/* -*- Mode: C; c-basic-offset: 4; indent-tabs-mode: nil -*- */ /* Copyright (C) 2009 Red Hat, Inc. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, see . */ #ifdef HAVE_CONFIG_H #include #endif #include "common.h" #include "canvas.h" #include "red_pixmap.h" #ifdef USE_OPENGL #include "red_pixmap_gl.h" #endif #include "debug.h" #include "utils.h" #include "common.h" #include "display_channel.h" #include "application.h" #include "screen.h" #ifdef USE_OPENGL #include "red_gl_canvas.h" #endif #include "red_sw_canvas.h" #include "red_client.h" #include "utils.h" #include "debug.h" #ifdef WIN32 #include "red_gdi_canvas.h" #endif #include "platform_utils.h" #include "inputs_channel.h" #include "cursor_channel.h" #include "mjpeg_decoder.h" class CreatePrimarySurfaceEvent: public SyncEvent { public: CreatePrimarySurfaceEvent(DisplayChannel& channel, int width, int height, uint32_t format) : _channel (channel) , _width (width) , _height (height) , _format (format) { } virtual void do_response(AbstractProcessLoop& events_loop) { Application* app = (Application*)events_loop.get_owner(); _channel.screen()->lock_size(); app->resize_screen(_channel.screen(), _width, _height); _channel.create_canvas(0, app->get_canvas_types(), _width, _height, _format); } private: DisplayChannel& _channel; int _width; int _height; uint32_t _format; }; class DestroyPrimarySurfaceEvent: public SyncEvent { public: DestroyPrimarySurfaceEvent(DisplayChannel& channel) : _channel (channel) { } virtual void do_response(AbstractProcessLoop& events_loop) { _channel.destroy_canvas(0); } private: DisplayChannel& _channel; }; class CreateSurfaceEvent: public SyncEvent { public: CreateSurfaceEvent(DisplayChannel& channel, int surface_id, int width, int height, uint32_t format) : _channel (channel) , _surface_id (surface_id) , _width (width) , _height (height) , _format (format) { } virtual void do_response(AbstractProcessLoop& events_loop) { Application* app = (Application*)events_loop.get_owner(); _channel.create_canvas(_surface_id, app->get_canvas_types(), _width, _height, _format); } private: DisplayChannel& _channel; int _surface_id; int _width; int _height; uint32_t _format; }; class DestroySurfaceEvent: public SyncEvent { public: DestroySurfaceEvent(DisplayChannel& channel, int surface_id) : _channel (channel) , _surface_id (surface_id) { } virtual void do_response(AbstractProcessLoop& events_loop) { _channel.destroy_canvas(_surface_id); } private: DisplayChannel& _channel; int _surface_id; }; class UnlockScreenEvent: public Event { public: UnlockScreenEvent(RedScreen* screen) : _screen (screen->ref()) { } virtual void response(AbstractProcessLoop& events_loop) { (*_screen)->unlock_size(); } private: AutoRef _screen; }; #define MAX_VIDEO_FRAMES 30 #define MAX_OVER 15 #define MAX_UNDER -15 class VideoStream { public: VideoStream(RedClient& client, Canvas& canvas, DisplayChannel& channel, uint32_t codec_type, bool top_down, uint32_t stream_width, uint32_t stream_height, uint32_t src_width, uint32_t src_height, SpiceRect* dest, int clip_type, uint32_t num_clip_rects, SpiceRect* clip_rects); ~VideoStream(); void push_data(uint32_t mm_time, uint32_t length, uint8_t* data); void set_clip(int type, uint32_t num_clip_rects, SpiceRect* clip_rects); const SpiceRect& get_dest() {return _dest;} void handle_update_mark(uint64_t update_mark); uint32_t handle_timer_update(uint32_t now); private: void free_frame(uint32_t frame_index); void release_all_bufs(); void remove_dead_frames(uint32_t mm_time); uint32_t alloc_frame_slot(); void maintenance(); void drop_one_frame(); uint32_t frame_slot(uint32_t frame_index) { return frame_index % MAX_VIDEO_FRAMES;} static bool is_time_to_display(uint32_t now, uint32_t frame_time); private: RedClient& _client; Canvas& _canvas; DisplayChannel& _channel; MJpegDecoder *_mjpeg_decoder; int _stream_width; int _stream_height; int _stride; bool _top_down; SpiceRect _dest; QRegion _clip_region; QRegion* _clip; struct VideoFrame { uint32_t mm_time; uint32_t compressed_data_size; uint8_t* compressed_data; }; uint32_t _frames_head; uint32_t _frames_tail; uint32_t _kill_mark; VideoFrame _frames[MAX_VIDEO_FRAMES]; #ifdef WIN32 HBITMAP _prev_bitmap; HDC _dc; #endif uint8_t *_uncompressed_data; PixmapHeader _pixmap; uint64_t _update_mark; uint32_t _update_time; public: VideoStream* next; }; #ifdef WIN32 static int create_bitmap(HDC *dc, HBITMAP *prev_bitmap, uint8_t **data, int *nstride, int width, int height) { HBITMAP bitmap; struct { BITMAPINFO inf; RGBQUAD palette[255]; } bitmap_info; memset(&bitmap_info, 0, sizeof(bitmap_info)); bitmap_info.inf.bmiHeader.biSize = sizeof(bitmap_info.inf.bmiHeader); bitmap_info.inf.bmiHeader.biWidth = width; bitmap_info.inf.bmiHeader.biHeight = height; bitmap_info.inf.bmiHeader.biPlanes = 1; bitmap_info.inf.bmiHeader.biBitCount = 32; bitmap_info.inf.bmiHeader.biCompression = BI_RGB; *nstride = width * 4; *dc = create_compatible_dc(); if (!*dc) { return 0; } bitmap = CreateDIBSection(*dc, &bitmap_info.inf, 0, (void **)data, NULL, 0); if (!bitmap) { DeleteObject(*dc); return 0; } *prev_bitmap = (HBITMAP)SelectObject(*dc, bitmap); return 1; } #endif VideoStream::VideoStream(RedClient& client, Canvas& canvas, DisplayChannel& channel, uint32_t codec_type, bool top_down, uint32_t stream_width, uint32_t stream_height, uint32_t src_width, uint32_t src_height, SpiceRect* dest, int clip_type, uint32_t num_clip_rects, SpiceRect* clip_rects) : _client (client) , _canvas (canvas) , _channel (channel) , _mjpeg_decoder (NULL) , _stream_width (stream_width) , _stream_height (stream_height) , _stride (stream_width * sizeof(uint32_t)) , _top_down (top_down) , _dest (*dest) , _clip (NULL) , _frames_head (0) , _frames_tail (0) , _kill_mark (0) , _uncompressed_data (NULL) , _update_mark (0) , _update_time (0) , next (NULL) { memset(_frames, 0, sizeof(_frames)); region_init(&_clip_region); if (codec_type != SPICE_VIDEO_CODEC_TYPE_MJPEG) { THROW("invalid video codec type %u", codec_type); } try { #ifdef WIN32 if (!create_bitmap(&_dc, &_prev_bitmap, &_uncompressed_data, &_stride, stream_width, stream_height)) { THROW("create_bitmap failed"); } #else _uncompressed_data = new uint8_t[_stride * stream_height]; #endif _pixmap.width = src_width; _pixmap.height = src_height; _mjpeg_decoder = new MJpegDecoder(stream_width, stream_height, _stride, _uncompressed_data, channel.get_peer_major() == 1); #ifdef WIN32 SetViewportOrgEx(_dc, 0, stream_height - src_height, NULL); #endif if (_top_down) { _pixmap.data = _uncompressed_data; _pixmap.stride = _stride; } else { _pixmap.data = _uncompressed_data + _stride * (src_height - 1); _pixmap.stride = -_stride; } set_clip(clip_type, num_clip_rects, clip_rects); } catch (...) { if (_mjpeg_decoder) { delete _mjpeg_decoder; _mjpeg_decoder = NULL; } release_all_bufs(); throw; } } VideoStream::~VideoStream() { if (_mjpeg_decoder) { delete _mjpeg_decoder; _mjpeg_decoder = NULL; } release_all_bufs(); region_destroy(&_clip_region); } void VideoStream::release_all_bufs() { for (int i = 0; i < MAX_VIDEO_FRAMES; i++) { delete[] _frames[i].compressed_data; } #ifdef WIN32 if (_dc) { HBITMAP bitmap = (HBITMAP)SelectObject(_dc, _prev_bitmap); DeleteObject(bitmap); DeleteObject(_dc); } #else delete[] _uncompressed_data; #endif } void VideoStream::free_frame(uint32_t frame_index) { int slot = frame_slot(frame_index); delete[] _frames[slot].compressed_data; _frames[slot].compressed_data = NULL; } void VideoStream::remove_dead_frames(uint32_t mm_time) { while (_frames_head != _frames_tail) { if (int(_frames[frame_slot(_frames_tail)].mm_time - mm_time) >= MAX_UNDER) { return; } free_frame(_frames_tail); _frames_tail++; } } void VideoStream::drop_one_frame() { ASSERT(MAX_VIDEO_FRAMES > 2 && (_frames_head - _frames_tail) == MAX_VIDEO_FRAMES); unsigned frame_index = _frames_head - _kill_mark++ % (MAX_VIDEO_FRAMES - 2) - 2; free_frame(frame_index); while (frame_index != _frames_tail) { --frame_index; _frames[frame_slot(frame_index + 1)] = _frames[frame_slot(frame_index)]; } _frames_tail++; } bool VideoStream::is_time_to_display(uint32_t now, uint32_t frame_time) { int delta = frame_time - now; return delta <= MAX_OVER && delta >= MAX_UNDER; } void VideoStream::maintenance() { uint32_t mm_time = _client.get_mm_time(); remove_dead_frames(mm_time); if (!_update_mark && !_update_time && _frames_head != _frames_tail) { VideoFrame* tail = &_frames[frame_slot(_frames_tail)]; ASSERT(tail->compressed_data); uint8_t* data = tail->compressed_data; uint32_t length = tail->compressed_data_size; int got_picture = 0; got_picture =_mjpeg_decoder->decode_data(data, length); if (got_picture) { #ifdef WIN32 _canvas.put_image(_dc, _pixmap, _dest, _clip); #else _canvas.put_image(_pixmap, _dest, _clip); #endif if (is_time_to_display(mm_time, tail->mm_time)) { _update_mark = _channel.invalidate(_dest, true); Platform::yield(); } else { _update_time = tail->mm_time; _channel.stream_update_request(_update_time); } } free_frame(_frames_tail++); } } uint32_t VideoStream::handle_timer_update(uint32_t now) { if (!_update_time) { return 0; } if (is_time_to_display(now, _update_time)) { _update_time = 0; _update_mark = _channel.invalidate(_dest, true); } else if ((int)(_update_time - now) < 0) { DBG(0, "to late"); _update_time = 0; } return _update_time; } void VideoStream::handle_update_mark(uint64_t update_mark) { if (!_update_mark || update_mark < _update_mark) { return; } _update_mark = 0; maintenance(); } uint32_t VideoStream::alloc_frame_slot() { if ((_frames_head - _frames_tail) == MAX_VIDEO_FRAMES) { drop_one_frame(); } return frame_slot(_frames_head++); } void VideoStream::push_data(uint32_t mm_time, uint32_t length, uint8_t* data) { maintenance(); uint32_t frame_slot = alloc_frame_slot(); _frames[frame_slot].compressed_data = new uint8_t[length]; memcpy(_frames[frame_slot].compressed_data, data, length); _frames[frame_slot].compressed_data_size = length; _frames[frame_slot].mm_time = mm_time ? mm_time : 1; maintenance(); } void VideoStream::set_clip(int type, uint32_t num_clip_rects, SpiceRect* clip_rects) { if (type == SPICE_CLIP_TYPE_NONE) { _clip = NULL; return; } ASSERT(type == SPICE_CLIP_TYPE_RECTS) region_clear(&_clip_region); for (unsigned int i = 0; i < num_clip_rects; i++) { region_add(&_clip_region, &clip_rects[i]); } _clip = &_clip_region; } StreamsTrigger::StreamsTrigger(DisplayChannel& channel) : _channel (channel) { } void StreamsTrigger::on_event() { _channel.on_streams_trigger(); } #ifdef USE_OPENGL GLInterruptRecreate::GLInterruptRecreate(DisplayChannel& channel) : _channel (channel) { } void GLInterruptRecreate::trigger() { Lock lock(_lock); EventSources::Trigger::trigger(); _cond.wait(lock); } void GLInterruptRecreate::on_event() { Lock lock(_lock); _channel.recreate_ogl_context_interrupt(); _cond.notify_one(); } #endif void InterruptUpdate::on_event() { _channel.update_interrupt(); } InterruptUpdate::InterruptUpdate(DisplayChannel& channel) : _channel (channel) { } StreamsTimer::StreamsTimer(DisplayChannel& channel) : _channel (channel) { } void StreamsTimer::response(AbstractProcessLoop& events_loop) { _channel.streams_time(); } #define RESET_TIMEOUT (1000 * 5) class ResetTimer: public Timer { public: ResetTimer(RedScreen* screen, RedClient& client) : _screen(screen), _client(client) {} virtual void response(AbstractProcessLoop& events_loop); private: RedScreen* _screen; RedClient& _client; }; void ResetTimer::response(AbstractProcessLoop& events_loop) { _screen->unref(); _client.deactivate_interval_timer(this); } void DisplaySurfacesManger::add_surface(int surface_id, SpiceCanvas *surface) { surfaces.add(surface_id, surface); } void DisplaySurfacesManger::del_surface(int surface_id) { surfaces.remove(surface_id); } void DisplaySurfacesManger::add_canvas(int surface_id, Canvas *canvas) { canvases.add(surface_id, canvas); } void DisplaySurfacesManger::del_canvas(int surface_id) { canvases.remove(surface_id); } CSurfaces& DisplaySurfacesManger::get_surfaces() { return surfaces; } bool DisplaySurfacesManger::is_present_canvas(int surface_id) { return canvases.is_present(surface_id); } Canvas* DisplaySurfacesManger::get_canvas(int surface_id) { return canvases.get(surface_id); } class DisplayHandler: public MessageHandlerImp { public: DisplayHandler(DisplayChannel& channel) : MessageHandlerImp(channel) {} }; DisplayChannel::DisplayChannel(RedClient& client, uint32_t id, PixmapCache& pixmap_cache, GlzDecoderWindow& glz_window) : RedChannel(client, SPICE_CHANNEL_DISPLAY, id, new DisplayHandler(*this), Platform::PRIORITY_LOW) , ScreenLayer (SCREEN_LAYER_DISPLAY, true) , _pixmap_cache (pixmap_cache) , _glz_window (glz_window) , _mark (false) , _update_mark (0) , _streams_timer (new StreamsTimer(*this)) , _next_timer_time (0) , _cursor_visibal (false) , _active_pointer (false) , _capture_mouse_mode (false) , _inputs_channel (NULL) , _active_streams (NULL) , _streams_trigger (*this) #ifdef USE_OPENGL , _gl_interrupt_recreate (*this) #endif , _interrupt_update (*this) { DisplayHandler* handler = static_cast(get_message_handler()); handler->set_handler(SPICE_MSG_MIGRATE, &DisplayChannel::handle_migrate); handler->set_handler(SPICE_MSG_SET_ACK, &DisplayChannel::handle_set_ack); handler->set_handler(SPICE_MSG_PING, &DisplayChannel::handle_ping); handler->set_handler(SPICE_MSG_WAIT_FOR_CHANNELS, &DisplayChannel::handle_wait_for_channels); handler->set_handler(SPICE_MSG_DISCONNECTING, &DisplayChannel::handle_disconnect); handler->set_handler(SPICE_MSG_NOTIFY, &DisplayChannel::handle_notify); handler->set_handler(SPICE_MSG_DISPLAY_MODE, &DisplayChannel::handle_mode); handler->set_handler(SPICE_MSG_DISPLAY_MARK, &DisplayChannel::handle_mark); handler->set_handler(SPICE_MSG_DISPLAY_RESET, &DisplayChannel::handle_reset); handler->set_handler(SPICE_MSG_DISPLAY_INVAL_LIST, &DisplayChannel::handle_inval_list); handler->set_handler(SPICE_MSG_DISPLAY_INVAL_ALL_PIXMAPS, &DisplayChannel::handle_inval_all_pixmaps); handler->set_handler(SPICE_MSG_DISPLAY_INVAL_PALETTE, &DisplayChannel::handle_inval_palette); handler->set_handler(SPICE_MSG_DISPLAY_INVAL_ALL_PALETTES, &DisplayChannel::handle_inval_all_palettes); handler->set_handler(SPICE_MSG_DISPLAY_STREAM_CREATE, &DisplayChannel::handle_stream_create); handler->set_handler(SPICE_MSG_DISPLAY_STREAM_CLIP, &DisplayChannel::handle_stream_clip); handler->set_handler(SPICE_MSG_DISPLAY_STREAM_DESTROY, &DisplayChannel::handle_stream_destroy); handler->set_handler(SPICE_MSG_DISPLAY_STREAM_DESTROY_ALL, &DisplayChannel::handle_stream_destroy_all); handler->set_handler(SPICE_MSG_DISPLAY_SURFACE_CREATE, &DisplayChannel::handle_surface_create); handler->set_handler(SPICE_MSG_DISPLAY_SURFACE_DESTROY, &DisplayChannel::handle_surface_destroy); get_process_loop().add_trigger(_streams_trigger); #ifdef USE_OPENGL get_process_loop().add_trigger(_gl_interrupt_recreate); #endif get_process_loop().add_trigger(_interrupt_update); set_draw_handlers(); } DisplayChannel::~DisplayChannel() { if (screen()) { screen()->set_update_interrupt_trigger(NULL); } //destroy_canvas(); fixme destroy all destroy_strams(); } void DisplayChannel::destroy_strams() { Lock lock(_streams_lock); for (unsigned int i = 0; i < _streams.size(); i++) { delete _streams[i]; _streams[i] = NULL; } _active_streams = NULL; } void DisplayChannel::set_draw_handlers() { DisplayHandler* handler = static_cast(get_message_handler()); handler->set_handler(SPICE_MSG_DISPLAY_COPY_BITS, &DisplayChannel::handle_copy_bits); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_FILL, &DisplayChannel::handle_draw_fill); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_OPAQUE, &DisplayChannel::handle_draw_opaque); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_COPY, &DisplayChannel::handle_draw_copy); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_BLEND, &DisplayChannel::handle_draw_blend); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_BLACKNESS, &DisplayChannel::handle_draw_blackness); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_WHITENESS, &DisplayChannel::handle_draw_whiteness); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_INVERS, &DisplayChannel::handle_draw_invers); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_ROP3, &DisplayChannel::handle_draw_rop3); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_STROKE, &DisplayChannel::handle_draw_stroke); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_TEXT, &DisplayChannel::handle_draw_text); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_TRANSPARENT, &DisplayChannel::handle_draw_transparent); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_ALPHA_BLEND, &DisplayChannel::handle_draw_alpha_blend); handler->set_handler(SPICE_MSG_DISPLAY_STREAM_DATA, &DisplayChannel::handle_stream_data); } void DisplayChannel::clear_draw_handlers() { DisplayHandler* handler = static_cast(get_message_handler()); handler->set_handler(SPICE_MSG_DISPLAY_COPY_BITS, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_FILL, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_OPAQUE, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_COPY, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_BLEND, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_BLACKNESS, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_WHITENESS, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_INVERS, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_ROP3, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_STROKE, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_TEXT, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_TRANSPARENT, NULL); handler->set_handler(SPICE_MSG_DISPLAY_DRAW_ALPHA_BLEND, NULL); handler->set_handler(SPICE_MSG_DISPLAY_STREAM_DATA, NULL); } void DisplayChannel::copy_pixels(const QRegion& dest_region, const PixmapHeader &dest_pixmap) { Canvas *canvas; if (!surfaces_mngr.is_present_canvas(0)) { return; } canvas = surfaces_mngr.get_canvas(0); canvas->copy_pixels(dest_region, NULL, &dest_pixmap); } #ifdef USE_OPENGL void DisplayChannel::recreate_ogl_context_interrupt() { Canvas* canvas; if (surfaces_mngr.is_present_canvas(0)) { //fix me to all surfaces canvas = surfaces_mngr.get_canvas(0); ((GCanvas *)(canvas))->touch_context(); ((GCanvas *)canvas)->textures_lost(); delete canvas; } if (!create_ogl_canvas(0, _x_res, _y_res, _format, 0, _rendertype)) { THROW("create_ogl_canvas failed"); } canvas = surfaces_mngr.get_canvas(0); ((GCanvas *)(canvas))->touch_context(); } void DisplayChannel::recreate_ogl_context() { if (surfaces_mngr.is_present_canvas(0) && surfaces_mngr.get_canvas(0)->get_pixmap_type() == CANVAS_TYPE_GL) { if (!screen()->need_recreate_context_gl()) { _gl_interrupt_recreate.trigger(); } } } #endif void DisplayChannel::update_cursor() { if (!screen() || !_active_pointer) { return; } if (_capture_mouse_mode) { //todo: use special cursor for capture mode AutoRef default_cursor(Platform::create_default_cursor()); screen()->set_cursor(*default_cursor); return; } if (!_cursor_visibal || !*_cursor) { screen()->hide_cursor(); return; } if (!(*_cursor)->get_local()) { AutoRef local_cursor(Platform::create_local_cursor(*_cursor)); if (*local_cursor == NULL) { THROW("create local cursor failed"); } (*_cursor)->set_local(*local_cursor); } screen()->set_cursor((*_cursor)->get_local()); } void DisplayChannel::set_cursor(CursorData* cursor) { ASSERT(cursor); _cursor.reset(cursor->ref()); _cursor_visibal = true; update_cursor(); } void DisplayChannel::hide_cursor() { _cursor_visibal = false; update_cursor(); } void DisplayChannel::attach_inputs(InputsChannel* inputs_channel) { if (_inputs_channel) { return; } _inputs_channel = inputs_channel; if (_active_pointer && !_capture_mouse_mode) { _inputs_channel->on_mouse_position(_pointer_pos.x, _pointer_pos.y, _buttons_state, get_id()); } } void DisplayChannel::detach_inputs() { _inputs_channel = NULL; } bool DisplayChannel::pointer_test(int x, int y) { return contains_point(x, y); } void DisplayChannel::on_pointer_enter(int x, int y, unsigned int buttons_state) { _active_pointer = true; update_cursor(); on_pointer_motion(x, y, buttons_state); } void DisplayChannel::on_pointer_motion(int x, int y, unsigned int buttons_state) { _pointer_pos.x = x; _pointer_pos.y = y; _buttons_state = buttons_state; if (!_capture_mouse_mode && _inputs_channel) { _inputs_channel->on_mouse_position(x, y, buttons_state, get_id()); } } void DisplayChannel::on_pointer_leave() { _active_pointer = false; } void DisplayChannel::on_mouse_button_press(int button, int buttons_state) { _buttons_state = buttons_state; if (!_capture_mouse_mode && _inputs_channel) { _inputs_channel->on_mouse_down(button, buttons_state); } } void DisplayChannel::on_mouse_button_release(int button, int buttons_state) { _buttons_state = buttons_state; if (_capture_mouse_mode) { if (button == SPICE_MOUSE_BUTTON_LEFT) { get_client().on_mouse_capture_trigger(*screen()); } return; } if (_inputs_channel) { _inputs_channel->on_mouse_up(button, buttons_state); } } void DisplayChannel::set_capture_mode(bool on) { if (_capture_mouse_mode == on) { return; } _capture_mouse_mode = on; update_cursor(); if (_inputs_channel && !_capture_mouse_mode && _active_pointer) { _inputs_channel->on_mouse_position(_pointer_pos.x, _pointer_pos.y, _buttons_state, get_id()); } } void DisplayChannel::update_interrupt() { #ifdef USE_OPENGL Canvas *canvas; #endif if (!surfaces_mngr.is_present_canvas(0) || !screen()) { return; } #ifdef USE_OPENGL canvas = surfaces_mngr.get_canvas(0); if (canvas->get_pixmap_type() == CANVAS_TYPE_GL) { ((GCanvas *)(canvas))->pre_gl_copy(); } #endif screen()->update(); #ifdef USE_OPENGL if (canvas->get_pixmap_type() == CANVAS_TYPE_GL) { ((GCanvas *)(canvas))->post_gl_copy(); } #endif } #ifdef USE_OPENGL void DisplayChannel::pre_migrate() { } void DisplayChannel::post_migrate() { #ifdef USE_OPENGL if (surfaces_mngr.get_canvas(0)->get_pixmap_type() == CANVAS_TYPE_GL) { _gl_interrupt_recreate.trigger(); } #endif } #endif void DisplayChannel::copy_pixels(const QRegion& dest_region, RedDrawable& dest_dc) { Canvas *canvas; if (!surfaces_mngr.is_present_canvas(0)) { return; } canvas = surfaces_mngr.get_canvas(0); canvas->copy_pixels(dest_region, dest_dc); } class ActivateTimerEvent: public Event { public: ActivateTimerEvent(DisplayChannel& channel) : _channel (channel) { } virtual void response(AbstractProcessLoop& events_loop) { _channel.activate_streams_timer(); } private: DisplayChannel& _channel; }; class AttachChannelsEvent : public Event { public: AttachChannelsEvent(DisplayChannel& channel) : Event(), _channel (channel) {} class AttachChannels: public ForEachChannelFunc { public: AttachChannels(DisplayChannel& channel) : _channel (channel) { } virtual bool operator() (RedChannel& channel) { if (channel.get_type() == SPICE_CHANNEL_CURSOR && channel.get_id() == _channel.get_id()) { static_cast(channel).attach_display(&_channel); } else if (channel.get_type() == SPICE_CHANNEL_INPUTS) { _channel.attach_inputs(&static_cast(channel)); } return false; } private: DisplayChannel& _channel; }; virtual void response(AbstractProcessLoop& events_loop) { uint32_t mouse_mode = _channel.get_client().get_mouse_mode(); _channel._capture_mouse_mode = (mouse_mode == SPICE_MOUSE_MODE_SERVER); AttachChannels for_each_func(_channel); _channel.get_client().for_each_channel(for_each_func); } private: DisplayChannel& _channel; }; class DetachChannelsEvent : public Event { public: DetachChannelsEvent(DisplayChannel& channel) : Event(), _channel (channel) {} class DetatchChannels: public ForEachChannelFunc { public: DetatchChannels(DisplayChannel& channel) : _channel (channel) { } virtual bool operator() (RedChannel& channel) { if (channel.get_type() == SPICE_CHANNEL_CURSOR && channel.get_id() == _channel.get_id()) { static_cast(channel).detach_display(); return true; } return false; } private: DisplayChannel& _channel; }; virtual void response(AbstractProcessLoop& events_loop) { DetatchChannels for_each_func(_channel); _channel.get_client().for_each_channel(for_each_func); } private: DisplayChannel& _channel; }; void DisplayChannel::on_connect() { Message* message = new Message(SPICE_MSGC_DISPLAY_INIT); SpiceMsgcDisplayInit init; init.pixmap_cache_id = 1; init.pixmap_cache_size = get_client().get_pixmap_cache_size(); init.glz_dictionary_id = 1; init.glz_dictionary_window_size = get_client().get_glz_window_size(); _marshallers->msgc_display_init(message->marshaller(), &init); post_message(message); AutoRef attach_channels(new AttachChannelsEvent(*this)); get_client().push_event(*attach_channels); } void DisplayChannel::on_disconnect() { if (surfaces_mngr.is_present_canvas(0)) { Canvas *canvas; canvas = surfaces_mngr.get_canvas(0); canvas->clear(); } if (screen()) { screen()->set_update_interrupt_trigger(NULL); } AutoRef detach_channels(new DetachChannelsEvent(*this)); get_client().push_event(*detach_channels); if (screen()) { AutoRef unlock_event(new UnlockScreenEvent(screen())); get_client().push_event(*unlock_event); detach_from_screen(get_client().get_application()); } get_client().deactivate_interval_timer(*_streams_timer); AutoRef sync_event(new SyncEvent()); get_client().push_event(*sync_event); (*sync_event)->wait(); } bool DisplayChannel::create_sw_canvas(int surface_id, int width, int height, uint32_t format) { try { SCanvas *canvas = new SCanvas(surface_id == 0, width, height, format, screen()->get_window(), _pixmap_cache, _palette_cache, _glz_window, surfaces_mngr.get_surfaces()); surfaces_mngr.add_canvas(surface_id, canvas); surfaces_mngr.add_surface(surface_id, canvas->get_internal_canvas()); if (surface_id == 0) { LOG_INFO("display %d: using sw", get_id()); } } catch (...) { return false; } return true; } #ifdef USE_OPENGL bool DisplayChannel::create_ogl_canvas(int surface_id, int width, int height, uint32_t format, bool recreate, RenderType rendertype) { try { RedWindow *win; win = screen()->get_window(); GCanvas *canvas = new GCanvas(width, height, format, win, rendertype, _pixmap_cache, _palette_cache, _glz_window, surfaces_mngr.get_surfaces()); screen()->untouch_context(); surfaces_mngr.add_canvas(surface_id, canvas); surfaces_mngr.add_surface(surface_id, canvas->get_internal_canvas()); _rendertype = rendertype; if (surface_id == 0) { LOG_INFO("display %d: using ogl", get_id()); } } catch (...) { return false; } return true; } #endif #ifdef WIN32 bool DisplayChannel::create_gdi_canvas(int surface_id, int width, int height, uint32_t format) { try { GDICanvas *canvas = new GDICanvas(width, height, format, _pixmap_cache, _palette_cache, _glz_window, surfaces_mngr.get_surfaces()); surfaces_mngr.add_canvas(surface_id, canvas); surfaces_mngr.add_surface(surface_id, canvas->get_internal_canvas()); if (surface_id == 0) { LOG_INFO("display %d: using gdi", get_id()); } } catch (...) { return false; } return true; } #endif void DisplayChannel::destroy_canvas(int surface_id) { Canvas *canvas; if (!surfaces_mngr.is_present_canvas(surface_id)) { return; } canvas = surfaces_mngr.get_canvas(surface_id); #ifdef USE_OPENGL if (canvas->get_pixmap_type() == CANVAS_TYPE_GL) { ((GCanvas *)(canvas))->touch_context(); } #endif surfaces_mngr.del_canvas(surface_id); surfaces_mngr.del_surface(surface_id); delete canvas; } void DisplayChannel::create_canvas(int surface_id, const std::vector& canvas_types, int width, int height, uint32_t format) { #ifdef USE_OPENGL bool recreate = true; #endif unsigned int i; #ifdef USE_OPENGL if (screen()->need_recreate_context_gl()) { recreate = false; } #endif screen()->set_update_interrupt_trigger(NULL); for (i = 0; i < canvas_types.size(); i++) { if (canvas_types[i] == CANVAS_OPTION_SW && create_sw_canvas(surface_id, width, height, format)) { break; } #ifdef USE_OPENGL if (canvas_types[i] == CANVAS_OPTION_OGL_FBO && create_ogl_canvas(surface_id, width, height, format, recreate, RENDER_TYPE_FBO)) { break; } if (canvas_types[i] == CANVAS_OPTION_OGL_PBUFF && create_ogl_canvas(surface_id, width, height, format, recreate, RENDER_TYPE_PBUFF)) { break; } #endif #ifdef WIN32 if (canvas_types[i] == CANVAS_OPTION_GDI && create_gdi_canvas(surface_id, width, height, format)) { break; } #endif } if (i == canvas_types.size()) { THROW("create canvas failed"); } } void DisplayChannel::handle_mode(RedPeer::InMessage* message) { SpiceMsgDisplayMode *mode = (SpiceMsgDisplayMode *)message->data(); if (surfaces_mngr.is_present_canvas(0)) { destroy_primary_surface(); } create_primary_surface(mode->x_res, mode->y_res, mode->bits == 32 ? SPICE_SURFACE_FMT_32_xRGB : SPICE_SURFACE_FMT_16_555); } void DisplayChannel::handle_mark(RedPeer::InMessage *message) { _mark = true; SpiceRect area; area.top = area.left = 0; area.right = _x_res; area.bottom = _y_res; AutoRef event(new VisibilityEvent(get_id())); get_client().push_event(*event); set_rect_area(area); } void DisplayChannel::reset_screen() { AutoRef unlock_event(new UnlockScreenEvent(screen())); get_client().push_event(*unlock_event); screen()->set_update_interrupt_trigger(NULL); AutoRef reset_timer(new ResetTimer(screen()->ref(), get_client())); detach_from_screen(get_client().get_application()); get_client().activate_interval_timer(*reset_timer, RESET_TIMEOUT); } void DisplayChannel::handle_reset(RedPeer::InMessage *message) { if (surfaces_mngr.is_present_canvas(0)) { Canvas *canvas; canvas = surfaces_mngr.get_canvas(0); canvas->clear(); } _palette_cache.clear(); reset_screen(); } void DisplayChannel::handle_inval_list(RedPeer::InMessage* message) { SpiceResourceList *inval_list = (SpiceResourceList *)message->data(); if (message->size() < sizeof(*inval_list) + inval_list->count * sizeof(inval_list->resources[0])) { THROW("access violation"); } for (int i = 0; i < inval_list->count; i++) { if (inval_list->resources[i].type != SPICE_RES_TYPE_PIXMAP) { THROW("invalid res type"); } _pixmap_cache.remove(inval_list->resources[i].id); } } void DisplayChannel::handle_inval_all_pixmaps(RedPeer::InMessage* message) { SpiceMsgWaitForChannels *wait = (SpiceMsgWaitForChannels *)message->data(); if (message->size() < sizeof(*wait) + wait->wait_count * sizeof(wait->wait_list[0])) { THROW("access violation"); } get_client().wait_for_channels(wait->wait_count, wait->wait_list); _pixmap_cache.clear(); } void DisplayChannel::handle_inval_palette(RedPeer::InMessage* message) { SpiceMsgDisplayInvalOne* inval = (SpiceMsgDisplayInvalOne*)message->data(); _palette_cache.remove(inval->id); } void DisplayChannel::handle_inval_all_palettes(RedPeer::InMessage* message) { _palette_cache.clear(); } void DisplayChannel::set_clip_rects(const SpiceClip& clip, uint32_t& num_clip_rects, SpiceRect*& clip_rects) { switch (clip.type) { case SPICE_CLIP_TYPE_RECTS: { num_clip_rects = clip.rects->num_rects; clip_rects = clip.rects->rects; break; } case SPICE_CLIP_TYPE_NONE: num_clip_rects = 0; clip_rects = NULL; break; default: THROW("unexpected clip type"); } } void DisplayChannel::handle_stream_create(RedPeer::InMessage* message) { SpiceMsgDisplayStreamCreate* stream_create = (SpiceMsgDisplayStreamCreate*)message->data(); int surface_id = stream_create->surface_id; Lock lock(_streams_lock); if (_streams.size() <= stream_create->id) { _streams.resize(stream_create->id + 1); } if (_streams[stream_create->id]) { THROW("stream exist"); } uint32_t num_clip_rects; SpiceRect* clip_rects; set_clip_rects(stream_create->clip, num_clip_rects, clip_rects); _streams[stream_create->id] = new VideoStream(get_client(), *surfaces_mngr.get_canvas(surface_id), *this, stream_create->codec_type, !!(stream_create->flags & SPICE_STREAM_FLAGS_TOP_DOWN), stream_create->stream_width, stream_create->stream_height, stream_create->src_width, stream_create->src_height, &stream_create->dest, stream_create->clip.type, num_clip_rects, clip_rects); _streams[stream_create->id]->next = _active_streams; _active_streams = _streams[stream_create->id]; } void DisplayChannel::handle_stream_data(RedPeer::InMessage* message) { SpiceMsgDisplayStreamData* stream_data = (SpiceMsgDisplayStreamData*)message->data(); VideoStream* stream; if (stream_data->id >= _streams.size() || !(stream = _streams[stream_data->id])) { THROW("invalid stream"); } if (message->size() < sizeof(SpiceMsgDisplayStreamData) + stream_data->data_size) { THROW("access violation"); } stream->push_data(stream_data->multi_media_time, stream_data->data_size, stream_data->data); } void DisplayChannel::handle_stream_clip(RedPeer::InMessage* message) { SpiceMsgDisplayStreamClip* clip_data = (SpiceMsgDisplayStreamClip*)message->data(); VideoStream* stream; uint32_t num_clip_rects; SpiceRect* clip_rects; if (clip_data->id >= _streams.size() || !(stream = _streams[clip_data->id])) { THROW("invalid stream"); } if (message->size() < sizeof(SpiceMsgDisplayStreamClip)) { THROW("access violation"); } set_clip_rects(clip_data->clip, num_clip_rects, clip_rects); Lock lock(_streams_lock); stream->set_clip(clip_data->clip.type, num_clip_rects, clip_rects); } void DisplayChannel::handle_stream_destroy(RedPeer::InMessage* message) { SpiceMsgDisplayStreamDestroy* stream_destroy = (SpiceMsgDisplayStreamDestroy*)message->data(); if (stream_destroy->id >= _streams.size() || !_streams[stream_destroy->id]) { THROW("invalid stream"); } Lock lock(_streams_lock); VideoStream **active_stream = &_active_streams; for (;;) { if (!*active_stream) { THROW("not in active streams"); } if (*active_stream == _streams[stream_destroy->id]) { *active_stream = _streams[stream_destroy->id]->next; break; } active_stream = &(*active_stream)->next; } delete _streams[stream_destroy->id]; _streams[stream_destroy->id] = NULL; } void DisplayChannel::handle_stream_destroy_all(RedPeer::InMessage* message) { destroy_strams(); } void DisplayChannel::create_primary_surface(int width, int height, uint32_t format) { #ifdef USE_OPENGL Canvas *canvas; #endif _mark = false; attach_to_screen(get_client().get_application(), get_id()); clear_area(); AutoRef event(new CreatePrimarySurfaceEvent(*this, width, height, format)); get_client().push_event(*event); (*event)->wait(); if (!(*event)->success()) { THROW("Create primary surface failed"); } _x_res = width; _y_res = height; _format = format; #ifdef USE_OPENGL canvas = surfaces_mngr.get_canvas(0); if (canvas->get_pixmap_type() == CANVAS_TYPE_GL) { ((GCanvas *)(canvas))->touch_context(); screen()->set_update_interrupt_trigger(&_interrupt_update); screen()->set_type_gl(); } #endif } void DisplayChannel::create_surface(int surface_id, int width, int height, uint32_t format) { AutoRef event(new CreateSurfaceEvent(*this, surface_id, width, height, format)); get_client().push_event(*event); (*event)->wait(); if (!(*event)->success()) { THROW("Create surface failed"); } #ifdef USE_OPENGL Canvas *canvas; canvas = surfaces_mngr.get_canvas(surface_id); if (canvas->get_pixmap_type() == CANVAS_TYPE_GL) { ((GCanvas *)(canvas))->touch_context(); } #endif } void DisplayChannel::destroy_primary_surface() { if (screen()) { #ifdef USE_OPENGL if (surfaces_mngr.is_present_canvas(0)) { Canvas *canvas; canvas = surfaces_mngr.get_canvas(0); if (canvas->get_pixmap_type() == CANVAS_TYPE_GL) { screen()->unset_type_gl(); screen()->untouch_context(); } } #endif reset_screen(); } AutoRef event(new DestroyPrimarySurfaceEvent(*this)); get_client().push_event(*event); (*event)->wait(); if (!(*event)->success()) { THROW("Destroying primary surface failed"); } } void DisplayChannel::destroy_surface(int surface_id) { AutoRef event(new DestroySurfaceEvent(*this, surface_id)); get_client().push_event(*event); (*event)->wait(); if (!(*event)->success()) { THROW("Destroying surface failed"); } } void DisplayChannel::handle_surface_create(RedPeer::InMessage* message) { SpiceMsgSurfaceCreate* surface_create = (SpiceMsgSurfaceCreate*)message->data(); if (surface_create->flags == SPICE_SURFACE_FLAGS_PRIMARY) { create_primary_surface(surface_create->width, surface_create->height, surface_create->format); } else { create_surface(surface_create->surface_id, surface_create->width, surface_create->height, surface_create->format); } } void DisplayChannel::handle_surface_destroy(RedPeer::InMessage* message) { SpiceMsgSurfaceDestroy* surface_destroy = (SpiceMsgSurfaceDestroy*)message->data(); if (surface_destroy->surface_id == 0) { //fixme destroy_primary_surface(); } else { destroy_surface(surface_destroy->surface_id); } } #define PRE_DRAW #define POST_DRAW #define DRAW(type) { \ PRE_DRAW; \ canvas->draw_##type(*type, message->size()); \ POST_DRAW; \ if (type->base.surface_id == 0) { \ invalidate(type->base.box, false); \ } \ } void DisplayChannel::handle_copy_bits(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayCopyBits* copy_bits = (SpiceMsgDisplayCopyBits*)message->data(); PRE_DRAW; canvas = surfaces_mngr.get_canvas(copy_bits->base.surface_id); canvas->copy_bits(*copy_bits, message->size()); POST_DRAW; if (copy_bits->base.surface_id == 0) { invalidate(copy_bits->base.box, false); } } void DisplayChannel::handle_draw_fill(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawFill* fill = (SpiceMsgDisplayDrawFill*)message->data(); canvas = surfaces_mngr.get_canvas(fill->base.surface_id); DRAW(fill); } void DisplayChannel::handle_draw_opaque(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawOpaque* opaque = (SpiceMsgDisplayDrawOpaque*)message->data(); canvas = surfaces_mngr.get_canvas(opaque->base.surface_id); DRAW(opaque); } void DisplayChannel::handle_draw_copy(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawCopy* copy = (SpiceMsgDisplayDrawCopy*)message->data(); canvas = surfaces_mngr.get_canvas(copy->base.surface_id); DRAW(copy); } void DisplayChannel::handle_draw_blend(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawBlend* blend = (SpiceMsgDisplayDrawBlend*)message->data(); canvas = surfaces_mngr.get_canvas(blend->base.surface_id); DRAW(blend); } void DisplayChannel::handle_draw_blackness(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawBlackness* blackness = (SpiceMsgDisplayDrawBlackness*)message->data(); canvas = surfaces_mngr.get_canvas(blackness->base.surface_id); DRAW(blackness); } void DisplayChannel::handle_draw_whiteness(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawWhiteness* whiteness = (SpiceMsgDisplayDrawWhiteness*)message->data(); canvas = surfaces_mngr.get_canvas(whiteness->base.surface_id); DRAW(whiteness); } void DisplayChannel::handle_draw_invers(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawInvers* invers = (SpiceMsgDisplayDrawInvers*)message->data(); canvas = surfaces_mngr.get_canvas(invers->base.surface_id); DRAW(invers); } void DisplayChannel::handle_draw_rop3(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawRop3* rop3 = (SpiceMsgDisplayDrawRop3*)message->data(); canvas = surfaces_mngr.get_canvas(rop3->base.surface_id); DRAW(rop3); } void DisplayChannel::handle_draw_stroke(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawStroke* stroke = (SpiceMsgDisplayDrawStroke*)message->data(); canvas = surfaces_mngr.get_canvas(stroke->base.surface_id); DRAW(stroke); } void DisplayChannel::handle_draw_text(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawText* text = (SpiceMsgDisplayDrawText*)message->data(); canvas = surfaces_mngr.get_canvas(text->base.surface_id); DRAW(text); } void DisplayChannel::handle_draw_transparent(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawTransparent* transparent = (SpiceMsgDisplayDrawTransparent*)message->data(); canvas = surfaces_mngr.get_canvas(transparent->base.surface_id); DRAW(transparent); } void DisplayChannel::handle_draw_alpha_blend(RedPeer::InMessage* message) { Canvas *canvas; SpiceMsgDisplayDrawAlphaBlend* alpha_blend = (SpiceMsgDisplayDrawAlphaBlend*)message->data(); canvas = surfaces_mngr.get_canvas(alpha_blend->base.surface_id); DRAW(alpha_blend); } void DisplayChannel::streams_time() { _next_timer_time = 0; Lock lock(_streams_lock); uint32_t mm_time = get_client().get_mm_time(); uint32_t next_time = 0; VideoStream* stream = _active_streams; while (stream) { uint32_t next_frame_time; if ((next_frame_time = stream->handle_timer_update(mm_time))) { if (!next_time || int(next_frame_time - next_time) < 0) { next_time = next_frame_time; } } stream = stream->next; } Lock timer_lock(_timer_lock); mm_time = get_client().get_mm_time(); next_time = mm_time + 15; if (next_time && (!_next_timer_time || int(next_time - _next_timer_time) < 0)) { get_client().activate_interval_timer(*_streams_timer, MAX(int(next_time - mm_time), 0)); _next_timer_time = next_time; } else if (!_next_timer_time) { get_client().deactivate_interval_timer(*_streams_timer); } timer_lock.unlock(); lock.unlock(); Platform::yield(); } void DisplayChannel::activate_streams_timer() { uint32_t next_time = _next_timer_time; if (!next_time) { return; } int delta = next_time - get_client().get_mm_time(); if (delta <= 0) { streams_time(); } else { Lock timer_lock(_timer_lock); if (!_next_timer_time) { return; } delta = _next_timer_time - get_client().get_mm_time(); get_client().activate_interval_timer(*_streams_timer, delta); } } void DisplayChannel::stream_update_request(uint32_t mm_time) { Lock lock(_timer_lock); if (_next_timer_time && int(mm_time - _next_timer_time) > 0) { return; } _next_timer_time = mm_time; lock.unlock(); AutoRef event(new ActivateTimerEvent(*this)); get_client().push_event(*event); } void DisplayChannel::on_update_completion(uint64_t mark) { #ifndef RED64 Lock lock(_mark_lock); #endif _update_mark = mark; #ifndef RED64 lock.unlock(); #endif _streams_trigger.trigger(); } void DisplayChannel::on_streams_trigger() { #ifndef RED64 Lock lock(_mark_lock); #endif uint64_t update_mark = _update_mark; #ifndef RED64 lock.unlock(); #endif VideoStream* stream = _active_streams; while (stream) { stream->handle_update_mark(update_mark); stream = stream->next; } } class DisplayFactory: public ChannelFactory { public: DisplayFactory() : ChannelFactory(SPICE_CHANNEL_DISPLAY) {} virtual RedChannel* construct(RedClient& client, uint32_t id) { return new DisplayChannel(client, id, client.get_pixmap_cache(), client.get_glz_window()); } }; static DisplayFactory factory; ChannelFactory& DisplayChannel::Factory() { return factory; }