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

 // Copyright 2020 The Chromium Authors
 // 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 <string>

 #include "base/memory/raw_ptr.h"
 #include "base/strings/string_split.h"
 #include "base/strings/utf_string_conversions.h"
 #include "printing/backend/cups_ipp_constants.h"
 #include "printing/backend/mock_cups_printer.h"
 #include "printing/mojom/print.mojom.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace printing {

 namespace {

 using ::testing::_;
 using ::testing::ByMove;
 using ::testing::DoAll;
 using ::testing::NiceMock;
 using ::testing::Return;
 using ::testing::SaveArg;
 using ::testing::SetArgPointee;

 constexpr char kPrinterName[] = "printer";
 constexpr char16_t kPrinterName16[] = u"printer";

 constexpr char kUsername[] = "test user";

 constexpr char kDocumentName[] = "document name";
 constexpr char16_t kDocumentName16[] = u"document name";

 class MockCupsConnection : public CupsConnection {
  public:
   MOCK_METHOD1(GetDests, bool(std::vector<std::unique_ptr<CupsPrinter>>&));
   MOCK_METHOD2(GetJobs,
                bool(const std::vector<std::string>& printer_ids,
                     std::vector<QueueStatus>* jobs));
   MOCK_METHOD2(GetPrinterStatus,
                bool(const std::string& printer_id,
                     PrinterStatus* printer_status));
   MOCK_CONST_METHOD0(server_name, std::string());
   MOCK_CONST_METHOD0(last_error, int());
   MOCK_CONST_METHOD0(last_error_message, std::string());

   MOCK_METHOD1(GetPrinter,
                std::unique_ptr<CupsPrinter>(const std::string& printer_name));
 };

 class TestPrintSettings : public PrintSettings {
  public:
   TestPrintSettings() { set_duplex_mode(mojom::DuplexMode::kSimplex); }
 };

 class PrintingContextTest : public testing::Test,
                             public PrintingContext::Delegate {
  public:
   void SetDefaultSettings(bool send_user_info, const std::string& uri) {
     auto unique_connection = std::make_unique<MockCupsConnection>();
     auto* connection = unique_connection.get();
     auto unique_printer = std::make_unique<NiceMock<MockCupsPrinter>>();
     printer_ = unique_printer.get();
     EXPECT_CALL(*printer_, GetUri()).WillRepeatedly(Return(uri));
     EXPECT_CALL(*connection, GetPrinter(kPrinterName))
         .WillOnce(Return(ByMove(std::move(unique_printer))));
     printing_context_ = PrintingContextChromeos::CreateForTesting(
         this, std::move(unique_connection));
     auto settings = std::make_unique<PrintSettings>();
     settings->set_device_name(kPrinterName16);
     settings->set_send_user_info(send_user_info);
     settings->set_duplex_mode(mojom::DuplexMode::kLongEdge);
     settings->set_username(kUsername);
     printing_context_->UpdatePrintSettingsFromPOD(std::move(settings));
   }

   ipp_attribute_t* GetAttribute(ipp_t* attributes,
                                 const char* attr_name) const {
     DCHECK(attr_name);
     ipp_attribute_t* ret = nullptr;
     for (ipp_attribute_t* attr = ippFirstAttribute(attributes); attr;
          attr = ippNextAttribute(attributes)) {
       const char* name = ippGetName(attr);
       if (name && !strcmp(attr_name, name)) {
         EXPECT_EQ(nullptr, ret)
             << "Multiple attributes with name " << attr_name << " found.";
         ret = attr;
       }
     }
     EXPECT_TRUE(ret);
     return ret;
   }

   void TestStringOptionValue(const char* attr_name,
                              const char* expected_value) const {
     auto attributes = SettingsToIPPOptions(settings_);
     auto* attr = GetAttribute(attributes.get(), attr_name);
     EXPECT_STREQ(expected_value, ippGetString(attr, 0, nullptr));
   }

   void TestIntegerOptionValue(const char* attr_name, int expected_value) const {
     auto attributes = SettingsToIPPOptions(settings_);
     auto* attr = GetAttribute(attributes.get(), attr_name);
     EXPECT_EQ(expected_value, ippGetInteger(attr, 0));
   }

   void TestOctetStringOptionValue(const char* attr_name,
                                   base::span<const char> expected_value) const {
     auto attributes = SettingsToIPPOptions(settings_);
     auto* attr = GetAttribute(attributes.get(), attr_name);
     int length;
     void* value = ippGetOctetString(attr, 0, &length);
     ASSERT_EQ(expected_value.size(), static_cast<size_t>(length));
     ASSERT_TRUE(value);
     EXPECT_EQ(0, memcmp(expected_value.data(), value, expected_value.size()));
   }

   void TestResolutionOptionValue(const char* attr_name,
                                  int expected_x_res,
                                  int expected_y_res) const {
     auto attributes = SettingsToIPPOptions(settings_);
     auto* attr = GetAttribute(attributes.get(), attr_name);
     ipp_res_t unit;
     int y_res;
     int x_res = ippGetResolution(attr, 0, &y_res, &unit);
     EXPECT_EQ(unit, IPP_RES_PER_INCH);
     EXPECT_EQ(expected_x_res, x_res);
     EXPECT_EQ(expected_y_res, y_res);
   }

   bool HasAttribute(const char* attr_name) const {
     auto attributes = SettingsToIPPOptions(settings_);
     return !!ippFindAttribute(attributes.get(), attr_name, IPP_TAG_ZERO);
   }

   int GetAttrValueCount(const char* attr_name) const {
     auto attributes = SettingsToIPPOptions(settings_);
     auto* attr = GetAttribute(attributes.get(), attr_name);
     return ippGetCount(attr);
   }

   TestPrintSettings settings_;

   // PrintingContext::Delegate methods.
   gfx::NativeView GetParentView() override { return nullptr; }
   std::string GetAppLocale() override { return std::string(); }

   std::unique_ptr<PrintingContextChromeos> printing_context_;
   raw_ptr<MockCupsPrinter> printer_;
 };

 TEST_F(PrintingContextTest, SettingsToIPPOptions_Color) {
   settings_.set_color(mojom::ColorModel::kGray);
   TestStringOptionValue(kIppColor, "monochrome");
   settings_.set_color(mojom::ColorModel::kColor);
   TestStringOptionValue(kIppColor, "color");
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_Duplex) {
   settings_.set_duplex_mode(mojom::DuplexMode::kSimplex);
   TestStringOptionValue(kIppDuplex, "one-sided");
   settings_.set_duplex_mode(mojom::DuplexMode::kLongEdge);
   TestStringOptionValue(kIppDuplex, "two-sided-long-edge");
   settings_.set_duplex_mode(mojom::DuplexMode::kShortEdge);
   TestStringOptionValue(kIppDuplex, "two-sided-short-edge");
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_Media) {
   TestStringOptionValue(kIppMedia, "");
   settings_.set_requested_media(
       {gfx::Size(297000, 420000), "iso_a3_297x420mm"});
   TestStringOptionValue(kIppMedia, "iso_a3_297x420mm");
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_Copies) {
   settings_.set_copies(3);
   TestIntegerOptionValue(kIppCopies, 3);
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_Collate) {
   TestStringOptionValue(kIppCollate, "separate-documents-uncollated-copies");
   settings_.set_collate(true);
   TestStringOptionValue(kIppCollate, "separate-documents-collated-copies");
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_Pin) {
   EXPECT_FALSE(HasAttribute(kIppPin));
   settings_.set_pin_value("1234");
   TestOctetStringOptionValue(kIppPin, base::make_span("1234", 4u));
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_Resolution) {
   EXPECT_FALSE(HasAttribute(kIppResolution));
   settings_.set_dpi_xy(0, 300);
   EXPECT_FALSE(HasAttribute(kIppResolution));
   settings_.set_dpi_xy(300, 0);
   EXPECT_FALSE(HasAttribute(kIppResolution));
   settings_.set_dpi(600);
   TestResolutionOptionValue(kIppResolution, 600, 600);
   settings_.set_dpi_xy(600, 1200);
   TestResolutionOptionValue(kIppResolution, 600, 1200);
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_SendUserInfo_Secure) {
   ipp_status_t status = ipp_status_t::IPP_STATUS_OK;
   std::u16string document_name = kDocumentName16;
   SetDefaultSettings(/*send_user_info=*/true, "ipps://test-uri");
   std::string create_job_document_name;
   std::string create_job_username;
   std::string start_document_document_name;
   std::string start_document_username;
   EXPECT_CALL(*printer_, CreateJob)
       .WillOnce(DoAll(SetArgPointee<0>(/*job_id=*/1),
                       SaveArg<1>(&create_job_document_name),
                       SaveArg<2>(&create_job_username), Return(status)));
   EXPECT_CALL(*printer_, StartDocument)
       .WillOnce(DoAll(SaveArg<1>(&start_document_document_name),
                       SaveArg<3>(&start_document_username), Return(true)));

   printing_context_->NewDocument(document_name);

   EXPECT_EQ(create_job_document_name, kDocumentName);
   EXPECT_EQ(start_document_document_name, kDocumentName);
   EXPECT_EQ(create_job_username, kUsername);
   EXPECT_EQ(start_document_username, kUsername);
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_SendUserInfo_Insecure) {
   ipp_status_t status = ipp_status_t::IPP_STATUS_OK;
   std::u16string document_name = kDocumentName16;
   std::string default_username = "chronos";
   std::string default_document_name = "-";
   SetDefaultSettings(/*send_user_info=*/true, "ipp://test-uri");
   std::string create_job_document_name;
   std::string create_job_username;
   std::string start_document_document_name;
   std::string start_document_username;
   EXPECT_CALL(*printer_, CreateJob)
       .WillOnce(DoAll(SetArgPointee<0>(/*job_id=*/1),
                       SaveArg<1>(&create_job_document_name),
                       SaveArg<2>(&create_job_username), Return(status)));
   EXPECT_CALL(*printer_, StartDocument)
       .WillOnce(DoAll(SaveArg<1>(&start_document_document_name),
                       SaveArg<3>(&start_document_username), Return(true)));

   printing_context_->NewDocument(document_name);

   EXPECT_EQ(create_job_document_name, default_document_name);
   EXPECT_EQ(start_document_document_name, default_document_name);
   EXPECT_EQ(create_job_username, default_username);
   EXPECT_EQ(start_document_username, default_username);
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptions_DoNotSendUserInfo) {
   ipp_status_t status = ipp_status_t::IPP_STATUS_OK;
   std::u16string document_name = kDocumentName16;
   SetDefaultSettings(/*send_user_info=*/false, "ipps://test-uri");
   std::string create_job_document_name;
   std::string create_job_username;
   std::string start_document_document_name;
   std::string start_document_username;
   EXPECT_CALL(*printer_, CreateJob)
       .WillOnce(DoAll(SetArgPointee<0>(/*job_id=*/1),
                       SaveArg<1>(&create_job_document_name),
                       SaveArg<2>(&create_job_username), Return(status)));
   EXPECT_CALL(*printer_, StartDocument)
       .WillOnce(DoAll(SaveArg<1>(&start_document_document_name),
                       SaveArg<3>(&start_document_username), Return(true)));

   printing_context_->NewDocument(document_name);

   EXPECT_EQ(create_job_document_name, "");
   EXPECT_EQ(start_document_document_name, "");
   EXPECT_EQ(create_job_username, "");
   EXPECT_EQ(start_document_username, "");
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptionsClientInfo) {
   mojom::IppClientInfo client_info(
       mojom::IppClientInfo::ClientType::kOperatingSystem, "a-", "B_", "1.",
       "a.1-B_");
   settings_.set_client_infos({client_info});

   auto attributes = SettingsToIPPOptions(settings_);
   auto* attr = ippFindAttribute(attributes.get(), kIppClientInfo,
                                 IPP_TAG_BEGIN_COLLECTION);
   auto* client_info_collection = ippGetCollection(attr, 0);

   attr = ippFindAttribute(client_info_collection, kIppClientName, IPP_TAG_NAME);
   EXPECT_STREQ("a-", ippGetString(attr, 0, nullptr));

   attr = ippFindAttribute(client_info_collection, kIppClientType, IPP_TAG_ENUM);
   EXPECT_EQ(4, ippGetInteger(attr, 0));

   attr =
       ippFindAttribute(client_info_collection, kIppClientPatches, IPP_TAG_TEXT);
   EXPECT_STREQ("B_", ippGetString(attr, 0, nullptr));

   attr = ippFindAttribute(client_info_collection, kIppClientStringVersion,
                           IPP_TAG_TEXT);
   EXPECT_STREQ("1.", ippGetString(attr, 0, nullptr));

   attr = ippFindAttribute(client_info_collection, kIppClientVersion,
                           IPP_TAG_STRING);
   int length;
   void* version = ippGetOctetString(attr, 0, &length);
   ASSERT_TRUE(version);
   EXPECT_EQ(6, length);
   EXPECT_EQ(0, memcmp("a.1-B_", version, 6));
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptionsClientInfoSomeValid) {
   mojom::IppClientInfo valid_client_info(
       mojom::IppClientInfo::ClientType::kOperatingSystem, "aB.1-_", "aB.1-_",
       "aB.1-_", "aB.1-_");
   mojom::IppClientInfo invalid_client_info(
       mojom::IppClientInfo::ClientType::kOperatingSystem, "{}", "aB.1-_",
       "aB.1-_", "aB.1-_");
   settings_.set_client_infos(
       {valid_client_info, invalid_client_info, valid_client_info});

   // Check that the invalid item is skipped in the client-info collection.
   EXPECT_EQ(GetAttrValueCount(kIppClientInfo), 2);
 }

 TEST_F(PrintingContextTest, SettingsToIPPOptionsClientInfoEmpty) {
   settings_.set_client_infos({});
   EXPECT_FALSE(HasAttribute(kIppClientInfo));

   mojom::IppClientInfo invalid_client_info(
       mojom::IppClientInfo::ClientType::kOther, "$", " ", "{}", absl::nullopt);

   settings_.set_client_infos({invalid_client_info});
   EXPECT_FALSE(HasAttribute(kIppClientInfo));
 }

 }  // namespace

 }  // namespace printing
	// Copyright 2020 The Chromium Authors
	// 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 <string>

	#include "base/memory/raw_ptr.h"
	#include "base/strings/string_split.h"
	#include "base/strings/utf_string_conversions.h"
	#include "printing/backend/cups_ipp_constants.h"
	#include "printing/backend/mock_cups_printer.h"
	#include "printing/mojom/print.mojom.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace printing {

	namespace {

	using ::testing::_;
	using ::testing::ByMove;
	using ::testing::DoAll;
	using ::testing::NiceMock;
	using ::testing::Return;
	using ::testing::SaveArg;
	using ::testing::SetArgPointee;

	constexpr char kPrinterName[] = "printer";
	constexpr char16_t kPrinterName16[] = u"printer";

	constexpr char kUsername[] = "test user";

	constexpr char kDocumentName[] = "document name";
	constexpr char16_t kDocumentName16[] = u"document name";

	class MockCupsConnection : public CupsConnection {
	public:
	MOCK_METHOD1(GetDests, bool(std::vector<std::unique_ptr<CupsPrinter>>&));
	MOCK_METHOD2(GetJobs,
	bool(const std::vector<std::string>& printer_ids,
	std::vector<QueueStatus>* jobs));
	MOCK_METHOD2(GetPrinterStatus,
	bool(const std::string& printer_id,
	PrinterStatus* printer_status));
	MOCK_CONST_METHOD0(server_name, std::string());
	MOCK_CONST_METHOD0(last_error, int());
	MOCK_CONST_METHOD0(last_error_message, std::string());

	MOCK_METHOD1(GetPrinter,
	std::unique_ptr<CupsPrinter>(const std::string& printer_name));
	};

	class TestPrintSettings : public PrintSettings {
	public:
	TestPrintSettings() { set_duplex_mode(mojom::DuplexMode::kSimplex); }
	};

	class PrintingContextTest : public testing::Test,
	public PrintingContext::Delegate {
	public:
	void SetDefaultSettings(bool send_user_info, const std::string& uri) {
	auto unique_connection = std::make_unique<MockCupsConnection>();
	auto* connection = unique_connection.get();
	auto unique_printer = std::make_unique<NiceMock<MockCupsPrinter>>();
	printer_ = unique_printer.get();
	EXPECT_CALL(*printer_, GetUri()).WillRepeatedly(Return(uri));
	EXPECT_CALL(*connection, GetPrinter(kPrinterName))
	.WillOnce(Return(ByMove(std::move(unique_printer))));
	printing_context_ = PrintingContextChromeos::CreateForTesting(
	this, std::move(unique_connection));
	auto settings = std::make_unique<PrintSettings>();
	settings->set_device_name(kPrinterName16);
	settings->set_send_user_info(send_user_info);
	settings->set_duplex_mode(mojom::DuplexMode::kLongEdge);
	settings->set_username(kUsername);
	printing_context_->UpdatePrintSettingsFromPOD(std::move(settings));
	}

	ipp_attribute_t* GetAttribute(ipp_t* attributes,
	const char* attr_name) const {
	DCHECK(attr_name);
	ipp_attribute_t* ret = nullptr;
	for (ipp_attribute_t* attr = ippFirstAttribute(attributes); attr;
	attr = ippNextAttribute(attributes)) {
	const char* name = ippGetName(attr);
	if (name && !strcmp(attr_name, name)) {
	EXPECT_EQ(nullptr, ret)
	<< "Multiple attributes with name " << attr_name << " found.";
	ret = attr;
	}
	}
	EXPECT_TRUE(ret);
	return ret;
	}

	void TestStringOptionValue(const char* attr_name,
	const char* expected_value) const {
	auto attributes = SettingsToIPPOptions(settings_);
	auto* attr = GetAttribute(attributes.get(), attr_name);
	EXPECT_STREQ(expected_value, ippGetString(attr, 0, nullptr));
	}

	void TestIntegerOptionValue(const char* attr_name, int expected_value) const {
	auto attributes = SettingsToIPPOptions(settings_);
	auto* attr = GetAttribute(attributes.get(), attr_name);
	EXPECT_EQ(expected_value, ippGetInteger(attr, 0));
	}

	void TestOctetStringOptionValue(const char* attr_name,
	base::span<const char> expected_value) const {
	auto attributes = SettingsToIPPOptions(settings_);
	auto* attr = GetAttribute(attributes.get(), attr_name);
	int length;
	void* value = ippGetOctetString(attr, 0, &length);
	ASSERT_EQ(expected_value.size(), static_cast<size_t>(length));
	ASSERT_TRUE(value);
	EXPECT_EQ(0, memcmp(expected_value.data(), value, expected_value.size()));
	}

	void TestResolutionOptionValue(const char* attr_name,
	int expected_x_res,
	int expected_y_res) const {
	auto attributes = SettingsToIPPOptions(settings_);
	auto* attr = GetAttribute(attributes.get(), attr_name);
	ipp_res_t unit;
	int y_res;
	int x_res = ippGetResolution(attr, 0, &y_res, &unit);
	EXPECT_EQ(unit, IPP_RES_PER_INCH);
	EXPECT_EQ(expected_x_res, x_res);
	EXPECT_EQ(expected_y_res, y_res);
	}

	bool HasAttribute(const char* attr_name) const {
	auto attributes = SettingsToIPPOptions(settings_);
	return !!ippFindAttribute(attributes.get(), attr_name, IPP_TAG_ZERO);
	}

	int GetAttrValueCount(const char* attr_name) const {
	auto attributes = SettingsToIPPOptions(settings_);
	auto* attr = GetAttribute(attributes.get(), attr_name);
	return ippGetCount(attr);
	}

	TestPrintSettings settings_;

	// PrintingContext::Delegate methods.
	gfx::NativeView GetParentView() override { return nullptr; }
	std::string GetAppLocale() override { return std::string(); }

	std::unique_ptr<PrintingContextChromeos> printing_context_;
	raw_ptr<MockCupsPrinter> printer_;
	};

	TEST_F(PrintingContextTest, SettingsToIPPOptions_Color) {
	settings_.set_color(mojom::ColorModel::kGray);
	TestStringOptionValue(kIppColor, "monochrome");
	settings_.set_color(mojom::ColorModel::kColor);
	TestStringOptionValue(kIppColor, "color");
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_Duplex) {
	settings_.set_duplex_mode(mojom::DuplexMode::kSimplex);
	TestStringOptionValue(kIppDuplex, "one-sided");
	settings_.set_duplex_mode(mojom::DuplexMode::kLongEdge);
	TestStringOptionValue(kIppDuplex, "two-sided-long-edge");
	settings_.set_duplex_mode(mojom::DuplexMode::kShortEdge);
	TestStringOptionValue(kIppDuplex, "two-sided-short-edge");
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_Media) {
	TestStringOptionValue(kIppMedia, "");
	settings_.set_requested_media(
	{gfx::Size(297000, 420000), "iso_a3_297x420mm"});
	TestStringOptionValue(kIppMedia, "iso_a3_297x420mm");
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_Copies) {
	settings_.set_copies(3);
	TestIntegerOptionValue(kIppCopies, 3);
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_Collate) {
	TestStringOptionValue(kIppCollate, "separate-documents-uncollated-copies");
	settings_.set_collate(true);
	TestStringOptionValue(kIppCollate, "separate-documents-collated-copies");
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_Pin) {
	EXPECT_FALSE(HasAttribute(kIppPin));
	settings_.set_pin_value("1234");
	TestOctetStringOptionValue(kIppPin, base::make_span("1234", 4u));
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_Resolution) {
	EXPECT_FALSE(HasAttribute(kIppResolution));
	settings_.set_dpi_xy(0, 300);
	EXPECT_FALSE(HasAttribute(kIppResolution));
	settings_.set_dpi_xy(300, 0);
	EXPECT_FALSE(HasAttribute(kIppResolution));
	settings_.set_dpi(600);
	TestResolutionOptionValue(kIppResolution, 600, 600);
	settings_.set_dpi_xy(600, 1200);
	TestResolutionOptionValue(kIppResolution, 600, 1200);
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_SendUserInfo_Secure) {
	ipp_status_t status = ipp_status_t::IPP_STATUS_OK;
	std::u16string document_name = kDocumentName16;
	SetDefaultSettings(/send_user_info=/true, "ipps://test-uri");
	std::string create_job_document_name;
	std::string create_job_username;
	std::string start_document_document_name;
	std::string start_document_username;
	EXPECT_CALL(*printer_, CreateJob)
	.WillOnce(DoAll(SetArgPointee<0>(/job_id=/1),
	SaveArg<1>(&create_job_document_name),
	SaveArg<2>(&create_job_username), Return(status)));
	EXPECT_CALL(*printer_, StartDocument)
	.WillOnce(DoAll(SaveArg<1>(&start_document_document_name),
	SaveArg<3>(&start_document_username), Return(true)));

	printing_context_->NewDocument(document_name);

	EXPECT_EQ(create_job_document_name, kDocumentName);
	EXPECT_EQ(start_document_document_name, kDocumentName);
	EXPECT_EQ(create_job_username, kUsername);
	EXPECT_EQ(start_document_username, kUsername);
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_SendUserInfo_Insecure) {
	ipp_status_t status = ipp_status_t::IPP_STATUS_OK;
	std::u16string document_name = kDocumentName16;
	std::string default_username = "chronos";
	std::string default_document_name = "-";
	SetDefaultSettings(/send_user_info=/true, "ipp://test-uri");
	std::string create_job_document_name;
	std::string create_job_username;
	std::string start_document_document_name;
	std::string start_document_username;
	EXPECT_CALL(*printer_, CreateJob)
	.WillOnce(DoAll(SetArgPointee<0>(/job_id=/1),
	SaveArg<1>(&create_job_document_name),
	SaveArg<2>(&create_job_username), Return(status)));
	EXPECT_CALL(*printer_, StartDocument)
	.WillOnce(DoAll(SaveArg<1>(&start_document_document_name),
	SaveArg<3>(&start_document_username), Return(true)));

	printing_context_->NewDocument(document_name);

	EXPECT_EQ(create_job_document_name, default_document_name);
	EXPECT_EQ(start_document_document_name, default_document_name);
	EXPECT_EQ(create_job_username, default_username);
	EXPECT_EQ(start_document_username, default_username);
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptions_DoNotSendUserInfo) {
	ipp_status_t status = ipp_status_t::IPP_STATUS_OK;
	std::u16string document_name = kDocumentName16;
	SetDefaultSettings(/send_user_info=/false, "ipps://test-uri");
	std::string create_job_document_name;
	std::string create_job_username;
	std::string start_document_document_name;
	std::string start_document_username;
	EXPECT_CALL(*printer_, CreateJob)
	.WillOnce(DoAll(SetArgPointee<0>(/job_id=/1),
	SaveArg<1>(&create_job_document_name),
	SaveArg<2>(&create_job_username), Return(status)));
	EXPECT_CALL(*printer_, StartDocument)
	.WillOnce(DoAll(SaveArg<1>(&start_document_document_name),
	SaveArg<3>(&start_document_username), Return(true)));

	printing_context_->NewDocument(document_name);

	EXPECT_EQ(create_job_document_name, "");
	EXPECT_EQ(start_document_document_name, "");
	EXPECT_EQ(create_job_username, "");
	EXPECT_EQ(start_document_username, "");
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptionsClientInfo) {
	mojom::IppClientInfo client_info(
	mojom::IppClientInfo::ClientType::kOperatingSystem, "a-", "B_", "1.",
	"a.1-B_");
	settings_.set_client_infos({client_info});

	auto attributes = SettingsToIPPOptions(settings_);
	auto* attr = ippFindAttribute(attributes.get(), kIppClientInfo,
	IPP_TAG_BEGIN_COLLECTION);
	auto* client_info_collection = ippGetCollection(attr, 0);

	attr = ippFindAttribute(client_info_collection, kIppClientName, IPP_TAG_NAME);
	EXPECT_STREQ("a-", ippGetString(attr, 0, nullptr));

	attr = ippFindAttribute(client_info_collection, kIppClientType, IPP_TAG_ENUM);
	EXPECT_EQ(4, ippGetInteger(attr, 0));

	attr =
	ippFindAttribute(client_info_collection, kIppClientPatches, IPP_TAG_TEXT);
	EXPECT_STREQ("B_", ippGetString(attr, 0, nullptr));

	attr = ippFindAttribute(client_info_collection, kIppClientStringVersion,
	IPP_TAG_TEXT);
	EXPECT_STREQ("1.", ippGetString(attr, 0, nullptr));

	attr = ippFindAttribute(client_info_collection, kIppClientVersion,
	IPP_TAG_STRING);
	int length;
	void* version = ippGetOctetString(attr, 0, &length);
	ASSERT_TRUE(version);
	EXPECT_EQ(6, length);
	EXPECT_EQ(0, memcmp("a.1-B_", version, 6));
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptionsClientInfoSomeValid) {
	mojom::IppClientInfo valid_client_info(
	mojom::IppClientInfo::ClientType::kOperatingSystem, "aB.1-_", "aB.1-_",
	"aB.1-_", "aB.1-_");
	mojom::IppClientInfo invalid_client_info(
	mojom::IppClientInfo::ClientType::kOperatingSystem, "{}", "aB.1-_",
	"aB.1-_", "aB.1-_");
	settings_.set_client_infos(
	{valid_client_info, invalid_client_info, valid_client_info});

	// Check that the invalid item is skipped in the client-info collection.
	EXPECT_EQ(GetAttrValueCount(kIppClientInfo), 2);
	}

	TEST_F(PrintingContextTest, SettingsToIPPOptionsClientInfoEmpty) {
	settings_.set_client_infos({});
	EXPECT_FALSE(HasAttribute(kIppClientInfo));

	mojom::IppClientInfo invalid_client_info(
	mojom::IppClientInfo::ClientType::kOther, "$", " ", "{}", absl::nullopt);

	settings_.set_client_infos({invalid_client_info});
	EXPECT_FALSE(HasAttribute(kIppClientInfo));
	}

	} // namespace

	} // namespace printing