printing/printing_context_chromeos.cc - chromium/src - Git at Google

 // Copyright 2016 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/printing_context_chromeos.h"

 #include <cups/cups.h>
 #include <stdint.h>
 #include <unicode/ulocdata.h>

 #include <map>
 #include <memory>
 #include <utility>
 #include <vector>

 #include "base/feature_list.h"
 #include "base/logging.h"
 #include "base/metrics/histogram_functions.h"
 #include "base/no_destructor.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/strings/string_util.h"
 #include "base/strings/stringprintf.h"
 #include "base/strings/utf_string_conversions.h"
 #include "printing/backend/cups_connection.h"
 #include "printing/backend/cups_ipp_constants.h"
 #include "printing/backend/cups_ipp_helper.h"
 #include "printing/backend/cups_printer.h"
 #include "printing/metafile.h"
 #include "printing/mojom/print.mojom.h"
 #include "printing/print_job_constants.h"
 #include "printing/print_settings.h"
 #include "printing/printing_features.h"
 #include "printing/units.h"

 namespace printing {

 namespace {

 // Convert from a ColorMode setting to a print-color-mode value from PWG 5100.13
 const char* GetColorModelForMode(int color_mode) {
   const char* mode_string;
   base::Optional<bool> is_color = IsColorModelSelected(color_mode);
   if (is_color.has_value()) {
     mode_string = is_color.value() ? CUPS_PRINT_COLOR_MODE_COLOR
                                    : CUPS_PRINT_COLOR_MODE_MONOCHROME;
   } else {
     mode_string = nullptr;
   }

   return mode_string;
 }

 // Returns a new char buffer which is a null-terminated copy of |value|.  The
 // caller owns the returned string.
 char* DuplicateString(const base::StringPiece value) {
   char* dst = new char[value.size() + 1];
   value.copy(dst, value.size());
   dst[value.size()] = '\0';
   return dst;
 }

 ScopedCupsOption ConstructOption(const base::StringPiece name,
                                  const base::StringPiece value) {
   // ScopedCupsOption frees the name and value buffers on deletion
   ScopedCupsOption option = ScopedCupsOption(new cups_option_t);
   option->name = DuplicateString(name);
   option->value = DuplicateString(value);
   return option;
 }

 base::StringPiece GetCollateString(bool collate) {
   return collate ? kCollated : kUncollated;
 }

 // This enum is used for UMA. It shouldn't be renumbered and numeric values
 // shouldn't be reused.
 enum class Attribute {
   kConfirmationSheetPrint = 0,
   kFinishings = 1,
   kIppAttributeFidelity = 2,
   kJobName = 3,
   kJobPriority = 4,
   kJobSheets = 5,
   kMultipleDocumentHandling = 6,
   kOrientationRequested = 7,
   kOutputBin = 8,
   kPrintQuality = 9,
   kMaxValue = kPrintQuality,
 };

 using AttributeMap = std::map<base::StringPiece, Attribute>;

 AttributeMap GenerateAttributeMap() {
   AttributeMap result;
   result.emplace("confirmation-sheet-print",
                  Attribute::kConfirmationSheetPrint);
   result.emplace("finishings", Attribute::kFinishings);
   result.emplace("ipp-attribute-fidelity", Attribute::kIppAttributeFidelity);
   result.emplace("job-name", Attribute::kJobName);
   result.emplace("job-priority", Attribute::kJobPriority);
   result.emplace("job-sheets", Attribute::kJobSheets);
   result.emplace("multiple-document-handling",
                  Attribute::kMultipleDocumentHandling);
   result.emplace("orientation-requested", Attribute::kOrientationRequested);
   result.emplace("output-bin", Attribute::kOutputBin);
   result.emplace("print-quality", Attribute::kPrintQuality);
   return result;
 }

 void ReportEnumUsage(const std::string& attribute_name) {
   static const base::NoDestructor<AttributeMap> attributes(
       GenerateAttributeMap());
   auto it = attributes->find(attribute_name);
   if (it == attributes->end())
     return;

   base::UmaHistogramEnumeration("Printing.CUPS.IppAttributes", it->second);
 }

 // This records UMA for advanced attributes usage, so only call once per job.
 std::vector<ScopedCupsOption> SettingsToCupsOptions(
     const PrintSettings& settings) {
   const char* sides = nullptr;
   switch (settings.duplex_mode()) {
     case mojom::DuplexMode::kSimplex:
       sides = CUPS_SIDES_ONE_SIDED;
       break;
     case mojom::DuplexMode::kLongEdge:
       sides = CUPS_SIDES_TWO_SIDED_PORTRAIT;
       break;
     case mojom::DuplexMode::kShortEdge:
       sides = CUPS_SIDES_TWO_SIDED_LANDSCAPE;
       break;
     default:
       NOTREACHED();
   }

   std::vector<ScopedCupsOption> options;
   options.push_back(
       ConstructOption(kIppColor,
                       GetColorModelForMode(settings.color())));  // color
   options.push_back(ConstructOption(kIppDuplex, sides));         // duplexing
   options.push_back(
       ConstructOption(kIppMedia,
                       settings.requested_media().vendor_id));  // paper size
   options.push_back(
       ConstructOption(kIppCopies,
                       base::NumberToString(settings.copies())));  // copies
   options.push_back(
       ConstructOption(kIppCollate,
                       GetCollateString(settings.collate())));  // collate
   if (!settings.pin_value().empty()) {
     options.push_back(ConstructOption(kIppPin, settings.pin_value()));
     options.push_back(ConstructOption(kIppPinEncryption, kPinEncryptionNone));
   }

   if (base::FeatureList::IsEnabled(
           printing::features::kAdvancedPpdAttributes)) {
     size_t regular_attr_count = options.size();
     std::map<std::string, std::vector<std::string>> multival;
     for (const auto& setting : settings.advanced_settings()) {
       const std::string& key = setting.first;
       const std::string& value = setting.second.GetString();
       if (value.empty())
         continue;

       // Check for multivalue enum ("attribute/value").
       size_t pos = key.find('/');
       if (pos == std::string::npos) {
         // Regular value.
         ReportEnumUsage(key);
         options.push_back(ConstructOption(key, value));
         continue;
       }
       // Store selected enum values.
       if (value == kOptionTrue)
         multival[key.substr(0, pos)].push_back(key.substr(pos + 1));
     }
     // Pass multivalue enums as comma-separated lists.
     for (const auto& it : multival) {
       ReportEnumUsage(it.first);
       options.push_back(
           ConstructOption(it.first, base::JoinString(it.second, ",")));
     }
     base::UmaHistogramCounts1000("Printing.CUPS.IppAttributesUsed",
                                  options.size() - regular_attr_count);
   }

   return options;
 }

 // Given an integral |value| expressed in PWG units (1/100 mm), returns
 // the same value expressed in device units.
 int PwgUnitsToDeviceUnits(int value, float micrometers_per_device_unit) {
   return ConvertUnitDouble(value, micrometers_per_device_unit, 10);
 }

 // Given a |media_size|, the specification of the media's |margins|, and
 // the number of micrometers per device unit, returns the rectangle
 // bounding the apparent printable area of said media.
 gfx::Rect RepresentPrintableArea(const gfx::Size& media_size,
                                  const CupsPrinter::CupsMediaMargins& margins,
                                  float micrometers_per_device_unit) {
   // These values express inward encroachment by margins, away from the
   // edges of the |media_size|.
   int left_bound =
       PwgUnitsToDeviceUnits(margins.left, micrometers_per_device_unit);
   int bottom_bound =
       PwgUnitsToDeviceUnits(margins.bottom, micrometers_per_device_unit);
   int right_bound =
       PwgUnitsToDeviceUnits(margins.right, micrometers_per_device_unit);
   int top_bound =
       PwgUnitsToDeviceUnits(margins.top, micrometers_per_device_unit);

   // These values express the bounding box of the printable area on the
   // page.
   int printable_width = media_size.width() - (left_bound + right_bound);
   int printable_height = media_size.height() - (top_bound + bottom_bound);

   if (printable_width > 0 && printable_height > 0) {
     return {left_bound, bottom_bound, printable_width, printable_height};
   }

   return {0, 0, media_size.width(), media_size.height()};
 }

 void SetPrintableArea(PrintSettings* settings,
                       const PrintSettings::RequestedMedia& media,
                       const CupsPrinter::CupsMediaMargins& margins,
                       bool flip) {
   if (!media.size_microns.IsEmpty()) {
     float device_microns_per_device_unit =
         static_cast<float>(kMicronsPerInch) / settings->device_units_per_inch();
     gfx::Size paper_size =
         gfx::Size(media.size_microns.width() / device_microns_per_device_unit,
                   media.size_microns.height() / device_microns_per_device_unit);

     gfx::Rect paper_rect = RepresentPrintableArea(
         paper_size, margins, device_microns_per_device_unit);
     settings->SetPrinterPrintableArea(paper_size, paper_rect, flip);
   }
 }

 }  // namespace

 // static
 std::unique_ptr<PrintingContext> PrintingContext::Create(Delegate* delegate) {
   return std::make_unique<PrintingContextChromeos>(delegate);
 }

 PrintingContextChromeos::PrintingContextChromeos(Delegate* delegate)
     : PrintingContext(delegate),
       connection_(GURL(), HTTP_ENCRYPT_NEVER, true),
       send_user_info_(false) {}

 PrintingContextChromeos::~PrintingContextChromeos() {
   ReleaseContext();
 }

 void PrintingContextChromeos::AskUserForSettings(
     int max_pages,
     bool has_selection,
     bool is_scripted,
     PrintSettingsCallback callback) {
   // We don't want to bring up a dialog here.  Ever.  This should not be called.
   NOTREACHED();
 }

 PrintingContext::Result PrintingContextChromeos::UseDefaultSettings() {
   DCHECK(!in_print_job_);

   ResetSettings();

   std::string device_name = base::UTF16ToUTF8(settings_->device_name());
   if (device_name.empty())
     return OnError();

   // TODO(skau): https://crbug.com/613779. See UpdatePrinterSettings for more
   // info.
   if (settings_->dpi() == 0) {
     DVLOG(1) << "Using Default DPI";
     settings_->set_dpi(kDefaultPdfDpi);
   }

   // Retrieve device information and set it
   if (InitializeDevice(device_name) != OK) {
     LOG(ERROR) << "Could not initialize printer";
     return OnError();
   }

   // Set printable area
   DCHECK(printer_);
   PrinterSemanticCapsAndDefaults::Paper paper = DefaultPaper(*printer_);

   PrintSettings::RequestedMedia media;
   media.vendor_id = paper.vendor_id;
   media.size_microns = paper.size_um;
   settings_->set_requested_media(media);

   CupsPrinter::CupsMediaMargins margins =
       printer_->GetMediaMarginsByName(paper.vendor_id);
   SetPrintableArea(settings_.get(), media, margins, true /* flip landscape */);

   return OK;
 }

 gfx::Size PrintingContextChromeos::GetPdfPaperSizeDeviceUnits() {
   int32_t width = 0;
   int32_t height = 0;
   UErrorCode error = U_ZERO_ERROR;
   ulocdata_getPaperSize(delegate_->GetAppLocale().c_str(), &height, &width,
                         &error);
   if (error > U_ZERO_ERROR) {
     // If the call failed, assume a paper size of 8.5 x 11 inches.
     LOG(WARNING) << "ulocdata_getPaperSize failed, using 8.5 x 11, error: "
                  << error;
     width =
         static_cast<int>(kLetterWidthInch * settings_->device_units_per_inch());
     height = static_cast<int>(kLetterHeightInch *
                               settings_->device_units_per_inch());
   } else {
     // ulocdata_getPaperSize returns the width and height in mm.
     // Convert this to pixels based on the dpi.
     float multiplier = settings_->device_units_per_inch() / kMicronsPerMil;
     width *= multiplier;
     height *= multiplier;
   }
   return gfx::Size(width, height);
 }

 PrintingContext::Result PrintingContextChromeos::UpdatePrinterSettings(
     bool external_preview,
     bool show_system_dialog,
     int page_count) {
   DCHECK(!show_system_dialog);

   if (InitializeDevice(base::UTF16ToUTF8(settings_->device_name())) != OK)
     return OnError();

   // TODO(skau): Convert to DCHECK when https://crbug.com/613779 is resolved
   // Print quality suffers when this is set to the resolution reported by the
   // printer but print quality is fine at this resolution. UseDefaultSettings
   // exhibits the same problem.
   if (settings_->dpi() == 0) {
     DVLOG(1) << "Using Default DPI";
     settings_->set_dpi(kDefaultPdfDpi);
   }

   // compute paper size
   PrintSettings::RequestedMedia media = settings_->requested_media();

   DCHECK(printer_);
   if (media.IsDefault()) {
     PrinterSemanticCapsAndDefaults::Paper paper = DefaultPaper(*printer_);

     media.vendor_id = paper.vendor_id;
     media.size_microns = paper.size_um;
     settings_->set_requested_media(media);
   }

   CupsPrinter::CupsMediaMargins margins =
       printer_->GetMediaMarginsByName(media.vendor_id);
   SetPrintableArea(settings_.get(), media, margins, true);
   cups_options_ = SettingsToCupsOptions(*settings_);
   send_user_info_ = settings_->send_user_info();
   if (send_user_info_) {
     DCHECK(printer_);
     std::string uri_string = printer_->GetUri();
     const base::StringPiece uri(uri_string);
     if (!uri.starts_with("ipps:") && !uri.starts_with("https:") &&
         !uri.starts_with("usb:") && !uri.starts_with("ippusb:")) {
       return OnError();
     }
   }
   username_ = send_user_info_ ? settings_->username() : std::string();

   return OK;
 }

 PrintingContext::Result PrintingContextChromeos::InitializeDevice(
     const std::string& device) {
   DCHECK(!in_print_job_);

   std::unique_ptr<CupsPrinter> printer = connection_.GetPrinter(device);
   if (!printer) {
     LOG(WARNING) << "Could not initialize device";
     return OnError();
   }

   printer_ = std::move(printer);

   return OK;
 }

 PrintingContext::Result PrintingContextChromeos::NewDocument(
     const base::string16& document_name) {
   DCHECK(!in_print_job_);
   in_print_job_ = true;

   std::string converted_name;
   if (send_user_info_)
     converted_name = base::UTF16ToUTF8(document_name);

   std::vector<cups_option_t> options;
   for (const ScopedCupsOption& option : cups_options_) {
     if (printer_->CheckOptionSupported(option->name, option->value)) {
       options.push_back(*(option.get()));
     } else {
       DVLOG(1) << "Unsupported option skipped " << option->name << ", "
                << option->value;
     }
   }

   ipp_status_t create_status =
       printer_->CreateJob(&job_id_, converted_name, username_, options);

   if (job_id_ == 0) {
     DLOG(WARNING) << "Creating cups job failed"
                   << ippErrorString(create_status);
     return OnError();
   }

   // we only send one document, so it's always the last one
   if (!printer_->StartDocument(job_id_, converted_name, true, username_,
                                options)) {
     LOG(ERROR) << "Starting document failed";
     return OnError();
   }

   return OK;
 }

 PrintingContext::Result PrintingContextChromeos::NewPage() {
   if (abort_printing_)
     return CANCEL;

   DCHECK(in_print_job_);

   // Intentional No-op.

   return OK;
 }

 PrintingContext::Result PrintingContextChromeos::PageDone() {
   if (abort_printing_)
     return CANCEL;

   DCHECK(in_print_job_);

   // Intentional No-op.

   return OK;
 }

 PrintingContext::Result PrintingContextChromeos::DocumentDone() {
   if (abort_printing_)
     return CANCEL;

   DCHECK(in_print_job_);

   if (!printer_->FinishDocument()) {
     LOG(WARNING) << "Finishing document failed";
     return OnError();
   }

   ipp_status_t job_status = printer_->CloseJob(job_id_, username_);
   job_id_ = 0;

   if (job_status != IPP_STATUS_OK) {
     LOG(WARNING) << "Closing job failed";
     return OnError();
   }

   ResetSettings();
   return OK;
 }

 void PrintingContextChromeos::Cancel() {
   abort_printing_ = true;
   in_print_job_ = false;
 }

 void PrintingContextChromeos::ReleaseContext() {
   printer_.reset();
 }

 printing::NativeDrawingContext PrintingContextChromeos::context() const {
   // Intentional No-op.
   return nullptr;
 }

 PrintingContext::Result PrintingContextChromeos::StreamData(
     const std::vector<char>& buffer) {
   if (abort_printing_)
     return CANCEL;

   DCHECK(in_print_job_);
   DCHECK(printer_);

   if (!printer_->StreamData(buffer))
     return OnError();

   return OK;
 }

 }  // namespace printing
	// Copyright 2016 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/printing_context_chromeos.h"

	#include <cups/cups.h>
	#include <stdint.h>
	#include <unicode/ulocdata.h>

	#include <map>
	#include <memory>
	#include <utility>
	#include <vector>

	#include "base/feature_list.h"
	#include "base/logging.h"
	#include "base/metrics/histogram_functions.h"
	#include "base/no_destructor.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/strings/string_util.h"
	#include "base/strings/stringprintf.h"
	#include "base/strings/utf_string_conversions.h"
	#include "printing/backend/cups_connection.h"
	#include "printing/backend/cups_ipp_constants.h"
	#include "printing/backend/cups_ipp_helper.h"
	#include "printing/backend/cups_printer.h"
	#include "printing/metafile.h"
	#include "printing/mojom/print.mojom.h"
	#include "printing/print_job_constants.h"
	#include "printing/print_settings.h"
	#include "printing/printing_features.h"
	#include "printing/units.h"

	namespace printing {

	namespace {

	// Convert from a ColorMode setting to a print-color-mode value from PWG 5100.13
	const char* GetColorModelForMode(int color_mode) {
	const char* mode_string;
	base::Optional<bool> is_color = IsColorModelSelected(color_mode);
	if (is_color.has_value()) {
	mode_string = is_color.value() ? CUPS_PRINT_COLOR_MODE_COLOR
	: CUPS_PRINT_COLOR_MODE_MONOCHROME;
	} else {
	mode_string = nullptr;
	}

	return mode_string;
	}

	// Returns a new char buffer which is a null-terminated copy of \|value\|. The
	// caller owns the returned string.
	char* DuplicateString(const base::StringPiece value) {
	char* dst = new char[value.size() + 1];
	value.copy(dst, value.size());
	dst[value.size()] = '\0';
	return dst;
	}

	ScopedCupsOption ConstructOption(const base::StringPiece name,
	const base::StringPiece value) {
	// ScopedCupsOption frees the name and value buffers on deletion
	ScopedCupsOption option = ScopedCupsOption(new cups_option_t);
	option->name = DuplicateString(name);
	option->value = DuplicateString(value);
	return option;
	}

	base::StringPiece GetCollateString(bool collate) {
	return collate ? kCollated : kUncollated;
	}

	// This enum is used for UMA. It shouldn't be renumbered and numeric values
	// shouldn't be reused.
	enum class Attribute {
	kConfirmationSheetPrint = 0,
	kFinishings = 1,
	kIppAttributeFidelity = 2,
	kJobName = 3,
	kJobPriority = 4,
	kJobSheets = 5,
	kMultipleDocumentHandling = 6,
	kOrientationRequested = 7,
	kOutputBin = 8,
	kPrintQuality = 9,
	kMaxValue = kPrintQuality,
	};

	using AttributeMap = std::map<base::StringPiece, Attribute>;

	AttributeMap GenerateAttributeMap() {
	AttributeMap result;
	result.emplace("confirmation-sheet-print",
	Attribute::kConfirmationSheetPrint);
	result.emplace("finishings", Attribute::kFinishings);
	result.emplace("ipp-attribute-fidelity", Attribute::kIppAttributeFidelity);
	result.emplace("job-name", Attribute::kJobName);
	result.emplace("job-priority", Attribute::kJobPriority);
	result.emplace("job-sheets", Attribute::kJobSheets);
	result.emplace("multiple-document-handling",
	Attribute::kMultipleDocumentHandling);
	result.emplace("orientation-requested", Attribute::kOrientationRequested);
	result.emplace("output-bin", Attribute::kOutputBin);
	result.emplace("print-quality", Attribute::kPrintQuality);
	return result;
	}

	void ReportEnumUsage(const std::string& attribute_name) {
	static const base::NoDestructor<AttributeMap> attributes(
	GenerateAttributeMap());
	auto it = attributes->find(attribute_name);
	if (it == attributes->end())
	return;

	base::UmaHistogramEnumeration("Printing.CUPS.IppAttributes", it->second);
	}

	// This records UMA for advanced attributes usage, so only call once per job.
	std::vector<ScopedCupsOption> SettingsToCupsOptions(
	const PrintSettings& settings) {
	const char* sides = nullptr;
	switch (settings.duplex_mode()) {
	case mojom::DuplexMode::kSimplex:
	sides = CUPS_SIDES_ONE_SIDED;
	break;
	case mojom::DuplexMode::kLongEdge:
	sides = CUPS_SIDES_TWO_SIDED_PORTRAIT;
	break;
	case mojom::DuplexMode::kShortEdge:
	sides = CUPS_SIDES_TWO_SIDED_LANDSCAPE;
	break;
	default:
	NOTREACHED();
	}

	std::vector<ScopedCupsOption> options;
	options.push_back(
	ConstructOption(kIppColor,
	GetColorModelForMode(settings.color()))); // color
	options.push_back(ConstructOption(kIppDuplex, sides)); // duplexing
	options.push_back(
	ConstructOption(kIppMedia,
	settings.requested_media().vendor_id)); // paper size
	options.push_back(
	ConstructOption(kIppCopies,
	base::NumberToString(settings.copies()))); // copies
	options.push_back(
	ConstructOption(kIppCollate,
	GetCollateString(settings.collate()))); // collate
	if (!settings.pin_value().empty()) {
	options.push_back(ConstructOption(kIppPin, settings.pin_value()));
	options.push_back(ConstructOption(kIppPinEncryption, kPinEncryptionNone));
	}

	if (base::FeatureList::IsEnabled(
	printing::features::kAdvancedPpdAttributes)) {
	size_t regular_attr_count = options.size();
	std::map<std::string, std::vector<std::string>> multival;
	for (const auto& setting : settings.advanced_settings()) {
	const std::string& key = setting.first;
	const std::string& value = setting.second.GetString();
	if (value.empty())
	continue;

	// Check for multivalue enum ("attribute/value").
	size_t pos = key.find('/');
	if (pos == std::string::npos) {
	// Regular value.
	ReportEnumUsage(key);
	options.push_back(ConstructOption(key, value));
	continue;
	}
	// Store selected enum values.
	if (value == kOptionTrue)
	multival[key.substr(0, pos)].push_back(key.substr(pos + 1));
	}
	// Pass multivalue enums as comma-separated lists.
	for (const auto& it : multival) {
	ReportEnumUsage(it.first);
	options.push_back(
	ConstructOption(it.first, base::JoinString(it.second, ",")));
	}
	base::UmaHistogramCounts1000("Printing.CUPS.IppAttributesUsed",
	options.size() - regular_attr_count);
	}

	return options;
	}

	// Given an integral \|value\| expressed in PWG units (1/100 mm), returns
	// the same value expressed in device units.
	int PwgUnitsToDeviceUnits(int value, float micrometers_per_device_unit) {
	return ConvertUnitDouble(value, micrometers_per_device_unit, 10);
	}

	// Given a \|media_size\|, the specification of the media's \|margins\|, and
	// the number of micrometers per device unit, returns the rectangle
	// bounding the apparent printable area of said media.
	gfx::Rect RepresentPrintableArea(const gfx::Size& media_size,
	const CupsPrinter::CupsMediaMargins& margins,
	float micrometers_per_device_unit) {
	// These values express inward encroachment by margins, away from the
	// edges of the \|media_size\|.
	int left_bound =
	PwgUnitsToDeviceUnits(margins.left, micrometers_per_device_unit);
	int bottom_bound =
	PwgUnitsToDeviceUnits(margins.bottom, micrometers_per_device_unit);
	int right_bound =
	PwgUnitsToDeviceUnits(margins.right, micrometers_per_device_unit);
	int top_bound =
	PwgUnitsToDeviceUnits(margins.top, micrometers_per_device_unit);

	// These values express the bounding box of the printable area on the
	// page.
	int printable_width = media_size.width() - (left_bound + right_bound);
	int printable_height = media_size.height() - (top_bound + bottom_bound);

	if (printable_width > 0 && printable_height > 0) {
	return {left_bound, bottom_bound, printable_width, printable_height};
	}

	return {0, 0, media_size.width(), media_size.height()};
	}

	void SetPrintableArea(PrintSettings* settings,
	const PrintSettings::RequestedMedia& media,
	const CupsPrinter::CupsMediaMargins& margins,
	bool flip) {
	if (!media.size_microns.IsEmpty()) {
	float device_microns_per_device_unit =
	static_cast<float>(kMicronsPerInch) / settings->device_units_per_inch();
	gfx::Size paper_size =
	gfx::Size(media.size_microns.width() / device_microns_per_device_unit,
	media.size_microns.height() / device_microns_per_device_unit);

	gfx::Rect paper_rect = RepresentPrintableArea(
	paper_size, margins, device_microns_per_device_unit);
	settings->SetPrinterPrintableArea(paper_size, paper_rect, flip);
	}
	}

	} // namespace

	// static
	std::unique_ptr<PrintingContext> PrintingContext::Create(Delegate* delegate) {
	return std::make_unique<PrintingContextChromeos>(delegate);
	}

	PrintingContextChromeos::PrintingContextChromeos(Delegate* delegate)
	: PrintingContext(delegate),
	connection_(GURL(), HTTP_ENCRYPT_NEVER, true),
	send_user_info_(false) {}

	PrintingContextChromeos::~PrintingContextChromeos() {
	ReleaseContext();
	}

	void PrintingContextChromeos::AskUserForSettings(
	int max_pages,
	bool has_selection,
	bool is_scripted,
	PrintSettingsCallback callback) {
	// We don't want to bring up a dialog here. Ever. This should not be called.
	NOTREACHED();
	}

	PrintingContext::Result PrintingContextChromeos::UseDefaultSettings() {
	DCHECK(!in_print_job_);

	ResetSettings();

	std::string device_name = base::UTF16ToUTF8(settings_->device_name());
	if (device_name.empty())
	return OnError();

	// TODO(skau): https://crbug.com/613779. See UpdatePrinterSettings for more
	// info.
	if (settings_->dpi() == 0) {
	DVLOG(1) << "Using Default DPI";
	settings_->set_dpi(kDefaultPdfDpi);
	}

	// Retrieve device information and set it
	if (InitializeDevice(device_name) != OK) {
	LOG(ERROR) << "Could not initialize printer";
	return OnError();
	}

	// Set printable area
	DCHECK(printer_);
	PrinterSemanticCapsAndDefaults::Paper paper = DefaultPaper(*printer_);

	PrintSettings::RequestedMedia media;
	media.vendor_id = paper.vendor_id;
	media.size_microns = paper.size_um;
	settings_->set_requested_media(media);

	CupsPrinter::CupsMediaMargins margins =
	printer_->GetMediaMarginsByName(paper.vendor_id);
	SetPrintableArea(settings_.get(), media, margins, true /* flip landscape */);

	return OK;
	}

	gfx::Size PrintingContextChromeos::GetPdfPaperSizeDeviceUnits() {
	int32_t width = 0;
	int32_t height = 0;
	UErrorCode error = U_ZERO_ERROR;
	ulocdata_getPaperSize(delegate_->GetAppLocale().c_str(), &height, &width,
	&error);
	if (error > U_ZERO_ERROR) {
	// If the call failed, assume a paper size of 8.5 x 11 inches.
	LOG(WARNING) << "ulocdata_getPaperSize failed, using 8.5 x 11, error: "
	<< error;
	width =
	static_cast<int>(kLetterWidthInch * settings_->device_units_per_inch());
	height = static_cast<int>(kLetterHeightInch *
	settings_->device_units_per_inch());
	} else {
	// ulocdata_getPaperSize returns the width and height in mm.
	// Convert this to pixels based on the dpi.
	float multiplier = settings_->device_units_per_inch() / kMicronsPerMil;
	width *= multiplier;
	height *= multiplier;
	}
	return gfx::Size(width, height);
	}

	PrintingContext::Result PrintingContextChromeos::UpdatePrinterSettings(
	bool external_preview,
	bool show_system_dialog,
	int page_count) {
	DCHECK(!show_system_dialog);

	if (InitializeDevice(base::UTF16ToUTF8(settings_->device_name())) != OK)
	return OnError();

	// TODO(skau): Convert to DCHECK when https://crbug.com/613779 is resolved
	// Print quality suffers when this is set to the resolution reported by the
	// printer but print quality is fine at this resolution. UseDefaultSettings
	// exhibits the same problem.
	if (settings_->dpi() == 0) {
	DVLOG(1) << "Using Default DPI";
	settings_->set_dpi(kDefaultPdfDpi);
	}

	// compute paper size
	PrintSettings::RequestedMedia media = settings_->requested_media();

	DCHECK(printer_);
	if (media.IsDefault()) {
	PrinterSemanticCapsAndDefaults::Paper paper = DefaultPaper(*printer_);

	media.vendor_id = paper.vendor_id;
	media.size_microns = paper.size_um;
	settings_->set_requested_media(media);
	}

	CupsPrinter::CupsMediaMargins margins =
	printer_->GetMediaMarginsByName(media.vendor_id);
	SetPrintableArea(settings_.get(), media, margins, true);
	cups_options_ = SettingsToCupsOptions(*settings_);
	send_user_info_ = settings_->send_user_info();
	if (send_user_info_) {
	DCHECK(printer_);
	std::string uri_string = printer_->GetUri();
	const base::StringPiece uri(uri_string);
	if (!uri.starts_with("ipps:") && !uri.starts_with("https:") &&
	!uri.starts_with("usb:") && !uri.starts_with("ippusb:")) {
	return OnError();
	}
	}
	username_ = send_user_info_ ? settings_->username() : std::string();

	return OK;
	}

	PrintingContext::Result PrintingContextChromeos::InitializeDevice(
	const std::string& device) {
	DCHECK(!in_print_job_);

	std::unique_ptr<CupsPrinter> printer = connection_.GetPrinter(device);
	if (!printer) {
	LOG(WARNING) << "Could not initialize device";
	return OnError();
	}

	printer_ = std::move(printer);

	return OK;
	}

	PrintingContext::Result PrintingContextChromeos::NewDocument(
	const base::string16& document_name) {
	DCHECK(!in_print_job_);
	in_print_job_ = true;

	std::string converted_name;
	if (send_user_info_)
	converted_name = base::UTF16ToUTF8(document_name);

	std::vector<cups_option_t> options;
	for (const ScopedCupsOption& option : cups_options_) {
	if (printer_->CheckOptionSupported(option->name, option->value)) {
	options.push_back(*(option.get()));
	} else {
	DVLOG(1) << "Unsupported option skipped " << option->name << ", "
	<< option->value;
	}
	}

	ipp_status_t create_status =
	printer_->CreateJob(&job_id_, converted_name, username_, options);

	if (job_id_ == 0) {
	DLOG(WARNING) << "Creating cups job failed"
	<< ippErrorString(create_status);
	return OnError();
	}

	// we only send one document, so it's always the last one
	if (!printer_->StartDocument(job_id_, converted_name, true, username_,
	options)) {
	LOG(ERROR) << "Starting document failed";
	return OnError();
	}

	return OK;
	}

	PrintingContext::Result PrintingContextChromeos::NewPage() {
	if (abort_printing_)
	return CANCEL;

	DCHECK(in_print_job_);

	// Intentional No-op.

	return OK;
	}

	PrintingContext::Result PrintingContextChromeos::PageDone() {
	if (abort_printing_)
	return CANCEL;

	DCHECK(in_print_job_);

	// Intentional No-op.

	return OK;
	}

	PrintingContext::Result PrintingContextChromeos::DocumentDone() {
	if (abort_printing_)
	return CANCEL;

	DCHECK(in_print_job_);

	if (!printer_->FinishDocument()) {
	LOG(WARNING) << "Finishing document failed";
	return OnError();
	}

	ipp_status_t job_status = printer_->CloseJob(job_id_, username_);
	job_id_ = 0;

	if (job_status != IPP_STATUS_OK) {
	LOG(WARNING) << "Closing job failed";
	return OnError();
	}

	ResetSettings();
	return OK;
	}

	void PrintingContextChromeos::Cancel() {
	abort_printing_ = true;
	in_print_job_ = false;
	}

	void PrintingContextChromeos::ReleaseContext() {
	printer_.reset();
	}

	printing::NativeDrawingContext PrintingContextChromeos::context() const {
	// Intentional No-op.
	return nullptr;
	}

	PrintingContext::Result PrintingContextChromeos::StreamData(
	const std::vector<char>& buffer) {
	if (abort_printing_)
	return CANCEL;

	DCHECK(in_print_job_);
	DCHECK(printer_);

	if (!printer_->StreamData(buffer))
	return OnError();

	return OK;
	}

	} // namespace printing