/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* vim: set ts=4 et sw=4 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsDragService.h" #include "nsIObserverService.h" #include "nsWidgetsCID.h" #include "nsWindow.h" #include "nsIServiceManager.h" #include "nsXPCOM.h" #include "nsISupportsPrimitives.h" #include "nsIIOService.h" #include "nsIFileURL.h" #include "nsNetUtil.h" #include "prlog.h" #include "nsTArray.h" #include "nsPrimitiveHelpers.h" #include "prtime.h" #include "prthread.h" #include #include #include "nsCRT.h" #include "mozilla/Services.h" #include "gfxASurface.h" #include "gfxXlibSurface.h" #include "gfxContext.h" #include "nsImageToPixbuf.h" #include "nsPresContext.h" #include "nsIContent.h" #include "nsIDocument.h" #include "nsISelection.h" #include "nsViewManager.h" #include "nsIFrame.h" #include "nsGtkUtils.h" // This sets how opaque the drag image is #define DRAG_IMAGE_ALPHA_LEVEL 0.5 // These values are copied from GtkDragResult (rather than using GtkDragResult // directly) so that this code can be compiled against versions of GTK+ that // do not have GtkDragResult. // GtkDragResult is available from GTK+ version 2.12. enum { MOZ_GTK_DRAG_RESULT_SUCCESS, MOZ_GTK_DRAG_RESULT_NO_TARGET }; static PRLogModuleInfo *sDragLm = NULL; // data used for synthetic periodic motion events sent to the source widget // grabbing real events for the drag. static guint sMotionEventTimerID; static GdkEvent *sMotionEvent; static GtkWidget *sGrabWidget; static const char gMimeListType[] = "application/x-moz-internal-item-list"; static const char gMozUrlType[] = "_NETSCAPE_URL"; static const char gTextUriListType[] = "text/uri-list"; static const char gTextPlainUTF8Type[] = "text/plain;charset=utf-8"; static void invisibleSourceDragBegin(GtkWidget *aWidget, GdkDragContext *aContext, gpointer aData); static void invisibleSourceDragEnd(GtkWidget *aWidget, GdkDragContext *aContext, gpointer aData); static gboolean invisibleSourceDragFailed(GtkWidget *aWidget, GdkDragContext *aContext, gint aResult, gpointer aData); static void invisibleSourceDragDataGet(GtkWidget *aWidget, GdkDragContext *aContext, GtkSelectionData *aSelectionData, guint aInfo, guint32 aTime, gpointer aData); nsDragService::nsDragService() : mScheduledTask(eDragTaskNone) , mTaskSource(0) { // We have to destroy the hidden widget before the event loop stops // running. nsCOMPtr obsServ = mozilla::services::GetObserverService(); obsServ->AddObserver(this, "quit-application", false); // our hidden source widget mHiddenWidget = gtk_window_new(GTK_WINDOW_POPUP); // make sure that the widget is realized so that // we can use it as a drag source. gtk_widget_realize(mHiddenWidget); // hook up our internal signals so that we can get some feedback // from our drag source g_signal_connect(mHiddenWidget, "drag_begin", G_CALLBACK(invisibleSourceDragBegin), this); g_signal_connect(mHiddenWidget, "drag_data_get", G_CALLBACK(invisibleSourceDragDataGet), this); g_signal_connect(mHiddenWidget, "drag_end", G_CALLBACK(invisibleSourceDragEnd), this); // drag-failed is available from GTK+ version 2.12 guint dragFailedID = g_signal_lookup("drag-failed", G_TYPE_FROM_INSTANCE(mHiddenWidget)); if (dragFailedID) { g_signal_connect_closure_by_id(mHiddenWidget, dragFailedID, 0, g_cclosure_new(G_CALLBACK(invisibleSourceDragFailed), this, NULL), FALSE); } // set up our logging module if (!sDragLm) sDragLm = PR_NewLogModule("nsDragService"); PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::nsDragService")); mCanDrop = false; mTargetDragDataReceived = false; mTargetDragData = 0; mTargetDragDataLen = 0; } nsDragService::~nsDragService() { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::~nsDragService")); if (mTaskSource) g_source_remove(mTaskSource); } NS_IMPL_ISUPPORTS_INHERITED1(nsDragService, nsBaseDragService, nsIObserver) /* static */ nsDragService* nsDragService::GetInstance() { static const nsIID iid = NS_DRAGSERVICE_CID; nsCOMPtr dragService = do_GetService(iid); return static_cast(dragService.get()); // We rely on XPCOM keeping a reference to the service. } // nsIObserver NS_IMETHODIMP nsDragService::Observe(nsISupports *aSubject, const char *aTopic, const PRUnichar *aData) { if (!nsCRT::strcmp(aTopic, "quit-application")) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::Observe(\"quit-application\")")); if (mHiddenWidget) { gtk_widget_destroy(mHiddenWidget); mHiddenWidget = 0; } TargetResetData(); } else { NS_NOTREACHED("unexpected topic"); return NS_ERROR_UNEXPECTED; } return NS_OK; } // Support for periodic drag events // http://www.whatwg.org/specs/web-apps/current-work/multipage/dnd.html#drag-and-drop-processing-model // and the Xdnd protocol both recommend that drag events are sent periodically, // but GTK does not normally provide this. // // Here GTK is periodically stimulated by copies of the most recent mouse // motion events so as to send drag position messages to the destination when // appropriate (after it has received a status event from the previous // message). // // (If events were sent only on the destination side then the destination // would have no message to which it could reply with a drag status. Without // sending a drag status to the source, the destination would not be able to // change its feedback re whether it could accept the drop, and so the // source's behavior on drop will not be consistent.) static gboolean DispatchMotionEventCopy(gpointer aData) { // Clear the timer id before OnSourceGrabEventAfter is called during event // dispatch. sMotionEventTimerID = 0; GdkEvent *event = sMotionEvent; sMotionEvent = NULL; // If there is no longer a grab on the widget, then the drag is over and // there is no need to continue drag motion. if (gtk_widget_has_grab(sGrabWidget)) { gtk_propagate_event(sGrabWidget, event); } gdk_event_free(event); // Cancel this timer; // We've already started another if the motion event was dispatched. return FALSE; } static void OnSourceGrabEventAfter(GtkWidget *widget, GdkEvent *event, gpointer user_data) { // If there is no longer a grab on the widget, then the drag motion is // over (though the data may not be fetched yet). if (!gtk_widget_has_grab(sGrabWidget)) return; if (event->type == GDK_MOTION_NOTIFY) { if (sMotionEvent) { gdk_event_free(sMotionEvent); } sMotionEvent = gdk_event_copy(event); // Update the cursor position. The last of these recorded gets used for // the NS_DRAGDROP_END event. nsDragService *dragService = static_cast(user_data); dragService->SetDragEndPoint(nsIntPoint(event->motion.x_root, event->motion.y_root)); } else if (sMotionEvent && (event->type == GDK_KEY_PRESS || event->type == GDK_KEY_RELEASE)) { // Update modifier state from key events. sMotionEvent->motion.state = event->key.state; } else { return; } if (sMotionEventTimerID) { g_source_remove(sMotionEventTimerID); } // G_PRIORITY_DEFAULT_IDLE is lower priority than GDK's redraw idle source // and lower than GTK's idle source that sends drag position messages after // motion-notify signals. // // http://www.whatwg.org/specs/web-apps/current-work/multipage/dnd.html#drag-and-drop-processing-model // recommends an interval of 350ms +/- 200ms. sMotionEventTimerID = g_timeout_add_full(G_PRIORITY_DEFAULT_IDLE, 350, DispatchMotionEventCopy, NULL, NULL); } static GtkWindow* GetGtkWindow(nsIDOMDocument *aDocument) { nsCOMPtr doc = do_QueryInterface(aDocument); if (!doc) return NULL; nsCOMPtr presShell = doc->GetShell(); if (!presShell) return NULL; nsRefPtr vm = presShell->GetViewManager(); if (!vm) return NULL; nsCOMPtr widget; vm->GetRootWidget(getter_AddRefs(widget)); if (!widget) return NULL; GtkWidget *gtkWidget = static_cast(widget.get())->GetMozContainerWidget(); if (!gtkWidget) return NULL; GtkWidget *toplevel = NULL; toplevel = gtk_widget_get_toplevel(gtkWidget); if (!GTK_IS_WINDOW(toplevel)) return NULL; return GTK_WINDOW(toplevel); } // nsIDragService NS_IMETHODIMP nsDragService::InvokeDragSession(nsIDOMNode *aDOMNode, nsISupportsArray * aArrayTransferables, nsIScriptableRegion * aRegion, uint32_t aActionType) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::InvokeDragSession")); // If the previous source drag has not yet completed, signal handlers need // to be removed from sGrabWidget and dragend needs to be dispatched to // the source node, but we can't call EndDragSession yet because we don't // know whether or not the drag succeeded. if (mSourceNode) return NS_ERROR_NOT_AVAILABLE; nsresult rv = nsBaseDragService::InvokeDragSession(aDOMNode, aArrayTransferables, aRegion, aActionType); NS_ENSURE_SUCCESS(rv, rv); // make sure that we have an array of transferables to use if (!aArrayTransferables) return NS_ERROR_INVALID_ARG; // set our reference to the transferables. this will also addref // the transferables since we're going to hang onto this beyond the // length of this call mSourceDataItems = aArrayTransferables; // get the list of items we offer for drags GtkTargetList *sourceList = GetSourceList(); if (!sourceList) return NS_OK; // stored temporarily until the drag-begin signal has been received mSourceRegion = aRegion; // save our action type GdkDragAction action = GDK_ACTION_DEFAULT; if (aActionType & DRAGDROP_ACTION_COPY) action = (GdkDragAction)(action | GDK_ACTION_COPY); if (aActionType & DRAGDROP_ACTION_MOVE) action = (GdkDragAction)(action | GDK_ACTION_MOVE); if (aActionType & DRAGDROP_ACTION_LINK) action = (GdkDragAction)(action | GDK_ACTION_LINK); // Create a fake event for the drag so we can pass the time (so to speak). // If we don't do this, then, when the timestamp for the pending button // release event is used for the ungrab, the ungrab can fail due to the // timestamp being _earlier_ than CurrentTime. GdkEvent event; memset(&event, 0, sizeof(GdkEvent)); event.type = GDK_BUTTON_PRESS; event.button.window = gtk_widget_get_window(mHiddenWidget); event.button.time = nsWindow::GetLastUserInputTime(); // Put the drag widget in the window group of the source node so that the // gtk_grab_add during gtk_drag_begin is effective. // gtk_window_get_group(NULL) returns the default window group. GtkWindowGroup *window_group = gtk_window_get_group(GetGtkWindow(mSourceDocument)); gtk_window_group_add_window(window_group, GTK_WINDOW(mHiddenWidget)); #if (MOZ_WIDGET_GTK == 3) // Get device for event source GdkDisplay *display = gdk_display_get_default(); GdkDeviceManager *device_manager = gdk_display_get_device_manager(display); event.button.device = gdk_device_manager_get_client_pointer(device_manager); #endif // start our drag. GdkDragContext *context = gtk_drag_begin(mHiddenWidget, sourceList, action, 1, &event); mSourceRegion = nullptr; if (context) { StartDragSession(); // GTK uses another hidden window for receiving mouse events. sGrabWidget = gtk_window_group_get_current_grab(window_group); if (sGrabWidget) { g_object_ref(sGrabWidget); // Only motion and key events are required but connect to // "event-after" as this is never blocked by other handlers. g_signal_connect(sGrabWidget, "event-after", G_CALLBACK(OnSourceGrabEventAfter), this); } // We don't have a drag end point yet. mEndDragPoint = nsIntPoint(-1, -1); } else { rv = NS_ERROR_FAILURE; } gtk_target_list_unref(sourceList); return rv; } bool nsDragService::SetAlphaPixmap(gfxASurface *aSurface, GdkDragContext *aContext, int32_t aXOffset, int32_t aYOffset, const nsIntRect& dragRect) { #if (MOZ_WIDGET_GTK == 2) GdkScreen* screen = gtk_widget_get_screen(mHiddenWidget); // Transparent drag icons need, like a lot of transparency-related things, // a compositing X window manager if (!gdk_screen_is_composited(screen)) return false; GdkColormap* alphaColormap = gdk_screen_get_rgba_colormap(screen); if (!alphaColormap) return false; GdkPixmap* pixmap = gdk_pixmap_new(NULL, dragRect.width, dragRect.height, gdk_colormap_get_visual(alphaColormap)->depth); if (!pixmap) return false; gdk_drawable_set_colormap(GDK_DRAWABLE(pixmap), alphaColormap); // Make a gfxXlibSurface wrapped around the pixmap to render on nsRefPtr xPixmapSurface = nsWindow::GetSurfaceForGdkDrawable(GDK_DRAWABLE(pixmap), dragRect.Size()); if (!xPixmapSurface) return false; nsRefPtr xPixmapCtx = new gfxContext(xPixmapSurface); // Clear it... xPixmapCtx->SetOperator(gfxContext::OPERATOR_CLEAR); xPixmapCtx->Paint(); // ...and paint the drag image with translucency xPixmapCtx->SetOperator(gfxContext::OPERATOR_SOURCE); xPixmapCtx->SetSource(aSurface); xPixmapCtx->Paint(DRAG_IMAGE_ALPHA_LEVEL); // The drag transaction addrefs the pixmap, so we can just unref it from us here gtk_drag_set_icon_pixmap(aContext, alphaColormap, pixmap, NULL, aXOffset, aYOffset); g_object_unref(pixmap); return true; #else // TODO GTK3 return false; #endif } NS_IMETHODIMP nsDragService::StartDragSession() { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::StartDragSession")); return nsBaseDragService::StartDragSession(); } NS_IMETHODIMP nsDragService::EndDragSession(bool aDoneDrag) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::EndDragSession %d", aDoneDrag)); if (sGrabWidget) { g_signal_handlers_disconnect_by_func(sGrabWidget, FuncToGpointer(OnSourceGrabEventAfter), this); g_object_unref(sGrabWidget); sGrabWidget = NULL; if (sMotionEventTimerID) { g_source_remove(sMotionEventTimerID); sMotionEventTimerID = 0; } if (sMotionEvent) { gdk_event_free(sMotionEvent); sMotionEvent = NULL; } } // unset our drag action SetDragAction(DRAGDROP_ACTION_NONE); return nsBaseDragService::EndDragSession(aDoneDrag); } // nsIDragSession NS_IMETHODIMP nsDragService::SetCanDrop(bool aCanDrop) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::SetCanDrop %d", aCanDrop)); mCanDrop = aCanDrop; return NS_OK; } NS_IMETHODIMP nsDragService::GetCanDrop(bool *aCanDrop) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::GetCanDrop")); *aCanDrop = mCanDrop; return NS_OK; } // count the number of URIs in some text/uri-list format data. static uint32_t CountTextUriListItems(const char *data, uint32_t datalen) { const char *p = data; const char *endPtr = p + datalen; uint32_t count = 0; while (p < endPtr) { // skip whitespace (if any) while (p < endPtr && *p != '\0' && isspace(*p)) p++; // if we aren't at the end of the line ... if (p != endPtr && *p != '\0' && *p != '\n' && *p != '\r') count++; // skip to the end of the line while (p < endPtr && *p != '\0' && *p != '\n') p++; p++; // skip the actual newline as well. } return count; } // extract an item from text/uri-list formatted data and convert it to // unicode. static void GetTextUriListItem(const char *data, uint32_t datalen, uint32_t aItemIndex, PRUnichar **convertedText, int32_t *convertedTextLen) { const char *p = data; const char *endPtr = p + datalen; unsigned int count = 0; *convertedText = nullptr; while (p < endPtr) { // skip whitespace (if any) while (p < endPtr && *p != '\0' && isspace(*p)) p++; // if we aren't at the end of the line, we have a url if (p != endPtr && *p != '\0' && *p != '\n' && *p != '\r') count++; // this is the item we are after ... if (aItemIndex + 1 == count) { const char *q = p; while (q < endPtr && *q != '\0' && *q != '\n' && *q != '\r') q++; nsPrimitiveHelpers::ConvertPlatformPlainTextToUnicode( p, q - p, convertedText, convertedTextLen); break; } // skip to the end of the line while (p < endPtr && *p != '\0' && *p != '\n') p++; p++; // skip the actual newline as well. } // didn't find the desired item, so just pass the whole lot if (!*convertedText) { nsPrimitiveHelpers::ConvertPlatformPlainTextToUnicode( data, datalen, convertedText, convertedTextLen); } } NS_IMETHODIMP nsDragService::GetNumDropItems(uint32_t * aNumItems) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::GetNumDropItems")); if (!mTargetWidget) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("*** warning: GetNumDropItems \ called without a valid target widget!\n")); *aNumItems = 0; return NS_OK; } bool isList = IsTargetContextList(); if (isList) mSourceDataItems->Count(aNumItems); else { GdkAtom gdkFlavor = gdk_atom_intern(gTextUriListType, FALSE); GetTargetDragData(gdkFlavor); if (mTargetDragData) { const char *data = reinterpret_cast(mTargetDragData); *aNumItems = CountTextUriListItems(data, mTargetDragDataLen); } else *aNumItems = 1; } PR_LOG(sDragLm, PR_LOG_DEBUG, ("%d items", *aNumItems)); return NS_OK; } NS_IMETHODIMP nsDragService::GetData(nsITransferable * aTransferable, uint32_t aItemIndex) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::GetData %d", aItemIndex)); // make sure that we have a transferable if (!aTransferable) return NS_ERROR_INVALID_ARG; if (!mTargetWidget) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("*** warning: GetData \ called without a valid target widget!\n")); return NS_ERROR_FAILURE; } // get flavor list that includes all acceptable flavors (including // ones obtained through conversion). Flavors are nsISupportsStrings // so that they can be seen from JS. nsCOMPtr flavorList; nsresult rv = aTransferable->FlavorsTransferableCanImport( getter_AddRefs(flavorList)); if (NS_FAILED(rv)) return rv; // count the number of flavors uint32_t cnt; flavorList->Count(&cnt); unsigned int i; // check to see if this is an internal list bool isList = IsTargetContextList(); if (isList) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("it's a list...")); // find a matching flavor for (i = 0; i < cnt; ++i) { nsCOMPtr genericWrapper; flavorList->GetElementAt(i, getter_AddRefs(genericWrapper)); nsCOMPtr currentFlavor; currentFlavor = do_QueryInterface(genericWrapper); if (!currentFlavor) continue; nsXPIDLCString flavorStr; currentFlavor->ToString(getter_Copies(flavorStr)); PR_LOG(sDragLm, PR_LOG_DEBUG, ("flavor is %s\n", (const char *)flavorStr)); // get the item with the right index nsCOMPtr genericItem; mSourceDataItems->GetElementAt(aItemIndex, getter_AddRefs(genericItem)); nsCOMPtr item(do_QueryInterface(genericItem)); if (!item) continue; nsCOMPtr data; uint32_t tmpDataLen = 0; PR_LOG(sDragLm, PR_LOG_DEBUG, ("trying to get transfer data for %s\n", (const char *)flavorStr)); rv = item->GetTransferData(flavorStr, getter_AddRefs(data), &tmpDataLen); if (NS_FAILED(rv)) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("failed.\n")); continue; } PR_LOG(sDragLm, PR_LOG_DEBUG, ("succeeded.\n")); rv = aTransferable->SetTransferData(flavorStr,data,tmpDataLen); if (NS_FAILED(rv)) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("fail to set transfer data into transferable!\n")); continue; } // ok, we got the data return NS_OK; } // if we got this far, we failed return NS_ERROR_FAILURE; } // Now walk down the list of flavors. When we find one that is // actually present, copy out the data into the transferable in that // format. SetTransferData() implicitly handles conversions. for ( i = 0; i < cnt; ++i ) { nsCOMPtr genericWrapper; flavorList->GetElementAt(i,getter_AddRefs(genericWrapper)); nsCOMPtr currentFlavor; currentFlavor = do_QueryInterface(genericWrapper); if (currentFlavor) { // find our gtk flavor nsXPIDLCString flavorStr; currentFlavor->ToString(getter_Copies(flavorStr)); GdkAtom gdkFlavor = gdk_atom_intern(flavorStr, FALSE); PR_LOG(sDragLm, PR_LOG_DEBUG, ("looking for data in type %s, gdk flavor %ld\n", static_cast(flavorStr), gdkFlavor)); bool dataFound = false; if (gdkFlavor) { GetTargetDragData(gdkFlavor); } if (mTargetDragData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("dataFound = true\n")); dataFound = true; } else { PR_LOG(sDragLm, PR_LOG_DEBUG, ("dataFound = false\n")); // Dragging and dropping from the file manager would cause us // to parse the source text as a nsIFile URL. if ( strcmp(flavorStr, kFileMime) == 0 ) { gdkFlavor = gdk_atom_intern(kTextMime, FALSE); GetTargetDragData(gdkFlavor); if (!mTargetDragData) { gdkFlavor = gdk_atom_intern(gTextUriListType, FALSE); GetTargetDragData(gdkFlavor); } if (mTargetDragData) { const char* text = static_cast(mTargetDragData); PRUnichar* convertedText = nullptr; int32_t convertedTextLen = 0; GetTextUriListItem(text, mTargetDragDataLen, aItemIndex, &convertedText, &convertedTextLen); if (convertedText) { nsCOMPtr ioService = do_GetIOService(&rv); nsCOMPtr fileURI; nsresult rv = ioService->NewURI(NS_ConvertUTF16toUTF8(convertedText), nullptr, nullptr, getter_AddRefs(fileURI)); if (NS_SUCCEEDED(rv)) { nsCOMPtr fileURL = do_QueryInterface(fileURI, &rv); if (NS_SUCCEEDED(rv)) { nsCOMPtr file; rv = fileURL->GetFile(getter_AddRefs(file)); if (NS_SUCCEEDED(rv)) { // The common wrapping code at the end of // this function assumes the data is text // and calls text-specific operations. // Make a secret hideout here for nsIFile // objects and return early. aTransferable->SetTransferData(flavorStr, file, convertedTextLen); g_free(convertedText); return NS_OK; } } } g_free(convertedText); } continue; } } // if we are looking for text/unicode and we fail to find it // on the clipboard first, try again with text/plain. If that // is present, convert it to unicode. if ( strcmp(flavorStr, kUnicodeMime) == 0 ) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("we were looking for text/unicode... \ trying with text/plain;charset=utf-8\n")); gdkFlavor = gdk_atom_intern(gTextPlainUTF8Type, FALSE); GetTargetDragData(gdkFlavor); if (mTargetDragData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("Got textplain data\n")); const char* castedText = reinterpret_cast(mTargetDragData); PRUnichar* convertedText = nullptr; NS_ConvertUTF8toUTF16 ucs2string(castedText, mTargetDragDataLen); convertedText = ToNewUnicode(ucs2string); if ( convertedText ) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("successfully converted plain text \ to unicode.\n")); // out with the old, in with the new g_free(mTargetDragData); mTargetDragData = convertedText; mTargetDragDataLen = ucs2string.Length() * 2; dataFound = true; } // if plain text data on clipboard } else { PR_LOG(sDragLm, PR_LOG_DEBUG, ("we were looking for text/unicode... \ trying again with text/plain\n")); gdkFlavor = gdk_atom_intern(kTextMime, FALSE); GetTargetDragData(gdkFlavor); if (mTargetDragData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("Got textplain data\n")); const char* castedText = reinterpret_cast(mTargetDragData); PRUnichar* convertedText = nullptr; int32_t convertedTextLen = 0; nsPrimitiveHelpers::ConvertPlatformPlainTextToUnicode( castedText, mTargetDragDataLen, &convertedText, &convertedTextLen); if ( convertedText ) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("successfully converted plain text \ to unicode.\n")); // out with the old, in with the new g_free(mTargetDragData); mTargetDragData = convertedText; mTargetDragDataLen = convertedTextLen * 2; dataFound = true; } // if plain text data on clipboard } // if plain text flavor present } // if plain text charset=utf-8 flavor present } // if looking for text/unicode // if we are looking for text/x-moz-url and we failed to find // it on the clipboard, try again with text/uri-list, and then // _NETSCAPE_URL if (strcmp(flavorStr, kURLMime) == 0) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("we were looking for text/x-moz-url...\ trying again with text/uri-list\n")); gdkFlavor = gdk_atom_intern(gTextUriListType, FALSE); GetTargetDragData(gdkFlavor); if (mTargetDragData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("Got text/uri-list data\n")); const char *data = reinterpret_cast(mTargetDragData); PRUnichar* convertedText = nullptr; int32_t convertedTextLen = 0; GetTextUriListItem(data, mTargetDragDataLen, aItemIndex, &convertedText, &convertedTextLen); if ( convertedText ) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("successfully converted \ _NETSCAPE_URL to unicode.\n")); // out with the old, in with the new g_free(mTargetDragData); mTargetDragData = convertedText; mTargetDragDataLen = convertedTextLen * 2; dataFound = true; } } else { PR_LOG(sDragLm, PR_LOG_DEBUG, ("failed to get text/uri-list data\n")); } if (!dataFound) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("we were looking for text/x-moz-url...\ trying again with _NETSCAP_URL\n")); gdkFlavor = gdk_atom_intern(gMozUrlType, FALSE); GetTargetDragData(gdkFlavor); if (mTargetDragData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("Got _NETSCAPE_URL data\n")); const char* castedText = reinterpret_cast(mTargetDragData); PRUnichar* convertedText = nullptr; int32_t convertedTextLen = 0; nsPrimitiveHelpers::ConvertPlatformPlainTextToUnicode(castedText, mTargetDragDataLen, &convertedText, &convertedTextLen); if ( convertedText ) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("successfully converted _NETSCAPE_URL \ to unicode.\n")); // out with the old, in with the new g_free(mTargetDragData); mTargetDragData = convertedText; mTargetDragDataLen = convertedTextLen * 2; dataFound = true; } } else { PR_LOG(sDragLm, PR_LOG_DEBUG, ("failed to get _NETSCAPE_URL data\n")); } } } } // else we try one last ditch effort to find our data if (dataFound) { // the DOM only wants LF, so convert from MacOS line endings // to DOM line endings. nsLinebreakHelpers::ConvertPlatformToDOMLinebreaks( flavorStr, &mTargetDragData, reinterpret_cast(&mTargetDragDataLen)); // put it into the transferable. nsCOMPtr genericDataWrapper; nsPrimitiveHelpers::CreatePrimitiveForData(flavorStr, mTargetDragData, mTargetDragDataLen, getter_AddRefs(genericDataWrapper)); aTransferable->SetTransferData(flavorStr, genericDataWrapper, mTargetDragDataLen); // we found one, get out of this loop! PR_LOG(sDragLm, PR_LOG_DEBUG, ("dataFound and converted!\n")); break; } } // if (currentFlavor) } // foreach flavor return NS_OK; } NS_IMETHODIMP nsDragService::IsDataFlavorSupported(const char *aDataFlavor, bool *_retval) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::IsDataFlavorSupported %s", aDataFlavor)); if (!_retval) return NS_ERROR_INVALID_ARG; // set this to no by default *_retval = false; // check to make sure that we have a drag object set, here if (!mTargetWidget) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("*** warning: IsDataFlavorSupported \ called without a valid target widget!\n")); return NS_OK; } // check to see if the target context is a list. bool isList = IsTargetContextList(); // if it is, just look in the internal data since we are the source // for it. if (isList) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("It's a list..")); uint32_t numDragItems = 0; // if we don't have mDataItems we didn't start this drag so it's // an external client trying to fool us. if (!mSourceDataItems) return NS_OK; mSourceDataItems->Count(&numDragItems); for (uint32_t itemIndex = 0; itemIndex < numDragItems; ++itemIndex) { nsCOMPtr genericItem; mSourceDataItems->GetElementAt(itemIndex, getter_AddRefs(genericItem)); nsCOMPtr currItem(do_QueryInterface(genericItem)); if (currItem) { nsCOMPtr flavorList; currItem->FlavorsTransferableCanExport( getter_AddRefs(flavorList)); if (flavorList) { uint32_t numFlavors; flavorList->Count( &numFlavors ); for ( uint32_t flavorIndex = 0; flavorIndex < numFlavors ; ++flavorIndex ) { nsCOMPtr genericWrapper; flavorList->GetElementAt(flavorIndex, getter_AddRefs(genericWrapper)); nsCOMPtr currentFlavor; currentFlavor = do_QueryInterface(genericWrapper); if (currentFlavor) { nsXPIDLCString flavorStr; currentFlavor->ToString(getter_Copies(flavorStr)); PR_LOG(sDragLm, PR_LOG_DEBUG, ("checking %s against %s\n", (const char *)flavorStr, aDataFlavor)); if (strcmp(flavorStr, aDataFlavor) == 0) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("boioioioiooioioioing!\n")); *_retval = true; } } } } } } return NS_OK; } // check the target context vs. this flavor, one at a time GList *tmp; for (tmp = gdk_drag_context_list_targets(mTargetDragContext); tmp; tmp = tmp->next) { /* Bug 331198 */ GdkAtom atom = GDK_POINTER_TO_ATOM(tmp->data); gchar *name = NULL; name = gdk_atom_name(atom); PR_LOG(sDragLm, PR_LOG_DEBUG, ("checking %s against %s\n", name, aDataFlavor)); if (name && (strcmp(name, aDataFlavor) == 0)) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("good!\n")); *_retval = true; } // check for automatic text/uri-list -> text/x-moz-url mapping if (!*_retval && name && (strcmp(name, gTextUriListType) == 0) && (strcmp(aDataFlavor, kURLMime) == 0 || strcmp(aDataFlavor, kFileMime) == 0)) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("good! ( it's text/uri-list and \ we're checking against text/x-moz-url )\n")); *_retval = true; } // check for automatic _NETSCAPE_URL -> text/x-moz-url mapping if (!*_retval && name && (strcmp(name, gMozUrlType) == 0) && (strcmp(aDataFlavor, kURLMime) == 0)) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("good! ( it's _NETSCAPE_URL and \ we're checking against text/x-moz-url )\n")); *_retval = true; } // check for auto text/plain -> text/unicode mapping if (!*_retval && name && (strcmp(name, kTextMime) == 0) && ((strcmp(aDataFlavor, kUnicodeMime) == 0) || (strcmp(aDataFlavor, kFileMime) == 0))) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("good! ( it's text plain and we're checking \ against text/unicode or application/x-moz-file)\n")); *_retval = true; } g_free(name); } return NS_OK; } void nsDragService::ReplyToDragMotion() { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::ReplyToDragMotion %d", mCanDrop)); GdkDragAction action = (GdkDragAction)0; if (mCanDrop) { // notify the dragger if we can drop switch (mDragAction) { case DRAGDROP_ACTION_COPY: action = GDK_ACTION_COPY; break; case DRAGDROP_ACTION_LINK: action = GDK_ACTION_LINK; break; default: action = GDK_ACTION_MOVE; break; } } gdk_drag_status(mTargetDragContext, action, mTargetTime); } void nsDragService::TargetDataReceived(GtkWidget *aWidget, GdkDragContext *aContext, gint aX, gint aY, GtkSelectionData *aSelectionData, guint aInfo, guint32 aTime) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::TargetDataReceived")); TargetResetData(); mTargetDragDataReceived = true; gint len = gtk_selection_data_get_length(aSelectionData); const guchar* data = gtk_selection_data_get_data(aSelectionData); if (len > 0 && data) { mTargetDragDataLen = len; mTargetDragData = g_malloc(mTargetDragDataLen); memcpy(mTargetDragData, data, mTargetDragDataLen); } else { PR_LOG(sDragLm, PR_LOG_DEBUG, ("Failed to get data. selection data len was %d\n", mTargetDragDataLen)); } } bool nsDragService::IsTargetContextList(void) { bool retval = false; // gMimeListType drags only work for drags within a single process. // The gtk_drag_get_source_widget() function will return NULL if the // source of the drag is another app, so we use it to check if a // gMimeListType drop will work or not. if (gtk_drag_get_source_widget(mTargetDragContext) == NULL) return retval; GList *tmp; // walk the list of context targets and see if one of them is a list // of items. for (tmp = gdk_drag_context_list_targets(mTargetDragContext); tmp; tmp = tmp->next) { /* Bug 331198 */ GdkAtom atom = GDK_POINTER_TO_ATOM(tmp->data); gchar *name = NULL; name = gdk_atom_name(atom); if (name && strcmp(name, gMimeListType) == 0) retval = true; g_free(name); if (retval) break; } return retval; } // Maximum time to wait for a "drag_received" arrived, in microseconds #define NS_DND_TIMEOUT 500000 void nsDragService::GetTargetDragData(GdkAtom aFlavor) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("getting data flavor %d\n", aFlavor)); PR_LOG(sDragLm, PR_LOG_DEBUG, ("mLastWidget is %p and mLastContext is %p\n", mTargetWidget.get(), mTargetDragContext.get())); // reset our target data areas TargetResetData(); gtk_drag_get_data(mTargetWidget, mTargetDragContext, aFlavor, mTargetTime); PR_LOG(sDragLm, PR_LOG_DEBUG, ("about to start inner iteration.")); PRTime entryTime = PR_Now(); while (!mTargetDragDataReceived && mDoingDrag) { // check the number of iterations PR_LOG(sDragLm, PR_LOG_DEBUG, ("doing iteration...\n")); PR_Sleep(20*PR_TicksPerSecond()/1000); /* sleep for 20 ms/iteration */ if (PR_Now()-entryTime > NS_DND_TIMEOUT) break; gtk_main_iteration(); } PR_LOG(sDragLm, PR_LOG_DEBUG, ("finished inner iteration\n")); } void nsDragService::TargetResetData(void) { mTargetDragDataReceived = false; // make sure to free old data if we have to g_free(mTargetDragData); mTargetDragData = 0; mTargetDragDataLen = 0; } GtkTargetList * nsDragService::GetSourceList(void) { if (!mSourceDataItems) return NULL; nsTArray targetArray; GtkTargetEntry *targets; GtkTargetList *targetList = 0; uint32_t targetCount = 0; unsigned int numDragItems = 0; mSourceDataItems->Count(&numDragItems); // Check to see if we're dragging > 1 item. if (numDragItems > 1) { // as the Xdnd protocol only supports a single item (or is it just // gtk's implementation?), we don't advertise all flavours listed // in the nsITransferable. // the application/x-moz-internal-item-list format, which preserves // all information for drags within the same mozilla instance. GtkTargetEntry *listTarget = (GtkTargetEntry *)g_malloc(sizeof(GtkTargetEntry)); listTarget->target = g_strdup(gMimeListType); listTarget->flags = 0; PR_LOG(sDragLm, PR_LOG_DEBUG, ("automatically adding target %s\n", listTarget->target)); targetArray.AppendElement(listTarget); // check what flavours are supported so we can decide what other // targets to advertise. nsCOMPtr genericItem; mSourceDataItems->GetElementAt(0, getter_AddRefs(genericItem)); nsCOMPtr currItem(do_QueryInterface(genericItem)); if (currItem) { nsCOMPtr flavorList; currItem->FlavorsTransferableCanExport(getter_AddRefs(flavorList)); if (flavorList) { uint32_t numFlavors; flavorList->Count( &numFlavors ); for (uint32_t flavorIndex = 0; flavorIndex < numFlavors ; ++flavorIndex ) { nsCOMPtr genericWrapper; flavorList->GetElementAt(flavorIndex, getter_AddRefs(genericWrapper)); nsCOMPtr currentFlavor; currentFlavor = do_QueryInterface(genericWrapper); if (currentFlavor) { nsXPIDLCString flavorStr; currentFlavor->ToString(getter_Copies(flavorStr)); // check if text/x-moz-url is supported. // If so, advertise // text/uri-list. if (strcmp(flavorStr, kURLMime) == 0) { listTarget = (GtkTargetEntry *)g_malloc(sizeof(GtkTargetEntry)); listTarget->target = g_strdup(gTextUriListType); listTarget->flags = 0; PR_LOG(sDragLm, PR_LOG_DEBUG, ("automatically adding target %s\n", listTarget->target)); targetArray.AppendElement(listTarget); } } } // foreach flavor in item } // if valid flavor list } // if item is a transferable } else if (numDragItems == 1) { nsCOMPtr genericItem; mSourceDataItems->GetElementAt(0, getter_AddRefs(genericItem)); nsCOMPtr currItem(do_QueryInterface(genericItem)); if (currItem) { nsCOMPtr flavorList; currItem->FlavorsTransferableCanExport(getter_AddRefs(flavorList)); if (flavorList) { uint32_t numFlavors; flavorList->Count( &numFlavors ); for (uint32_t flavorIndex = 0; flavorIndex < numFlavors ; ++flavorIndex ) { nsCOMPtr genericWrapper; flavorList->GetElementAt(flavorIndex, getter_AddRefs(genericWrapper)); nsCOMPtr currentFlavor; currentFlavor = do_QueryInterface(genericWrapper); if (currentFlavor) { nsXPIDLCString flavorStr; currentFlavor->ToString(getter_Copies(flavorStr)); GtkTargetEntry *target = (GtkTargetEntry *)g_malloc(sizeof(GtkTargetEntry)); target->target = g_strdup(flavorStr); target->flags = 0; PR_LOG(sDragLm, PR_LOG_DEBUG, ("adding target %s\n", target->target)); targetArray.AppendElement(target); // Check to see if this is text/unicode. // If it is, add text/plain // since we automatically support text/plain // if we support text/unicode. if (strcmp(flavorStr, kUnicodeMime) == 0) { GtkTargetEntry *plainUTF8Target = (GtkTargetEntry *)g_malloc(sizeof(GtkTargetEntry)); plainUTF8Target->target = g_strdup(gTextPlainUTF8Type); plainUTF8Target->flags = 0; PR_LOG(sDragLm, PR_LOG_DEBUG, ("automatically adding target %s\n", plainUTF8Target->target)); targetArray.AppendElement(plainUTF8Target); GtkTargetEntry *plainTarget = (GtkTargetEntry *)g_malloc(sizeof(GtkTargetEntry)); plainTarget->target = g_strdup(kTextMime); plainTarget->flags = 0; PR_LOG(sDragLm, PR_LOG_DEBUG, ("automatically adding target %s\n", plainTarget->target)); targetArray.AppendElement(plainTarget); } // Check to see if this is the x-moz-url type. // If it is, add _NETSCAPE_URL // this is a type used by everybody. if (strcmp(flavorStr, kURLMime) == 0) { GtkTargetEntry *urlTarget = (GtkTargetEntry *)g_malloc(sizeof(GtkTargetEntry)); urlTarget->target = g_strdup(gMozUrlType); urlTarget->flags = 0; PR_LOG(sDragLm, PR_LOG_DEBUG, ("automatically adding target %s\n", urlTarget->target)); targetArray.AppendElement(urlTarget); } } } // foreach flavor in item } // if valid flavor list } // if item is a transferable } // if it is a single item drag // get all the elements that we created. targetCount = targetArray.Length(); if (targetCount) { // allocate space to create the list of valid targets targets = (GtkTargetEntry *)g_malloc(sizeof(GtkTargetEntry) * targetCount); uint32_t targetIndex; for ( targetIndex = 0; targetIndex < targetCount; ++targetIndex) { GtkTargetEntry *disEntry = targetArray.ElementAt(targetIndex); // this is a string reference but it will be freed later. targets[targetIndex].target = disEntry->target; targets[targetIndex].flags = disEntry->flags; targets[targetIndex].info = 0; } targetList = gtk_target_list_new(targets, targetCount); // clean up the target list for (uint32_t cleanIndex = 0; cleanIndex < targetCount; ++cleanIndex) { GtkTargetEntry *thisTarget = targetArray.ElementAt(cleanIndex); g_free(thisTarget->target); g_free(thisTarget); } g_free(targets); } return targetList; } void nsDragService::SourceEndDragSession(GdkDragContext *aContext, gint aResult) { // this just releases the list of data items that we provide mSourceDataItems = nullptr; if (!mDoingDrag || mScheduledTask == eDragTaskSourceEnd) // EndDragSession() was already called on drop // or SourceEndDragSession on drag-failed return; if (mEndDragPoint.x < 0) { // We don't have a drag end point, so guess gint x, y; GdkDisplay* display = gdk_display_get_default(); if (display) { gdk_display_get_pointer(display, NULL, &x, &y, NULL); SetDragEndPoint(nsIntPoint(x, y)); } } // Either the drag was aborted or the drop occurred outside the app. // The dropEffect of mDataTransfer is not updated for motion outside the // app, but is needed for the dragend event, so set it now. uint32_t dropEffect; if (aResult == MOZ_GTK_DRAG_RESULT_SUCCESS) { // With GTK+ versions 2.10.x and prior the drag may have been // cancelled (but no drag-failed signal would have been sent). // aContext->dest_window will be non-NULL only if the drop was sent. GdkDragAction action = gdk_drag_context_get_dest_window(aContext) ? gdk_drag_context_get_actions(aContext) : (GdkDragAction)0; // Only one bit of action should be set, but, just in case someone // does something funny, erring away from MOVE, and not recording // unusual action combinations as NONE. if (!action) dropEffect = DRAGDROP_ACTION_NONE; else if (action & GDK_ACTION_COPY) dropEffect = DRAGDROP_ACTION_COPY; else if (action & GDK_ACTION_LINK) dropEffect = DRAGDROP_ACTION_LINK; else if (action & GDK_ACTION_MOVE) dropEffect = DRAGDROP_ACTION_MOVE; else dropEffect = DRAGDROP_ACTION_COPY; } else { dropEffect = DRAGDROP_ACTION_NONE; if (aResult != MOZ_GTK_DRAG_RESULT_NO_TARGET) { mUserCancelled = true; } } if (mDataTransfer) { mDataTransfer->SetDropEffectInt(dropEffect); } // Schedule the appropriate drag end dom events. Schedule(eDragTaskSourceEnd, nullptr, NULL, nsIntPoint(), 0); } static void CreateUriList(nsISupportsArray *items, gchar **text, gint *length) { uint32_t i, count; GString *uriList = g_string_new(NULL); items->Count(&count); for (i = 0; i < count; i++) { nsCOMPtr genericItem; items->GetElementAt(i, getter_AddRefs(genericItem)); nsCOMPtr item; item = do_QueryInterface(genericItem); if (item) { uint32_t tmpDataLen = 0; void *tmpData = NULL; nsresult rv = NS_OK; nsCOMPtr data; rv = item->GetTransferData(kURLMime, getter_AddRefs(data), &tmpDataLen); if (NS_SUCCEEDED(rv)) { nsPrimitiveHelpers::CreateDataFromPrimitive(kURLMime, data, &tmpData, tmpDataLen); char* plainTextData = nullptr; PRUnichar* castedUnicode = reinterpret_cast (tmpData); int32_t plainTextLen = 0; nsPrimitiveHelpers::ConvertUnicodeToPlatformPlainText( castedUnicode, tmpDataLen / 2, &plainTextData, &plainTextLen); if (plainTextData) { int32_t j; // text/x-moz-url is of form url + "\n" + title. // We just want the url. for (j = 0; j < plainTextLen; j++) if (plainTextData[j] == '\n' || plainTextData[j] == '\r') { plainTextData[j] = '\0'; break; } g_string_append(uriList, plainTextData); g_string_append(uriList, "\r\n"); // this wasn't allocated with glib free(plainTextData); } if (tmpData) { // this wasn't allocated with glib free(tmpData); } } } } *text = uriList->str; *length = uriList->len + 1; g_string_free(uriList, FALSE); // don't free the data } void nsDragService::SourceDataGet(GtkWidget *aWidget, GdkDragContext *aContext, GtkSelectionData *aSelectionData, guint32 aTime) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService::SourceDataGet")); GdkAtom target = gtk_selection_data_get_target(aSelectionData); nsXPIDLCString mimeFlavor; gchar *typeName = 0; typeName = gdk_atom_name(target); if (!typeName) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("failed to get atom name.\n")); return; } PR_LOG(sDragLm, PR_LOG_DEBUG, ("Type is %s\n", typeName)); // make a copy since |nsXPIDLCString| won't use |g_free|... mimeFlavor.Adopt(strdup(typeName)); g_free(typeName); // check to make sure that we have data items to return. if (!mSourceDataItems) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("Failed to get our data items\n")); return; } nsCOMPtr genericItem; mSourceDataItems->GetElementAt(0, getter_AddRefs(genericItem)); nsCOMPtr item; item = do_QueryInterface(genericItem); if (item) { // if someone was asking for text/plain, lookup unicode instead so // we can convert it. bool needToDoConversionToPlainText = false; const char* actualFlavor = mimeFlavor; if (strcmp(mimeFlavor, kTextMime) == 0 || strcmp(mimeFlavor, gTextPlainUTF8Type) == 0) { actualFlavor = kUnicodeMime; needToDoConversionToPlainText = true; } // if someone was asking for _NETSCAPE_URL we need to convert to // plain text but we also need to look for x-moz-url else if (strcmp(mimeFlavor, gMozUrlType) == 0) { actualFlavor = kURLMime; needToDoConversionToPlainText = true; } // if someone was asking for text/uri-list we need to convert to // plain text. else if (strcmp(mimeFlavor, gTextUriListType) == 0) { actualFlavor = gTextUriListType; needToDoConversionToPlainText = true; } else actualFlavor = mimeFlavor; uint32_t tmpDataLen = 0; void *tmpData = NULL; nsresult rv; nsCOMPtr data; rv = item->GetTransferData(actualFlavor, getter_AddRefs(data), &tmpDataLen); if (NS_SUCCEEDED(rv)) { nsPrimitiveHelpers::CreateDataFromPrimitive (actualFlavor, data, &tmpData, tmpDataLen); // if required, do the extra work to convert unicode to plain // text and replace the output values with the plain text. if (needToDoConversionToPlainText) { char* plainTextData = nullptr; PRUnichar* castedUnicode = reinterpret_cast (tmpData); int32_t plainTextLen = 0; if (strcmp(mimeFlavor, gTextPlainUTF8Type) == 0) { plainTextData = ToNewUTF8String( nsDependentString(castedUnicode, tmpDataLen / 2), (uint32_t*)&plainTextLen); } else { nsPrimitiveHelpers::ConvertUnicodeToPlatformPlainText( castedUnicode, tmpDataLen / 2, &plainTextData, &plainTextLen); } if (tmpData) { // this was not allocated using glib free(tmpData); tmpData = plainTextData; tmpDataLen = plainTextLen; } } if (tmpData) { // this copies the data gtk_selection_data_set(aSelectionData, target, 8, (guchar *)tmpData, tmpDataLen); // this wasn't allocated with glib free(tmpData); } } else { if (strcmp(mimeFlavor, gTextUriListType) == 0) { // fall back for text/uri-list gchar *uriList; gint length; CreateUriList(mSourceDataItems, &uriList, &length); gtk_selection_data_set(aSelectionData, target, 8, (guchar *)uriList, length); g_free(uriList); return; } } } } void nsDragService::SetDragIcon(GdkDragContext* aContext) { if (!mHasImage && !mSelection) return; nsIntRect dragRect; nsPresContext* pc; nsRefPtr surface; DrawDrag(mSourceNode, mSourceRegion, mScreenX, mScreenY, &dragRect, getter_AddRefs(surface), &pc); if (!pc) return; int32_t sx = mScreenX, sy = mScreenY; ConvertToUnscaledDevPixels(pc, &sx, &sy); int32_t offsetX = sx - dragRect.x; int32_t offsetY = sy - dragRect.y; // If a popup is set as the drag image, use its widget. Otherwise, use // the surface that DrawDrag created. if (mDragPopup) { GtkWidget* gtkWidget = nullptr; nsIFrame* frame = mDragPopup->GetPrimaryFrame(); if (frame) { // DrawDrag ensured that this is a popup frame. nsCOMPtr widget = frame->GetNearestWidget(); if (widget) { gtkWidget = (GtkWidget *)widget->GetNativeData(NS_NATIVE_SHELLWIDGET); if (gtkWidget) { OpenDragPopup(); gtk_drag_set_icon_widget(aContext, gtkWidget, offsetX, offsetY); } } } } else if (surface) { if (!SetAlphaPixmap(surface, aContext, offsetX, offsetY, dragRect)) { GdkPixbuf* dragPixbuf = nsImageToPixbuf::SurfaceToPixbuf(surface, dragRect.width, dragRect.height); if (dragPixbuf) { gtk_drag_set_icon_pixbuf(aContext, dragPixbuf, offsetX, offsetY); g_object_unref(dragPixbuf); } } } } static void invisibleSourceDragBegin(GtkWidget *aWidget, GdkDragContext *aContext, gpointer aData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("invisibleSourceDragBegin")); nsDragService *dragService = (nsDragService *)aData; dragService->SetDragIcon(aContext); } static void invisibleSourceDragDataGet(GtkWidget *aWidget, GdkDragContext *aContext, GtkSelectionData *aSelectionData, guint aInfo, guint32 aTime, gpointer aData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("invisibleSourceDragDataGet")); nsDragService *dragService = (nsDragService *)aData; dragService->SourceDataGet(aWidget, aContext, aSelectionData, aTime); } static gboolean invisibleSourceDragFailed(GtkWidget *aWidget, GdkDragContext *aContext, gint aResult, gpointer aData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("invisibleSourceDragFailed %i", aResult)); nsDragService *dragService = (nsDragService *)aData; // End the drag session now (rather than waiting for the drag-end signal) // so that operations performed on dropEffect == none can start immediately // rather than waiting for the drag-failed animation to finish. dragService->SourceEndDragSession(aContext, aResult); // We should return TRUE to disable the drag-failed animation iff the // source performed an operation when dropEffect was none, but the handler // of the dragend DOM event doesn't provide this information. return FALSE; } static void invisibleSourceDragEnd(GtkWidget *aWidget, GdkDragContext *aContext, gpointer aData) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("invisibleSourceDragEnd")); nsDragService *dragService = (nsDragService *)aData; // The drag has ended. Release the hostages! dragService->SourceEndDragSession(aContext, MOZ_GTK_DRAG_RESULT_SUCCESS); } // The following methods handle responding to GTK drag signals and // tracking state between these signals. // // In general, GTK does not expect us to run the event loop while handling its // drag signals, however our drag event handlers may run the // event loop, most often to fetch information about the drag data. // // GTK, for example, uses the return value from drag-motion signals to // determine whether drag-leave signals should be sent. If an event loop is // run during drag-motion the XdndLeave message can get processed but when GTK // receives the message it does not yet know that it needs to send the // drag-leave signal to our widget. // // After a drag-drop signal, we need to reply with gtk_drag_finish(). // However, gtk_drag_finish should happen after the drag-drop signal handler // returns so that when the Motif drag protocol is used, the // XmTRANSFER_SUCCESS during gtk_drag_finish is sent after the XmDROP_START // reply sent on return from the drag-drop signal handler. // // Similarly drag-end for a successful drag and drag-failed are not good // times to run a nested event loop as gtk_drag_drop_finished() and // gtk_drag_source_info_destroy() don't gtk_drag_clear_source_info() or remove // drop_timeout until after at least the first of these signals is sent. // Processing other events (e.g. a slow GDK_DROP_FINISHED reply, or the drop // timeout) could cause gtk_drag_drop_finished to be called again with the // same GtkDragSourceInfo, which won't like being destroyed twice. // // Therefore we reply to the signals immediately and schedule a task to // dispatch the Gecko events, which may run the event loop. // // Action in response to drag-leave signals is also delayed until the event // loop runs again so that we find out whether a drag-drop signal follows. // // A single task is scheduled to manage responses to all three GTK signals. // If further signals are received while the task is scheduled, the scheduled // response is updated, sometimes effectively compressing successive signals. // // No Gecko drag events are dispatched (during nested event loops) while other // Gecko drag events are in flight. This helps event handlers that may not // expect nested events, while accessing an event's dataTransfer for example. gboolean nsDragService::ScheduleMotionEvent(nsWindow *aWindow, GdkDragContext *aDragContext, nsIntPoint aWindowPoint, guint aTime) { if (mScheduledTask == eDragTaskMotion) { // The drag source has sent another motion message before we've // replied to the previous. That shouldn't happen with Xdnd. The // spec for Motif drags is less clear, but we'll just update the // scheduled task with the new position reply only to the most // recent message. NS_WARNING("Drag Motion message received before previous reply was sent"); } // Returning TRUE means we'll reply with a status message, unless we first // get a leave. return Schedule(eDragTaskMotion, aWindow, aDragContext, aWindowPoint, aTime); } void nsDragService::ScheduleLeaveEvent() { // We don't know at this stage whether a drop signal will immediately // follow. If the drop signal gets sent it will happen before we return // to the main loop and the scheduled leave task will be replaced. if (!Schedule(eDragTaskLeave, nullptr, NULL, nsIntPoint(), 0)) { NS_WARNING("Drag leave after drop"); } } gboolean nsDragService::ScheduleDropEvent(nsWindow *aWindow, GdkDragContext *aDragContext, nsIntPoint aWindowPoint, guint aTime) { if (!Schedule(eDragTaskDrop, aWindow, aDragContext, aWindowPoint, aTime)) { NS_WARNING("Additional drag drop ignored"); return FALSE; } SetDragEndPoint(aWindowPoint + aWindow->WidgetToScreenOffset()); // We'll reply with gtk_drag_finish(). return TRUE; } gboolean nsDragService::Schedule(DragTask aTask, nsWindow *aWindow, GdkDragContext *aDragContext, nsIntPoint aWindowPoint, guint aTime) { // If there is an existing leave or motion task scheduled, then that // will be replaced. When the new task is run, it will dispatch // any necessary leave or motion events. // If aTask is eDragTaskSourceEnd, then it will replace even a scheduled // drop event (which could happen if the drop event has not been processed // within the allowed time). Otherwise, if we haven't yet run a scheduled // drop or end task, just say that we are not ready to receive another // drop. if (mScheduledTask == eDragTaskSourceEnd || (mScheduledTask == eDragTaskDrop && aTask != eDragTaskSourceEnd)) return FALSE; mScheduledTask = aTask; mPendingWindow = aWindow; mPendingDragContext = aDragContext; mPendingWindowPoint = aWindowPoint; mPendingTime = aTime; if (!mTaskSource) { // High priority is used here because the native events involved have // already waited at default priority. Perhaps a lower than default // priority could be used for motion tasks because there is a chance // that a leave or drop is waiting, but managing different priorities // may not be worth the effort. Motion tasks shouldn't queue up as // they should be throttled based on replies. mTaskSource = g_idle_add_full(G_PRIORITY_HIGH, TaskDispatchCallback, this, NULL); } return TRUE; } gboolean nsDragService::TaskDispatchCallback(gpointer data) { nsRefPtr dragService = static_cast(data); return dragService->RunScheduledTask(); } gboolean nsDragService::RunScheduledTask() { if (mTargetWindow && mTargetWindow != mPendingWindow) { PR_LOG(sDragLm, PR_LOG_DEBUG, ("nsDragService: dispatch drag leave (%p)\n", mTargetWindow.get())); mTargetWindow-> DispatchDragEvent(NS_DRAGDROP_EXIT, mTargetWindowPoint, 0); if (!mSourceNode) { // The drag that was initiated in a different app. End the drag // session, since we're done with it for now (until the user drags // back into this app). EndDragSession(false); } } // It is possible that the pending state has been updated during dispatch // of the leave event. That's fine. // Now we collect the pending state because, from this point on, we want // to use the same state for all events dispatched. All state is updated // so that when other tasks are scheduled during dispatch here, this // task is considered to have already been run. bool positionHasChanged = mPendingWindow != mTargetWindow || mPendingWindowPoint != mTargetWindowPoint; DragTask task = mScheduledTask; mScheduledTask = eDragTaskNone; mTargetWindow = mPendingWindow.forget(); mTargetWindowPoint = mPendingWindowPoint; if (task == eDragTaskLeave || task == eDragTaskSourceEnd) { if (task == eDragTaskSourceEnd) { // Dispatch drag end events. EndDragSession(true); } // Nothing more to do // Returning false removes the task source from the event loop. mTaskSource = 0; return FALSE; } // This may be the start of a destination drag session. StartDragSession(); // mTargetWidget may be NULL if the window has been destroyed. // (The leave event is not scheduled if a drop task is still scheduled.) // We still reply appropriately to indicate that the drop will or didn't // succeeed. mTargetWidget = mTargetWindow->GetMozContainerWidget(); mTargetDragContext.steal(mPendingDragContext); mTargetTime = mPendingTime; // http://www.whatwg.org/specs/web-apps/current-work/multipage/dnd.html#drag-and-drop-processing-model // (as at 27 December 2010) indicates that a "drop" event should only be // fired (at the current target element) if the current drag operation is // not none. The current drag operation will only be set to a non-none // value during a "dragover" event. // // If the user has ended the drag before any dragover events have been // sent, then the spec recommends skipping the drop (because the current // drag operation is none). However, here we assume that, by releasing // the mouse button, the user has indicated that they want to drop, so we // proceed with the drop where possible. // // In order to make the events appear to content in the same way as if the // spec is being followed we make sure to dispatch a "dragover" event with // appropriate coordinates and check canDrop before the "drop" event. // // When the Xdnd protocol is used for source/destination communication (as // should be the case with GTK source applications) a dragover event // should have already been sent during the drag-motion signal, which // would have already been received because XdndDrop messages do not // contain a position. However, we can't assume the same when the Motif // protocol is used. if (task == eDragTaskMotion || positionHasChanged) { UpdateDragAction(); DispatchMotionEvents(); if (task == eDragTaskMotion) { // Reply to tell the source whether we can drop and what // action would be taken. ReplyToDragMotion(); } } if (task == eDragTaskDrop) { gboolean success = DispatchDropEvent(); // Perhaps we should set the del parameter to TRUE when the drag // action is move, but we don't know whether the data was successfully // transferred. gtk_drag_finish(mTargetDragContext, success, /* del = */ FALSE, mTargetTime); // This drag is over, so clear out our reference to the previous // window. mTargetWindow = nullptr; // Make sure to end the drag session. If this drag started in a // different app, we won't get a drag_end signal to end it from. EndDragSession(true); } // We're done with the drag context. mTargetWidget = NULL; mTargetDragContext = NULL; // If we got another drag signal while running the sheduled task, that // must have happened while running a nested event loop. Leave the task // source on the event loop. if (mScheduledTask != eDragTaskNone) return TRUE; // We have no task scheduled. // Returning false removes the task source from the event loop. mTaskSource = 0; return FALSE; } // This will update the drag action based on the information in the // drag context. Gtk gets this from a combination of the key settings // and what the source is offering. void nsDragService::UpdateDragAction() { // This doesn't look right. dragSession.dragAction is used by // nsContentUtils::SetDataTransferInEvent() to set the initial // dataTransfer.dropEffect, so GdkDragContext::suggested_action would be // more appropriate. GdkDragContext::actions should be used to set // dataTransfer.effectAllowed, which doesn't currently happen with // external sources. // default is to do nothing int action = nsIDragService::DRAGDROP_ACTION_NONE; GdkDragAction gdkAction = gdk_drag_context_get_actions(mTargetDragContext); // set the default just in case nothing matches below if (gdkAction & GDK_ACTION_DEFAULT) action = nsIDragService::DRAGDROP_ACTION_MOVE; // first check to see if move is set if (gdkAction & GDK_ACTION_MOVE) action = nsIDragService::DRAGDROP_ACTION_MOVE; // then fall to the others else if (gdkAction & GDK_ACTION_LINK) action = nsIDragService::DRAGDROP_ACTION_LINK; // copy is ctrl else if (gdkAction & GDK_ACTION_COPY) action = nsIDragService::DRAGDROP_ACTION_COPY; // update the drag information SetDragAction(action); } void nsDragService::DispatchMotionEvents() { mCanDrop = false; FireDragEventAtSource(NS_DRAGDROP_DRAG); mTargetWindow-> DispatchDragEvent(NS_DRAGDROP_OVER, mTargetWindowPoint, mTargetTime); } // Returns true if the drop was successful gboolean nsDragService::DispatchDropEvent() { // We need to check IsDestroyed here because the nsRefPtr // only protects this from being deleted, it does NOT protect // against nsView::~nsView() calling Destroy() on it, bug 378273. if (mTargetWindow->IsDestroyed()) return FALSE; uint32_t msg = mCanDrop ? NS_DRAGDROP_DROP : NS_DRAGDROP_EXIT; mTargetWindow->DispatchDragEvent(msg, mTargetWindowPoint, mTargetTime); return mCanDrop; }