/* Copyright (C) 2009 Red Hat, Inc. 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, see . */ #ifndef WIN32 #include "config.h" #endif #include "common.h" #ifdef WIN32 #include #endif #include "application.h" #include "screen.h" #include "utils.h" #include "debug.h" #include "screen_layer.h" #include "monitor.h" #include "resource.h" #ifdef WIN32 #include "red_gdi_canvas.h" #endif #include "platform.h" #include "cairo_canvas.h" #include "gl_canvas.h" #include "quic.h" #include "mutex.h" #include "cmd_line_parser.h" #include "rect.h" #include #include #include #define STICKY_KEY_PIXMAP ALT_IMAGE_RES_ID #define STICKY_KEY_TIMEOUT 750 #define CA_FILE_NAME "spice_truststore.pem" #ifdef CAIRO_CANVAS_CACH_IS_SHARED mutex_t cairo_surface_user_data_mutex; #endif static const char* app_name = "spicec"; void ConnectedEvent::response(AbstractProcessLoop& events_loop) { static_cast(events_loop.get_owner())->on_connected(); } void DisconnectedEvent::response(AbstractProcessLoop& events_loop) { Application* app = static_cast(events_loop.get_owner()); #ifdef RED_DEBUG app->show_splash(0); #else app->do_quit(SPICEC_ERROR_CODE_SUCCESS); #endif } void ConnectionErrorEvent::response(AbstractProcessLoop& events_loop) { Application* app = static_cast(events_loop.get_owner()); #ifdef RED_DEBUG app->show_splash(0); #else app->do_quit(_error_code); #endif } void MonitorsQuery::do_response(AbstractProcessLoop& events_loop) { Monitor* mon; int i = 0; while ((mon = (static_cast(events_loop.get_owner()))->find_monitor(i++))) { MonitorInfo info; info.size = mon->get_size(); info.depth = 32; info.position = mon->get_position(); _monitors.push_back(info); } } class GUILayer: public ScreenLayer { public: GUILayer(); virtual void copy_pixels(const QRegion& dest_region, RedDrawable& dest_dc); void set_splash_mode(); void set_info_mode(); void set_sticky(bool is_on); virtual void on_size_changed(); private: void draw_splash(const QRegion& dest_region, RedDrawable& dest); void draw_info(const QRegion& dest_region, RedDrawable& dest); private: ImageFromRes _splash_pixmap; AlphaImageFromRes _info_pixmap; AlphaImageFromRes _sticky_pixmap; Point _splash_pos; Point _info_pos; Point _sticky_pos; Rect _sticky_rect; bool _splash_mode; bool _sticky_on; RecurciveMutex _update_lock; }; GUILayer::GUILayer() : ScreenLayer(SCREEN_LAYER_GUI, false) , _splash_pixmap (SPLASH_IMAGE_RES_ID) , _info_pixmap (INFO_IMAGE_RES_ID) , _sticky_pixmap (STICKY_KEY_PIXMAP) , _splash_mode (false) , _sticky_on (false) { } void GUILayer::draw_splash(const QRegion& dest_region, RedDrawable& dest) { ASSERT(!_sticky_on); for (int i = 0; i < (int)dest_region.num_rects; i++) { Rect* r = &dest_region.rects[i]; dest.copy_pixels(_splash_pixmap, r->left - _splash_pos.x, r->top - _splash_pos.y, *r); } } void GUILayer::draw_info(const QRegion& dest_region, RedDrawable& dest) { for (int i = 0; i < (int)dest_region.num_rects; i++) { Rect* r = &dest_region.rects[i]; /* is rect inside sticky region or info region? */ if (_sticky_on && rect_intersects(*r, _sticky_rect)) { dest.blend_pixels(_sticky_pixmap, r->left - _sticky_pos.x, r->top - _sticky_pos.y, *r); } else { dest.blend_pixels(_info_pixmap, r->left - _info_pos.x, r->top - _info_pos.y, *r); } } } void GUILayer::copy_pixels(const QRegion& dest_region, RedDrawable& dest_dc) { RecurciveLock lock(_update_lock); if (_splash_mode) { draw_splash(dest_region, dest_dc); } else { draw_info(dest_region, dest_dc); } } void GUILayer::set_splash_mode() { RecurciveLock lock(_update_lock); Point size = _splash_pixmap.get_size(); Point screen_size = screen()->get_size(); Rect r; _splash_pos.y = r.top = (screen_size.y - size.y) / 2; _splash_pos.x = r.left = (screen_size.x - size.x) / 2; r.bottom = r.top + size.y; r.right = r.left + size.x; _splash_mode = true; lock.unlock(); set_rect_area(r); ASSERT(!_sticky_on); } void GUILayer::set_info_mode() { RecurciveLock lock(_update_lock); Point size = _info_pixmap.get_size(); Point screen_size = screen()->get_size(); Rect r; r.left = (screen_size.x - size.x) / 2; r.right = r.left + size.x; _info_pos.x = r.right - size.x; _info_pos.y = r.top = 0; r.bottom = r.top + size.y; _splash_mode = false; lock.unlock(); set_rect_area(r); set_sticky(_sticky_on); } void GUILayer::set_sticky(bool is_on) { RecurciveLock lock(_update_lock); if (!_sticky_on && !is_on) { return; } Point size = _sticky_pixmap.get_size(); Point screen_size = screen()->get_size(); _sticky_on = is_on; if (_sticky_on) { _sticky_pos.x = (screen_size.x - size.x) / 2; _sticky_pos.y = screen_size.y * 2 / 3; _sticky_rect.left = _sticky_pos.x; _sticky_rect.top = _sticky_pos.y; _sticky_rect.right = _sticky_rect.left + size.x; _sticky_rect.bottom = _sticky_rect.top + size.y; add_rect_area(_sticky_rect); invalidate(); } else { remove_rect_area(_sticky_rect); } } void GUILayer::on_size_changed() { set_info_mode(); } void StickyKeyTimer::response(AbstractProcessLoop& events_loop) { Application* app = (Application*)events_loop.get_owner(); StickyInfo* sticky_info = &app->_sticky_info; ASSERT(app->is_sticky_trace_key(sticky_info->key)); ASSERT(app->_key_table[sticky_info->key ].press); ASSERT(sticky_info->key_first_down); ASSERT(sticky_info->key_down); sticky_info->sticky_mode = true; DBG(0, "ON sticky"); app->_gui_layer->set_sticky(true); app->deactivate_interval_timer(this); } static InputsHandler default_inputs_handler; enum AppCommands { APP_CMD_INVALID, APP_CMD_SEND_CTL_ALT_DEL, APP_CMD_TOGGLE_FULL_SCREEN, APP_CMD_RELEASE_CAPTURE, APP_CMD_SEND_TOGGLE_KEYS, APP_CMD_SEND_RELEASE_KEYS, APP_CMD_SEND_CTL_ALT_END, #ifdef RED_DEBUG APP_CMD_CONNECT, APP_CMD_DISCONNECT, #endif }; Application::Application() : ProcessLoop (this) , _client (*this) , _con_ciphers ("DEFAULT") , _enabled_channels (RED_CHANNEL_END, true) , _main_screen (NULL) , _active (false) , _full_screen (false) , _changing_screens (false) , _exit_code (0) , _active_screen (NULL) , _gui_layer (new GUILayer()) , _inputs_handler (&default_inputs_handler) , _monitors (NULL) , _title (L"SPICEc:%d") , _splash_mode (true) , _sys_key_intercept_mode (false) { DBG(0, ""); Platform::set_process_loop(*this); init_monitors(); init_key_table(); init_menu(); _main_screen = get_screen(0); _main_screen->attach_layer(*_gui_layer); _gui_layer->set_splash_mode(); Platform::set_event_listener(this); Platform::set_display_mode_listner(this); _commands_map["toggle-fullscreen"] = APP_CMD_TOGGLE_FULL_SCREEN; _commands_map["release-cursor"] = APP_CMD_RELEASE_CAPTURE; #ifdef RED_DEBUG _commands_map["connect"] = APP_CMD_CONNECT; _commands_map["disconnect"] = APP_CMD_DISCONNECT; #endif _canvas_types.resize(1); #ifdef WIN32 _canvas_types[0] = CANVAS_OPTION_GDI; #else _canvas_types[0] = CANVAS_OPTION_CAIRO; #endif _host_auth_opt.type_flags = RedPeer::HostAuthOptions::HOST_AUTH_OP_NAME; Platform::get_app_data_dir(_host_auth_opt.CA_file, app_name); Platform::path_append(_host_auth_opt.CA_file, CA_FILE_NAME); std::auto_ptr parser(new HotKeysParser("toggle-fullscreen=shift+f11" ",release-cursor=shift+f12" #ifdef RED_DEBUG ",connect=shift+f5" ",disconnect=shift+f6" #endif , _commands_map)); _hot_keys = parser->get(); _sticky_info.trace_is_on = false; _sticky_info.sticky_mode = false; _sticky_info.key_first_down = false; _sticky_info.key_down = false; _sticky_info.key = REDKEY_INVALID; _sticky_info.timer.reset(new StickyKeyTimer()); } Application::~Application() { _main_screen->detach_layer(*_gui_layer); _main_screen->unref(); destroy_monitors(); } void Application::init_menu() { //fixme: menu items name need to be dynamically updated by hot keys configuration. AutoRef root_menu(new Menu(*this, "")); (*root_menu)->add_command("Send Ctrl+Alt+Del\tCtrl+Alt+End", APP_CMD_SEND_CTL_ALT_DEL); (*root_menu)->add_command("Toggle full screen\tShift+F11", APP_CMD_TOGGLE_FULL_SCREEN); AutoRef key_menu(new Menu(*this, "Special keys")); (*key_menu)->add_command("Send Shift+F11", APP_CMD_SEND_TOGGLE_KEYS); (*key_menu)->add_command("Send Shift+F12", APP_CMD_SEND_RELEASE_KEYS); (*key_menu)->add_command("Send Ctrl+Alt+End", APP_CMD_SEND_CTL_ALT_END); (*root_menu)->add_sub(key_menu.release()); _app_menu.reset(root_menu.release()); } void Application::set_inputs_handler(InputsHandler& handler) { unpress_all(); _inputs_handler = &handler; if (_active) { handler.on_focus_in(); } } void Application::remove_inputs_handler(InputsHandler& handler) { if (_inputs_handler != &handler) { return; } _inputs_handler = &default_inputs_handler; } void Application::abort() { Platform::set_event_listener(NULL); Platform::set_display_mode_listner(NULL); unpress_all(); while (!_client.abort()) { ProcessLoop::process_events_queue(); Platform::msleep(100); } } class AutoAbort { public: AutoAbort(Application& app) : _app(app) {} ~AutoAbort() { _app.abort();} private: Application& _app; }; void Application::connect() { _client.connect(); } int Application::run() { _client.connect(); _exit_code = ProcessLoop::run(); return _exit_code; } RedScreen* Application::find_screen(int id) { if ((int)_screens.size() < id + 1) { return NULL; } return _screens[id]; } bool Application::release_capture() { unpress_all(); if (!_active_screen || !_active_screen->is_captured()) { return false; } _active_screen->relase_inputs(); return true; } bool Application::do_connect() { _client.connect(); return true; } bool Application::do_disconnect() { on_disconnecting(); _client.disconnect(); return true; } #define SCREEN_INIT_WIDTH 800 #define SCREEN_INIT_HEIGHT 600 RedScreen* Application::get_screen(int id) { RedScreen *screen; if ((int)_screens.size() < id + 1) { _screens.resize(id + 1); } if (!(screen = _screens[id])) { Monitor* mon; if (_client.is_auto_display_res() && (mon = find_monitor(id))) { Point size = mon->get_size(); screen = _screens[id] = new RedScreen(*this, id, _title, size.x, size.y); } else { screen = _screens[id] = new RedScreen(*this, id, _title, SCREEN_INIT_WIDTH, SCREEN_INIT_HEIGHT); } if (_full_screen) { bool capture; mon = get_monitor(id); capture = release_capture(); screen->set_monitor(mon); position_screens(); screen->show_full_screen(); prepare_monitors(); if (capture) { _main_screen->activate(); _main_screen->capture_inputs(); } } else if (id != 0) { screen->show(false, _main_screen); } } else { screen = screen->ref(); } return screen; } void Application::on_screen_destroyed(int id, bool was_captured) { bool reposition = false; if ((int)_screens.size() < id + 1 || !_screens[id]) { THROW("no screen"); } if (_active_screen == _screens[id]) { _active_screen = NULL; } if (_full_screen && _screens[id]->has_monitor()) { _screens[id]->get_monitor()->restore(); reposition = true; } _screens[id] = NULL; if (reposition) { bool capture = was_captured || release_capture(); prepare_monitors(); position_screens(); if (capture) { _main_screen->activate(); _main_screen->capture_inputs(); } } } void Application::on_mouse_motion(int dx, int dy, int buttons_state) { _inputs_handler->on_mouse_motion(dx, dy, buttons_state); } void Application::on_mouse_position(int x, int y, int buttons_state, int display_id) { _inputs_handler->on_mouse_position(x, y, buttons_state, display_id); } void Application::on_mouse_down(int button, int buttons_state) { _inputs_handler->on_mouse_down(button, buttons_state); } void Application::on_mouse_up(int button, int buttons_state) { _inputs_handler->on_mouse_up(button, buttons_state); } void Application::init_scan_code(int index) { ASSERT((index & 0x80) == 0); _key_table[index]._make = index; _key_table[index]._break = index | 0x80; } void Application::init_korean_scan_code(int index) { _key_table[index]._make = index; _key_table[index]._break = index; } void Application::init_escape_scan_code(int index) { ASSERT(((index - REDKEY_ESCAPE_BASE) & 0x80) == 0); _key_table[index]._make = 0xe0 | ((index - REDKEY_ESCAPE_BASE) << 8); _key_table[index]._break = _key_table[index]._make | 0x8000; } void Application::init_pause_scan_code() { _key_table[REDKEY_PAUSE]._make = 0x451de1; _key_table[REDKEY_PAUSE]._break = 0xc59de1; } void Application::init_key_table() { memset(_key_table, 0, sizeof(_key_table)); _num_keys_pressed = 0; init_scan_code(REDKEY_ESCAPE); init_scan_code(REDKEY_1); init_scan_code(REDKEY_2); init_scan_code(REDKEY_3); init_scan_code(REDKEY_4); init_scan_code(REDKEY_5); init_scan_code(REDKEY_6); init_scan_code(REDKEY_7); init_scan_code(REDKEY_8); init_scan_code(REDKEY_9); init_scan_code(REDKEY_0); init_scan_code(REDKEY_MINUS); init_scan_code(REDKEY_EQUALS); init_scan_code(REDKEY_BACKSPACE); init_scan_code(REDKEY_TAB); init_scan_code(REDKEY_Q); init_scan_code(REDKEY_W); init_scan_code(REDKEY_E); init_scan_code(REDKEY_R); init_scan_code(REDKEY_T); init_scan_code(REDKEY_Y); init_scan_code(REDKEY_U); init_scan_code(REDKEY_I); init_scan_code(REDKEY_O); init_scan_code(REDKEY_P); init_scan_code(REDKEY_L_BRACKET); init_scan_code(REDKEY_R_BRACKET); init_scan_code(REDKEY_ENTER); init_scan_code(REDKEY_L_CTRL); init_scan_code(REDKEY_A); init_scan_code(REDKEY_S); init_scan_code(REDKEY_D); init_scan_code(REDKEY_F); init_scan_code(REDKEY_G); init_scan_code(REDKEY_H); init_scan_code(REDKEY_J); init_scan_code(REDKEY_K); init_scan_code(REDKEY_L); init_scan_code(REDKEY_SEMICOLON); init_scan_code(REDKEY_QUOTE); init_scan_code(REDKEY_BACK_QUOTE); init_scan_code(REDKEY_L_SHIFT); init_scan_code(REDKEY_BACK_SLASH); init_scan_code(REDKEY_Z); init_scan_code(REDKEY_X); init_scan_code(REDKEY_C); init_scan_code(REDKEY_V); init_scan_code(REDKEY_B); init_scan_code(REDKEY_N); init_scan_code(REDKEY_M); init_scan_code(REDKEY_COMMA); init_scan_code(REDKEY_PERIOD); init_scan_code(REDKEY_SLASH); init_scan_code(REDKEY_R_SHIFT); init_scan_code(REDKEY_PAD_MULTIPLY); init_scan_code(REDKEY_L_ALT); init_scan_code(REDKEY_SPACE); init_scan_code(REDKEY_CAPS_LOCK); init_scan_code(REDKEY_F1); init_scan_code(REDKEY_F2); init_scan_code(REDKEY_F3); init_scan_code(REDKEY_F4); init_scan_code(REDKEY_F5); init_scan_code(REDKEY_F6); init_scan_code(REDKEY_F7); init_scan_code(REDKEY_F8); init_scan_code(REDKEY_F9); init_scan_code(REDKEY_F10); init_scan_code(REDKEY_NUM_LOCK); init_scan_code(REDKEY_SCROLL_LOCK); init_scan_code(REDKEY_PAD_7); init_scan_code(REDKEY_PAD_8); init_scan_code(REDKEY_PAD_9); init_scan_code(REDKEY_PAD_MINUS); init_scan_code(REDKEY_PAD_4); init_scan_code(REDKEY_PAD_5); init_scan_code(REDKEY_PAD_6); init_scan_code(REDKEY_PAD_PLUS); init_scan_code(REDKEY_PAD_1); init_scan_code(REDKEY_PAD_2); init_scan_code(REDKEY_PAD_3); init_scan_code(REDKEY_PAD_0); init_scan_code(REDKEY_PAD_POINT); init_scan_code(REDKEY_EUROPEAN); init_scan_code(REDKEY_F11); init_scan_code(REDKEY_F12); init_scan_code(REDKEY_JAPANESE_HIRAGANA_KATAKANA); init_scan_code(REDKEY_JAPANESE_BACKSLASH); init_scan_code(REDKEY_JAPANESE_HENKAN); init_scan_code(REDKEY_JAPANESE_MUHENKAN); init_scan_code(REDKEY_JAPANESE_YEN); init_korean_scan_code(REDKEY_KOREAN_HANGUL); init_korean_scan_code(REDKEY_KOREAN_HANGUL_HANJA); init_escape_scan_code(REDKEY_ESCAPE_BASE); init_escape_scan_code(REDKEY_PAD_ENTER); init_escape_scan_code(REDKEY_R_CTRL); init_escape_scan_code(REDKEY_FAKE_L_SHIFT); init_escape_scan_code(REDKEY_PAD_DIVIDE); init_escape_scan_code(REDKEY_FAKE_R_SHIFT); init_escape_scan_code(REDKEY_CTRL_PRINT_SCREEN); init_escape_scan_code(REDKEY_R_ALT); init_escape_scan_code(REDKEY_CTRL_BREAK); init_escape_scan_code(REDKEY_HOME); init_escape_scan_code(REDKEY_UP); init_escape_scan_code(REDKEY_PAGEUP); init_escape_scan_code(REDKEY_LEFT); init_escape_scan_code(REDKEY_RIGHT); init_escape_scan_code(REDKEY_END); init_escape_scan_code(REDKEY_DOWN); init_escape_scan_code(REDKEY_PAGEDOWN); init_escape_scan_code(REDKEY_INSERT); init_escape_scan_code(REDKEY_DELETE); init_escape_scan_code(REDKEY_LEFT_CMD); init_escape_scan_code(REDKEY_RIGHT_CMD); init_escape_scan_code(REDKEY_MENU); init_pause_scan_code(); } inline uint32_t Application::get_make_scan_code(RedKey key) { return _key_table[key]._make; } inline uint32_t Application::get_break_scan_code(RedKey key) { return _key_table[key]._break; } void Application::unpress_all() { reset_sticky(); for (int i = 0; i < REDKEY_NUM_KEYS; i++) { if (_key_table[i].press) { uint32_t scan_code = get_break_scan_code((RedKey)i); ASSERT(scan_code); _inputs_handler->on_key_up(scan_code); unpress_key((RedKey)i); } } } void Application::on_connected() { } void Application::on_disconnecting() { release_capture(); } Menu* Application::get_app_menu() { if (!*_app_menu) { return NULL; } return (*_app_menu)->ref(); } void Application::do_command(int command) { switch (command) { case APP_CMD_SEND_CTL_ALT_DEL: send_alt_ctl_del(); break; case APP_CMD_TOGGLE_FULL_SCREEN: toggle_full_screen(); break; case APP_CMD_SEND_TOGGLE_KEYS: send_command_hotkey(APP_CMD_SEND_TOGGLE_KEYS); break; case APP_CMD_SEND_RELEASE_KEYS: send_command_hotkey(APP_CMD_SEND_RELEASE_KEYS); break; case APP_CMD_SEND_CTL_ALT_END: send_ctrl_alt_end(); break; case APP_CMD_RELEASE_CAPTURE: release_capture(); break; #ifdef RED_DEBUG case APP_CMD_CONNECT: do_connect(); break; case APP_CMD_DISCONNECT: do_disconnect(); break; #endif } } #ifdef REDKEY_DEBUG static void show_red_key(RedKey key) { #define KEYCASE(red_key) \ case red_key: \ DBG(0, #red_key); \ return; switch (key) { KEYCASE(REDKEY_INVALID); KEYCASE(REDKEY_ESCAPE); KEYCASE(REDKEY_1); KEYCASE(REDKEY_2); KEYCASE(REDKEY_3); KEYCASE(REDKEY_4); KEYCASE(REDKEY_5); KEYCASE(REDKEY_6); KEYCASE(REDKEY_7); KEYCASE(REDKEY_8); KEYCASE(REDKEY_9); KEYCASE(REDKEY_0); KEYCASE(REDKEY_MINUS); KEYCASE(REDKEY_EQUALS); KEYCASE(REDKEY_BACKSPACE); KEYCASE(REDKEY_TAB); KEYCASE(REDKEY_Q); KEYCASE(REDKEY_W); KEYCASE(REDKEY_E); KEYCASE(REDKEY_R); KEYCASE(REDKEY_T); KEYCASE(REDKEY_Y); KEYCASE(REDKEY_U); KEYCASE(REDKEY_I); KEYCASE(REDKEY_O); KEYCASE(REDKEY_P); KEYCASE(REDKEY_ENTER); KEYCASE(REDKEY_L_BRACKET); KEYCASE(REDKEY_R_BRACKET); KEYCASE(REDKEY_L_CTRL); KEYCASE(REDKEY_A); KEYCASE(REDKEY_S); KEYCASE(REDKEY_D); KEYCASE(REDKEY_F); KEYCASE(REDKEY_G); KEYCASE(REDKEY_H); KEYCASE(REDKEY_J); KEYCASE(REDKEY_K); KEYCASE(REDKEY_L); KEYCASE(REDKEY_SEMICOLON); KEYCASE(REDKEY_QUOTE); KEYCASE(REDKEY_BACK_QUOTE); KEYCASE(REDKEY_L_SHIFT); KEYCASE(REDKEY_BACK_SLASH); KEYCASE(REDKEY_Z); KEYCASE(REDKEY_X); KEYCASE(REDKEY_C); KEYCASE(REDKEY_V); KEYCASE(REDKEY_B); KEYCASE(REDKEY_N); KEYCASE(REDKEY_M); KEYCASE(REDKEY_COMMA); KEYCASE(REDKEY_PERIOD); KEYCASE(REDKEY_SLASH); KEYCASE(REDKEY_R_SHIFT); KEYCASE(REDKEY_PAD_MULTIPLY); KEYCASE(REDKEY_L_ALT); KEYCASE(REDKEY_SPACE); KEYCASE(REDKEY_CAPS_LOCK); KEYCASE(REDKEY_F1); KEYCASE(REDKEY_F2); KEYCASE(REDKEY_F3); KEYCASE(REDKEY_F4); KEYCASE(REDKEY_F5); KEYCASE(REDKEY_F6); KEYCASE(REDKEY_F7); KEYCASE(REDKEY_F8); KEYCASE(REDKEY_F9); KEYCASE(REDKEY_F10); KEYCASE(REDKEY_NUM_LOCK); KEYCASE(REDKEY_SCROLL_LOCK); KEYCASE(REDKEY_PAD_7); KEYCASE(REDKEY_PAD_8); KEYCASE(REDKEY_PAD_9); KEYCASE(REDKEY_PAD_MINUS); KEYCASE(REDKEY_PAD_4); KEYCASE(REDKEY_PAD_5); KEYCASE(REDKEY_PAD_6); KEYCASE(REDKEY_PAD_PLUS); KEYCASE(REDKEY_PAD_1); KEYCASE(REDKEY_PAD_2); KEYCASE(REDKEY_PAD_3); KEYCASE(REDKEY_PAD_0); KEYCASE(REDKEY_PAD_POINT); KEYCASE(REDKEY_F11); KEYCASE(REDKEY_F12); KEYCASE(REDKEY_PAD_ENTER); KEYCASE(REDKEY_R_CTRL); KEYCASE(REDKEY_FAKE_L_SHIFT); KEYCASE(REDKEY_PAD_DIVIDE); KEYCASE(REDKEY_FAKE_R_SHIFT); KEYCASE(REDKEY_CTRL_PRINT_SCREEN); KEYCASE(REDKEY_R_ALT); KEYCASE(REDKEY_CTRL_BREAK); KEYCASE(REDKEY_HOME); KEYCASE(REDKEY_UP); KEYCASE(REDKEY_PAGEUP); KEYCASE(REDKEY_LEFT); KEYCASE(REDKEY_RIGHT); KEYCASE(REDKEY_END); KEYCASE(REDKEY_DOWN); KEYCASE(REDKEY_PAGEDOWN); KEYCASE(REDKEY_INSERT); KEYCASE(REDKEY_DELETE); KEYCASE(REDKEY_LEFT_CMD); KEYCASE(REDKEY_RIGHT_CMD); KEYCASE(REDKEY_MENU); default: DBG(0, "???"); } } #endif bool Application::press_key(RedKey key) { if (_key_table[key].press) { return true; } else { _key_table[key].press = true; _num_keys_pressed++; return false; } } bool Application::unpress_key(RedKey key) { ASSERT(!_sticky_info.key_down || !is_sticky_trace_key(key)); if (_key_table[key].press) { _key_table[key].press = false; _num_keys_pressed--; ASSERT(_num_keys_pressed >= 0); return true; } else { return false; } } inline bool Application::is_sticky_trace_key(RedKey key) { return ((key == REDKEY_L_ALT) || (key == REDKEY_R_ALT)); } void Application::reset_sticky() { _sticky_info.trace_is_on = !_splash_mode && _sys_key_intercept_mode; _sticky_info.key_first_down = false; deactivate_interval_timer(*_sticky_info.timer); if (_sticky_info.sticky_mode) { ASSERT(_key_table[_sticky_info.key].press); // if it is physically down, we shouldn't unpress it if (!_sticky_info.key_down) { do_on_key_up(_sticky_info.key); } _sticky_info.sticky_mode = false; DBG(0, "OFF sticky"); _gui_layer->set_sticky(false); } _sticky_info.key_down = false; _sticky_info.key = REDKEY_INVALID; } struct ModifierKey { int modifier; RedKey key; }; ModifierKey modifier_keys[] = { {Platform::L_SHIFT_MODIFIER, REDKEY_L_SHIFT}, {Platform::R_SHIFT_MODIFIER, REDKEY_R_SHIFT}, {Platform::L_CTRL_MODIFIER, REDKEY_L_CTRL}, {Platform::R_CTRL_MODIFIER, REDKEY_R_CTRL}, {Platform::L_ALT_MODIFIER, REDKEY_L_ALT}, {Platform::R_ALT_MODIFIER, REDKEY_R_ALT}, }; void Application::sync_keyboard_modifiers() { uint32_t modifiers = Platform::get_keyboard_modifiers(); for (int i = 0; i < sizeof(modifier_keys) / sizeof(modifier_keys[0]); i++) { if (modifiers & modifier_keys[i].modifier) { on_key_down(modifier_keys[i].key); } else { on_key_up(modifier_keys[i].key); } } } void Application::on_key_down(RedKey key) { if (key <= 0 || key >= REDKEY_NUM_KEYS) { return; } uint32_t scan_code = get_make_scan_code(key); if (!scan_code) { LOG_WARN("no make code for %d", key); return; } bool was_pressed = press_key(key); if (_sticky_info.trace_is_on) { if (key == _sticky_info.key) { _sticky_info.key_down = true; } if (!_sticky_info.sticky_mode) { // during tracing (traced key was pressed and no keyboard event has occured till now) if (_sticky_info.key_first_down) { ASSERT(_sticky_info.key != REDKEY_INVALID); if (key != _sticky_info.key) { reset_sticky(); } } else if (is_sticky_trace_key(key) && (_num_keys_pressed == 1) && !was_pressed) { ASSERT(_sticky_info.key == REDKEY_INVALID); // start tracing _sticky_info.key = key; _sticky_info.key_first_down = true; _sticky_info.key_down = true; activate_interval_timer(*_sticky_info.timer, STICKY_KEY_TIMEOUT); } } } int command = get_hotkeys_commnad(); if (command != APP_CMD_INVALID) { do_command(command); return; } #ifdef WIN32 if (!_active_screen->intercepts_sys_key() && (key == REDKEY_LEFT_CMD || key == REDKEY_RIGHT_CMD || key == REDKEY_MENU || _key_table[REDKEY_L_ALT].press)) { unpress_key(key); return; } if (!_sticky_info.sticky_mode && ((_key_table[REDKEY_L_CTRL].press || _key_table[REDKEY_R_CTRL].press) && (_key_table[REDKEY_L_ALT].press || _key_table[REDKEY_R_ALT].press))) { if (key == REDKEY_END || key == REDKEY_PAD_1) { unpress_key(key); _inputs_handler->on_key_down(get_make_scan_code(REDKEY_DELETE)); _inputs_handler->on_key_up(get_break_scan_code(REDKEY_DELETE)); } else if (key == REDKEY_DELETE || key == REDKEY_PAD_POINT) { unpress_key(key); return; } } #endif _inputs_handler->on_key_down(scan_code); } void Application::do_on_key_up(RedKey key) { unpress_key(key); uint32_t scan_code = get_break_scan_code(key); if (!scan_code) { LOG_WARN("no break code for %d", key); return; } _inputs_handler->on_key_up(scan_code); } void Application::on_key_up(RedKey key) { if(key < 0 || key >= REDKEY_NUM_KEYS || !_key_table[key].press) { return; } if (_sticky_info.trace_is_on) { ASSERT(_sticky_info.sticky_mode || (key == _sticky_info.key) || (_sticky_info.key == REDKEY_INVALID)); if (key == _sticky_info.key) { _sticky_info.key_down = false; if (_sticky_info.key_first_down) { _sticky_info.key_first_down = false; if (!_sticky_info.sticky_mode) { reset_sticky(); } else { return; // ignore the sticky-key first release } } } if (_sticky_info.sticky_mode) { RedKey old_sticky_key = _sticky_info.key; reset_sticky(); if (key == old_sticky_key) { return; // no need to send key_up twice } } } do_on_key_up(key); } void Application::on_deactivate_screen(RedScreen* screen) { if (_active_screen == screen) { _sys_key_intercept_mode = false; release_capture(); _active_screen = NULL; } } void Application::on_activate_screen(RedScreen* screen) { ASSERT(!_active_screen || (_active_screen == screen)); _active_screen = screen; sync_keyboard_modifiers(); } void Application::on_start_screen_key_interception(RedScreen* screen) { ASSERT(screen == _active_screen); _sys_key_intercept_mode = true; reset_sticky(); } void Application::on_stop_screen_key_interception(RedScreen* screen) { ASSERT(screen == _active_screen); _sys_key_intercept_mode = false; reset_sticky(); } void Application::on_app_activated() { _active = true; _inputs_handler->on_focus_in(); } void Application::on_app_deactivated() { _active = false; _inputs_handler->on_focus_out(); #ifdef WIN32 if (!_changing_screens) { exit_full_screen(); } #endif } bool Application::rearrange_monitors(RedScreen& screen) { if (!_full_screen) { return false; } bool capture = release_capture(); prepare_monitors(); position_screens(); if (capture && _main_screen != &screen) { capture = false; _main_screen->activate(); _main_screen->capture_inputs(); } return capture; } Monitor* Application::find_monitor(int id) { ASSERT(_monitors); std::list::const_iterator iter = _monitors->begin(); for (; iter != _monitors->end(); iter++) { Monitor *mon = *iter; if (mon->get_id() == id) { return mon; } } return NULL; } Monitor* Application::get_monitor(int id) { Monitor *mon = find_monitor(id); if ((mon = find_monitor(id))) { mon->set_used(); } return mon; } void Application::assign_monitors() { for (int i = 0; i < (int)_screens.size(); i++) { if (_screens[i]) { ASSERT(!_screens[i]->has_monitor()); _screens[i]->set_monitor(get_monitor(i)); } } } void Application::prepare_monitors() { for (int i = 0; i < (int)_screens.size(); i++) { Monitor* mon; if (_screens[i] && (mon = _screens[i]->get_monitor())) { Point size = _screens[i]->get_size(); mon->set_mode(size.x, size.y); } } //todo: test match of monitors size/position against real world size/position } void Application::restore_monitors() { //todo: renew monitors (destroy + init) std::list::const_iterator iter = _monitors->begin(); for (; iter != _monitors->end(); iter++) { (*iter)->restore(); } } void Application::position_screens() { for (int i = 0; i < (int)_screens.size(); i++) { Monitor* mon; if (_screens[i] && (mon = _screens[i]->get_monitor())) { _screens[i]->position_full_screen(mon->get_position()); } } } void Application::hide() { for (int i = 0; i < (int)_screens.size(); i++) { if (_screens[i]) { _screens[i]->hide(); } } } void Application::show() { for (int i = 0; i < (int)_screens.size(); i++) { if (_screens[i]) { _screens[i]->show(); } } } void Application::external_show() { DBG(0, "Entry, _screens.size()=%lu", _screens.size()); for (size_t i = 0; i < _screens.size(); ++i) { DBG(0, "%lu", i); if (_screens[i]) { _screens[i]->external_show(); } } } void Application::show_full_screen() { for (int i = 0; i < (int)_screens.size(); i++) { if (_screens[i]) { _screens[i]->show_full_screen(); } } } void Application::enter_full_screen() { LOG_INFO(""); _changing_screens = true; release_capture(); assign_monitors(); hide(); prepare_monitors(); position_screens(); show_full_screen(); _main_screen->activate(); _main_screen->capture_inputs(); _changing_screens = false; _full_screen = true; } void Application::exit_full_screen() { if (!_full_screen) { return; } LOG_INFO(""); _changing_screens = true; release_capture(); for (int i = 0; i < (int)_screens.size(); i++) { if (_screens[i]) { Monitor* mon; _screens[i]->exit_full_screen(); if ((mon = _screens[i]->get_monitor())) { _screens[i]->set_monitor(NULL); mon->set_free(); } } } restore_monitors(); _full_screen = false; show(); _main_screen->activate(); _changing_screens = false; } bool Application::toggle_full_screen() { if (_full_screen) { exit_full_screen(); } else { enter_full_screen(); } return _full_screen; } void Application::minimize() { for (int i = 0; i < (int)_screens.size(); i++) { if (_screens[i]) { _screens[i]->minimize(); } } } void Application::destroy_monitors() { for (int i = 0; i < (int)_screens.size(); i++) { if (_screens[i]) { _screens[i]->set_monitor(NULL); } } Platform::destroy_monitors(); _monitors = NULL; } void Application::init_monitors() { exit_full_screen(); destroy_monitors(); _monitors = &Platform::init_monitors(); } void Application::on_monitors_change() { if (Monitor::is_self_change()) { return; } exit_full_screen(); init_monitors(); } void Application::on_display_mode_change() { _client.on_display_mode_change(); } void Application::show_splash(int screen_id) { if (screen_id != 0) { return; } _splash_mode = true; release_capture(); ASSERT(!_sticky_info.trace_is_on); (*_gui_layer).set_splash_mode(); } void Application::hide_splash(int screen_id) { if (screen_id != 0) { return; } _splash_mode = false; (*_gui_layer).set_info_mode(); reset_sticky(); } uint32_t Application::get_mouse_mode() { return _client.get_mouse_mode(); } void Application::set_title(std::wstring& title) { _title = title; for (size_t i = 0; i < _screens.size(); ++i) { if (_screens[i]) { _screens[i]->set_name(_title); } } } bool Application::is_key_set_pressed(const HotkeySet& key_set) { HotkeySet::const_iterator iter = key_set.begin(); while (iter != key_set.end()) { if (!(_key_table[iter->main].press || _key_table[iter->alter].press)) { break; } ++iter; } return iter == key_set.end(); } int Application::get_hotkeys_commnad() { HotKeys::const_iterator iter = _hot_keys.begin(); while (iter != _hot_keys.end()) { if (is_key_set_pressed(iter->second)) { break; } ++iter; } return (iter != _hot_keys.end()) ? iter->first : APP_CMD_INVALID; } bool Application::is_cad_pressed() { return ((_key_table[REDKEY_L_CTRL].press || _key_table[REDKEY_R_CTRL].press) && (_key_table[REDKEY_L_ALT].press || _key_table[REDKEY_R_ALT].press) && (_key_table[REDKEY_DELETE].press || _key_table[REDKEY_PAD_POINT].press)); } void Application::send_key_down(RedKey key) { _inputs_handler->on_key_down(get_make_scan_code(key)); } void Application::send_key_up(RedKey key) { _inputs_handler->on_key_up(get_break_scan_code(key)); } void Application::send_alt_ctl_del() { send_key_down(REDKEY_L_CTRL); send_key_down(REDKEY_L_ALT); send_key_down(REDKEY_DELETE); send_key_up(REDKEY_DELETE); send_key_up(REDKEY_L_ALT); send_key_up(REDKEY_L_CTRL); } void Application::send_ctrl_alt_end() { send_key_down(REDKEY_L_CTRL); send_key_down(REDKEY_L_ALT); send_key_down(REDKEY_END); send_key_up(REDKEY_L_CTRL); send_key_up(REDKEY_L_ALT); send_key_up(REDKEY_END); } void Application::send_command_hotkey(int action) { HotKeys::const_iterator iter = _hot_keys.find(action); if (iter != _hot_keys.end()) { send_hotkey_key_set(iter->second); } } void Application::send_hotkey_key_set(const HotkeySet& key_set) { HotkeySet::const_iterator iter; for (iter = key_set.begin(); iter != key_set.end(); ++iter) { send_key_down(iter->main); } for (iter = key_set.begin(); iter != key_set.end(); ++iter) { send_key_up(iter->main); } } static inline int str_to_port(const char *str) { long port; char *endptr; port = strtol(str, &endptr, 0); if (endptr != str + strlen(str) || port < 0 || port > 0xffff) { return -1; } return port; } bool Application::set_channels_security(CmdLineParser& parser, bool on, char *val, const char* arg0) { RedPeer::ConnectionOptions::Type option; option = (on) ? RedPeer::ConnectionOptions::CON_OP_SECURE : RedPeer::ConnectionOptions::CON_OP_UNSECURE; typedef std::map< std::string, int> ChannelsNamesMap; ChannelsNamesMap channels_names; channels_names["main"] = RED_CHANNEL_MAIN; channels_names["display"] = RED_CHANNEL_DISPLAY; channels_names["inputs"] = RED_CHANNEL_INPUTS; channels_names["cursor"] = RED_CHANNEL_CURSOR; channels_names["playback"] = RED_CHANNEL_PLAYBACK; channels_names["record"] = RED_CHANNEL_RECORD; if (!strcmp(val, "all")) { if ((val = parser.next_argument())) { Platform::term_printf("%s: \"all\" is exclusive in secure-channels\n", arg0); _exit_code = SPICEC_ERROR_CODE_INVALID_ARG; return false; } PeerConnectionOptMap::iterator iter = _peer_con_opt.begin(); for (; iter != _peer_con_opt.end(); iter++) { (*iter).second = option; } return true; } do { ChannelsNamesMap::iterator iter = channels_names.find(val); if (iter == channels_names.end()) { Platform::term_printf("%s: bad channel name \"%s\" in secure-channels\n", arg0, val); _exit_code = SPICEC_ERROR_CODE_INVALID_ARG; return false; } _peer_con_opt[(*iter).second] = option; } while ((val = parser.next_argument())); return true; } bool Application::set_connection_ciphers(const char* ciphers, const char* arg0) { _con_ciphers = ciphers; return true; } bool Application::set_ca_file(const char* ca_file, const char* arg0) { _host_auth_opt.CA_file = ca_file; return true; } bool Application::set_host_cert_subject(const char* subject, const char* arg0) { std::string subject_str(subject); std::string::const_iterator iter = subject_str.begin(); std::string entry; _host_auth_opt.type_flags = RedPeer::HostAuthOptions::HOST_AUTH_OP_SUBJECT; _host_auth_opt.host_subject.clear(); while (true) { if ((iter == subject_str.end()) || (*iter == ',')) { RedPeer::HostAuthOptions::CertFieldValuePair entry_pair; int value_pos = entry.find_first_of('='); if ((value_pos == std::string::npos) || (value_pos == (entry.length() - 1))) { Platform::term_printf("%s: host_subject bad format: assignment for %s is missing\n", arg0, entry.c_str()); _exit_code = SPICEC_ERROR_CODE_INVALID_ARG; return false; } entry_pair.first = entry.substr(0, value_pos); entry_pair.second = entry.substr(value_pos + 1); _host_auth_opt.host_subject.push_back(entry_pair); DBG(0, "subject entry: %s=%s", entry_pair.first.c_str(), entry_pair.second.c_str()); if (iter == subject_str.end()) { break; } entry.clear(); } else if (*iter == '\\') { iter++; if (iter == subject_str.end()) { LOG_WARN("single \\ in host subject"); entry.append(1, '\\'); continue; } else if ((*iter == '\\') || (*iter == ',')) { entry.append(1, *iter); } else { LOG_WARN("single \\ in host subject"); entry.append(1, '\\'); continue; } } else { entry.append(1, *iter); } iter++; } return true; } bool Application::set_canvas_option(CmdLineParser& parser, char *val, const char* arg0) { typedef std::map< std::string, CanvasOption> CanvasNamesMap; CanvasNamesMap canvas_types; canvas_types["cairo"] = CANVAS_OPTION_CAIRO; #ifdef WIN32 canvas_types["gdi"] = CANVAS_OPTION_GDI; #endif #ifdef USE_OGL canvas_types["gl_fbo"] = CANVAS_OPTION_OGL_FBO; canvas_types["gl_pbuff"] = CANVAS_OPTION_OGL_PBUFF; #endif _canvas_types.clear(); do { CanvasNamesMap::iterator iter = canvas_types.find(val); if (iter == canvas_types.end()) { Platform::term_printf("%s: bad canvas type \"%s\"\n", arg0, val); _exit_code = SPICEC_ERROR_CODE_INVALID_ARG; return false; } _canvas_types.resize(_canvas_types.size() + 1); _canvas_types[_canvas_types.size() - 1] = (*iter).second; } while ((val = parser.next_argument())); return true; } bool Application::set_enable_channels(CmdLineParser& parser, bool enable, char *val, const char* arg0) { typedef std::map< std::string, int> ChannelsNamesMap; ChannelsNamesMap channels_names; channels_names["display"] = RED_CHANNEL_DISPLAY; channels_names["inputs"] = RED_CHANNEL_INPUTS; channels_names["cursor"] = RED_CHANNEL_CURSOR; channels_names["playback"] = RED_CHANNEL_PLAYBACK; channels_names["record"] = RED_CHANNEL_RECORD; if (!strcmp(val, "all")) { if ((val = parser.next_argument())) { Platform::term_printf("%s: \"all\" is exclusive\n", arg0); _exit_code = SPICEC_ERROR_CODE_INVALID_ARG; return false; } for (unsigned int i = 0; i < _enabled_channels.size(); i++) { _enabled_channels[i] = enable; } return true; } do { ChannelsNamesMap::iterator iter = channels_names.find(val); if (iter == channels_names.end()) { Platform::term_printf("%s: bad channel name \"%s\"\n", arg0, val); _exit_code = SPICEC_ERROR_CODE_INVALID_ARG; return false; } _enabled_channels[(*iter).second] = enable; } while ((val = parser.next_argument())); return true; } void Application::on_cmd_line_invalid_arg(const char* arg0, const char* what, const char* val) { Platform::term_printf("%s: invalid %s value %s\n", arg0, what, val); _exit_code = SPICEC_ERROR_CODE_INVALID_ARG; } bool Application::process_cmd_line(int argc, char** argv) { std::string host; int sport = -1; int port = -1; bool auto_display_res = false; bool full_screen = false; std::string password; enum { SPICE_OPT_HOST = CmdLineParser::OPTION_FIRST_AVILABLE, SPICE_OPT_PORT, SPICE_OPT_SPORT, SPICE_OPT_PASSWORD, SPICE_OPT_FULL_SCREEN, SPICE_OPT_SECURE_CHANNELS, SPICE_OPT_UNSECURE_CHANNELS, SPICE_OPT_TLS_CIPHERS, SPICE_OPT_CA_FILE, SPICE_OPT_HOST_SUBJECT, SPICE_OPT_ENABLE_CHANNELS, SPICE_OPT_DISABLE_CHANNELS, SPICE_OPT_CANVAS_TYPE, }; CmdLineParser parser("Spice client", false); parser.add(SPICE_OPT_HOST, "host", "spice server address", "host", true, 'h'); parser.set_reqired(SPICE_OPT_HOST); parser.add(SPICE_OPT_PORT, "port", "spice server port", "port", true, 'p'); parser.add(SPICE_OPT_SPORT, "secure-port", "spice server secure port", "port", true, 's'); parser.add(SPICE_OPT_SECURE_CHANNELS, "secure-channels", "force secure connection on the specified channels", "channel", true); parser.set_multi(SPICE_OPT_SECURE_CHANNELS, ','); parser.add(SPICE_OPT_UNSECURE_CHANNELS, "unsecure-channels", "force unsecure connection on the specified channels", "channel", true); parser.set_multi(SPICE_OPT_UNSECURE_CHANNELS, ','); parser.add(SPICE_OPT_TLS_CIPHERS, "tls-ciphers", "ciphers for secure connections", "ciphers", true); parser.add(SPICE_OPT_CA_FILE, "ca-file", "truststore file for secure connections", "ca-file", true); parser.add(SPICE_OPT_HOST_SUBJECT, "host-subject", "subject of the host certifcate. Format: field=value pairs separated" " by commmas. Commas and backslashes within values must be preceded by" " a backslash", "host-subject", true); parser.add(SPICE_OPT_PASSWORD, "password", "server password", "password", true, 'w'); parser.add(SPICE_OPT_FULL_SCREEN, "full-screen", "open in full screen mode", "auto-conf", false, 'f'); parser.add(SPICE_OPT_ENABLE_CHANNELS, "enable-channels", "enable channels", "channel", true); parser.set_multi(SPICE_OPT_ENABLE_CHANNELS, ','); parser.add(SPICE_OPT_DISABLE_CHANNELS, "disable-channels", "disable channels", "channel", true); parser.set_multi(SPICE_OPT_DISABLE_CHANNELS, ','); parser.add(SPICE_OPT_CANVAS_TYPE, "canvas-type", "set rendering canvas", "canvas_type", true); parser.set_multi(SPICE_OPT_CANVAS_TYPE, ','); _peer_con_opt[RED_CHANNEL_MAIN] = RedPeer::ConnectionOptions::CON_OP_INVALID; _peer_con_opt[RED_CHANNEL_DISPLAY] = RedPeer::ConnectionOptions::CON_OP_INVALID; _peer_con_opt[RED_CHANNEL_INPUTS] = RedPeer::ConnectionOptions::CON_OP_INVALID; _peer_con_opt[RED_CHANNEL_CURSOR] = RedPeer::ConnectionOptions::CON_OP_INVALID; _peer_con_opt[RED_CHANNEL_PLAYBACK] = RedPeer::ConnectionOptions::CON_OP_INVALID; _peer_con_opt[RED_CHANNEL_RECORD] = RedPeer::ConnectionOptions::CON_OP_INVALID; parser.begin(argc, argv); char* val; int op; while ((op = parser.get_option(&val)) != CmdLineParser::OPTION_DONE) { switch (op) { case SPICE_OPT_HOST: host = val; break; case SPICE_OPT_PORT: { if ((port = str_to_port(val)) == -1) { on_cmd_line_invalid_arg(argv[0], "port", val); return false; } break; } case SPICE_OPT_SPORT: { if ((sport = str_to_port(val)) == -1) { on_cmd_line_invalid_arg(argv[0], "secure port", val); return false; } break; } case SPICE_OPT_FULL_SCREEN: if (val) { if (strcmp(val, "auto-conf")) { on_cmd_line_invalid_arg(argv[0], "full screen mode", val); return false; } auto_display_res = true; } full_screen = true; break; case SPICE_OPT_PASSWORD: password = val; break; case SPICE_OPT_SECURE_CHANNELS: if (!set_channels_security(parser, true, val, argv[0])) { return false; } break; case SPICE_OPT_UNSECURE_CHANNELS: if (!set_channels_security(parser, false, val, argv[0])) { return false; } break; case SPICE_OPT_TLS_CIPHERS: if (!set_connection_ciphers(val, argv[0])) { return false; } break; case SPICE_OPT_CA_FILE: if (!set_ca_file(val, argv[0])) { return false; } break; case SPICE_OPT_HOST_SUBJECT: if (!set_host_cert_subject(val, argv[0])) { return false; } break; case SPICE_OPT_ENABLE_CHANNELS: if (!set_enable_channels(parser, true, val, argv[0])) { return false; } break; case SPICE_OPT_DISABLE_CHANNELS: if (!set_enable_channels(parser, false, val, argv[0])) { return false; } break; case SPICE_OPT_CANVAS_TYPE: if (!set_canvas_option(parser, val, argv[0])) { return false; } break; case CmdLineParser::OPTION_HELP: parser.show_help(); return false; case CmdLineParser::OPTION_ERROR: _exit_code = SPICEC_ERROR_CODE_CMD_LINE_ERROR; return false; default: throw Exception("cmd line error", SPICEC_ERROR_CODE_CMD_LINE_ERROR); } } if (parser.is_set(SPICE_OPT_SECURE_CHANNELS) && !parser.is_set(SPICE_OPT_SPORT)) { Platform::term_printf("%s: missing --secure-port\n", argv[0]); _exit_code = SPICEC_ERROR_CODE_CMD_LINE_ERROR; return false; } PeerConnectionOptMap::iterator iter = _peer_con_opt.begin(); for (; iter != _peer_con_opt.end(); iter++) { if ((*iter).second == RedPeer::ConnectionOptions::CON_OP_SECURE) { continue; } if ((*iter).second == RedPeer::ConnectionOptions::CON_OP_UNSECURE) { continue; } if (parser.is_set(SPICE_OPT_PORT) && parser.is_set(SPICE_OPT_SPORT)) { (*iter).second = RedPeer::ConnectionOptions::CON_OP_BOTH; continue; } if (parser.is_set(SPICE_OPT_PORT)) { (*iter).second = RedPeer::ConnectionOptions::CON_OP_UNSECURE; continue; } if (parser.is_set(SPICE_OPT_SPORT)) { (*iter).second = RedPeer::ConnectionOptions::CON_OP_SECURE; continue; } Platform::term_printf("%s: missing --port or --sport\n", argv[0]); _exit_code = SPICEC_ERROR_CODE_CMD_LINE_ERROR; return false; } if (_enabled_channels[RED_CHANNEL_DISPLAY]) { _client.register_channel_factory(DisplayChannel::Factory()); } if (_enabled_channels[RED_CHANNEL_CURSOR]) { _client.register_channel_factory(CursorChannel::Factory()); } if (_enabled_channels[RED_CHANNEL_INPUTS]) { _client.register_channel_factory(InputsChannel::Factory()); } if (_enabled_channels[RED_CHANNEL_PLAYBACK]) { _client.register_channel_factory(PlaybackChannel::Factory()); } if (_enabled_channels[RED_CHANNEL_RECORD]) { _client.register_channel_factory(RecordChannel::Factory()); } _client.init(host.c_str(), port, sport, password.c_str(), auto_display_res); if (auto_display_res) { Monitor* mon = find_monitor(0); ASSERT(mon); Point size = mon->get_size(); _main_screen->set_mode(size.x, size.y, 32); } if (full_screen) { enter_full_screen(); } else { _main_screen->show(true, NULL); } return true; } void Application::init_logger() { std::string log_file_name; Platform::get_app_data_dir(log_file_name, app_name); Platform::path_append(log_file_name, "spicec.log"); int fd = ::open(log_file_name.c_str(), O_CREAT | O_APPEND | O_WRONLY, 0644); if (fd == -1) { log4cpp::BasicConfigurator::configure(); return; } log4cpp::Category& root = log4cpp::Category::getRoot(); #ifdef RED_DEBUG root.setPriority(log4cpp::Priority::DEBUG); root.removeAllAppenders(); root.addAppender(new log4cpp::FileAppender("_", fd)); #else root.setPriority(log4cpp::Priority::INFO); root.removeAllAppenders(); ::close(fd); root.addAppender(new log4cpp::RollingFileAppender("_", log_file_name)); #endif } void Application::init_globals() { init_logger(); srand((unsigned)time(NULL)); SSL_library_init(); SSL_load_error_strings(); cairo_canvas_init(); #ifdef USE_OGL gl_canvas_init(); #endif quic_init(); #ifdef WIN32 gdi_canvas_init(); #endif #ifdef CAIRO_CANVAS_CACH_IS_SHARED MUTEX_INIT(cairo_surface_user_data_mutex); #endif Platform::init(); RedWindow::init(); } void Application::cleanup_globals() { RedWindow::cleanup(); } int Application::main(int argc, char** argv, const char* version_str) { int ret; init_globals(); LOG_INFO("starting %s", version_str); std::auto_ptr app(new Application()); AutoAbort auto_abort(*app.get()); if (app->process_cmd_line(argc, argv)) { ret = app->run(); } else { ret = app->_exit_code; } cleanup_globals(); return ret; }