blob: 1341f353a664a58c3cbf69ca6784735cb5ed7969 [file] [log] [blame]
// Copyright 2015 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/cert_net/cert_net_fetcher_impl.h"
#include <memory>
#include <string>
#include <utility>
#include "base/compiler_specific.h"
#include "base/message_loop/message_loop.h"
#include "base/run_loop.h"
#include "base/synchronization/lock.h"
#include "net/cert/cert_net_fetcher.h"
#include "net/cert/ct_policy_enforcer.h"
#include "net/cert/mock_cert_verifier.h"
#include "net/cert/multi_log_ct_verifier.h"
#include "net/dns/mock_host_resolver.h"
#include "net/http/http_server_properties_impl.h"
#include "net/test/embedded_test_server/embedded_test_server.h"
#include "net/test/gtest_util.h"
#include "net/test/url_request/url_request_hanging_read_job.h"
#include "net/url_request/url_request_filter.h"
#include "net/url_request/url_request_job_factory_impl.h"
#include "net/url_request/url_request_test_util.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "testing/platform_test.h"
using net::test::IsOk;
// TODO(eroman): Test that cookies aren't sent.
namespace net {
namespace {
const base::FilePath::CharType kDocRoot[] =
FILE_PATH_LITERAL("net/data/cert_net_fetcher_impl_unittest");
// A non-mock URLRequestContext which can access http:// urls.
class RequestContext : public URLRequestContext {
public:
RequestContext() : storage_(this) {
ProxyConfig no_proxy;
storage_.set_host_resolver(
std::unique_ptr<HostResolver>(new MockHostResolver));
storage_.set_cert_verifier(std::make_unique<MockCertVerifier>());
storage_.set_transport_security_state(
std::make_unique<TransportSecurityState>());
storage_.set_cert_transparency_verifier(
std::make_unique<MultiLogCTVerifier>());
storage_.set_ct_policy_enforcer(std::make_unique<CTPolicyEnforcer>());
storage_.set_proxy_service(ProxyService::CreateFixed(no_proxy));
storage_.set_ssl_config_service(new SSLConfigServiceDefaults);
storage_.set_http_server_properties(
std::unique_ptr<HttpServerProperties>(new HttpServerPropertiesImpl()));
HttpNetworkSession::Context session_context;
session_context.host_resolver = host_resolver();
session_context.cert_verifier = cert_verifier();
session_context.transport_security_state = transport_security_state();
session_context.cert_transparency_verifier = cert_transparency_verifier();
session_context.ct_policy_enforcer = ct_policy_enforcer();
session_context.proxy_service = proxy_service();
session_context.ssl_config_service = ssl_config_service();
session_context.http_server_properties = http_server_properties();
storage_.set_http_network_session(std::make_unique<HttpNetworkSession>(
HttpNetworkSession::Params(), session_context));
storage_.set_http_transaction_factory(std::make_unique<HttpCache>(
storage_.http_network_session(), HttpCache::DefaultBackend::InMemory(0),
false /* is_main_cache */));
storage_.set_job_factory(std::make_unique<URLRequestJobFactoryImpl>());
}
~RequestContext() override { AssertNoURLRequests(); }
private:
URLRequestContextStorage storage_;
};
// Wait for the request to complete, and verify that it completed successfully
// with the indicated bytes.
void VerifySuccess(const std::string& expected_body,
CertNetFetcher::Request* request) {
Error actual_error;
std::vector<uint8_t> actual_body;
request->WaitForResult(&actual_error, &actual_body);
EXPECT_THAT(actual_error, IsOk());
EXPECT_EQ(expected_body, std::string(actual_body.begin(), actual_body.end()));
}
// Wait for the request to complete, and verify that it completed with the
// indicated failure.
void VerifyFailure(Error expected_error, CertNetFetcher::Request* request) {
Error actual_error;
std::vector<uint8_t> actual_body;
request->WaitForResult(&actual_error, &actual_body);
EXPECT_EQ(expected_error, actual_error);
EXPECT_EQ(0u, actual_body.size());
}
struct NetworkThreadState {
TestNetworkDelegate network_delegate;
RequestContext context;
};
class CertNetFetcherImplTest : public PlatformTest {
public:
CertNetFetcherImplTest() {
test_server_.AddDefaultHandlers(base::FilePath(kDocRoot));
StartNetworkThread();
}
~CertNetFetcherImplTest() override {
if (!network_thread_)
return;
network_thread_->task_runner()->PostTask(
FROM_HERE, base::Bind(&CertNetFetcherImplTest::TeardownOnNetworkThread,
base::Unretained(this)));
network_thread_->Stop();
}
protected:
CertNetFetcher* fetcher() const { return fetcher_.get(); }
void CreateFetcherOnNetworkThread(base::WaitableEvent* done) {
fetcher_ = CreateCertNetFetcher(&state_->context);
done->Signal();
}
void CreateFetcher() {
base::WaitableEvent done(base::WaitableEvent::ResetPolicy::MANUAL,
base::WaitableEvent::InitialState::NOT_SIGNALED);
network_thread_->task_runner()->PostTask(
FROM_HERE,
base::Bind(&CertNetFetcherImplTest::CreateFetcherOnNetworkThread,
base::Unretained(this), &done));
done.Wait();
}
void ShutDownFetcherOnNetworkThread(base::WaitableEvent* done) {
fetcher_->Shutdown();
done->Signal();
}
void ShutDownFetcher() {
base::WaitableEvent done(base::WaitableEvent::ResetPolicy::MANUAL,
base::WaitableEvent::InitialState::NOT_SIGNALED);
network_thread_->task_runner()->PostTask(
FROM_HERE,
base::Bind(&CertNetFetcherImplTest::ShutDownFetcherOnNetworkThread,
base::Unretained(this), &done));
done.Wait();
}
int NumCreatedRequests() {
int count = 0;
base::WaitableEvent done(base::WaitableEvent::ResetPolicy::MANUAL,
base::WaitableEvent::InitialState::NOT_SIGNALED);
network_thread_->task_runner()->PostTask(
FROM_HERE, base::Bind(&CertNetFetcherImplTest::CountCreatedRequests,
base::Unretained(this), &count, &done));
done.Wait();
return count;
}
void StartNetworkThread() {
// Start the network thread.
network_thread_.reset(new base::Thread("network thread"));
base::Thread::Options options(base::MessageLoop::TYPE_IO, 0);
EXPECT_TRUE(network_thread_->StartWithOptions(options));
// Initialize the URLRequestContext (and wait till it has completed).
base::WaitableEvent done(base::WaitableEvent::ResetPolicy::MANUAL,
base::WaitableEvent::InitialState::NOT_SIGNALED);
network_thread_->task_runner()->PostTask(
FROM_HERE, base::Bind(&CertNetFetcherImplTest::InitOnNetworkThread,
base::Unretained(this), &done));
done.Wait();
}
void InitOnNetworkThread(base::WaitableEvent* done) {
state_.reset(new NetworkThreadState);
state_->context.set_network_delegate(&state_->network_delegate);
done->Signal();
}
void ResetStateOnNetworkThread(base::WaitableEvent* done) {
state_.reset();
done->Signal();
}
void ResetState() {
base::WaitableEvent done(base::WaitableEvent::ResetPolicy::MANUAL,
base::WaitableEvent::InitialState::NOT_SIGNALED);
network_thread_->task_runner()->PostTask(
FROM_HERE,
base::Bind(&CertNetFetcherImplTest::ResetStateOnNetworkThread,
base::Unretained(this), &done));
done.Wait();
}
void TeardownOnNetworkThread() {
fetcher_->Shutdown();
state_.reset();
fetcher_ = nullptr;
}
void CountCreatedRequests(int* count, base::WaitableEvent* done) {
*count = state_->network_delegate.created_requests();
done->Signal();
}
EmbeddedTestServer test_server_;
std::unique_ptr<base::Thread> network_thread_;
scoped_refptr<CertNetFetcher> fetcher_;
std::unique_ptr<NetworkThreadState> state_;
};
// Installs URLRequestHangingReadJob handlers and clears them on teardown.
class CertNetFetcherImplTestWithHangingReadHandler
: public CertNetFetcherImplTest {
protected:
void SetUp() override { URLRequestHangingReadJob::AddUrlHandler(); }
void TearDown() override { URLRequestFilter::GetInstance()->ClearHandlers(); }
};
// Helper to start an AIA fetch using default parameters.
WARN_UNUSED_RESULT std::unique_ptr<CertNetFetcher::Request> StartRequest(
CertNetFetcher* fetcher,
const GURL& url) {
return fetcher->FetchCaIssuers(url, CertNetFetcher::DEFAULT,
CertNetFetcher::DEFAULT);
}
// Fetch a few unique URLs using GET in parallel. Each URL has a different body
// and Content-Type.
TEST_F(CertNetFetcherImplTest, ParallelFetchNoDuplicates) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
// Request a URL with Content-Type "application/pkix-cert"
GURL url1 = test_server_.GetURL("/cert.crt");
std::unique_ptr<CertNetFetcher::Request> request1 =
StartRequest(fetcher(), url1);
// Request a URL with Content-Type "application/pkix-crl"
GURL url2 = test_server_.GetURL("/root.crl");
std::unique_ptr<CertNetFetcher::Request> request2 =
StartRequest(fetcher(), url2);
// Request a URL with Content-Type "application/pkcs7-mime"
GURL url3 = test_server_.GetURL("/certs.p7c");
std::unique_ptr<CertNetFetcher::Request> request3 =
StartRequest(fetcher(), url3);
// Wait for all of the requests to complete and verify the fetch results.
VerifySuccess("-cert.crt-\n", request1.get());
VerifySuccess("-root.crl-\n", request2.get());
VerifySuccess("-certs.p7c-\n", request3.get());
EXPECT_EQ(3, NumCreatedRequests());
}
// Fetch a caIssuers URL which has an unexpected extension and Content-Type.
// The extension is .txt and the Content-Type is text/plain. Despite being
// unusual this succeeds as the extension and Content-Type are not required to
// be meaningful.
TEST_F(CertNetFetcherImplTest, ContentTypeDoesntMatter) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url = test_server_.GetURL("/foo.txt");
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifySuccess("-foo.txt-\n", request.get());
}
// Fetch a URLs whose HTTP response code is not 200. These are considered
// failures.
TEST_F(CertNetFetcherImplTest, HttpStatusCode) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
// Response was HTTP status 404.
{
GURL url = test_server_.GetURL("/404.html");
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifyFailure(ERR_FAILED, request.get());
}
// Response was HTTP status 500.
{
GURL url = test_server_.GetURL("/500.html");
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifyFailure(ERR_FAILED, request.get());
}
}
// Fetching a URL with a Content-Disposition header should have no effect.
TEST_F(CertNetFetcherImplTest, ContentDisposition) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url = test_server_.GetURL("/downloadable.js");
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifySuccess("-downloadable.js-\n", request.get());
}
// Verifies that a cachable request will be served from the HTTP cache the
// second time it is requested.
TEST_F(CertNetFetcherImplTest, Cache) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
// Fetch a URL whose HTTP headers make it cacheable for 1 hour.
GURL url(test_server_.GetURL("/cacheable_1hr.crt"));
{
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifySuccess("-cacheable_1hr.crt-\n", request.get());
}
EXPECT_EQ(1, NumCreatedRequests());
// Kill the HTTP server.
ASSERT_TRUE(test_server_.ShutdownAndWaitUntilComplete());
// Fetch again -- will fail unless served from cache.
{
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifySuccess("-cacheable_1hr.crt-\n", request.get());
}
EXPECT_EQ(2, NumCreatedRequests());
}
// Verify that the maximum response body constraints are enforced by fetching a
// resource that is larger than the limit.
TEST_F(CertNetFetcherImplTest, TooLarge) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
// This file has a response body 12 bytes long. So setting the maximum to 11
// bytes will cause it to fail.
GURL url(test_server_.GetURL("/certs.p7c"));
std::unique_ptr<CertNetFetcher::Request> request =
fetcher()->FetchCaIssuers(url, CertNetFetcher::DEFAULT, 11);
VerifyFailure(ERR_FILE_TOO_BIG, request.get());
}
// Set the timeout to 10 milliseconds, and try fetching a URL that takes 5
// seconds to complete. It should fail due to a timeout.
TEST_F(CertNetFetcherImplTest, Hang) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url(test_server_.GetURL("/slow/certs.p7c?5"));
std::unique_ptr<CertNetFetcher::Request> request =
fetcher()->FetchCaIssuers(url, 10, CertNetFetcher::DEFAULT);
VerifyFailure(ERR_TIMED_OUT, request.get());
}
// Verify that if a response is gzip-encoded it gets inflated before being
// returned to the caller.
TEST_F(CertNetFetcherImplTest, Gzip) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url(test_server_.GetURL("/gzipped_crl"));
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifySuccess("-gzipped_crl-\n", request.get());
}
// Try fetching an unsupported URL scheme (https).
TEST_F(CertNetFetcherImplTest, HttpsNotAllowed) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url("https://foopy/foo.crt");
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifyFailure(ERR_DISALLOWED_URL_SCHEME, request.get());
// No request was created because the URL scheme was unsupported.
EXPECT_EQ(0, NumCreatedRequests());
}
// Try fetching a URL which redirects to https.
TEST_F(CertNetFetcherImplTest, RedirectToHttpsNotAllowed) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url(test_server_.GetURL("/redirect_https"));
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifyFailure(ERR_DISALLOWED_URL_SCHEME, request.get());
EXPECT_EQ(1, NumCreatedRequests());
}
// Try fetching an unsupported URL scheme (https) and then immediately
// cancelling. This is a bit special because this codepath needs to post a task.
TEST_F(CertNetFetcherImplTest, CancelHttpsNotAllowed) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url("https://foopy/foo.crt");
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
// Cancel the request (May or may not have started yet, as the request is
// running on another thread).
request.reset();
}
// Start a few requests, and cancel one of them before running the message loop
// again.
TEST_F(CertNetFetcherImplTest, CancelBeforeRunningMessageLoop) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url1 = test_server_.GetURL("/cert.crt");
std::unique_ptr<CertNetFetcher::Request> request1 =
StartRequest(fetcher(), url1);
GURL url2 = test_server_.GetURL("/root.crl");
std::unique_ptr<CertNetFetcher::Request> request2 =
StartRequest(fetcher(), url2);
GURL url3 = test_server_.GetURL("/certs.p7c");
std::unique_ptr<CertNetFetcher::Request> request3 =
StartRequest(fetcher(), url3);
// Cancel the second request.
request2.reset();
// Wait for the non-cancelled requests to complete, and verify the fetch
// results.
VerifySuccess("-cert.crt-\n", request1.get());
VerifySuccess("-certs.p7c-\n", request3.get());
}
// Start several requests, and cancel one of them after the first has completed.
// NOTE: The python test server is single threaded and can only service one
// request at a time. After a socket is opened by the server it waits for it to
// be completed, and any subsequent request will hang until the first socket is
// closed.
// Cancelling the first request can therefore be problematic, since if
// cancellation is done after the socket is opened but before reading/writing,
// then the socket is re-cycled and things will be stalled until the cleanup
// timer (10 seconds) closes it.
// To work around this, the last request is cancelled, and hope that the
// requests are given opened sockets in a FIFO order.
// TODO(eroman): Make this more robust.
// TODO(eroman): Rename this test.
TEST_F(CertNetFetcherImplTest, CancelAfterRunningMessageLoop) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url1 = test_server_.GetURL("/cert.crt");
std::unique_ptr<CertNetFetcher::Request> request1 =
StartRequest(fetcher(), url1);
GURL url2 = test_server_.GetURL("/certs.p7c");
std::unique_ptr<CertNetFetcher::Request> request2 =
StartRequest(fetcher(), url2);
GURL url3("ftp://www.not.supported.com/foo");
std::unique_ptr<CertNetFetcher::Request> request3 =
StartRequest(fetcher(), url3);
// Wait for the ftp request to complete (it should complete right away since
// it doesn't even try to connect to the server).
VerifyFailure(ERR_DISALLOWED_URL_SCHEME, request3.get());
// Cancel the second outstanding request.
request2.reset();
// Wait for the first request to complete and verify the fetch result.
VerifySuccess("-cert.crt-\n", request1.get());
}
// Fetch the same URLs in parallel and verify that only 1 request is made per
// URL.
TEST_F(CertNetFetcherImplTest, ParallelFetchDuplicates) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url1 = test_server_.GetURL("/cert.crt");
GURL url2 = test_server_.GetURL("/root.crl");
// Issue 3 requests for url1, and 3 requests for url2
std::unique_ptr<CertNetFetcher::Request> request1 =
StartRequest(fetcher(), url1);
std::unique_ptr<CertNetFetcher::Request> request2 =
StartRequest(fetcher(), url2);
std::unique_ptr<CertNetFetcher::Request> request3 =
StartRequest(fetcher(), url1);
std::unique_ptr<CertNetFetcher::Request> request4 =
StartRequest(fetcher(), url2);
std::unique_ptr<CertNetFetcher::Request> request5 =
StartRequest(fetcher(), url2);
std::unique_ptr<CertNetFetcher::Request> request6 =
StartRequest(fetcher(), url1);
// Cancel all but one of the requests for url1.
request1.reset();
request3.reset();
// Wait for the remaining requests to finish and verify the fetch results.
VerifySuccess("-root.crl-\n", request2.get());
VerifySuccess("-root.crl-\n", request4.get());
VerifySuccess("-root.crl-\n", request5.get());
VerifySuccess("-cert.crt-\n", request6.get());
// Verify that only 2 URLRequests were started even though 6 requests were
// issued.
EXPECT_EQ(2, NumCreatedRequests());
}
// Cancel a request and then start another one for the same URL.
TEST_F(CertNetFetcherImplTest, CancelThenStart) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
GURL url = test_server_.GetURL("/cert.crt");
std::unique_ptr<CertNetFetcher::Request> request1 =
StartRequest(fetcher(), url);
request1.reset();
std::unique_ptr<CertNetFetcher::Request> request2 =
StartRequest(fetcher(), url);
std::unique_ptr<CertNetFetcher::Request> request3 =
StartRequest(fetcher(), url);
request3.reset();
// All but |request2| were canceled.
VerifySuccess("-cert.crt-\n", request2.get());
}
// Start duplicate requests and then cancel all of them.
TEST_F(CertNetFetcherImplTest, CancelAll) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
std::unique_ptr<CertNetFetcher::Request> request[3];
GURL url = test_server_.GetURL("/cert.crt");
for (size_t i = 0; i < arraysize(request); ++i) {
request[i] = StartRequest(fetcher(), url);
}
// Cancel all the requests.
for (size_t i = 0; i < arraysize(request); ++i)
request[i].reset();
EXPECT_EQ(1, NumCreatedRequests());
}
// Tests that Requests are signalled for completion even if they are
// created after the CertNetFetcher has been shutdown.
TEST_F(CertNetFetcherImplTest, RequestsAfterShutdown) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
ShutDownFetcher();
GURL url = test_server_.GetURL("/cert.crt");
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifyFailure(ERR_ABORTED, request.get());
EXPECT_EQ(0, NumCreatedRequests());
}
// Tests that Requests are signalled for completion if the fetcher is
// shutdown and the network thread stopped before the request is
// started.
TEST_F(CertNetFetcherImplTest, RequestAfterShutdownAndNetworkThreadStopped) {
ASSERT_TRUE(test_server_.Start());
CreateFetcher();
ShutDownFetcher();
ResetState();
network_thread_.reset();
GURL url = test_server_.GetURL("/cert.crt");
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
VerifyFailure(ERR_ABORTED, request.get());
}
// Tests that outstanding Requests are cancelled when Shutdown is called.
TEST_F(CertNetFetcherImplTestWithHangingReadHandler, ShutdownCancelsRequests) {
CreateFetcher();
GURL url = URLRequestHangingReadJob::GetMockHttpUrl();
std::unique_ptr<CertNetFetcher::Request> request =
StartRequest(fetcher(), url);
ShutDownFetcher();
VerifyFailure(ERR_ABORTED, request.get());
}
} // namespace
} // namespace net