/* * Copyright 2012 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "webrtc/examples/peerconnection/client/linux/main_wnd.h" #include #include #include #include "webrtc/examples/peerconnection/client/defaults.h" #include "webrtc/base/common.h" #include "webrtc/base/logging.h" #include "webrtc/base/stringutils.h" using rtc::sprintfn; namespace { // // Simple static functions that simply forward the callback to the // GtkMainWnd instance. // gboolean OnDestroyedCallback(GtkWidget* widget, GdkEvent* event, gpointer data) { reinterpret_cast(data)->OnDestroyed(widget, event); return FALSE; } void OnClickedCallback(GtkWidget* widget, gpointer data) { reinterpret_cast(data)->OnClicked(widget); } gboolean SimulateButtonClick(gpointer button) { g_signal_emit_by_name(button, "clicked"); return false; } gboolean OnKeyPressCallback(GtkWidget* widget, GdkEventKey* key, gpointer data) { reinterpret_cast(data)->OnKeyPress(widget, key); return false; } void OnRowActivatedCallback(GtkTreeView* tree_view, GtkTreePath* path, GtkTreeViewColumn* column, gpointer data) { reinterpret_cast(data)->OnRowActivated(tree_view, path, column); } gboolean SimulateLastRowActivated(gpointer data) { GtkTreeView* tree_view = reinterpret_cast(data); GtkTreeModel* model = gtk_tree_view_get_model(tree_view); // "if iter is NULL, then the number of toplevel nodes is returned." int rows = gtk_tree_model_iter_n_children(model, NULL); GtkTreePath* lastpath = gtk_tree_path_new_from_indices(rows - 1, -1); // Select the last item in the list GtkTreeSelection* selection = gtk_tree_view_get_selection(tree_view); gtk_tree_selection_select_path(selection, lastpath); // Our TreeView only has one column, so it is column 0. GtkTreeViewColumn* column = gtk_tree_view_get_column(tree_view, 0); gtk_tree_view_row_activated(tree_view, lastpath, column); gtk_tree_path_free(lastpath); return false; } // Creates a tree view, that we use to display the list of peers. void InitializeList(GtkWidget* list) { GtkCellRenderer* renderer = gtk_cell_renderer_text_new(); GtkTreeViewColumn* column = gtk_tree_view_column_new_with_attributes( "List Items", renderer, "text", 0, NULL); gtk_tree_view_append_column(GTK_TREE_VIEW(list), column); GtkListStore* store = gtk_list_store_new(2, G_TYPE_STRING, G_TYPE_INT); gtk_tree_view_set_model(GTK_TREE_VIEW(list), GTK_TREE_MODEL(store)); g_object_unref(store); } // Adds an entry to a tree view. void AddToList(GtkWidget* list, const gchar* str, int value) { GtkListStore* store = GTK_LIST_STORE( gtk_tree_view_get_model(GTK_TREE_VIEW(list))); GtkTreeIter iter; gtk_list_store_append(store, &iter); gtk_list_store_set(store, &iter, 0, str, 1, value, -1); } struct UIThreadCallbackData { explicit UIThreadCallbackData(MainWndCallback* cb, int id, void* d) : callback(cb), msg_id(id), data(d) {} MainWndCallback* callback; int msg_id; void* data; }; gboolean HandleUIThreadCallback(gpointer data) { UIThreadCallbackData* cb_data = reinterpret_cast(data); cb_data->callback->UIThreadCallback(cb_data->msg_id, cb_data->data); delete cb_data; return false; } gboolean Redraw(gpointer data) { GtkMainWnd* wnd = reinterpret_cast(data); wnd->OnRedraw(); return false; } } // namespace // // GtkMainWnd implementation. // GtkMainWnd::GtkMainWnd(const char* server, int port, bool autoconnect, bool autocall) : window_(NULL), draw_area_(NULL), vbox_(NULL), server_edit_(NULL), port_edit_(NULL), peer_list_(NULL), callback_(NULL), server_(server), autoconnect_(autoconnect), autocall_(autocall) { char buffer[10]; sprintfn(buffer, sizeof(buffer), "%i", port); port_ = buffer; } GtkMainWnd::~GtkMainWnd() { ASSERT(!IsWindow()); } void GtkMainWnd::RegisterObserver(MainWndCallback* callback) { callback_ = callback; } bool GtkMainWnd::IsWindow() { return window_ != NULL && GTK_IS_WINDOW(window_); } void GtkMainWnd::MessageBox(const char* caption, const char* text, bool is_error) { GtkWidget* dialog = gtk_message_dialog_new(GTK_WINDOW(window_), GTK_DIALOG_DESTROY_WITH_PARENT, is_error ? GTK_MESSAGE_ERROR : GTK_MESSAGE_INFO, GTK_BUTTONS_CLOSE, "%s", text); gtk_window_set_title(GTK_WINDOW(dialog), caption); gtk_dialog_run(GTK_DIALOG(dialog)); gtk_widget_destroy(dialog); } MainWindow::UI GtkMainWnd::current_ui() { if (vbox_) return CONNECT_TO_SERVER; if (peer_list_) return LIST_PEERS; return STREAMING; } void GtkMainWnd::StartLocalRenderer(webrtc::VideoTrackInterface* local_video) { local_renderer_.reset(new VideoRenderer(this, local_video)); } void GtkMainWnd::StopLocalRenderer() { local_renderer_.reset(); } void GtkMainWnd::StartRemoteRenderer( webrtc::VideoTrackInterface* remote_video) { remote_renderer_.reset(new VideoRenderer(this, remote_video)); } void GtkMainWnd::StopRemoteRenderer() { remote_renderer_.reset(); } void GtkMainWnd::QueueUIThreadCallback(int msg_id, void* data) { g_idle_add(HandleUIThreadCallback, new UIThreadCallbackData(callback_, msg_id, data)); } bool GtkMainWnd::Create() { ASSERT(window_ == NULL); window_ = gtk_window_new(GTK_WINDOW_TOPLEVEL); if (window_) { gtk_window_set_position(GTK_WINDOW(window_), GTK_WIN_POS_CENTER); gtk_window_set_default_size(GTK_WINDOW(window_), 640, 480); gtk_window_set_title(GTK_WINDOW(window_), "PeerConnection client"); g_signal_connect(G_OBJECT(window_), "delete-event", G_CALLBACK(&OnDestroyedCallback), this); g_signal_connect(window_, "key-press-event", G_CALLBACK(OnKeyPressCallback), this); SwitchToConnectUI(); } return window_ != NULL; } bool GtkMainWnd::Destroy() { if (!IsWindow()) return false; gtk_widget_destroy(window_); window_ = NULL; return true; } void GtkMainWnd::SwitchToConnectUI() { LOG(INFO) << __FUNCTION__; ASSERT(IsWindow()); ASSERT(vbox_ == NULL); gtk_container_set_border_width(GTK_CONTAINER(window_), 10); if (peer_list_) { gtk_widget_destroy(peer_list_); peer_list_ = NULL; } vbox_ = gtk_vbox_new(FALSE, 5); GtkWidget* valign = gtk_alignment_new(0, 1, 0, 0); gtk_container_add(GTK_CONTAINER(vbox_), valign); gtk_container_add(GTK_CONTAINER(window_), vbox_); GtkWidget* hbox = gtk_hbox_new(FALSE, 5); GtkWidget* label = gtk_label_new("Server"); gtk_container_add(GTK_CONTAINER(hbox), label); server_edit_ = gtk_entry_new(); gtk_entry_set_text(GTK_ENTRY(server_edit_), server_.c_str()); gtk_widget_set_size_request(server_edit_, 400, 30); gtk_container_add(GTK_CONTAINER(hbox), server_edit_); port_edit_ = gtk_entry_new(); gtk_entry_set_text(GTK_ENTRY(port_edit_), port_.c_str()); gtk_widget_set_size_request(port_edit_, 70, 30); gtk_container_add(GTK_CONTAINER(hbox), port_edit_); GtkWidget* button = gtk_button_new_with_label("Connect"); gtk_widget_set_size_request(button, 70, 30); g_signal_connect(button, "clicked", G_CALLBACK(OnClickedCallback), this); gtk_container_add(GTK_CONTAINER(hbox), button); GtkWidget* halign = gtk_alignment_new(1, 0, 0, 0); gtk_container_add(GTK_CONTAINER(halign), hbox); gtk_box_pack_start(GTK_BOX(vbox_), halign, FALSE, FALSE, 0); gtk_widget_show_all(window_); if (autoconnect_) g_idle_add(SimulateButtonClick, button); } void GtkMainWnd::SwitchToPeerList(const Peers& peers) { LOG(INFO) << __FUNCTION__; if (!peer_list_) { gtk_container_set_border_width(GTK_CONTAINER(window_), 0); if (vbox_) { gtk_widget_destroy(vbox_); vbox_ = NULL; server_edit_ = NULL; port_edit_ = NULL; } else if (draw_area_) { gtk_widget_destroy(draw_area_); draw_area_ = NULL; draw_buffer_.reset(); } peer_list_ = gtk_tree_view_new(); g_signal_connect(peer_list_, "row-activated", G_CALLBACK(OnRowActivatedCallback), this); gtk_tree_view_set_headers_visible(GTK_TREE_VIEW(peer_list_), FALSE); InitializeList(peer_list_); gtk_container_add(GTK_CONTAINER(window_), peer_list_); gtk_widget_show_all(window_); } else { GtkListStore* store = GTK_LIST_STORE(gtk_tree_view_get_model(GTK_TREE_VIEW(peer_list_))); gtk_list_store_clear(store); } AddToList(peer_list_, "List of currently connected peers:", -1); for (Peers::const_iterator i = peers.begin(); i != peers.end(); ++i) AddToList(peer_list_, i->second.c_str(), i->first); if (autocall_ && peers.begin() != peers.end()) g_idle_add(SimulateLastRowActivated, peer_list_); } void GtkMainWnd::SwitchToStreamingUI() { LOG(INFO) << __FUNCTION__; ASSERT(draw_area_ == NULL); gtk_container_set_border_width(GTK_CONTAINER(window_), 0); if (peer_list_) { gtk_widget_destroy(peer_list_); peer_list_ = NULL; } draw_area_ = gtk_drawing_area_new(); gtk_container_add(GTK_CONTAINER(window_), draw_area_); gtk_widget_show_all(window_); } void GtkMainWnd::OnDestroyed(GtkWidget* widget, GdkEvent* event) { callback_->Close(); window_ = NULL; draw_area_ = NULL; vbox_ = NULL; server_edit_ = NULL; port_edit_ = NULL; peer_list_ = NULL; } void GtkMainWnd::OnClicked(GtkWidget* widget) { // Make the connect button insensitive, so that it cannot be clicked more than // once. Now that the connection includes auto-retry, it should not be // necessary to click it more than once. gtk_widget_set_sensitive(widget, false); server_ = gtk_entry_get_text(GTK_ENTRY(server_edit_)); port_ = gtk_entry_get_text(GTK_ENTRY(port_edit_)); int port = port_.length() ? atoi(port_.c_str()) : 0; callback_->StartLogin(server_, port); } void GtkMainWnd::OnKeyPress(GtkWidget* widget, GdkEventKey* key) { if (key->type == GDK_KEY_PRESS) { switch (key->keyval) { case GDK_Escape: if (draw_area_) { callback_->DisconnectFromCurrentPeer(); } else if (peer_list_) { callback_->DisconnectFromServer(); } break; case GDK_KP_Enter: case GDK_Return: if (vbox_) { OnClicked(NULL); } else if (peer_list_) { // OnRowActivated will be called automatically when the user // presses enter. } break; default: break; } } } void GtkMainWnd::OnRowActivated(GtkTreeView* tree_view, GtkTreePath* path, GtkTreeViewColumn* column) { ASSERT(peer_list_ != NULL); GtkTreeIter iter; GtkTreeModel* model; GtkTreeSelection* selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(tree_view)); if (gtk_tree_selection_get_selected(selection, &model, &iter)) { char* text; int id = -1; gtk_tree_model_get(model, &iter, 0, &text, 1, &id, -1); if (id != -1) callback_->ConnectToPeer(id); g_free(text); } } void GtkMainWnd::OnRedraw() { gdk_threads_enter(); VideoRenderer* remote_renderer = remote_renderer_.get(); if (remote_renderer && remote_renderer->image() != NULL && draw_area_ != NULL) { int width = remote_renderer->width(); int height = remote_renderer->height(); if (!draw_buffer_.get()) { draw_buffer_size_ = (width * height * 4) * 4; draw_buffer_.reset(new uint8_t[draw_buffer_size_]); gtk_widget_set_size_request(draw_area_, width * 2, height * 2); } const uint32_t* image = reinterpret_cast(remote_renderer->image()); uint32_t* scaled = reinterpret_cast(draw_buffer_.get()); for (int r = 0; r < height; ++r) { for (int c = 0; c < width; ++c) { int x = c * 2; scaled[x] = scaled[x + 1] = image[c]; } uint32_t* prev_line = scaled; scaled += width * 2; memcpy(scaled, prev_line, (width * 2) * 4); image += width; scaled += width * 2; } VideoRenderer* local_renderer = local_renderer_.get(); if (local_renderer && local_renderer->image()) { image = reinterpret_cast(local_renderer->image()); scaled = reinterpret_cast(draw_buffer_.get()); // Position the local preview on the right side. scaled += (width * 2) - (local_renderer->width() / 2); // right margin... scaled -= 10; // ... towards the bottom. scaled += (height * width * 4) - ((local_renderer->height() / 2) * (local_renderer->width() / 2) * 4); // bottom margin... scaled -= (width * 2) * 5; for (int r = 0; r < local_renderer->height(); r += 2) { for (int c = 0; c < local_renderer->width(); c += 2) { scaled[c / 2] = image[c + r * local_renderer->width()]; } scaled += width * 2; } } gdk_draw_rgb_32_image(draw_area_->window, draw_area_->style->fg_gc[GTK_STATE_NORMAL], 0, 0, width * 2, height * 2, GDK_RGB_DITHER_MAX, draw_buffer_.get(), (width * 2) * 4); } gdk_threads_leave(); } GtkMainWnd::VideoRenderer::VideoRenderer( GtkMainWnd* main_wnd, webrtc::VideoTrackInterface* track_to_render) : width_(0), height_(0), main_wnd_(main_wnd), rendered_track_(track_to_render) { rendered_track_->AddRenderer(this); } GtkMainWnd::VideoRenderer::~VideoRenderer() { rendered_track_->RemoveRenderer(this); } void GtkMainWnd::VideoRenderer::SetSize(int width, int height) { gdk_threads_enter(); if (width_ == width && height_ == height) { return; } width_ = width; height_ = height; image_.reset(new uint8_t[width * height * 4]); gdk_threads_leave(); } void GtkMainWnd::VideoRenderer::RenderFrame( const cricket::VideoFrame* video_frame) { gdk_threads_enter(); const cricket::VideoFrame* frame = video_frame->GetCopyWithRotationApplied(); SetSize(static_cast(frame->GetWidth()), static_cast(frame->GetHeight())); int size = width_ * height_ * 4; // TODO(henrike): Convert directly to RGBA frame->ConvertToRgbBuffer(cricket::FOURCC_ARGB, image_.get(), size, width_ * 4); // Convert the B,G,R,A frame to R,G,B,A, which is accepted by GTK. // The 'A' is just padding for GTK, so we can use it as temp. uint8_t* pix = image_.get(); uint8_t* end = image_.get() + size; while (pix < end) { pix[3] = pix[0]; // Save B to A. pix[0] = pix[2]; // Set Red. pix[2] = pix[3]; // Set Blue. pix[3] = 0xFF; // Fixed Alpha. pix += 4; } gdk_threads_leave(); g_idle_add(Redraw, main_wnd_); }