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ppd_provider_unittest.cc
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// 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 <algorithm>
#include <map>
#include <memory>
#include <utility>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/logging.h"
#include "base/run_loop.h"
#include "base/single_thread_task_runner.h"
#include "base/strings/stringprintf.h"
#include "base/test/scoped_task_environment.h"
#include "base/test/test_message_loop.h"
#include "base/threading/sequenced_task_runner_handle.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/version.h"
#include "chromeos/constants/chromeos_paths.h"
#include "chromeos/printing/ppd_cache.h"
#include "chromeos/printing/ppd_provider.h"
#include "chromeos/printing/printer_configuration.h"
#include "net/base/net_errors.h"
#include "net/url_request/url_request_test_util.h"
#include "services/network/public/cpp/resource_request.h"
#include "services/network/test/test_url_loader_factory.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace chromeos {
namespace {
// Name of the fake server we're resolving ppds from.
const char kPpdServer[] = "bogus.google.com";
// A pseudo-ppd that should get cupsFilter lines extracted from it.
const char kCupsFilterPpdContents[] = R"(
Other random contents that we don't care about.
*cupsFilter: "application/vnd.cups-raster 0 my_filter"
More random contents that we don't care about
*cupsFilter: "application/vnd.cups-awesome 0 a_different_filter"
*cupsFilter: "application/vnd.cups-awesomesauce 0 filter3"
Yet more randome contents that we don't care about.
More random contents that we don't care about.
)";
// A pseudo-ppd that should get cupsFilter2 lines extracted from it.
// We also have cupsFilter lines in here, but since cupsFilter2 lines
// exist, the cupsFilter lines should be ignored.
const char kCupsFilter2PpdContents[] = R"(
Other random contents that we don't care about.
*cupsFilter: "application/vnd.cups-raster 0 my_filter"
More random contents that we don't care about
*cupsFilter2: "foo bar 0 the_real_filter"
*cupsFilter2: "bar baz 381 another_real_filter"
Yet more randome contents that we don't care about.
More random contents that we don't care about.
)";
class PpdProviderTest : public ::testing::Test {
public:
PpdProviderTest()
: scoped_task_environment_(
base::test::ScopedTaskEnvironment::MainThreadType::IO) {
TurnOffFakePpdServer();
}
void SetUp() override {
ASSERT_TRUE(ppd_cache_temp_dir_.CreateUniqueTempDir());
}
void TearDown() override { StopFakePpdServer(); }
// Create and return a provider for a test that uses the given |locale|. If
// run_cache_on_test_thread is true, we'll run the cache using the
// scoped_task_environment_; otherwise we'll let it spawn it's own background
// threads. You should only run the cache on the test thread if you need to
// explicity drain cache actions independently of draining ppd provider
// actions; otherwise letting the cache spawn its own thread should be safe,
// and better exercises the code paths under test.
scoped_refptr<PpdProvider> CreateProvider(const std::string& locale,
bool run_cache_on_test_thread) {
auto provider_options = PpdProvider::Options();
provider_options.ppd_server_root = std::string("https://") + kPpdServer;
if (run_cache_on_test_thread) {
ppd_cache_ = PpdCache::CreateForTesting(
ppd_cache_temp_dir_.GetPath(),
scoped_task_environment_.GetMainThreadTaskRunner());
} else {
ppd_cache_ = PpdCache::Create(ppd_cache_temp_dir_.GetPath());
}
return PpdProvider::Create(locale, &loader_factory_, ppd_cache_,
base::Version("40.8.6753.09"), provider_options);
}
// Fill loader_factory_ with preset contents for test URLs
void StartFakePpdServer() {
loader_factory_.ClearResponses();
for (const auto& entry : server_contents()) {
network::URLLoaderCompletionStatus status;
if (!entry.second.empty()) {
status.decoded_body_length = entry.second.size();
} else {
status.error_code = net::ERR_ADDRESS_UNREACHABLE;
}
loader_factory_.AddResponse(FileToURL(entry.first),
network::ResourceResponseHead(), entry.second,
status);
}
}
// Interceptor posts a *task* during destruction that actually unregisters
// things. So we have to run the message loop post-interceptor-destruction to
// actually unregister the URLs, otherwise they won't *actually* be
// unregistered until the next time we invoke the message loop. Which may be
// in the middle of the next test.
//
// Note this is harmless to call if we haven't started a fake ppd server.
void StopFakePpdServer() {
TurnOffFakePpdServer();
scoped_task_environment_.RunUntilIdle();
}
// Capture the result of a ResolveManufacturers() call.
void CaptureResolveManufacturers(PpdProvider::CallbackResultCode code,
const std::vector<std::string>& data) {
captured_resolve_manufacturers_.push_back({code, data});
}
// Capture the result of a ResolvePrinters() call.
void CaptureResolvePrinters(PpdProvider::CallbackResultCode code,
const PpdProvider::ResolvedPrintersList& data) {
captured_resolve_printers_.push_back({code, data});
}
// Capture the result of a ResolvePpd() call.
void CaptureResolvePpd(PpdProvider::CallbackResultCode code,
const std::string& ppd_contents,
const std::vector<std::string>& ppd_filters) {
CapturedResolvePpdResults results;
results.code = code;
results.ppd_contents = ppd_contents;
results.ppd_filters = ppd_filters;
captured_resolve_ppd_.push_back(results);
}
// Capture the result of a ResolveUsbIds() call.
void CaptureResolvePpdReference(PpdProvider::CallbackResultCode code,
const Printer::PpdReference& ref) {
captured_resolve_ppd_references_.push_back({code, ref});
}
void CaptureReverseLookup(PpdProvider::CallbackResultCode code,
const std::string& manufacturer,
const std::string& model) {
captured_reverse_lookup_.push_back({code, manufacturer, model});
}
// Discard the result of a ResolvePpd() call.
void DiscardResolvePpd(PpdProvider::CallbackResultCode code,
const std::string& contents) {}
protected:
// Run a ResolveManufacturers run from the given locale, expect to get
// results in expected_used_locale.
void RunLocalizationTest(const std::string& browser_locale,
const std::string& expected_used_locale) {
captured_resolve_manufacturers_.clear();
auto provider = CreateProvider(browser_locale, false);
provider->ResolveManufacturers(base::BindOnce(
&PpdProviderTest::CaptureResolveManufacturers, base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
provider = nullptr;
ASSERT_EQ(captured_resolve_manufacturers_.size(), 1UL);
EXPECT_EQ(captured_resolve_manufacturers_[0].first, PpdProvider::SUCCESS);
const auto& result_vec = captured_resolve_manufacturers_[0].second;
// It's sufficient to check for one of the expected locale keys to make sure
// we got the right map.
EXPECT_TRUE(base::ContainsValue(result_vec,
"manufacturer_a_" + expected_used_locale));
}
// Fake server being down, return ERR_ADDRESS_UNREACHABLE for all endpoints
void TurnOffFakePpdServer() {
loader_factory_.ClearResponses();
network::URLLoaderCompletionStatus status(net::ERR_ADDRESS_UNREACHABLE);
for (const auto& entry : server_contents()) {
loader_factory_.AddResponse(FileToURL(entry.first),
network::ResourceResponseHead(), "", status);
}
}
GURL FileToURL(std::string filename) {
return GURL(
base::StringPrintf("https://%s/%s", kPpdServer, filename.c_str()));
}
// List of relevant endpoint for this FakeServer
std::vector<std::pair<std::string, std::string>> server_contents() const {
// Use brace initialization to express the desired server contents as "url",
// "contents" pairs.
return {{"metadata_v2/locales.json",
R"(["en",
"es-mx",
"en-gb"])"},
{"metadata_v2/index-01.json",
R"([
["printer_a_ref", "printer_a.ppd"]
])"},
{"metadata_v2/index-02.json",
R"([
["printer_b_ref", "printer_b.ppd"]
])"},
{"metadata_v2/index-03.json",
R"([
["printer_c_ref", "printer_c.ppd"]
])"},
{"metadata_v2/index-04.json",
R"([
["printer_d_ref", "printer_d.ppd"]
])"},
{"metadata_v2/index-05.json",
R"([
["printer_e_ref", "printer_e.ppd"]
])"},
{"metadata_v2/index-13.json",
R"([
])"},
{"metadata_v2/usb-031f.json",
R"([
[1592, "Some canonical reference"],
[6535, "Some other canonical reference"]
])"},
{"metadata_v2/usb-1234.json", ""},
{"metadata_v2/manufacturers-en.json",
R"([
["manufacturer_a_en", "manufacturer_a.json"],
["manufacturer_b_en", "manufacturer_b.json"]
])"},
{"metadata_v2/manufacturers-en-gb.json",
R"([
["manufacturer_a_en-gb", "manufacturer_a.json"],
["manufacturer_b_en-gb", "manufacturer_b.json"]
])"},
{"metadata_v2/manufacturers-es-mx.json",
R"([
["manufacturer_a_es-mx", "manufacturer_a.json"],
["manufacturer_b_es-mx", "manufacturer_b.json"]
])"},
{"metadata_v2/manufacturer_a.json",
R"([
["printer_a", "printer_a_ref"],
["printer_b", "printer_b_ref"],
["printer_d", "printer_d_ref"]
])"},
{"metadata_v2/manufacturer_a.json",
R"([
["printer_a", "printer_a_ref",
{"min_milestone":25.0000}],
["printer_b", "printer_b_ref",
{"min_milestone":30.0000, "max_milestone":45.0000}],
["printer_d", "printer_d_ref",
{"min_milestone":60.0000, "max_milestone":75.0000}]
])"},
{"metadata_v2/manufacturer_b.json",
R"([
["printer_c", "printer_c_ref"],
["printer_e", "printer_e_ref"]
])"},
{"metadata_v2/reverse_index-en-01.json",
R"([
["printer_a_ref", "manufacturer_a_en", "printer_a"]
])"},
{"metadata_v2/reverse_index-en-19.json",
R"([
])"},
{"metadata_v2/manufacturer_b.json",
R"([
["printer_c", "printer_c_ref",
{"max_milestone":55.0000}],
["printer_e", "printer_e_ref",
{"min_milestone":17.0000, "max_milestone":33.0000}]
])"},
{"ppds/printer_a.ppd", kCupsFilterPpdContents},
{"ppds/printer_b.ppd", kCupsFilter2PpdContents},
{"ppds/printer_c.ppd", "c"},
{"ppds/printer_d.ppd", "d"},
{"ppds/printer_e.ppd", "e"},
{"user_supplied_ppd_directory/user_supplied.ppd", "u"}};
}
// Environment for task schedulers.
base::test::ScopedTaskEnvironment scoped_task_environment_;
std::vector<
std::pair<PpdProvider::CallbackResultCode, std::vector<std::string>>>
captured_resolve_manufacturers_;
std::vector<std::pair<PpdProvider::CallbackResultCode,
PpdProvider::ResolvedPrintersList>>
captured_resolve_printers_;
struct CapturedResolvePpdResults {
PpdProvider::CallbackResultCode code;
std::string ppd_contents;
std::vector<std::string> ppd_filters;
};
std::vector<CapturedResolvePpdResults> captured_resolve_ppd_;
std::vector<std::pair<PpdProvider::CallbackResultCode, Printer::PpdReference>>
captured_resolve_ppd_references_;
struct CapturedReverseLookup {
PpdProvider::CallbackResultCode code;
std::string manufacturer;
std::string model;
};
std::vector<CapturedReverseLookup> captured_reverse_lookup_;
base::ScopedTempDir ppd_cache_temp_dir_;
base::ScopedTempDir interceptor_temp_dir_;
// Reference to the underlying ppd_cache_ so we can muck with it to test
// cache-dependent behavior of ppd_provider_.
scoped_refptr<PpdCache> ppd_cache_;
// Misc extra stuff needed for the test environment to function.
// base::TestMessageLoop loop_;
network::TestURLLoaderFactory loader_factory_;
};
// Test that we get back manufacturer maps as expected.
TEST_F(PpdProviderTest, ManufacturersFetch) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
// Issue two requests at the same time, both should be resolved properly.
provider->ResolveManufacturers(base::BindOnce(
&PpdProviderTest::CaptureResolveManufacturers, base::Unretained(this)));
provider->ResolveManufacturers(base::BindOnce(
&PpdProviderTest::CaptureResolveManufacturers, base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(2UL, captured_resolve_manufacturers_.size());
std::vector<std::string> expected_result(
{"manufacturer_a_en", "manufacturer_b_en"});
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_manufacturers_[0].first);
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_manufacturers_[1].first);
EXPECT_TRUE(captured_resolve_manufacturers_[0].second == expected_result);
EXPECT_TRUE(captured_resolve_manufacturers_[1].second == expected_result);
}
// Test that we get a reasonable error when we have no server to contact. Tis
// is almost exactly the same as the above test, we just don't bring up the fake
// server first.
TEST_F(PpdProviderTest, ManufacturersFetchNoServer) {
auto provider = CreateProvider("en", false);
// Issue two requests at the same time, both should be resolved properly.
provider->ResolveManufacturers(base::BindOnce(
&PpdProviderTest::CaptureResolveManufacturers, base::Unretained(this)));
provider->ResolveManufacturers(base::BindOnce(
&PpdProviderTest::CaptureResolveManufacturers, base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(2UL, captured_resolve_manufacturers_.size());
EXPECT_EQ(PpdProvider::SERVER_ERROR,
captured_resolve_manufacturers_[0].first);
EXPECT_EQ(PpdProvider::SERVER_ERROR,
captured_resolve_manufacturers_[1].first);
EXPECT_TRUE(captured_resolve_manufacturers_[0].second.empty());
EXPECT_TRUE(captured_resolve_manufacturers_[1].second.empty());
}
// Test that we get things in the requested locale, and that fallbacks are sane.
TEST_F(PpdProviderTest, LocalizationAndFallbacks) {
StartFakePpdServer();
RunLocalizationTest("en-gb", "en-gb");
RunLocalizationTest("en-blah", "en");
RunLocalizationTest("en-gb-foo", "en-gb");
RunLocalizationTest("es", "es-mx");
RunLocalizationTest("bogus", "en");
}
// Tests that mutiples requests for make-and-model resolution can be fulfilled
// simultaneously.
TEST_F(PpdProviderTest, RepeatedMakeModel) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
PrinterSearchData unrecognized_printer;
unrecognized_printer.make_and_model = {"Printer Printer"};
PrinterSearchData recognized_printer;
recognized_printer.make_and_model = {"printer_a_ref"};
PrinterSearchData mixed;
mixed.make_and_model = {"printer_a_ref", "Printer Printer"};
// Resolve the same thing repeatedly.
provider->ResolvePpdReference(
unrecognized_printer,
base::BindOnce(&PpdProviderTest::CaptureResolvePpdReference,
base::Unretained(this)));
provider->ResolvePpdReference(
mixed, base::BindOnce(&PpdProviderTest::CaptureResolvePpdReference,
base::Unretained(this)));
provider->ResolvePpdReference(
recognized_printer,
base::BindOnce(&PpdProviderTest::CaptureResolvePpdReference,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(static_cast<size_t>(3), captured_resolve_ppd_references_.size());
EXPECT_EQ(PpdProvider::NOT_FOUND, captured_resolve_ppd_references_[0].first);
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_references_[1].first);
EXPECT_EQ(
"printer_a_ref",
captured_resolve_ppd_references_[1].second.effective_make_and_model);
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_references_[2].first);
EXPECT_EQ(
"printer_a_ref",
captured_resolve_ppd_references_[2].second.effective_make_and_model);
}
// Test successful and unsuccessful usb resolutions.
TEST_F(PpdProviderTest, UsbResolution) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
PrinterSearchData search_data;
// Should get back "Some canonical reference"
search_data.usb_vendor_id = 0x031f;
search_data.usb_product_id = 1592;
provider->ResolvePpdReference(
search_data, base::BindOnce(&PpdProviderTest::CaptureResolvePpdReference,
base::Unretained(this)));
// Should get back "Some other canonical reference"
search_data.usb_vendor_id = 0x031f;
search_data.usb_product_id = 6535;
provider->ResolvePpdReference(
search_data, base::BindOnce(&PpdProviderTest::CaptureResolvePpdReference,
base::Unretained(this)));
// Extant vendor id, nonexistant device id, should get a NOT_FOUND
search_data.usb_vendor_id = 0x031f;
search_data.usb_product_id = 8162;
provider->ResolvePpdReference(
search_data, base::BindOnce(&PpdProviderTest::CaptureResolvePpdReference,
base::Unretained(this)));
// Nonexistant vendor id, should get a NOT_FOUND in the real world, but
// the URL interceptor we're using considers all nonexistant files to
// be effectively CONNECTION REFUSED, so we just check for non-success
// on this one.
search_data.usb_vendor_id = 0x1234;
search_data.usb_product_id = 1782;
provider->ResolvePpdReference(
search_data, base::BindOnce(&PpdProviderTest::CaptureResolvePpdReference,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(captured_resolve_ppd_references_.size(), static_cast<size_t>(4));
EXPECT_EQ(captured_resolve_ppd_references_[0].first, PpdProvider::SUCCESS);
EXPECT_EQ(captured_resolve_ppd_references_[0].second.effective_make_and_model,
"Some canonical reference");
EXPECT_EQ(captured_resolve_ppd_references_[1].first, PpdProvider::SUCCESS);
EXPECT_EQ(captured_resolve_ppd_references_[1].second.effective_make_and_model,
"Some other canonical reference");
EXPECT_EQ(captured_resolve_ppd_references_[2].first, PpdProvider::NOT_FOUND);
EXPECT_FALSE(captured_resolve_ppd_references_[3].first ==
PpdProvider::SUCCESS);
}
// For convenience a null ResolveManufacturers callback target.
void ResolveManufacturersNop(PpdProvider::CallbackResultCode code,
const std::vector<std::string>& v) {}
// Test basic ResolvePrinters() functionality. At the same time, make
// sure we can get the PpdReference for each of the resolved printers.
TEST_F(PpdProviderTest, ResolvePrinters) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
// Grab the manufacturer list, but don't bother to save it, we know what
// should be in it and we check that elsewhere. We just need to run the
// resolve to populate the internal PpdProvider structures.
provider->ResolveManufacturers(base::BindOnce(&ResolveManufacturersNop));
scoped_task_environment_.RunUntilIdle();
provider->ResolvePrinters(
"manufacturer_a_en",
base::BindOnce(&PpdProviderTest::CaptureResolvePrinters,
base::Unretained(this)));
provider->ResolvePrinters(
"manufacturer_b_en",
base::BindOnce(&PpdProviderTest::CaptureResolvePrinters,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(2UL, captured_resolve_printers_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_printers_[0].first);
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_printers_[1].first);
EXPECT_EQ(2UL, captured_resolve_printers_[0].second.size());
// First capture should get back printer_a, and printer_b, with ppd
// reference effective make and models of printer_a_ref and printer_b_ref.
const auto& capture0 = captured_resolve_printers_[0].second;
ASSERT_EQ(2UL, capture0.size());
EXPECT_EQ("printer_a", capture0[0].name);
EXPECT_EQ("printer_a_ref", capture0[0].ppd_ref.effective_make_and_model);
EXPECT_EQ("printer_b", capture0[1].name);
EXPECT_EQ("printer_b_ref", capture0[1].ppd_ref.effective_make_and_model);
// Second capture should get back printer_c with effective make and model of
// printer_c_ref
const auto& capture1 = captured_resolve_printers_[1].second;
ASSERT_EQ(1UL, capture1.size());
EXPECT_EQ("printer_c", capture1[0].name);
EXPECT_EQ("printer_c_ref", capture1[0].ppd_ref.effective_make_and_model);
// EXPECT_EQ(base::Version("55"), capture1[0].restrictions.max_milestone);
}
// Test that if we give a bad reference to ResolvePrinters(), we get an
// INTERNAL_ERROR.
TEST_F(PpdProviderTest, ResolvePrintersBadReference) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
provider->ResolveManufacturers(base::BindOnce(&ResolveManufacturersNop));
scoped_task_environment_.RunUntilIdle();
provider->ResolvePrinters(
"bogus_doesnt_exist",
base::BindOnce(&PpdProviderTest::CaptureResolvePrinters,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_printers_.size());
EXPECT_EQ(PpdProvider::INTERNAL_ERROR, captured_resolve_printers_[0].first);
}
// Test that if the server is unavailable, we get SERVER_ERRORs back out.
TEST_F(PpdProviderTest, ResolvePrintersNoServer) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
provider->ResolveManufacturers(base::BindOnce(&ResolveManufacturersNop));
scoped_task_environment_.RunUntilIdle();
StopFakePpdServer();
provider->ResolvePrinters(
"manufacturer_a_en",
base::BindOnce(&PpdProviderTest::CaptureResolvePrinters,
base::Unretained(this)));
provider->ResolvePrinters(
"manufacturer_b_en",
base::BindOnce(&PpdProviderTest::CaptureResolvePrinters,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(2UL, captured_resolve_printers_.size());
EXPECT_EQ(PpdProvider::SERVER_ERROR, captured_resolve_printers_[0].first);
EXPECT_EQ(PpdProvider::SERVER_ERROR, captured_resolve_printers_[1].first);
}
// Test a successful ppd resolution from an effective_make_and_model reference.
TEST_F(PpdProviderTest, ResolveServerKeyPpd) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
Printer::PpdReference ref;
ref.effective_make_and_model = "printer_b_ref";
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
ref.effective_make_and_model = "printer_c_ref";
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(2UL, captured_resolve_ppd_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(kCupsFilter2PpdContents, captured_resolve_ppd_[0].ppd_contents);
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[1].code);
EXPECT_EQ("c", captured_resolve_ppd_[1].ppd_contents);
}
// Test that we *don't* resolve a ppd URL over non-file schemes. It's not clear
// whether we'll want to do this in the long term, but for now this is
// disallowed because we're not sure we completely understand the security
// implications.
TEST_F(PpdProviderTest, ResolveUserSuppliedUrlPpdFromNetworkFails) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
Printer::PpdReference ref;
ref.user_supplied_ppd_url = base::StringPrintf(
"https://%s/user_supplied_ppd_directory/user_supplied.ppd", kPpdServer);
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
EXPECT_EQ(PpdProvider::INTERNAL_ERROR, captured_resolve_ppd_[0].code);
EXPECT_TRUE(captured_resolve_ppd_[0].ppd_contents.empty());
}
// Test a successful ppd resolution from a user_supplied_url field when
// reading from a file. Note we shouldn't need the server to be up
// to do this successfully, as we should be able to do this offline.
TEST_F(PpdProviderTest, ResolveUserSuppliedUrlPpdFromFile) {
auto provider = CreateProvider("en", false);
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath filename = temp_dir.GetPath().Append("my_spiffy.ppd");
std::string user_ppd_contents = "Woohoo";
ASSERT_EQ(base::WriteFile(filename, user_ppd_contents.data(),
user_ppd_contents.size()),
static_cast<int>(user_ppd_contents.size()));
Printer::PpdReference ref;
ref.user_supplied_ppd_url =
base::StringPrintf("file://%s", filename.MaybeAsASCII().c_str());
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(user_ppd_contents, captured_resolve_ppd_[0].ppd_contents);
}
// Test that we cache ppd resolutions when we fetch them and that we can resolve
// from the cache without the server available.
TEST_F(PpdProviderTest, ResolvedPpdsGetCached) {
auto provider = CreateProvider("en", false);
std::string user_ppd_contents = "Woohoo";
Printer::PpdReference ref;
{
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath filename = temp_dir.GetPath().Append("my_spiffy.ppd");
ASSERT_EQ(base::WriteFile(filename, user_ppd_contents.data(),
user_ppd_contents.size()),
static_cast<int>(user_ppd_contents.size()));
ref.user_supplied_ppd_url =
base::StringPrintf("file://%s", filename.MaybeAsASCII().c_str());
provider->ResolvePpd(ref,
base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(user_ppd_contents, captured_resolve_ppd_[0].ppd_contents);
}
// ScopedTempDir goes out of scope, so the source file should now be
// deleted. But if we resolve again, we should hit the cache and
// still be successful.
captured_resolve_ppd_.clear();
// Recreate the provider to make sure we don't have any memory caches which
// would mask problems with disk persistence.
provider = CreateProvider("en", false);
// Re-resolve.
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(user_ppd_contents, captured_resolve_ppd_[0].ppd_contents);
}
// Test that the filter extraction code successfully pulls the filters
// from the ppds resolved.
TEST_F(PpdProviderTest, ExtractPpdFilters) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
Printer::PpdReference ref;
ref.effective_make_and_model = "printer_a_ref";
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
ref.effective_make_and_model = "printer_b_ref";
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
std::sort(captured_resolve_ppd_[0].ppd_filters.begin(),
captured_resolve_ppd_[0].ppd_filters.end());
ASSERT_EQ(2UL, captured_resolve_ppd_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(kCupsFilterPpdContents, captured_resolve_ppd_[0].ppd_contents);
EXPECT_EQ(
std::vector<std::string>({"a_different_filter", "filter3", "my_filter"}),
captured_resolve_ppd_[0].ppd_filters);
std::sort(captured_resolve_ppd_[1].ppd_filters.begin(),
captured_resolve_ppd_[1].ppd_filters.end());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[1].code);
EXPECT_EQ(kCupsFilter2PpdContents, captured_resolve_ppd_[1].ppd_contents);
EXPECT_EQ(
std::vector<std::string>({"another_real_filter", "the_real_filter"}),
captured_resolve_ppd_[1].ppd_filters);
}
// Test that all entrypoints will correctly work with case-insensitve
// effective-make-and-model strings.
TEST_F(PpdProviderTest, CaseInsensitiveMakeAndModel) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
std::string ref = "pRiNteR_A_reF";
Printer::PpdReference ppd_ref;
ppd_ref.effective_make_and_model = ref;
provider->ResolvePpd(ppd_ref,
base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
provider->ReverseLookup(ref,
base::BindOnce(&PpdProviderTest::CaptureReverseLookup,
base::Unretained(this)));
PrinterSearchData printer_info;
printer_info.make_and_model = {ref};
provider->ResolvePpdReference(
printer_info, base::BindOnce(&PpdProviderTest::CaptureResolvePpdReference,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
std::sort(captured_resolve_ppd_[0].ppd_filters.begin(),
captured_resolve_ppd_[0].ppd_filters.end());
// Check PpdProvider::ResolvePpd
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(kCupsFilterPpdContents, captured_resolve_ppd_[0].ppd_contents);
// Check PpdProvider::ReverseLookup
ASSERT_EQ(1UL, captured_reverse_lookup_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_reverse_lookup_[0].code);
EXPECT_EQ("manufacturer_a_en", captured_reverse_lookup_[0].manufacturer);
EXPECT_EQ("printer_a", captured_reverse_lookup_[0].model);
// Check PpdProvider::ResolvePpdReference
ASSERT_EQ(1UL, captured_resolve_ppd_references_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_references_[0].first);
EXPECT_EQ(
"printer_a_ref",
captured_resolve_ppd_references_[0].second.effective_make_and_model);
}
// Verifies that we can extract the Manufacturer and Model selectison for a
// given effective make and model.
TEST_F(PpdProviderTest, ReverseLookup) {
StartFakePpdServer();
auto provider = CreateProvider("en", false);
std::string ref = "printer_a_ref";
provider->ReverseLookup(ref,
base::BindOnce(&PpdProviderTest::CaptureReverseLookup,
base::Unretained(this)));
// TODO(skau): PpdProvider has a race condition that prevents running these
// requests in parallel.
scoped_task_environment_.RunUntilIdle();
std::string ref_fail = "printer_does_not_exist";
provider->ReverseLookup(ref_fail,
base::BindOnce(&PpdProviderTest::CaptureReverseLookup,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(2U, captured_reverse_lookup_.size());
CapturedReverseLookup success_capture = captured_reverse_lookup_[0];
EXPECT_EQ(PpdProvider::SUCCESS, success_capture.code);
EXPECT_EQ("manufacturer_a_en", success_capture.manufacturer);
EXPECT_EQ("printer_a", success_capture.model);
CapturedReverseLookup failed_capture = captured_reverse_lookup_[1];
EXPECT_EQ(PpdProvider::NOT_FOUND, failed_capture.code);
}
// If we have a fresh entry in the cache, we shouldn't need to go out to the
// network at all to successfully resolve a ppd.
TEST_F(PpdProviderTest, FreshCacheHitNoNetworkTraffic) {
// Explicitly *not* starting a fake server.
std::string cached_ppd_contents =
"These cached contents are different from what's being served";
auto provider = CreateProvider("en", true);
Printer::PpdReference ref;
ref.effective_make_and_model = "printer_a_ref";
std::string cache_key = PpdProvider::PpdReferenceToCacheKey(ref);
// Cache exists, and is just created, so should be fresh.
ppd_cache_->StoreForTesting(PpdProvider::PpdReferenceToCacheKey(ref),
cached_ppd_contents, base::TimeDelta());
scoped_task_environment_.RunUntilIdle();
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
// Should get the cached (not served) results back, and not have hit the
// network.
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(cached_ppd_contents, captured_resolve_ppd_[0].ppd_contents);
}
// If we have a stale cache entry and a good network connection, does the cache
// get refreshed during a resolution?
TEST_F(PpdProviderTest, StaleCacheGetsRefreshed) {
StartFakePpdServer();
std::string cached_ppd_contents =
"These cached contents are different from what's being served";
auto provider = CreateProvider("en", true);
// printer_ref_a resolves to kCupsFilterPpdContents on the server.
std::string expected_ppd = kCupsFilterPpdContents;
Printer::PpdReference ref;
ref.effective_make_and_model = "printer_a_ref";
std::string cache_key = PpdProvider::PpdReferenceToCacheKey(ref);
// Cache exists, and is 6 months old, so really stale.
ppd_cache_->StoreForTesting(PpdProvider::PpdReferenceToCacheKey(ref),
cached_ppd_contents,
base::TimeDelta::FromDays(180));
scoped_task_environment_.RunUntilIdle();
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
// Should get the served results back, not the stale cached ones.
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(captured_resolve_ppd_[0].ppd_contents, expected_ppd);
// Check that the cache was also updated.
PpdCache::FindResult captured_find_result;
// This is just a complicated syntax around the idea "use the Find callback to
// save the result in captured_find_result.
ppd_cache_->Find(PpdProvider::PpdReferenceToCacheKey(ref),
base::BindOnce(
[](PpdCache::FindResult* captured_find_result,
const PpdCache::FindResult& find_result) {
*captured_find_result = find_result;
},
&captured_find_result));
scoped_task_environment_.RunUntilIdle();
EXPECT_EQ(captured_find_result.success, true);
EXPECT_EQ(captured_find_result.contents, expected_ppd);
EXPECT_LT(captured_find_result.age, base::TimeDelta::FromDays(1));
}
// Test that, if we have an old entry in the cache that needs to be refreshed,
// and we fail to contact the server, we still use the cached version.
TEST_F(PpdProviderTest, StaleCacheGetsUsedIfNetworkFails) {
// Note that we're explicitly *not* starting the Fake ppd server in this test.
std::string cached_ppd_contents =
"These cached contents are different from what's being served";
auto provider = CreateProvider("en", true);
Printer::PpdReference ref;
ref.effective_make_and_model = "printer_a_ref";
std::string cache_key = PpdProvider::PpdReferenceToCacheKey(ref);
// Cache exists, and is 6 months old, so really stale.
ppd_cache_->StoreForTesting(PpdProvider::PpdReferenceToCacheKey(ref),
cached_ppd_contents,
base::TimeDelta::FromDays(180));
scoped_task_environment_.RunUntilIdle();
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
// Should successfully resolve from the cache, even though it's stale.
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(cached_ppd_contents, captured_resolve_ppd_[0].ppd_contents);
// Check that the cache is *not* updated; it should remain stale.
PpdCache::FindResult captured_find_result;
// This is just a complicated syntax around the idea "use the Find callback to
// save the result in captured_find_result.
ppd_cache_->Find(PpdProvider::PpdReferenceToCacheKey(ref),
base::BindOnce(
[](PpdCache::FindResult* captured_find_result,
const PpdCache::FindResult& find_result) {
*captured_find_result = find_result;
},
&captured_find_result));
scoped_task_environment_.RunUntilIdle();
EXPECT_EQ(captured_find_result.success, true);
EXPECT_EQ(captured_find_result.contents, cached_ppd_contents);
EXPECT_GT(captured_find_result.age, base::TimeDelta::FromDays(179));
}
// For user-provided ppds, we should always use the latest version on
// disk if it still exists there.
TEST_F(PpdProviderTest, UserPpdAlwaysRefreshedIfAvailable) {
base::ScopedTempDir temp_dir;
StartFakePpdServer();
std::string cached_ppd_contents = "Cached Ppd Contents";
std::string disk_ppd_contents = "Updated Ppd Contents";
auto provider = CreateProvider("en", true);
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath filename = temp_dir.GetPath().Append("my_spiffy.ppd");
Printer::PpdReference ref;
ref.user_supplied_ppd_url =
base::StringPrintf("file://%s", filename.MaybeAsASCII().c_str());
// Put cached_ppd_contents into the cache.
ppd_cache_->StoreForTesting(PpdProvider::PpdReferenceToCacheKey(ref),
cached_ppd_contents, base::TimeDelta());
scoped_task_environment_.RunUntilIdle();
// Write different contents to disk, so that the cached contents are
// now stale.
ASSERT_EQ(base::WriteFile(filename, disk_ppd_contents.data(),
disk_ppd_contents.size()),
static_cast<int>(disk_ppd_contents.size()));
provider->ResolvePpd(ref, base::BindOnce(&PpdProviderTest::CaptureResolvePpd,
base::Unretained(this)));
scoped_task_environment_.RunUntilIdle();
ASSERT_EQ(1UL, captured_resolve_ppd_.size());
EXPECT_EQ(PpdProvider::SUCCESS, captured_resolve_ppd_[0].code);
EXPECT_EQ(disk_ppd_contents, captured_resolve_ppd_[0].ppd_contents);
// Check that the cache was also updated with the new contents.
PpdCache::FindResult captured_find_result;
ppd_cache_->Find(PpdProvider::PpdReferenceToCacheKey(ref),
base::BindOnce(
[](PpdCache::FindResult* captured_find_result,
const PpdCache::FindResult& find_result) {
*captured_find_result = find_result;
},
&captured_find_result));
scoped_task_environment_.RunUntilIdle();
EXPECT_EQ(captured_find_result.success, true);
EXPECT_EQ(captured_find_result.contents, disk_ppd_contents);
}
} // namespace
} // namespace chromeos