/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */ /* GIO - GLib Input, Output and Streaming Library * * Copyright (C) 2008 Red Hat, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General * Public License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place, Suite 330, * Boston, MA 02111-1307, USA. */ #include "config.h" #include #include "glibintl.h" #include #include #include "gunixresolver.h" #include "gnetworkingprivate.h" #include "gcancellable.h" #include "gsimpleasyncresult.h" #include "gsocketaddress.h" #include "gioalias.h" G_DEFINE_TYPE (GUnixResolver, g_unix_resolver, G_TYPE_THREADED_RESOLVER) static gboolean g_unix_resolver_watch (GIOChannel *iochannel, GIOCondition condition, gpointer user_data); static void g_unix_resolver_init (GUnixResolver *gur) { gint fd; GIOChannel *io; /* FIXME: how many workers? */ gur->asyncns = _g_asyncns_new (2); fd = _g_asyncns_fd (gur->asyncns); io = g_io_channel_unix_new (fd); gur->watch = g_io_add_watch (io, G_IO_IN | G_IO_HUP | G_IO_ERR, g_unix_resolver_watch, gur); g_io_channel_unref (io); } static void g_unix_resolver_finalize (GObject *object) { GUnixResolver *gur = G_UNIX_RESOLVER (object); if (gur->watch) g_source_remove (gur->watch); _g_asyncns_free (gur->asyncns); G_OBJECT_CLASS (g_unix_resolver_parent_class)->finalize (object); } /* The various request possibilities: * * 1. Synchronous: handed off to the base class (GThreadedResolver); * since it's never possible to cancel a synchronous request in a * single-threaded program, the request is done in the calling * thread. * * 2. Asynchronous: An appropriate _g_asyncns_query_t is created, and * then a GUnixResolverRequest is created with that query and a * GSimpleAsyncResult. Two sub-possibilities: * * a. The resolution completes: g_unix_resolver_watch() sees that * the request has completed, and calls * g_unix_resolver_request_complete(), which detaches the * "cancelled" signal handler (if it was present) and then * immediately completes the async_result (since * g_unix_resolver_watch() is already run from main-loop * time.) After completing the async_result, it unrefs it, * causing the req to be freed as well. * * b. The resolution is cancelled: request_cancelled() calls * _g_asyncns_cancel() to cancel the resolution. Then it calls * g_unix_resolver_request_complete(), which detaches the * signal handler, and queues async_result to complete in an * idle handler. It then unrefs the async_result to ensure * that after its callback runs, it will be destroyed, in turn * causing the req to be freed. Because the asyncns resolution * was cancelled, g_unix_resolver_watch() will never be * triggered for this req. * * Since there's only a single thread, it's not possible for the * request to both complete and be cancelled "at the same time", * and each of the two possibilities takes steps to block the other * from being able to happen later, so it's always safe to free req * after the async_result completes. */ typedef struct _GUnixResolverRequest GUnixResolverRequest; typedef void (*GUnixResolverFreeFunc) (GUnixResolverRequest *); struct _GUnixResolverRequest { GUnixResolver *gur; _g_asyncns_query_t *qy; union { gchar *hostname; GInetAddress *address; gchar *service; } u; GUnixResolverFreeFunc free_func; GCancellable *cancellable; GSimpleAsyncResult *async_result; }; static void g_unix_resolver_request_free (GUnixResolverRequest *req); static void request_cancelled (GCancellable *cancellable, gpointer user_data); static GUnixResolverRequest * g_unix_resolver_request_new (GUnixResolver *gur, _g_asyncns_query_t *qy, GUnixResolverFreeFunc free_func, GCancellable *cancellable, GSimpleAsyncResult *async_result) { GUnixResolverRequest *req; req = g_slice_new0 (GUnixResolverRequest); req->gur = g_object_ref (gur); req->qy = qy; req->free_func = free_func; if (cancellable) { req->cancellable = g_object_ref (cancellable); g_signal_connect (cancellable, "cancelled", G_CALLBACK (request_cancelled), req); } req->async_result = g_object_ref (async_result); g_simple_async_result_set_op_res_gpointer (req->async_result, req, (GDestroyNotify)g_unix_resolver_request_free); return req; } static void g_unix_resolver_request_free (GUnixResolverRequest *req) { /* If the user didn't call _finish the qy will still be around. */ if (req->qy) _g_asyncns_cancel (req->gur->asyncns, req->qy); /* We don't have to free req->cancellable and req->async_result, * since they must already have been freed if we're here. */ g_slice_free (GUnixResolverRequest, req); } static void g_unix_resolver_request_complete (GUnixResolverRequest *req, gboolean need_idle) { if (req->cancellable) { g_signal_handlers_disconnect_by_func (req->cancellable, request_cancelled, req); g_object_unref (req->cancellable); req->cancellable = NULL; } if (need_idle) g_simple_async_result_complete_in_idle (req->async_result); else g_simple_async_result_complete (req->async_result); /* If we completed_in_idle, that will have taken an extra ref on * req->async_result; if not, then we're already done. Either way we * need to unref the async_result to make sure it eventually is * destroyed, causing req to be freed. */ g_object_unref (req->async_result); } static void request_cancelled (GCancellable *cancellable, gpointer user_data) { GUnixResolverRequest *req = user_data; GError *error = NULL; _g_asyncns_cancel (req->gur->asyncns, req->qy); req->qy = NULL; g_cancellable_set_error_if_cancelled (cancellable, &error); g_simple_async_result_set_from_error (req->async_result, error); g_error_free (error); g_unix_resolver_request_complete (req, TRUE); } static gboolean g_unix_resolver_watch (GIOChannel *iochannel, GIOCondition condition, gpointer user_data) { GUnixResolver *gur = user_data; _g_asyncns_query_t *qy; GUnixResolverRequest *req; if (condition & (G_IO_HUP | G_IO_ERR)) { /* Shouldn't happen. Should we create a new asyncns? FIXME */ g_warning ("asyncns died"); gur->watch = 0; return FALSE; } while (_g_asyncns_wait (gur->asyncns, FALSE) == 0 && (qy = _g_asyncns_getnext (gur->asyncns)) != NULL) { req = _g_asyncns_getuserdata (gur->asyncns, qy); g_unix_resolver_request_complete (req, FALSE); } return TRUE; } static GUnixResolverRequest * resolve_async (GUnixResolver *gur, _g_asyncns_query_t *qy, GUnixResolverFreeFunc free_func, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data, gpointer tag) { GSimpleAsyncResult *result; GUnixResolverRequest *req; result = g_simple_async_result_new (G_OBJECT (gur), callback, user_data, tag); req = g_unix_resolver_request_new (gur, qy, free_func, cancellable, result); g_object_unref (result); _g_asyncns_setuserdata (gur->asyncns, qy, req); return req; } static void lookup_by_name_free (GUnixResolverRequest *req) { g_free (req->u.hostname); } static void lookup_by_name_async (GResolver *resolver, const gchar *hostname, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GUnixResolver *gur = G_UNIX_RESOLVER (resolver); GUnixResolverRequest *req; _g_asyncns_query_t *qy; qy = _g_asyncns_getaddrinfo (gur->asyncns, hostname, NULL, &_g_resolver_addrinfo_hints); req = resolve_async (gur, qy, lookup_by_name_free, cancellable, callback, user_data, lookup_by_name_async); req->u.hostname = g_strdup (hostname); } static GList * lookup_by_name_finish (GResolver *resolver, GAsyncResult *result, GError **error) { GSimpleAsyncResult *simple; GUnixResolverRequest *req; struct addrinfo *res; gint retval; GList *addresses; g_return_val_if_fail (g_simple_async_result_is_valid (result, G_OBJECT (resolver), lookup_by_name_async), FALSE); simple = G_SIMPLE_ASYNC_RESULT (result); req = g_simple_async_result_get_op_res_gpointer (simple); retval = _g_asyncns_getaddrinfo_done (req->gur->asyncns, req->qy, &res); req->qy = NULL; addresses = _g_resolver_addresses_from_addrinfo (req->u.hostname, res, retval, error); if (res) freeaddrinfo (res); return addresses; } static void lookup_by_address_free (GUnixResolverRequest *req) { g_object_unref (req->u.address); } static void lookup_by_address_async (GResolver *resolver, GInetAddress *address, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GUnixResolver *gur = G_UNIX_RESOLVER (resolver); GUnixResolverRequest *req; _g_asyncns_query_t *qy; struct sockaddr_storage sockaddr; gsize sockaddr_size; _g_resolver_address_to_sockaddr (address, &sockaddr, &sockaddr_size); qy = _g_asyncns_getnameinfo (gur->asyncns, (struct sockaddr *)&sockaddr, sockaddr_size, NI_NAMEREQD, TRUE, FALSE); req = resolve_async (gur, qy, lookup_by_address_free, cancellable, callback, user_data, lookup_by_address_async); req->u.address = g_object_ref (address); } static gchar * lookup_by_address_finish (GResolver *resolver, GAsyncResult *result, GError **error) { GSimpleAsyncResult *simple; GUnixResolverRequest *req; gchar host[NI_MAXHOST], *name; gint retval; g_return_val_if_fail (g_simple_async_result_is_valid (result, G_OBJECT (resolver), lookup_by_address_async), FALSE); simple = G_SIMPLE_ASYNC_RESULT (result); req = g_simple_async_result_get_op_res_gpointer (simple); retval = _g_asyncns_getnameinfo_done (req->gur->asyncns, req->qy, host, sizeof (host), NULL, 0); req->qy = NULL; name = _g_resolver_name_from_nameinfo (req->u.address, host, retval, error); return name; } static void lookup_service_free (GUnixResolverRequest *req) { g_free (req->u.service); } static void lookup_service_async (GResolver *resolver, const char *rrname, GCancellable *cancellable, GAsyncReadyCallback callback, gpointer user_data) { GUnixResolver *gur = G_UNIX_RESOLVER (resolver); GUnixResolverRequest *req; _g_asyncns_query_t *qy; qy = _g_asyncns_res_query (gur->asyncns, rrname, C_IN, T_SRV); req = resolve_async (gur, qy, lookup_service_free, cancellable, callback, user_data, lookup_service_async); req->u.service = g_strdup (rrname); } static GList * lookup_service_finish (GResolver *resolver, GAsyncResult *result, GError **error) { GSimpleAsyncResult *simple; GUnixResolverRequest *req; guchar *answer; gint len, herr; GList *targets; g_return_val_if_fail (g_simple_async_result_is_valid (result, G_OBJECT (resolver), lookup_service_async), FALSE); simple = G_SIMPLE_ASYNC_RESULT (result); req = g_simple_async_result_get_op_res_gpointer (simple); len = _g_asyncns_res_done (req->gur->asyncns, req->qy, &answer); req->qy = NULL; if (len < 0) herr = h_errno; else herr = 0; targets = _g_resolver_targets_from_res_query (req->u.service, answer, len, herr, error); _g_asyncns_freeanswer (answer); return targets; } static void g_unix_resolver_class_init (GUnixResolverClass *unix_class) { GResolverClass *resolver_class = G_RESOLVER_CLASS (unix_class); GObjectClass *object_class = G_OBJECT_CLASS (unix_class); resolver_class->lookup_by_name_async = lookup_by_name_async; resolver_class->lookup_by_name_finish = lookup_by_name_finish; resolver_class->lookup_by_address_async = lookup_by_address_async; resolver_class->lookup_by_address_finish = lookup_by_address_finish; resolver_class->lookup_service_async = lookup_service_async; resolver_class->lookup_service_finish = lookup_service_finish; object_class->finalize = g_unix_resolver_finalize; } #define __G_UNIX_RESOLVER_C__ #include "gioaliasdef.c"