// Copyright (c) 2006-2008 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 "base/thread.h"
#include "base/time.h"
#include "chrome/browser/url_fetcher.h"
#include "chrome/browser/url_fetcher_protect.h"
#include "net/url_request/url_request_unittest.h"
#include "testing/gtest/include/gtest/gtest.h"
using base::Time;
using base::TimeDelta;
namespace {
const wchar_t kDocRoot[] = L"chrome/test/data";
const char kHostName[] = "127.0.0.1";
const int kBadHTTPSPort = 9666;
class URLFetcherTest : public testing::Test, public URLFetcher::Delegate {
public:
URLFetcherTest() : fetcher_(NULL) { }
// Creates a URLFetcher, using the program's main thread to do IO.
virtual void CreateFetcher(const GURL& url);
// URLFetcher::Delegate
virtual void OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data);
protected:
// URLFetcher is designed to run on the main UI thread, but in our tests
// we assume that the current thread is the IO thread where the URLFetcher
// dispatches its requests to. When we wish to simulate being used from
// a UI thread, we dispatch a worker thread to do so.
MessageLoopForIO io_loop_;
URLFetcher* fetcher_;
};
// Version of URLFetcherTest that does a POST instead
class URLFetcherPostTest : public URLFetcherTest {
public:
virtual void CreateFetcher(const GURL& url);
// URLFetcher::Delegate
virtual void OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data);
};
// Version of URLFetcherTest that tests headers.
class URLFetcherHeadersTest : public URLFetcherTest {
public:
// URLFetcher::Delegate
virtual void OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data);
};
// Version of URLFetcherTest that tests overload proctection.
class URLFetcherProtectTest : public URLFetcherTest {
public:
virtual void CreateFetcher(const GURL& url);
// URLFetcher::Delegate
virtual void OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data);
private:
Time start_time_;
};
// Version of URLFetcherTest that tests bad HTTPS requests.
class URLFetcherBadHTTPSTest : public URLFetcherTest {
public:
URLFetcherBadHTTPSTest();
// URLFetcher::Delegate
virtual void OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data);
protected:
std::wstring GetExpiredCertPath();
private:
std::wstring cert_dir_;
};
// Version of URLFetcherTest that tests request cancellation on shutdown.
class URLFetcherCancelTest : public URLFetcherTest {
public:
virtual void CreateFetcher(const GURL& url);
// URLFetcher::Delegate
virtual void OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data);
void CancelRequest();
void TestContextReleased();
private:
base::OneShotTimer<URLFetcherCancelTest> timer_;
bool context_released_;
};
// Version of TestURLRequestContext that let us know if the request context
// is properly released.
class CancelTestURLRequestContext : public TestURLRequestContext {
public:
explicit CancelTestURLRequestContext(bool* destructor_called)
: destructor_called_(destructor_called) {
*destructor_called_ = false;
}
virtual ~CancelTestURLRequestContext() {
*destructor_called_ = true;
}
private:
bool* destructor_called_;
};
// Wrapper that lets us call CreateFetcher() on a thread of our choice. We
// could make URLFetcherTest refcounted and use PostTask(FROM_HERE.. ) to call
// CreateFetcher() directly, but the ownership of the URLFetcherTest is a bit
// confusing in that case because GTest doesn't know about the refcounting.
// It's less confusing to just do it this way.
class FetcherWrapperTask : public Task {
public:
FetcherWrapperTask(URLFetcherTest* test, const GURL& url)
: test_(test), url_(url) { }
virtual void Run() {
test_->CreateFetcher(url_);
};
private:
URLFetcherTest* test_;
GURL url_;
};
void URLFetcherTest::CreateFetcher(const GURL& url) {
fetcher_ = new URLFetcher(url, URLFetcher::GET, this);
fetcher_->set_request_context(new TestURLRequestContext());
fetcher_->set_io_loop(&io_loop_);
fetcher_->Start();
}
void URLFetcherTest::OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data) {
EXPECT_TRUE(status.is_success());
EXPECT_EQ(200, response_code); // HTTP OK
EXPECT_FALSE(data.empty());
delete fetcher_; // Have to delete this here and not in the destructor,
// because the destructor won't necessarily run on the
// same thread that CreateFetcher() did.
io_loop_.PostTask(FROM_HERE, new MessageLoop::QuitTask());
// If MessageLoop::current() != io_loop_, it will be shut down when the
// main loop returns and this thread subsequently goes out of scope.
}
void URLFetcherPostTest::CreateFetcher(const GURL& url) {
fetcher_ = new URLFetcher(url, URLFetcher::POST, this);
fetcher_->set_request_context(new TestURLRequestContext());
fetcher_->set_io_loop(&io_loop_);
fetcher_->set_upload_data("application/x-www-form-urlencoded",
"bobsyeruncle");
fetcher_->Start();
}
void URLFetcherPostTest::OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data) {
EXPECT_EQ(std::string("bobsyeruncle"), data);
URLFetcherTest::OnURLFetchComplete(source, url, status, response_code,
cookies, data);
}
void URLFetcherHeadersTest::OnURLFetchComplete(
const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data) {
std::string header;
EXPECT_TRUE(source->response_headers()->GetNormalizedHeader("cache-control",
&header));
EXPECT_EQ("private", header);
URLFetcherTest::OnURLFetchComplete(source, url, status, response_code,
cookies, data);
}
void URLFetcherProtectTest::CreateFetcher(const GURL& url) {
fetcher_ = new URLFetcher(url, URLFetcher::GET, this);
fetcher_->set_request_context(new TestURLRequestContext());
fetcher_->set_io_loop(&io_loop_);
start_time_ = Time::Now();
fetcher_->Start();
}
void URLFetcherProtectTest::OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data) {
const TimeDelta one_second = TimeDelta::FromMilliseconds(1000);
if (response_code >= 500) {
// Now running ServerUnavailable test.
// It takes more than 1 second to finish all 11 requests.
EXPECT_TRUE(Time::Now() - start_time_ >= one_second);
EXPECT_TRUE(status.is_success());
EXPECT_FALSE(data.empty());
delete fetcher_;
io_loop_.Quit();
} else {
// Now running Overload test.
static int count = 0;
count++;
if (count < 20) {
fetcher_->Start();
} else {
// We have already sent 20 requests continuously. And we expect that
// it takes more than 1 second due to the overload pretection settings.
EXPECT_TRUE(Time::Now() - start_time_ >= one_second);
URLFetcherTest::OnURLFetchComplete(source, url, status, response_code,
cookies, data);
}
}
}
URLFetcherBadHTTPSTest::URLFetcherBadHTTPSTest() {
PathService::Get(base::DIR_SOURCE_ROOT, &cert_dir_);
cert_dir_ += L"/chrome/test/data/ssl/certificates/";
std::replace(cert_dir_.begin(), cert_dir_.end(),
L'/', file_util::kPathSeparator);
}
// The "server certificate expired" error should result in automatic
// cancellation of the request by
// URLRequest::Delegate::OnSSLCertificateError.
void URLFetcherBadHTTPSTest::OnURLFetchComplete(
const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data) {
// This part is different from URLFetcherTest::OnURLFetchComplete
// because this test expects the request to be cancelled.
EXPECT_EQ(URLRequestStatus::CANCELED, status.status());
EXPECT_EQ(net::ERR_ABORTED, status.os_error());
EXPECT_EQ(-1, response_code);
EXPECT_TRUE(cookies.empty());
EXPECT_TRUE(data.empty());
// The rest is the same as URLFetcherTest::OnURLFetchComplete.
delete fetcher_;
io_loop_.Quit();
}
std::wstring URLFetcherBadHTTPSTest::GetExpiredCertPath() {
std::wstring path(cert_dir_);
file_util::AppendToPath(&path, L"expired_cert.pem");
return path;
}
void URLFetcherCancelTest::CreateFetcher(const GURL& url) {
fetcher_ = new URLFetcher(url, URLFetcher::GET, this);
fetcher_->set_request_context(
new CancelTestURLRequestContext(&context_released_));
fetcher_->set_io_loop(&io_loop_);
fetcher_->Start();
// Make sure we give the IO thread a chance to run.
timer_.Start(TimeDelta::FromMilliseconds(100), this,
&URLFetcherCancelTest::CancelRequest);
}
void URLFetcherCancelTest::OnURLFetchComplete(const URLFetcher* source,
const GURL& url,
const URLRequestStatus& status,
int response_code,
const ResponseCookies& cookies,
const std::string& data) {
// We should have cancelled the request before completion.
ADD_FAILURE();
delete fetcher_;
io_loop_.PostTask(FROM_HERE, new MessageLoop::QuitTask());
}
void URLFetcherCancelTest::CancelRequest() {
delete fetcher_;
timer_.Stop();
// Make sure we give the IO thread a chance to run.
timer_.Start(TimeDelta::FromMilliseconds(100), this,
&URLFetcherCancelTest::TestContextReleased);
}
void URLFetcherCancelTest::TestContextReleased() {
EXPECT_TRUE(context_released_);
timer_.Stop();
io_loop_.PostTask(FROM_HERE, new MessageLoop::QuitTask());
}
} // namespace.
TEST_F(URLFetcherTest, SameThreadsTest) {
// Create the fetcher on the main thread. Since IO will happen on the main
// thread, this will test URLFetcher's ability to do everything on one
// thread.
TestServer server(kDocRoot);
CreateFetcher(GURL(server.TestServerPage("defaultresponse")));
MessageLoop::current()->Run();
}
TEST_F(URLFetcherTest, DifferentThreadsTest) {
TestServer server(kDocRoot);
// Create a separate thread that will create the URLFetcher. The current
// (main) thread will do the IO, and when the fetch is complete it will
// terminate the main thread's message loop; then the other thread's
// message loop will be shut down automatically as the thread goes out of
// scope.
base::Thread t("URLFetcher test thread");
t.Start();
t.message_loop()->PostTask(FROM_HERE, new FetcherWrapperTask(this,
GURL(server.TestServerPage("defaultresponse"))));
MessageLoop::current()->Run();
}
TEST_F(URLFetcherPostTest, Basic) {
TestServer server(kDocRoot);
CreateFetcher(GURL(server.TestServerPage("echo")));
MessageLoop::current()->Run();
}
TEST_F(URLFetcherHeadersTest, Headers) {
TestServer server(L"net/data/url_request_unittest");
CreateFetcher(GURL(server.TestServerPage("files/with-headers.html")));
MessageLoop::current()->Run();
// The actual tests are in the URLFetcherHeadersTest fixture.
}
TEST_F(URLFetcherProtectTest, Overload) {
TestServer server(kDocRoot);
GURL url = GURL(server.TestServerPage("defaultresponse"));
// Registers an entry for test url. It only allows 3 requests to be sent
// in 200 milliseconds.
URLFetcherProtectManager* manager = URLFetcherProtectManager::GetInstance();
URLFetcherProtectEntry* entry =
new URLFetcherProtectEntry(200, 3, 11, 1, 2.0, 0, 256);
manager->Register(url.host(), entry);
CreateFetcher(url);
MessageLoop::current()->Run();
}
TEST_F(URLFetcherProtectTest, ServerUnavailable) {
TestServer server(L"chrome/test/data");
GURL url = GURL(server.TestServerPage("files/server-unavailable.html"));
// 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.
URLFetcherProtectManager* manager = URLFetcherProtectManager::GetInstance();
URLFetcherProtectEntry* entry =
new URLFetcherProtectEntry(200, 3, 11, 1, 2.0, 0, 256);
manager->Register(url.host(), entry);
CreateFetcher(url);
MessageLoop::current()->Run();
}
TEST_F(URLFetcherBadHTTPSTest, BadHTTPSTest) {
HTTPSTestServer server(kHostName, kBadHTTPSPort,
kDocRoot, GetExpiredCertPath());
CreateFetcher(GURL(server.TestServerPage("defaultresponse")));
MessageLoop::current()->Run();
}
TEST_F(URLFetcherCancelTest, ReleasesContext) {
TestServer server(L"chrome/test/data");
GURL url = GURL(server.TestServerPage("files/server-unavailable.html"));
// Registers an entry for test url. The backoff time is calculated by:
// new_backoff = 2.0 * old_backoff + 0
// The initial backoff is 2 seconds and maximum backoff is 4 seconds.
// Maximum retries allowed is set to 2.
URLFetcherProtectManager* manager = URLFetcherProtectManager::GetInstance();
URLFetcherProtectEntry* entry =
new URLFetcherProtectEntry(200, 3, 2, 2000, 2.0, 0, 4000);
manager->Register(url.host(), entry);
// Create a separate thread that will create the URLFetcher. The current
// (main) thread will do the IO, and when the fetch is complete it will
// terminate the main thread's message loop; then the other thread's
// message loop will be shut down automatically as the thread goes out of
// scope.
base::Thread t("URLFetcher test thread");
t.Start();
t.message_loop()->PostTask(FROM_HERE, new FetcherWrapperTask(this, url));
MessageLoop::current()->Run();
}