/** * @file dnsquery.c DNS query API * @ingroup core */ /* purple * * Purple is the legal property of its developers, whose names are too numerous * to list here. Please refer to the COPYRIGHT file distributed with this * source distribution. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111-1301 USA * */ #include "internal.h" #include "debug.h" #include "dnsquery.h" #include "network.h" #include "notify.h" #include "prefs.h" #include "util.h" #ifndef _WIN32 #include #endif #if (defined(__APPLE__) || defined (__unix__)) && !defined(__osf__) #define PURPLE_DNSQUERY_USE_FORK #endif /************************************************************************** * DNS query API **************************************************************************/ static PurpleDnsQueryUiOps *dns_query_ui_ops = NULL; typedef struct _PurpleDnsQueryResolverProcess PurpleDnsQueryResolverProcess; struct _PurpleDnsQueryData { char *hostname; int port; PurpleDnsQueryConnectFunction callback; gpointer data; guint timeout; #if defined(PURPLE_DNSQUERY_USE_FORK) PurpleDnsQueryResolverProcess *resolver; #elif defined _WIN32 /* end PURPLE_DNSQUERY_USE_FORK */ GThread *resolver; GSList *hosts; gchar *error_message; #endif }; #if defined(PURPLE_DNSQUERY_USE_FORK) #define MAX_DNS_CHILDREN 4 /* * This structure keeps a reference to a child resolver process. */ struct _PurpleDnsQueryResolverProcess { guint inpa; int fd_in, fd_out; pid_t dns_pid; }; static GSList *free_dns_children = NULL; /* TODO: Make me a GQueue when we require >= glib 2.4 */ static GSList *queued_requests = NULL; static int number_of_dns_children = 0; /* * This is a convenience struct used to pass data to * the child resolver process. */ typedef struct { char hostname[512]; int port; } dns_params_t; #endif /* end PURPLE_DNSQUERY_USE_FORK */ static void purple_dnsquery_resolved(PurpleDnsQueryData *query_data, GSList *hosts) { purple_debug_info("dnsquery", "IP resolved for %s\n", query_data->hostname); if (query_data->callback != NULL) query_data->callback(hosts, query_data->data, NULL); else { /* * Callback is a required parameter, but it can get set to * NULL if we cancel a thread-based DNS lookup. So we need * to free hosts. */ while (hosts != NULL) { hosts = g_slist_remove(hosts, hosts->data); g_free(hosts->data); hosts = g_slist_remove(hosts, hosts->data); } } #ifdef PURPLE_DNSQUERY_USE_FORK /* * Add the resolver to the list of available resolvers, and set it * to NULL so that it doesn't get destroyed along with the query_data */ if (query_data->resolver) { free_dns_children = g_slist_prepend(free_dns_children, query_data->resolver); query_data->resolver = NULL; } #endif /* PURPLE_DNSQUERY_USE_FORK */ purple_dnsquery_destroy(query_data); } static void purple_dnsquery_failed(PurpleDnsQueryData *query_data, const gchar *error_message) { purple_debug_error("dnsquery", "%s\n", error_message); if (query_data->callback != NULL) query_data->callback(NULL, query_data->data, error_message); purple_dnsquery_destroy(query_data); } static gboolean purple_dnsquery_ui_resolve(PurpleDnsQueryData *query_data) { PurpleDnsQueryUiOps *ops = purple_dnsquery_get_ui_ops(); if (ops && ops->resolve_host) return ops->resolve_host(query_data, purple_dnsquery_resolved, purple_dnsquery_failed); return FALSE; } static gboolean resolve_ip(PurpleDnsQueryData *query_data) { struct sockaddr_in sin; if (inet_aton(query_data->hostname, &sin.sin_addr)) { /* * The given "hostname" is actually an IP address, so we * don't need to do anything. */ GSList *hosts = NULL; sin.sin_family = AF_INET; sin.sin_port = htons(query_data->port); hosts = g_slist_append(hosts, GINT_TO_POINTER(sizeof(sin))); hosts = g_slist_append(hosts, g_memdup(&sin, sizeof(sin))); purple_dnsquery_resolved(query_data, hosts); return TRUE; } return FALSE; } #ifdef USE_IDN static gboolean dns_str_is_ascii(const char *name) { guchar *c; for (c = (guchar *)name; c && *c; ++c) { if (*c > 0x7f) return FALSE; } return TRUE; } #endif #if defined(PURPLE_DNSQUERY_USE_FORK) /* * Unix! */ /* * Begin the DNS resolver child process functions. */ #ifdef HAVE_SIGNAL_H G_GNUC_NORETURN static void trap_gdb_bug(int sig) { const char *message = "Purple's DNS child got a SIGTRAP signal.\n" "This can be caused by trying to run purple inside gdb.\n" "There is a known gdb bug which prevents this. Supposedly purple\n" "should have detected you were using gdb and used an ugly hack,\n" "check cope_with_gdb_brokenness() in dnsquery.c.\n\n" "For more info about this bug, see http://sources.redhat.com/ml/gdb/2001-07/msg00349.html\n"; fputs("\n* * *\n",stderr); fputs(message,stderr); fputs("* * *\n\n",stderr); execlp("xmessage","xmessage","-center", message, NULL); _exit(1); } #endif static void write_to_parent(int fd, const void *buf, size_t count) { ssize_t written; written = write(fd, buf, count); if (written != count) { if (written < 0) fprintf(stderr, "dns[%d]: Error writing data to " "parent: %s\n", getpid(), strerror(errno)); else fprintf(stderr, "dns[%d]: Error: Tried to write %" G_GSIZE_FORMAT " bytes to parent but instead " "wrote %" G_GSIZE_FORMAT " bytes\n", getpid(), count, written); } } G_GNUC_NORETURN static void purple_dnsquery_resolver_run(int child_out, int child_in, gboolean show_debug) { dns_params_t dns_params; const size_t zero = 0; int rc; #ifdef HAVE_GETADDRINFO struct addrinfo hints, *res, *tmp; char servname[20]; #else struct sockaddr_in sin; const size_t addrlen = sizeof(sin); #endif char *hostname; #ifdef HAVE_SIGNAL_H purple_restore_default_signal_handlers(); signal(SIGTRAP, trap_gdb_bug); #endif /* * We resolve 1 host name for each iteration of this * while loop. * * The top half of this reads in the hostname and port * number from the socket with our parent. The bottom * half of this resolves the IP (blocking) and sends * the result back to our parent, when finished. */ while (1) { fd_set fds; struct timeval tv = { .tv_sec = 20, .tv_usec = 0 }; FD_ZERO(&fds); FD_SET(child_in, &fds); rc = select(child_in + 1, &fds, NULL, NULL, &tv); if (!rc) { if (show_debug) printf("dns[%d]: nobody needs me... =(\n", getpid()); break; } rc = read(child_in, &dns_params, sizeof(dns_params_t)); if (rc < 0) { fprintf(stderr, "dns[%d]: Error: Could not read dns_params: " "%s\n", getpid(), strerror(errno)); break; } if (rc == 0) { if (show_debug) printf("dns[%d]: Oops, father has gone, wait for me, wait...!\n", getpid()); _exit(0); } if (dns_params.hostname[0] == '\0') { fprintf(stderr, "dns[%d]: Error: Parent requested resolution " "of an empty hostname (port = %d)!!!\n", getpid(), dns_params.port); _exit(1); } #ifdef USE_IDN if (!dns_str_is_ascii(dns_params.hostname)) { rc = purple_network_convert_idn_to_ascii(dns_params.hostname, &hostname); if (rc != 0) { write_to_parent(child_out, &rc, sizeof(rc)); if (show_debug) fprintf(stderr, "dns[%d] Error: IDN conversion returned " "%d\n", getpid(), rc); dns_params.hostname[0] = '\0'; break; } } else /* intentional to execute the g_strdup */ #endif hostname = g_strdup(dns_params.hostname); /* We have the hostname and port, now resolve the IP */ #ifdef HAVE_GETADDRINFO g_snprintf(servname, sizeof(servname), "%d", dns_params.port); memset(&hints, 0, sizeof(hints)); /* This is only used to convert a service * name to a port number. As we know we are * passing a number already, we know this * value will not be really used by the C * library. */ hints.ai_socktype = SOCK_STREAM; #ifdef AI_ADDRCONFIG hints.ai_flags |= AI_ADDRCONFIG; #endif /* AI_ADDRCONFIG */ rc = getaddrinfo(hostname, servname, &hints, &res); write_to_parent(child_out, &rc, sizeof(rc)); if (rc != 0) { if (show_debug) printf("dns[%d] Error: getaddrinfo returned %d\n", getpid(), rc); dns_params.hostname[0] = '\0'; g_free(hostname); hostname = NULL; break; } tmp = res; while (res) { size_t ai_addrlen = res->ai_addrlen; write_to_parent(child_out, &ai_addrlen, sizeof(ai_addrlen)); write_to_parent(child_out, res->ai_addr, res->ai_addrlen); res = res->ai_next; } freeaddrinfo(tmp); #else if (!inet_aton(hostname, &sin.sin_addr)) { struct hostent *hp; if (!(hp = gethostbyname(hostname))) { write_to_parent(child_out, &h_errno, sizeof(int)); close(child_out); if (show_debug) printf("DNS Error: %d\n", h_errno); _exit(0); } memset(&sin, 0, sizeof(struct sockaddr_in)); memcpy(&sin.sin_addr.s_addr, hp->h_addr, hp->h_length); sin.sin_family = hp->h_addrtype; } else sin.sin_family = AF_INET; sin.sin_port = htons(dns_params.port); rc = 0; write_to_parent(child_out, &rc, sizeof(rc)); write_to_parent(child_out, &addrlen, sizeof(addrlen)); write_to_parent(child_out, &sin, addrlen); #endif write_to_parent(child_out, &zero, sizeof(zero)); dns_params.hostname[0] = '\0'; g_free(hostname); hostname = NULL; } close(child_out); close(child_in); _exit(0); } /* * End the DNS resolver child process functions. */ /* * Begin the functions for dealing with the DNS child processes. */ static void cope_with_gdb_brokenness(void) { #ifdef __linux__ static gboolean already_done = FALSE; char s[256], e[512]; int n; pid_t ppid; if(already_done) return; already_done = TRUE; ppid = getppid(); g_snprintf(s, sizeof(s), "/proc/%d/exe", ppid); n = readlink(s, e, sizeof(e)); if(n < 0) return; e[MIN(n,sizeof(e)-1)] = '\0'; if(strstr(e,"gdb")) { purple_debug_info("dns", "Debugger detected, performing useless query...\n"); gethostbyname("x.x.x.x.x"); } #endif } static void purple_dnsquery_resolver_destroy(PurpleDnsQueryResolverProcess *resolver) { g_return_if_fail(resolver != NULL); /* Keep this before the kill() call below. */ if (resolver->inpa != 0) { purple_input_remove(resolver->inpa); resolver->inpa = 0; } /* * We might as well attempt to kill our child process. It really * doesn't matter if this fails, because children will expire on * their own after a few seconds. */ if (resolver->dns_pid > 0) kill(resolver->dns_pid, SIGKILL); close(resolver->fd_in); close(resolver->fd_out); g_free(resolver); number_of_dns_children--; } static PurpleDnsQueryResolverProcess * purple_dnsquery_resolver_new(gboolean show_debug) { PurpleDnsQueryResolverProcess *resolver; int child_out[2], child_in[2]; /* Create pipes for communicating with the child process */ if (pipe(child_out) || pipe(child_in)) { purple_debug_error("dns", "Could not create pipes: %s\n", g_strerror(errno)); return NULL; } resolver = g_new(PurpleDnsQueryResolverProcess, 1); resolver->inpa = 0; cope_with_gdb_brokenness(); /* "Go fork and multiply." --Tommy Caldwell (Emily's dad, not the climber) */ resolver->dns_pid = fork(); /* If we are the child process... */ if (resolver->dns_pid == 0) { /* We should not access the parent's side of the pipes, so close them */ close(child_out[0]); close(child_in[1]); purple_dnsquery_resolver_run(child_out[1], child_in[0], show_debug); /* The thread calls _exit() rather than returning, so we never get here */ } /* We should not access the child's side of the pipes, so close them */ close(child_out[1]); close(child_in[0]); if (resolver->dns_pid == -1) { purple_debug_error("dns", "Could not create child process for DNS: %s\n", g_strerror(errno)); purple_dnsquery_resolver_destroy(resolver); return NULL; } resolver->fd_out = child_out[0]; resolver->fd_in = child_in[1]; number_of_dns_children++; purple_debug_info("dns", "Created new DNS child %d, there are now %d children.\n", resolver->dns_pid, number_of_dns_children); return resolver; } /** * @return TRUE if the request was sent succesfully. FALSE * if the request could not be sent. This isn't * necessarily an error. If the child has expired, * for example, we won't be able to send the message. */ static gboolean send_dns_request_to_child(PurpleDnsQueryData *query_data, PurpleDnsQueryResolverProcess *resolver) { pid_t pid; dns_params_t dns_params; ssize_t rc; /* This waitpid might return the child's PID if it has recently * exited, or it might return an error if it exited "long * enough" ago that it has already been reaped; in either * instance, we can't use it. */ pid = waitpid(resolver->dns_pid, NULL, WNOHANG); if (pid > 0) { purple_debug_warning("dns", "DNS child %d no longer exists\n", resolver->dns_pid); purple_dnsquery_resolver_destroy(resolver); return FALSE; } else if (pid < 0) { purple_debug_warning("dns", "Wait for DNS child %d failed: %s\n", resolver->dns_pid, g_strerror(errno)); purple_dnsquery_resolver_destroy(resolver); return FALSE; } /* Copy the hostname and port into a single data structure */ strncpy(dns_params.hostname, query_data->hostname, sizeof(dns_params.hostname) - 1); dns_params.hostname[sizeof(dns_params.hostname) - 1] = '\0'; dns_params.port = query_data->port; /* Send the data structure to the child */ rc = write(resolver->fd_in, &dns_params, sizeof(dns_params)); if (rc < 0) { purple_debug_error("dns", "Unable to write to DNS child %d: %s\n", resolver->dns_pid, g_strerror(errno)); purple_dnsquery_resolver_destroy(resolver); return FALSE; } if (rc < sizeof(dns_params)) { purple_debug_error("dns", "Tried to write %" G_GSSIZE_FORMAT " bytes to child but only wrote %" G_GSSIZE_FORMAT "\n", sizeof(dns_params), rc); purple_dnsquery_resolver_destroy(resolver); return FALSE; } purple_debug_info("dns", "Successfully sent DNS request to child %d\n", resolver->dns_pid); query_data->resolver = resolver; return TRUE; } static void host_resolved(gpointer data, gint source, PurpleInputCondition cond); static void handle_next_queued_request(void) { PurpleDnsQueryData *query_data; PurpleDnsQueryResolverProcess *resolver; if (queued_requests == NULL) /* No more DNS queries, yay! */ return; query_data = queued_requests->data; queued_requests = g_slist_delete_link(queued_requests, queued_requests); /* * If we have any children, attempt to have them perform the DNS * query. If we're able to send the query then resolver will be * set to the PurpleDnsQueryResolverProcess. Otherwise, resolver * will be NULL and we'll need to create a new DNS request child. */ while (free_dns_children != NULL) { resolver = free_dns_children->data; free_dns_children = g_slist_remove(free_dns_children, resolver); if (send_dns_request_to_child(query_data, resolver)) /* We found an acceptable child, yay */ break; } /* We need to create a new DNS request child */ if (query_data->resolver == NULL) { if (number_of_dns_children >= MAX_DNS_CHILDREN) { /* Apparently all our children are busy */ queued_requests = g_slist_prepend(queued_requests, query_data); return; } resolver = purple_dnsquery_resolver_new(purple_debug_is_enabled()); if (resolver == NULL) { purple_dnsquery_failed(query_data, _("Unable to create new resolver process\n")); return; } if (!send_dns_request_to_child(query_data, resolver)) { purple_dnsquery_failed(query_data, _("Unable to send request to resolver process\n")); return; } } query_data->resolver->inpa = purple_input_add(query_data->resolver->fd_out, PURPLE_INPUT_READ, host_resolved, query_data); } /* * End the functions for dealing with the DNS child processes. */ static void host_resolved(gpointer data, gint source, PurpleInputCondition cond) { PurpleDnsQueryData *query_data; int rc, err; GSList *hosts = NULL; struct sockaddr *addr = NULL; size_t addrlen; char message[1024]; query_data = data; purple_debug_info("dns", "Got response for '%s'\n", query_data->hostname); purple_input_remove(query_data->resolver->inpa); query_data->resolver->inpa = 0; rc = read(query_data->resolver->fd_out, &err, sizeof(err)); if ((rc == 4) && (err != 0)) { #ifdef HAVE_GETADDRINFO g_snprintf(message, sizeof(message), _("Error resolving %s:\n%s"), query_data->hostname, purple_gai_strerror(err)); #else g_snprintf(message, sizeof(message), _("Error resolving %s: %d"), query_data->hostname, err); #endif /* Re-read resolv.conf and friends in case DNS servers have changed */ res_init(); purple_dnsquery_failed(query_data, message); } else if (rc > 0) { /* Success! */ while (rc > 0) { rc = read(query_data->resolver->fd_out, &addrlen, sizeof(addrlen)); if (rc > 0 && addrlen > 0) { addr = g_malloc(addrlen); rc = read(query_data->resolver->fd_out, addr, addrlen); hosts = g_slist_append(hosts, GINT_TO_POINTER(addrlen)); hosts = g_slist_append(hosts, addr); } else { break; } } /* wait4(resolver->dns_pid, NULL, WNOHANG, NULL); */ purple_dnsquery_resolved(query_data, hosts); } else if (rc == -1) { g_snprintf(message, sizeof(message), _("Error reading from resolver process:\n%s"), g_strerror(errno)); purple_dnsquery_failed(query_data, message); } else if (rc == 0) { g_snprintf(message, sizeof(message), _("Resolver process exited without answering our request")); purple_dnsquery_failed(query_data, message); } handle_next_queued_request(); } static gboolean resolve_host(gpointer data) { PurpleDnsQueryData *query_data; query_data = data; query_data->timeout = 0; if (resolve_ip(query_data)) { /* resolve_ip calls purple_dnsquery_resolved */ return FALSE; } if (purple_dnsquery_ui_resolve(query_data)) { /* The UI is handling the resolve; we're done */ return FALSE; } queued_requests = g_slist_append(queued_requests, query_data); handle_next_queued_request(); return FALSE; } PurpleDnsQueryData * purple_dnsquery_a(const char *hostname, int port, PurpleDnsQueryConnectFunction callback, gpointer data) { PurpleDnsQueryData *query_data; g_return_val_if_fail(hostname != NULL, NULL); g_return_val_if_fail(port != 0, NULL); g_return_val_if_fail(callback != NULL, NULL); query_data = g_new(PurpleDnsQueryData, 1); query_data->hostname = g_strdup(hostname); g_strstrip(query_data->hostname); query_data->port = port; query_data->callback = callback; query_data->data = data; query_data->resolver = NULL; if (*query_data->hostname == '\0') { purple_dnsquery_destroy(query_data); g_return_val_if_reached(NULL); } purple_debug_info("dns", "DNS query for '%s' queued\n", query_data->hostname); query_data->timeout = purple_timeout_add(0, resolve_host, query_data); return query_data; } #elif defined _WIN32 /* end PURPLE_DNSQUERY_USE_FORK */ /* * Windows! */ static gboolean dns_main_thread_cb(gpointer data) { PurpleDnsQueryData *query_data = data; /* We're done, so purple_dnsquery_destroy() shouldn't think it is canceling an in-progress lookup */ query_data->resolver = NULL; if (query_data->error_message != NULL) purple_dnsquery_failed(query_data, query_data->error_message); else { GSList *hosts; /* We don't want purple_dns_query_resolved() to free(hosts) */ hosts = query_data->hosts; query_data->hosts = NULL; purple_dnsquery_resolved(query_data, hosts); } return FALSE; } static gpointer dns_thread(gpointer data) { PurpleDnsQueryData *query_data; #ifdef HAVE_GETADDRINFO int rc; struct addrinfo hints, *res, *tmp; char servname[20]; #else struct sockaddr_in sin; struct hostent *hp; #endif char *hostname; query_data = data; #ifdef USE_IDN if (!dns_str_is_ascii(query_data->hostname)) { rc = purple_network_convert_idn_to_ascii(query_data->hostname, &hostname); if (rc != 0) { query_data->error_message = g_strdup_printf(_("Error converting %s " "to punycode: %d"), query_data->hostname, rc); /* back to main thread */ purple_timeout_add(0, dns_main_thread_cb, query_data); return 0; } } else /* intentional fallthru */ #endif hostname = g_strdup(query_data->hostname); #ifdef HAVE_GETADDRINFO g_snprintf(servname, sizeof(servname), "%d", query_data->port); memset(&hints,0,sizeof(hints)); /* * This is only used to convert a service * name to a port number. As we know we are * passing a number already, we know this * value will not be really used by the C * library. */ hints.ai_socktype = SOCK_STREAM; #ifdef AI_ADDRCONFIG hints.ai_flags |= AI_ADDRCONFIG; #endif /* AI_ADDRCONFIG */ if ((rc = getaddrinfo(hostname, servname, &hints, &res)) == 0) { tmp = res; while(res) { query_data->hosts = g_slist_append(query_data->hosts, GSIZE_TO_POINTER(res->ai_addrlen)); query_data->hosts = g_slist_append(query_data->hosts, g_memdup(res->ai_addr, res->ai_addrlen)); res = res->ai_next; } freeaddrinfo(tmp); } else { query_data->error_message = g_strdup_printf(_("Error resolving %s:\n%s"), query_data->hostname, purple_gai_strerror(rc)); } #else if ((hp = gethostbyname(hostname))) { memset(&sin, 0, sizeof(struct sockaddr_in)); memcpy(&sin.sin_addr.s_addr, hp->h_addr, hp->h_length); sin.sin_family = hp->h_addrtype; sin.sin_port = htons(query_data->port); query_data->hosts = g_slist_append(query_data->hosts, GSIZE_TO_POINTER(sizeof(sin))); query_data->hosts = g_slist_append(query_data->hosts, g_memdup(&sin, sizeof(sin))); } else { query_data->error_message = g_strdup_printf(_("Error resolving %s: %d"), query_data->hostname, h_errno); } #endif g_free(hostname); /* back to main thread */ purple_timeout_add(0, dns_main_thread_cb, query_data); return 0; } static gboolean resolve_host(gpointer data) { PurpleDnsQueryData *query_data; GError *err = NULL; query_data = data; query_data->timeout = 0; if (purple_dnsquery_ui_resolve(query_data)) { /* The UI is handling the resolve; we're done */ return FALSE; } if (!resolve_ip(query_data)) { /* * Spin off a separate thread to perform the DNS lookup so * that we don't block the UI. */ query_data->resolver = g_thread_create(dns_thread, query_data, FALSE, &err); if (query_data->resolver == NULL) { char message[1024]; g_snprintf(message, sizeof(message), _("Thread creation failure: %s"), (err && err->message) ? err->message : _("Unknown reason")); g_error_free(err); purple_dnsquery_failed(query_data, message); } } return FALSE; } PurpleDnsQueryData * purple_dnsquery_a(const char *hostname, int port, PurpleDnsQueryConnectFunction callback, gpointer data) { PurpleDnsQueryData *query_data; g_return_val_if_fail(hostname != NULL, NULL); g_return_val_if_fail(port != 0, NULL); g_return_val_if_fail(callback != NULL, NULL); purple_debug_info("dnsquery", "Performing DNS lookup for %s\n", hostname); query_data = g_new0(PurpleDnsQueryData, 1); query_data->hostname = g_strdup(hostname); g_strstrip(query_data->hostname); query_data->port = port; query_data->callback = callback; query_data->data = data; if (strlen(query_data->hostname) == 0) { purple_dnsquery_destroy(query_data); g_return_val_if_reached(NULL); } /* Don't call the callback before returning */ query_data->timeout = purple_timeout_add(0, resolve_host, query_data); return query_data; } #else /* not PURPLE_DNSQUERY_USE_FORK or _WIN32 */ /* * We weren't able to do anything fancier above, so use the * fail-safe name resolution code, which is blocking. */ static gboolean resolve_host(gpointer data) { PurpleDnsQueryData *query_data; struct sockaddr_in sin; GSList *hosts = NULL; query_data = data; query_data->timeout = 0; if (purple_dnsquery_ui_resolve(query_data)) { /* The UI is handling the resolve; we're done */ return FALSE; } if (!inet_aton(query_data->hostname, &sin.sin_addr)) { struct hostent *hp; gchar *hostname; #ifdef USE_IDN if (!dns_str_is_ascii(query_data->hostname)) { int ret = purple_network_convert_idn_to_ascii(query_data->hostname, &hostname); if (ret != 0) { char message[1024]; g_snprintf(message, sizeof(message), _("Error resolving %s: %d"), query_data->hostname, ret); purple_dnsquery_failed(query_data, message); return FALSE; } } else /* fallthrough is intentional to the g_strdup */ #endif hostname = g_strdup(query_data->hostname); if(!(hp = gethostbyname(hostname))) { char message[1024]; g_snprintf(message, sizeof(message), _("Error resolving %s: %d"), query_data->hostname, h_errno); purple_dnsquery_failed(query_data, message); g_free(hostname); return FALSE; } memset(&sin, 0, sizeof(struct sockaddr_in)); memcpy(&sin.sin_addr.s_addr, hp->h_addr, hp->h_length); sin.sin_family = hp->h_addrtype; g_free(hostname); } else sin.sin_family = AF_INET; sin.sin_port = htons(query_data->port); hosts = g_slist_append(hosts, GINT_TO_POINTER(sizeof(sin))); hosts = g_slist_append(hosts, g_memdup(&sin, sizeof(sin))); purple_dnsquery_resolved(query_data, hosts); return FALSE; } PurpleDnsQueryData * purple_dnsquery_a(const char *hostname, int port, PurpleDnsQueryConnectFunction callback, gpointer data) { PurpleDnsQueryData *query_data; g_return_val_if_fail(hostname != NULL, NULL); g_return_val_if_fail(port != 0, NULL); g_return_val_if_fail(callback != NULL, NULL); query_data = g_new(PurpleDnsQueryData, 1); query_data->hostname = g_strdup(hostname); g_strstrip(query_data->hostname); query_data->port = port; query_data->callback = callback; query_data->data = data; if (strlen(query_data->hostname) == 0) { purple_dnsquery_destroy(query_data); g_return_val_if_reached(NULL); } /* Don't call the callback before returning */ query_data->timeout = purple_timeout_add(0, resolve_host, query_data); return query_data; } #endif /* not PURPLE_DNSQUERY_USE_FORK or _WIN32 */ void purple_dnsquery_destroy(PurpleDnsQueryData *query_data) { PurpleDnsQueryUiOps *ops = purple_dnsquery_get_ui_ops(); if (ops && ops->destroy) ops->destroy(query_data); #if defined(PURPLE_DNSQUERY_USE_FORK) queued_requests = g_slist_remove(queued_requests, query_data); if (query_data->resolver != NULL) /* * This is only non-NULL when we're cancelling an in-progress * query. Ideally we would tell our resolver child to stop * resolving shit and then we would add it back to the * free_dns_children linked list. However, it's hard to tell * children stuff, they just don't listen. So we'll just * kill the process and allow a new child to be started if we * have more stuff to resolve. */ purple_dnsquery_resolver_destroy(query_data->resolver); #elif defined _WIN32 /* end PURPLE_DNSQUERY_USE_FORK */ if (query_data->resolver != NULL) { /* * It's not really possible to kill a thread. So instead we * just set the callback to NULL and let the DNS lookup * finish. */ query_data->callback = NULL; return; } while (query_data->hosts != NULL) { /* Discard the length... */ query_data->hosts = g_slist_remove(query_data->hosts, query_data->hosts->data); /* Free the address... */ g_free(query_data->hosts->data); query_data->hosts = g_slist_remove(query_data->hosts, query_data->hosts->data); } g_free(query_data->error_message); #endif /* end _WIN32 */ if (query_data->timeout > 0) purple_timeout_remove(query_data->timeout); g_free(query_data->hostname); g_free(query_data); } char * purple_dnsquery_get_host(PurpleDnsQueryData *query_data) { g_return_val_if_fail(query_data != NULL, NULL); return query_data->hostname; } unsigned short purple_dnsquery_get_port(PurpleDnsQueryData *query_data) { g_return_val_if_fail(query_data != NULL, 0); return query_data->port; } void purple_dnsquery_set_ui_ops(PurpleDnsQueryUiOps *ops) { dns_query_ui_ops = ops; } PurpleDnsQueryUiOps * purple_dnsquery_get_ui_ops(void) { /* It is perfectly acceptable for dns_query_ui_ops to be NULL; this just * means that the default platform-specific implementation will be used. */ return dns_query_ui_ops; } void purple_dnsquery_init(void) { } void purple_dnsquery_uninit(void) { #if defined(PURPLE_DNSQUERY_USE_FORK) while (free_dns_children != NULL) { purple_dnsquery_resolver_destroy(free_dns_children->data); free_dns_children = g_slist_remove(free_dns_children, free_dns_children->data); } #endif /* end PURPLE_DNSQUERY_USE_FORK */ }