// Copyright 2014 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 "chrome/utility/printing_handler_win.h" #include "base/files/file_util.h" #include "base/lazy_instance.h" #include "base/path_service.h" #include "base/scoped_native_library.h" #include "chrome/common/chrome_utility_printing_messages.h" #include "chrome/common/print_messages.h" #include "content/public/utility/utility_thread.h" #include "pdf/pdf.h" #include "printing/emf_win.h" #include "printing/page_range.h" #include "printing/pdf_render_settings.h" #include "ui/gfx/gdi_util.h" namespace printing { namespace { bool Send(IPC::Message* message) { return content::UtilityThread::Get()->Send(message); } void ReleaseProcessIfNeeded() { content::UtilityThread::Get()->ReleaseProcessIfNeeded(); } void PreCacheFontCharacters(const LOGFONT* logfont, const wchar_t* text, size_t text_length) { Send(new ChromeUtilityHostMsg_PreCacheFontCharacters( *logfont, base::string16(text, text_length))); } } // namespace PrintingHandlerWin::PrintingHandlerWin() { chrome_pdf::SetPDFEnsureTypefaceCharactersAccessible(PreCacheFontCharacters); } PrintingHandlerWin::~PrintingHandlerWin() {} bool PrintingHandlerWin::OnMessageReceived(const IPC::Message& message) { bool handled = true; IPC_BEGIN_MESSAGE_MAP(PrintingHandlerWin, message) IPC_MESSAGE_HANDLER(ChromeUtilityMsg_RenderPDFPagesToMetafiles, OnRenderPDFPagesToMetafile) IPC_MESSAGE_HANDLER(ChromeUtilityMsg_RenderPDFPagesToMetafiles_GetPage, OnRenderPDFPagesToMetafileGetPage) IPC_MESSAGE_HANDLER(ChromeUtilityMsg_RenderPDFPagesToMetafiles_Stop, OnRenderPDFPagesToMetafileStop) IPC_MESSAGE_UNHANDLED(handled = false) IPC_END_MESSAGE_MAP() return handled; } void PrintingHandlerWin::OnRenderPDFPagesToMetafile( IPC::PlatformFileForTransit pdf_transit, const PdfRenderSettings& settings) { pdf_rendering_settings_ = settings; chrome_pdf::SetPDFUseGDIPrinting(pdf_rendering_settings_.mode == PdfRenderSettings::Mode::GDI_TEXT); int postscript_level; switch (pdf_rendering_settings_.mode) { case PdfRenderSettings::Mode::POSTSCRIPT_LEVEL2: postscript_level = 2; break; case PdfRenderSettings::Mode::POSTSCRIPT_LEVEL3: postscript_level = 3; break; default: postscript_level = 0; // Not using postscript. } chrome_pdf::SetPDFPostscriptPrintingLevel(postscript_level); base::File pdf_file = IPC::PlatformFileForTransitToFile(pdf_transit); int page_count = LoadPDF(std::move(pdf_file)); Send( new ChromeUtilityHostMsg_RenderPDFPagesToMetafiles_PageCount(page_count)); } void PrintingHandlerWin::OnRenderPDFPagesToMetafileGetPage( int page_number, IPC::PlatformFileForTransit output_file) { base::File emf_file = IPC::PlatformFileForTransitToFile(output_file); float scale_factor = 1.0f; bool postscript = pdf_rendering_settings_.mode == PdfRenderSettings::Mode::POSTSCRIPT_LEVEL2 || pdf_rendering_settings_.mode == PdfRenderSettings::Mode::POSTSCRIPT_LEVEL3; bool success = RenderPdfPageToMetafile(page_number, std::move(emf_file), &scale_factor, postscript); Send(new ChromeUtilityHostMsg_RenderPDFPagesToMetafiles_PageDone( success, scale_factor)); } void PrintingHandlerWin::OnRenderPDFPagesToMetafileStop() { ReleaseProcessIfNeeded(); } int PrintingHandlerWin::LoadPDF(base::File pdf_file) { int64_t length64 = pdf_file.GetLength(); if (length64 <= 0 || length64 > std::numeric_limits::max()) return 0; int length = static_cast(length64); pdf_data_.resize(length); if (length != pdf_file.Read(0, pdf_data_.data(), pdf_data_.size())) return 0; int total_page_count = 0; if (!chrome_pdf::GetPDFDocInfo(&pdf_data_.front(), pdf_data_.size(), &total_page_count, nullptr)) { return 0; } return total_page_count; } bool PrintingHandlerWin::RenderPdfPageToMetafile(int page_number, base::File output_file, float* scale_factor, bool postscript) { Emf metafile; metafile.Init(); // We need to scale down DC to fit an entire page into DC available area. // Current metafile is based on screen DC and have current screen size. // Writing outside of those boundaries will result in the cut-off output. // On metafiles (this is the case here), scaling down will still record // original coordinates and we'll be able to print in full resolution. // Before playback we'll need to counter the scaling up that will happen // in the service (print_system_win.cc). // // The postscript driver does not use the metafile size since it outputs // postscript rather than a metafile. Instead it uses the printable area // sent to RenderPDFPageToDC to determine the area to render. Therefore, // don't scale the DC to match the metafile, and send the printer physical // offsets to the driver. if (!postscript) { *scale_factor = gfx::CalculatePageScale( metafile.context(), pdf_rendering_settings_.area.right(), pdf_rendering_settings_.area.bottom()); gfx::ScaleDC(metafile.context(), *scale_factor); } // The underlying metafile is of type Emf and ignores the arguments passed // to StartPage. metafile.StartPage(gfx::Size(), gfx::Rect(), 1); int offset_x = postscript ? pdf_rendering_settings_.offsets.x() : 0; int offset_y = postscript ? pdf_rendering_settings_.offsets.y() : 0; if (!chrome_pdf::RenderPDFPageToDC( &pdf_data_.front(), pdf_data_.size(), page_number, metafile.context(), pdf_rendering_settings_.dpi, pdf_rendering_settings_.area.x() - offset_x, pdf_rendering_settings_.area.y() - offset_y, pdf_rendering_settings_.area.width(), pdf_rendering_settings_.area.height(), true, false, true, true, pdf_rendering_settings_.autorotate)) { return false; } metafile.FinishPage(); metafile.FinishDocument(); return metafile.SaveTo(&output_file); } } // namespace printing