printing/backend/cups_ipp_util.cc - chromium/src.git - 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/backend/cups_ipp_util.h"

 #include <cups/cups.h>

 #include <algorithm>
 #include <string>
 #include <vector>

 #include "base/logging.h"
 #include "base/optional.h"
 #include "base/stl_util.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/strings/string_piece.h"
 #include "base/strings/string_split.h"
 #include "base/strings/string_util.h"
 #include "printing/backend/cups_printer.h"
 #include "printing/backend/print_backend_consts.h"
 #include "printing/units.h"

 namespace printing {

 // property names
 constexpr char kIppCollate[] = "sheet-collate";  // RFC 3381
 constexpr char kIppCopies[] = CUPS_COPIES;
 constexpr char kIppColor[] = CUPS_PRINT_COLOR_MODE;
 constexpr char kIppMedia[] = CUPS_MEDIA;
 constexpr char kIppDuplex[] = CUPS_SIDES;
 constexpr char kIppResolution[] = "printer-resolution";            // RFC 2911
 constexpr char kIppRequestingUserName[] = "requesting-user-name";  // RFC 8011
 constexpr char kIppPin[] = "job-password";                       // PWG 5100.11
 constexpr char kIppPinEncryption[] = "job-password-encryption";  // PWG 5100.11

 // collation values
 constexpr char kCollated[] = "collated";
 constexpr char kUncollated[] = "uncollated";

 #if defined(OS_CHROMEOS)
 constexpr int kPinMinimumLength = 4;
 constexpr char kPinEncryptionNone[] = "none";
 #endif  // defined(OS_CHROMEOS)

 namespace {

 constexpr int kMicronsPerMM = 1000;
 constexpr double kMMPerInch = 25.4;
 constexpr double kMicronsPerInch = kMMPerInch * kMicronsPerMM;
 constexpr double kCmPerInch = kMMPerInch * 0.1;

 enum Unit {
   INCHES,
   MILLIMETERS,
 };

 struct ColorMap {
   const char* color;
   ColorModel model;
 };

 struct DuplexMap {
   const char* name;
   DuplexMode mode;
 };

 const ColorMap kColorList[]{
     {CUPS_PRINT_COLOR_MODE_COLOR, COLORMODE_COLOR},
     {CUPS_PRINT_COLOR_MODE_MONOCHROME, COLORMODE_MONOCHROME},
 };

 const DuplexMap kDuplexList[]{
     {CUPS_SIDES_ONE_SIDED, SIMPLEX},
     {CUPS_SIDES_TWO_SIDED_PORTRAIT, LONG_EDGE},
     {CUPS_SIDES_TWO_SIDED_LANDSCAPE, SHORT_EDGE},
 };

 ColorModel ColorModelFromIppColor(base::StringPiece ippColor) {
   for (const ColorMap& color : kColorList) {
     if (ippColor.compare(color.color) == 0) {
       return color.model;
     }
   }

   return UNKNOWN_COLOR_MODEL;
 }

 DuplexMode DuplexModeFromIpp(base::StringPiece ipp_duplex) {
   for (const DuplexMap& entry : kDuplexList) {
     if (base::EqualsCaseInsensitiveASCII(ipp_duplex, entry.name))
       return entry.mode;
   }
   return UNKNOWN_DUPLEX_MODE;
 }

 gfx::Size DimensionsToMicrons(base::StringPiece value) {
   Unit unit;
   base::StringPiece dims;
   size_t unit_position;
   if ((unit_position = value.find("mm")) != base::StringPiece::npos) {
     unit = MILLIMETERS;
     dims = value.substr(0, unit_position);
   } else if ((unit_position = value.find("in")) != base::StringPiece::npos) {
     unit = INCHES;
     dims = value.substr(0, unit_position);
   } else {
     LOG(WARNING) << "Could not parse paper dimensions";
     return {0, 0};
   }

   double width;
   double height;
   std::vector<std::string> pieces = base::SplitString(
       dims, "x", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
   if (pieces.size() != 2 || !base::StringToDouble(pieces[0], &width) ||
       !base::StringToDouble(pieces[1], &height)) {
     return {0, 0};
   }

   int width_microns;
   int height_microns;
   switch (unit) {
     case MILLIMETERS:
       width_microns = width * kMicronsPerMM;
       height_microns = height * kMicronsPerMM;
       break;
     case INCHES:
       width_microns = width * kMicronsPerInch;
       height_microns = height * kMicronsPerInch;
       break;
     default:
       NOTREACHED();
       break;
   }

   return gfx::Size{width_microns, height_microns};
 }

 // We read the media name expressed by |value| and return a Paper
 // with the vendor_id and size_um members populated.
 // We don't handle l10n here, so we don't populate the display_name
 // member, deferring that to the caller.
 PrinterSemanticCapsAndDefaults::Paper ParsePaper(base::StringPiece value) {
   // <name>_<width>x<height>{in,mm}
   // e.g. na_letter_8.5x11in, iso_a4_210x297mm

   const std::vector<base::StringPiece> pieces = base::SplitStringPiece(
       value, "_", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
   // we expect at least a display string and a dimension string
   if (pieces.size() < 2)
     return PrinterSemanticCapsAndDefaults::Paper();

   base::StringPiece dimensions = pieces.back();

   PrinterSemanticCapsAndDefaults::Paper paper;
   paper.vendor_id = value.as_string();
   paper.size_um = DimensionsToMicrons(dimensions);

   return paper;
 }

 ColorModel DefaultColorModel(const CupsOptionProvider& printer) {
   // default color
   ipp_attribute_t* attr = printer.GetDefaultOptionValue(kIppColor);
   if (!attr)
     return UNKNOWN_COLOR_MODEL;

   return ColorModelFromIppColor(ippGetString(attr, 0, nullptr));
 }

 std::vector<ColorModel> SupportedColorModels(
     const CupsOptionProvider& printer) {
   std::vector<ColorModel> colors;

   std::vector<base::StringPiece> color_modes =
       printer.GetSupportedOptionValueStrings(kIppColor);
   for (base::StringPiece color : color_modes) {
     ColorModel color_model = ColorModelFromIppColor(color);
     if (color_model != UNKNOWN_COLOR_MODEL) {
       colors.push_back(color_model);
     }
   }

   return colors;
 }

 void ExtractColor(const CupsOptionProvider& printer,
                   PrinterSemanticCapsAndDefaults* printer_info) {
   printer_info->bw_model = UNKNOWN_COLOR_MODEL;
   printer_info->color_model = UNKNOWN_COLOR_MODEL;

   // color and b&w
   std::vector<ColorModel> color_models = SupportedColorModels(printer);
   for (ColorModel color : color_models) {
     switch (color) {
       case COLORMODE_COLOR:
         printer_info->color_model = COLORMODE_COLOR;
         break;
       case COLORMODE_MONOCHROME:
         printer_info->bw_model = COLORMODE_MONOCHROME;
         break;
       default:
         // value not needed
         break;
     }
   }

   // changeable
   printer_info->color_changeable =
       (printer_info->color_model != UNKNOWN_COLOR_MODEL &&
        printer_info->bw_model != UNKNOWN_COLOR_MODEL);

   // default color
   printer_info->color_default = DefaultColorModel(printer) == COLORMODE_COLOR;
 }

 void ExtractDuplexModes(const CupsOptionProvider& printer,
                         PrinterSemanticCapsAndDefaults* printer_info) {
   std::vector<base::StringPiece> duplex_modes =
       printer.GetSupportedOptionValueStrings(kIppDuplex);
   for (base::StringPiece duplex : duplex_modes) {
     DuplexMode duplex_mode = DuplexModeFromIpp(duplex);
     if (duplex_mode != UNKNOWN_DUPLEX_MODE)
       printer_info->duplex_modes.push_back(duplex_mode);
   }
   ipp_attribute_t* attr = printer.GetDefaultOptionValue(kIppDuplex);
   printer_info->duplex_default =
       attr ? DuplexModeFromIpp(ippGetString(attr, 0, nullptr))
            : UNKNOWN_DUPLEX_MODE;
 }

 void CopiesRange(const CupsOptionProvider& printer,
                  int* lower_bound,
                  int* upper_bound) {
   ipp_attribute_t* attr = printer.GetSupportedOptionValues(kIppCopies);
   if (!attr) {
     *lower_bound = -1;
     *upper_bound = -1;
   }

   *lower_bound = ippGetRange(attr, 0, upper_bound);
 }

 void ExtractCopies(const CupsOptionProvider& printer,
                    PrinterSemanticCapsAndDefaults* printer_info) {
   // copies
   int lower_bound;
   int upper_bound;
   CopiesRange(printer, &lower_bound, &upper_bound);
   printer_info->copies_capable = (lower_bound != -1) && (upper_bound >= 2);
 }

 // Reads resolution from |attr| and puts into |size| in dots per inch.
 base::Optional<gfx::Size> GetResolution(ipp_attribute_t* attr, int i) {
   ipp_res_t units;
   int yres;
   int xres = ippGetResolution(attr, i, &yres, &units);
   if (!xres)
     return {};

   switch (units) {
     case IPP_RES_PER_INCH:
       return gfx::Size(xres, yres);
     case IPP_RES_PER_CM:
       return gfx::Size(xres * kCmPerInch, yres * kCmPerInch);
   }
   return {};
 }

 // Initializes |printer_info.dpis| with available resolutions and
 // |printer_info.default_dpi| with default resolution provided by |printer|.
 void ExtractResolutions(const CupsOptionProvider& printer,
                         PrinterSemanticCapsAndDefaults* printer_info) {
   ipp_attribute_t* attr = printer.GetSupportedOptionValues(kIppResolution);
   if (!attr)
     return;

   int num_options = ippGetCount(attr);
   for (int i = 0; i < num_options; i++) {
     base::Optional<gfx::Size> size = GetResolution(attr, i);
     if (size)
       printer_info->dpis.push_back(size.value());
   }
   ipp_attribute_t* def_attr = printer.GetDefaultOptionValue(kIppResolution);
   base::Optional<gfx::Size> size = GetResolution(def_attr, 0);
   if (size)
     printer_info->default_dpi = size.value();
 }

 PrinterSemanticCapsAndDefaults::Papers SupportedPapers(
     const CupsOptionProvider& printer) {
   std::vector<base::StringPiece> papers =
       printer.GetSupportedOptionValueStrings(kIppMedia);
   PrinterSemanticCapsAndDefaults::Papers parsed_papers;
   parsed_papers.reserve(papers.size());
   for (base::StringPiece paper : papers)
     parsed_papers.push_back(ParsePaper(paper));

   return parsed_papers;
 }

 bool CollateCapable(const CupsOptionProvider& printer) {
   std::vector<base::StringPiece> values =
       printer.GetSupportedOptionValueStrings(kIppCollate);
   return base::Contains(values, kCollated);
 }

 bool CollateDefault(const CupsOptionProvider& printer) {
   ipp_attribute_t* attr = printer.GetDefaultOptionValue(kIppCollate);
   if (!attr)
     return false;

   base::StringPiece name = ippGetString(attr, 0, nullptr);
   return name.compare(kCollated) == 0;
 }

 #if defined(OS_CHROMEOS)
 bool PinSupported(const CupsOptionProvider& printer) {
   ipp_attribute_t* attr = printer.GetSupportedOptionValues(kIppPin);
   if (!attr)
     return false;
   int password_maximum_length_supported = ippGetInteger(attr, 0);
   if (password_maximum_length_supported < kPinMinimumLength)
     return false;

   std::vector<base::StringPiece> values =
       printer.GetSupportedOptionValueStrings(kIppPinEncryption);
   return base::Contains(values, kPinEncryptionNone);
 }
 #endif  // defined(OS_CHROMEOS)

 }  // namespace

 PrinterSemanticCapsAndDefaults::Paper DefaultPaper(
     const CupsOptionProvider& printer) {
   ipp_attribute_t* attr = printer.GetDefaultOptionValue(kIppMedia);
   if (!attr)
     return PrinterSemanticCapsAndDefaults::Paper();

   return ParsePaper(ippGetString(attr, 0, nullptr));
 }

 void CapsAndDefaultsFromPrinter(const CupsOptionProvider& printer,
                                 PrinterSemanticCapsAndDefaults* printer_info) {
   // collate
   printer_info->collate_default = CollateDefault(printer);
   printer_info->collate_capable = CollateCapable(printer);

   // paper
   printer_info->default_paper = DefaultPaper(printer);
   printer_info->papers = SupportedPapers(printer);

 #if defined(OS_CHROMEOS)
   printer_info->pin_supported = PinSupported(printer);
 #endif  // defined(OS_CHROMEOS)

   ExtractCopies(printer, printer_info);
   ExtractColor(printer, printer_info);
   ExtractDuplexModes(printer, printer_info);
   ExtractResolutions(printer, printer_info);
 }

 ScopedIppPtr WrapIpp(ipp_t* ipp) {
   return ScopedIppPtr(ipp, &ippDelete);
 }

 }  //  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/backend/cups_ipp_util.h"

	#include <cups/cups.h>

	#include <algorithm>
	#include <string>
	#include <vector>

	#include "base/logging.h"
	#include "base/optional.h"
	#include "base/stl_util.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/strings/string_piece.h"
	#include "base/strings/string_split.h"
	#include "base/strings/string_util.h"
	#include "printing/backend/cups_printer.h"
	#include "printing/backend/print_backend_consts.h"
	#include "printing/units.h"

	namespace printing {

	// property names
	constexpr char kIppCollate[] = "sheet-collate"; // RFC 3381
	constexpr char kIppCopies[] = CUPS_COPIES;
	constexpr char kIppColor[] = CUPS_PRINT_COLOR_MODE;
	constexpr char kIppMedia[] = CUPS_MEDIA;
	constexpr char kIppDuplex[] = CUPS_SIDES;
	constexpr char kIppResolution[] = "printer-resolution"; // RFC 2911
	constexpr char kIppRequestingUserName[] = "requesting-user-name"; // RFC 8011
	constexpr char kIppPin[] = "job-password"; // PWG 5100.11
	constexpr char kIppPinEncryption[] = "job-password-encryption"; // PWG 5100.11

	// collation values
	constexpr char kCollated[] = "collated";
	constexpr char kUncollated[] = "uncollated";

	#if defined(OS_CHROMEOS)
	constexpr int kPinMinimumLength = 4;
	constexpr char kPinEncryptionNone[] = "none";
	#endif // defined(OS_CHROMEOS)

	namespace {

	constexpr int kMicronsPerMM = 1000;
	constexpr double kMMPerInch = 25.4;
	constexpr double kMicronsPerInch = kMMPerInch * kMicronsPerMM;
	constexpr double kCmPerInch = kMMPerInch * 0.1;

	enum Unit {
	INCHES,
	MILLIMETERS,
	};

	struct ColorMap {
	const char* color;
	ColorModel model;
	};

	struct DuplexMap {
	const char* name;
	DuplexMode mode;
	};

	const ColorMap kColorList[]{
	{CUPS_PRINT_COLOR_MODE_COLOR, COLORMODE_COLOR},
	{CUPS_PRINT_COLOR_MODE_MONOCHROME, COLORMODE_MONOCHROME},
	};

	const DuplexMap kDuplexList[]{
	{CUPS_SIDES_ONE_SIDED, SIMPLEX},
	{CUPS_SIDES_TWO_SIDED_PORTRAIT, LONG_EDGE},
	{CUPS_SIDES_TWO_SIDED_LANDSCAPE, SHORT_EDGE},
	};

	ColorModel ColorModelFromIppColor(base::StringPiece ippColor) {
	for (const ColorMap& color : kColorList) {
	if (ippColor.compare(color.color) == 0) {
	return color.model;
	}
	}

	return UNKNOWN_COLOR_MODEL;
	}

	DuplexMode DuplexModeFromIpp(base::StringPiece ipp_duplex) {
	for (const DuplexMap& entry : kDuplexList) {
	if (base::EqualsCaseInsensitiveASCII(ipp_duplex, entry.name))
	return entry.mode;
	}
	return UNKNOWN_DUPLEX_MODE;
	}

	gfx::Size DimensionsToMicrons(base::StringPiece value) {
	Unit unit;
	base::StringPiece dims;
	size_t unit_position;
	if ((unit_position = value.find("mm")) != base::StringPiece::npos) {
	unit = MILLIMETERS;
	dims = value.substr(0, unit_position);
	} else if ((unit_position = value.find("in")) != base::StringPiece::npos) {
	unit = INCHES;
	dims = value.substr(0, unit_position);
	} else {
	LOG(WARNING) << "Could not parse paper dimensions";
	return {0, 0};
	}

	double width;
	double height;
	std::vector<std::string> pieces = base::SplitString(
	dims, "x", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
	if (pieces.size() != 2 \|\| !base::StringToDouble(pieces[0], &width) \|\|
	!base::StringToDouble(pieces[1], &height)) {
	return {0, 0};
	}

	int width_microns;
	int height_microns;
	switch (unit) {
	case MILLIMETERS:
	width_microns = width * kMicronsPerMM;
	height_microns = height * kMicronsPerMM;
	break;
	case INCHES:
	width_microns = width * kMicronsPerInch;
	height_microns = height * kMicronsPerInch;
	break;
	default:
	NOTREACHED();
	break;
	}

	return gfx::Size{width_microns, height_microns};
	}

	// We read the media name expressed by \|value\| and return a Paper
	// with the vendor_id and size_um members populated.
	// We don't handle l10n here, so we don't populate the display_name
	// member, deferring that to the caller.
	PrinterSemanticCapsAndDefaults::Paper ParsePaper(base::StringPiece value) {
	// <name>_<width>x<height>{in,mm}
	// e.g. na_letter_8.5x11in, iso_a4_210x297mm

	const std::vector<base::StringPiece> pieces = base::SplitStringPiece(
	value, "_", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
	// we expect at least a display string and a dimension string
	if (pieces.size() < 2)
	return PrinterSemanticCapsAndDefaults::Paper();

	base::StringPiece dimensions = pieces.back();

	PrinterSemanticCapsAndDefaults::Paper paper;
	paper.vendor_id = value.as_string();
	paper.size_um = DimensionsToMicrons(dimensions);

	return paper;
	}

	ColorModel DefaultColorModel(const CupsOptionProvider& printer) {
	// default color
	ipp_attribute_t* attr = printer.GetDefaultOptionValue(kIppColor);
	if (!attr)
	return UNKNOWN_COLOR_MODEL;

	return ColorModelFromIppColor(ippGetString(attr, 0, nullptr));
	}

	std::vector<ColorModel> SupportedColorModels(
	const CupsOptionProvider& printer) {
	std::vector<ColorModel> colors;

	std::vector<base::StringPiece> color_modes =
	printer.GetSupportedOptionValueStrings(kIppColor);
	for (base::StringPiece color : color_modes) {
	ColorModel color_model = ColorModelFromIppColor(color);
	if (color_model != UNKNOWN_COLOR_MODEL) {
	colors.push_back(color_model);
	}
	}

	return colors;
	}

	void ExtractColor(const CupsOptionProvider& printer,
	PrinterSemanticCapsAndDefaults* printer_info) {
	printer_info->bw_model = UNKNOWN_COLOR_MODEL;
	printer_info->color_model = UNKNOWN_COLOR_MODEL;

	// color and b&w
	std::vector<ColorModel> color_models = SupportedColorModels(printer);
	for (ColorModel color : color_models) {
	switch (color) {
	case COLORMODE_COLOR:
	printer_info->color_model = COLORMODE_COLOR;
	break;
	case COLORMODE_MONOCHROME:
	printer_info->bw_model = COLORMODE_MONOCHROME;
	break;
	default:
	// value not needed
	break;
	}
	}

	// changeable
	printer_info->color_changeable =
	(printer_info->color_model != UNKNOWN_COLOR_MODEL &&
	printer_info->bw_model != UNKNOWN_COLOR_MODEL);

	// default color
	printer_info->color_default = DefaultColorModel(printer) == COLORMODE_COLOR;
	}

	void ExtractDuplexModes(const CupsOptionProvider& printer,
	PrinterSemanticCapsAndDefaults* printer_info) {
	std::vector<base::StringPiece> duplex_modes =
	printer.GetSupportedOptionValueStrings(kIppDuplex);
	for (base::StringPiece duplex : duplex_modes) {
	DuplexMode duplex_mode = DuplexModeFromIpp(duplex);
	if (duplex_mode != UNKNOWN_DUPLEX_MODE)
	printer_info->duplex_modes.push_back(duplex_mode);
	}
	ipp_attribute_t* attr = printer.GetDefaultOptionValue(kIppDuplex);
	printer_info->duplex_default =
	attr ? DuplexModeFromIpp(ippGetString(attr, 0, nullptr))
	: UNKNOWN_DUPLEX_MODE;
	}

	void CopiesRange(const CupsOptionProvider& printer,
	int* lower_bound,
	int* upper_bound) {
	ipp_attribute_t* attr = printer.GetSupportedOptionValues(kIppCopies);
	if (!attr) {
	*lower_bound = -1;
	*upper_bound = -1;
	}

	*lower_bound = ippGetRange(attr, 0, upper_bound);
	}

	void ExtractCopies(const CupsOptionProvider& printer,
	PrinterSemanticCapsAndDefaults* printer_info) {
	// copies
	int lower_bound;
	int upper_bound;
	CopiesRange(printer, &lower_bound, &upper_bound);
	printer_info->copies_capable = (lower_bound != -1) && (upper_bound >= 2);
	}

	// Reads resolution from \|attr\| and puts into \|size\| in dots per inch.
	base::Optional<gfx::Size> GetResolution(ipp_attribute_t* attr, int i) {
	ipp_res_t units;
	int yres;
	int xres = ippGetResolution(attr, i, &yres, &units);
	if (!xres)
	return {};

	switch (units) {
	case IPP_RES_PER_INCH:
	return gfx::Size(xres, yres);
	case IPP_RES_PER_CM:
	return gfx::Size(xres * kCmPerInch, yres * kCmPerInch);
	}
	return {};
	}

	// Initializes \|printer_info.dpis\| with available resolutions and
	// \|printer_info.default_dpi\| with default resolution provided by \|printer\|.
	void ExtractResolutions(const CupsOptionProvider& printer,
	PrinterSemanticCapsAndDefaults* printer_info) {
	ipp_attribute_t* attr = printer.GetSupportedOptionValues(kIppResolution);
	if (!attr)
	return;

	int num_options = ippGetCount(attr);
	for (int i = 0; i < num_options; i++) {
	base::Optional<gfx::Size> size = GetResolution(attr, i);
	if (size)
	printer_info->dpis.push_back(size.value());
	}
	ipp_attribute_t* def_attr = printer.GetDefaultOptionValue(kIppResolution);
	base::Optional<gfx::Size> size = GetResolution(def_attr, 0);
	if (size)
	printer_info->default_dpi = size.value();
	}

	PrinterSemanticCapsAndDefaults::Papers SupportedPapers(
	const CupsOptionProvider& printer) {
	std::vector<base::StringPiece> papers =
	printer.GetSupportedOptionValueStrings(kIppMedia);
	PrinterSemanticCapsAndDefaults::Papers parsed_papers;
	parsed_papers.reserve(papers.size());
	for (base::StringPiece paper : papers)
	parsed_papers.push_back(ParsePaper(paper));

	return parsed_papers;
	}

	bool CollateCapable(const CupsOptionProvider& printer) {
	std::vector<base::StringPiece> values =
	printer.GetSupportedOptionValueStrings(kIppCollate);
	return base::Contains(values, kCollated);
	}

	bool CollateDefault(const CupsOptionProvider& printer) {
	ipp_attribute_t* attr = printer.GetDefaultOptionValue(kIppCollate);
	if (!attr)
	return false;

	base::StringPiece name = ippGetString(attr, 0, nullptr);
	return name.compare(kCollated) == 0;
	}

	#if defined(OS_CHROMEOS)
	bool PinSupported(const CupsOptionProvider& printer) {
	ipp_attribute_t* attr = printer.GetSupportedOptionValues(kIppPin);
	if (!attr)
	return false;
	int password_maximum_length_supported = ippGetInteger(attr, 0);
	if (password_maximum_length_supported < kPinMinimumLength)
	return false;

	std::vector<base::StringPiece> values =
	printer.GetSupportedOptionValueStrings(kIppPinEncryption);
	return base::Contains(values, kPinEncryptionNone);
	}
	#endif // defined(OS_CHROMEOS)

	} // namespace

	PrinterSemanticCapsAndDefaults::Paper DefaultPaper(
	const CupsOptionProvider& printer) {
	ipp_attribute_t* attr = printer.GetDefaultOptionValue(kIppMedia);
	if (!attr)
	return PrinterSemanticCapsAndDefaults::Paper();

	return ParsePaper(ippGetString(attr, 0, nullptr));
	}

	void CapsAndDefaultsFromPrinter(const CupsOptionProvider& printer,
	PrinterSemanticCapsAndDefaults* printer_info) {
	// collate
	printer_info->collate_default = CollateDefault(printer);
	printer_info->collate_capable = CollateCapable(printer);

	// paper
	printer_info->default_paper = DefaultPaper(printer);
	printer_info->papers = SupportedPapers(printer);

	#if defined(OS_CHROMEOS)
	printer_info->pin_supported = PinSupported(printer);
	#endif // defined(OS_CHROMEOS)

	ExtractCopies(printer, printer_info);
	ExtractColor(printer, printer_info);
	ExtractDuplexModes(printer, printer_info);
	ExtractResolutions(printer, printer_info);
	}

	ScopedIppPtr WrapIpp(ipp_t* ipp) {
	return ScopedIppPtr(ipp, &ippDelete);
	}

	} // namespace printing