blob: ed01d26ea5a692a22a0865a723988509448c559e [file] [log] [blame]
// Copyright (c) 2012 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 "net/url_request/url_fetcher_impl.h"
#include <string.h>
#include <algorithm>
#include <limits>
#include <memory>
#include <string>
#include "base/bind.h"
#include "base/files/file_path.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/location.h"
#include "base/macros.h"
#include "base/message_loop/message_loop.h"
#include "base/path_service.h"
#include "base/run_loop.h"
#include "base/sequenced_task_runner.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/synchronization/waitable_event.h"
#include "base/task/post_task.h"
#include "base/test/test_timeouts.h"
#include "base/threading/platform_thread.h"
#include "base/threading/sequenced_task_runner_handle.h"
#include "base/threading/thread.h"
#include "base/threading/thread_task_runner_handle.h"
#include "build/build_config.h"
#include "net/base/elements_upload_data_stream.h"
#include "net/base/network_change_notifier.h"
#include "net/base/upload_bytes_element_reader.h"
#include "net/base/upload_element_reader.h"
#include "net/base/upload_file_element_reader.h"
#include "net/dns/mock_host_resolver.h"
#include "net/http/http_response_headers.h"
#include "net/test/embedded_test_server/embedded_test_server.h"
#include "net/test/gtest_util.h"
#include "net/test/test_with_scoped_task_environment.h"
#include "net/traffic_annotation/network_traffic_annotation_test_helper.h"
#include "net/url_request/url_fetcher_delegate.h"
#include "net/url_request/url_request_context_getter.h"
#include "net/url_request/url_request_test_util.h"
#include "net/url_request/url_request_throttler_manager.h"
#include "starboard/common/string.h"
#include "starboard/types.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace net {
using base::Time;
using base::TimeDelta;
using net::test::IsError;
using net::test::IsOk;
// TODO(eroman): Add a regression test for http://crbug.com/40505.
namespace {
// TODO(akalin): Move all the test data to somewhere under net/.
const base::FilePath::CharType kDocRoot[] =
FILE_PATH_LITERAL("net/data/url_fetcher_impl_unittest");
const char kTestServerFilePrefix[] = "/";
// Test server path and response body for the default URL used by many of the
// tests.
const char kDefaultResponsePath[] = "/defaultresponse";
const char kDefaultResponseBody[] =
"Default response given for path: /defaultresponse";
// Request body for streams created by CreateUploadStream.
const char kCreateUploadStreamBody[] = "rosebud";
base::FilePath GetUploadFileTestPath() {
base::FilePath path;
base::PathService::Get(base::DIR_TEST_DATA, &path);
return path.Append(
FILE_PATH_LITERAL("net/data/url_request_unittest/BullRunSpeech.txt"));
}
// Simple URLRequestDelegate that waits for the specified fetcher to complete.
// Can only be used once.
class WaitingURLFetcherDelegate : public URLFetcherDelegate {
public:
WaitingURLFetcherDelegate() : did_complete_(false) {}
void CreateFetcher(
const GURL& url,
URLFetcher::RequestType request_type,
scoped_refptr<net::URLRequestContextGetter> context_getter) {
if (!on_complete_or_cancel_) {
run_loop_ = std::make_unique<base::RunLoop>();
on_complete_or_cancel_ = run_loop_->QuitClosure();
}
fetcher_.reset(new URLFetcherImpl(url, request_type, this,
TRAFFIC_ANNOTATION_FOR_TESTS));
fetcher_->SetRequestContext(context_getter.get());
}
URLFetcher* fetcher() const { return fetcher_.get(); }
// Wait until the request has completed or been canceled.
void StartFetcherAndWait() {
fetcher_->Start();
WaitForComplete();
}
// Wait until the request has completed or been canceled. Does not start the
// request.
void WaitForComplete() {
EXPECT_TRUE(task_runner_->RunsTasksInCurrentSequence());
run_loop_->Run();
}
// Cancels the fetch by deleting the fetcher.
void CancelFetch() {
EXPECT_TRUE(fetcher_);
fetcher_.reset();
std::move(on_complete_or_cancel_).Run();
}
// URLFetcherDelegate:
void OnURLFetchComplete(const URLFetcher* source) override {
EXPECT_FALSE(did_complete_);
EXPECT_TRUE(fetcher_);
EXPECT_EQ(fetcher_.get(), source);
did_complete_ = true;
std::move(on_complete_or_cancel_).Run();
}
void OnURLFetchDownloadProgress(const URLFetcher* source,
int64_t current,
int64_t total,
int64_t current_network_bytes) override {
// Note that the current progress may be greater than the previous progress,
// in the case of retrying the request.
EXPECT_FALSE(did_complete_);
EXPECT_TRUE(fetcher_);
EXPECT_EQ(source, fetcher_.get());
EXPECT_LE(0, current);
// If file size is not known, |total| is -1.
if (total >= 0)
EXPECT_LE(current, total);
}
void OnURLFetchUploadProgress(const URLFetcher* source,
int64_t current,
int64_t total) override {
// Note that the current progress may be greater than the previous progress,
// in the case of retrying the request.
EXPECT_FALSE(did_complete_);
EXPECT_TRUE(fetcher_);
EXPECT_EQ(source, fetcher_.get());
EXPECT_LE(0, current);
// If file size is not known, |total| is -1.
if (total >= 0)
EXPECT_LE(current, total);
}
bool did_complete() const { return did_complete_; }
void set_on_complete_or_cancel_closure(base::OnceClosure closure) {
on_complete_or_cancel_ = std::move(closure);
}
private:
bool did_complete_;
std::unique_ptr<URLFetcherImpl> fetcher_;
const scoped_refptr<base::SequencedTaskRunner> task_runner_ =
base::SequencedTaskRunnerHandle::Get();
std::unique_ptr<base::RunLoop> run_loop_;
base::OnceClosure on_complete_or_cancel_;
DISALLOW_COPY_AND_ASSIGN(WaitingURLFetcherDelegate);
};
// A TestURLRequestContext with a ThrottleManager and a MockHostResolver.
class FetcherTestURLRequestContext : public TestURLRequestContext {
public:
// All requests for |hanging_domain| will hang on host resolution until the
// mock_resolver()->ResolveAllPending() is called.
FetcherTestURLRequestContext(
const std::string& hanging_domain,
std::unique_ptr<ProxyResolutionService> proxy_resolution_service)
: TestURLRequestContext(true), mock_resolver_(new MockHostResolver()) {
mock_resolver_->set_ondemand_mode(true);
mock_resolver_->rules()->AddRule(hanging_domain, "127.0.0.1");
// Pass ownership to ContextStorage to ensure correct destruction order.
context_storage_.set_host_resolver(
std::unique_ptr<HostResolver>(mock_resolver_));
context_storage_.set_throttler_manager(
std::make_unique<URLRequestThrottlerManager>());
context_storage_.set_proxy_resolution_service(
std::move(proxy_resolution_service));
Init();
}
MockHostResolver* mock_resolver() { return mock_resolver_; }
private:
MockHostResolver* mock_resolver_;
DISALLOW_COPY_AND_ASSIGN(FetcherTestURLRequestContext);
};
class FetcherTestURLRequestContextGetter : public URLRequestContextGetter {
public:
FetcherTestURLRequestContextGetter(
scoped_refptr<base::SequencedTaskRunner> network_task_runner,
const std::string& hanging_domain)
: network_task_runner_(network_task_runner),
hanging_domain_(hanging_domain),
shutting_down_(false) {}
// Sets callback to be invoked when the getter is destroyed.
void set_on_destruction_callback(base::OnceClosure on_destruction_callback) {
on_destruction_callback_ = std::move(on_destruction_callback);
}
// URLRequestContextGetter:
FetcherTestURLRequestContext* GetURLRequestContext() override {
// Calling this on the wrong thread may be either a bug in the test or a bug
// in production code.
EXPECT_TRUE(network_task_runner_->RunsTasksInCurrentSequence());
if (shutting_down_)
return nullptr;
if (!context_) {
context_.reset(new FetcherTestURLRequestContext(
hanging_domain_, std::move(proxy_resolution_service_)));
}
return context_.get();
}
scoped_refptr<base::SequencedTaskRunner> GetNetworkTaskRunner()
const override {
return network_task_runner_;
}
// Adds a throttler entry with the specified parameters. Does this
// synchronously if the context lives on the current thread, or posts a task
// to the relevant thread otherwise.
//
// If |reserve_sending_time_for_next_request|, will start backoff early, as
// if there has already been a request for |url|.
void AddThrottlerEntry(const GURL& url,
const std::string& url_id,
int sliding_window_period_ms,
int max_send_threshold,
int initial_backoff_ms,
double multiply_factor,
double jitter_factor,
int maximum_backoff_ms,
bool reserve_sending_time_for_next_request) {
if (!network_task_runner_->RunsTasksInCurrentSequence()) {
network_task_runner_->PostTask(
FROM_HERE,
base::Bind(&FetcherTestURLRequestContextGetter::AddThrottlerEntry,
this, url, url_id, sliding_window_period_ms,
max_send_threshold, initial_backoff_ms, multiply_factor,
jitter_factor, maximum_backoff_ms,
reserve_sending_time_for_next_request));
return;
}
scoped_refptr<URLRequestThrottlerEntry> entry(new URLRequestThrottlerEntry(
GetURLRequestContext()->throttler_manager(), url_id,
sliding_window_period_ms, max_send_threshold, initial_backoff_ms,
multiply_factor, jitter_factor, maximum_backoff_ms));
GetURLRequestContext()->throttler_manager()->OverrideEntryForTests(
url, entry.get());
if (reserve_sending_time_for_next_request)
entry->ReserveSendingTimeForNextRequest(base::TimeTicks());
}
// Tells the getter to act as if the URLRequestContext is about to be shut
// down.
void Shutdown() {
if (!network_task_runner_->RunsTasksInCurrentSequence()) {
network_task_runner_->PostTask(
FROM_HERE,
base::Bind(&FetcherTestURLRequestContextGetter::Shutdown, this));
return;
}
shutting_down_ = true;
NotifyContextShuttingDown();
// Should now be safe to destroy the context. Context will check it has no
// pending requests.
context_.reset();
}
// Convenience method to access the context as a FetcherTestURLRequestContext
// without going through GetURLRequestContext.
FetcherTestURLRequestContext* context() {
DCHECK(network_task_runner_->RunsTasksInCurrentSequence());
return context_.get();
}
void set_proxy_resolution_service(
std::unique_ptr<ProxyResolutionService> proxy_resolution_service) {
DCHECK(proxy_resolution_service);
proxy_resolution_service_ = std::move(proxy_resolution_service);
}
protected:
~FetcherTestURLRequestContextGetter() override {
// |context_| may only be deleted on the network thread. Fortunately,
// the parent class already ensures it's deleted on the network thread.
DCHECK(network_task_runner_->RunsTasksInCurrentSequence());
if (!on_destruction_callback_.is_null())
std::move(on_destruction_callback_).Run();
}
private:
scoped_refptr<base::SequencedTaskRunner> network_task_runner_;
const std::string hanging_domain_;
// May be null.
std::unique_ptr<ProxyResolutionService> proxy_resolution_service_;
std::unique_ptr<FetcherTestURLRequestContext> context_;
bool shutting_down_;
base::OnceClosure on_destruction_callback_;
DISALLOW_COPY_AND_ASSIGN(FetcherTestURLRequestContextGetter);
};
} // namespace
class URLFetcherTest : public TestWithScopedTaskEnvironment {
public:
URLFetcherTest() : num_upload_streams_created_(0) {}
static int GetNumFetcherCores() {
return URLFetcherImpl::GetNumFetcherCores();
}
// Creates a URLRequestContextGetter with a URLRequestContext that lives on
// the current thread.
scoped_refptr<FetcherTestURLRequestContextGetter>
CreateSameThreadContextGetter() {
return scoped_refptr<FetcherTestURLRequestContextGetter>(
new FetcherTestURLRequestContextGetter(
base::ThreadTaskRunnerHandle::Get(), hanging_url().host()));
}
// Creates a URLRequestContextGetter with a URLRequestContext that lives on
// a separate network thread.
scoped_refptr<FetcherTestURLRequestContextGetter>
CreateCrossThreadContextGetter() {
if (!network_thread_) {
network_thread_.reset(new base::Thread("network thread"));
base::Thread::Options network_thread_options;
network_thread_options.message_loop_type = base::MessageLoop::TYPE_IO;
#if defined(STARBOARD)
// Not setting the stack size high enough can cause hard-to-debug memory
// writing errors on some platforms.
network_thread_options.stack_size = 256 * 1024;
#endif
bool result = network_thread_->StartWithOptions(network_thread_options);
CHECK(result);
}
return scoped_refptr<FetcherTestURLRequestContextGetter>(
new FetcherTestURLRequestContextGetter(network_thread_->task_runner(),
hanging_url().host()));
}
// Callback passed to URLFetcher to create upload stream by some tests.
std::unique_ptr<UploadDataStream> CreateUploadStream() {
++num_upload_streams_created_;
std::vector<char> buffer(
kCreateUploadStreamBody,
kCreateUploadStreamBody + strlen(kCreateUploadStreamBody));
return ElementsUploadDataStream::CreateWithReader(
std::unique_ptr<UploadElementReader>(
new UploadOwnedBytesElementReader(&buffer)),
0);
}
// Number of streams created by CreateUploadStream.
size_t num_upload_streams_created() const {
return num_upload_streams_created_;
}
// Downloads |file_to_fetch| and checks the contents when done. If
// |save_to_temporary_file| is true, saves it to a temporary file, and
// |requested_out_path| is ignored. Otherwise, saves it to
// |requested_out_path|. Takes ownership of the file if |take_ownership| is
// true. Deletes file when done.
void SaveFileTest(const char* file_to_fetch,
bool save_to_temporary_file,
const base::FilePath& requested_out_path,
bool take_ownership) {
std::unique_ptr<WaitingURLFetcherDelegate> delegate(
new WaitingURLFetcherDelegate());
delegate->CreateFetcher(
test_server_->GetURL(std::string(kTestServerFilePrefix) +
file_to_fetch),
URLFetcher::GET, CreateSameThreadContextGetter());
if (save_to_temporary_file) {
delegate->fetcher()->SaveResponseToTemporaryFile(
scoped_refptr<base::SequencedTaskRunner>(
base::SequencedTaskRunnerHandle::Get()));
} else {
delegate->fetcher()->SaveResponseToFileAtPath(
requested_out_path, scoped_refptr<base::SequencedTaskRunner>(
base::SequencedTaskRunnerHandle::Get()));
}
delegate->StartFetcherAndWait();
EXPECT_TRUE(delegate->fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate->fetcher()->GetResponseCode());
base::FilePath out_path;
EXPECT_TRUE(
delegate->fetcher()->GetResponseAsFilePath(take_ownership, &out_path));
if (!save_to_temporary_file) {
EXPECT_EQ(requested_out_path, out_path);
}
base::FilePath server_root;
base::PathService::Get(base::DIR_TEST_DATA, &server_root);
EXPECT_TRUE(base::ContentsEqual(
server_root.Append(kDocRoot).AppendASCII(file_to_fetch), out_path));
// Delete the delegate and run the message loop to give the fetcher's
// destructor a chance to delete the file.
delegate.reset();
base::RunLoop().RunUntilIdle();
// File should only exist if |take_ownership| was true.
EXPECT_EQ(take_ownership, base::PathExists(out_path));
// Cleanup.
if (base::PathExists(out_path))
base::DeleteFile(out_path, false);
}
// Returns a URL that hangs on DNS resolution when using a context created by
// the test fixture.
const GURL& hanging_url() const { return hanging_url_; }
// testing::Test:
void SetUp() override {
SetUpServer();
ASSERT_TRUE(test_server_->Start());
// URL that will hang when lookups reach the host resolver.
hanging_url_ = GURL(base::StringPrintf(
"http://example.com:%d%s", test_server_->host_port_pair().port(),
kDefaultResponsePath));
ASSERT_TRUE(hanging_url_.is_valid());
}
// Initializes |test_server_| without starting it. Allows subclasses to use
// their own server configuration.
virtual void SetUpServer() {
test_server_.reset(new EmbeddedTestServer);
test_server_->AddDefaultHandlers(base::FilePath(kDocRoot));
}
// Network thread for cross-thread tests. Most threads just use the main
// thread for network activity.
std::unique_ptr<base::Thread> network_thread_;
std::unique_ptr<EmbeddedTestServer> test_server_;
GURL hanging_url_;
size_t num_upload_streams_created_;
};
namespace {
// Version of URLFetcherTest that tests bad HTTPS requests.
class URLFetcherBadHTTPSTest : public URLFetcherTest {
public:
URLFetcherBadHTTPSTest() = default;
// URLFetcherTest:
void SetUpServer() override {
test_server_.reset(
new EmbeddedTestServer(net::EmbeddedTestServer::TYPE_HTTPS));
test_server_->SetSSLConfig(net::EmbeddedTestServer::CERT_EXPIRED);
test_server_->ServeFilesFromSourceDirectory("net/data/ssl");
}
};
// Verifies that the fetcher succesfully fetches resources over proxy, and
// correctly returns the value of the proxy server used.
TEST_F(URLFetcherTest, FetchedUsingProxy) {
WaitingURLFetcherDelegate delegate;
scoped_refptr<net::FetcherTestURLRequestContextGetter> context_getter =
CreateSameThreadContextGetter();
const net::ProxyServer proxy_server(ProxyServer::SCHEME_HTTP,
test_server_->host_port_pair());
std::unique_ptr<ProxyResolutionService> proxy_resolution_service =
ProxyResolutionService::CreateFixedFromPacResult(
proxy_server.ToPacString(), TRAFFIC_ANNOTATION_FOR_TESTS);
context_getter->set_proxy_resolution_service(
std::move(proxy_resolution_service));
delegate.CreateFetcher(test_server_->GetURL(kDefaultResponsePath),
URLFetcher::GET, context_getter);
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kDefaultResponseBody, data);
EXPECT_EQ(proxy_server, delegate.fetcher()->ProxyServerUsed());
EXPECT_TRUE(delegate.fetcher()->WasFetchedViaProxy());
}
// Create the fetcher on the main thread. Since network IO will happen on the
// main thread, this will test URLFetcher's ability to do everything on one
// thread.
TEST_F(URLFetcherTest, SameThreadTest) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL(kDefaultResponsePath),
URLFetcher::GET, CreateSameThreadContextGetter());
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kDefaultResponseBody, data);
EXPECT_EQ(static_cast<int64_t>(strlen(kDefaultResponseBody)),
delegate.fetcher()->GetReceivedResponseContentLength());
std::string parsed_headers;
base::ReplaceChars(delegate.fetcher()->GetResponseHeaders()->raw_headers(),
std::string("\0", 1), "\n\r", &parsed_headers);
EXPECT_EQ(static_cast<int64_t>(parsed_headers.size() +
strlen(kDefaultResponseBody)),
delegate.fetcher()->GetTotalReceivedBytes());
EXPECT_EQ(ProxyServer::SCHEME_DIRECT,
delegate.fetcher()->ProxyServerUsed().scheme());
EXPECT_FALSE(delegate.fetcher()->WasFetchedViaProxy());
}
// Create a separate thread that will create the URLFetcher. A separate thread
// acts as the network thread.
TEST_F(URLFetcherTest, DifferentThreadsTest) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL(kDefaultResponsePath),
URLFetcher::GET, CreateCrossThreadContextGetter());
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kDefaultResponseBody, data);
}
// Verifies that a URLFetcher works correctly on a TaskScheduler Sequence.
TEST_F(URLFetcherTest, SequencedTaskTest) {
auto sequenced_task_runner = base::CreateSequencedTaskRunnerWithTraits({});
// Since we cannot use StartFetchAndWait(), which runs a nested RunLoop owned
// by the Delegate, on a SchedulerWorker Sequence, this test is split into
// two Callbacks, both run on |sequenced_task_runner_|. The test main thread
// then runs its own RunLoop, which the second of the Callbacks will quit.
base::RunLoop run_loop;
// Actually start the test fetch, on the Sequence.
sequenced_task_runner->PostTask(
FROM_HERE,
base::BindOnce(
[](scoped_refptr<FetcherTestURLRequestContextGetter> context_getter,
const GURL& response_path, base::OnceClosure quit_closure) {
std::unique_ptr<WaitingURLFetcherDelegate> delegate =
std::make_unique<WaitingURLFetcherDelegate>();
WaitingURLFetcherDelegate* raw_delegate = delegate.get();
// Configure the delegate to run our |on_complete_closure_| rather
// than quitting its own |run_loop_|, on completion.
raw_delegate->set_on_complete_or_cancel_closure(base::BindOnce(
[](base::OnceClosure quit_closure,
std::unique_ptr<WaitingURLFetcherDelegate> delegate) {
EXPECT_TRUE(delegate->fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate->fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate->fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kDefaultResponseBody, data);
std::move(quit_closure).Run();
},
base::Passed(&quit_closure), base::Passed(&delegate)));
raw_delegate->CreateFetcher(response_path, URLFetcher::GET,
context_getter);
raw_delegate->fetcher()->Start();
},
CreateCrossThreadContextGetter(),
test_server_->GetURL(kDefaultResponsePath), run_loop.QuitClosure()));
run_loop.Run();
RunUntilIdle();
}
// Tests to make sure CancelAll() will successfully cancel existing URLFetchers.
TEST_F(URLFetcherTest, CancelAll) {
EXPECT_EQ(0, GetNumFetcherCores());
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Force context creation.
context_getter->GetURLRequestContext();
MockHostResolver* mock_resolver = context_getter->context()->mock_resolver();
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
delegate.fetcher()->Start();
// Wait for the request to reach the mock resolver and hang, to ensure the
// request has actually started.
base::RunLoop().RunUntilIdle();
EXPECT_TRUE(mock_resolver->has_pending_requests());
EXPECT_EQ(1, URLFetcherTest::GetNumFetcherCores());
URLFetcherImpl::CancelAll();
EXPECT_EQ(0, URLFetcherTest::GetNumFetcherCores());
}
TEST_F(URLFetcherTest, DontRetryOnNetworkChangedByDefault) {
EXPECT_EQ(0, GetNumFetcherCores());
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Force context creation.
context_getter->GetURLRequestContext();
MockHostResolver* mock_resolver = context_getter->context()->mock_resolver();
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
EXPECT_FALSE(mock_resolver->has_pending_requests());
// This posts a task to start the fetcher.
delegate.fetcher()->Start();
base::RunLoop().RunUntilIdle();
// The fetcher is now running, but is pending the host resolve.
EXPECT_EQ(1, GetNumFetcherCores());
EXPECT_TRUE(mock_resolver->has_pending_requests());
ASSERT_FALSE(delegate.did_complete());
// A network change notification aborts the connect job.
NetworkChangeNotifier::NotifyObserversOfIPAddressChangeForTests();
delegate.WaitForComplete();
EXPECT_FALSE(mock_resolver->has_pending_requests());
// And the owner of the fetcher gets the ERR_NETWORK_CHANGED error.
EXPECT_EQ(hanging_url(), delegate.fetcher()->GetOriginalURL());
ASSERT_FALSE(delegate.fetcher()->GetStatus().is_success());
EXPECT_THAT(delegate.fetcher()->GetStatus().error(),
IsError(ERR_NETWORK_CHANGED));
}
TEST_F(URLFetcherTest, RetryOnNetworkChangedAndFail) {
EXPECT_EQ(0, GetNumFetcherCores());
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Force context creation.
context_getter->GetURLRequestContext();
MockHostResolver* mock_resolver = context_getter->context()->mock_resolver();
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
delegate.fetcher()->SetAutomaticallyRetryOnNetworkChanges(3);
EXPECT_FALSE(mock_resolver->has_pending_requests());
// This posts a task to start the fetcher.
delegate.fetcher()->Start();
base::RunLoop().RunUntilIdle();
// The fetcher is now running, but is pending the host resolve.
EXPECT_EQ(1, GetNumFetcherCores());
EXPECT_TRUE(mock_resolver->has_pending_requests());
ASSERT_FALSE(delegate.did_complete());
// Make it fail 3 times.
for (int i = 0; i < 3; ++i) {
// A network change notification aborts the connect job.
NetworkChangeNotifier::NotifyObserversOfIPAddressChangeForTests();
base::RunLoop().RunUntilIdle();
// But the fetcher retries automatically.
EXPECT_EQ(1, GetNumFetcherCores());
EXPECT_TRUE(mock_resolver->has_pending_requests());
ASSERT_FALSE(delegate.did_complete());
}
// A 4th failure doesn't trigger another retry, and propagates the error
// to the owner of the fetcher.
NetworkChangeNotifier::NotifyObserversOfIPAddressChangeForTests();
delegate.WaitForComplete();
EXPECT_FALSE(mock_resolver->has_pending_requests());
// And the owner of the fetcher gets the ERR_NETWORK_CHANGED error.
EXPECT_EQ(hanging_url(), delegate.fetcher()->GetOriginalURL());
ASSERT_FALSE(delegate.fetcher()->GetStatus().is_success());
EXPECT_THAT(delegate.fetcher()->GetStatus().error(),
IsError(ERR_NETWORK_CHANGED));
}
TEST_F(URLFetcherTest, RetryOnNetworkChangedAndSucceed) {
EXPECT_EQ(0, GetNumFetcherCores());
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Force context creation.
context_getter->GetURLRequestContext();
MockHostResolver* mock_resolver = context_getter->context()->mock_resolver();
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
delegate.fetcher()->SetAutomaticallyRetryOnNetworkChanges(3);
EXPECT_FALSE(mock_resolver->has_pending_requests());
// This posts a task to start the fetcher.
delegate.fetcher()->Start();
base::RunLoop().RunUntilIdle();
// The fetcher is now running, but is pending the host resolve.
EXPECT_EQ(1, GetNumFetcherCores());
EXPECT_TRUE(mock_resolver->has_pending_requests());
ASSERT_FALSE(delegate.did_complete());
// Make it fail 3 times.
for (int i = 0; i < 3; ++i) {
// A network change notification aborts the connect job.
NetworkChangeNotifier::NotifyObserversOfIPAddressChangeForTests();
base::RunLoop().RunUntilIdle();
// But the fetcher retries automatically.
EXPECT_EQ(1, GetNumFetcherCores());
EXPECT_TRUE(mock_resolver->has_pending_requests());
ASSERT_FALSE(delegate.did_complete());
}
// Now let it succeed by resolving the pending request.
mock_resolver->ResolveAllPending();
delegate.WaitForComplete();
EXPECT_FALSE(mock_resolver->has_pending_requests());
// This time the request succeeded.
EXPECT_EQ(hanging_url(), delegate.fetcher()->GetOriginalURL());
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kDefaultResponseBody, data);
}
TEST_F(URLFetcherTest, PostString) {
const char kUploadData[] = "bobsyeruncle";
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo"), URLFetcher::POST,
CreateSameThreadContextGetter());
delegate.fetcher()->SetUploadData("application/x-www-form-urlencoded",
kUploadData);
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kUploadData, data);
}
TEST_F(URLFetcherTest, PostEmptyString) {
const char kUploadData[] = "";
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo"), URLFetcher::POST,
CreateSameThreadContextGetter());
delegate.fetcher()->SetUploadData("application/x-www-form-urlencoded",
kUploadData);
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kUploadData, data);
}
TEST_F(URLFetcherTest, PostEntireFile) {
base::FilePath upload_path = GetUploadFileTestPath();
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo"), URLFetcher::POST,
CreateSameThreadContextGetter());
delegate.fetcher()->SetUploadFilePath("application/x-www-form-urlencoded",
upload_path, 0,
std::numeric_limits<uint64_t>::max(),
base::SequencedTaskRunnerHandle::Get());
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string expected;
ASSERT_TRUE(base::ReadFileToString(upload_path, &expected));
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(expected, data);
}
TEST_F(URLFetcherTest, PostFileRange) {
const size_t kRangeStart = 30;
const size_t kRangeLength = 100;
base::FilePath upload_path = GetUploadFileTestPath();
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo"), URLFetcher::POST,
CreateSameThreadContextGetter());
delegate.fetcher()->SetUploadFilePath("application/x-www-form-urlencoded",
upload_path, kRangeStart, kRangeLength,
base::SequencedTaskRunnerHandle::Get());
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string expected;
ASSERT_TRUE(base::ReadFileToString(upload_path, &expected));
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(expected.substr(kRangeStart, kRangeLength), data);
}
TEST_F(URLFetcherTest, PostWithUploadStreamFactory) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo"), URLFetcher::POST,
CreateSameThreadContextGetter());
delegate.fetcher()->SetUploadStreamFactory(
"text/plain",
base::Bind(&URLFetcherTest::CreateUploadStream, base::Unretained(this)));
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kCreateUploadStreamBody, data);
EXPECT_EQ(1u, num_upload_streams_created());
}
TEST_F(URLFetcherTest, PostWithUploadStreamFactoryAndRetries) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo?status=500"),
URLFetcher::POST, CreateSameThreadContextGetter());
delegate.fetcher()->SetAutomaticallyRetryOn5xx(true);
delegate.fetcher()->SetMaxRetriesOn5xx(1);
delegate.fetcher()->SetUploadStreamFactory(
"text/plain",
base::Bind(&URLFetcherTest::CreateUploadStream, base::Unretained(this)));
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(500, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kCreateUploadStreamBody, data);
EXPECT_EQ(2u, num_upload_streams_created());
}
// Tests simple chunked POST case.
TEST_F(URLFetcherTest, PostChunked) {
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateCrossThreadContextGetter());
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo"), URLFetcher::POST,
CreateCrossThreadContextGetter());
delegate.fetcher()->SetChunkedUpload("text/plain");
// This posts a task to start the fetcher.
delegate.fetcher()->Start();
delegate.fetcher()->AppendChunkToUpload(kCreateUploadStreamBody, false);
delegate.fetcher()->AppendChunkToUpload(kCreateUploadStreamBody, true);
delegate.WaitForComplete();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(std::string(kCreateUploadStreamBody) +
std::string(kCreateUploadStreamBody),
data);
}
// Tests that data can be appended to a request after it fails. This is needed
// because the consumer may try to append data to a request after it failed, but
// before the consumer learns that it failed.
TEST_F(URLFetcherTest, PostAppendChunkAfterError) {
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateCrossThreadContextGetter());
WaitingURLFetcherDelegate delegate;
// Request that will fail almost immediately after being started, due to using
// a reserved port.
delegate.CreateFetcher(GURL("http://127.0.0.1:7"), URLFetcher::POST,
context_getter);
delegate.fetcher()->SetChunkedUpload("text/plain");
// This posts a task to start the fetcher.
delegate.fetcher()->Start();
// Give the request a chance to fail, and inform the fetcher of the failure,
// while blocking the current thread so the error doesn't reach the delegate.
base::PlatformThread::Sleep(TestTimeouts::tiny_timeout());
// Try to append data.
delegate.fetcher()->AppendChunkToUpload("kCreateUploadStreamBody", false);
delegate.fetcher()->AppendChunkToUpload("kCreateUploadStreamBody", true);
delegate.WaitForComplete();
// Make sure the request failed, as expected.
EXPECT_FALSE(delegate.fetcher()->GetStatus().is_success());
EXPECT_THAT(delegate.fetcher()->GetStatus().error(),
IsError(ERR_UNSAFE_PORT));
}
// Checks that upload progress increases over time, never exceeds what's already
// been sent, and adds a chunk whenever all previously appended chunks have
// been uploaded.
class CheckUploadProgressDelegate : public WaitingURLFetcherDelegate {
public:
CheckUploadProgressDelegate()
: chunk_(1 << 16, 'a'), num_chunks_appended_(0), last_seen_progress_(0) {}
~CheckUploadProgressDelegate() override = default;
void OnURLFetchUploadProgress(const URLFetcher* source,
int64_t current,
int64_t total) override {
// Run default checks.
WaitingURLFetcherDelegate::OnURLFetchUploadProgress(source, current, total);
EXPECT_LE(last_seen_progress_, current);
EXPECT_LE(current, bytes_appended());
last_seen_progress_ = current;
MaybeAppendChunk();
}
// Append the next chunk if all previously appended chunks have been sent.
void MaybeAppendChunk() {
const int kNumChunks = 5;
if (last_seen_progress_ == bytes_appended() &&
num_chunks_appended_ < kNumChunks) {
++num_chunks_appended_;
fetcher()->AppendChunkToUpload(chunk_,
num_chunks_appended_ == kNumChunks);
}
}
private:
int64_t bytes_appended() const {
return num_chunks_appended_ * chunk_.size();
}
const std::string chunk_;
int64_t num_chunks_appended_;
int64_t last_seen_progress_;
DISALLOW_COPY_AND_ASSIGN(CheckUploadProgressDelegate);
};
TEST_F(URLFetcherTest, UploadProgress) {
CheckUploadProgressDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo"), URLFetcher::POST,
CreateSameThreadContextGetter());
// Use a chunked upload so that the upload can be paused after uploading data.
// Since upload progress uses a timer, the delegate may not receive any
// notification otherwise.
delegate.fetcher()->SetChunkedUpload("application/x-www-form-urlencoded");
delegate.fetcher()->Start();
// Append the first chunk. Others will be appended automatically in response
// to OnURLFetchUploadProgress events.
delegate.MaybeAppendChunk();
delegate.WaitForComplete();
// Make sure there are no pending events that cause problems when run.
base::RunLoop().RunUntilIdle();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
EXPECT_TRUE(delegate.did_complete());
}
// Checks that download progress never decreases, never exceeds file size, and
// that file size is correctly reported.
class CheckDownloadProgressDelegate : public WaitingURLFetcherDelegate {
public:
CheckDownloadProgressDelegate(int64_t file_size)
: file_size_(file_size), last_seen_progress_(0) {}
~CheckDownloadProgressDelegate() override = default;
void OnURLFetchDownloadProgress(const URLFetcher* source,
int64_t current,
int64_t total,
int64_t current_network_bytes) override {
// Run default checks.
WaitingURLFetcherDelegate::OnURLFetchDownloadProgress(
source, current, total, current_network_bytes);
EXPECT_LE(last_seen_progress_, current);
EXPECT_EQ(file_size_, total);
last_seen_progress_ = current;
}
private:
int64_t file_size_;
int64_t last_seen_progress_;
DISALLOW_COPY_AND_ASSIGN(CheckDownloadProgressDelegate);
};
// Disabled temporarily due to a SbFileExists bug on Android.
#ifndef STARBOARD
TEST_F(URLFetcherTest, DownloadProgress) {
// Get a file large enough to require more than one read into
// URLFetcher::Core's IOBuffer.
const char kFileToFetch[] = "animate1.gif";
std::string file_contents;
base::FilePath server_root;
base::PathService::Get(base::DIR_TEST_DATA, &server_root);
ASSERT_TRUE(base::ReadFileToString(
server_root.Append(kDocRoot).AppendASCII(kFileToFetch), &file_contents));
CheckDownloadProgressDelegate delegate(file_contents.size());
delegate.CreateFetcher(
test_server_->GetURL(std::string(kTestServerFilePrefix) + kFileToFetch),
URLFetcher::GET, CreateSameThreadContextGetter());
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(file_contents, data);
}
#endif
class CancelOnUploadProgressDelegate : public WaitingURLFetcherDelegate {
public:
CancelOnUploadProgressDelegate() = default;
~CancelOnUploadProgressDelegate() override = default;
void OnURLFetchUploadProgress(const URLFetcher* source,
int64_t current,
int64_t total) override {
CancelFetch();
}
private:
DISALLOW_COPY_AND_ASSIGN(CancelOnUploadProgressDelegate);
};
// Check that a fetch can be safely cancelled/deleted during an upload progress
// callback.
TEST_F(URLFetcherTest, CancelInUploadProgressCallback) {
CancelOnUploadProgressDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL("/echo"), URLFetcher::POST,
CreateSameThreadContextGetter());
delegate.fetcher()->SetChunkedUpload("application/x-www-form-urlencoded");
delegate.fetcher()->Start();
// Use a chunked upload so that the upload can be paused after uploading data.
// Since uploads progress uses a timer, may not receive any notification,
// otherwise.
std::string upload_data(1 << 16, 'a');
delegate.fetcher()->AppendChunkToUpload(upload_data, false);
delegate.WaitForComplete();
// Make sure there are no pending events that cause problems when run.
base::RunLoop().RunUntilIdle();
EXPECT_FALSE(delegate.did_complete());
EXPECT_FALSE(delegate.fetcher());
}
class CancelOnDownloadProgressDelegate : public WaitingURLFetcherDelegate {
public:
CancelOnDownloadProgressDelegate() = default;
~CancelOnDownloadProgressDelegate() override = default;
void OnURLFetchDownloadProgress(const URLFetcher* source,
int64_t current,
int64_t total,
int64_t current_network_bytes) override {
CancelFetch();
}
private:
DISALLOW_COPY_AND_ASSIGN(CancelOnDownloadProgressDelegate);
};
// Disabled temporarily due to a SbFileExists bug on Android.
#ifndef STARBOARD
// Check that a fetch can be safely cancelled/deleted during a download progress
// callback.
TEST_F(URLFetcherTest, CancelInDownloadProgressCallback) {
// Get a file large enough to require more than one read into
// URLFetcher::Core's IOBuffer.
static const char kFileToFetch[] = "animate1.gif";
CancelOnDownloadProgressDelegate delegate;
delegate.CreateFetcher(
test_server_->GetURL(std::string(kTestServerFilePrefix) + kFileToFetch),
URLFetcher::GET, CreateSameThreadContextGetter());
delegate.StartFetcherAndWait();
// Make sure there are no pending events that cause problems when run.
base::RunLoop().RunUntilIdle();
EXPECT_FALSE(delegate.did_complete());
EXPECT_FALSE(delegate.fetcher());
}
#endif
TEST_F(URLFetcherTest, Headers) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(
test_server_->GetURL("/set-header?cache-control: private"),
URLFetcher::GET, CreateSameThreadContextGetter());
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string header;
ASSERT_TRUE(delegate.fetcher()->GetResponseHeaders()->GetNormalizedHeader(
"cache-control", &header));
EXPECT_EQ("private", header);
}
TEST_F(URLFetcherTest, SocketAddress) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL(kDefaultResponsePath),
URLFetcher::GET, CreateSameThreadContextGetter());
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
EXPECT_EQ(test_server_->host_port_pair().port(),
delegate.fetcher()->GetSocketAddress().port());
EXPECT_EQ(test_server_->host_port_pair().host(),
delegate.fetcher()->GetSocketAddress().host());
}
TEST_F(URLFetcherTest, StopOnRedirect) {
const char kRedirectTarget[] = "http://redirect.target.com";
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(
test_server_->GetURL(std::string("/server-redirect?") + kRedirectTarget),
URLFetcher::GET, CreateSameThreadContextGetter());
delegate.fetcher()->SetStopOnRedirect(true);
delegate.StartFetcherAndWait();
EXPECT_EQ(GURL(kRedirectTarget), delegate.fetcher()->GetURL());
EXPECT_EQ(URLRequestStatus::CANCELED,
delegate.fetcher()->GetStatus().status());
EXPECT_THAT(delegate.fetcher()->GetStatus().error(), IsError(ERR_ABORTED));
EXPECT_EQ(301, delegate.fetcher()->GetResponseCode());
}
TEST_F(URLFetcherTest, ThrottleOnRepeatedFetches) {
base::Time start_time = Time::Now();
GURL url(test_server_->GetURL(kDefaultResponsePath));
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Registers an entry for test url. It only allows 3 requests to be sent
// in 200 milliseconds.
context_getter->AddThrottlerEntry(
url, std::string() /* url_id */, 200 /* sliding_window_period_ms */,
3 /* max_send_threshold */, 1 /* initial_backoff_ms */,
2.0 /* multiply_factor */, 0.0 /* jitter_factor */,
256 /* maximum_backoff_ms */,
false /* reserve_sending_time_for_next_request*/);
for (int i = 0; i < 20; ++i) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(url, URLFetcher::GET, context_getter);
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
}
// 20 requests were sent. Due to throttling, they should have collectively
// taken over 1 second.
EXPECT_GE(Time::Now() - start_time, base::TimeDelta::FromSeconds(1));
}
// If throttling kicks in for a chunked upload, there should be no crash.
TEST_F(URLFetcherTest, ThrottleChunkedUpload) {
GURL url(test_server_->GetURL("/echo"));
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Registers an entry for test url. It only allows 3 requests to be sent
// in 200 milliseconds.
context_getter->AddThrottlerEntry(
url, std::string() /* url_id */, 200 /* sliding_window_period_ms */,
3 /* max_send_threshold */, 1 /* initial_backoff_ms */,
2.0 /* multiply_factor */, 0.0 /* jitter_factor */,
256 /* maximum_backoff_ms */,
false /* reserve_sending_time_for_next_request*/);
for (int i = 0; i < 20; ++i) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(url, URLFetcher::POST, context_getter);
delegate.fetcher()->SetChunkedUpload("text/plain");
delegate.fetcher()->Start();
delegate.fetcher()->AppendChunkToUpload(kCreateUploadStreamBody, true);
delegate.WaitForComplete();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ(kCreateUploadStreamBody, data);
}
}
TEST_F(URLFetcherTest, ThrottleOn5xxRetries) {
base::Time start_time = Time::Now();
GURL url(test_server_->GetURL("/server-unavailable.html"));
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Registers an entry for test url. The backoff time is calculated by:
// new_backoff = 2.0 * old_backoff + 0
// and maximum backoff time is 256 milliseconds.
// Maximum retries allowed is set to 11.
context_getter->AddThrottlerEntry(
url, std::string() /* url_id */, 200 /* sliding_window_period_ms */,
3 /* max_send_threshold */, 1 /* initial_backoff_ms */,
2.0 /* multiply_factor */, 0.0 /* jitter_factor */,
256 /* maximum_backoff_ms */,
false /* reserve_sending_time_for_next_request*/);
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(url, URLFetcher::GET, context_getter);
delegate.fetcher()->SetAutomaticallyRetryOn5xx(true);
delegate.fetcher()->SetMaxRetriesOn5xx(11);
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(503, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_FALSE(data.empty());
// The request should have been retried 11 times (12 times including the first
// attempt). Due to throttling, they should have collectively taken over 1
// second.
EXPECT_GE(Time::Now() - start_time, base::TimeDelta::FromSeconds(1));
}
// Tests overload protection, when responses passed through.
TEST_F(URLFetcherTest, ProtectTestPassedThrough) {
base::Time start_time = Time::Now();
GURL url(test_server_->GetURL("/server-unavailable.html"));
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Registers an entry for test url. The backoff time is calculated by:
// new_backoff = 2.0 * old_backoff + 0
// and maximum backoff time is 150000 milliseconds.
// Maximum retries allowed is set to 11.
// Total time if *not* for not doing automatic backoff would be 150s.
// In reality it should be "as soon as server responds".
context_getter->AddThrottlerEntry(
url, std::string() /* url_id */, 200 /* sliding_window_period_ms */,
3 /* max_send_threshold */, 10000 /* initial_backoff_ms */,
2.0 /* multiply_factor */, 0.0 /* jitter_factor */,
150000 /* maximum_backoff_ms */,
false /* reserve_sending_time_for_next_request*/);
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(url, URLFetcher::GET, context_getter);
delegate.fetcher()->SetAutomaticallyRetryOn5xx(false);
delegate.fetcher()->SetMaxRetriesOn5xx(11);
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(503, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_FALSE(data.empty());
EXPECT_GT(delegate.fetcher()->GetBackoffDelay().InMicroseconds(), 0);
// The request should not have been retried at all. If it had attempted all
// 11 retries, that should have taken 2.5 minutes.
EXPECT_TRUE(Time::Now() - start_time < TimeDelta::FromMinutes(1));
}
// Used to check if a callback has been invoked.
void SetBoolToTrue(bool* ptr) {
*ptr = true;
}
// Make sure that the URLFetcher cancels the URLRequest and releases its context
// getter pointer synchronously when the fetcher and request context live on
// the same thread.
TEST_F(URLFetcherTest, CancelSameThread) {
WaitingURLFetcherDelegate delegate;
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
bool getter_was_destroyed = false;
context_getter->set_on_destruction_callback(
base::Bind(&SetBoolToTrue, &getter_was_destroyed));
delegate.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
// The getter won't be destroyed if the test holds on to a reference to it.
context_getter = nullptr;
delegate.fetcher()->Start();
// Give the fetcher a chance to start the request.
base::RunLoop().RunUntilIdle();
EXPECT_EQ(1, URLFetcherTest::GetNumFetcherCores());
// On same-thread cancel, the request should be canceled and getter destroyed
// synchronously, for safe shutdown.
delegate.CancelFetch();
EXPECT_EQ(0, URLFetcherTest::GetNumFetcherCores());
EXPECT_TRUE(getter_was_destroyed);
}
// Make sure that the URLFetcher releases its context getter pointer on
// cancellation, cross-thread case.
TEST_F(URLFetcherTest, CancelDifferentThreads) {
base::RunLoop run_loop;
WaitingURLFetcherDelegate delegate;
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateCrossThreadContextGetter());
context_getter->set_on_destruction_callback(
base::BindOnce(base::IgnoreResult(&base::SequencedTaskRunner::PostTask),
base::SequencedTaskRunnerHandle::Get(), FROM_HERE,
run_loop.QuitClosure()));
delegate.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
// The getter won't be destroyed if the test holds on to a reference to it.
context_getter = nullptr;
delegate.fetcher()->Start();
delegate.CancelFetch();
run_loop.Run();
EXPECT_FALSE(delegate.did_complete());
}
TEST_F(URLFetcherTest, CancelWhileDelayedByThrottleDifferentThreads) {
GURL url = test_server_->GetURL(kDefaultResponsePath);
base::RunLoop run_loop;
WaitingURLFetcherDelegate delegate;
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateCrossThreadContextGetter());
context_getter->set_on_destruction_callback(
base::BindOnce(base::IgnoreResult(&base::SequencedTaskRunner::PostTask),
base::SequencedTaskRunnerHandle::Get(), FROM_HERE,
run_loop.QuitClosure()));
delegate.CreateFetcher(url, URLFetcher::GET, context_getter);
// Register an entry for test url using a sliding window of 400 seconds, and
// max of 1 request. Also simulate a request having just started, so the
// next request will be affected by backoff of ~400 seconds.
context_getter->AddThrottlerEntry(
url, std::string() /* url_id */, 400000 /* sliding_window_period_ms */,
1 /* max_send_threshold */, 200000 /* initial_backoff_ms */,
2.0 /* multiply_factor */, 0.0 /* jitter_factor */,
400000 /* maximum_backoff_ms */,
true /* reserve_sending_time_for_next_request*/);
// The getter won't be destroyed if the test holds on to a reference to it.
context_getter = nullptr;
delegate.fetcher()->Start();
delegate.CancelFetch();
run_loop.Run();
EXPECT_FALSE(delegate.did_complete());
}
// A URLFetcherDelegate that expects to receive a response body of "request1"
// and then reuses the fetcher for the same URL, setting the "test" request
// header to "request2".
class ReuseFetcherDelegate : public WaitingURLFetcherDelegate {
public:
// |second_request_context_getter| is the context getter used for the second
// request. Can't reuse the old one because fetchers release it on completion.
ReuseFetcherDelegate(
scoped_refptr<URLRequestContextGetter> second_request_context_getter)
: first_request_complete_(false),
second_request_context_getter_(second_request_context_getter) {}
~ReuseFetcherDelegate() override = default;
void OnURLFetchComplete(const URLFetcher* source) override {
EXPECT_EQ(fetcher(), source);
if (!first_request_complete_) {
first_request_complete_ = true;
EXPECT_TRUE(fetcher()->GetStatus().is_success());
EXPECT_EQ(200, fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(fetcher()->GetResponseAsString(&data));
EXPECT_EQ("request1", data);
fetcher()->SetRequestContext(second_request_context_getter_.get());
fetcher()->SetExtraRequestHeaders("test: request2");
fetcher()->Start();
return;
}
WaitingURLFetcherDelegate::OnURLFetchComplete(source);
}
private:
bool first_request_complete_;
scoped_refptr<URLRequestContextGetter> second_request_context_getter_;
DISALLOW_COPY_AND_ASSIGN(ReuseFetcherDelegate);
};
TEST_F(URLFetcherTest, ReuseFetcherForSameURL) {
// TODO(mmenke): It's really weird that this is supported, particularly
// some fields can be modified between requests, but some (Like upload body)
// cannot be. Can we get rid of support for this?
scoped_refptr<URLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
ReuseFetcherDelegate delegate(context_getter);
delegate.CreateFetcher(test_server_->GetURL("/echoheader?test"),
URLFetcher::GET, context_getter);
delegate.fetcher()->SetExtraRequestHeaders("test: request1");
delegate.StartFetcherAndWait();
EXPECT_TRUE(delegate.fetcher()->GetStatus().is_success());
EXPECT_EQ(200, delegate.fetcher()->GetResponseCode());
std::string data;
ASSERT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_EQ("request2", data);
}
TEST_F(URLFetcherTest, ShutdownSameThread) {
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateSameThreadContextGetter());
// Create a fetcher and wait for it to create a request.
WaitingURLFetcherDelegate delegate1;
delegate1.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
delegate1.fetcher()->Start();
// Need to spin the loop to ensure the URLRequest is created and started.
base::RunLoop().RunUntilIdle();
// Create and start another fetcher, but don't wait for it to start. The task
// to start the request should be in the message loop.
WaitingURLFetcherDelegate delegate2;
delegate2.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
delegate2.fetcher()->Start();
// Check that shutting down the getter cancels the request synchronously,
// allowing the context to be destroyed.
context_getter->Shutdown();
// Wait for the first fetcher, make sure it failed.
delegate1.WaitForComplete();
EXPECT_FALSE(delegate1.fetcher()->GetStatus().is_success());
EXPECT_THAT(delegate1.fetcher()->GetStatus().error(),
IsError(ERR_CONTEXT_SHUT_DOWN));
// Wait for the second fetcher, make sure it failed.
delegate2.WaitForComplete();
EXPECT_FALSE(delegate2.fetcher()->GetStatus().is_success());
EXPECT_THAT(delegate2.fetcher()->GetStatus().error(),
IsError(ERR_CONTEXT_SHUT_DOWN));
// New fetchers should automatically fail without making new requests. This
// should follow the same path as the second fetcher, but best to be safe.
WaitingURLFetcherDelegate delegate3;
delegate3.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
delegate3.fetcher()->Start();
delegate3.WaitForComplete();
EXPECT_FALSE(delegate3.fetcher()->GetStatus().is_success());
EXPECT_THAT(delegate3.fetcher()->GetStatus().error(),
IsError(ERR_CONTEXT_SHUT_DOWN));
}
TEST_F(URLFetcherTest, ShutdownCrossThread) {
scoped_refptr<FetcherTestURLRequestContextGetter> context_getter(
CreateCrossThreadContextGetter());
WaitingURLFetcherDelegate delegate1;
delegate1.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
delegate1.fetcher()->Start();
// Check that shutting the context getter lets the context be destroyed safely
// and cancels the request.
context_getter->Shutdown();
delegate1.WaitForComplete();
EXPECT_FALSE(delegate1.fetcher()->GetStatus().is_success());
EXPECT_THAT(delegate1.fetcher()->GetStatus().error(),
IsError(ERR_CONTEXT_SHUT_DOWN));
// New requests should automatically fail without making new requests.
WaitingURLFetcherDelegate delegate2;
delegate2.CreateFetcher(hanging_url(), URLFetcher::GET, context_getter);
delegate2.StartFetcherAndWait();
EXPECT_FALSE(delegate2.fetcher()->GetStatus().is_success());
EXPECT_THAT(delegate2.fetcher()->GetStatus().error(),
IsError(ERR_CONTEXT_SHUT_DOWN));
}
// Temporarily blocked due to a SbFileExists bug on Android.
#ifndef STARBOARD
// Get a small file.
TEST_F(URLFetcherTest, FileTestSmallGet) {
const char kFileToFetch[] = "simple.html";
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath out_path = temp_dir.GetPath().AppendASCII(kFileToFetch);
SaveFileTest(kFileToFetch, false, out_path, false);
}
// Get a file large enough to require more than one read into URLFetcher::Core's
// IOBuffer.
TEST_F(URLFetcherTest, FileTestLargeGet) {
const char kFileToFetch[] = "animate1.gif";
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath out_path = temp_dir.GetPath().AppendASCII(kFileToFetch);
SaveFileTest(kFileToFetch, false, out_path, false);
}
// If the caller takes the ownership of the output file, the file should persist
// even after URLFetcher is gone.
TEST_F(URLFetcherTest, FileTestTakeOwnership) {
const char kFileToFetch[] = "simple.html";
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath out_path = temp_dir.GetPath().AppendASCII(kFileToFetch);
SaveFileTest(kFileToFetch, false, out_path, true);
}
// Test that an existing file can be overwritten be a fetcher.
TEST_F(URLFetcherTest, FileTestOverwriteExisting) {
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
// Create a file before trying to fetch.
const char kFileToFetch[] = "simple.html";
std::string data(10000, '?'); // Meant to be larger than simple.html.
base::FilePath out_path = temp_dir.GetPath().AppendASCII(kFileToFetch);
ASSERT_EQ(static_cast<int>(data.size()),
base::WriteFile(out_path, data.data(), data.size()));
ASSERT_TRUE(base::PathExists(out_path));
SaveFileTest(kFileToFetch, false, out_path, true);
}
// Test trying to overwrite a directory with a file when using a fetcher fails.
TEST_F(URLFetcherTest, FileTestTryToOverwriteDirectory) {
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
// Create a directory before trying to fetch.
static const char kFileToFetch[] = "simple.html";
base::FilePath out_path = temp_dir.GetPath().AppendASCII(kFileToFetch);
ASSERT_TRUE(base::CreateDirectory(out_path));
ASSERT_TRUE(base::PathExists(out_path));
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(
test_server_->GetURL(std::string(kTestServerFilePrefix) + kFileToFetch),
URLFetcher::GET, CreateSameThreadContextGetter());
delegate.fetcher()->SaveResponseToFileAtPath(
out_path, scoped_refptr<base::SequencedTaskRunner>(
base::SequencedTaskRunnerHandle::Get()));
delegate.StartFetcherAndWait();
EXPECT_FALSE(delegate.fetcher()->GetStatus().is_success());
#if defined(STARBOARD)
// Starboard does not define net error code specifically, all
// failures return ERR_FAILED.
EXPECT_THAT(delegate.fetcher()->GetStatus().error(), IsError(ERR_FAILED));
#else
EXPECT_THAT(delegate.fetcher()->GetStatus().error(),
IsError(ERR_ACCESS_DENIED));
#endif
}
// Get a small file and save it to a temp file.
TEST_F(URLFetcherTest, TempFileTestSmallGet) {
SaveFileTest("simple.html", true, base::FilePath(), false);
}
// Get a file large enough to require more than one read into URLFetcher::Core's
// IOBuffer and save it to a temp file.
TEST_F(URLFetcherTest, TempFileTestLargeGet) {
SaveFileTest("animate1.gif", true, base::FilePath(), false);
}
// If the caller takes the ownership of the temp file, check that the file
// persists even after URLFetcher is gone.
TEST_F(URLFetcherTest, TempFileTestTakeOwnership) {
SaveFileTest("simple.html", true, base::FilePath(), true);
}
TEST_F(URLFetcherBadHTTPSTest, BadHTTPS) {
WaitingURLFetcherDelegate delegate;
delegate.CreateFetcher(test_server_->GetURL(kDefaultResponsePath),
URLFetcher::GET, CreateSameThreadContextGetter());
delegate.StartFetcherAndWait();
EXPECT_EQ(URLRequestStatus::CANCELED,
delegate.fetcher()->GetStatus().status());
EXPECT_THAT(delegate.fetcher()->GetStatus().error(), IsError(ERR_ABORTED));
EXPECT_EQ(-1, delegate.fetcher()->GetResponseCode());
EXPECT_FALSE(delegate.fetcher()->GetResponseHeaders());
std::string data;
EXPECT_TRUE(delegate.fetcher()->GetResponseAsString(&data));
EXPECT_TRUE(data.empty());
}
#endif // STARBOARD
} // namespace
} // namespace net