FIRST, G_STRUCT_OFFSET (CalClientClass, backend_died), NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); klass->cal_opened = NULL; klass->categories_changed = NULL; klass->forget_password = NULL; klass->backend_died = NULL; object_class->finalize = cal_client_finalize; } /** * cal_client_get_type: * * Registers the #CalClient class if necessary, and returns the type ID assigned * to it. * * Return value: The type ID of the #CalClient class. **/ GType cal_client_get_type (void) { static GType cal_client_type = 0; if (!cal_client_type) { static GTypeInfo info = { sizeof (CalClientClass), (GBaseInitFunc) NULL, (GBaseFinalizeFunc) NULL, (GClassInitFunc) cal_client_class_init, NULL, NULL, sizeof (CalClient), 0, (GInstanceInitFunc) cal_client_init }; cal_client_type = g_type_register_static (G_TYPE_OBJECT, "CalClient", &info, 0); } return cal_client_type; } static gboolean fetch_corba_cal (CalClient *client, const char *str_uri, CalObjType type) { CalClientPrivate *priv; GList *f; CORBA_Environment ev; priv = client->priv; g_return_val_if_fail (priv->load_state == CAL_CLIENT_LOAD_NOT_LOADED, FALSE); g_assert (priv->uri == NULL); g_return_val_if_fail (str_uri != NULL, FALSE); if (!get_factories (str_uri, &priv->factories)) return FALSE; priv->uri = g_strdup (str_uri); priv->type = type; for (f = priv->factories; f; f = f->next) { GNOME_Evolution_Calendar_Cal cal; CORBA_exception_init (&ev); cal = GNOME_Evolution_Calendar_CalFactory_getCal (f->data, priv->uri, priv->type, BONOBO_OBJREF (priv->listener), &ev); if (BONOBO_EX (&ev)) continue; priv->cal = cal; return TRUE; } return FALSE; } /** * cal_client_new: * * Creates a new calendar client. It should be initialized by calling * cal_client_open(). * * Return value: A newly-created calendar client, or NULL if the client could * not be constructed because it could not contact the calendar server. **/ CalClient * cal_client_new (const char *uri, CalObjType type) { CalClient *client; client = g_object_new (CAL_CLIENT_TYPE, NULL); if (!fetch_corba_cal (client, uri, type)) { g_object_unref (client); return NULL; } return client; } /** * cal_client_set_auth_func * @client: A calendar client. * @func: The authentication function * @data: User data to be used when calling the authentication function * * Associates the given authentication function with a calendar client. This * function will be called any time the calendar server needs a password * from the client. So, calendar clients should provide such authentication * function, which, when called, should act accordingly (by showing a dialog * box, for example, to ask the user for the password). * * The authentication function must have the following form: * char * auth_func (CalClient *client, * const gchar *prompt, * const gchar *key, * gpointer user_data) */ void cal_client_set_auth_func (CalClient *client, CalClientAuthFunc func, gpointer data) { g_return_if_fail (client != NULL); g_return_if_fail (IS_CAL_CLIENT (client)); client->priv->auth_func = func; client->priv->auth_user_data = data; } /** * cal_client_open * @client: A calendar client. * @str_uri: URI of calendar to open. * @only_if_exists: FALSE if the calendar should be opened even if there * was no storage for it, i.e. to create a new calendar or load an existing * one if it already exists. TRUE if it should only try to load calendars * that already exist. * * Makes a calendar client initiate a request to open a calendar. The calendar * client will emit the "cal_opened" signal when the response from the server is * received. * * Return value: TRUE on success, FALSE on failure to issue the open request. **/ gboolean cal_client_open (CalClient *client, gboolean only_if_exists, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); priv->load_state = CAL_CLIENT_LOAD_LOADING; GNOME_Evolution_Calendar_Cal_open (priv->cal, only_if_exists, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); g_signal_emit (G_OBJECT (client), cal_client_signals[CAL_OPENED], 0, E_CALENDAR_STATUS_CORBA_EXCEPTION); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); if (status == E_CALENDAR_STATUS_OK) priv->load_state = CAL_CLIENT_LOAD_LOADED; else priv->load_state = CAL_CLIENT_LOAD_NOT_LOADED; g_signal_emit (G_OBJECT (client), cal_client_signals[CAL_OPENED], 0, status); E_CALENDAR_CHECK_STATUS (status, error); } typedef struct { CalClient *client; gboolean exists; } CalClientAsyncData; static gboolean open_async (gpointer data) { CalClientAsyncData *ccad = data; GError *error = NULL; cal_client_open (ccad->client, ccad->exists, &error); g_clear_error (&error); g_object_unref (ccad); g_free (ccad); return FALSE; } void cal_client_open_async (CalClient *client, gboolean only_if_exists) { CalClientAsyncData *ccad; g_return_if_fail (client != NULL); g_return_if_fail (IS_CAL_CLIENT (client)); ccad = g_new0 (CalClientAsyncData, 1); ccad->client = g_object_ref (client); ccad->exists = only_if_exists; /* FIXME This should really spawn a new thread */ g_idle_add (open_async, ccad); } gboolean cal_client_remove_calendar (CalClient *client, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_remove (priv->cal, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } #if 0 /* Builds an URI list out of a CORBA string sequence */ static GList * build_uri_list (GNOME_Evolution_Calendar_StringSeq *seq) { GList *uris = NULL; int i; for (i = 0; i < seq->_length; i++) uris = g_list_prepend (uris, g_strdup (seq->_buffer[i])); return uris; } #endif /** * cal_client_uri_list: * @client: A calendar client * @type: type of uri's to get * * * Return value: A list of URI's open on the wombat **/ GList * cal_client_uri_list (CalClient *client, CalMode mode) { #if 0 CalClientPrivate *priv; GNOME_Evolution_Calendar_StringSeq *uri_seq; GList *uris = NULL; CORBA_Environment ev; GList *f; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; for (f = priv->factories; f; f = f->next) { CORBA_exception_init (&ev); uri_seq = GNOME_Evolution_Calendar_CalFactory_uriList (f->data, mode, &ev); if (BONOBO_EX (&ev)) { g_message ("cal_client_uri_list(): request failed"); /* free memory and return */ g_list_foreach (uris, (GFunc) g_free, NULL); g_list_free (uris); uris = NULL; break; } else { uris = g_list_concat (uris, build_uri_list (uri_seq)); CORBA_free (uri_seq); } CORBA_exception_free (&ev); } return uris; #endif return NULL; } /** * cal_client_get_load_state: * @client: A calendar client. * * Queries the state of loading of a calendar client. * * Return value: A #CalClientLoadState value indicating whether the client has * not been loaded with cal_client_open_calendar() yet, whether it is being * loaded, or whether it is already loaded. **/ CalClientLoadState cal_client_get_load_state (CalClient *client) { CalClientPrivate *priv; g_return_val_if_fail (client != NULL, CAL_CLIENT_LOAD_NOT_LOADED); g_return_val_if_fail (IS_CAL_CLIENT (client), CAL_CLIENT_LOAD_NOT_LOADED); priv = client->priv; return priv->load_state; } /** * cal_client_get_uri: * @client: A calendar client. * * Queries the URI that is open in a calendar client. * * Return value: The URI of the calendar that is already loaded or is being * loaded, or NULL if the client has not started a load request yet. **/ const char * cal_client_get_uri (CalClient *client) { CalClientPrivate *priv; g_return_val_if_fail (client != NULL, NULL); g_return_val_if_fail (IS_CAL_CLIENT (client), NULL); priv = client->priv; return priv->uri; } /** * cal_client_is_read_only: * @client: A calendar client. * * Queries whether the calendar client can perform modifications * on the calendar or not. Whether the backend is read only or not * is specified, on exit, in the @read_only argument. * * Return value: TRUE if the call was successful, FALSE if there was an error. */ gboolean cal_client_is_read_only (CalClient *client, gboolean *read_only, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_isReadOnly (priv->cal, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *read_only = our_op->bool; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); return status; } /** * cal_client_get_cal_address: * @client: A calendar client. * * Queries the calendar address associated with a calendar client. * * Return value: The calendar address associated with the calendar that * is loaded or being loaded, or %NULL if the client has not started a * load request yet or the calendar has no associated email address. **/ gboolean cal_client_get_cal_address (CalClient *client, char **cal_address, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getCalAddress (priv->cal, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *cal_address = our_op->string; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } gboolean cal_client_get_alarm_email_address (CalClient *client, char **alarm_address, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getAlarmEmailAddress (priv->cal, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *alarm_address = our_op->string; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } gboolean cal_client_get_ldap_attribute (CalClient *client, char **ldap_attribute, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getLdapAttribute (priv->cal, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *ldap_attribute = our_op->string; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } static gboolean load_static_capabilities (CalClient *client, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; char *cap; priv = client->priv; if (priv->capabilities) E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_OK, error); e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getStaticCapabilities (priv->cal, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; cap = our_op->string; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } static gboolean check_capability (CalClient *client, const char *cap) { CalClientPrivate *priv; priv = client->priv; /* FIXME Check result */ load_static_capabilities (client, NULL); if (priv->capabilities && strstr (priv->capabilities, cap)) return TRUE; return FALSE; } gboolean cal_client_get_one_alarm_only (CalClient *client) { g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); return check_capability (client, CAL_STATIC_CAPABILITY_ONE_ALARM_ONLY); } gboolean cal_client_get_organizer_must_attend (CalClient *client) { g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); return check_capability (client, CAL_STATIC_CAPABILITY_ORGANIZER_MUST_ATTEND); } gboolean cal_client_get_static_capability (CalClient *client, const char *cap) { g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); return check_capability (client, cap); } gboolean cal_client_get_save_schedules (CalClient *client) { g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); return check_capability (client, CAL_STATIC_CAPABILITY_SAVE_SCHEDULES); } gboolean cal_client_set_mode (CalClient *client, CalMode mode) { CalClientPrivate *priv; gboolean retval = TRUE; CORBA_Environment ev; g_return_val_if_fail (client != NULL, -1); g_return_val_if_fail (IS_CAL_CLIENT (client), -1); priv = client->priv; g_return_val_if_fail (priv->load_state == CAL_CLIENT_LOAD_LOADED, -1); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_setMode (priv->cal, mode, &ev); if (BONOBO_EX (&ev)) retval = FALSE; CORBA_exception_free (&ev); return retval; } /* This is used in the callback which fetches all the timezones needed for an object. */ typedef struct _CalClientGetTimezonesData CalClientGetTimezonesData; struct _CalClientGetTimezonesData { CalClient *client; /* This starts out at E_CALENDAR_STATUS_OK. If an error occurs this contains the last error. */ ECalendarStatus status; }; gboolean cal_client_get_default_object (CalClient *client, icalcomponent **icalcomp, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getDefaultObject (priv->cal, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *icalcomp = icalparser_parse_string (our_op->string); g_free (our_op->string); if (!*icalcomp) { status = E_CALENDAR_STATUS_INVALID_OBJECT; } else { CalClientGetTimezonesData cb_data; /* Now make sure we have all timezones needed for this object. We do this to try to avoid any problems caused by getting a timezone in the middle of other code. Any calls to ORBit result in a recursive call of the GTK+ main loop, which can cause problems for code that doesn't expect it. Currently GnomeCanvas has problems if we try to get a timezone in the middle of a redraw, and there is a resize pending, which leads to an assert failure and an abort. */ cb_data.client = client; cb_data.status = E_CALENDAR_STATUS_OK; icalcomponent_foreach_tzid (*icalcomp, cal_client_get_object_timezones_cb, &cb_data); status = cb_data.status; } e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } /** * cal_client_get_object: * @client: A calendar client. * @uid: Unique identifier for a calendar component. * @icalcomp: Return value for the calendar component object. * * Queries a calendar for a calendar component object based on its unique * identifier. * * Return value: Result code based on the status of the operation. **/ gboolean cal_client_get_object (CalClient *client, const char *uid, const char *rid, icalcomponent **icalcomp, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getObject (priv->cal, uid, rid ? rid : "", &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *icalcomp = icalparser_parse_string (our_op->string); g_free (our_op->string); if (status == E_CALENDAR_STATUS_OK && !*icalcomp) { status = E_CALENDAR_STATUS_INVALID_OBJECT; } else if (status == E_CALENDAR_STATUS_OK){ CalClientGetTimezonesData cb_data; /* Now make sure we have all timezones needed for this object. We do this to try to avoid any problems caused by getting a timezone in the middle of other code. Any calls to ORBit result in a recursive call of the GTK+ main loop, which can cause problems for code that doesn't expect it. Currently GnomeCanvas has problems if we try to get a timezone in the middle of a redraw, and there is a resize pending, which leads to an assert failure and an abort. */ cb_data.client = client; cb_data.status = E_CALENDAR_STATUS_OK; icalcomponent_foreach_tzid (*icalcomp, cal_client_get_object_timezones_cb, &cb_data); status = cb_data.status; } e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } static void cal_client_get_object_timezones_cb (icalparameter *param, void *data) { CalClientGetTimezonesData *cb_data = data; const char *tzid; icaltimezone *zone; GError *error = NULL; tzid = icalparameter_get_tzid (param); if (!tzid) { cb_data->status = E_CALENDAR_STATUS_INVALID_OBJECT; return; } if (!cal_client_get_timezone (cb_data->client, tzid, &zone, &error)) cb_data->status = error->code; g_clear_error (&error); } /* Resolves TZIDs for the recurrence generator. */ icaltimezone* cal_client_resolve_tzid_cb (const char *tzid, gpointer data) { CalClient *client; icaltimezone *zone = NULL; g_return_val_if_fail (data != NULL, NULL); g_return_val_if_fail (IS_CAL_CLIENT (data), NULL); client = CAL_CLIENT (data); /* FIXME: Handle errors. */ cal_client_get_timezone (client, tzid, &zone, NULL); return zone; } gboolean cal_client_get_changes (CalClient *client, CalObjType type, const char *change_id, GList **changes, GError **error) { CORBA_Environment ev; ECalendarOp *our_op; ECalendarStatus status; g_return_val_if_fail (client != NULL, E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (IS_CAL_CLIENT (client), E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (change_id != NULL, E_CALENDAR_STATUS_INVALID_ARG); e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getChanges (client->priv->cal, type, change_id, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *changes = our_op->list; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } /** * cal_client_get_object_list: * @client: * @query: * * * * Return value: **/ gboolean cal_client_get_object_list (CalClient *client, const char *query, GList **objects, GError **error) { CORBA_Environment ev; ECalendarOp *our_op; ECalendarStatus status; g_return_val_if_fail (client != NULL, E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (IS_CAL_CLIENT (client), E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (query != NULL, E_CALENDAR_STATUS_INVALID_ARG); e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getObjectList (client->priv->cal, query, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *objects = our_op->list; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } gboolean cal_client_get_object_list_as_comp (CalClient *client, const char *query, GList **objects, GError **error) { GList *ical_objects = NULL; GList *l; g_return_val_if_fail (client != NULL, E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (IS_CAL_CLIENT (client), E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (query != NULL, E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (objects != NULL, E_CALENDAR_STATUS_INVALID_ARG); if (!cal_client_get_object_list (client, query, &ical_objects, error)) return FALSE; *objects = NULL; for (l = ical_objects; l; l = l->next) { CalComponent *comp; comp = cal_component_new (); cal_component_set_icalcomponent (comp, l->data); *objects = g_list_prepend (*objects, comp); } g_list_free (ical_objects); return TRUE; } void cal_client_free_object_list (GList *objects) { GList *l; for (l = objects; l; l = l->next) icalcomponent_free (l->data); g_list_free (objects); } /** * cal_client_get_free_busy * @client:: A calendar client. * @users: List of users to retrieve free/busy information for. * @start: Start time for query. * @end: End time for query. * * Gets free/busy information from the calendar server. * * Returns: a GList of VFREEBUSY CalComponents */ gboolean cal_client_get_free_busy (CalClient *client, GList *users, time_t start, time_t end, GList **freebusy, GError **error) { CORBA_Environment ev; ECalendarOp *our_op; ECalendarStatus status; GNOME_Evolution_Calendar_UserList corba_users; GList *l; int i, len; g_return_val_if_fail (client != NULL, E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (IS_CAL_CLIENT (client), E_CALENDAR_STATUS_INVALID_ARG); e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); /* create the CORBA user list to be passed to the backend */ len = g_list_length (users); corba_users._length = len; corba_users._buffer = CORBA_sequence_GNOME_Evolution_Calendar_User_allocbuf (len); for (l = users, i = 0; l; l = l->next, i++) corba_users._buffer[i] = CORBA_string_dup (l->data); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getFreeBusy (client->priv->cal, &corba_users, start, end, &ev); CORBA_free (corba_users._buffer); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *freebusy = NULL; for (l = our_op->list; l; l = l->next) { CalComponent *comp; icalcomponent *icalcomp; icalcomponent_kind kind; icalcomp = icalparser_parse_string (l->data); if (!icalcomp) continue; kind = icalcomponent_isa (icalcomp); if (kind == ICAL_VFREEBUSY_COMPONENT) { comp = cal_component_new (); if (!cal_component_set_icalcomponent (comp, icalcomp)) { icalcomponent_free (icalcomp); g_object_unref (G_OBJECT (comp)); continue; } *freebusy = g_list_append (*freebusy, comp); } else icalcomponent_free (icalcomp); } e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } struct comp_instance { CalComponent *comp; time_t start; time_t end; }; /* Called from cal_recur_generate_instances(); adds an instance to the list */ static gboolean add_instance (CalComponent *comp, time_t start, time_t end, gpointer data) { GList **list; struct comp_instance *ci; list = data; ci = g_new (struct comp_instance, 1); ci->comp = comp; g_object_ref (G_OBJECT (ci->comp)); ci->start = start; ci->end = end; *list = g_list_prepend (*list, ci); return TRUE; } /* Used from g_list_sort(); compares two struct comp_instance structures */ static gint compare_comp_instance (gconstpointer a, gconstpointer b) { const struct comp_instance *cia, *cib; time_t diff; cia = a; cib = b; diff = cia->start - cib->start; return (diff < 0) ? -1 : (diff > 0) ? 1 : 0; } /** * cal_client_generate_instances: * @client: A calendar client. * @type: Bitmask with types of objects to return. * @start: Start time for query. * @end: End time for query. * @cb: Callback for each generated instance. * @cb_data: Closure data for the callback. * * Does a combination of cal_client_get_object_list () and * cal_recur_generate_instances(). * * The callback function should do a g_object_ref() of the calendar component * it gets passed if it intends to keep it around. **/ void cal_client_generate_instances (CalClient *client, CalObjType type, time_t start, time_t end, CalRecurInstanceFn cb, gpointer cb_data) { CalClientPrivate *priv; GList *objects; GList *instances; GList *l; char *query; g_return_if_fail (client != NULL); g_return_if_fail (IS_CAL_CLIENT (client)); priv = client->priv; g_return_if_fail (priv->load_state == CAL_CLIENT_LOAD_LOADED); g_return_if_fail (start != -1 && end != -1); g_return_if_fail (start <= end); g_return_if_fail (cb != NULL); /* Generate objects */ query = g_strdup_printf ("(occur-in-time-range? (%lu) (%lu))", start, end); if (!cal_client_get_object_list (client, query, &objects, NULL)) { g_free (query); return; } g_free (query); instances = NULL; for (l = objects; l; l = l->next) { CalComponent *comp; comp = l->data; cal_recur_generate_instances (comp, start, end, add_instance, &instances, cal_client_resolve_tzid_cb, client, priv->default_zone); g_object_unref (G_OBJECT (comp)); } g_list_free (objects); /* Generate instances and spew them out */ instances = g_list_sort (instances, compare_comp_instance); for (l = instances; l; l = l->next) { struct comp_instance *ci; gboolean result; ci = l->data; result = (* cb) (ci->comp, ci->start, ci->end, cb_data); if (!result) break; } /* Clean up */ for (l = instances; l; l = l->next) { struct comp_instance *ci; ci = l->data; g_object_unref (G_OBJECT (ci->comp)); g_free (ci); } g_list_free (instances); } /* Builds a list of CalComponentAlarms structures */ static GSList * build_component_alarms_list (CalClient *client, GList *object_list, time_t start, time_t end) { GSList *comp_alarms; GList *l; comp_alarms = NULL; for (l = object_list; l != NULL; l = l->next) { CalComponent *comp; CalComponentAlarms *alarms; icalcomponent *icalcomp; CalAlarmAction omit[] = {-1}; icalcomp = icalparser_parse_string (l->data); if (!icalcomp) continue; comp = cal_component_new (); if (!cal_component_set_icalcomponent (comp, icalcomp)) { icalcomponent_free (icalcomp); g_object_unref (G_OBJECT (comp)); continue; } alarms = cal_util_generate_alarms_for_comp (comp, start, end, omit, cal_client_resolve_tzid_cb, icalcomp, client->priv->default_zone); if (alarms) comp_alarms = g_slist_prepend (comp_alarms, alarms); } return comp_alarms; } /** * cal_client_get_alarms_in_range: * @client: A calendar client. * @start: Start time for query. * @end: End time for query. * * Queries a calendar for the alarms that trigger in the specified range of * time. * * Return value: A list of #CalComponentAlarms structures. This should be freed * using the cal_client_free_alarms() function, or by freeing each element * separately with cal_component_alarms_free() and then freeing the list with * g_slist_free(). **/ GSList * cal_client_get_alarms_in_range (CalClient *client, time_t start, time_t end) { CalClientPrivate *priv; GSList *alarms; char *sexp; GList *object_list = NULL; g_return_val_if_fail (client != NULL, NULL); g_return_val_if_fail (IS_CAL_CLIENT (client), NULL); priv = client->priv; g_return_val_if_fail (priv->load_state == CAL_CLIENT_LOAD_LOADED, NULL); g_return_val_if_fail (start != -1 && end != -1, NULL); g_return_val_if_fail (start <= end, NULL); /* build the query string */ sexp = g_strdup ("(and (has-alarms? #t))"); /* execute the query on the server */ if (!cal_client_get_object_list (client, sexp, &object_list, NULL)) { g_free (sexp); return NULL; } alarms = build_component_alarms_list (client, object_list, start, end); g_list_foreach (object_list, (GFunc) g_free, NULL); g_list_free (object_list); g_free (sexp); return alarms; } /** * cal_client_free_alarms: * @comp_alarms: A list of #CalComponentAlarms structures. * * Frees a list of #CalComponentAlarms structures as returned by * cal_client_get_alarms_in_range(). **/ void cal_client_free_alarms (GSList *comp_alarms) { GSList *l; for (l = comp_alarms; l; l = l->next) { CalComponentAlarms *alarms; alarms = l->data; g_assert (alarms != NULL); cal_component_alarms_free (alarms); } g_slist_free (comp_alarms); } /** * cal_client_get_alarms_for_object: * @client: A calendar client. * @uid: Unique identifier for a calendar component. * @start: Start time for query. * @end: End time for query. * @alarms: Return value for the component's alarm instances. Will return NULL * if no instances occur within the specified time range. This should be freed * using the cal_component_alarms_free() function. * * Queries a calendar for the alarms of a particular object that trigger in the * specified range of time. * * Return value: TRUE on success, FALSE if the object was not found. **/ gboolean cal_client_get_alarms_for_object (CalClient *client, const char *uid, time_t start, time_t end, CalComponentAlarms **alarms) { CalClientPrivate *priv; icalcomponent *icalcomp; CalComponent *comp; CalAlarmAction omit[] = {-1}; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; g_return_val_if_fail (priv->load_state == CAL_CLIENT_LOAD_LOADED, FALSE); g_return_val_if_fail (uid != NULL, FALSE); g_return_val_if_fail (start != -1 && end != -1, FALSE); g_return_val_if_fail (start <= end, FALSE); g_return_val_if_fail (alarms != NULL, FALSE); *alarms = NULL; if (!cal_client_get_object (client, uid, NULL, &icalcomp, NULL)) return FALSE; if (!icalcomp) return FALSE; comp = cal_component_new (); if (!cal_component_set_icalcomponent (comp, icalcomp)) { icalcomponent_free (icalcomp); g_object_unref (G_OBJECT (comp)); return FALSE; } *alarms = cal_util_generate_alarms_for_comp (comp, start, end, omit, cal_client_resolve_tzid_cb, icalcomp, priv->default_zone); return TRUE; } /** * cal_client_discard_alarm * @client: A calendar client. * @comp: The component to discard the alarm from. * @auid: Unique identifier of the alarm to be discarded. * * Tells the calendar backend to get rid of the alarm identified by the * @auid argument in @comp. Some backends might remove the alarm or * update internal information about the alarm be discarded, or, like * the file backend does, ignore the operation. * * Return value: a #CalClientResult value indicating the result of the * operation. */ gboolean cal_client_discard_alarm (CalClient *client, CalComponent *comp, const char *auid, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; const char *uid; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); cal_component_get_uid (comp, &uid); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_discardAlarm (priv->cal, uid, auid, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } typedef struct _ForeachTZIDCallbackData ForeachTZIDCallbackData; struct _ForeachTZIDCallbackData { CalClient *client; GHashTable *timezone_hash; gboolean include_all_timezones; gboolean success; }; /* This adds the VTIMEZONE given by the TZID parameter to the GHashTable in data. */ static void foreach_tzid_callback (icalparameter *param, void *cbdata) { ForeachTZIDCallbackData *data = cbdata; CalClientPrivate *priv; const char *tzid; icaltimezone *zone; icalcomponent *vtimezone_comp; char *vtimezone_as_string; priv = data->client->priv; /* Get the TZID string from the parameter. */ tzid = icalparameter_get_tzid (param); if (!tzid) return; /* Check if we've already added it to the GHashTable. */ if (g_hash_table_lookup (data->timezone_hash, tzid)) return; if (data->include_all_timezones) { if (!cal_client_get_timezone (data->client, tzid, &zone, NULL)) { data->success = FALSE; return; } } else { /* Check if it is in our cache. If it is, it must already be on the server so return. */ if (g_hash_table_lookup (priv->timezones, tzid)) return; /* Check if it is a builtin timezone. If it isn't, return. */ zone = icaltimezone_get_builtin_timezone_from_tzid (tzid); if (!zone) return; } /* Convert it to a string and add it to the hash. */ vtimezone_comp = icaltimezone_get_component (zone); if (!vtimezone_comp) return; vtimezone_as_string = icalcomponent_as_ical_string (vtimezone_comp); g_hash_table_insert (data->timezone_hash, (char*) tzid, g_strdup (vtimezone_as_string)); } /* This appends the value string to the GString given in data. */ static void append_timezone_string (gpointer key, gpointer value, gpointer data) { GString *vcal_string = data; g_string_append (vcal_string, value); g_free (value); } /* This simply frees the hash values. */ static void free_timezone_string (gpointer key, gpointer value, gpointer data) { g_free (value); } /* This converts the VEVENT/VTODO to a string. If include_all_timezones is TRUE, it includes all the VTIMEZONE components needed for the VEVENT/VTODO. If not, it only includes builtin timezones that may not be on the server. To do that we check every TZID in the component to see if it is a builtin timezone. If it is, we see if it it in our cache. If it is in our cache, then we know the server already has it and we don't need to send it. If it isn't in our cache, then we need to send it to the server. If we need to send any timezones to the server, then we have to create a complete VCALENDAR object, otherwise we can just send a single VEVENT/VTODO as before. */ static char* cal_client_get_component_as_string_internal (CalClient *client, icalcomponent *icalcomp, gboolean include_all_timezones) { GHashTable *timezone_hash; GString *vcal_string; int initial_vcal_string_len; ForeachTZIDCallbackData cbdata; char *obj_string; CalClientPrivate *priv; priv = client->priv; timezone_hash = g_hash_table_new (g_str_hash, g_str_equal); /* Add any timezones needed to the hash. We use a hash since we only want to add each timezone once at most. */ cbdata.client = client; cbdata.timezone_hash = timezone_hash; cbdata.include_all_timezones = include_all_timezones; cbdata.success = TRUE; icalcomponent_foreach_tzid (icalcomp, foreach_tzid_callback, &cbdata); if (!cbdata.success) { g_hash_table_foreach (timezone_hash, free_timezone_string, NULL); return NULL; } /* Create the start of a VCALENDAR, to add the VTIMEZONES to, and remember its length so we know if any VTIMEZONEs get added. */ vcal_string = g_string_new (NULL); g_string_append (vcal_string, "BEGIN:VCALENDAR\n" "PRODID:-//Ximian//NONSGML Evolution Calendar//EN\n" "VERSION:2.0\n" "METHOD:PUBLISH\n"); initial_vcal_string_len = vcal_string->len; /* Now concatenate all the timezone strings. This also frees the timezone strings as it goes. */ g_hash_table_foreach (timezone_hash, append_timezone_string, vcal_string); /* Get the string for the VEVENT/VTODO. */ obj_string = g_strdup (icalcomponent_as_ical_string (icalcomp)); /* If there were any timezones to send, create a complete VCALENDAR, else just send the VEVENT/VTODO string. */ if (!include_all_timezones && vcal_string->len == initial_vcal_string_len) { g_string_free (vcal_string, TRUE); } else { g_string_append (vcal_string, obj_string); g_string_append (vcal_string, "END:VCALENDAR\n"); g_free (obj_string); obj_string = vcal_string->str; g_string_free (vcal_string, FALSE); } g_hash_table_destroy (timezone_hash); return obj_string; } /** * cal_client_get_component_as_string: * @client: A calendar client. * @icalcomp: A calendar component object. * * Gets a calendar component as an iCalendar string, with a toplevel * VCALENDAR component and all VTIMEZONEs needed for the component. * * Return value: the component as a complete iCalendar string, or NULL on * failure. The string should be freed after use. **/ char* cal_client_get_component_as_string (CalClient *client, icalcomponent *icalcomp) { return cal_client_get_component_as_string_internal (client, icalcomp, TRUE); } gboolean cal_client_create_object (CalClient *client, icalcomponent *icalcomp, char **uid, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_createObject (priv->cal, icalcomponent_as_ical_string (icalcomp), &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; if (uid) *uid = our_op->uid; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } gboolean cal_client_modify_object (CalClient *client, icalcomponent *icalcomp, CalObjModType mod, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); g_return_val_if_fail (icalcomp != NULL, FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_modifyObject (priv->cal, icalcomponent_as_ical_string (icalcomp), mod, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } gboolean cal_client_remove_object_with_mod (CalClient *client, const char *uid, const char *rid, CalObjModType mod, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_removeObject (priv->cal, uid, rid ? rid : "", mod, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } /** * cal_client_remove_object: * @client: A calendar client. * @uid: Unique identifier of the calendar component to remove. * * Asks a calendar to remove a component. If the server is able to remove the * component, all clients will be notified and they will emit the "obj_removed" * signal. * * Return value: a #CalClientResult value indicating the result of the * operation. **/ gboolean cal_client_remove_object (CalClient *client, const char *uid, GError **error) { g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); return cal_client_remove_object_with_mod (client, uid, NULL, CALOBJ_MOD_ALL, error); } gboolean cal_client_receive_objects (CalClient *client, icalcomponent *icalcomp, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_receiveObjects (priv->cal, icalcomponent_as_ical_string (icalcomp), &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } gboolean cal_client_send_objects (CalClient *client, icalcomponent *icalcomp, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; g_return_val_if_fail (client != NULL, FALSE); g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); priv = client->priv; e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_sendObjects (priv->cal, icalcomponent_as_ical_string (icalcomp), &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } gboolean cal_client_get_timezone (CalClient *client, const char *tzid, icaltimezone **zone, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; icalcomponent *icalcomp; g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); g_return_val_if_fail (tzid != NULL, FALSE); priv = client->priv; e_mutex_lock (priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (priv->mutex); /* Check for well known zones and in the cache */ *zone = NULL; /* If tzid is NULL or "" we return NULL, since it is a 'local time'. */ if (!tzid || !tzid[0]) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_OK, error); } /* If it is UTC, we return the special UTC timezone. */ if (!strcmp (tzid, "UTC")) { *zone = icaltimezone_get_utc_timezone (); } else { /* See if we already have it in the cache. */ *zone = g_hash_table_lookup (priv->timezones, tzid); } if (*zone) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_OK, error); } /* call the backend */ CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_getTimezone (priv->cal, tzid, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; icalcomp = icalparser_parse_string (our_op->string); g_free (our_op->string); /* FIXME Invalid object status? */ if (!icalcomp) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_OBJECT_NOT_FOUND, error); } *zone = icaltimezone_new (); if (!icaltimezone_set_component (*zone, icalcomp)) { icaltimezone_free (*zone, 1); e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_OBJECT_NOT_FOUND, error); } /* Now add it to the cache, to avoid the server call in future. */ g_hash_table_insert (priv->timezones, icaltimezone_get_tzid (*zone), *zone); e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } /** * cal_client_add_timezone * @client: A calendar client. * @izone: The timezone to add. * @error: Placeholder for error information. * * Add a VTIMEZONE object to the given calendar. * * Returns: TRUE if successful, FALSE otherwise. */ gboolean cal_client_add_timezone (CalClient *client, icaltimezone *izone, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; const char *tzobj; g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); g_return_val_if_fail (izone != NULL, FALSE); priv = client->priv; e_mutex_lock (priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (priv->mutex); /* convert icaltimezone into a string */ tzobj = icalcomponent_as_ical_string (icaltimezone_get_component (izone)); /* call the backend */ CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_addTimezone (priv->cal, tzobj, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } /** * cal_client_get_query: * @client: A calendar client. * @sexp: S-expression representing the query. * * Creates a live query object from a loaded calendar. * * Return value: A query object that will emit notification signals as calendar * components are added and removed from the query in the server. **/ gboolean cal_client_get_query (CalClient *client, const char *sexp, CalQuery **query, GError **error) { CORBA_Environment ev; ECalendarOp *our_op; ECalendarStatus status; g_return_val_if_fail (client != NULL, E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (IS_CAL_CLIENT (client), E_CALENDAR_STATUS_INVALID_ARG); g_return_val_if_fail (query != NULL, E_CALENDAR_STATUS_INVALID_ARG); e_mutex_lock (client->priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (client->priv->mutex); CORBA_exception_init (&ev); our_op->listener = query_listener_new (); GNOME_Evolution_Calendar_Cal_getQuery (client->priv->cal, sexp, BONOBO_OBJREF (our_op->listener), &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; *query = our_op->query; bonobo_object_unref (BONOBO_OBJECT (our_op->listener)); e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } /* This ensures that the given timezone is on the server. We use this to pass the default timezone to the server, so it can resolve DATE and floating DATE-TIME values into specific times. (Most of our IDL interface uses time_t values to pass specific times from the server to the client.) */ static gboolean cal_client_ensure_timezone_on_server (CalClient *client, icaltimezone *zone, GError **error) { CalClientPrivate *priv; char *tzid; icaltimezone *tmp_zone; priv = client->priv; /* FIXME This is highly broken since there is no locking */ /* If the zone is NULL or UTC we don't need to do anything. */ if (!zone) return TRUE; tzid = icaltimezone_get_tzid (zone); if (!strcmp (tzid, "UTC")) return TRUE; /* See if we already have it in the cache. If we do, it must be on the server already. */ tmp_zone = g_hash_table_lookup (priv->timezones, tzid); if (tmp_zone) return TRUE; /* Now we have to send it to the server, in case it doesn't already have it. */ return cal_client_add_timezone (client, zone, error); } gboolean cal_client_set_default_timezone (CalClient *client, icaltimezone *zone, GError **error) { CalClientPrivate *priv; CORBA_Environment ev; ECalendarStatus status; ECalendarOp *our_op; const char *tzid; g_return_val_if_fail (IS_CAL_CLIENT (client), FALSE); g_return_val_if_fail (zone != NULL, FALSE); priv = client->priv; /* Make sure the server has the VTIMEZONE data. */ if (!cal_client_ensure_timezone_on_server (client, zone, error)) return FALSE; e_mutex_lock (priv->mutex); if (client->priv->load_state != CAL_CLIENT_LOAD_LOADED) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_URI_NOT_LOADED, error); } if (client->priv->current_op != NULL) { e_mutex_unlock (client->priv->mutex); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_BUSY, error); } our_op = e_calendar_new_op (client); e_mutex_lock (our_op->mutex); e_mutex_unlock (priv->mutex); /* FIXME Adding it to the server to change the tzid */ tzid = icaltimezone_get_tzid (zone); /* call the backend */ CORBA_exception_init (&ev); GNOME_Evolution_Calendar_Cal_setDefaultTimezone (priv->cal, tzid, &ev); if (BONOBO_EX (&ev)) { e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); CORBA_exception_free (&ev); g_warning (G_STRLOC ": Unable to contact backend"); E_CALENDAR_CHECK_STATUS (E_CALENDAR_STATUS_CORBA_EXCEPTION, error); } CORBA_exception_free (&ev); /* wait for something to happen (both cancellation and a successful response will notity us via our cv */ e_mutex_cond_wait (&our_op->cond, our_op->mutex); status = our_op->status; e_calendar_remove_op (client, our_op); e_mutex_unlock (our_op->mutex); e_calendar_free_op (our_op); E_CALENDAR_CHECK_STATUS (status, error); } /** * cal_client_get_error_message * @status: A status code. * * Get an error message for the given status code. * * Returns: the error message. */ const char * cal_client_get_error_message (ECalendarStatus status) { switch (status) { case E_CALENDAR_STATUS_INVALID_ARG : return _("Invalid argument"); case E_CALENDAR_STATUS_BUSY : return _("Backend is busy"); case E_CALENDAR_STATUS_REPOSITORY_OFFLINE : return _("Repository is offline"); case E_CALENDAR_STATUS_NO_SUCH_CALENDAR : return _("No such calendar"); case E_CALENDAR_STATUS_OBJECT_NOT_FOUND : return _("Object not found"); case E_CALENDAR_STATUS_INVALID_OBJECT : return _("Invalid object"); case E_CALENDAR_STATUS_URI_NOT_LOADED : return _("URI not loaded"); case E_CALENDAR_STATUS_URI_ALREADY_LOADED : return _("URI already loaded"); case E_CALENDAR_STATUS_PERMISSION_DENIED : return _("Permission denied"); case E_CALENDAR_STATUS_CARD_NOT_FOUND : return _("Object not found"); case E_CALENDAR_STATUS_CARD_ID_ALREADY_EXISTS : return _("Object ID already exists"); case E_CALENDAR_STATUS_PROTOCOL_NOT_SUPPORTED : return _("Protocol not supported"); case E_CALENDAR_STATUS_CANCELLED : return _("Operation has been cancelled"); case E_CALENDAR_STATUS_COULD_NOT_CANCEL : return _("Could not cancel operation"); case E_CALENDAR_STATUS_AUTHENTICATION_FAILED : return _("Authentication failed"); case E_CALENDAR_STATUS_AUTHENTICATION_REQUIRED : return _("Authentication required"); case E_CALENDAR_STATUS_CORBA_EXCEPTION : return _("A CORBA esception has occurred"); case E_CALENDAR_STATUS_OTHER_ERROR : return _("Unknown error"); case E_CALENDAR_STATUS_OK : return _("No error"); } return NULL; }