// 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 "printing/pdf_metafile_skia.h" #include #include #include #include #include "base/files/file.h" #include "base/memory/ptr_util.h" #include "base/time/time.h" #include "cc/paint/paint_canvas.h" #include "cc/paint/paint_record.h" #include "cc/paint/paint_recorder.h" #include "printing/print_settings.h" #include "third_party/skia/include/core/SkDocument.h" #include "third_party/skia/include/core/SkStream.h" // Note that headers in third_party/skia/src are fragile. This is // an experimental, fragile, and diagnostic-only document type. #include "third_party/skia/src/utils/SkMultiPictureDocument.h" #include "ui/gfx/geometry/safe_integer_conversions.h" #include "ui/gfx/skia_util.h" #if defined(OS_MACOSX) #include "printing/pdf_metafile_cg_mac.h" #endif #if defined(OS_POSIX) #include "base/file_descriptor_posix.h" #endif namespace { bool WriteAssetToBuffer(const SkStreamAsset* asset, void* buffer, size_t size) { // Calling duplicate() keeps original asset state unchanged. std::unique_ptr assetCopy(asset->duplicate()); size_t length = assetCopy->getLength(); if (length > size) return false; return (length == assetCopy->read(buffer, length)); } SkTime::DateTime TimeToSkTime(base::Time time) { base::Time::Exploded exploded; time.UTCExplode(&exploded); SkTime::DateTime skdate; skdate.fTimeZoneMinutes = 0; skdate.fYear = exploded.year; skdate.fMonth = exploded.month; skdate.fDayOfWeek = exploded.day_of_week; skdate.fDay = exploded.day_of_month; skdate.fHour = exploded.hour; skdate.fMinute = exploded.minute; skdate.fSecond = exploded.second; return skdate; } sk_sp MakePdfDocument(SkWStream* wStream) { SkDocument::PDFMetadata metadata; SkTime::DateTime now = TimeToSkTime(base::Time::Now()); metadata.fCreation.fEnabled = true; metadata.fCreation.fDateTime = now; metadata.fModified.fEnabled = true; metadata.fModified.fDateTime = now; const std::string& agent = printing::GetAgent(); metadata.fCreator = agent.empty() ? SkString("Chromium") : SkString(agent.c_str(), agent.size()); return SkDocument::MakePDF(wStream, SK_ScalarDefaultRasterDPI, metadata, nullptr, false); } } // namespace namespace printing { struct Page { Page(SkSize s, sk_sp c) : size_(s), content_(std::move(c)) {} Page(Page&& that) : size_(that.size_), content_(std::move(that.content_)) {} Page(const Page&) = default; Page& operator=(const Page&) = default; Page& operator=(Page&& that) { size_ = that.size_; content_ = std::move(that.content_); return *this; } SkSize size_; sk_sp content_; }; struct PdfMetafileSkiaData { cc::PaintRecorder recorder_; // Current recording std::vector pages_; std::unique_ptr pdf_data_; // The scale factor is used because Blink occasionally calls // PaintCanvas::getTotalMatrix() even though the total matrix is not as // meaningful for a vector canvas as for a raster canvas. float scale_factor_; SkSize size_; SkiaDocumentType type_; #if defined(OS_MACOSX) PdfMetafileCg pdf_cg_; #endif }; PdfMetafileSkia::~PdfMetafileSkia() {} bool PdfMetafileSkia::Init() { return true; } // TODO(halcanary): Create a Metafile class that only stores data. // Metafile::InitFromData is orthogonal to what the rest of // PdfMetafileSkia does. bool PdfMetafileSkia::InitFromData(const void* src_buffer, size_t src_buffer_size) { data_->pdf_data_ = base::MakeUnique( src_buffer, src_buffer_size, true /* copy_data? */); return true; } void PdfMetafileSkia::StartPage(const gfx::Size& page_size, const gfx::Rect& content_area, const float& scale_factor) { DCHECK_GT(page_size.width(), 0); DCHECK_GT(page_size.height(), 0); DCHECK_GT(scale_factor, 0.0f); if (data_->recorder_.getRecordingCanvas()) FinishPage(); DCHECK(!data_->recorder_.getRecordingCanvas()); float inverse_scale = 1.0 / scale_factor; cc::PaintCanvas* canvas = data_->recorder_.beginRecording( inverse_scale * page_size.width(), inverse_scale * page_size.height()); // Recording canvas is owned by the data_->recorder_. No ref() necessary. if (content_area != gfx::Rect(page_size)) { canvas->scale(inverse_scale, inverse_scale); SkRect sk_content_area = gfx::RectToSkRect(content_area); canvas->clipRect(sk_content_area); canvas->translate(sk_content_area.x(), sk_content_area.y()); canvas->scale(scale_factor, scale_factor); } data_->size_ = gfx::SizeFToSkSize(gfx::SizeF(page_size)); data_->scale_factor_ = scale_factor; // We scale the recording canvas's size so that // canvas->getTotalMatrix() returns a value that ignores the scale // factor. We store the scale factor and re-apply it later. // http://crbug.com/469656 } cc::PaintCanvas* PdfMetafileSkia::GetVectorCanvasForNewPage( const gfx::Size& page_size, const gfx::Rect& content_area, const float& scale_factor) { StartPage(page_size, content_area, scale_factor); return data_->recorder_.getRecordingCanvas(); } bool PdfMetafileSkia::FinishPage() { if (!data_->recorder_.getRecordingCanvas()) return false; sk_sp pic = data_->recorder_.finishRecordingAsPicture(); if (data_->scale_factor_ != 1.0f) { cc::PaintCanvas* canvas = data_->recorder_.beginRecording( data_->size_.width(), data_->size_.height()); canvas->scale(data_->scale_factor_, data_->scale_factor_); canvas->drawPicture(pic); pic = data_->recorder_.finishRecordingAsPicture(); } data_->pages_.emplace_back(data_->size_, std::move(pic)); return true; } bool PdfMetafileSkia::FinishDocument() { // If we've already set the data in InitFromData, leave it be. if (data_->pdf_data_) return false; if (data_->recorder_.getRecordingCanvas()) FinishPage(); SkDynamicMemoryWStream stream; sk_sp doc; switch (data_->type_) { case PDF_SKIA_DOCUMENT_TYPE: doc = MakePdfDocument(&stream); break; case MSKP_SKIA_DOCUMENT_TYPE: doc = SkMakeMultiPictureDocument(&stream); break; } for (const Page& page : data_->pages_) { cc::PaintCanvas* canvas( doc->beginPage(page.size_.width(), page.size_.height())); canvas->drawPicture(page.content_); doc->endPage(); } doc->close(); data_->pdf_data_.reset(stream.detachAsStream()); return true; } uint32_t PdfMetafileSkia::GetDataSize() const { if (!data_->pdf_data_) return 0; return base::checked_cast(data_->pdf_data_->getLength()); } bool PdfMetafileSkia::GetData(void* dst_buffer, uint32_t dst_buffer_size) const { if (!data_->pdf_data_) return false; return WriteAssetToBuffer(data_->pdf_data_.get(), dst_buffer, base::checked_cast(dst_buffer_size)); } gfx::Rect PdfMetafileSkia::GetPageBounds(unsigned int page_number) const { if (page_number < data_->pages_.size()) { SkSize size = data_->pages_[page_number].size_; return gfx::Rect(gfx::ToRoundedInt(size.width()), gfx::ToRoundedInt(size.height())); } return gfx::Rect(); } unsigned int PdfMetafileSkia::GetPageCount() const { return base::checked_cast(data_->pages_.size()); } skia::NativeDrawingContext PdfMetafileSkia::context() const { NOTREACHED(); return nullptr; } #if defined(OS_WIN) bool PdfMetafileSkia::Playback(skia::NativeDrawingContext hdc, const RECT* rect) const { NOTREACHED(); return false; } bool PdfMetafileSkia::SafePlayback(skia::NativeDrawingContext hdc) const { NOTREACHED(); return false; } #elif defined(OS_MACOSX) /* TODO(caryclark): The set up of PluginInstance::PrintPDFOutput may result in rasterized output. Even if that flow uses PdfMetafileCg::RenderPage, the drawing of the PDF into the canvas may result in a rasterized output. PDFMetafileSkia::RenderPage should be not implemented as shown and instead should do something like the following CL in PluginInstance::PrintPDFOutput: http://codereview.chromium.org/7200040/diff/1/webkit/plugins/ppapi/ppapi_plugin_instance.cc */ bool PdfMetafileSkia::RenderPage(unsigned int page_number, CGContextRef context, const CGRect rect, const MacRenderPageParams& params) const { DCHECK_GT(GetDataSize(), 0U); if (data_->pdf_cg_.GetDataSize() == 0) { if (GetDataSize() == 0) return false; size_t length = data_->pdf_data_->getLength(); std::vector buffer(length); (void)WriteAssetToBuffer(data_->pdf_data_.get(), &buffer[0], length); data_->pdf_cg_.InitFromData(&buffer[0], length); } return data_->pdf_cg_.RenderPage(page_number, context, rect, params); } #endif bool PdfMetafileSkia::SaveTo(base::File* file) const { if (GetDataSize() == 0U) return false; // Calling duplicate() keeps original asset state unchanged. std::unique_ptr asset(data_->pdf_data_->duplicate()); const size_t kMaximumBufferSize = 1024 * 1024; std::vector buffer(std::min(kMaximumBufferSize, asset->getLength())); do { size_t read_size = asset->read(&buffer[0], buffer.size()); if (read_size == 0) break; DCHECK_GE(buffer.size(), read_size); if (!file->WriteAtCurrentPos(&buffer[0], base::checked_cast(read_size))) { return false; } } while (!asset->isAtEnd()); return true; } PdfMetafileSkia::PdfMetafileSkia(SkiaDocumentType type) : data_(new PdfMetafileSkiaData) { data_->type_ = type; } std::unique_ptr PdfMetafileSkia::GetMetafileForCurrentPage( SkiaDocumentType type) { // If we only ever need the metafile for the last page, should we // only keep a handle on one PaintRecord? std::unique_ptr metafile(new PdfMetafileSkia(type)); if (data_->pages_.size() == 0) return metafile; if (data_->recorder_.getRecordingCanvas()) // page outstanding return metafile; metafile->data_->pages_.push_back(data_->pages_.back()); if (!metafile->FinishDocument()) // Generate PDF. metafile.reset(); return metafile; } } // namespace printing