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|
// 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.h"
#include <X11/extensions/Xfixes.h>
#include <X11/Xatom.h>
#include <list>
#include <set>
#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/message_loop/message_pump_observer.h"
#include "base/message_loop/message_pump_x11.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/gfx/codec/png_codec.h"
#include "ui/gfx/size.h"
#include "ui/gfx/x/x11_atom_cache.h"
namespace ui {
namespace {
const char kClipboard[] = "CLIPBOARD";
const char kMimeTypeFilename[] = "chromium/filename";
const char kMimeTypePepperCustomData[] = "chromium/x-pepper-custom-data";
const char kMimeTypeWebkitSmartPaste[] = "chromium/x-webkit-paste";
const char kTargets[] = "TARGETS";
const char* kAtomsToCache[] = {
kClipboard,
Clipboard::kMimeTypePNG,
kMimeTypeFilename,
kMimeTypeMozillaURL,
kMimeTypeWebkitSmartPaste,
kString,
kTargets,
kText,
kUtf8String,
NULL
};
///////////////////////////////////////////////////////////////////////////////
// Uses the XFixes API to provide sequence numbers for GetSequenceNumber().
class SelectionChangeObserver : public base::MessagePumpObserver {
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();
virtual ~SelectionChangeObserver();
// Overridden from base::MessagePumpObserver:
virtual base::EventStatus WillProcessEvent(
const base::NativeEvent& event) OVERRIDE;
virtual void DidProcessEvent(
const base::NativeEvent& 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);
base::MessagePumpX11::Current()->AddObserver(this);
}
}
SelectionChangeObserver::~SelectionChangeObserver() {
// We are a singleton; we will outlive our message pump.
}
SelectionChangeObserver* SelectionChangeObserver::GetInstance() {
return Singleton<SelectionChangeObserver>::get();
}
base::EventStatus SelectionChangeObserver::WillProcessEvent(
const base::NativeEvent& event) {
if (event->type == event_base_ + XFixesSelectionNotify) {
XFixesSelectionNotifyEvent* ev =
reinterpret_cast<XFixesSelectionNotifyEvent*>(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;
}
}
return base::EVENT_CONTINUE;
}
///////////////////////////////////////////////////////////////////////////////
// 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_;
}
///////////////////////////////////////////////////////////////////////////////
// Clipboard::AuraX11Details
// Private implementation of our X11 integration. Keeps X11 headers out of the
// majority of chrome, which break badly.
class Clipboard::AuraX11Details : public base::MessagePumpDispatcher {
public:
AuraX11Details();
virtual ~AuraX11Details();
X11AtomCache* atom_cache() { return &atom_cache_; }
// Returns the X11 type that we pass to various XSelection functions for the
// given buffer.
::Atom LookupSelectionForBuffer(Buffer buffer) const;
// Returns the object which is responsible for communication on |buffer|.
SelectionRequestor* GetSelectionRequestorForBuffer(Buffer buffer);
// 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<base::RefCountedMemory>& memory);
// Moves the temporary |clipboard_data_| to the long term data storage for
// |buffer|.
void TakeOwnershipOfSelection(Buffer buffer);
// 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(Buffer buffer,
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(Buffer buffer);
// 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 data buffer.
void Clear(Buffer buffer);
private:
// Overridden from base::MessagePumpDispatcher:
virtual bool Dispatch(const base::NativeEvent& 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_;
// Objects which request and receive selection data.
SelectionRequestor clipboard_requestor_;
SelectionRequestor primary_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);
};
Clipboard::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),
clipboard_requestor_(x_display_, x_window_,
atom_cache_.GetAtom(kClipboard)),
primary_requestor_(x_display_, x_window_, XA_PRIMARY),
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);
base::MessagePumpX11::Current()->AddDispatcherForWindow(this, x_window_);
}
Clipboard::AuraX11Details::~AuraX11Details() {
base::MessagePumpX11::Current()->RemoveDispatcherForWindow(x_window_);
XDestroyWindow(x_display_, x_window_);
}
::Atom Clipboard::AuraX11Details::LookupSelectionForBuffer(
Buffer buffer) const {
if (buffer == BUFFER_STANDARD)
return atom_cache_.GetAtom(kClipboard);
return XA_PRIMARY;
}
const SelectionFormatMap& Clipboard::AuraX11Details::LookupStorageForAtom(
::Atom atom) {
if (atom == XA_PRIMARY)
return primary_owner_.selection_format_map();
DCHECK_EQ(atom_cache_.GetAtom(kClipboard), atom);
return clipboard_owner_.selection_format_map();
}
ui::SelectionRequestor*
Clipboard::AuraX11Details::GetSelectionRequestorForBuffer(Buffer buffer) {
if (buffer == BUFFER_STANDARD)
return &clipboard_requestor_;
else
return &primary_requestor_;
}
void Clipboard::AuraX11Details::CreateNewClipboardData() {
clipboard_data_ = SelectionFormatMap();
}
void Clipboard::AuraX11Details::InsertMapping(
const std::string& key,
const scoped_refptr<base::RefCountedMemory>& memory) {
::Atom atom_key = atom_cache_.GetAtom(key.c_str());
clipboard_data_.Insert(atom_key, memory);
}
void Clipboard::AuraX11Details::TakeOwnershipOfSelection(Buffer buffer) {
if (buffer == BUFFER_STANDARD)
return clipboard_owner_.TakeOwnershipOfSelection(clipboard_data_);
else
return primary_owner_.TakeOwnershipOfSelection(clipboard_data_);
}
SelectionData Clipboard::AuraX11Details::RequestAndWaitForTypes(
Buffer buffer,
const std::vector< ::Atom>& types) {
::Atom selection_name = LookupSelectionForBuffer(buffer);
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(buffer);
SelectionRequestor* receiver = GetSelectionRequestorForBuffer(buffer);
std::vector< ::Atom> intersection;
ui::GetAtomIntersection(targets.target_list(), types, &intersection);
return receiver->RequestAndWaitForTypes(intersection);
}
return SelectionData();
}
TargetList Clipboard::AuraX11Details::WaitAndGetTargetsList(
Buffer buffer) {
::Atom selection_name = LookupSelectionForBuffer(buffer);
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<base::RefCountedMemory> data;
size_t out_data_items = 0;
::Atom out_type = None;
SelectionRequestor* receiver = GetSelectionRequestorForBuffer(buffer);
if (receiver->PerformBlockingConvertSelection(atom_cache_.GetAtom(kTargets),
&data,
NULL,
&out_data_items,
&out_type)) {
const ::Atom* atom_array = reinterpret_cast<const ::Atom*>(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 (receiver->PerformBlockingConvertSelection(*it,
NULL,
NULL,
NULL,
&type) &&
type == *it) {
out.push_back(*it);
}
}
}
}
return TargetList(out, &atom_cache_);
}
std::vector< ::Atom> Clipboard::AuraX11Details::GetTextAtoms() const {
return GetTextAtomsFrom(&atom_cache_);
}
std::vector< ::Atom> Clipboard::AuraX11Details::GetAtomsForFormat(
const Clipboard::FormatType& format) {
std::vector< ::Atom> atoms;
atoms.push_back(atom_cache_.GetAtom(format.ToString().c_str()));
return atoms;
}
void Clipboard::AuraX11Details::Clear(Buffer buffer) {
if (buffer == BUFFER_STANDARD)
return clipboard_owner_.Clear();
else
return primary_owner_.Clear();
}
bool Clipboard::AuraX11Details::Dispatch(const base::NativeEvent& event) {
XEvent* xev = event;
switch (xev->type) {
case SelectionRequest: {
if (xev->xselectionrequest.selection == XA_PRIMARY)
primary_owner_.OnSelectionRequest(xev->xselectionrequest);
else
clipboard_owner_.OnSelectionRequest(xev->xselectionrequest);
break;
}
case SelectionNotify: {
if (xev->xselection.selection == XA_PRIMARY)
primary_requestor_.OnSelectionNotify(xev->xselection);
else
clipboard_requestor_.OnSelectionNotify(xev->xselection);
break;
}
case SelectionClear: {
if (xev->xselectionclear.selection == XA_PRIMARY)
primary_owner_.OnSelectionClear(xev->xselectionclear);
else
clipboard_owner_.OnSelectionClear(xev->xselectionclear);
break;
}
default:
break;
}
return true;
}
///////////////////////////////////////////////////////////////////////////////
// Clipboard
Clipboard::Clipboard()
: aurax11_details_(new AuraX11Details) {
DCHECK(CalledOnValidThread());
}
Clipboard::~Clipboard() {
DCHECK(CalledOnValidThread());
// TODO(erg): We need to do whatever the equivalent of
// gtk_clipboard_store(clipboard_) is here. When we shut down, we want the
// current selection to live on.
}
void Clipboard::WriteObjects(Buffer buffer, const ObjectMap& objects) {
DCHECK(CalledOnValidThread());
DCHECK(IsValidBuffer(buffer));
aurax11_details_->CreateNewClipboardData();
for (ObjectMap::const_iterator iter = objects.begin();
iter != objects.end(); ++iter) {
DispatchObject(static_cast<ObjectType>(iter->first), iter->second);
}
aurax11_details_->TakeOwnershipOfSelection(buffer);
if (buffer == BUFFER_STANDARD) {
ObjectMap::const_iterator text_iter = objects.find(CBF_TEXT);
if (text_iter != objects.end()) {
aurax11_details_->CreateNewClipboardData();
const ObjectMapParam& char_vector = text_iter->second[0];
WriteText(&char_vector.front(), char_vector.size());
aurax11_details_->TakeOwnershipOfSelection(BUFFER_SELECTION);
}
}
}
bool Clipboard::IsFormatAvailable(const FormatType& format,
Buffer buffer) const {
DCHECK(CalledOnValidThread());
DCHECK(IsValidBuffer(buffer));
TargetList target_list =
aurax11_details_->WaitAndGetTargetsList(buffer);
return target_list.ContainsFormat(format);
}
void Clipboard::Clear(Buffer buffer) {
DCHECK(CalledOnValidThread());
DCHECK(IsValidBuffer(buffer));
aurax11_details_->Clear(buffer);
}
void Clipboard::ReadAvailableTypes(Buffer buffer, std::vector<string16>* types,
bool* contains_filenames) const {
DCHECK(CalledOnValidThread());
if (!types || !contains_filenames) {
NOTREACHED();
return;
}
TargetList target_list =
aurax11_details_->WaitAndGetTargetsList(buffer);
types->clear();
if (target_list.ContainsText())
types->push_back(UTF8ToUTF16(kMimeTypeText));
if (target_list.ContainsFormat(GetHtmlFormatType()))
types->push_back(UTF8ToUTF16(kMimeTypeHTML));
if (target_list.ContainsFormat(GetRtfFormatType()))
types->push_back(UTF8ToUTF16(kMimeTypeRTF));
if (target_list.ContainsFormat(GetBitmapFormatType()))
types->push_back(UTF8ToUTF16(kMimeTypePNG));
*contains_filenames = false;
SelectionData data(aurax11_details_->RequestAndWaitForTypes(
buffer,
aurax11_details_->GetAtomsForFormat(GetWebCustomDataFormatType())));
if (data.IsValid())
ReadCustomDataTypes(data.GetData(), data.GetSize(), types);
}
void Clipboard::ReadText(Buffer buffer, string16* result) const {
DCHECK(CalledOnValidThread());
SelectionData data(aurax11_details_->RequestAndWaitForTypes(
buffer, aurax11_details_->GetTextAtoms()));
if (data.IsValid()) {
std::string text = data.GetText();
*result = UTF8ToUTF16(text);
}
}
void Clipboard::ReadAsciiText(Buffer buffer, std::string* result) const {
DCHECK(CalledOnValidThread());
SelectionData data(aurax11_details_->RequestAndWaitForTypes(
buffer, aurax11_details_->GetTextAtoms()));
if (data.IsValid())
result->assign(data.GetText());
}
// TODO(estade): handle different charsets.
// TODO(port): set *src_url.
void Clipboard::ReadHTML(Buffer buffer,
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(
buffer, aurax11_details_->GetAtomsForFormat(GetHtmlFormatType())));
if (data.IsValid()) {
*markup = data.GetHtml();
*fragment_start = 0;
DCHECK(markup->length() <= kuint32max);
*fragment_end = static_cast<uint32>(markup->length());
}
}
void Clipboard::ReadRTF(Buffer buffer, std::string* result) const {
DCHECK(CalledOnValidThread());
SelectionData data(aurax11_details_->RequestAndWaitForTypes(
buffer, aurax11_details_->GetAtomsForFormat(GetRtfFormatType())));
if (data.IsValid())
data.AssignTo(result);
}
SkBitmap Clipboard::ReadImage(Buffer buffer) const {
DCHECK(CalledOnValidThread());
SelectionData data(aurax11_details_->RequestAndWaitForTypes(
buffer,
aurax11_details_->GetAtomsForFormat(GetBitmapFormatType())));
if (data.IsValid()) {
SkBitmap bitmap;
if (gfx::PNGCodec::Decode(data.GetData(), data.GetSize(), &bitmap))
return SkBitmap(bitmap);
}
return SkBitmap();
}
void Clipboard::ReadCustomData(Buffer buffer,
const string16& type,
string16* result) const {
DCHECK(CalledOnValidThread());
SelectionData data(aurax11_details_->RequestAndWaitForTypes(
buffer,
aurax11_details_->GetAtomsForFormat(GetWebCustomDataFormatType())));
if (data.IsValid())
ReadCustomDataForType(data.GetData(), data.GetSize(), type, result);
}
void Clipboard::ReadBookmark(string16* title, std::string* url) const {
DCHECK(CalledOnValidThread());
// TODO(erg): This was left NOTIMPLEMENTED() in the gtk port too.
NOTIMPLEMENTED();
}
void Clipboard::ReadData(const FormatType& format, std::string* result) const {
DCHECK(CalledOnValidThread());
SelectionData data(aurax11_details_->RequestAndWaitForTypes(
BUFFER_STANDARD, aurax11_details_->GetAtomsForFormat(format)));
if (data.IsValid())
data.AssignTo(result);
}
uint64 Clipboard::GetSequenceNumber(Buffer buffer) {
DCHECK(CalledOnValidThread());
if (buffer == BUFFER_STANDARD)
return SelectionChangeObserver::GetInstance()->clipboard_sequence_number();
else
return SelectionChangeObserver::GetInstance()->primary_sequence_number();
}
void Clipboard::WriteText(const char* text_data, size_t text_len) {
std::string str(text_data, text_len);
scoped_refptr<base::RefCountedMemory> 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 Clipboard::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 = "<meta http-equiv=\"content-type\" "
"content=\"text/html; charset=utf-8\">";
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<base::RefCountedMemory> mem(
base::RefCountedString::TakeString(&data));
aurax11_details_->InsertMapping(kMimeTypeHTML, mem);
}
void Clipboard::WriteRTF(const char* rtf_data, size_t data_len) {
WriteData(GetRtfFormatType(), rtf_data, data_len);
}
void Clipboard::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).
string16 url = UTF8ToUTF16(std::string(url_data, url_len) + "\n");
string16 title = UTF8ToUTF16(std::string(title_data, title_len));
std::vector<unsigned char> data;
ui::AddString16ToVector(url, &data);
ui::AddString16ToVector(title, &data);
scoped_refptr<base::RefCountedMemory> 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 Clipboard::WriteWebSmartPaste() {
aurax11_details_->InsertMapping(kMimeTypeWebkitSmartPaste,
scoped_refptr<base::RefCountedMemory>());
}
void Clipboard::WriteBitmap(const char* pixel_data, const char* size_data) {
const gfx::Size* size = reinterpret_cast<const gfx::Size*>(size_data);
// Adopt the pixels into a SkBitmap. Note that the pixel order in memory is
// actually BGRA.
SkBitmap bitmap;
bitmap.setConfig(SkBitmap::kARGB_8888_Config, size->width(), size->height());
bitmap.setPixels(const_cast<char*>(pixel_data));
// Encode the bitmap as a PNG for transport.
std::vector<unsigned char> output;
if (gfx::PNGCodec::FastEncodeBGRASkBitmap(bitmap, false, &output)) {
aurax11_details_->InsertMapping(kMimeTypePNG,
base::RefCountedBytes::TakeVector(
&output));
}
}
void Clipboard::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<unsigned char> bytes(data_data, data_data + data_len);
scoped_refptr<base::RefCountedMemory> mem(
base::RefCountedBytes::TakeVector(&bytes));
aurax11_details_->InsertMapping(format.ToString(), mem);
}
// 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;
}
} // namespace ui
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