chrome/utility/printing_handler.cc - chromium/chromium - Git at Google

 // 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.h"

 #include "base/file_util.h"
 #include "base/lazy_instance.h"
 #include "base/path_service.h"
 #include "base/scoped_native_library.h"
 #include "chrome/common/chrome_paths.h"
 #include "chrome/common/chrome_utility_printing_messages.h"
 #include "chrome/utility/cloud_print/bitmap_image.h"
 #include "chrome/utility/cloud_print/pwg_encoder.h"
 #include "content/public/utility/utility_thread.h"
 #include "printing/page_range.h"
 #include "printing/pdf_render_settings.h"

 #if defined(OS_WIN)
 #include "base/win/iat_patch_function.h"
 #include "printing/emf_win.h"
 #include "ui/gfx/gdi_util.h"
 #endif

 #if defined(ENABLE_FULL_PRINTING)
 #include "chrome/common/crash_keys.h"
 #include "printing/backend/print_backend.h"
 #endif

 namespace {

 bool Send(IPC::Message* message) {
   return content::UtilityThread::Get()->Send(message);
 }

 void ReleaseProcessIfNeeded() {
   content::UtilityThread::Get()->ReleaseProcessIfNeeded();
 }

 class PdfFunctionsBase {
  public:
   PdfFunctionsBase() : render_pdf_to_bitmap_func_(NULL),
                        get_pdf_doc_info_func_(NULL) {}

   bool Init() {
     base::FilePath pdf_module_path;
     if (!PathService::Get(chrome::FILE_PDF_PLUGIN, &pdf_module_path) ||
         !base::PathExists(pdf_module_path)) {
       return false;
     }

     pdf_lib_.Reset(base::LoadNativeLibrary(pdf_module_path, NULL));
     if (!pdf_lib_.is_valid()) {
       LOG(WARNING) << "Couldn't load PDF plugin";
       return false;
     }

     render_pdf_to_bitmap_func_ =
         reinterpret_cast<RenderPDFPageToBitmapProc>(
             pdf_lib_.GetFunctionPointer("RenderPDFPageToBitmap"));
     LOG_IF(WARNING, !render_pdf_to_bitmap_func_) <<
         "Missing RenderPDFPageToBitmap";

     get_pdf_doc_info_func_ =
         reinterpret_cast<GetPDFDocInfoProc>(
             pdf_lib_.GetFunctionPointer("GetPDFDocInfo"));
     LOG_IF(WARNING, !get_pdf_doc_info_func_) << "Missing GetPDFDocInfo";

     if (!render_pdf_to_bitmap_func_ || !get_pdf_doc_info_func_ ||
         !PlatformInit(pdf_module_path, pdf_lib_)) {
       Reset();
     }

     return IsValid();
   }

   bool IsValid() const {
     return pdf_lib_.is_valid();
   }

   void Reset() {
     pdf_lib_.Reset(NULL);
   }

   bool RenderPDFPageToBitmap(const void* pdf_buffer,
                              int pdf_buffer_size,
                              int page_number,
                              void* bitmap_buffer,
                              int bitmap_width,
                              int bitmap_height,
                              int dpi_x,
                              int dpi_y,
                              bool autorotate) {
     if (!render_pdf_to_bitmap_func_)
       return false;
     return render_pdf_to_bitmap_func_(pdf_buffer, pdf_buffer_size, page_number,
                                       bitmap_buffer, bitmap_width,
                                       bitmap_height, dpi_x, dpi_y, autorotate);
   }

   bool GetPDFDocInfo(const void* pdf_buffer,
                      int buffer_size,
                      int* page_count,
                      double* max_page_width) {
     if (!get_pdf_doc_info_func_)
       return false;
     return get_pdf_doc_info_func_(pdf_buffer, buffer_size, page_count,
                                   max_page_width);
   }

  protected:
   virtual bool PlatformInit(
       const base::FilePath& pdf_module_path,
       const base::ScopedNativeLibrary& pdf_lib) {
     return true;
   }

  private:
   // Exported by PDF plugin.
   typedef bool (*RenderPDFPageToBitmapProc)(const void* pdf_buffer,
                                             int pdf_buffer_size,
                                             int page_number,
                                             void* bitmap_buffer,
                                             int bitmap_width,
                                             int bitmap_height,
                                             int dpi_x,
                                             int dpi_y,
                                             bool autorotate);
   typedef bool (*GetPDFDocInfoProc)(const void* pdf_buffer,
                                     int buffer_size, int* page_count,
                                     double* max_page_width);

   RenderPDFPageToBitmapProc render_pdf_to_bitmap_func_;
   GetPDFDocInfoProc get_pdf_doc_info_func_;

   base::ScopedNativeLibrary pdf_lib_;
   DISALLOW_COPY_AND_ASSIGN(PdfFunctionsBase);
 };

 #if defined(OS_WIN)
 // The 2 below IAT patch functions are almost identical to the code in
 // render_process_impl.cc. This is needed to work around specific Windows APIs
 // used by the Chrome PDF plugin that will fail in the sandbox.
 static base::win::IATPatchFunction g_iat_patch_createdca;
 HDC WINAPI UtilityProcess_CreateDCAPatch(LPCSTR driver_name,
                                          LPCSTR device_name,
                                          LPCSTR output,
                                          const DEVMODEA* init_data) {
   if (driver_name && (std::string("DISPLAY") == driver_name)) {
     // CreateDC fails behind the sandbox, but not CreateCompatibleDC.
     return CreateCompatibleDC(NULL);
   }

   NOTREACHED();
   return CreateDCA(driver_name, device_name, output, init_data);
 }

 static base::win::IATPatchFunction g_iat_patch_get_font_data;
 DWORD WINAPI UtilityProcess_GetFontDataPatch(
     HDC hdc, DWORD table, DWORD offset, LPVOID buffer, DWORD length) {
   int rv = GetFontData(hdc, table, offset, buffer, length);
   if (rv == GDI_ERROR && hdc) {
     HFONT font = static_cast<HFONT>(GetCurrentObject(hdc, OBJ_FONT));

     LOGFONT logfont;
     if (GetObject(font, sizeof(LOGFONT), &logfont)) {
       content::UtilityThread::Get()->PreCacheFont(logfont);
       rv = GetFontData(hdc, table, offset, buffer, length);
       content::UtilityThread::Get()->ReleaseCachedFonts();
     }
   }
   return rv;
 }

 class PdfFunctionsWin : public PdfFunctionsBase {
  public:
   PdfFunctionsWin() : render_pdf_to_dc_func_(NULL) {
   }

   bool PlatformInit(
       const base::FilePath& pdf_module_path,
       const base::ScopedNativeLibrary& pdf_lib) OVERRIDE {
     // Patch the IAT for handling specific APIs known to fail in the sandbox.
     if (!g_iat_patch_createdca.is_patched()) {
       g_iat_patch_createdca.Patch(pdf_module_path.value().c_str(),
                                   "gdi32.dll", "CreateDCA",
                                   UtilityProcess_CreateDCAPatch);
     }

     if (!g_iat_patch_get_font_data.is_patched()) {
       g_iat_patch_get_font_data.Patch(pdf_module_path.value().c_str(),
                                       "gdi32.dll", "GetFontData",
                                       UtilityProcess_GetFontDataPatch);
     }
     render_pdf_to_dc_func_ =
       reinterpret_cast<RenderPDFPageToDCProc>(
           pdf_lib.GetFunctionPointer("RenderPDFPageToDC"));
     LOG_IF(WARNING, !render_pdf_to_dc_func_) << "Missing RenderPDFPageToDC";

     return render_pdf_to_dc_func_ != NULL;
   }

   bool RenderPDFPageToDC(const void* pdf_buffer,
                          int buffer_size,
                          int page_number,
                          HDC dc,
                          int dpi_x,
                          int dpi_y,
                          int bounds_origin_x,
                          int bounds_origin_y,
                          int bounds_width,
                          int bounds_height,
                          bool fit_to_bounds,
                          bool stretch_to_bounds,
                          bool keep_aspect_ratio,
                          bool center_in_bounds,
                          bool autorotate) {
     if (!render_pdf_to_dc_func_)
       return false;
     return render_pdf_to_dc_func_(pdf_buffer, buffer_size, page_number,
                                   dc, dpi_x, dpi_y, bounds_origin_x,
                                   bounds_origin_y, bounds_width, bounds_height,
                                   fit_to_bounds, stretch_to_bounds,
                                   keep_aspect_ratio, center_in_bounds,
                                   autorotate);
   }

  private:
   // Exported by PDF plugin.
   typedef bool (*RenderPDFPageToDCProc)(
       const void* pdf_buffer, int buffer_size, int page_number, HDC dc,
       int dpi_x, int dpi_y, int bounds_origin_x, int bounds_origin_y,
       int bounds_width, int bounds_height, bool fit_to_bounds,
       bool stretch_to_bounds, bool keep_aspect_ratio, bool center_in_bounds,
       bool autorotate);
   RenderPDFPageToDCProc render_pdf_to_dc_func_;

   DISALLOW_COPY_AND_ASSIGN(PdfFunctionsWin);
 };

 typedef PdfFunctionsWin PdfFunctions;
 #else  // OS_WIN
 typedef PdfFunctionsBase PdfFunctions;
 #endif  // OS_WIN

 base::LazyInstance<PdfFunctions> g_pdf_lib = LAZY_INSTANCE_INITIALIZER;

 }  // namespace

 PrintingHandler::PrintingHandler() {}

 PrintingHandler::~PrintingHandler() {}

 // static
 void PrintingHandler::PreSandboxStartup() {
   g_pdf_lib.Get().Init();
 }

 bool PrintingHandler::OnMessageReceived(const IPC::Message& message) {
   bool handled = true;
   IPC_BEGIN_MESSAGE_MAP(PrintingHandler, message)
 #if defined(WIN_PDF_METAFILE_FOR_PRINTING)
     IPC_MESSAGE_HANDLER(ChromeUtilityMsg_RenderPDFPagesToMetafiles,
                         OnRenderPDFPagesToMetafile)
 #endif
     IPC_MESSAGE_HANDLER(ChromeUtilityMsg_RenderPDFPagesToPWGRaster,
                         OnRenderPDFPagesToPWGRaster)
     IPC_MESSAGE_HANDLER(ChromeUtilityMsg_GetPrinterCapsAndDefaults,
                         OnGetPrinterCapsAndDefaults)
     IPC_MESSAGE_HANDLER(ChromeUtilityMsg_GetPrinterSemanticCapsAndDefaults,
                         OnGetPrinterSemanticCapsAndDefaults)
     IPC_MESSAGE_UNHANDLED(handled = false)
   IPC_END_MESSAGE_MAP()
   return handled;
 }

 #if defined(WIN_PDF_METAFILE_FOR_PRINTING)
 void PrintingHandler::OnRenderPDFPagesToMetafile(
     IPC::PlatformFileForTransit pdf_transit,
     const base::FilePath& metafile_path,
     const printing::PdfRenderSettings& settings,
     const std::vector<printing::PageRange>& page_ranges_const) {
   bool succeeded = false;
   base::File pdf_file = IPC::PlatformFileForTransitToFile(pdf_transit);
   int highest_rendered_page_number = 0;
   double scale_factor = 1.0;
   std::vector<printing::PageRange> page_ranges = page_ranges_const;
   succeeded = RenderPDFToWinMetafile(pdf_file.Pass(),
                                      metafile_path,
                                      settings,
                                      &page_ranges,
                                      &highest_rendered_page_number,
                                      &scale_factor);
   if (succeeded) {
     // TODO(vitalybuka|scottmg): http://crbug.com/170859. These could
     // potentially be sent as each page is converted so that the spool could
     // start sooner.
     Send(new ChromeUtilityHostMsg_RenderPDFPagesToMetafiles_Succeeded(
         page_ranges, scale_factor));
   } else {
     Send(new ChromeUtilityHostMsg_RenderPDFPagesToMetafile_Failed());
   }
   ReleaseProcessIfNeeded();
 }
 #endif

 void PrintingHandler::OnRenderPDFPagesToPWGRaster(
     IPC::PlatformFileForTransit pdf_transit,
     const printing::PdfRenderSettings& settings,
     const printing::PwgRasterSettings& bitmap_settings,
     IPC::PlatformFileForTransit bitmap_transit) {
   base::File pdf = IPC::PlatformFileForTransitToFile(pdf_transit);
   base::File bitmap = IPC::PlatformFileForTransitToFile(bitmap_transit);
   if (RenderPDFPagesToPWGRaster(pdf.Pass(), settings, bitmap_settings,
                                 bitmap.Pass())) {
     Send(new ChromeUtilityHostMsg_RenderPDFPagesToPWGRaster_Succeeded());
   } else {
     Send(new ChromeUtilityHostMsg_RenderPDFPagesToPWGRaster_Failed());
   }
   ReleaseProcessIfNeeded();
 }

 #if defined(WIN_PDF_METAFILE_FOR_PRINTING)
 bool PrintingHandler::RenderPDFToWinMetafile(
     base::File pdf_file,
     const base::FilePath& metafile_path,
     const printing::PdfRenderSettings& settings,
     std::vector<printing::PageRange>* page_ranges,
     int* highest_rendered_page_number,
     double* scale_factor) {
   DCHECK(page_ranges);
   *highest_rendered_page_number = -1;
   *scale_factor = 1.0;

   if (!g_pdf_lib.Get().IsValid())
     return false;

   // TODO(sanjeevr): Add a method to the PDF DLL that takes in a file handle
   // and a page range array. That way we don't need to read the entire PDF into
   // memory.
   int64 length = pdf_file.GetLength();
   if (length < 0)
     return false;

   std::vector<char> buffer;
   buffer.resize(length);
   if (length != pdf_file.Read(0, &buffer.front(), length))
     return false;

   int total_page_count = 0;
   if (!g_pdf_lib.Get().GetPDFDocInfo(&buffer.front(), buffer.size(),
                                      &total_page_count, NULL)) {
     return false;
   }

   // If no range supplied, do all pages.
   if (page_ranges->empty()) {
     printing::PageRange page_range_all;
     page_range_all.from = 0;
     page_range_all.to = total_page_count - 1;
     page_ranges->push_back(page_range_all);
   }

   bool ret = false;
   std::vector<printing::PageRange>::const_iterator iter;
   for (iter = page_ranges->begin(); iter != page_ranges->end(); ++iter) {
     for (int page_number = iter->from; page_number <= iter->to; ++page_number) {
       if (page_number >= total_page_count)
         break;

       printing::Emf metafile;
       metafile.InitToFile(metafile_path.InsertBeforeExtensionASCII(
           base::StringPrintf(".%d", page_number)));

       // 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).
       *scale_factor = gfx::CalculatePageScale(metafile.context(),
                                               settings.area().right(),
                                               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);
       if (g_pdf_lib.Get().RenderPDFPageToDC(
               &buffer.front(), buffer.size(), page_number, metafile.context(),
               settings.dpi(), settings.dpi(), settings.area().x(),
               settings.area().y(), settings.area().width(),
               settings.area().height(), true, false, true, true,
               settings.autorotate())) {
         if (*highest_rendered_page_number < page_number)
           *highest_rendered_page_number = page_number;
         ret = true;
       }
       metafile.FinishPage();
       metafile.FinishDocument();
     }
   }
   return ret;
 }
 #endif  // defined(WIN_PDF_METAFILE_FOR_PRINTING)

 bool PrintingHandler::RenderPDFPagesToPWGRaster(
     base::File pdf_file,
     const printing::PdfRenderSettings& settings,
     const printing::PwgRasterSettings& bitmap_settings,
     base::File bitmap_file) {
   bool autoupdate = true;
   if (!g_pdf_lib.Get().IsValid())
     return false;

   base::File::Info info;
   if (!pdf_file.GetInfo(&info) || info.size <= 0)
     return false;

   std::string data(info.size, 0);
   int data_size = pdf_file.Read(0, &data[0], data.size());
   if (data_size != static_cast<int>(data.size()))
     return false;

   int total_page_count = 0;
   if (!g_pdf_lib.Get().GetPDFDocInfo(data.data(), data.size(),
                                      &total_page_count, NULL)) {
     return false;
   }

   cloud_print::PwgEncoder encoder;
   std::string pwg_header;
   encoder.EncodeDocumentHeader(&pwg_header);
   int bytes_written = bitmap_file.WriteAtCurrentPos(pwg_header.data(),
                                                     pwg_header.size());
   if (bytes_written != static_cast<int>(pwg_header.size()))
     return false;

   cloud_print::BitmapImage image(settings.area().size(),
                                  cloud_print::BitmapImage::BGRA);
   for (int i = 0; i < total_page_count; ++i) {
     int page_number = i;

     if (bitmap_settings.reverse_page_order) {
       page_number = total_page_count - 1 - page_number;
     }

     if (!g_pdf_lib.Get().RenderPDFPageToBitmap(data.data(),
                                                data.size(),
                                                page_number,
                                                image.pixel_data(),
                                                image.size().width(),
                                                image.size().height(),
                                                settings.dpi(),
                                                settings.dpi(),
                                                autoupdate)) {
       return false;
     }

     cloud_print::PwgHeaderInfo header_info;
     header_info.dpi = settings.dpi();
     header_info.total_pages = total_page_count;

     // Transform odd pages.
     if (page_number % 2) {
       switch (bitmap_settings.odd_page_transform) {
         case printing::TRANSFORM_NORMAL:
           break;
         case printing::TRANSFORM_ROTATE_180:
           header_info.flipx = true;
           header_info.flipy = true;
           break;
         case printing::TRANSFORM_FLIP_HORIZONTAL:
           header_info.flipx = true;
           break;
         case printing::TRANSFORM_FLIP_VERTICAL:
           header_info.flipy = true;
           break;
       }
     }

     if (bitmap_settings.rotate_all_pages) {
       header_info.flipx = !header_info.flipx;
       header_info.flipy = !header_info.flipy;
     }

     std::string pwg_page;
     if (!encoder.EncodePage(image, header_info, &pwg_page))
       return false;
     bytes_written = bitmap_file.WriteAtCurrentPos(pwg_page.data(),
                                                   pwg_page.size());
     if (bytes_written != static_cast<int>(pwg_page.size()))
       return false;
   }
   return true;
 }

 void PrintingHandler::OnGetPrinterCapsAndDefaults(
     const std::string& printer_name) {
   scoped_refptr<printing::PrintBackend> print_backend =
       printing::PrintBackend::CreateInstance(NULL);
   printing::PrinterCapsAndDefaults printer_info;

   crash_keys::ScopedPrinterInfo crash_key(
       print_backend->GetPrinterDriverInfo(printer_name));

   if (print_backend->GetPrinterCapsAndDefaults(printer_name, &printer_info)) {
     Send(new ChromeUtilityHostMsg_GetPrinterCapsAndDefaults_Succeeded(
         printer_name, printer_info));
   } else  {
     Send(new ChromeUtilityHostMsg_GetPrinterCapsAndDefaults_Failed(
         printer_name));
   }
   ReleaseProcessIfNeeded();
 }

 void PrintingHandler::OnGetPrinterSemanticCapsAndDefaults(
     const std::string& printer_name) {
   scoped_refptr<printing::PrintBackend> print_backend =
       printing::PrintBackend::CreateInstance(NULL);
   printing::PrinterSemanticCapsAndDefaults printer_info;

   crash_keys::ScopedPrinterInfo crash_key(
       print_backend->GetPrinterDriverInfo(printer_name));

   if (print_backend->GetPrinterSemanticCapsAndDefaults(printer_name,
                                                        &printer_info)) {
     Send(new ChromeUtilityHostMsg_GetPrinterSemanticCapsAndDefaults_Succeeded(
         printer_name, printer_info));
   } else {
     Send(new ChromeUtilityHostMsg_GetPrinterSemanticCapsAndDefaults_Failed(
         printer_name));
   }
   ReleaseProcessIfNeeded();
 }
	// 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.h"

	#include "base/file_util.h"
	#include "base/lazy_instance.h"
	#include "base/path_service.h"
	#include "base/scoped_native_library.h"
	#include "chrome/common/chrome_paths.h"
	#include "chrome/common/chrome_utility_printing_messages.h"
	#include "chrome/utility/cloud_print/bitmap_image.h"
	#include "chrome/utility/cloud_print/pwg_encoder.h"
	#include "content/public/utility/utility_thread.h"
	#include "printing/page_range.h"
	#include "printing/pdf_render_settings.h"

	#if defined(OS_WIN)
	#include "base/win/iat_patch_function.h"
	#include "printing/emf_win.h"
	#include "ui/gfx/gdi_util.h"
	#endif

	#if defined(ENABLE_FULL_PRINTING)
	#include "chrome/common/crash_keys.h"
	#include "printing/backend/print_backend.h"
	#endif

	namespace {

	bool Send(IPC::Message* message) {
	return content::UtilityThread::Get()->Send(message);
	}

	void ReleaseProcessIfNeeded() {
	content::UtilityThread::Get()->ReleaseProcessIfNeeded();
	}

	class PdfFunctionsBase {
	public:
	PdfFunctionsBase() : render_pdf_to_bitmap_func_(NULL),
	get_pdf_doc_info_func_(NULL) {}

	bool Init() {
	base::FilePath pdf_module_path;
	if (!PathService::Get(chrome::FILE_PDF_PLUGIN, &pdf_module_path) \|\|
	!base::PathExists(pdf_module_path)) {
	return false;
	}

	pdf_lib_.Reset(base::LoadNativeLibrary(pdf_module_path, NULL));
	if (!pdf_lib_.is_valid()) {
	LOG(WARNING) << "Couldn't load PDF plugin";
	return false;
	}

	render_pdf_to_bitmap_func_ =
	reinterpret_cast<RenderPDFPageToBitmapProc>(
	pdf_lib_.GetFunctionPointer("RenderPDFPageToBitmap"));
	LOG_IF(WARNING, !render_pdf_to_bitmap_func_) <<
	"Missing RenderPDFPageToBitmap";

	get_pdf_doc_info_func_ =
	reinterpret_cast<GetPDFDocInfoProc>(
	pdf_lib_.GetFunctionPointer("GetPDFDocInfo"));
	LOG_IF(WARNING, !get_pdf_doc_info_func_) << "Missing GetPDFDocInfo";

	if (!render_pdf_to_bitmap_func_ \|\| !get_pdf_doc_info_func_ \|\|
	!PlatformInit(pdf_module_path, pdf_lib_)) {
	Reset();
	}

	return IsValid();
	}

	bool IsValid() const {
	return pdf_lib_.is_valid();
	}

	void Reset() {
	pdf_lib_.Reset(NULL);
	}

	bool RenderPDFPageToBitmap(const void* pdf_buffer,
	int pdf_buffer_size,
	int page_number,
	void* bitmap_buffer,
	int bitmap_width,
	int bitmap_height,
	int dpi_x,
	int dpi_y,
	bool autorotate) {
	if (!render_pdf_to_bitmap_func_)
	return false;
	return render_pdf_to_bitmap_func_(pdf_buffer, pdf_buffer_size, page_number,
	bitmap_buffer, bitmap_width,
	bitmap_height, dpi_x, dpi_y, autorotate);
	}

	bool GetPDFDocInfo(const void* pdf_buffer,
	int buffer_size,
	int* page_count,
	double* max_page_width) {
	if (!get_pdf_doc_info_func_)
	return false;
	return get_pdf_doc_info_func_(pdf_buffer, buffer_size, page_count,
	max_page_width);
	}

	protected:
	virtual bool PlatformInit(
	const base::FilePath& pdf_module_path,
	const base::ScopedNativeLibrary& pdf_lib) {
	return true;
	}

	private:
	// Exported by PDF plugin.
	typedef bool (RenderPDFPageToBitmapProc)(const void pdf_buffer,
	int pdf_buffer_size,
	int page_number,
	void* bitmap_buffer,
	int bitmap_width,
	int bitmap_height,
	int dpi_x,
	int dpi_y,
	bool autorotate);
	typedef bool (GetPDFDocInfoProc)(const void pdf_buffer,
	int buffer_size, int* page_count,
	double* max_page_width);

	RenderPDFPageToBitmapProc render_pdf_to_bitmap_func_;
	GetPDFDocInfoProc get_pdf_doc_info_func_;

	base::ScopedNativeLibrary pdf_lib_;
	DISALLOW_COPY_AND_ASSIGN(PdfFunctionsBase);
	};

	#if defined(OS_WIN)
	// The 2 below IAT patch functions are almost identical to the code in
	// render_process_impl.cc. This is needed to work around specific Windows APIs
	// used by the Chrome PDF plugin that will fail in the sandbox.
	static base::win::IATPatchFunction g_iat_patch_createdca;
	HDC WINAPI UtilityProcess_CreateDCAPatch(LPCSTR driver_name,
	LPCSTR device_name,
	LPCSTR output,
	const DEVMODEA* init_data) {
	if (driver_name && (std::string("DISPLAY") == driver_name)) {
	// CreateDC fails behind the sandbox, but not CreateCompatibleDC.
	return CreateCompatibleDC(NULL);
	}

	NOTREACHED();
	return CreateDCA(driver_name, device_name, output, init_data);
	}

	static base::win::IATPatchFunction g_iat_patch_get_font_data;
	DWORD WINAPI UtilityProcess_GetFontDataPatch(
	HDC hdc, DWORD table, DWORD offset, LPVOID buffer, DWORD length) {
	int rv = GetFontData(hdc, table, offset, buffer, length);
	if (rv == GDI_ERROR && hdc) {
	HFONT font = static_cast<HFONT>(GetCurrentObject(hdc, OBJ_FONT));

	LOGFONT logfont;
	if (GetObject(font, sizeof(LOGFONT), &logfont)) {
	content::UtilityThread::Get()->PreCacheFont(logfont);
	rv = GetFontData(hdc, table, offset, buffer, length);
	content::UtilityThread::Get()->ReleaseCachedFonts();
	}
	}
	return rv;
	}

	class PdfFunctionsWin : public PdfFunctionsBase {
	public:
	PdfFunctionsWin() : render_pdf_to_dc_func_(NULL) {
	}

	bool PlatformInit(
	const base::FilePath& pdf_module_path,
	const base::ScopedNativeLibrary& pdf_lib) OVERRIDE {
	// Patch the IAT for handling specific APIs known to fail in the sandbox.
	if (!g_iat_patch_createdca.is_patched()) {
	g_iat_patch_createdca.Patch(pdf_module_path.value().c_str(),
	"gdi32.dll", "CreateDCA",
	UtilityProcess_CreateDCAPatch);
	}

	if (!g_iat_patch_get_font_data.is_patched()) {
	g_iat_patch_get_font_data.Patch(pdf_module_path.value().c_str(),
	"gdi32.dll", "GetFontData",
	UtilityProcess_GetFontDataPatch);
	}
	render_pdf_to_dc_func_ =
	reinterpret_cast<RenderPDFPageToDCProc>(
	pdf_lib.GetFunctionPointer("RenderPDFPageToDC"));
	LOG_IF(WARNING, !render_pdf_to_dc_func_) << "Missing RenderPDFPageToDC";

	return render_pdf_to_dc_func_ != NULL;
	}

	bool RenderPDFPageToDC(const void* pdf_buffer,
	int buffer_size,
	int page_number,
	HDC dc,
	int dpi_x,
	int dpi_y,
	int bounds_origin_x,
	int bounds_origin_y,
	int bounds_width,
	int bounds_height,
	bool fit_to_bounds,
	bool stretch_to_bounds,
	bool keep_aspect_ratio,
	bool center_in_bounds,
	bool autorotate) {
	if (!render_pdf_to_dc_func_)
	return false;
	return render_pdf_to_dc_func_(pdf_buffer, buffer_size, page_number,
	dc, dpi_x, dpi_y, bounds_origin_x,
	bounds_origin_y, bounds_width, bounds_height,
	fit_to_bounds, stretch_to_bounds,
	keep_aspect_ratio, center_in_bounds,
	autorotate);
	}

	private:
	// Exported by PDF plugin.
	typedef bool (*RenderPDFPageToDCProc)(
	const void* pdf_buffer, int buffer_size, int page_number, HDC dc,
	int dpi_x, int dpi_y, int bounds_origin_x, int bounds_origin_y,
	int bounds_width, int bounds_height, bool fit_to_bounds,
	bool stretch_to_bounds, bool keep_aspect_ratio, bool center_in_bounds,
	bool autorotate);
	RenderPDFPageToDCProc render_pdf_to_dc_func_;

	DISALLOW_COPY_AND_ASSIGN(PdfFunctionsWin);
	};

	typedef PdfFunctionsWin PdfFunctions;
	#else // OS_WIN
	typedef PdfFunctionsBase PdfFunctions;
	#endif // OS_WIN

	base::LazyInstance<PdfFunctions> g_pdf_lib = LAZY_INSTANCE_INITIALIZER;

	} // namespace

	PrintingHandler::PrintingHandler() {}

	PrintingHandler::~PrintingHandler() {}

	// static
	void PrintingHandler::PreSandboxStartup() {
	g_pdf_lib.Get().Init();
	}

	bool PrintingHandler::OnMessageReceived(const IPC::Message& message) {
	bool handled = true;
	IPC_BEGIN_MESSAGE_MAP(PrintingHandler, message)
	#if defined(WIN_PDF_METAFILE_FOR_PRINTING)
	IPC_MESSAGE_HANDLER(ChromeUtilityMsg_RenderPDFPagesToMetafiles,
	OnRenderPDFPagesToMetafile)
	#endif
	IPC_MESSAGE_HANDLER(ChromeUtilityMsg_RenderPDFPagesToPWGRaster,
	OnRenderPDFPagesToPWGRaster)
	IPC_MESSAGE_HANDLER(ChromeUtilityMsg_GetPrinterCapsAndDefaults,
	OnGetPrinterCapsAndDefaults)
	IPC_MESSAGE_HANDLER(ChromeUtilityMsg_GetPrinterSemanticCapsAndDefaults,
	OnGetPrinterSemanticCapsAndDefaults)
	IPC_MESSAGE_UNHANDLED(handled = false)
	IPC_END_MESSAGE_MAP()
	return handled;
	}

	#if defined(WIN_PDF_METAFILE_FOR_PRINTING)
	void PrintingHandler::OnRenderPDFPagesToMetafile(
	IPC::PlatformFileForTransit pdf_transit,
	const base::FilePath& metafile_path,
	const printing::PdfRenderSettings& settings,
	const std::vector<printing::PageRange>& page_ranges_const) {
	bool succeeded = false;
	base::File pdf_file = IPC::PlatformFileForTransitToFile(pdf_transit);
	int highest_rendered_page_number = 0;
	double scale_factor = 1.0;
	std::vector<printing::PageRange> page_ranges = page_ranges_const;
	succeeded = RenderPDFToWinMetafile(pdf_file.Pass(),
	metafile_path,
	settings,
	&page_ranges,
	&highest_rendered_page_number,
	&scale_factor);
	if (succeeded) {
	// TODO(vitalybuka\|scottmg): http://crbug.com/170859. These could
	// potentially be sent as each page is converted so that the spool could
	// start sooner.
	Send(new ChromeUtilityHostMsg_RenderPDFPagesToMetafiles_Succeeded(
	page_ranges, scale_factor));
	} else {
	Send(new ChromeUtilityHostMsg_RenderPDFPagesToMetafile_Failed());
	}
	ReleaseProcessIfNeeded();
	}
	#endif

	void PrintingHandler::OnRenderPDFPagesToPWGRaster(
	IPC::PlatformFileForTransit pdf_transit,
	const printing::PdfRenderSettings& settings,
	const printing::PwgRasterSettings& bitmap_settings,
	IPC::PlatformFileForTransit bitmap_transit) {
	base::File pdf = IPC::PlatformFileForTransitToFile(pdf_transit);
	base::File bitmap = IPC::PlatformFileForTransitToFile(bitmap_transit);
	if (RenderPDFPagesToPWGRaster(pdf.Pass(), settings, bitmap_settings,
	bitmap.Pass())) {
	Send(new ChromeUtilityHostMsg_RenderPDFPagesToPWGRaster_Succeeded());
	} else {
	Send(new ChromeUtilityHostMsg_RenderPDFPagesToPWGRaster_Failed());
	}
	ReleaseProcessIfNeeded();
	}

	#if defined(WIN_PDF_METAFILE_FOR_PRINTING)
	bool PrintingHandler::RenderPDFToWinMetafile(
	base::File pdf_file,
	const base::FilePath& metafile_path,
	const printing::PdfRenderSettings& settings,
	std::vector<printing::PageRange>* page_ranges,
	int* highest_rendered_page_number,
	double* scale_factor) {
	DCHECK(page_ranges);
	*highest_rendered_page_number = -1;
	*scale_factor = 1.0;

	if (!g_pdf_lib.Get().IsValid())
	return false;

	// TODO(sanjeevr): Add a method to the PDF DLL that takes in a file handle
	// and a page range array. That way we don't need to read the entire PDF into
	// memory.
	int64 length = pdf_file.GetLength();
	if (length < 0)
	return false;

	std::vector<char> buffer;
	buffer.resize(length);
	if (length != pdf_file.Read(0, &buffer.front(), length))
	return false;

	int total_page_count = 0;
	if (!g_pdf_lib.Get().GetPDFDocInfo(&buffer.front(), buffer.size(),
	&total_page_count, NULL)) {
	return false;
	}

	// If no range supplied, do all pages.
	if (page_ranges->empty()) {
	printing::PageRange page_range_all;
	page_range_all.from = 0;
	page_range_all.to = total_page_count - 1;
	page_ranges->push_back(page_range_all);
	}

	bool ret = false;
	std::vector<printing::PageRange>::const_iterator iter;
	for (iter = page_ranges->begin(); iter != page_ranges->end(); ++iter) {
	for (int page_number = iter->from; page_number <= iter->to; ++page_number) {
	if (page_number >= total_page_count)
	break;

	printing::Emf metafile;
	metafile.InitToFile(metafile_path.InsertBeforeExtensionASCII(
	base::StringPrintf(".%d", page_number)));

	// 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).
	*scale_factor = gfx::CalculatePageScale(metafile.context(),
	settings.area().right(),
	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);
	if (g_pdf_lib.Get().RenderPDFPageToDC(
	&buffer.front(), buffer.size(), page_number, metafile.context(),
	settings.dpi(), settings.dpi(), settings.area().x(),
	settings.area().y(), settings.area().width(),
	settings.area().height(), true, false, true, true,
	settings.autorotate())) {
	if (*highest_rendered_page_number < page_number)
	*highest_rendered_page_number = page_number;
	ret = true;
	}
	metafile.FinishPage();
	metafile.FinishDocument();
	}
	}
	return ret;
	}
	#endif // defined(WIN_PDF_METAFILE_FOR_PRINTING)

	bool PrintingHandler::RenderPDFPagesToPWGRaster(
	base::File pdf_file,
	const printing::PdfRenderSettings& settings,
	const printing::PwgRasterSettings& bitmap_settings,
	base::File bitmap_file) {
	bool autoupdate = true;
	if (!g_pdf_lib.Get().IsValid())
	return false;

	base::File::Info info;
	if (!pdf_file.GetInfo(&info) \|\| info.size <= 0)
	return false;

	std::string data(info.size, 0);
	int data_size = pdf_file.Read(0, &data[0], data.size());
	if (data_size != static_cast<int>(data.size()))
	return false;

	int total_page_count = 0;
	if (!g_pdf_lib.Get().GetPDFDocInfo(data.data(), data.size(),
	&total_page_count, NULL)) {
	return false;
	}

	cloud_print::PwgEncoder encoder;
	std::string pwg_header;
	encoder.EncodeDocumentHeader(&pwg_header);
	int bytes_written = bitmap_file.WriteAtCurrentPos(pwg_header.data(),
	pwg_header.size());
	if (bytes_written != static_cast<int>(pwg_header.size()))
	return false;

	cloud_print::BitmapImage image(settings.area().size(),
	cloud_print::BitmapImage::BGRA);
	for (int i = 0; i < total_page_count; ++i) {
	int page_number = i;

	if (bitmap_settings.reverse_page_order) {
	page_number = total_page_count - 1 - page_number;
	}

	if (!g_pdf_lib.Get().RenderPDFPageToBitmap(data.data(),
	data.size(),
	page_number,
	image.pixel_data(),
	image.size().width(),
	image.size().height(),
	settings.dpi(),
	settings.dpi(),
	autoupdate)) {
	return false;
	}

	cloud_print::PwgHeaderInfo header_info;
	header_info.dpi = settings.dpi();
	header_info.total_pages = total_page_count;

	// Transform odd pages.
	if (page_number % 2) {
	switch (bitmap_settings.odd_page_transform) {
	case printing::TRANSFORM_NORMAL:
	break;
	case printing::TRANSFORM_ROTATE_180:
	header_info.flipx = true;
	header_info.flipy = true;
	break;
	case printing::TRANSFORM_FLIP_HORIZONTAL:
	header_info.flipx = true;
	break;
	case printing::TRANSFORM_FLIP_VERTICAL:
	header_info.flipy = true;
	break;
	}
	}

	if (bitmap_settings.rotate_all_pages) {
	header_info.flipx = !header_info.flipx;
	header_info.flipy = !header_info.flipy;
	}

	std::string pwg_page;
	if (!encoder.EncodePage(image, header_info, &pwg_page))
	return false;
	bytes_written = bitmap_file.WriteAtCurrentPos(pwg_page.data(),
	pwg_page.size());
	if (bytes_written != static_cast<int>(pwg_page.size()))
	return false;
	}
	return true;
	}

	void PrintingHandler::OnGetPrinterCapsAndDefaults(
	const std::string& printer_name) {
	scoped_refptr<printing::PrintBackend> print_backend =
	printing::PrintBackend::CreateInstance(NULL);
	printing::PrinterCapsAndDefaults printer_info;

	crash_keys::ScopedPrinterInfo crash_key(
	print_backend->GetPrinterDriverInfo(printer_name));

	if (print_backend->GetPrinterCapsAndDefaults(printer_name, &printer_info)) {
	Send(new ChromeUtilityHostMsg_GetPrinterCapsAndDefaults_Succeeded(
	printer_name, printer_info));
	} else {
	Send(new ChromeUtilityHostMsg_GetPrinterCapsAndDefaults_Failed(
	printer_name));
	}
	ReleaseProcessIfNeeded();
	}

	void PrintingHandler::OnGetPrinterSemanticCapsAndDefaults(
	const std::string& printer_name) {
	scoped_refptr<printing::PrintBackend> print_backend =
	printing::PrintBackend::CreateInstance(NULL);
	printing::PrinterSemanticCapsAndDefaults printer_info;

	crash_keys::ScopedPrinterInfo crash_key(
	print_backend->GetPrinterDriverInfo(printer_name));

	if (print_backend->GetPrinterSemanticCapsAndDefaults(printer_name,
	&printer_info)) {
	Send(new ChromeUtilityHostMsg_GetPrinterSemanticCapsAndDefaults_Succeeded(
	printer_name, printer_info));
	} else {
	Send(new ChromeUtilityHostMsg_GetPrinterSemanticCapsAndDefaults_Failed(
	printer_name));
	}
	ReleaseProcessIfNeeded();
	}