// 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 "content/common/cursors/webcursor.h" #include "base/logging.h" #include "base/pickle.h" #include "build/build_config.h" #include "third_party/WebKit/public/platform/WebImage.h" using blink::WebCursorInfo; static const int kMaxCursorDimension = 1024; namespace content { WebCursor::WebCursor() : type_(WebCursorInfo::TypePointer), custom_scale_(1) { InitPlatformData(); } WebCursor::~WebCursor() { Clear(); } WebCursor::WebCursor(const WebCursor& other) { InitPlatformData(); Copy(other); } const WebCursor& WebCursor::operator=(const WebCursor& other) { if (this == &other) return *this; Clear(); Copy(other); return *this; } void WebCursor::InitFromCursorInfo(const CursorInfo& cursor_info) { Clear(); type_ = cursor_info.type; hotspot_ = cursor_info.hotspot; if (IsCustom()) SetCustomData(cursor_info.custom_image); custom_scale_ = cursor_info.image_scale_factor; CHECK(custom_scale_ > 0); ClampHotspot(); } void WebCursor::GetCursorInfo(CursorInfo* cursor_info) const { cursor_info->type = static_cast(type_); cursor_info->hotspot = hotspot_; ImageFromCustomData(&cursor_info->custom_image); cursor_info->image_scale_factor = custom_scale_; } bool WebCursor::Deserialize(base::PickleIterator* iter) { int type, hotspot_x, hotspot_y, size_x, size_y, data_len; float scale; const char* data; // Leave |this| unmodified unless we are going to return success. if (!iter->ReadInt(&type) || !iter->ReadInt(&hotspot_x) || !iter->ReadInt(&hotspot_y) || !iter->ReadLength(&size_x) || !iter->ReadLength(&size_y) || !iter->ReadFloat(&scale) || !iter->ReadData(&data, &data_len)) return false; // Ensure the size is sane, and there is enough data. if (size_x > kMaxCursorDimension || size_y > kMaxCursorDimension) return false; // Ensure scale isn't ridiculous, and the scaled image size is still sane. if (scale < 0.01 || scale > 100 || size_x / scale > kMaxCursorDimension || size_y / scale > kMaxCursorDimension) return false; type_ = type; if (type == WebCursorInfo::TypeCustom) { if (size_x > 0 && size_y > 0) { // The * 4 is because the expected format is an array of RGBA pixel // values. if (size_x * size_y * 4 != data_len) { LOG(WARNING) << "WebCursor's data length and image size mismatch: " << size_x << "x" << size_y << "x4 != " << data_len; return false; } hotspot_.set_x(hotspot_x); hotspot_.set_y(hotspot_y); custom_size_.set_width(size_x); custom_size_.set_height(size_y); custom_scale_ = scale; ClampHotspot(); custom_data_.clear(); if (data_len > 0) { custom_data_.resize(data_len); memcpy(&custom_data_[0], data, data_len); } } } return DeserializePlatformData(iter); } bool WebCursor::Serialize(base::Pickle* pickle) const { if (!pickle->WriteInt(type_) || !pickle->WriteInt(hotspot_.x()) || !pickle->WriteInt(hotspot_.y()) || !pickle->WriteInt(custom_size_.width()) || !pickle->WriteInt(custom_size_.height()) || !pickle->WriteFloat(custom_scale_)) return false; const char* data = NULL; if (!custom_data_.empty()) data = &custom_data_[0]; if (!pickle->WriteData(data, custom_data_.size())) return false; return SerializePlatformData(pickle); } bool WebCursor::IsCustom() const { return type_ == WebCursorInfo::TypeCustom; } bool WebCursor::IsEqual(const WebCursor& other) const { if (type_ != other.type_) return false; if (!IsPlatformDataEqual(other)) return false; return hotspot_ == other.hotspot_ && custom_size_ == other.custom_size_ && custom_scale_ == other.custom_scale_ && custom_data_ == other.custom_data_; } void WebCursor::Clear() { type_ = WebCursorInfo::TypePointer; hotspot_.set_x(0); hotspot_.set_y(0); custom_size_.set_width(0); custom_size_.set_height(0); custom_scale_ = 1; custom_data_.clear(); CleanupPlatformData(); } void WebCursor::Copy(const WebCursor& other) { type_ = other.type_; hotspot_ = other.hotspot_; custom_size_ = other.custom_size_; custom_scale_ = other.custom_scale_; custom_data_ = other.custom_data_; CopyPlatformData(other); } void WebCursor::SetCustomData(const SkBitmap& bitmap) { CreateCustomData(bitmap, &custom_data_, &custom_size_); } void WebCursor::CreateCustomData(const SkBitmap& bitmap, std::vector* custom_data, gfx::Size* custom_size) { if (bitmap.empty()) return; // Fill custom_data directly with the NativeImage pixels. custom_data->resize(bitmap.getSize()); if (!custom_data->empty()) { //This will divide color values by alpha (un-premultiply) if necessary SkImageInfo dstInfo = bitmap.info().makeAlphaType(kUnpremul_SkAlphaType); bitmap.readPixels(dstInfo, &(*custom_data)[0], dstInfo.minRowBytes(), 0, 0); } custom_size->set_width(bitmap.width()); custom_size->set_height(bitmap.height()); } void WebCursor::ImageFromCustomData(SkBitmap* image) const { if (custom_data_.empty()) return; SkImageInfo image_info = SkImageInfo::MakeN32(custom_size_.width(), custom_size_.height(), kUnpremul_SkAlphaType); if (!image->tryAllocPixels(image_info)) return; memcpy(image->getPixels(), &custom_data_[0], custom_data_.size()); } void WebCursor::ClampHotspot() { if (!IsCustom()) return; // Clamp the hotspot to the custom image's dimensions. hotspot_.set_x(std::max(0, std::min(custom_size_.width() - 1, hotspot_.x()))); hotspot_.set_y(std::max(0, std::min(custom_size_.height() - 1, hotspot_.y()))); } } // namespace content