/* * Remmina - The GTK+ Remote Desktop Client * Copyright (C) 2009-2011 Vic Lee * Copyright (C) 2014-2015 Antenore Gatta, Fabio Castelli, Giovanni Panozzo * Copyright (C) 2016-2023 Antenore Gatta, Giovanni Panozzo * * 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 02110-1301, USA. * * In addition, as a special exception, the copyright holders give * permission to link the code of portions of this program with the * OpenSSL library under certain conditions as described in each * individual source file, and distribute linked combinations * including the two. * You must obey the GNU General Public License in all respects * for all of the code used other than OpenSSL. * If you modify * file(s) with this exception, you may extend this exception to your * version of the file(s), but you are not obligated to do so. * If you * do not wish to do so, delete this exception statement from your * version. * If you delete this exception statement from all source * files in the program, then also delete it here. * */ #include "config.h" #include #include #include #include #include #include "remmina_chat_window.h" #include "remmina_masterthread_exec.h" #include "remmina_ext_exec.h" #include "remmina_plugin_manager.h" #include "remmina_pref.h" #include "remmina_protocol_widget.h" #include "remmina_public.h" #include "remmina_ssh.h" #include "remmina_log.h" #include "remmina/remmina_trace_calls.h" #ifdef GDK_WINDOWING_WAYLAND #include #endif struct _RemminaProtocolWidgetPriv { RemminaFile * remmina_file; RemminaProtocolPlugin * plugin; RemminaProtocolFeature *features; gint width; gint height; RemminaScaleMode scalemode; gboolean scaler_expand; gboolean has_error; gchar * error_message; gboolean user_disconnect; /* ssh_tunnels is an array of RemminaSSHTunnel* * the 1st one is the "main" tunnel, other tunnels are used for example in sftp commands */ GPtrArray * ssh_tunnels; RemminaTunnelInitFunc init_func; GtkWidget * chat_window; gboolean closed; RemminaHostkeyFunc hostkey_func; gint profile_remote_width; gint profile_remote_height; gint multimon; RemminaMessagePanel * connect_message_panel; RemminaMessagePanel * listen_message_panel; RemminaMessagePanel * auth_message_panel; RemminaMessagePanel * retry_message_panel; /* Data saved from the last message_panel when the user confirm */ gchar * username; gchar * password; gchar * domain; gboolean save_password; gchar * cacert; gchar * cacrl; gchar * clientcert; gchar * clientkey; }; enum panel_type { RPWDT_AUTH, RPWDT_QUESTIONYESNO, RPWDT_AUTHX509 }; G_DEFINE_TYPE(RemminaProtocolWidget, remmina_protocol_widget, GTK_TYPE_EVENT_BOX) enum { CONNECT_SIGNAL, DISCONNECT_SIGNAL, DESKTOP_RESIZE_SIGNAL, UPDATE_ALIGN_SIGNAL, LOCK_DYNRES_SIGNAL, UNLOCK_DYNRES_SIGNAL, LAST_SIGNAL }; typedef struct _RemminaProtocolWidgetSignalData { RemminaProtocolWidget * gp; const gchar * signal_name; } RemminaProtocolWidgetSignalData; static guint remmina_protocol_widget_signals[LAST_SIGNAL] = { 0 }; static void remmina_protocol_widget_class_init(RemminaProtocolWidgetClass *klass) { TRACE_CALL(__func__); remmina_protocol_widget_signals[CONNECT_SIGNAL] = g_signal_new("connect", G_TYPE_FROM_CLASS(klass), G_SIGNAL_RUN_LAST | G_SIGNAL_ACTION, G_STRUCT_OFFSET(RemminaProtocolWidgetClass, connect), NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); remmina_protocol_widget_signals[DISCONNECT_SIGNAL] = g_signal_new("disconnect", G_TYPE_FROM_CLASS(klass), G_SIGNAL_RUN_LAST | G_SIGNAL_ACTION, G_STRUCT_OFFSET(RemminaProtocolWidgetClass, disconnect), NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); remmina_protocol_widget_signals[DESKTOP_RESIZE_SIGNAL] = g_signal_new("desktop-resize", G_TYPE_FROM_CLASS(klass), G_SIGNAL_RUN_LAST | G_SIGNAL_ACTION, G_STRUCT_OFFSET(RemminaProtocolWidgetClass, desktop_resize), NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); remmina_protocol_widget_signals[UPDATE_ALIGN_SIGNAL] = g_signal_new("update-align", G_TYPE_FROM_CLASS(klass), G_SIGNAL_RUN_LAST | G_SIGNAL_ACTION, G_STRUCT_OFFSET(RemminaProtocolWidgetClass, update_align), NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); remmina_protocol_widget_signals[LOCK_DYNRES_SIGNAL] = g_signal_new("lock-dynres", G_TYPE_FROM_CLASS(klass), G_SIGNAL_RUN_LAST | G_SIGNAL_ACTION, G_STRUCT_OFFSET(RemminaProtocolWidgetClass, lock_dynres), NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); remmina_protocol_widget_signals[UNLOCK_DYNRES_SIGNAL] = g_signal_new("unlock-dynres", G_TYPE_FROM_CLASS(klass), G_SIGNAL_RUN_LAST | G_SIGNAL_ACTION, G_STRUCT_OFFSET(RemminaProtocolWidgetClass, unlock_dynres), NULL, NULL, g_cclosure_marshal_VOID__VOID, G_TYPE_NONE, 0); } static void remmina_protocol_widget_close_all_tunnels(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); int i; if (gp->priv && gp->priv->ssh_tunnels) { for (i = 0; i < gp->priv->ssh_tunnels->len; i++) { #ifdef HAVE_LIBSSH remmina_ssh_tunnel_free((RemminaSSHTunnel *)gp->priv->ssh_tunnels->pdata[i]); #else REMMINA_DEBUG("LibSSH support turned off, no need to free SSH tunnel data"); #endif } g_ptr_array_set_size(gp->priv->ssh_tunnels, 0); } } static void remmina_protocol_widget_destroy(RemminaProtocolWidget *gp, gpointer data) { TRACE_CALL(__func__); g_free(gp->priv->username); gp->priv->username = NULL; g_free(gp->priv->password); gp->priv->password = NULL; g_free(gp->priv->domain); gp->priv->domain = NULL; g_free(gp->priv->cacert); gp->priv->cacert = NULL; g_free(gp->priv->cacrl); gp->priv->cacrl = NULL; g_free(gp->priv->clientcert); gp->priv->clientcert = NULL; g_free(gp->priv->clientkey); gp->priv->clientkey = NULL; g_free(gp->priv->features); gp->priv->features = NULL; g_free(gp->priv->error_message); gp->priv->error_message = NULL; g_free(gp->priv->remmina_file); gp->priv->remmina_file = NULL; g_free(gp->priv); gp->priv = NULL; remmina_protocol_widget_close_all_tunnels(gp); if (gp->priv && gp->priv->ssh_tunnels) { g_ptr_array_free(gp->priv->ssh_tunnels, TRUE); gp->priv->ssh_tunnels = NULL; } } void remmina_protocol_widget_grab_focus(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); GtkWidget *child; child = gtk_bin_get_child(GTK_BIN(gp)); if (child) { gtk_widget_set_can_focus(child, TRUE); gtk_widget_grab_focus(child); } } static void remmina_protocol_widget_init(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); RemminaProtocolWidgetPriv *priv; priv = g_new0(RemminaProtocolWidgetPriv, 1); gp->priv = priv; gp->priv->user_disconnect = FALSE; gp->priv->closed = TRUE; gp->priv->ssh_tunnels = g_ptr_array_new(); g_signal_connect(G_OBJECT(gp), "destroy", G_CALLBACK(remmina_protocol_widget_destroy), NULL); } void remmina_protocol_widget_open_connection_real(gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = REMMINA_PROTOCOL_WIDGET(data); REMMINA_DEBUG("Opening connection"); RemminaProtocolPlugin *plugin; RemminaProtocolFeature *feature; gint num_plugin; gint num_ssh; gp->priv->closed = FALSE; plugin = gp->priv->plugin; plugin->init(gp); for (num_plugin = 0, feature = (RemminaProtocolFeature *)plugin->features; feature && feature->type; num_plugin++, feature++) { } num_ssh = 0; #ifdef HAVE_LIBSSH if (remmina_file_get_int(gp->priv->remmina_file, "ssh_tunnel_enabled", FALSE)) num_ssh += 2; #endif if (num_plugin + num_ssh == 0) { gp->priv->features = NULL; } else { gp->priv->features = g_new0(RemminaProtocolFeature, num_plugin + num_ssh + 1); feature = gp->priv->features; if (plugin->features) { memcpy(feature, plugin->features, sizeof(RemminaProtocolFeature) * num_plugin); feature += num_plugin; } #ifdef HAVE_LIBSSH REMMINA_DEBUG("Have SSH"); if (num_ssh) { feature->type = REMMINA_PROTOCOL_FEATURE_TYPE_TOOL; feature->id = REMMINA_PROTOCOL_FEATURE_TOOL_SSH; feature->opt1 = _("Connect via SSH from a new terminal"); feature->opt1_type_hint = REMMINA_TYPEHINT_STRING; feature->opt2 = "utilities-terminal"; feature->opt2_type_hint = REMMINA_TYPEHINT_STRING; feature->opt3 = NULL; feature->opt3_type_hint = REMMINA_TYPEHINT_UNDEFINED; feature++; feature->type = REMMINA_PROTOCOL_FEATURE_TYPE_TOOL; feature->id = REMMINA_PROTOCOL_FEATURE_TOOL_SFTP; feature->opt1 = _("Open SFTP transfer…"); feature->opt1_type_hint = REMMINA_TYPEHINT_STRING; feature->opt2 = "folder-remote"; feature->opt2_type_hint = REMMINA_TYPEHINT_STRING; feature->opt3 = NULL; feature->opt3_type_hint = REMMINA_TYPEHINT_UNDEFINED; feature++; } feature->type = REMMINA_PROTOCOL_FEATURE_TYPE_END; #endif } if (!plugin->open_connection(gp)) remmina_protocol_widget_close_connection(gp); } static void cancel_open_connection_cb(void *cbdata, int btn) { RemminaProtocolWidget *gp = (RemminaProtocolWidget *)cbdata; remmina_protocol_widget_close_connection(gp); } void remmina_protocol_widget_open_connection(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); gchar *s; const gchar *name; RemminaMessagePanel *mp; /* Exec precommand before everything else */ mp = remmina_message_panel_new(); remmina_message_panel_setup_progress(mp, _("Executing external commands…"), NULL, NULL); rco_show_message_panel(gp->cnnobj, mp); remmina_ext_exec_new(gp->priv->remmina_file, "precommand"); rco_destroy_message_panel(gp->cnnobj, mp); name = remmina_file_get_string(gp->priv->remmina_file, "name"); // TRANSLATORS: “%s” is a placeholder for the connection profile name s = g_strdup_printf(_("Connecting to “%s”…"), (name ? name : "*")); mp = remmina_message_panel_new(); remmina_message_panel_setup_progress(mp, s, cancel_open_connection_cb, gp); g_free(s); gp->priv->connect_message_panel = mp; rco_show_message_panel(gp->cnnobj, mp); remmina_protocol_widget_open_connection_real(gp); } static gboolean conn_closed_real(gpointer data, int button){ TRACE_CALL(__func__); RemminaProtocolWidget *gp = (RemminaProtocolWidget *)data; #ifdef HAVE_LIBSSH /* This will close all tunnels */ remmina_protocol_widget_close_all_tunnels(gp); #endif /* Exec postcommand */ remmina_ext_exec_new(gp->priv->remmina_file, "postcommand"); /* Notify listeners (usually rcw) that the connection is closed */ g_signal_emit_by_name(G_OBJECT(gp), "disconnect"); return G_SOURCE_REMOVE; } static gboolean conn_closed(gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = (RemminaProtocolWidget *)data; int disconnect_prompt = remmina_file_get_int(gp->priv->remmina_file, "disconnect-prompt", FALSE); if (!gp->priv->user_disconnect && !gp->priv->has_error && disconnect_prompt){ const char* msg = "Plugin Disconnected"; if (gp->priv->has_error){ msg = remmina_protocol_widget_get_error_message(gp); remmina_protocol_widget_set_error(gp, NULL); } gp->priv->user_disconnect = FALSE; RemminaMessagePanel* mp = remmina_message_panel_new(); remmina_message_panel_setup_message(mp, msg, (RemminaMessagePanelCallback)conn_closed_real, gp); rco_show_message_panel(gp->cnnobj, mp); return G_SOURCE_REMOVE; } else{ return conn_closed_real(gp, 0); } } void remmina_protocol_widget_signal_connection_closed(RemminaProtocolWidget *gp) { /* User told us that they closed the connection, * or the connection was closed with a known error, * add async event to main thread to complete our close tasks */ TRACE_CALL(__func__); gp->priv->closed = TRUE; g_idle_add(conn_closed, (gpointer)gp); } static gboolean conn_opened(gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = (RemminaProtocolWidget *)data; #ifdef HAVE_LIBSSH if (gp->priv->ssh_tunnels) { for (guint i = 0; i < gp->priv->ssh_tunnels->len; i++) remmina_ssh_tunnel_cancel_accept((RemminaSSHTunnel *)gp->priv->ssh_tunnels->pdata[i]); } #endif if (gp->priv->listen_message_panel) { rco_destroy_message_panel(gp->cnnobj, gp->priv->listen_message_panel); gp->priv->listen_message_panel = NULL; } if (gp->priv->connect_message_panel) { rco_destroy_message_panel(gp->cnnobj, gp->priv->connect_message_panel); gp->priv->connect_message_panel = NULL; } if (gp->priv->retry_message_panel) { rco_destroy_message_panel(gp->cnnobj, gp->priv->retry_message_panel); gp->priv->retry_message_panel = NULL; } g_signal_emit_by_name(G_OBJECT(gp), "connect"); return G_SOURCE_REMOVE; } void remmina_protocol_widget_signal_connection_opened(RemminaProtocolWidget *gp) { /* Plugin told us that it opened the connection, * add async event to main thread to complete our close tasks */ TRACE_CALL(__func__); g_idle_add(conn_opened, (gpointer)gp); } static gboolean update_align(gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = (RemminaProtocolWidget *)data; g_signal_emit_by_name(G_OBJECT(gp), "update-align"); return G_SOURCE_REMOVE; } void remmina_protocol_widget_update_align(RemminaProtocolWidget *gp) { /* Called by the plugin to do updates on rcw */ TRACE_CALL(__func__); g_idle_add(update_align, (gpointer)gp); } static gboolean lock_dynres(gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = (RemminaProtocolWidget *)data; g_signal_emit_by_name(G_OBJECT(gp), "lock-dynres"); return G_SOURCE_REMOVE; } static gboolean unlock_dynres(gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = (RemminaProtocolWidget *)data; g_signal_emit_by_name(G_OBJECT(gp), "unlock-dynres"); return G_SOURCE_REMOVE; } void remmina_protocol_widget_lock_dynres(RemminaProtocolWidget *gp) { /* Called by the plugin to do updates on rcw */ TRACE_CALL(__func__); g_idle_add(lock_dynres, (gpointer)gp); } void remmina_protocol_widget_unlock_dynres(RemminaProtocolWidget *gp) { /* Called by the plugin to do updates on rcw */ TRACE_CALL(__func__); g_idle_add(unlock_dynres, (gpointer)gp); } static gboolean desktop_resize(gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = (RemminaProtocolWidget *)data; g_signal_emit_by_name(G_OBJECT(gp), "desktop-resize"); return G_SOURCE_REMOVE; } void remmina_protocol_widget_desktop_resize(RemminaProtocolWidget *gp) { /* Called by the plugin to do updates on rcw */ TRACE_CALL(__func__); g_idle_add(desktop_resize, (gpointer)gp); } void remmina_protocol_widget_close_connection(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); /* kindly ask the protocol plugin to close the connection. * Nothing else is done here. */ if (!GTK_IS_WIDGET(gp)) return; if (gp->priv->chat_window) { gtk_widget_destroy(gp->priv->chat_window); gp->priv->chat_window = NULL; } if (gp->priv->closed) { /* Connection is already closed by the plugin, but * rcw is asking to close again (usually after an error panel) */ /* Clear the current error, or "disconnect" signal func will reshow a panel */ remmina_protocol_widget_set_error(gp, NULL); g_signal_emit_by_name(G_OBJECT(gp), "disconnect"); return; } gp->priv->user_disconnect = TRUE; /* Ask the plugin to close, async. * The plugin will emit a "disconnect" signal on gp to call our * remmina_protocol_widget_on_disconnected() when done */ gp->priv->plugin->close_connection(gp); return; } /** Check if the plugin accepts keystrokes. */ gboolean remmina_protocol_widget_plugin_receives_keystrokes(RemminaProtocolWidget *gp) { return gp->priv->plugin->send_keystrokes ? TRUE : FALSE; } /** * Send to the plugin some keystrokes. */ void remmina_protocol_widget_send_keystrokes(RemminaProtocolWidget *gp, GtkMenuItem *widget) { TRACE_CALL(__func__); gchar *keystrokes = g_object_get_data(G_OBJECT(widget), "keystrokes"); guint *keyvals; gint i; GdkKeymap *keymap = gdk_keymap_get_for_display(gdk_display_get_default()); gunichar character; guint keyval; GdkKeymapKey *keys; gint n_keys; /* Single keystroke replace */ typedef struct _KeystrokeReplace { gchar * search; gchar * replace; guint keyval; } KeystrokeReplace; /* Special characters to replace */ KeystrokeReplace keystrokes_replaces[] = { { "\\n", "\n", GDK_KEY_Return }, { "\\t", "\t", GDK_KEY_Tab }, { "\\b", "\b", GDK_KEY_BackSpace }, { "\\e", "\e", GDK_KEY_Escape }, { "\\\\", "\\", GDK_KEY_backslash }, { NULL, NULL, 0 } }; /* Keystrokes can only be sent to plugins that accepts them */ if (remmina_protocol_widget_plugin_receives_keystrokes(gp)) { /* Replace special characters */ for (i = 0; keystrokes_replaces[i].replace; i++) { REMMINA_DEBUG("Keystrokes before replacement is \'%s\'", keystrokes); keystrokes = g_strdup(remmina_public_str_replace_in_place(keystrokes, keystrokes_replaces[i].search, keystrokes_replaces[i].replace)); REMMINA_DEBUG("Keystrokes after replacement is \'%s\'", keystrokes); } gchar *iter = g_strdup(keystrokes); keyvals = (guint *)g_malloc(strlen(keystrokes)); while (TRUE) { /* Process each character in the keystrokes */ character = g_utf8_get_char_validated(iter, -1); if (character == 0) break; keyval = gdk_unicode_to_keyval(character); /* Replace all the special character with its keyval */ for (i = 0; keystrokes_replaces[i].replace; i++) { if (character == keystrokes_replaces[i].replace[0]) { keys = g_new0(GdkKeymapKey, 1); keyval = keystrokes_replaces[i].keyval; /* A special character was generated, no keyval lookup needed */ character = 0; break; } } /* Decode character if it’s not a special character */ if (character) { /* get keyval without modifications */ if (!gdk_keymap_get_entries_for_keyval(keymap, keyval, &keys, &n_keys)) { g_warning("keyval 0x%04x has no keycode!", keyval); iter = g_utf8_find_next_char(iter, NULL); continue; } } /* Add modifier keys */ n_keys = 0; if (keys->level & 1) keyvals[n_keys++] = GDK_KEY_Shift_L; if (keys->level & 2) keyvals[n_keys++] = GDK_KEY_Alt_R; keyvals[n_keys++] = keyval; /* Send keystroke to the plugin */ gp->priv->plugin->send_keystrokes(gp, keyvals, n_keys); g_free(keys); /* Process next character in the keystrokes */ iter = g_utf8_find_next_char(iter, NULL); } g_free(keyvals); } g_free(keystrokes); return; } /** * Send to the plugin some keystrokes from the content of the clipboard * This is a copy of remmina_protocol_widget_send_keystrokes but it uses the clipboard content * get from remmina_protocol_widget_send_clipboard * Probably we don't need the replacement table. */ void remmina_protocol_widget_send_clip_strokes(GtkClipboard *clipboard, const gchar *clip_text, gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = REMMINA_PROTOCOL_WIDGET(data); gchar *text = g_utf8_normalize(clip_text, -1, G_NORMALIZE_DEFAULT_COMPOSE); guint *keyvals; gint i; GdkKeymap *keymap = gdk_keymap_get_for_display(gdk_display_get_default()); gunichar character; guint keyval; GdkKeymapKey *keys; gint n_keys; /* Single keystroke replace */ typedef struct _KeystrokeReplace { gchar * search; gchar * replace; guint keyval; } KeystrokeReplace; /* Special characters to replace */ KeystrokeReplace text_replaces[] = { { "\\n", "\n", GDK_KEY_Return }, { "\\t", "\t", GDK_KEY_Tab }, { "\\b", "\b", GDK_KEY_BackSpace }, { "\\e", "\e", GDK_KEY_Escape }, { "\\\\", "\\", GDK_KEY_backslash }, { NULL, NULL, 0 } }; if (remmina_protocol_widget_plugin_receives_keystrokes(gp)) { if (text) { /* Replace special characters */ for (i = 0; text_replaces[i].replace; i++) { REMMINA_DEBUG("Text clipboard before replacement is \'%s\'", text); text = g_strdup(remmina_public_str_replace_in_place(text, text_replaces[i].search, text_replaces[i].replace)); REMMINA_DEBUG("Text clipboard after replacement is \'%s\'", text); } gchar *iter = g_strdup(text); REMMINA_DEBUG("Iter: %s", iter), keyvals = (guint *)g_malloc(strlen(text)); while (TRUE) { /* Process each character in the keystrokes */ character = g_utf8_get_char_validated(iter, -1); REMMINA_DEBUG("Char: U+%04" G_GINT32_FORMAT"X", character); if (character == 0) break; keyval = gdk_unicode_to_keyval(character); REMMINA_DEBUG("Keyval: %u", keyval); /* Replace all the special character with its keyval */ for (i = 0; text_replaces[i].replace; i++) { if (character == text_replaces[i].replace[0]) { keys = g_new0(GdkKeymapKey, 1); keyval = text_replaces[i].keyval; REMMINA_DEBUG("Special Keyval: %u", keyval); /* A special character was generated, no keyval lookup needed */ character = 0; break; } } /* Decode character if it’s not a special character */ if (character) { /* get keyval without modifications */ if (!gdk_keymap_get_entries_for_keyval(keymap, keyval, &keys, &n_keys)) { REMMINA_WARNING("keyval 0x%04x has no keycode!", keyval); iter = g_utf8_find_next_char(iter, NULL); continue; } } /* Add modifier keys */ n_keys = 0; if (keys->level & 1) keyvals[n_keys++] = GDK_KEY_Shift_L; if (keys->level & 2) keyvals[n_keys++] = GDK_KEY_Alt_R; /* * @fixme heap buffer overflow * In some cases, for example sending \t as the only sequence * may lead to a buffer overflow */ keyvals[n_keys++] = keyval; /* Send keystroke to the plugin */ gp->priv->plugin->send_keystrokes(gp, keyvals, n_keys); g_free(keys); /* Process next character in the keystrokes */ iter = g_utf8_find_next_char(iter, NULL); } g_free(keyvals); } g_free(text); } return; } void remmina_protocol_widget_send_clipboard(RemminaProtocolWidget *gp, GObject*widget) { TRACE_CALL(__func__); GtkClipboard *clipboard; clipboard = gtk_clipboard_get(GDK_SELECTION_CLIPBOARD); /* Request the contents of the clipboard, contents_received will be * called when we do get the contents. */ gtk_clipboard_request_text(clipboard, remmina_protocol_widget_send_clip_strokes, gp); } gboolean remmina_protocol_widget_plugin_screenshot(RemminaProtocolWidget *gp, RemminaPluginScreenshotData *rpsd) { TRACE_CALL(__func__); if (!gp->priv->plugin->get_plugin_screenshot) { REMMINA_DEBUG("plugin screenshot function is not implemented, using core Remmina functionality"); return FALSE; } return gp->priv->plugin->get_plugin_screenshot(gp, rpsd); } gboolean remmina_protocol_widget_map_event(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); if (!gp->priv->plugin->map_event) { REMMINA_DEBUG("Map plugin function not implemented"); return FALSE; } REMMINA_DEBUG("Calling plugin mapping function"); return gp->priv->plugin->map_event(gp); } gboolean remmina_protocol_widget_unmap_event(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); if (!gp->priv->plugin->unmap_event) { REMMINA_DEBUG("Unmap plugin function not implemented"); return FALSE; } REMMINA_DEBUG("Calling plugin unmapping function"); return gp->priv->plugin->unmap_event(gp); } void remmina_protocol_widget_emit_signal(RemminaProtocolWidget *gp, const gchar *signal_name) { TRACE_CALL(__func__); REMMINA_DEBUG("Emitting signals should be used from the object itself, not from another object"); raise(SIGINT); if (!remmina_masterthread_exec_is_main_thread()) { /* Allow the execution of this function from a non main thread */ RemminaMTExecData *d; d = (RemminaMTExecData *)g_malloc(sizeof(RemminaMTExecData)); d->func = FUNC_PROTOCOLWIDGET_EMIT_SIGNAL; d->p.protocolwidget_emit_signal.signal_name = signal_name; d->p.protocolwidget_emit_signal.gp = gp; remmina_masterthread_exec_and_wait(d); g_free(d); return; } g_signal_emit_by_name(G_OBJECT(gp), signal_name); } const RemminaProtocolFeature *remmina_protocol_widget_get_features(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->features; } gboolean remmina_protocol_widget_query_feature_by_type(RemminaProtocolWidget *gp, RemminaProtocolFeatureType type) { TRACE_CALL(__func__); const RemminaProtocolFeature *feature; #ifdef HAVE_LIBSSH if (type == REMMINA_PROTOCOL_FEATURE_TYPE_TOOL && remmina_file_get_int(gp->priv->remmina_file, "ssh_tunnel_enabled", FALSE)) return TRUE; #endif for (feature = gp->priv->plugin->features; feature && feature->type; feature++) if (feature->type == type) return TRUE; return FALSE; } gboolean remmina_protocol_widget_query_feature_by_ref(RemminaProtocolWidget *gp, const RemminaProtocolFeature *feature) { TRACE_CALL(__func__); return gp->priv->plugin->query_feature(gp, feature); } void remmina_protocol_widget_call_feature_by_type(RemminaProtocolWidget *gp, RemminaProtocolFeatureType type, gint id) { TRACE_CALL(__func__); const RemminaProtocolFeature *feature; for (feature = gp->priv->plugin->features; feature && feature->type; feature++) { if (feature->type == type && (id == 0 || feature->id == id)) { remmina_protocol_widget_call_feature_by_ref(gp, feature); break; } } } void remmina_protocol_widget_call_feature_by_ref(RemminaProtocolWidget *gp, const RemminaProtocolFeature *feature) { TRACE_CALL(__func__); switch (feature->id) { #ifdef HAVE_LIBSSH case REMMINA_PROTOCOL_FEATURE_TOOL_SSH: if (gp->priv->ssh_tunnels && gp->priv->ssh_tunnels->len > 0) { rcw_open_from_file_full( remmina_file_dup_temp_protocol(gp->priv->remmina_file, "SSH"), NULL, (RemminaSSHTunnel *)gp->priv->ssh_tunnels->pdata[0], NULL); return; } break; case REMMINA_PROTOCOL_FEATURE_TOOL_SFTP: if (gp->priv->ssh_tunnels && gp->priv->ssh_tunnels->len > 0) { rcw_open_from_file_full( remmina_file_dup_temp_protocol(gp->priv->remmina_file, "SFTP"), NULL, gp->priv->ssh_tunnels->pdata[0], NULL); return; } break; #endif default: break; } gp->priv->plugin->call_feature(gp, feature); } static gboolean remmina_protocol_widget_on_key_press(GtkWidget *widget, GdkEventKey *event, RemminaProtocolWidget *gp) { TRACE_CALL(__func__); if (gp->priv->hostkey_func) return gp->priv->hostkey_func(gp, event->keyval, FALSE); return FALSE; } static gboolean remmina_protocol_widget_on_key_release(GtkWidget *widget, GdkEventKey *event, RemminaProtocolWidget *gp) { TRACE_CALL(__func__); if (gp->priv->hostkey_func) return gp->priv->hostkey_func(gp, event->keyval, TRUE); return FALSE; } void remmina_protocol_widget_register_hostkey(RemminaProtocolWidget *gp, GtkWidget *widget) { TRACE_CALL(__func__); g_signal_connect(G_OBJECT(widget), "key-press-event", G_CALLBACK(remmina_protocol_widget_on_key_press), gp); g_signal_connect(G_OBJECT(widget), "key-release-event", G_CALLBACK(remmina_protocol_widget_on_key_release), gp); } void remmina_protocol_widget_set_hostkey_func(RemminaProtocolWidget *gp, RemminaHostkeyFunc func) { TRACE_CALL(__func__); gp->priv->hostkey_func = func; } RemminaMessagePanel *remmina_protocol_widget_mpprogress(RemminaConnectionObject *cnnobj, const gchar *msg, RemminaMessagePanelCallback response_callback, gpointer response_callback_data) { RemminaMessagePanel *mp; if (!remmina_masterthread_exec_is_main_thread()) { /* Allow the execution of this function from a non main thread */ RemminaMTExecData *d; d = (RemminaMTExecData *)g_malloc(sizeof(RemminaMTExecData)); d->func = FUNC_PROTOCOLWIDGET_MPPROGRESS; d->p.protocolwidget_mpprogress.cnnobj = cnnobj; d->p.protocolwidget_mpprogress.message = msg; d->p.protocolwidget_mpprogress.response_callback = response_callback; d->p.protocolwidget_mpprogress.response_callback_data = response_callback_data; remmina_masterthread_exec_and_wait(d); mp = d->p.protocolwidget_mpprogress.ret_mp; g_free(d); return mp; } mp = remmina_message_panel_new(); remmina_message_panel_setup_progress(mp, msg, response_callback, response_callback_data); rco_show_message_panel(cnnobj, mp); return mp; } void remmina_protocol_widget_mpdestroy(RemminaConnectionObject *cnnobj, RemminaMessagePanel *mp) { if (!remmina_masterthread_exec_is_main_thread()) { /* Allow the execution of this function from a non main thread */ RemminaMTExecData *d; d = (RemminaMTExecData *)g_malloc(sizeof(RemminaMTExecData)); d->func = FUNC_PROTOCOLWIDGET_MPDESTROY; d->p.protocolwidget_mpdestroy.cnnobj = cnnobj; d->p.protocolwidget_mpdestroy.mp = mp; remmina_masterthread_exec_and_wait(d); g_free(d); return; } rco_destroy_message_panel(cnnobj, mp); } #ifdef HAVE_LIBSSH static void cancel_init_tunnel_cb(void *cbdata, int btn) { printf("Remmina: Cancelling an opening tunnel is not implemented\n"); } static RemminaSSHTunnel *remmina_protocol_widget_init_tunnel(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); RemminaSSHTunnel *tunnel; gint ret; gchar *msg; RemminaMessagePanel *mp; gboolean partial = FALSE; gboolean cont = FALSE; tunnel = remmina_ssh_tunnel_new_from_file(gp->priv->remmina_file); REMMINA_DEBUG("Creating SSH tunnel to “%s” via SSH…", REMMINA_SSH(tunnel)->server); // TRANSLATORS: “%s” is a placeholder for an hostname or an IP address. msg = g_strdup_printf(_("Connecting to “%s” via SSH…"), REMMINA_SSH(tunnel)->server); mp = remmina_protocol_widget_mpprogress(gp->cnnobj, msg, cancel_init_tunnel_cb, NULL); g_free(msg); while (1) { if (!partial) { if (!remmina_ssh_init_session(REMMINA_SSH(tunnel))) { REMMINA_DEBUG("SSH Tunnel init session error: %s", REMMINA_SSH(tunnel)->error); remmina_protocol_widget_set_error(gp, REMMINA_SSH(tunnel)->error); // exit the loop here: OK break; } } ret = remmina_ssh_auth_gui(REMMINA_SSH(tunnel), gp, gp->priv->remmina_file); REMMINA_DEBUG("Tunnel auth returned %d", ret); switch (ret) { case REMMINA_SSH_AUTH_SUCCESS: REMMINA_DEBUG("Authentication success"); break; case REMMINA_SSH_AUTH_PARTIAL: REMMINA_DEBUG("Continue with the next auth method"); partial = TRUE; // Continue the loop: OK continue; break; case REMMINA_SSH_AUTH_RECONNECT: REMMINA_DEBUG("Reconnecting…"); if (REMMINA_SSH(tunnel)->session) { ssh_disconnect(REMMINA_SSH(tunnel)->session); ssh_free(REMMINA_SSH(tunnel)->session); REMMINA_SSH(tunnel)->session = NULL; } g_free(REMMINA_SSH(tunnel)->callback); // Continue the loop: OK continue; break; case REMMINA_SSH_AUTH_USERCANCEL: REMMINA_DEBUG("Interrupted by the user"); // exit the loop here: OK goto BREAK; break; default: REMMINA_DEBUG("Error during the authentication: %s", REMMINA_SSH(tunnel)->error); remmina_protocol_widget_set_error(gp, REMMINA_SSH(tunnel)->error); // exit the loop here: OK goto BREAK; } cont = TRUE; break; } #if 0 if (!remmina_ssh_init_session(REMMINA_SSH(tunnel))) { REMMINA_DEBUG("Cannot init SSH session with tunnel struct"); remmina_protocol_widget_set_error(gp, REMMINA_SSH(tunnel)->error); remmina_ssh_tunnel_free(tunnel); return NULL; } ret = remmina_ssh_auth_gui(REMMINA_SSH(tunnel), gp, gp->priv->remmina_file); REMMINA_DEBUG("Tunnel auth returned %d", ret); if (ret != REMMINA_SSH_AUTH_SUCCESS) { if (ret != REMMINA_SSH_AUTH_USERCANCEL) remmina_protocol_widget_set_error(gp, REMMINA_SSH(tunnel)->error); remmina_ssh_tunnel_free(tunnel); return NULL; } #endif BREAK: if (!cont) { remmina_ssh_tunnel_free(tunnel); return NULL; } remmina_protocol_widget_mpdestroy(gp->cnnobj, mp); return tunnel; } #endif #ifdef HAVE_LIBSSH static void cancel_start_direct_tunnel_cb(void *cbdata, int btn) { printf("Remmina: Cancelling start_direct_tunnel is not implemented\n"); } static gboolean remmina_protocol_widget_tunnel_destroy(RemminaSSHTunnel *tunnel, gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = REMMINA_PROTOCOL_WIDGET(data); guint idx = 0; #if GLIB_CHECK_VERSION(2, 54, 0) gboolean found = g_ptr_array_find(gp->priv->ssh_tunnels, tunnel, &idx); #else int i; gboolean found = FALSE; for (i = 0; i < gp->priv->ssh_tunnels->len; i++) { if ((RemminaSSHTunnel *)gp->priv->ssh_tunnels->pdata[i] == tunnel) { found = TRUE; idx = i; } } #endif printf("Tunnel %s found at idx = %d\n", found ? "yes": "not", idx); if (found) { #ifdef HAVE_LIBSSH REMMINA_DEBUG("[Tunnel with idx %u has been disconnected", idx); remmina_ssh_tunnel_free(tunnel); #endif g_ptr_array_remove(gp->priv->ssh_tunnels, tunnel); } return TRUE; } #endif /** * Start an SSH tunnel if possible and return the host:port string. * */ gchar *remmina_protocol_widget_start_direct_tunnel(RemminaProtocolWidget *gp, gint default_port, gboolean port_plus) { TRACE_CALL(__func__); const gchar *server; const gchar *ssh_tunnel_server; gchar *ssh_tunnel_host, *srv_host, *dest; gint srv_port, ssh_tunnel_port = 0; REMMINA_DEBUG("SSH tunnel initialization…"); server = remmina_file_get_string(gp->priv->remmina_file, "server"); ssh_tunnel_server = remmina_file_get_string(gp->priv->remmina_file, "ssh_tunnel_server"); if (!server) return g_strdup(""); if (strstr(g_strdup(server), "unix:///") != NULL) { REMMINA_DEBUG("%s is a UNIX socket", server); return g_strdup(server); } REMMINA_DEBUG("Calling remmina_public_get_server_port"); remmina_public_get_server_port(server, default_port, &srv_host, &srv_port); REMMINA_DEBUG("Calling remmina_public_get_server_port (tunnel)"); remmina_public_get_server_port(ssh_tunnel_server, 22, &ssh_tunnel_host, &ssh_tunnel_port); REMMINA_DEBUG("server: %s, port: %d", srv_host, srv_port); if (port_plus && srv_port < 100) /* Protocols like VNC supports using instance number :0, :1, etc. as port number. */ srv_port += default_port; #ifdef HAVE_LIBSSH gchar *msg; RemminaMessagePanel *mp; RemminaSSHTunnel *tunnel; if (!remmina_file_get_int(gp->priv->remmina_file, "ssh_tunnel_enabled", FALSE)) { dest = g_strdup_printf("[%s]:%i", srv_host, srv_port); g_free(srv_host); g_free(ssh_tunnel_host); return dest; } tunnel = remmina_protocol_widget_init_tunnel(gp); if (!tunnel) { g_free(srv_host); g_free(ssh_tunnel_host); REMMINA_DEBUG("remmina_protocol_widget_init_tunnel failed with error is %s", remmina_protocol_widget_get_error_message(gp)); return NULL; } // TRANSLATORS: “%s” is a placeholder for an hostname or an IP address. msg = g_strdup_printf(_("Connecting to “%s” via SSH…"), server); mp = remmina_protocol_widget_mpprogress(gp->cnnobj, msg, cancel_start_direct_tunnel_cb, NULL); g_free(msg); if (remmina_file_get_int(gp->priv->remmina_file, "ssh_tunnel_loopback", FALSE)) { g_free(srv_host); g_free(ssh_tunnel_host); ssh_tunnel_host = NULL; srv_host = g_strdup("127.0.0.1"); } REMMINA_DEBUG("Starting tunnel to: %s, port: %d", ssh_tunnel_host, ssh_tunnel_port); if (!remmina_ssh_tunnel_open(tunnel, srv_host, srv_port, remmina_pref.sshtunnel_port)) { g_free(srv_host); g_free(ssh_tunnel_host); remmina_protocol_widget_set_error(gp, REMMINA_SSH(tunnel)->error); remmina_ssh_tunnel_free(tunnel); return NULL; } g_free(srv_host); g_free(ssh_tunnel_host); remmina_protocol_widget_mpdestroy(gp->cnnobj, mp); tunnel->destroy_func = remmina_protocol_widget_tunnel_destroy; tunnel->destroy_func_callback_data = (gpointer)gp; g_ptr_array_add(gp->priv->ssh_tunnels, tunnel); return g_strdup_printf("127.0.0.1:%i", remmina_pref.sshtunnel_port); #else dest = g_strdup_printf("[%s]:%i", srv_host, srv_port); g_free(srv_host); g_free(ssh_tunnel_host); return dest; #endif } #ifdef HAVE_LIBSSH static void cancel_start_reverse_tunnel_cb(void *cbdata, int btn) { printf("Remmina: Cancelling start_reverse_tunnel is not implemented\n"); } #endif gboolean remmina_protocol_widget_start_reverse_tunnel(RemminaProtocolWidget *gp, gint local_port) { TRACE_CALL(__func__); #ifdef HAVE_LIBSSH gchar *msg; RemminaMessagePanel *mp; RemminaSSHTunnel *tunnel; if (!remmina_file_get_int(gp->priv->remmina_file, "ssh_tunnel_enabled", FALSE)) return TRUE; if (!(tunnel = remmina_protocol_widget_init_tunnel(gp))) return FALSE; // TRANSLATORS: “%i” is a placeholder for a TCP port number. msg = g_strdup_printf(_("Awaiting incoming SSH connection on port %i…"), remmina_file_get_int(gp->priv->remmina_file, "listenport", 0)); mp = remmina_protocol_widget_mpprogress(gp->cnnobj, msg, cancel_start_reverse_tunnel_cb, NULL); g_free(msg); if (!remmina_ssh_tunnel_reverse(tunnel, remmina_file_get_int(gp->priv->remmina_file, "listenport", 0), local_port)) { remmina_ssh_tunnel_free(tunnel); remmina_protocol_widget_set_error(gp, REMMINA_SSH(tunnel)->error); return FALSE; } remmina_protocol_widget_mpdestroy(gp->cnnobj, mp); g_ptr_array_add(gp->priv->ssh_tunnels, tunnel); #endif return TRUE; } gboolean remmina_protocol_widget_ssh_exec(RemminaProtocolWidget *gp, gboolean wait, const gchar *fmt, ...) { TRACE_CALL(__func__); #ifdef HAVE_LIBSSH RemminaSSHTunnel *tunnel; ssh_channel channel; gint status; gboolean ret = FALSE; gchar *cmd, *ptr; va_list args; if (gp->priv->ssh_tunnels->len < 1) return FALSE; tunnel = (RemminaSSHTunnel *)gp->priv->ssh_tunnels->pdata[0]; if ((channel = ssh_channel_new(REMMINA_SSH(tunnel)->session)) == NULL) return FALSE; va_start(args, fmt); cmd = g_strdup_vprintf(fmt, args); va_end(args); if (ssh_channel_open_session(channel) == SSH_OK && ssh_channel_request_exec(channel, cmd) == SSH_OK) { if (wait) { ssh_channel_send_eof(channel); status = ssh_channel_get_exit_status(channel); ptr = strchr(cmd, ' '); if (ptr) *ptr = '\0'; switch (status) { case 0: ret = TRUE; break; case 127: // TRANSLATORS: “%s” is a place holder for a unix command path. remmina_ssh_set_application_error(REMMINA_SSH(tunnel), _("The “%s” command is not available on the SSH server."), cmd); break; default: // TRANSLATORS: “%s” is a place holder for a unix command path. “%i” is a placeholder for an error code number. remmina_ssh_set_application_error(REMMINA_SSH(tunnel), _("Could not run the “%s” command on the SSH server (status = %i)."), cmd, status); break; } } else { ret = TRUE; } } else { // TRANSLATORS: %s is a placeholder for an error message remmina_ssh_set_error(REMMINA_SSH(tunnel), _("Could not run command. %s")); } g_free(cmd); if (wait) ssh_channel_close(channel); ssh_channel_free(channel); return ret; #else return FALSE; #endif } #ifdef HAVE_LIBSSH static gboolean remmina_protocol_widget_xport_tunnel_init_callback(RemminaSSHTunnel *tunnel, gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = REMMINA_PROTOCOL_WIDGET(data); gchar *server; gint port; gboolean ret; REMMINA_DEBUG("Calling remmina_public_get_server_port"); remmina_public_get_server_port(remmina_file_get_string(gp->priv->remmina_file, "server"), 177, &server, &port); ret = ((RemminaXPortTunnelInitFunc)gp->priv->init_func)(gp, tunnel->remotedisplay, (tunnel->bindlocalhost ? "localhost" : server), port); g_free(server); return ret; } static gboolean remmina_protocol_widget_xport_tunnel_connect_callback(RemminaSSHTunnel *tunnel, gpointer data) { TRACE_CALL(__func__); return TRUE; } static gboolean remmina_protocol_widget_xport_tunnel_disconnect_callback(RemminaSSHTunnel *tunnel, gpointer data) { TRACE_CALL(__func__); RemminaProtocolWidget *gp = REMMINA_PROTOCOL_WIDGET(data); if (REMMINA_SSH(tunnel)->error) remmina_protocol_widget_set_error(gp, "%s", REMMINA_SSH(tunnel)->error); IDLE_ADD((GSourceFunc)remmina_protocol_widget_close_connection, gp); return TRUE; } #endif #ifdef HAVE_LIBSSH static void cancel_connect_xport_cb(void *cbdata, int btn) { printf("Remmina: Cancelling an XPort connection is not implemented\n"); } #endif gboolean remmina_protocol_widget_start_xport_tunnel(RemminaProtocolWidget *gp, RemminaXPortTunnelInitFunc init_func) { TRACE_CALL(__func__); #ifdef HAVE_LIBSSH gboolean bindlocalhost; gchar *server; gchar *msg; RemminaMessagePanel *mp; RemminaSSHTunnel *tunnel; if (!(tunnel = remmina_protocol_widget_init_tunnel(gp))) return FALSE; // TRANSLATORS: “%s” is a placeholder for a hostname or IP address. msg = g_strdup_printf(_("Connecting to %s via SSH…"), remmina_file_get_string(gp->priv->remmina_file, "server")); mp = remmina_protocol_widget_mpprogress(gp->cnnobj, msg, cancel_connect_xport_cb, NULL); g_free(msg); gp->priv->init_func = init_func; tunnel->init_func = remmina_protocol_widget_xport_tunnel_init_callback; tunnel->connect_func = remmina_protocol_widget_xport_tunnel_connect_callback; tunnel->disconnect_func = remmina_protocol_widget_xport_tunnel_disconnect_callback; tunnel->callback_data = gp; REMMINA_DEBUG("Calling remmina_public_get_server_port"); remmina_public_get_server_port(remmina_file_get_string(gp->priv->remmina_file, "server"), 0, &server, NULL); bindlocalhost = (g_strcmp0(REMMINA_SSH(tunnel)->server, server) == 0); g_free(server); if (!remmina_ssh_tunnel_xport(tunnel, bindlocalhost)) { remmina_protocol_widget_set_error(gp, "Could not open channel, %s", ssh_get_error(REMMINA_SSH(tunnel)->session)); remmina_ssh_tunnel_free(tunnel); return FALSE; } remmina_protocol_widget_mpdestroy(gp->cnnobj, mp); g_ptr_array_add(gp->priv->ssh_tunnels, tunnel); return TRUE; #else return FALSE; #endif } void remmina_protocol_widget_set_display(RemminaProtocolWidget *gp, gint display) { TRACE_CALL(__func__); #ifdef HAVE_LIBSSH RemminaSSHTunnel *tunnel; if (gp->priv->ssh_tunnels->len < 1) return; tunnel = (RemminaSSHTunnel *)gp->priv->ssh_tunnels->pdata[0]; if (tunnel->localdisplay) g_free(tunnel->localdisplay); tunnel->localdisplay = g_strdup_printf("unix:%i", display); #endif } gint remmina_protocol_widget_get_profile_remote_width(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); /* Returns the width of remote desktop as chosen by the user profile */ return gp->priv->profile_remote_width; } gint remmina_protocol_widget_get_multimon(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); /* Returns ehenever multi monitor is enabled (1) */ gp->priv->multimon = remmina_file_get_int(gp->priv->remmina_file, "multimon", -1); REMMINA_DEBUG("Multi monitor is set to %d", gp->priv->multimon); return gp->priv->multimon; } gint remmina_protocol_widget_get_profile_remote_height(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); /* Returns the height of remote desktop as chosen by the user profile */ return gp->priv->profile_remote_height; } const gchar* remmina_protocol_widget_get_name(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp ? gp->plugin ? gp->plugin->name : NULL : NULL; } gint remmina_protocol_widget_get_width(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->width; } void remmina_protocol_widget_set_width(RemminaProtocolWidget *gp, gint width) { TRACE_CALL(__func__); gp->priv->width = width; } gint remmina_protocol_widget_get_height(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->height; } void remmina_protocol_widget_set_height(RemminaProtocolWidget *gp, gint height) { TRACE_CALL(__func__); gp->priv->height = height; } RemminaScaleMode remmina_protocol_widget_get_current_scale_mode(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->scalemode; } void remmina_protocol_widget_set_current_scale_mode(RemminaProtocolWidget *gp, RemminaScaleMode scalemode) { TRACE_CALL(__func__); gp->priv->scalemode = scalemode; } gboolean remmina_protocol_widget_get_expand(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->scaler_expand; } void remmina_protocol_widget_set_expand(RemminaProtocolWidget *gp, gboolean expand) { TRACE_CALL(__func__); gp->priv->scaler_expand = expand; return; } gboolean remmina_protocol_widget_has_error(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->has_error; } const gchar *remmina_protocol_widget_get_error_message(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->error_message; } void remmina_protocol_widget_set_error(RemminaProtocolWidget *gp, const gchar *fmt, ...) { TRACE_CALL(__func__); va_list args; if (gp->priv->error_message) g_free(gp->priv->error_message); if (fmt == NULL) { gp->priv->has_error = FALSE; gp->priv->error_message = NULL; return; } va_start(args, fmt); gp->priv->error_message = g_strdup_vprintf(fmt, args); va_end(args); gp->priv->has_error = TRUE; } gboolean remmina_protocol_widget_is_closed(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->closed; } RemminaFile *remmina_protocol_widget_get_file(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->remmina_file; } struct remmina_protocol_widget_dialog_mt_data_t { /* Input data */ RemminaProtocolWidget * gp; gchar * title; gchar * default_username; gchar * default_password; gchar * default_domain; gchar * strpasswordlabel; enum panel_type dtype; RemminaMessagePanelFlags pflags; gboolean called_from_subthread; /* Running status */ pthread_mutex_t pt_mutex; pthread_cond_t pt_cond; /* Output/retval */ int rcbutton; }; static void authpanel_mt_cb(void *user_data, int button) { struct remmina_protocol_widget_dialog_mt_data_t *d = (struct remmina_protocol_widget_dialog_mt_data_t *)user_data; d->rcbutton = button; if (button == GTK_RESPONSE_OK) { if (d->dtype == RPWDT_AUTH) { d->gp->priv->password = remmina_message_panel_field_get_string(d->gp->priv->auth_message_panel, REMMINA_MESSAGE_PANEL_PASSWORD); d->gp->priv->username = remmina_message_panel_field_get_string(d->gp->priv->auth_message_panel, REMMINA_MESSAGE_PANEL_USERNAME); d->gp->priv->domain = remmina_message_panel_field_get_string(d->gp->priv->auth_message_panel, REMMINA_MESSAGE_PANEL_DOMAIN); d->gp->priv->save_password = remmina_message_panel_field_get_switch_state(d->gp->priv->auth_message_panel, REMMINA_MESSAGE_PANEL_FLAG_SAVEPASSWORD); } else if (d->dtype == RPWDT_AUTHX509) { d->gp->priv->cacert = remmina_message_panel_field_get_filename(d->gp->priv->auth_message_panel, REMMINA_MESSAGE_PANEL_CACERTFILE); d->gp->priv->cacrl = remmina_message_panel_field_get_filename(d->gp->priv->auth_message_panel, REMMINA_MESSAGE_PANEL_CACRLFILE); d->gp->priv->clientcert = remmina_message_panel_field_get_filename(d->gp->priv->auth_message_panel, REMMINA_MESSAGE_PANEL_CLIENTCERTFILE); d->gp->priv->clientkey = remmina_message_panel_field_get_filename(d->gp->priv->auth_message_panel, REMMINA_MESSAGE_PANEL_CLIENTKEYFILE); } } if (d->called_from_subthread) { /* Hide and destroy message panel, we can do it now because we are on the main thread */ rco_destroy_message_panel(d->gp->cnnobj, d->gp->priv->auth_message_panel); /* Awake the locked subthread, when called from subthread */ pthread_mutex_lock(&d->pt_mutex); pthread_cond_signal(&d->pt_cond); pthread_mutex_unlock(&d->pt_mutex); } else { /* Signal completion, when called from main thread. Message panel will be destroyed by the caller */ remmina_message_panel_response(d->gp->priv->auth_message_panel, button); } } static gboolean remmina_protocol_widget_dialog_mt_setup(gpointer user_data) { struct remmina_protocol_widget_dialog_mt_data_t *d = (struct remmina_protocol_widget_dialog_mt_data_t *)user_data; RemminaFile *remminafile = d->gp->priv->remmina_file; RemminaMessagePanel *mp; const gchar *s; if (d->gp->cnnobj == NULL) return FALSE; mp = remmina_message_panel_new(); if (d->dtype == RPWDT_AUTH) { if (d->pflags & REMMINA_MESSAGE_PANEL_FLAG_USERNAME) { remmina_message_panel_field_set_string(mp, REMMINA_MESSAGE_PANEL_USERNAME, d->default_username); } remmina_message_panel_setup_auth(mp, authpanel_mt_cb, d, d->title, d->strpasswordlabel, d->pflags); remmina_message_panel_field_set_string(mp, REMMINA_MESSAGE_PANEL_USERNAME, d->default_username); if (d->pflags & REMMINA_MESSAGE_PANEL_FLAG_DOMAIN) remmina_message_panel_field_set_string(mp, REMMINA_MESSAGE_PANEL_DOMAIN, d->default_domain); remmina_message_panel_field_set_string(mp, REMMINA_MESSAGE_PANEL_PASSWORD, d->default_password); if (d->pflags & REMMINA_MESSAGE_PANEL_FLAG_SAVEPASSWORD) remmina_message_panel_field_set_switch(mp, REMMINA_MESSAGE_PANEL_FLAG_SAVEPASSWORD, (d->default_password == NULL || d->default_password[0] == 0) ? FALSE: TRUE); } else if (d->dtype == RPWDT_QUESTIONYESNO) { remmina_message_panel_setup_question(mp, d->title, authpanel_mt_cb, d); } else if (d->dtype == RPWDT_AUTHX509) { remmina_message_panel_setup_auth_x509(mp, authpanel_mt_cb, d); if ((s = remmina_file_get_string(remminafile, "cacert")) != NULL) remmina_message_panel_field_set_filename(mp, REMMINA_MESSAGE_PANEL_CACERTFILE, s); if ((s = remmina_file_get_string(remminafile, "cacrl")) != NULL) remmina_message_panel_field_set_filename(mp, REMMINA_MESSAGE_PANEL_CACRLFILE, s); if ((s = remmina_file_get_string(remminafile, "clientcert")) != NULL) remmina_message_panel_field_set_filename(mp, REMMINA_MESSAGE_PANEL_CLIENTCERTFILE, s); if ((s = remmina_file_get_string(remminafile, "clientkey")) != NULL) remmina_message_panel_field_set_filename(mp, REMMINA_MESSAGE_PANEL_CLIENTKEYFILE, s); } d->gp->priv->auth_message_panel = mp; rco_show_message_panel(d->gp->cnnobj, mp); return FALSE; } typedef struct { RemminaMessagePanel * mp; GMainLoop * loop; gint response; gboolean destroyed; } MpRunInfo; static void shutdown_loop(MpRunInfo *mpri) { if (g_main_loop_is_running(mpri->loop)) g_main_loop_quit(mpri->loop); } static void run_response_handler(RemminaMessagePanel *mp, gint response_id, gpointer data) { MpRunInfo *mpri = (MpRunInfo *)data; mpri->response = response_id; shutdown_loop(mpri); } static void run_unmap_handler(RemminaMessagePanel *mp, gpointer data) { MpRunInfo *mpri = (MpRunInfo *)data; mpri->response = GTK_RESPONSE_CANCEL; shutdown_loop(mpri); } static void run_destroy_handler(RemminaMessagePanel *mp, gpointer data) { MpRunInfo *mpri = (MpRunInfo *)data; mpri->destroyed = TRUE; mpri->response = GTK_RESPONSE_CANCEL; shutdown_loop(mpri); } static int remmina_protocol_widget_dialog(enum panel_type dtype, RemminaProtocolWidget *gp, RemminaMessagePanelFlags pflags, const gchar *title, const gchar *default_username, const gchar *default_password, const gchar *default_domain, const gchar *strpasswordlabel) { TRACE_CALL(__func__); struct remmina_protocol_widget_dialog_mt_data_t *d = (struct remmina_protocol_widget_dialog_mt_data_t *)g_malloc(sizeof(struct remmina_protocol_widget_dialog_mt_data_t)); int rcbutton; d->gp = gp; d->pflags = pflags; d->dtype = dtype; d->title = g_strdup(title); d->strpasswordlabel = g_strdup(strpasswordlabel); d->default_username = g_strdup(default_username); d->default_password = g_strdup(default_password); d->default_domain = g_strdup(default_domain); d->called_from_subthread = FALSE; if (remmina_masterthread_exec_is_main_thread()) { /* Run the MessagePanel in main thread, in a very similar way of gtk_dialog_run() */ MpRunInfo mpri = { NULL, NULL, GTK_RESPONSE_CANCEL, FALSE }; gulong unmap_handler; gulong destroy_handler; gulong response_handler; remmina_protocol_widget_dialog_mt_setup(d); mpri.mp = d->gp->priv->auth_message_panel; if (!gtk_widget_get_visible(GTK_WIDGET(mpri.mp))) gtk_widget_show(GTK_WIDGET(mpri.mp)); response_handler = g_signal_connect(mpri.mp, "response", G_CALLBACK(run_response_handler), &mpri); unmap_handler = g_signal_connect(mpri.mp, "unmap", G_CALLBACK(run_unmap_handler), &mpri); destroy_handler = g_signal_connect(mpri.mp, "destroy", G_CALLBACK(run_destroy_handler), &mpri); g_object_ref(mpri.mp); mpri.loop = g_main_loop_new(NULL, FALSE); g_main_loop_run(mpri.loop); g_main_loop_unref(mpri.loop); if (!mpri.destroyed) { g_signal_handler_disconnect(mpri.mp, response_handler); g_signal_handler_disconnect(mpri.mp, destroy_handler); g_signal_handler_disconnect(mpri.mp, unmap_handler); } g_object_unref(mpri.mp); rco_destroy_message_panel(d->gp->cnnobj, d->gp->priv->auth_message_panel); rcbutton = mpri.response; } else { d->called_from_subthread = TRUE; // pthread_cleanup_push(ptcleanup, (void*)d); pthread_cond_init(&d->pt_cond, NULL); pthread_mutex_init(&d->pt_mutex, NULL); g_idle_add(remmina_protocol_widget_dialog_mt_setup, d); pthread_mutex_lock(&d->pt_mutex); pthread_cond_wait(&d->pt_cond, &d->pt_mutex); // pthread_cleanup_pop(0); pthread_mutex_destroy(&d->pt_mutex); pthread_cond_destroy(&d->pt_cond); rcbutton = d->rcbutton; } g_free(d->title); g_free(d->strpasswordlabel); g_free(d->default_username); g_free(d->default_password); g_free(d->default_domain); g_free(d); return rcbutton; } gint remmina_protocol_widget_panel_question_yesno(RemminaProtocolWidget *gp, const char *msg) { return remmina_protocol_widget_dialog(RPWDT_QUESTIONYESNO, gp, 0, msg, NULL, NULL, NULL, NULL); } gint remmina_protocol_widget_panel_auth(RemminaProtocolWidget *gp, RemminaMessagePanelFlags pflags, const gchar *title, const gchar *default_username, const gchar *default_password, const gchar *default_domain, const gchar *password_prompt) { TRACE_CALL(__func__); return remmina_protocol_widget_dialog(RPWDT_AUTH, gp, pflags, title, default_username, default_password, default_domain, password_prompt == NULL ? _("Password") : password_prompt); } gint remmina_protocol_widget_panel_authuserpwd_ssh_tunnel(RemminaProtocolWidget *gp, gboolean want_domain, gboolean allow_password_saving) { TRACE_CALL(__func__); unsigned pflags; RemminaFile *remminafile = gp->priv->remmina_file; const gchar *username, *password; pflags = REMMINA_MESSAGE_PANEL_FLAG_USERNAME; if (remmina_file_get_filename(remminafile) != NULL && !remminafile->prevent_saving && allow_password_saving) pflags |= REMMINA_MESSAGE_PANEL_FLAG_SAVEPASSWORD; username = remmina_file_get_string(remminafile, "ssh_tunnel_username"); password = remmina_file_get_string(remminafile, "ssh_tunnel_password"); return remmina_protocol_widget_dialog(RPWDT_AUTH, gp, pflags, _("Type in SSH username and password."), username, password, NULL, _("Password")); } /* * gint remmina_protocol_widget_panel_authpwd(RemminaProtocolWidget* gp, RemminaAuthpwdType authpwd_type, gboolean allow_password_saving) * { * TRACE_CALL(__func__); * unsigned pflags; * RemminaFile* remminafile = gp->priv->remmina_file; * char *password_prompt; * int rc; * * pflags = 0; * if (remmina_file_get_filename(remminafile) != NULL && * !remminafile->prevent_saving && allow_password_saving) * pflags |= REMMINA_MESSAGE_PANEL_FLAG_SAVEPASSWORD; * * switch (authpwd_type) { * case REMMINA_AUTHPWD_TYPE_PROTOCOL: * password_prompt = g_strdup_printf(_("%s password"), remmina_file_get_string(remminafile, "protocol")); * break; * case REMMINA_AUTHPWD_TYPE_SSH_PWD: * password_prompt = g_strdup(_("SSH password")); * break; * case REMMINA_AUTHPWD_TYPE_SSH_PRIVKEY: * password_prompt = g_strdup(_("SSH private key passphrase")); * break; * default: * password_prompt = g_strdup(_("Password")); * break; * } * * rc = remmina_protocol_widget_dialog(RPWDT_AUTH, gp, pflags, password_prompt); * g_free(password_prompt); * return rc; * * } */ gint remmina_protocol_widget_panel_authx509(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return remmina_protocol_widget_dialog(RPWDT_AUTHX509, gp, 0, NULL, NULL, NULL, NULL, NULL); } gint remmina_protocol_widget_panel_new_certificate(RemminaProtocolWidget *gp, const gchar *subject, const gchar *issuer, const gchar *fingerprint) { TRACE_CALL(__func__); gchar *s; int rc; if (remmina_pref_get_boolean("trust_all")) { /* For compatibility with plugin API: The plugin expects GTK_RESPONSE_OK when user confirms new cert */ remmina_public_send_notification("remmina-security-trust-all-id", _("Fingerprint automatically accepted"), fingerprint); rc = GTK_RESPONSE_OK; return rc; } // For markup see https://developer.gnome.org/pygtk/stable/pango-markup-language.html s = g_strdup_printf( "%s\n\n%s %s\n%s %s\n%s %s\n\n%s", // TRANSLATORS: The user is asked to verify a new SSL certificate. _("Certificate details:"), // TRANSLATORS: An SSL certificate subject is usually the remote server the user connect to. _("Subject:"), subject, // TRANSLATORS: The name or email of the entity that have issued the SSL certificate _("Issuer:"), issuer, // TRANSLATORS: An SSL certificate fingerprint, is a hash of a certificate calculated on all certificate's data and its signature. _("Fingerprint:"), fingerprint, // TRANSLATORS: The user is asked to accept or refuse a new SSL certificate. _("Accept certificate?")); rc = remmina_protocol_widget_dialog(RPWDT_QUESTIONYESNO, gp, 0, s, NULL, NULL, NULL, NULL); g_free(s); /* For compatibility with plugin API: the plugin expects GTK_RESPONSE_OK when user confirms new cert */ return rc == GTK_RESPONSE_YES ? GTK_RESPONSE_OK : rc; } gint remmina_protocol_widget_panel_changed_certificate(RemminaProtocolWidget *gp, const gchar *subject, const gchar *issuer, const gchar *new_fingerprint, const gchar *old_fingerprint) { TRACE_CALL(__func__); gchar *s; int rc; if (remmina_pref_get_boolean("trust_all")) { /* For compatibility with plugin API: The plugin expects GTK_RESPONSE_OK when user confirms new cert */ remmina_public_send_notification("remmina-security-trust-all-id", _("Fingerprint automatically accepted"), new_fingerprint); rc = GTK_RESPONSE_OK; return rc; } // For markup see https://developer.gnome.org/pygtk/stable/pango-markup-language.html s = g_strdup_printf( "%s\n\n%s %s\n%s %s\n%s %s\n%s %s\n\n%s", // TRANSLATORS: The user is asked to verify a new SSL certificate. _("The certificate changed! Details:"), // TRANSLATORS: An SSL certificate subject is usually the remote server the user connect to. _("Subject:"), subject, // TRANSLATORS: The name or email of the entity that have issued the SSL certificate _("Issuer:"), issuer, // TRANSLATORS: An SSL certificate fingerprint, is a hash of a certificate calculated on all certificate's data and its signature. _("Old fingerprint:"), old_fingerprint, // TRANSLATORS: An SSL certificate fingerprint, is a hash of a certificate calculated on all certificate's data and its signature. _("New fingerprint:"), new_fingerprint, // TRANSLATORS: The user is asked to accept or refuse a new SSL certificate. _("Accept changed certificate?")); rc = remmina_protocol_widget_dialog(RPWDT_QUESTIONYESNO, gp, 0, s, NULL, NULL, NULL, NULL); g_free(s); /* For compatibility with plugin API: The plugin expects GTK_RESPONSE_OK when user confirms new cert */ return rc == GTK_RESPONSE_YES ? GTK_RESPONSE_OK : rc; } gchar *remmina_protocol_widget_get_username(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return g_strdup(gp->priv->username); } gchar *remmina_protocol_widget_get_password(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return g_strdup(gp->priv->password); } gchar *remmina_protocol_widget_get_domain(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return g_strdup(gp->priv->domain); } gboolean remmina_protocol_widget_get_savepassword(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); return gp->priv->save_password; } gchar *remmina_protocol_widget_get_cacert(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); gchar *s; s = gp->priv->cacert; return s && s[0] ? g_strdup(s) : NULL; } gchar *remmina_protocol_widget_get_cacrl(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); gchar *s; s = gp->priv->cacrl; return s && s[0] ? g_strdup(s) : NULL; } gchar *remmina_protocol_widget_get_clientcert(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); gchar *s; s = gp->priv->clientcert; return s && s[0] ? g_strdup(s) : NULL; } gchar *remmina_protocol_widget_get_clientkey(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); gchar *s; s = gp->priv->clientkey; return s && s[0] ? g_strdup(s) : NULL; } void remmina_protocol_widget_save_cred(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); RemminaFile *remminafile = gp->priv->remmina_file; gchar *s; gboolean save = FALSE; if (!remmina_masterthread_exec_is_main_thread()) { /* Allow the execution of this function from a non main thread */ RemminaMTExecData *d; d = (RemminaMTExecData *)g_malloc(sizeof(RemminaMTExecData)); d->func = FUNC_INIT_SAVE_CRED; d->p.init_save_creds.gp = gp; remmina_masterthread_exec_and_wait(d); g_free(d); return; } /* Save username and certificates if any; save the password if it’s requested to do so */ s = gp->priv->username; if (s && s[0]) { remmina_file_set_string(remminafile, "username", s); save = TRUE; } s = gp->priv->cacert; if (s && s[0]) { remmina_file_set_string(remminafile, "cacert", s); save = TRUE; } s = gp->priv->cacrl; if (s && s[0]) { remmina_file_set_string(remminafile, "cacrl", s); save = TRUE; } s = gp->priv->clientcert; if (s && s[0]) { remmina_file_set_string(remminafile, "clientcert", s); save = TRUE; } s = gp->priv->clientkey; if (s && s[0]) { remmina_file_set_string(remminafile, "clientkey", s); save = TRUE; } if (gp->priv->save_password) { remmina_file_set_string(remminafile, "password", gp->priv->password); save = TRUE; } if (save) remmina_file_save(remminafile); } void remmina_protocol_widget_panel_show_listen(RemminaProtocolWidget *gp, gint port) { TRACE_CALL(__func__); RemminaMessagePanel *mp; gchar *s; if (!remmina_masterthread_exec_is_main_thread()) { /* Allow the execution of this function from a non main thread */ RemminaMTExecData *d; d = (RemminaMTExecData *)g_malloc(sizeof(RemminaMTExecData)); d->func = FUNC_PROTOCOLWIDGET_PANELSHOWLISTEN; d->p.protocolwidget_panelshowlisten.gp = gp; d->p.protocolwidget_panelshowlisten.port = port; remmina_masterthread_exec_and_wait(d); g_free(d); return; } mp = remmina_message_panel_new(); s = g_strdup_printf( // TRANSLATORS: “%i” is a placeholder for a port number. “%s” is a placeholder for a protocol name (VNC). _("Listening on port %i for an incoming %s connection…"), port, remmina_file_get_string(gp->priv->remmina_file, "protocol")); remmina_message_panel_setup_progress(mp, s, NULL, NULL); g_free(s); gp->priv->listen_message_panel = mp; rco_show_message_panel(gp->cnnobj, mp); } void remmina_protocol_widget_panel_show_retry(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); RemminaMessagePanel *mp; if (!remmina_masterthread_exec_is_main_thread()) { /* Allow the execution of this function from a non main thread */ RemminaMTExecData *d; d = (RemminaMTExecData *)g_malloc(sizeof(RemminaMTExecData)); d->func = FUNC_PROTOCOLWIDGET_MPSHOWRETRY; d->p.protocolwidget_mpshowretry.gp = gp; remmina_masterthread_exec_and_wait(d); g_free(d); return; } mp = remmina_message_panel_new(); remmina_message_panel_setup_progress(mp, _("Could not authenticate, attempting reconnection…"), NULL, NULL); gp->priv->retry_message_panel = mp; rco_show_message_panel(gp->cnnobj, mp); } void remmina_protocol_widget_panel_show(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); printf("Remmina: The %s function is not implemented, and is left here only for plugin API compatibility.\n", __func__); } void remmina_protocol_widget_panel_hide(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); printf("Remmina: The %s function is not implemented, and is left here only for plugin API compatibility.\n", __func__); } static void remmina_protocol_widget_chat_on_destroy(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); gp->priv->chat_window = NULL; } void remmina_protocol_widget_chat_open(RemminaProtocolWidget *gp, const gchar *name, void (*on_send)(RemminaProtocolWidget *gp, const gchar *text), void (*on_destroy)(RemminaProtocolWidget *gp)) { TRACE_CALL(__func__); if (gp->priv->chat_window) { gtk_window_present(GTK_WINDOW(gp->priv->chat_window)); } else { gp->priv->chat_window = remmina_chat_window_new(GTK_WINDOW(gtk_widget_get_toplevel(GTK_WIDGET(gp))), name); g_signal_connect_swapped(G_OBJECT(gp->priv->chat_window), "send", G_CALLBACK(on_send), gp); g_signal_connect_swapped(G_OBJECT(gp->priv->chat_window), "destroy", G_CALLBACK(remmina_protocol_widget_chat_on_destroy), gp); g_signal_connect_swapped(G_OBJECT(gp->priv->chat_window), "destroy", G_CALLBACK(on_destroy), gp); gtk_widget_show(gp->priv->chat_window); } } void remmina_protocol_widget_chat_close(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); if (gp->priv->chat_window) gtk_widget_destroy(gp->priv->chat_window); } void remmina_protocol_widget_chat_receive(RemminaProtocolWidget *gp, const gchar *text) { TRACE_CALL(__func__); /* This function can be called from a non main thread */ if (gp->priv->chat_window) { if (!remmina_masterthread_exec_is_main_thread()) { /* Allow the execution of this function from a non main thread */ RemminaMTExecData *d; d = (RemminaMTExecData *)g_malloc(sizeof(RemminaMTExecData)); d->func = FUNC_CHAT_RECEIVE; d->p.chat_receive.gp = gp; d->p.chat_receive.text = text; remmina_masterthread_exec_and_wait(d); g_free(d); return; } remmina_chat_window_receive(REMMINA_CHAT_WINDOW(gp->priv->chat_window), _("Server"), text); gtk_window_present(GTK_WINDOW(gp->priv->chat_window)); } } void remmina_protocol_widget_setup(RemminaProtocolWidget *gp, RemminaFile *remminafile, RemminaConnectionObject *cnnobj) { RemminaProtocolPlugin *plugin; gp->priv->remmina_file = remminafile; gp->cnnobj = cnnobj; /* Locate the protocol plugin */ plugin = (RemminaProtocolPlugin *)remmina_plugin_manager_get_plugin(REMMINA_PLUGIN_TYPE_PROTOCOL, remmina_file_get_string(remminafile, "protocol")); if (!plugin || !plugin->init || !plugin->open_connection) { // TRANSLATORS: “%s” is a placeholder for a protocol name, like “RDP”. remmina_protocol_widget_set_error(gp, _("Install the %s protocol plugin first."), remmina_file_get_string(remminafile, "protocol")); gp->priv->plugin = NULL; return; } gp->priv->plugin = plugin; gp->plugin = plugin; gp->priv->scalemode = remmina_file_get_int(gp->priv->remmina_file, "scale", FALSE); gp->priv->scaler_expand = remmina_file_get_int(gp->priv->remmina_file, "scaler_expand", FALSE); } GtkWindow *remmina_protocol_widget_get_gtkwindow(RemminaProtocolWidget *gp) { return rcw_get_gtkwindow(gp->cnnobj); } GtkWidget *remmina_protocol_widget_gtkviewport(RemminaProtocolWidget *gp) { return rcw_get_gtkviewport(gp->cnnobj); } GtkWidget *remmina_protocol_widget_new(void) { return GTK_WIDGET(g_object_new(REMMINA_TYPE_PROTOCOL_WIDGET, NULL)); } /* Send one or more keystrokes to a specific widget by firing key-press and * key-release events. * GdkEventType action can be GDK_KEY_PRESS or GDK_KEY_RELEASE or both to * press the keys and release them in reversed order. */ void remmina_protocol_widget_send_keys_signals(GtkWidget *widget, const guint *keyvals, int keyvals_length, GdkEventType action) { TRACE_CALL(__func__); int i; GdkEventKey event; gboolean result; GdkKeymap *keymap = gdk_keymap_get_for_display(gdk_display_get_default()); event.window = gtk_widget_get_window(widget); event.send_event = TRUE; event.time = GDK_CURRENT_TIME; event.state = 0; event.length = 0; event.string = ""; event.group = 0; if (action & GDK_KEY_PRESS) { /* Press the requested buttons */ event.type = GDK_KEY_PRESS; for (i = 0; i < keyvals_length; i++) { event.keyval = keyvals[i]; event.hardware_keycode = remmina_public_get_keycode_for_keyval(keymap, event.keyval); event.is_modifier = (int)remmina_public_get_modifier_for_keycode(keymap, event.hardware_keycode); REMMINA_DEBUG("Sending keyval: %u, hardware_keycode: %u", event.keyval, event.hardware_keycode); g_signal_emit_by_name(G_OBJECT(widget), "key-press-event", &event, &result); } } if (action & GDK_KEY_RELEASE) { /* Release the requested buttons in reverse order */ event.type = GDK_KEY_RELEASE; for (i = (keyvals_length - 1); i >= 0; i--) { event.keyval = keyvals[i]; event.hardware_keycode = remmina_public_get_keycode_for_keyval(keymap, event.keyval); event.is_modifier = (int)remmina_public_get_modifier_for_keycode(keymap, event.hardware_keycode); g_signal_emit_by_name(G_OBJECT(widget), "key-release-event", &event, &result); } } } void remmina_protocol_widget_update_remote_resolution(RemminaProtocolWidget *gp) { TRACE_CALL(__func__); GdkRectangle rect; gint w, h; gint wfile, hfile; RemminaProtocolWidgetResolutionMode res_mode; RemminaScaleMode scalemode; rco_get_monitor_geometry(gp->cnnobj, &rect); /* Integrity check: check that we have a cnnwin visible and get t */ res_mode = remmina_file_get_int(gp->priv->remmina_file, "resolution_mode", RES_INVALID); scalemode = remmina_file_get_int(gp->priv->remmina_file, "scale", REMMINA_PROTOCOL_WIDGET_SCALE_MODE_NONE); wfile = remmina_file_get_int(gp->priv->remmina_file, "resolution_width", -1); hfile = remmina_file_get_int(gp->priv->remmina_file, "resolution_height", -1); /* If resolution_mode is non-existent (-1), then we try to calculate it * as we did before having resolution_mode */ if (res_mode == RES_INVALID) { if (wfile <= 0 || hfile <= 0) res_mode = RES_USE_INITIAL_WINDOW_SIZE; else res_mode = RES_USE_CUSTOM; } if (res_mode == RES_USE_INITIAL_WINDOW_SIZE || scalemode == REMMINA_PROTOCOL_WIDGET_SCALE_MODE_DYNRES) { /* Use internal window size as remote desktop size */ GtkAllocation al; gtk_widget_get_allocation(GTK_WIDGET(gp), &al); /* use a multiple of four to mitigate scaling when remote host rounds up */ w = al.width - al.width % 4; h = al.height - al.height % 4; if (w < 10) { printf("Remmina warning: %s RemminaProtocolWidget w=%d h=%d are too small, adjusting to 640x480\n", __func__, w, h); w = 640; h = 480; } /* Due to approximations while GTK calculates scaling, (w x h) may exceed our monitor geometry * Adjust to fit. */ if (w > rect.width) w = rect.width; if (h > rect.height) h = rect.height; } else if (res_mode == RES_USE_CLIENT) { w = rect.width; h = rect.height; } else { w = wfile; h = hfile; } gp->priv->profile_remote_width = w; gp->priv->profile_remote_height = h; }