// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "ui/base/clipboard/clipboard_aurax11.h" #include #include #include #include #include "base/basictypes.h" #include "base/files/file_path.h" #include "base/logging.h" #include "base/memory/ref_counted_memory.h" #include "base/memory/scoped_ptr.h" #include "base/memory/singleton.h" #include "base/metrics/histogram.h" #include "base/stl_util.h" #include "base/strings/utf_string_conversions.h" #include "third_party/skia/include/core/SkBitmap.h" #include "ui/base/clipboard/custom_data_helper.h" #include "ui/base/x/selection_owner.h" #include "ui/base/x/selection_requestor.h" #include "ui/base/x/selection_utils.h" #include "ui/base/x/x11_util.h" #include "ui/events/platform/platform_event_dispatcher.h" #include "ui/events/platform/platform_event_observer.h" #include "ui/events/platform/platform_event_source.h" #include "ui/gfx/codec/png_codec.h" #include "ui/gfx/geometry/size.h" #include "ui/gfx/x/x11_atom_cache.h" namespace ui { namespace { const char kClipboard[] = "CLIPBOARD"; const char kClipboardManager[] = "CLIPBOARD_MANAGER"; const char kMimeTypeFilename[] = "chromium/filename"; const char kMimeTypePepperCustomData[] = "chromium/x-pepper-custom-data"; const char kMimeTypeWebkitSmartPaste[] = "chromium/x-webkit-paste"; const char kSaveTargets[] = "SAVE_TARGETS"; const char kTargets[] = "TARGETS"; const char* kAtomsToCache[] = { kClipboard, kClipboardManager, Clipboard::kMimeTypePNG, kMimeTypeFilename, kMimeTypeMozillaURL, kMimeTypeWebkitSmartPaste, kSaveTargets, kString, kTargets, kText, kUtf8String, NULL }; /////////////////////////////////////////////////////////////////////////////// // Uses the XFixes API to provide sequence numbers for GetSequenceNumber(). class SelectionChangeObserver : public ui::PlatformEventObserver { public: static SelectionChangeObserver* GetInstance(); uint64 clipboard_sequence_number() const { return clipboard_sequence_number_; } uint64 primary_sequence_number() const { return primary_sequence_number_; } private: friend struct DefaultSingletonTraits; SelectionChangeObserver(); ~SelectionChangeObserver() override; // ui::PlatformEventObserver: void WillProcessEvent(const ui::PlatformEvent& event) override; void DidProcessEvent(const ui::PlatformEvent& event) override {} int event_base_; Atom clipboard_atom_; uint64 clipboard_sequence_number_; uint64 primary_sequence_number_; DISALLOW_COPY_AND_ASSIGN(SelectionChangeObserver); }; SelectionChangeObserver::SelectionChangeObserver() : event_base_(-1), clipboard_atom_(None), clipboard_sequence_number_(0), primary_sequence_number_(0) { int ignored; if (XFixesQueryExtension(gfx::GetXDisplay(), &event_base_, &ignored)) { clipboard_atom_ = XInternAtom(gfx::GetXDisplay(), kClipboard, false); XFixesSelectSelectionInput(gfx::GetXDisplay(), GetX11RootWindow(), clipboard_atom_, XFixesSetSelectionOwnerNotifyMask | XFixesSelectionWindowDestroyNotifyMask | XFixesSelectionClientCloseNotifyMask); // This seems to be semi-optional. For some reason, registering for any // selection notify events seems to subscribe us to events for both the // primary and the clipboard buffers. Register anyway just to be safe. XFixesSelectSelectionInput(gfx::GetXDisplay(), GetX11RootWindow(), XA_PRIMARY, XFixesSetSelectionOwnerNotifyMask | XFixesSelectionWindowDestroyNotifyMask | XFixesSelectionClientCloseNotifyMask); ui::PlatformEventSource::GetInstance()->AddPlatformEventObserver(this); } } SelectionChangeObserver::~SelectionChangeObserver() { // We are a singleton; we will outlive the event source. } SelectionChangeObserver* SelectionChangeObserver::GetInstance() { return Singleton::get(); } void SelectionChangeObserver::WillProcessEvent(const ui::PlatformEvent& event) { if (event->type == event_base_ + XFixesSelectionNotify) { XFixesSelectionNotifyEvent* ev = reinterpret_cast(event); if (ev->selection == clipboard_atom_) { clipboard_sequence_number_++; } else if (ev->selection == XA_PRIMARY) { primary_sequence_number_++; } else { DLOG(ERROR) << "Unexpected selection atom: " << ev->selection; } } } /////////////////////////////////////////////////////////////////////////////// // Represents a list of possible return types. Copy constructable. class TargetList { public: typedef std::vector< ::Atom> AtomVector; TargetList(const AtomVector& target_list, X11AtomCache* atom_cache); const AtomVector& target_list() { return target_list_; } bool ContainsText() const; bool ContainsFormat(const Clipboard::FormatType& format_type) const; bool ContainsAtom(::Atom atom) const; private: AtomVector target_list_; X11AtomCache* atom_cache_; }; TargetList::TargetList(const AtomVector& target_list, X11AtomCache* atom_cache) : target_list_(target_list), atom_cache_(atom_cache) { } bool TargetList::ContainsText() const { std::vector< ::Atom> atoms = GetTextAtomsFrom(atom_cache_); for (std::vector< ::Atom>::const_iterator it = atoms.begin(); it != atoms.end(); ++it) { if (ContainsAtom(*it)) return true; } return false; } bool TargetList::ContainsFormat( const Clipboard::FormatType& format_type) const { ::Atom atom = atom_cache_->GetAtom(format_type.ToString().c_str()); return ContainsAtom(atom); } bool TargetList::ContainsAtom(::Atom atom) const { return find(target_list_.begin(), target_list_.end(), atom) != target_list_.end(); } } // namespace /////////////////////////////////////////////////////////////////////////////// // I would love for the FormatType to really be a wrapper around an X11 ::Atom, // but there are a few problems. Chromeos unit tests spawn a new X11 server for // each test, so Atom numeric values don't persist across tests. We could still // maybe deal with that if we didn't have static accessor methods everywhere. Clipboard::FormatType::FormatType() { } Clipboard::FormatType::FormatType(const std::string& native_format) : data_(native_format) { } Clipboard::FormatType::~FormatType() { } std::string Clipboard::FormatType::Serialize() const { return data_; } // static Clipboard::FormatType Clipboard::FormatType::Deserialize( const std::string& serialization) { return FormatType(serialization); } bool Clipboard::FormatType::operator<(const FormatType& other) const { return data_ < other.data_; } bool Clipboard::FormatType::Equals(const FormatType& other) const { return data_ == other.data_; } /////////////////////////////////////////////////////////////////////////////// // ClipboardAuraX11::AuraX11Details // Private implementation of our X11 integration. Keeps X11 headers out of the // majority of chrome, which break badly. class ClipboardAuraX11::AuraX11Details : public PlatformEventDispatcher { public: AuraX11Details(); ~AuraX11Details() override; X11AtomCache* atom_cache() { return &atom_cache_; } // Returns the X11 type that we pass to various XSelection functions for the // given type. ::Atom LookupSelectionForClipboardType(ClipboardType type) const; // Returns the X11 type that we pass to various XSelection functions for // CLIPBOARD_TYPE_COPY_PASTE. ::Atom GetCopyPasteSelection() const; // Finds the SelectionFormatMap for the incoming selection atom. const SelectionFormatMap& LookupStorageForAtom(::Atom atom); // As we need to collect all the data types before we tell X11 that we own a // particular selection, we create a temporary clipboard mapping that // InsertMapping writes to. Then we commit it in TakeOwnershipOfSelection, // where we save it in one of the clipboard data slots. void CreateNewClipboardData(); // Inserts a mapping into clipboard_data_. void InsertMapping(const std::string& key, const scoped_refptr& memory); // Moves the temporary |clipboard_data_| to the long term data storage for // |type|. void TakeOwnershipOfSelection(ClipboardType type); // Returns the first of |types| offered by the current selection holder in // |data_out|, or returns NULL if none of those types are available. // // If the selection holder is us, this call is synchronous and we pull // the data out of |clipboard_selection_| or |primary_selection_|. If the // selection holder is some other window, we spin up a nested message loop // and do the asynchronous dance with whatever application is holding the // selection. ui::SelectionData RequestAndWaitForTypes(ClipboardType type, const std::vector< ::Atom>& types); // Retrieves the list of possible data types the current clipboard owner has. // // If the selection holder is us, this is synchronous, otherwise this runs a // blocking message loop. TargetList WaitAndGetTargetsList(ClipboardType type); // Returns a list of all text atoms that we handle. std::vector< ::Atom> GetTextAtoms() const; // Returns a vector with a |format| converted to an X11 atom. std::vector< ::Atom> GetAtomsForFormat(const Clipboard::FormatType& format); // Clears a certain clipboard type, whether we own it or not. void Clear(ClipboardType type); // If we own the CLIPBOARD selection, requests the clipboard manager to take // ownership of it. void StoreCopyPasteDataAndWait(); private: // PlatformEventDispatcher: bool CanDispatchEvent(const PlatformEvent& event) override; uint32_t DispatchEvent(const PlatformEvent& event) override; // Our X11 state. Display* x_display_; ::Window x_root_window_; // Input-only window used as a selection owner. ::Window x_window_; X11AtomCache atom_cache_; // Object which requests and receives selection data. SelectionRequestor selection_requestor_; // Temporary target map that we write to during DispatchObects. SelectionFormatMap clipboard_data_; // Objects which offer selection data to other windows. SelectionOwner clipboard_owner_; SelectionOwner primary_owner_; DISALLOW_COPY_AND_ASSIGN(AuraX11Details); }; ClipboardAuraX11::AuraX11Details::AuraX11Details() : x_display_(gfx::GetXDisplay()), x_root_window_(DefaultRootWindow(x_display_)), x_window_(XCreateWindow(x_display_, x_root_window_, -100, -100, 10, 10, // x, y, width, height 0, // border width CopyFromParent, // depth InputOnly, CopyFromParent, // visual 0, NULL)), atom_cache_(x_display_, kAtomsToCache), selection_requestor_(x_display_, x_window_, this), clipboard_owner_(x_display_, x_window_, atom_cache_.GetAtom(kClipboard)), primary_owner_(x_display_, x_window_, XA_PRIMARY) { // We don't know all possible MIME types at compile time. atom_cache_.allow_uncached_atoms(); XStoreName(x_display_, x_window_, "Chromium clipboard"); XSelectInput(x_display_, x_window_, PropertyChangeMask); if (PlatformEventSource::GetInstance()) PlatformEventSource::GetInstance()->AddPlatformEventDispatcher(this); } ClipboardAuraX11::AuraX11Details::~AuraX11Details() { if (PlatformEventSource::GetInstance()) PlatformEventSource::GetInstance()->RemovePlatformEventDispatcher(this); XDestroyWindow(x_display_, x_window_); } ::Atom ClipboardAuraX11::AuraX11Details::LookupSelectionForClipboardType( ClipboardType type) const { if (type == CLIPBOARD_TYPE_COPY_PASTE) return GetCopyPasteSelection(); return XA_PRIMARY; } ::Atom ClipboardAuraX11::AuraX11Details::GetCopyPasteSelection() const { return atom_cache_.GetAtom(kClipboard); } const SelectionFormatMap& ClipboardAuraX11::AuraX11Details::LookupStorageForAtom(::Atom atom) { if (atom == XA_PRIMARY) return primary_owner_.selection_format_map(); DCHECK_EQ(GetCopyPasteSelection(), atom); return clipboard_owner_.selection_format_map(); } void ClipboardAuraX11::AuraX11Details::CreateNewClipboardData() { clipboard_data_ = SelectionFormatMap(); } void ClipboardAuraX11::AuraX11Details::InsertMapping( const std::string& key, const scoped_refptr& memory) { ::Atom atom_key = atom_cache_.GetAtom(key.c_str()); clipboard_data_.Insert(atom_key, memory); } void ClipboardAuraX11::AuraX11Details::TakeOwnershipOfSelection( ClipboardType type) { if (type == CLIPBOARD_TYPE_COPY_PASTE) return clipboard_owner_.TakeOwnershipOfSelection(clipboard_data_); else return primary_owner_.TakeOwnershipOfSelection(clipboard_data_); } SelectionData ClipboardAuraX11::AuraX11Details::RequestAndWaitForTypes( ClipboardType type, const std::vector<::Atom>& types) { ::Atom selection_name = LookupSelectionForClipboardType(type); if (XGetSelectionOwner(x_display_, selection_name) == x_window_) { // We can local fastpath instead of playing the nested message loop game // with the X server. const SelectionFormatMap& format_map = LookupStorageForAtom(selection_name); for (std::vector< ::Atom>::const_iterator it = types.begin(); it != types.end(); ++it) { SelectionFormatMap::const_iterator format_map_it = format_map.find(*it); if (format_map_it != format_map.end()) return SelectionData(format_map_it->first, format_map_it->second); } } else { TargetList targets = WaitAndGetTargetsList(type); ::Atom selection_name = LookupSelectionForClipboardType(type); std::vector< ::Atom> intersection; ui::GetAtomIntersection(types, targets.target_list(), &intersection); return selection_requestor_.RequestAndWaitForTypes(selection_name, intersection); } return SelectionData(); } TargetList ClipboardAuraX11::AuraX11Details::WaitAndGetTargetsList( ClipboardType type) { ::Atom selection_name = LookupSelectionForClipboardType(type); std::vector< ::Atom> out; if (XGetSelectionOwner(x_display_, selection_name) == x_window_) { // We can local fastpath and return the list of local targets. const SelectionFormatMap& format_map = LookupStorageForAtom(selection_name); for (SelectionFormatMap::const_iterator it = format_map.begin(); it != format_map.end(); ++it) { out.push_back(it->first); } } else { scoped_refptr data; size_t out_data_items = 0; ::Atom out_type = None; if (selection_requestor_.PerformBlockingConvertSelection( selection_name, atom_cache_.GetAtom(kTargets), &data, &out_data_items, &out_type)) { // Some apps return an |out_type| of "TARGETS". (crbug.com/377893) if (out_type == XA_ATOM || out_type == atom_cache_.GetAtom(kTargets)) { const ::Atom* atom_array = reinterpret_cast(data->front()); for (size_t i = 0; i < out_data_items; ++i) out.push_back(atom_array[i]); } } else { // There was no target list. Most Java apps doesn't offer a TARGETS list, // even though they AWT to. They will offer individual text types if you // ask. If this is the case we attempt to make sense of the contents as // text. This is pretty unfortunate since it means we have to actually // copy the data to see if it is available, but at least this path // shouldn't be hit for conforming programs. std::vector< ::Atom> types = GetTextAtoms(); for (std::vector< ::Atom>::const_iterator it = types.begin(); it != types.end(); ++it) { ::Atom type = None; if (selection_requestor_.PerformBlockingConvertSelection(selection_name, *it, NULL, NULL, &type) && type == *it) { out.push_back(*it); } } } } return TargetList(out, &atom_cache_); } std::vector<::Atom> ClipboardAuraX11::AuraX11Details::GetTextAtoms() const { return GetTextAtomsFrom(&atom_cache_); } std::vector<::Atom> ClipboardAuraX11::AuraX11Details::GetAtomsForFormat( const Clipboard::FormatType& format) { std::vector< ::Atom> atoms; atoms.push_back(atom_cache_.GetAtom(format.ToString().c_str())); return atoms; } void ClipboardAuraX11::AuraX11Details::Clear(ClipboardType type) { if (type == CLIPBOARD_TYPE_COPY_PASTE) clipboard_owner_.ClearSelectionOwner(); else primary_owner_.ClearSelectionOwner(); } void ClipboardAuraX11::AuraX11Details::StoreCopyPasteDataAndWait() { ::Atom selection = GetCopyPasteSelection(); if (XGetSelectionOwner(x_display_, selection) != x_window_) return; ::Atom clipboard_manager_atom = atom_cache_.GetAtom(kClipboardManager); if (XGetSelectionOwner(x_display_, clipboard_manager_atom) == None) return; const SelectionFormatMap& format_map = LookupStorageForAtom(selection); if (format_map.size() == 0) return; std::vector targets = format_map.GetTypes(); base::TimeTicks start = base::TimeTicks::Now(); selection_requestor_.PerformBlockingConvertSelectionWithParameter( atom_cache_.GetAtom(kClipboardManager), atom_cache_.GetAtom(kSaveTargets), targets); UMA_HISTOGRAM_TIMES("Clipboard.X11StoreCopyPasteDuration", base::TimeTicks::Now() - start); } bool ClipboardAuraX11::AuraX11Details::CanDispatchEvent( const PlatformEvent& event) { if (event->xany.window == x_window_) return true; if (event->type == PropertyNotify) { return primary_owner_.CanDispatchPropertyEvent(*event) || clipboard_owner_.CanDispatchPropertyEvent(*event) || selection_requestor_.CanDispatchPropertyEvent(*event); } return false; } uint32_t ClipboardAuraX11::AuraX11Details::DispatchEvent( const PlatformEvent& xev) { switch (xev->type) { case SelectionRequest: { if (xev->xselectionrequest.selection == XA_PRIMARY) { primary_owner_.OnSelectionRequest(*xev); } else { // We should not get requests for the CLIPBOARD_MANAGER selection // because we never take ownership of it. DCHECK_EQ(GetCopyPasteSelection(), xev->xselectionrequest.selection); clipboard_owner_.OnSelectionRequest(*xev); } break; } case SelectionNotify: { selection_requestor_.OnSelectionNotify(*xev); break; } case SelectionClear: { if (xev->xselectionclear.selection == XA_PRIMARY) { primary_owner_.OnSelectionClear(*xev); } else { // We should not get requests for the CLIPBOARD_MANAGER selection // because we never take ownership of it. DCHECK_EQ(GetCopyPasteSelection(), xev->xselection.selection); clipboard_owner_.OnSelectionClear(*xev); } break; } case PropertyNotify: { if (primary_owner_.CanDispatchPropertyEvent(*xev)) primary_owner_.OnPropertyEvent(*xev); if (clipboard_owner_.CanDispatchPropertyEvent(*xev)) clipboard_owner_.OnPropertyEvent(*xev); if (selection_requestor_.CanDispatchPropertyEvent(*xev)) selection_requestor_.OnPropertyEvent(*xev); break; } default: break; } return POST_DISPATCH_NONE; } /////////////////////////////////////////////////////////////////////////////// // Various predefined FormatTypes. // static Clipboard::FormatType Clipboard::GetFormatType( const std::string& format_string) { return FormatType::Deserialize(format_string); } // static const Clipboard::FormatType& Clipboard::GetUrlFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypeURIList)); return type; } // static const Clipboard::FormatType& Clipboard::GetUrlWFormatType() { return GetUrlFormatType(); } // static const Clipboard::FormatType& Clipboard::GetPlainTextFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypeText)); return type; } // static const Clipboard::FormatType& Clipboard::GetPlainTextWFormatType() { return GetPlainTextFormatType(); } // static const Clipboard::FormatType& Clipboard::GetFilenameFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypeFilename)); return type; } // static const Clipboard::FormatType& Clipboard::GetFilenameWFormatType() { return Clipboard::GetFilenameFormatType(); } // static const Clipboard::FormatType& Clipboard::GetHtmlFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypeHTML)); return type; } // static const Clipboard::FormatType& Clipboard::GetRtfFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypeRTF)); return type; } // static const Clipboard::FormatType& Clipboard::GetBitmapFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypePNG)); return type; } // static const Clipboard::FormatType& Clipboard::GetWebKitSmartPasteFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypeWebkitSmartPaste)); return type; } // static const Clipboard::FormatType& Clipboard::GetWebCustomDataFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypeWebCustomData)); return type; } // static const Clipboard::FormatType& Clipboard::GetPepperCustomDataFormatType() { CR_DEFINE_STATIC_LOCAL(FormatType, type, (kMimeTypePepperCustomData)); return type; } /////////////////////////////////////////////////////////////////////////////// // Clipboard factory method. Clipboard* Clipboard::Create() { return new ClipboardAuraX11; } /////////////////////////////////////////////////////////////////////////////// // ClipboardAuraX11 ClipboardAuraX11::ClipboardAuraX11() : aurax11_details_(new AuraX11Details) { DCHECK(CalledOnValidThread()); } ClipboardAuraX11::~ClipboardAuraX11() { DCHECK(CalledOnValidThread()); aurax11_details_->StoreCopyPasteDataAndWait(); } uint64 ClipboardAuraX11::GetSequenceNumber(ClipboardType type) const { DCHECK(CalledOnValidThread()); if (type == CLIPBOARD_TYPE_COPY_PASTE) return SelectionChangeObserver::GetInstance()->clipboard_sequence_number(); else return SelectionChangeObserver::GetInstance()->primary_sequence_number(); } bool ClipboardAuraX11::IsFormatAvailable(const FormatType& format, ClipboardType type) const { DCHECK(CalledOnValidThread()); DCHECK(IsSupportedClipboardType(type)); TargetList target_list = aurax11_details_->WaitAndGetTargetsList(type); if (format.Equals(GetPlainTextFormatType()) || format.Equals(GetUrlFormatType())) { return target_list.ContainsText(); } return target_list.ContainsFormat(format); } void ClipboardAuraX11::Clear(ClipboardType type) { DCHECK(CalledOnValidThread()); DCHECK(IsSupportedClipboardType(type)); aurax11_details_->Clear(type); } void ClipboardAuraX11::ReadAvailableTypes(ClipboardType type, std::vector* types, bool* contains_filenames) const { DCHECK(CalledOnValidThread()); if (!types || !contains_filenames) { NOTREACHED(); return; } TargetList target_list = aurax11_details_->WaitAndGetTargetsList(type); types->clear(); if (target_list.ContainsText()) types->push_back(base::UTF8ToUTF16(kMimeTypeText)); if (target_list.ContainsFormat(GetHtmlFormatType())) types->push_back(base::UTF8ToUTF16(kMimeTypeHTML)); if (target_list.ContainsFormat(GetRtfFormatType())) types->push_back(base::UTF8ToUTF16(kMimeTypeRTF)); if (target_list.ContainsFormat(GetBitmapFormatType())) types->push_back(base::UTF8ToUTF16(kMimeTypePNG)); *contains_filenames = false; SelectionData data(aurax11_details_->RequestAndWaitForTypes( type, aurax11_details_->GetAtomsForFormat(GetWebCustomDataFormatType()))); if (data.IsValid()) ReadCustomDataTypes(data.GetData(), data.GetSize(), types); } void ClipboardAuraX11::ReadText(ClipboardType type, base::string16* result) const { DCHECK(CalledOnValidThread()); SelectionData data(aurax11_details_->RequestAndWaitForTypes( type, aurax11_details_->GetTextAtoms())); if (data.IsValid()) { std::string text = data.GetText(); *result = base::UTF8ToUTF16(text); } } void ClipboardAuraX11::ReadAsciiText(ClipboardType type, std::string* result) const { DCHECK(CalledOnValidThread()); SelectionData data(aurax11_details_->RequestAndWaitForTypes( type, aurax11_details_->GetTextAtoms())); if (data.IsValid()) result->assign(data.GetText()); } // TODO(estade): handle different charsets. // TODO(port): set *src_url. void ClipboardAuraX11::ReadHTML(ClipboardType type, base::string16* markup, std::string* src_url, uint32* fragment_start, uint32* fragment_end) const { DCHECK(CalledOnValidThread()); markup->clear(); if (src_url) src_url->clear(); *fragment_start = 0; *fragment_end = 0; SelectionData data(aurax11_details_->RequestAndWaitForTypes( type, aurax11_details_->GetAtomsForFormat(GetHtmlFormatType()))); if (data.IsValid()) { *markup = data.GetHtml(); *fragment_start = 0; DCHECK(markup->length() <= kuint32max); *fragment_end = static_cast(markup->length()); } } void ClipboardAuraX11::ReadRTF(ClipboardType type, std::string* result) const { DCHECK(CalledOnValidThread()); SelectionData data(aurax11_details_->RequestAndWaitForTypes( type, aurax11_details_->GetAtomsForFormat(GetRtfFormatType()))); if (data.IsValid()) data.AssignTo(result); } SkBitmap ClipboardAuraX11::ReadImage(ClipboardType type) const { DCHECK(CalledOnValidThread()); SelectionData data(aurax11_details_->RequestAndWaitForTypes( type, aurax11_details_->GetAtomsForFormat(GetBitmapFormatType()))); if (data.IsValid()) { SkBitmap bitmap; if (gfx::PNGCodec::Decode(data.GetData(), data.GetSize(), &bitmap)) return SkBitmap(bitmap); } return SkBitmap(); } void ClipboardAuraX11::ReadCustomData(ClipboardType clipboard_type, const base::string16& type, base::string16* result) const { DCHECK(CalledOnValidThread()); SelectionData data(aurax11_details_->RequestAndWaitForTypes( clipboard_type, aurax11_details_->GetAtomsForFormat(GetWebCustomDataFormatType()))); if (data.IsValid()) ReadCustomDataForType(data.GetData(), data.GetSize(), type, result); } void ClipboardAuraX11::ReadBookmark(base::string16* title, std::string* url) const { DCHECK(CalledOnValidThread()); // TODO(erg): This was left NOTIMPLEMENTED() in the gtk port too. NOTIMPLEMENTED(); } void ClipboardAuraX11::ReadData(const FormatType& format, std::string* result) const { DCHECK(CalledOnValidThread()); SelectionData data(aurax11_details_->RequestAndWaitForTypes( CLIPBOARD_TYPE_COPY_PASTE, aurax11_details_->GetAtomsForFormat(format))); if (data.IsValid()) data.AssignTo(result); } void ClipboardAuraX11::WriteObjects(ClipboardType type, const ObjectMap& objects) { DCHECK(CalledOnValidThread()); DCHECK(IsSupportedClipboardType(type)); aurax11_details_->CreateNewClipboardData(); for (ObjectMap::const_iterator iter = objects.begin(); iter != objects.end(); ++iter) { DispatchObject(static_cast(iter->first), iter->second); } aurax11_details_->TakeOwnershipOfSelection(type); if (type == CLIPBOARD_TYPE_COPY_PASTE) { ObjectMap::const_iterator text_iter = objects.find(CBF_TEXT); if (text_iter != objects.end()) { aurax11_details_->CreateNewClipboardData(); const ObjectMapParams& params_vector = text_iter->second; if (params_vector.size()) { const ObjectMapParam& char_vector = params_vector[0]; if (char_vector.size()) WriteText(&char_vector.front(), char_vector.size()); } aurax11_details_->TakeOwnershipOfSelection(CLIPBOARD_TYPE_SELECTION); } } } void ClipboardAuraX11::WriteText(const char* text_data, size_t text_len) { std::string str(text_data, text_len); scoped_refptr mem( base::RefCountedString::TakeString(&str)); aurax11_details_->InsertMapping(kMimeTypeText, mem); aurax11_details_->InsertMapping(kText, mem); aurax11_details_->InsertMapping(kString, mem); aurax11_details_->InsertMapping(kUtf8String, mem); } void ClipboardAuraX11::WriteHTML(const char* markup_data, size_t markup_len, const char* url_data, size_t url_len) { // TODO(estade): We need to expand relative links with |url_data|. static const char* html_prefix = ""; std::string data = html_prefix; data += std::string(markup_data, markup_len); // Some programs expect NULL-terminated data. See http://crbug.com/42624 data += '\0'; scoped_refptr mem( base::RefCountedString::TakeString(&data)); aurax11_details_->InsertMapping(kMimeTypeHTML, mem); } void ClipboardAuraX11::WriteRTF(const char* rtf_data, size_t data_len) { WriteData(GetRtfFormatType(), rtf_data, data_len); } void ClipboardAuraX11::WriteBookmark(const char* title_data, size_t title_len, const char* url_data, size_t url_len) { // Write as a mozilla url (UTF16: URL, newline, title). base::string16 url = base::UTF8ToUTF16(std::string(url_data, url_len) + "\n"); base::string16 title = base::UTF8ToUTF16(base::StringPiece(title_data, title_len)); std::vector data; ui::AddString16ToVector(url, &data); ui::AddString16ToVector(title, &data); scoped_refptr mem( base::RefCountedBytes::TakeVector(&data)); aurax11_details_->InsertMapping(kMimeTypeMozillaURL, mem); } // Write an extra flavor that signifies WebKit was the last to modify the // pasteboard. This flavor has no data. void ClipboardAuraX11::WriteWebSmartPaste() { std::string empty; aurax11_details_->InsertMapping( kMimeTypeWebkitSmartPaste, scoped_refptr( base::RefCountedString::TakeString(&empty))); } void ClipboardAuraX11::WriteBitmap(const SkBitmap& bitmap) { // Encode the bitmap as a PNG for transport. std::vector output; if (gfx::PNGCodec::FastEncodeBGRASkBitmap(bitmap, false, &output)) { aurax11_details_->InsertMapping(kMimeTypePNG, base::RefCountedBytes::TakeVector( &output)); } } void ClipboardAuraX11::WriteData(const FormatType& format, const char* data_data, size_t data_len) { // We assume that certain mapping types are only written by trusted code. // Therefore we must upkeep their integrity. if (format.Equals(GetBitmapFormatType())) return; std::vector bytes(data_data, data_data + data_len); scoped_refptr mem( base::RefCountedBytes::TakeVector(&bytes)); aurax11_details_->InsertMapping(format.ToString(), mem); } } // namespace ui