blob: f6721ba86c266d58707a73ad636ba7e2314ca505 [file] [log] [blame]
// Copyright (c) 2011 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 "build/build_config.h"
#if defined(OS_WIN)
#include <shlobj.h>
#include <windows.h>
#endif
#include <algorithm>
#include <string>
#include "base/basictypes.h"
#include "base/compiler_specific.h"
#include "base/file_util.h"
#include "base/format_macros.h"
#include "base/message_loop.h"
#include "base/path_service.h"
#include "base/process_util.h"
#include "base/string_number_conversions.h"
#include "base/string_piece.h"
#include "base/string_util.h"
#include "base/stringprintf.h"
#include "base/utf_string_conversions.h"
#include "net/base/cookie_monster.h"
#include "net/base/cookie_store_test_helpers.h"
#include "net/base/load_flags.h"
#include "net/base/mock_host_resolver.h"
#include "net/base/net_errors.h"
#include "net/base/net_log.h"
#include "net/base/net_log_unittest.h"
#include "net/base/net_module.h"
#include "net/base/net_util.h"
#include "net/base/ssl_connection_status_flags.h"
#include "net/base/upload_data.h"
#include "net/disk_cache/disk_cache.h"
#include "net/ftp/ftp_network_layer.h"
#include "net/http/http_cache.h"
#include "net/http/http_network_layer.h"
#include "net/http/http_request_headers.h"
#include "net/http/http_response_headers.h"
#include "net/proxy/proxy_service.h"
#include "net/test/test_server.h"
#include "net/url_request/url_request.h"
#include "net/url_request/url_request_file_dir_job.h"
#include "net/url_request/url_request_http_job.h"
#include "net/url_request/url_request_test_job.h"
#include "net/url_request/url_request_test_util.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "testing/platform_test.h"
using base::Time;
namespace net {
namespace {
const string16 kChrome(ASCIIToUTF16("chrome"));
const string16 kSecret(ASCIIToUTF16("secret"));
const string16 kUser(ASCIIToUTF16("user"));
base::StringPiece TestNetResourceProvider(int key) {
return "header";
}
// Do a case-insensitive search through |haystack| for |needle|.
bool ContainsString(const std::string& haystack, const char* needle) {
std::string::const_iterator it =
std::search(haystack.begin(),
haystack.end(),
needle,
needle + strlen(needle),
base::CaseInsensitiveCompare<char>());
return it != haystack.end();
}
void FillBuffer(char* buffer, size_t len) {
static bool called = false;
if (!called) {
called = true;
int seed = static_cast<int>(Time::Now().ToInternalValue());
srand(seed);
}
for (size_t i = 0; i < len; i++) {
buffer[i] = static_cast<char>(rand());
if (!buffer[i])
buffer[i] = 'g';
}
}
scoped_refptr<UploadData> CreateSimpleUploadData(const char* data) {
scoped_refptr<UploadData> upload(new UploadData);
upload->AppendBytes(data, strlen(data));
return upload;
}
// Verify that the SSLInfo of a successful SSL connection has valid values.
void CheckSSLInfo(const SSLInfo& ssl_info) {
// Allow ChromeFrame fake SSLInfo to get through.
if (ssl_info.cert.get() &&
ssl_info.cert.get()->issuer().GetDisplayName() == "Chrome Internal") {
// -1 means unknown.
EXPECT_EQ(ssl_info.security_bits, -1);
return;
}
// -1 means unknown. 0 means no encryption.
EXPECT_GT(ssl_info.security_bits, 0);
// The cipher suite TLS_NULL_WITH_NULL_NULL (0) must not be negotiated.
int cipher_suite = SSLConnectionStatusToCipherSuite(
ssl_info.connection_status);
EXPECT_NE(0, cipher_suite);
}
} // namespace
// A network delegate that blocks requests, optionally cancelling or redirecting
// them.
class BlockingNetworkDelegate : public TestNetworkDelegate {
public:
BlockingNetworkDelegate()
: callback_retval_(net::OK),
ALLOW_THIS_IN_INITIALIZER_LIST(method_factory_(this)) {}
void set_callback_retval(int retval) { callback_retval_ = retval; }
void set_redirect_url(const GURL& url) { redirect_url_ = url; }
private:
// TestNetworkDelegate:
virtual int OnBeforeURLRequest(net::URLRequest* request,
net::CompletionCallback* callback,
GURL* new_url) {
if (redirect_url_ == request->url()) {
// We've already seen this request and redirected elsewhere.
return net::OK;
}
TestNetworkDelegate::OnBeforeURLRequest(request, callback, new_url);
if (!redirect_url_.is_empty())
*new_url = redirect_url_;
MessageLoop::current()->PostTask(
FROM_HERE,
method_factory_.NewRunnableMethod(&BlockingNetworkDelegate::DoCallback,
callback));
return net::ERR_IO_PENDING;
}
void DoCallback(net::CompletionCallback* callback) {
callback->Run(callback_retval_);
}
int callback_retval_;
GURL redirect_url_;
ScopedRunnableMethodFactory<BlockingNetworkDelegate> method_factory_;
};
// Inherit PlatformTest since we require the autorelease pool on Mac OS X.f
class URLRequestTest : public PlatformTest {
public:
URLRequestTest() : default_context_(new TestURLRequestContext(true)) {
default_context_->set_network_delegate(&default_network_delegate_);
default_context_->Init();
}
static void SetUpTestCase() {
URLRequest::AllowFileAccess();
}
protected:
TestNetworkDelegate default_network_delegate_; // must outlive URLRequest
scoped_refptr<TestURLRequestContext> default_context_;
};
class URLRequestTestHTTP : public URLRequestTest {
public:
URLRequestTestHTTP()
: test_server_(TestServer::TYPE_HTTP,
FilePath(FILE_PATH_LITERAL(
"net/data/url_request_unittest"))) {
}
protected:
void HTTPUploadDataOperationTest(const std::string& method) {
const int kMsgSize = 20000; // multiple of 10
const int kIterations = 50;
char *uploadBytes = new char[kMsgSize+1];
char *ptr = uploadBytes;
char marker = 'a';
for (int idx = 0; idx < kMsgSize/10; idx++) {
memcpy(ptr, "----------", 10);
ptr += 10;
if (idx % 100 == 0) {
ptr--;
*ptr++ = marker;
if (++marker > 'z')
marker = 'a';
}
}
uploadBytes[kMsgSize] = '\0';
for (int i = 0; i < kIterations; ++i) {
TestDelegate d;
URLRequest r(test_server_.GetURL("echo"), &d);
r.set_context(default_context_);
r.set_method(method.c_str());
r.AppendBytesToUpload(uploadBytes, kMsgSize);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
ASSERT_EQ(1, d.response_started_count()) << "request failed: " <<
(int) r.status().status() << ", os error: " << r.status().os_error();
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(uploadBytes, d.data_received());
EXPECT_EQ(memcmp(uploadBytes, d.data_received().c_str(), kMsgSize), 0);
EXPECT_EQ(d.data_received().compare(uploadBytes), 0);
}
delete[] uploadBytes;
}
void AddChunksToUpload(TestURLRequest* r) {
r->AppendChunkToUpload("a", 1, false);
r->AppendChunkToUpload("bcd", 3, false);
r->AppendChunkToUpload("this is a longer chunk than before.", 35, false);
r->AppendChunkToUpload("\r\n\r\n", 4, false);
r->AppendChunkToUpload("0", 1, false);
r->AppendChunkToUpload("2323", 4, true);
}
void VerifyReceivedDataMatchesChunks(TestURLRequest* r, TestDelegate* d) {
// This should match the chunks sent by AddChunksToUpload().
const char* expected_data =
"abcdthis is a longer chunk than before.\r\n\r\n02323";
ASSERT_EQ(1, d->response_started_count()) << "request failed: " <<
(int) r->status().status() << ", os error: " << r->status().os_error();
EXPECT_FALSE(d->received_data_before_response());
ASSERT_EQ(strlen(expected_data), static_cast<size_t>(d->bytes_received()));
EXPECT_EQ(0, memcmp(d->data_received().c_str(), expected_data,
strlen(expected_data)));
}
TestServer test_server_;
};
// In this unit test, we're using the HTTPTestServer as a proxy server and
// issuing a CONNECT request with the magic host name "www.redirect.com".
// The HTTPTestServer will return a 302 response, which we should not
// follow.
TEST_F(URLRequestTestHTTP, ProxyTunnelRedirectTest) {
ASSERT_TRUE(test_server_.Start());
TestNetworkDelegate network_delegate; // must outlive URLRequest
scoped_refptr<TestURLRequestContext> context(new TestURLRequestContext(true));
context->SetProxyFromString(test_server_.host_port_pair().ToString());
context->set_network_delegate(&network_delegate);
context->Init();
TestDelegate d;
{
URLRequest r(GURL("https://www.redirect.com/"), &d);
r.set_context(context);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::FAILED, r.status().status());
EXPECT_EQ(ERR_TUNNEL_CONNECTION_FAILED, r.status().os_error());
EXPECT_EQ(1, d.response_started_count());
// We should not have followed the redirect.
EXPECT_EQ(0, d.received_redirect_count());
}
}
// This is the same as the previous test, but checks that the network delegate
// registers the error.
TEST_F(URLRequestTestHTTP, NetworkDelegateTunnelConnectionFailed) {
ASSERT_TRUE(test_server_.Start());
TestNetworkDelegate network_delegate; // must outlive URLRequest
scoped_refptr<TestURLRequestContext> context(new TestURLRequestContext(true));
context->SetProxyFromString(test_server_.host_port_pair().ToString());
context->set_network_delegate(&network_delegate);
context->Init();
TestDelegate d;
{
URLRequest r(GURL("https://www.redirect.com/"), &d);
r.set_context(context);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::FAILED, r.status().status());
EXPECT_EQ(ERR_TUNNEL_CONNECTION_FAILED, r.status().os_error());
EXPECT_EQ(1, d.response_started_count());
// We should not have followed the redirect.
EXPECT_EQ(0, d.received_redirect_count());
EXPECT_EQ(1, network_delegate.error_count());
EXPECT_EQ(ERR_TUNNEL_CONNECTION_FAILED, network_delegate.last_os_error());
}
}
// Tests that the network delegate can block and cancel a request.
TEST_F(URLRequestTestHTTP, NetworkDelegateCancelRequest) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
BlockingNetworkDelegate network_delegate;
network_delegate.set_callback_retval(ERR_EMPTY_RESPONSE);
scoped_refptr<TestURLRequestContext> context(new TestURLRequestContext(true));
context->SetProxyFromString(test_server_.host_port_pair().ToString());
context->set_network_delegate(&network_delegate);
context->Init();
{
TestURLRequest r(test_server_.GetURL(""), &d);
r.set_context(context);
r.Start();
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::FAILED, r.status().status());
EXPECT_EQ(ERR_EMPTY_RESPONSE, r.status().os_error());
EXPECT_EQ(1, network_delegate.created_requests());
EXPECT_EQ(0, network_delegate.destroyed_requests());
}
EXPECT_EQ(1, network_delegate.destroyed_requests());
}
// Tests that the network delegate can block and redirect a request to a new
// URL.
TEST_F(URLRequestTestHTTP, NetworkDelegateRedirectRequest) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
BlockingNetworkDelegate network_delegate;
GURL redirect_url(test_server_.GetURL("simple.html"));
network_delegate.set_redirect_url(redirect_url);
scoped_refptr<TestURLRequestContext> context(new TestURLRequestContext(true));
context->SetProxyFromString(test_server_.host_port_pair().ToString());
context->set_network_delegate(&network_delegate);
context->Init();
{
GURL original_url(test_server_.GetURL("empty.html"));
TestURLRequest r(original_url, &d);
r.set_context(context);
r.Start();
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::SUCCESS, r.status().status());
EXPECT_EQ(0, r.status().os_error());
EXPECT_EQ(redirect_url, r.url());
EXPECT_EQ(original_url, r.original_url());
EXPECT_EQ(2U, r.url_chain().size());
EXPECT_EQ(1, network_delegate.created_requests());
EXPECT_EQ(0, network_delegate.destroyed_requests());
}
EXPECT_EQ(1, network_delegate.destroyed_requests());
}
// In this unit test, we're using the HTTPTestServer as a proxy server and
// issuing a CONNECT request with the magic host name "www.server-auth.com".
// The HTTPTestServer will return a 401 response, which we should balk at.
TEST_F(URLRequestTestHTTP, UnexpectedServerAuthTest) {
ASSERT_TRUE(test_server_.Start());
TestNetworkDelegate network_delegate; // must outlive URLRequest
scoped_refptr<TestURLRequestContext> context(new TestURLRequestContext(true));
context->SetProxyFromString(test_server_.host_port_pair().ToString());
context->set_network_delegate(&network_delegate);
context->Init();
TestDelegate d;
{
URLRequest r(GURL("https://www.server-auth.com/"), &d);
r.set_context(context);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::FAILED, r.status().status());
EXPECT_EQ(ERR_TUNNEL_CONNECTION_FAILED, r.status().os_error());
}
}
TEST_F(URLRequestTestHTTP, GetTest_NoCache) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL(""), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_NE(0, d.bytes_received());
EXPECT_EQ(test_server_.host_port_pair().host(),
r.GetSocketAddress().host());
EXPECT_EQ(test_server_.host_port_pair().port(),
r.GetSocketAddress().port());
// TODO(eroman): Add back the NetLog tests...
}
}
TEST_F(URLRequestTestHTTP, GetTest) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL(""), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_NE(0, d.bytes_received());
EXPECT_EQ(test_server_.host_port_pair().host(),
r.GetSocketAddress().host());
EXPECT_EQ(test_server_.host_port_pair().port(),
r.GetSocketAddress().port());
}
}
TEST_F(URLRequestTestHTTP, GetZippedTest) {
ASSERT_TRUE(test_server_.Start());
// Parameter that specifies the Content-Length field in the response:
// C - Compressed length.
// U - Uncompressed length.
// L - Large length (larger than both C & U).
// M - Medium length (between C & U).
// S - Small length (smaller than both C & U).
const char test_parameters[] = "CULMS";
const int num_tests = arraysize(test_parameters)- 1; // Skip NULL.
// C & U should be OK.
// L & M are larger than the data sent, and show an error.
// S has too little data, but we seem to accept it.
const bool test_expect_success[num_tests] =
{ true, true, false, false, true };
for (int i = 0; i < num_tests ; i++) {
TestDelegate d;
{
std::string test_file =
base::StringPrintf("compressedfiles/BullRunSpeech.txt?%c",
test_parameters[i]);
TestNetworkDelegate network_delegate; // must outlive URLRequest
scoped_refptr<TestURLRequestContext> context(
new TestURLRequestContext(true));
context->set_network_delegate(&network_delegate);
context->Init();
TestURLRequest r(test_server_.GetURL(test_file), &d);
r.set_context(context);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
VLOG(1) << " Received " << d.bytes_received() << " bytes"
<< " status = " << r.status().status()
<< " os_error = " << r.status().os_error();
if (test_expect_success[i]) {
EXPECT_EQ(URLRequestStatus::SUCCESS, r.status().status())
<< " Parameter = \"" << test_file << "\"";
} else {
EXPECT_EQ(URLRequestStatus::FAILED, r.status().status());
EXPECT_EQ(-100, r.status().os_error())
<< " Parameter = \"" << test_file << "\"";
}
}
}
}
TEST_F(URLRequestTestHTTP, HTTPSToHTTPRedirectNoRefererTest) {
ASSERT_TRUE(test_server_.Start());
TestServer https_test_server(
TestServer::TYPE_HTTPS, FilePath(FILE_PATH_LITERAL("net/data/ssl")));
ASSERT_TRUE(https_test_server.Start());
// An https server is sent a request with an https referer,
// and responds with a redirect to an http url. The http
// server should not be sent the referer.
GURL http_destination = test_server_.GetURL("");
TestDelegate d;
TestURLRequest req(https_test_server.GetURL(
"server-redirect?" + http_destination.spec()), &d);
req.set_context(default_context_);
req.set_referrer("https://www.referrer.com/");
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(1, d.received_redirect_count());
EXPECT_EQ(http_destination, req.url());
EXPECT_EQ(std::string(), req.referrer());
}
TEST_F(URLRequestTestHTTP, MultipleRedirectTest) {
ASSERT_TRUE(test_server_.Start());
GURL destination_url = test_server_.GetURL("");
GURL middle_redirect_url = test_server_.GetURL(
"server-redirect?" + destination_url.spec());
GURL original_url = test_server_.GetURL(
"server-redirect?" + middle_redirect_url.spec());
TestDelegate d;
TestURLRequest req(original_url, &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(2, d.received_redirect_count());
EXPECT_EQ(destination_url, req.url());
EXPECT_EQ(original_url, req.original_url());
ASSERT_EQ(3U, req.url_chain().size());
EXPECT_EQ(original_url, req.url_chain()[0]);
EXPECT_EQ(middle_redirect_url, req.url_chain()[1]);
EXPECT_EQ(destination_url, req.url_chain()[2]);
}
class HTTPSRequestTest : public testing::Test {
public:
HTTPSRequestTest() : default_context_(new TestURLRequestContext(true)) {
default_context_->set_network_delegate(&default_network_delegate_);
default_context_->Init();
}
virtual ~HTTPSRequestTest() {}
protected:
TestNetworkDelegate default_network_delegate_; // must outlive URLRequest
scoped_refptr<TestURLRequestContext> default_context_;
};
TEST_F(HTTPSRequestTest, HTTPSGetTest) {
TestServer test_server(TestServer::TYPE_HTTPS,
FilePath(FILE_PATH_LITERAL("net/data/ssl")));
ASSERT_TRUE(test_server.Start());
TestDelegate d;
{
TestURLRequest r(test_server.GetURL(""), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_NE(0, d.bytes_received());
CheckSSLInfo(r.ssl_info());
EXPECT_EQ(test_server.host_port_pair().host(),
r.GetSocketAddress().host());
EXPECT_EQ(test_server.host_port_pair().port(),
r.GetSocketAddress().port());
}
}
TEST_F(HTTPSRequestTest, HTTPSMismatchedTest) {
TestServer::HTTPSOptions https_options(
TestServer::HTTPSOptions::CERT_MISMATCHED_NAME);
TestServer test_server(https_options,
FilePath(FILE_PATH_LITERAL("net/data/ssl")));
ASSERT_TRUE(test_server.Start());
bool err_allowed = true;
for (int i = 0; i < 2 ; i++, err_allowed = !err_allowed) {
TestDelegate d;
{
d.set_allow_certificate_errors(err_allowed);
TestURLRequest r(test_server.GetURL(""), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_TRUE(d.have_certificate_errors());
if (err_allowed) {
EXPECT_NE(0, d.bytes_received());
CheckSSLInfo(r.ssl_info());
} else {
EXPECT_EQ(0, d.bytes_received());
}
}
}
}
TEST_F(HTTPSRequestTest, HTTPSExpiredTest) {
TestServer::HTTPSOptions https_options(
TestServer::HTTPSOptions::CERT_EXPIRED);
TestServer test_server(https_options,
FilePath(FILE_PATH_LITERAL("net/data/ssl")));
ASSERT_TRUE(test_server.Start());
// Iterate from false to true, just so that we do the opposite of the
// previous test in order to increase test coverage.
bool err_allowed = false;
for (int i = 0; i < 2 ; i++, err_allowed = !err_allowed) {
TestDelegate d;
{
d.set_allow_certificate_errors(err_allowed);
TestURLRequest r(test_server.GetURL(""), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_TRUE(d.have_certificate_errors());
if (err_allowed) {
EXPECT_NE(0, d.bytes_received());
CheckSSLInfo(r.ssl_info());
} else {
EXPECT_EQ(0, d.bytes_received());
}
}
}
}
namespace {
class SSLClientAuthTestDelegate : public TestDelegate {
public:
SSLClientAuthTestDelegate() : on_certificate_requested_count_(0) {
}
virtual void OnCertificateRequested(
URLRequest* request,
SSLCertRequestInfo* cert_request_info) {
on_certificate_requested_count_++;
MessageLoop::current()->Quit();
}
int on_certificate_requested_count() {
return on_certificate_requested_count_;
}
private:
int on_certificate_requested_count_;
};
} // namespace
// TODO(davidben): Test the rest of the code. Specifically,
// - Filtering which certificates to select.
// - Sending a certificate back.
// - Getting a certificate request in an SSL renegotiation sending the
// HTTP request.
TEST_F(HTTPSRequestTest, ClientAuthTest) {
TestServer::HTTPSOptions https_options;
https_options.request_client_certificate = true;
TestServer test_server(https_options,
FilePath(FILE_PATH_LITERAL("net/data/ssl")));
ASSERT_TRUE(test_server.Start());
SSLClientAuthTestDelegate d;
{
TestURLRequest r(test_server.GetURL(""), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.on_certificate_requested_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(0, d.bytes_received());
// Send no certificate.
// TODO(davidben): Get temporary client cert import (with keys) working on
// all platforms so we can test sending a cert as well.
r.ContinueWithCertificate(NULL);
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_NE(0, d.bytes_received());
}
}
TEST_F(URLRequestTestHTTP, CancelTest) {
TestDelegate d;
{
TestURLRequest r(GURL("http://www.google.com/"), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
r.Cancel();
MessageLoop::current()->Run();
// We expect to receive OnResponseStarted even though the request has been
// cancelled.
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.bytes_received());
EXPECT_FALSE(d.received_data_before_response());
}
}
TEST_F(URLRequestTestHTTP, CancelTest2) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL(""), &d);
r.set_context(default_context_);
d.set_cancel_in_response_started(true);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.bytes_received());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(URLRequestStatus::CANCELED, r.status().status());
}
}
TEST_F(URLRequestTestHTTP, CancelTest3) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL(""), &d);
r.set_context(default_context_);
d.set_cancel_in_received_data(true);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
// There is no guarantee about how much data was received
// before the cancel was issued. It could have been 0 bytes,
// or it could have been all the bytes.
// EXPECT_EQ(0, d.bytes_received());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(URLRequestStatus::CANCELED, r.status().status());
}
}
TEST_F(URLRequestTestHTTP, CancelTest4) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL(""), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
// The request will be implicitly canceled when it is destroyed. The
// test delegate must not post a quit message when this happens because
// this test doesn't actually have a message loop. The quit message would
// get put on this thread's message queue and the next test would exit
// early, causing problems.
d.set_quit_on_complete(false);
}
// expect things to just cleanup properly.
// we won't actually get a received reponse here because we've never run the
// message loop
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(0, d.bytes_received());
}
TEST_F(URLRequestTestHTTP, CancelTest5) {
ASSERT_TRUE(test_server_.Start());
// populate cache
{
TestDelegate d;
URLRequest r(test_server_.GetURL("cachetime"), &d);
r.set_context(default_context_);
r.Start();
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::SUCCESS, r.status().status());
}
// cancel read from cache (see bug 990242)
{
TestDelegate d;
URLRequest r(test_server_.GetURL("cachetime"), &d);
r.set_context(default_context_);
r.Start();
r.Cancel();
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::CANCELED, r.status().status());
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.bytes_received());
EXPECT_FALSE(d.received_data_before_response());
}
}
TEST_F(URLRequestTestHTTP, PostTest) {
ASSERT_TRUE(test_server_.Start());
HTTPUploadDataOperationTest("POST");
}
TEST_F(URLRequestTestHTTP, PutTest) {
ASSERT_TRUE(test_server_.Start());
HTTPUploadDataOperationTest("PUT");
}
TEST_F(URLRequestTestHTTP, PostEmptyTest) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL("echo"), &d);
r.set_context(default_context_);
r.set_method("POST");
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
ASSERT_EQ(1, d.response_started_count()) << "request failed: " <<
(int) r.status().status() << ", os error: " << r.status().os_error();
EXPECT_FALSE(d.received_data_before_response());
EXPECT_TRUE(d.data_received().empty());
}
}
TEST_F(URLRequestTestHTTP, PostFileTest) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL("echo"), &d);
r.set_context(default_context_);
r.set_method("POST");
FilePath dir;
PathService::Get(base::DIR_EXE, &dir);
file_util::SetCurrentDirectory(dir);
FilePath path;
PathService::Get(base::DIR_SOURCE_ROOT, &path);
path = path.Append(FILE_PATH_LITERAL("net"));
path = path.Append(FILE_PATH_LITERAL("data"));
path = path.Append(FILE_PATH_LITERAL("url_request_unittest"));
path = path.Append(FILE_PATH_LITERAL("with-headers.html"));
r.AppendFileToUpload(path);
// This file should just be ignored in the upload stream.
r.AppendFileToUpload(FilePath(FILE_PATH_LITERAL(
"c:\\path\\to\\non\\existant\\file.randomness.12345")));
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
int64 longsize;
ASSERT_EQ(true, file_util::GetFileSize(path, &longsize));
int size = static_cast<int>(longsize);
scoped_array<char> buf(new char[size]);
int size_read = static_cast<int>(file_util::ReadFile(path,
buf.get(), size));
ASSERT_EQ(size, size_read);
ASSERT_EQ(1, d.response_started_count()) << "request failed: " <<
(int) r.status().status() << ", os error: " << r.status().os_error();
EXPECT_FALSE(d.received_data_before_response());
ASSERT_EQ(size, d.bytes_received());
EXPECT_EQ(0, memcmp(d.data_received().c_str(), buf.get(), size));
}
}
TEST_F(URLRequestTestHTTP, TestPostChunkedDataBeforeStart) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL("echo"), &d);
r.set_context(default_context_);
r.EnableChunkedUpload();
r.set_method("POST");
AddChunksToUpload(&r);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
VerifyReceivedDataMatchesChunks(&r, &d);
}
}
TEST_F(URLRequestTestHTTP, TestPostChunkedDataAfterStart) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL("echo"), &d);
r.set_context(default_context_);
r.EnableChunkedUpload();
r.set_method("POST");
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->RunAllPending();
AddChunksToUpload(&r);
MessageLoop::current()->Run();
VerifyReceivedDataMatchesChunks(&r, &d);
}
}
TEST_F(URLRequestTest, AboutBlankTest) {
TestDelegate d;
{
TestURLRequest r(GURL("about:blank"), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_TRUE(!r.is_pending());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(d.bytes_received(), 0);
EXPECT_EQ("", r.GetSocketAddress().host());
EXPECT_EQ(0, r.GetSocketAddress().port());
}
}
TEST_F(URLRequestTest, DataURLImageTest) {
TestDelegate d;
{
// Use our nice little Chrome logo.
TestURLRequest r(GURL(
"data:image/png;base64,"
"iVBORw0KGgoAAAANSUhEUgAAABAAAAAQCAYAAAAf8/9hAAADVklEQVQ4jX2TfUwUBBjG3"
"w1y+HGcd9dxhXR8T4awOccJGgOSWclHImznLkTlSw0DDQXkrmgYgbUYnlQTqQxIEVxitD"
"5UMCATRA1CEEg+Qjw3bWDxIauJv/5oumqs39/P827vnucRmYN0gyF01GI5MpCVdW0gO7t"
"vNC+vqSEtbZefk5NuLv1jdJ46p/zw0HeH4+PHr3h7c1mjoV2t5rKzMx1+fg9bAgK6zHq9"
"cU5z+LpA3xOtx34+vTeT21onRuzssC3zxbbSwC13d/pFuC7CkIMDxQpF7r/MWq12UctI1"
"dWWm99ypqSYmRUBdKem8MkrO/kgaTt1O7YzlpzE5GIVd0WYUqt57yWf2McHTObYPbVD+Z"
"wbtlLTVMZ3BW+TnLyXLaWtmEq6WJVbT3HBh3Svj2HQQcm43XwmtoYM6vVKleh0uoWvnzW"
"3v3MpidruPTQPf0bia7sJOtBM0ufTWNvus/nkDFHF9ZS+uYVjRUasMeHUmyLYtcklTvzW"
"GFZnNOXczThvpKIzjcahSqIzkvDLayDq6D3eOjtBbNUEIZYyqsvj4V4wY92eNJ4IoyhTb"
"xXX1T5xsV9tm9r4TQwHLiZw/pdDZJea8TKmsmR/K0uLh/GwnCHghTja6lPhphezPfO5/5"
"MrVvMzNaI3+ERHfrFzPKQukrQGI4d/3EFD/3E2mVNYvi4at7CXWREaxZGD+3hg28zD3gV"
"Md6q5c8GdosynKmSeRuGzpjyl1/9UDGtPR5HeaKT8Wjo17WXk579BXVUhN64ehF9fhRtq"
"/uxxZKzNiZFGD0wRC3NFROZ5mwIPL/96K/rKMMLrIzF9uhHr+/sYH7DAbwlgC4J+R2Z7F"
"Ux1qLnV7MGF40smVSoJ/jvHRfYhQeUJd/SnYtGWhPHR0Sz+GE2F2yth0B36Vcz2KpnufB"
"JbsysjjW4kblBUiIjiURUWqJY65zxbnTy57GQyH58zgy0QBtTQv5gH15XMdKkYu+TGaJM"
"nlm2O34uI4b9tflqp1+QEFGzoW/ulmcofcpkZCYJhDfSpme7QcrHa+Xfji8paEQkTkSfm"
"moRWRNZr/F1KfVMjW+IKEnv2FwZfKdzt0BQR6lClcZR0EfEXEfv/G6W9iLiIyCoReV5En"
"hORIBHx+ufPj/gLB/zGI/G4Bk0AAAAASUVORK5CYII="),
&d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_TRUE(!r.is_pending());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(d.bytes_received(), 911);
EXPECT_EQ("", r.GetSocketAddress().host());
EXPECT_EQ(0, r.GetSocketAddress().port());
}
}
TEST_F(URLRequestTest, FileTest) {
FilePath app_path;
PathService::Get(base::FILE_EXE, &app_path);
GURL app_url = FilePathToFileURL(app_path);
TestDelegate d;
{
TestURLRequest r(app_url, &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
int64 file_size = -1;
EXPECT_TRUE(file_util::GetFileSize(app_path, &file_size));
EXPECT_TRUE(!r.is_pending());
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(d.bytes_received(), static_cast<int>(file_size));
EXPECT_EQ("", r.GetSocketAddress().host());
EXPECT_EQ(0, r.GetSocketAddress().port());
}
}
TEST_F(URLRequestTest, FileTestFullSpecifiedRange) {
const size_t buffer_size = 4000;
scoped_array<char> buffer(new char[buffer_size]);
FillBuffer(buffer.get(), buffer_size);
FilePath temp_path;
EXPECT_TRUE(file_util::CreateTemporaryFile(&temp_path));
GURL temp_url = FilePathToFileURL(temp_path);
EXPECT_TRUE(file_util::WriteFile(temp_path, buffer.get(), buffer_size));
int64 file_size;
EXPECT_TRUE(file_util::GetFileSize(temp_path, &file_size));
const size_t first_byte_position = 500;
const size_t last_byte_position = buffer_size - first_byte_position;
const size_t content_length = last_byte_position - first_byte_position + 1;
std::string partial_buffer_string(buffer.get() + first_byte_position,
buffer.get() + last_byte_position + 1);
TestDelegate d;
{
TestURLRequest r(temp_url, &d);
r.set_context(default_context_);
HttpRequestHeaders headers;
headers.SetHeader(HttpRequestHeaders::kRange,
base::StringPrintf(
"bytes=%" PRIuS "-%" PRIuS,
first_byte_position, last_byte_position));
r.SetExtraRequestHeaders(headers);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_TRUE(!r.is_pending());
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(static_cast<int>(content_length), d.bytes_received());
// Don't use EXPECT_EQ, it will print out a lot of garbage if check failed.
EXPECT_TRUE(partial_buffer_string == d.data_received());
}
EXPECT_TRUE(file_util::Delete(temp_path, false));
}
TEST_F(URLRequestTest, FileTestHalfSpecifiedRange) {
const size_t buffer_size = 4000;
scoped_array<char> buffer(new char[buffer_size]);
FillBuffer(buffer.get(), buffer_size);
FilePath temp_path;
EXPECT_TRUE(file_util::CreateTemporaryFile(&temp_path));
GURL temp_url = FilePathToFileURL(temp_path);
EXPECT_TRUE(file_util::WriteFile(temp_path, buffer.get(), buffer_size));
int64 file_size;
EXPECT_TRUE(file_util::GetFileSize(temp_path, &file_size));
const size_t first_byte_position = 500;
const size_t last_byte_position = buffer_size - 1;
const size_t content_length = last_byte_position - first_byte_position + 1;
std::string partial_buffer_string(buffer.get() + first_byte_position,
buffer.get() + last_byte_position + 1);
TestDelegate d;
{
TestURLRequest r(temp_url, &d);
r.set_context(default_context_);
HttpRequestHeaders headers;
headers.SetHeader(HttpRequestHeaders::kRange,
base::StringPrintf("bytes=%" PRIuS "-",
first_byte_position));
r.SetExtraRequestHeaders(headers);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_TRUE(!r.is_pending());
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(static_cast<int>(content_length), d.bytes_received());
// Don't use EXPECT_EQ, it will print out a lot of garbage if check failed.
EXPECT_TRUE(partial_buffer_string == d.data_received());
}
EXPECT_TRUE(file_util::Delete(temp_path, false));
}
TEST_F(URLRequestTest, FileTestMultipleRanges) {
const size_t buffer_size = 400000;
scoped_array<char> buffer(new char[buffer_size]);
FillBuffer(buffer.get(), buffer_size);
FilePath temp_path;
EXPECT_TRUE(file_util::CreateTemporaryFile(&temp_path));
GURL temp_url = FilePathToFileURL(temp_path);
EXPECT_TRUE(file_util::WriteFile(temp_path, buffer.get(), buffer_size));
int64 file_size;
EXPECT_TRUE(file_util::GetFileSize(temp_path, &file_size));
TestDelegate d;
{
TestURLRequest r(temp_url, &d);
r.set_context(default_context_);
HttpRequestHeaders headers;
headers.SetHeader(HttpRequestHeaders::kRange,
"bytes=0-0,10-200,200-300");
r.SetExtraRequestHeaders(headers);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_TRUE(d.request_failed());
}
EXPECT_TRUE(file_util::Delete(temp_path, false));
}
TEST_F(URLRequestTest, InvalidUrlTest) {
TestDelegate d;
{
TestURLRequest r(GURL("invalid url"), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_TRUE(d.request_failed());
}
}
TEST_F(URLRequestTestHTTP, ResponseHeadersTest) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
TestURLRequest req(test_server_.GetURL("files/with-headers.html"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
const HttpResponseHeaders* headers = req.response_headers();
// Simple sanity check that response_info() accesses the same data.
EXPECT_EQ(headers, req.response_info().headers.get());
std::string header;
EXPECT_TRUE(headers->GetNormalizedHeader("cache-control", &header));
EXPECT_EQ("private", header);
header.clear();
EXPECT_TRUE(headers->GetNormalizedHeader("content-type", &header));
EXPECT_EQ("text/html; charset=ISO-8859-1", header);
// The response has two "X-Multiple-Entries" headers.
// This verfies our output has them concatenated together.
header.clear();
EXPECT_TRUE(headers->GetNormalizedHeader("x-multiple-entries", &header));
EXPECT_EQ("a, b", header);
}
#if defined(OS_WIN)
TEST_F(URLRequestTest, ResolveShortcutTest) {
FilePath app_path;
PathService::Get(base::DIR_SOURCE_ROOT, &app_path);
app_path = app_path.AppendASCII("net");
app_path = app_path.AppendASCII("data");
app_path = app_path.AppendASCII("url_request_unittest");
app_path = app_path.AppendASCII("with-headers.html");
std::wstring lnk_path = app_path.value() + L".lnk";
HRESULT result;
IShellLink *shell = NULL;
IPersistFile *persist = NULL;
CoInitialize(NULL);
// Temporarily create a shortcut for test
result = CoCreateInstance(CLSID_ShellLink, NULL,
CLSCTX_INPROC_SERVER, IID_IShellLink,
reinterpret_cast<LPVOID*>(&shell));
ASSERT_TRUE(SUCCEEDED(result));
result = shell->QueryInterface(IID_IPersistFile,
reinterpret_cast<LPVOID*>(&persist));
ASSERT_TRUE(SUCCEEDED(result));
result = shell->SetPath(app_path.value().c_str());
EXPECT_TRUE(SUCCEEDED(result));
result = shell->SetDescription(L"ResolveShortcutTest");
EXPECT_TRUE(SUCCEEDED(result));
result = persist->Save(lnk_path.c_str(), TRUE);
EXPECT_TRUE(SUCCEEDED(result));
if (persist)
persist->Release();
if (shell)
shell->Release();
TestDelegate d;
{
TestURLRequest r(FilePathToFileURL(FilePath(lnk_path)), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
WIN32_FILE_ATTRIBUTE_DATA data;
GetFileAttributesEx(app_path.value().c_str(),
GetFileExInfoStandard, &data);
HANDLE file = CreateFile(app_path.value().c_str(), GENERIC_READ,
FILE_SHARE_READ, NULL, OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL, NULL);
EXPECT_NE(INVALID_HANDLE_VALUE, file);
scoped_array<char> buffer(new char[data.nFileSizeLow]);
DWORD read_size;
BOOL result;
result = ReadFile(file, buffer.get(), data.nFileSizeLow,
&read_size, NULL);
std::string content(buffer.get(), read_size);
CloseHandle(file);
EXPECT_TRUE(!r.is_pending());
EXPECT_EQ(1, d.received_redirect_count());
EXPECT_EQ(content, d.data_received());
}
// Clean the shortcut
DeleteFile(lnk_path.c_str());
CoUninitialize();
}
#endif // defined(OS_WIN)
TEST_F(URLRequestTestHTTP, ContentTypeNormalizationTest) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
TestURLRequest req(test_server_.GetURL(
"files/content-type-normalization.html"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
std::string mime_type;
req.GetMimeType(&mime_type);
EXPECT_EQ("text/html", mime_type);
std::string charset;
req.GetCharset(&charset);
EXPECT_EQ("utf-8", charset);
req.Cancel();
}
TEST_F(URLRequestTest, FileDirCancelTest) {
// Put in mock resource provider.
NetModule::SetResourceProvider(TestNetResourceProvider);
TestDelegate d;
{
FilePath file_path;
PathService::Get(base::DIR_SOURCE_ROOT, &file_path);
file_path = file_path.Append(FILE_PATH_LITERAL("net"));
file_path = file_path.Append(FILE_PATH_LITERAL("data"));
TestURLRequest req(FilePathToFileURL(file_path), &d);
req.set_context(default_context_);
req.Start();
EXPECT_TRUE(req.is_pending());
d.set_cancel_in_received_data_pending(true);
MessageLoop::current()->Run();
}
// Take out mock resource provider.
NetModule::SetResourceProvider(NULL);
}
TEST_F(URLRequestTest, FileDirRedirectNoCrash) {
// There is an implicit redirect when loading a file path that matches a
// directory and does not end with a slash. Ensure that following such
// redirects does not crash. See http://crbug.com/18686.
FilePath path;
PathService::Get(base::DIR_SOURCE_ROOT, &path);
path = path.Append(FILE_PATH_LITERAL("net"));
path = path.Append(FILE_PATH_LITERAL("data"));
path = path.Append(FILE_PATH_LITERAL("url_request_unittest"));
TestDelegate d;
TestURLRequest req(FilePathToFileURL(path), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
ASSERT_EQ(1, d.received_redirect_count());
ASSERT_LT(0, d.bytes_received());
ASSERT_FALSE(d.request_failed());
ASSERT_TRUE(req.status().is_success());
}
#if defined(OS_WIN)
// Don't accept the url "file:///" on windows. See http://crbug.com/1474.
TEST_F(URLRequestTest, FileDirRedirectSingleSlash) {
TestDelegate d;
TestURLRequest req(GURL("file:///"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
ASSERT_EQ(1, d.received_redirect_count());
ASSERT_FALSE(req.status().is_success());
}
#endif
TEST_F(URLRequestTestHTTP, RestrictRedirects) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
TestURLRequest req(test_server_.GetURL(
"files/redirect-to-file.html"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::FAILED, req.status().status());
EXPECT_EQ(ERR_UNSAFE_REDIRECT, req.status().os_error());
}
TEST_F(URLRequestTestHTTP, RedirectToInvalidURL) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
TestURLRequest req(test_server_.GetURL(
"files/redirect-to-invalid-url.html"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(URLRequestStatus::FAILED, req.status().status());
EXPECT_EQ(ERR_INVALID_URL, req.status().os_error());
}
TEST_F(URLRequestTestHTTP, NoUserPassInReferrer) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
TestURLRequest req(test_server_.GetURL("echoheader?Referer"), &d);
req.set_context(default_context_);
req.set_referrer("http://user:pass@foo.com/");
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(std::string("http://foo.com/"), d.data_received());
}
TEST_F(URLRequestTestHTTP, CancelRedirect) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
d.set_cancel_in_received_redirect(true);
TestURLRequest req(test_server_.GetURL("files/redirect-test.html"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.bytes_received());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(URLRequestStatus::CANCELED, req.status().status());
}
}
TEST_F(URLRequestTestHTTP, DeferredRedirect) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
d.set_quit_on_redirect(true);
TestURLRequest req(test_server_.GetURL("files/redirect-test.html"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(1, d.received_redirect_count());
req.FollowDeferredRedirect();
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(URLRequestStatus::SUCCESS, req.status().status());
FilePath path;
PathService::Get(base::DIR_SOURCE_ROOT, &path);
path = path.Append(FILE_PATH_LITERAL("net"));
path = path.Append(FILE_PATH_LITERAL("data"));
path = path.Append(FILE_PATH_LITERAL("url_request_unittest"));
path = path.Append(FILE_PATH_LITERAL("with-headers.html"));
std::string contents;
EXPECT_TRUE(file_util::ReadFileToString(path, &contents));
EXPECT_EQ(contents, d.data_received());
}
}
TEST_F(URLRequestTestHTTP, CancelDeferredRedirect) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
d.set_quit_on_redirect(true);
TestURLRequest req(test_server_.GetURL("files/redirect-test.html"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(1, d.received_redirect_count());
req.Cancel();
MessageLoop::current()->Run();
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.bytes_received());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(URLRequestStatus::CANCELED, req.status().status());
}
}
TEST_F(URLRequestTestHTTP, VaryHeader) {
ASSERT_TRUE(test_server_.Start());
// populate the cache
{
TestDelegate d;
URLRequest req(test_server_.GetURL("echoheadercache?foo"), &d);
req.set_context(default_context_);
HttpRequestHeaders headers;
headers.SetHeader("foo", "1");
req.SetExtraRequestHeaders(headers);
req.Start();
MessageLoop::current()->Run();
}
// expect a cache hit
{
TestDelegate d;
URLRequest req(test_server_.GetURL("echoheadercache?foo"), &d);
req.set_context(default_context_);
HttpRequestHeaders headers;
headers.SetHeader("foo", "1");
req.SetExtraRequestHeaders(headers);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(req.was_cached());
}
// expect a cache miss
{
TestDelegate d;
URLRequest req(test_server_.GetURL("echoheadercache?foo"), &d);
req.set_context(default_context_);
HttpRequestHeaders headers;
headers.SetHeader("foo", "2");
req.SetExtraRequestHeaders(headers);
req.Start();
MessageLoop::current()->Run();
EXPECT_FALSE(req.was_cached());
}
}
TEST_F(URLRequestTestHTTP, BasicAuth) {
ASSERT_TRUE(test_server_.Start());
// populate the cache
{
TestDelegate d;
d.set_username(kUser);
d.set_password(kSecret);
URLRequest r(test_server_.GetURL("auth-basic"), &d);
r.set_context(default_context_);
r.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("user/secret") != std::string::npos);
}
// repeat request with end-to-end validation. since auth-basic results in a
// cachable page, we expect this test to result in a 304. in which case, the
// response should be fetched from the cache.
{
TestDelegate d;
d.set_username(kUser);
d.set_password(kSecret);
URLRequest r(test_server_.GetURL("auth-basic"), &d);
r.set_context(default_context_);
r.set_load_flags(LOAD_VALIDATE_CACHE);
r.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("user/secret") != std::string::npos);
// Should be the same cached document.
EXPECT_TRUE(r.was_cached());
}
}
// Check that Set-Cookie headers in 401 responses are respected.
// http://crbug.com/6450
TEST_F(URLRequestTestHTTP, BasicAuthWithCookies) {
ASSERT_TRUE(test_server_.Start());
GURL url_requiring_auth =
test_server_.GetURL("auth-basic?set-cookie-if-challenged");
// Request a page that will give a 401 containing a Set-Cookie header.
// Verify that when the transaction is restarted, it includes the new cookie.
{
TestNetworkDelegate network_delegate; // must outlive URLRequest
scoped_refptr<TestURLRequestContext> context(
new TestURLRequestContext(true));
context->set_network_delegate(&network_delegate);
context->Init();
TestDelegate d;
d.set_username(kUser);
d.set_password(kSecret);
URLRequest r(url_requiring_auth, &d);
r.set_context(context);
r.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("user/secret") != std::string::npos);
// Make sure we sent the cookie in the restarted transaction.
EXPECT_TRUE(d.data_received().find("Cookie: got_challenged=true")
!= std::string::npos);
}
// Same test as above, except this time the restart is initiated earlier
// (without user intervention since identity is embedded in the URL).
{
TestNetworkDelegate network_delegate; // must outlive URLRequest
scoped_refptr<TestURLRequestContext> context(
new TestURLRequestContext(true));
context->set_network_delegate(&network_delegate);
context->Init();
TestDelegate d;
GURL::Replacements replacements;
std::string username("user2");
std::string password("secret");
replacements.SetUsernameStr(username);
replacements.SetPasswordStr(password);
GURL url_with_identity = url_requiring_auth.ReplaceComponents(replacements);
URLRequest r(url_with_identity, &d);
r.set_context(context);
r.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("user2/secret") != std::string::npos);
// Make sure we sent the cookie in the restarted transaction.
EXPECT_TRUE(d.data_received().find("Cookie: got_challenged=true")
!= std::string::npos);
}
}
TEST_F(URLRequestTest, DelayedCookieCallback) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
scoped_refptr<URLRequestContext> context(new TestURLRequestContext());
scoped_refptr<DelayedCookieMonster> delayed_cm =
new DelayedCookieMonster();
scoped_refptr<CookieStore> cookie_store = delayed_cm;
context->set_cookie_store(delayed_cm);
// Set up a cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL("set-cookie?CookieToNotSend=1"), &d);
req.set_context(context);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
EXPECT_EQ(1, d.set_cookie_count());
}
// Verify that the cookie is set.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(context);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("CookieToNotSend=1")
!= std::string::npos);
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
}
TEST_F(URLRequestTest, DoNotSendCookies) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// Set up a cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL("set-cookie?CookieToNotSend=1"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Verify that the cookie is set.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("CookieToNotSend=1")
!= std::string::npos);
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Verify that the cookie isn't sent when LOAD_DO_NOT_SEND_COOKIES is set.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_load_flags(LOAD_DO_NOT_SEND_COOKIES);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("Cookie: CookieToNotSend=1")
== std::string::npos);
// LOAD_DO_NOT_SEND_COOKIES does not trigger OnGetCookies.
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
}
TEST_F(URLRequestTest, DoNotSaveCookies) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// Set up a cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL("set-cookie?CookieToNotUpdate=2"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
EXPECT_EQ(1, d.set_cookie_count());
}
// Try to set-up another cookie and update the previous cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL(
"set-cookie?CookieToNotSave=1&CookieToNotUpdate=1"), &d);
req.set_load_flags(LOAD_DO_NOT_SAVE_COOKIES);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
// LOAD_DO_NOT_SAVE_COOKIES does not trigger OnSetCookie.
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
EXPECT_EQ(0, d.set_cookie_count());
}
// Verify the cookies weren't saved or updated.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("CookieToNotSave=1")
== std::string::npos);
EXPECT_TRUE(d.data_received().find("CookieToNotUpdate=2")
!= std::string::npos);
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
EXPECT_EQ(0, d.set_cookie_count());
}
}
TEST_F(URLRequestTest, DoNotSendCookies_ViaPolicy) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// Set up a cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL("set-cookie?CookieToNotSend=1"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Verify that the cookie is set.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("CookieToNotSend=1")
!= std::string::npos);
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Verify that the cookie isn't sent.
{
TestDelegate d;
d.set_cookie_options(TestDelegate::NO_GET_COOKIES);
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("Cookie: CookieToNotSend=1")
== std::string::npos);
EXPECT_EQ(1, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
}
TEST_F(URLRequestTest, DoNotSaveCookies_ViaPolicy) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// Set up a cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL("set-cookie?CookieToNotUpdate=2"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Try to set-up another cookie and update the previous cookie.
{
TestDelegate d;
d.set_cookie_options(TestDelegate::NO_SET_COOKIE);
URLRequest req(test_server.GetURL(
"set-cookie?CookieToNotSave=1&CookieToNotUpdate=1"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(2, d.blocked_set_cookie_count());
}
// Verify the cookies weren't saved or updated.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("CookieToNotSave=1")
== std::string::npos);
EXPECT_TRUE(d.data_received().find("CookieToNotUpdate=2")
!= std::string::npos);
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
}
TEST_F(URLRequestTest, DoNotSaveEmptyCookies) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// Set up an empty cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL("set-cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
EXPECT_EQ(0, d.set_cookie_count());
}
}
TEST_F(URLRequestTest, DoNotSendCookies_ViaPolicy_Async) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// Set up a cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL("set-cookie?CookieToNotSend=1"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Verify that the cookie is set.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("CookieToNotSend=1")
!= std::string::npos);
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Verify that the cookie isn't sent.
{
TestDelegate d;
d.set_cookie_options(TestDelegate::NO_GET_COOKIES);
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("Cookie: CookieToNotSend=1")
== std::string::npos);
EXPECT_EQ(1, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
}
TEST_F(URLRequestTest, DoNotSaveCookies_ViaPolicy_Async) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// Set up a cookie.
{
TestDelegate d;
URLRequest req(test_server.GetURL("set-cookie?CookieToNotUpdate=2"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Try to set-up another cookie and update the previous cookie.
{
TestDelegate d;
d.set_cookie_options(TestDelegate::NO_SET_COOKIE);
URLRequest req(test_server.GetURL(
"set-cookie?CookieToNotSave=1&CookieToNotUpdate=1"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(2, d.blocked_set_cookie_count());
}
// Verify the cookies weren't saved or updated.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Cookie"), &d);
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_TRUE(d.data_received().find("CookieToNotSave=1")
== std::string::npos);
EXPECT_TRUE(d.data_received().find("CookieToNotUpdate=2")
!= std::string::npos);
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
}
TEST_F(URLRequestTest, CookiePolicy_ForceSession) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// Set up a cookie.
{
TestDelegate d;
d.set_cookie_options(TestDelegate::FORCE_SESSION);
URLRequest req(test_server.GetURL(
"set-cookie?A=1;expires=\"Fri, 05 Feb 2010 23:42:01 GMT\""), &d);
req.set_context(default_context_);
req.Start(); // Triggers an asynchronous cookie policy check.
MessageLoop::current()->Run();
EXPECT_EQ(0, d.blocked_get_cookies_count());
EXPECT_EQ(0, d.blocked_set_cookie_count());
}
// Now, check the cookie store.
CookieList cookies =
default_context_->cookie_store()->GetCookieMonster()->GetAllCookies();
EXPECT_EQ(1U, cookies.size());
EXPECT_FALSE(cookies[0].IsPersistent());
}
// In this test, we do a POST which the server will 302 redirect.
// The subsequent transaction should use GET, and should not send the
// Content-Type header.
// http://code.google.com/p/chromium/issues/detail?id=843
TEST_F(URLRequestTestHTTP, Post302RedirectGet) {
ASSERT_TRUE(test_server_.Start());
const char kData[] = "hello world";
TestDelegate d;
TestURLRequest req(test_server_.GetURL("files/redirect-to-echoall"), &d);
req.set_context(default_context_);
req.set_method("POST");
req.set_upload(CreateSimpleUploadData(kData));
// Set headers (some of which are specific to the POST).
HttpRequestHeaders headers;
headers.AddHeadersFromString(
"Content-Type: multipart/form-data; "
"boundary=----WebKitFormBoundaryAADeAA+NAAWMAAwZ\r\n"
"Accept: text/xml,application/xml,application/xhtml+xml,text/html;q=0.9,"
"text/plain;q=0.8,image/png,*/*;q=0.5\r\n"
"Accept-Language: en-US,en\r\n"
"Accept-Charset: ISO-8859-1,*,utf-8\r\n"
"Content-Length: 11\r\n"
"Origin: http://localhost:1337/");
req.SetExtraRequestHeaders(headers);
req.Start();
MessageLoop::current()->Run();
std::string mime_type;
req.GetMimeType(&mime_type);
EXPECT_EQ("text/html", mime_type);
const std::string& data = d.data_received();
// Check that the post-specific headers were stripped:
EXPECT_FALSE(ContainsString(data, "Content-Length:"));
EXPECT_FALSE(ContainsString(data, "Content-Type:"));
EXPECT_FALSE(ContainsString(data, "Origin:"));
// These extra request headers should not have been stripped.
EXPECT_TRUE(ContainsString(data, "Accept:"));
EXPECT_TRUE(ContainsString(data, "Accept-Language:"));
EXPECT_TRUE(ContainsString(data, "Accept-Charset:"));
}
TEST_F(URLRequestTestHTTP, Post307RedirectPost) {
ASSERT_TRUE(test_server_.Start());
const char kData[] = "hello world";
TestDelegate d;
TestURLRequest req(test_server_.GetURL("files/redirect307-to-echo"), &d);
req.set_context(default_context_);
req.set_method("POST");
req.set_upload(CreateSimpleUploadData(kData).get());
HttpRequestHeaders headers;
headers.SetHeader(HttpRequestHeaders::kContentLength,
base::UintToString(arraysize(kData) - 1));
req.SetExtraRequestHeaders(headers);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ("POST", req.method());
EXPECT_EQ(kData, d.data_received());
}
// Custom URLRequestJobs for use with interceptor tests
class RestartTestJob : public URLRequestTestJob {
public:
explicit RestartTestJob(URLRequest* request)
: URLRequestTestJob(request, true) {}
protected:
virtual void StartAsync() {
this->NotifyRestartRequired();
}
private:
~RestartTestJob() {}
};
class CancelTestJob : public URLRequestTestJob {
public:
explicit CancelTestJob(URLRequest* request)
: URLRequestTestJob(request, true) {}
protected:
virtual void StartAsync() {
request_->Cancel();
}
private:
~CancelTestJob() {}
};
class CancelThenRestartTestJob : public URLRequestTestJob {
public:
explicit CancelThenRestartTestJob(URLRequest* request)
: URLRequestTestJob(request, true) {
}
protected:
virtual void StartAsync() {
request_->Cancel();
this->NotifyRestartRequired();
}
private:
~CancelThenRestartTestJob() {}
};
// An Interceptor for use with interceptor tests
class TestInterceptor : URLRequest::Interceptor {
public:
TestInterceptor()
: intercept_main_request_(false), restart_main_request_(false),
cancel_main_request_(false), cancel_then_restart_main_request_(false),
simulate_main_network_error_(false),
intercept_redirect_(false), cancel_redirect_request_(false),
intercept_final_response_(false), cancel_final_request_(false),
did_intercept_main_(false), did_restart_main_(false),
did_cancel_main_(false), did_cancel_then_restart_main_(false),
did_simulate_error_main_(false),
did_intercept_redirect_(false), did_cancel_redirect_(false),
did_intercept_final_(false), did_cancel_final_(false) {
URLRequest::Deprecated::RegisterRequestInterceptor(this);
}
~TestInterceptor() {
URLRequest::Deprecated::UnregisterRequestInterceptor(this);
}
virtual URLRequestJob* MaybeIntercept(URLRequest* request) {
if (restart_main_request_) {
restart_main_request_ = false;
did_restart_main_ = true;
return new RestartTestJob(request);
}
if (cancel_main_request_) {
cancel_main_request_ = false;
did_cancel_main_ = true;
return new CancelTestJob(request);
}
if (cancel_then_restart_main_request_) {
cancel_then_restart_main_request_ = false;
did_cancel_then_restart_main_ = true;
return new CancelThenRestartTestJob(request);
}
if (simulate_main_network_error_) {
simulate_main_network_error_ = false;
did_simulate_error_main_ = true;
// will error since the requeted url is not one of its canned urls
return new URLRequestTestJob(request, true);
}
if (!intercept_main_request_)
return NULL;
intercept_main_request_ = false;
did_intercept_main_ = true;
return new URLRequestTestJob(request,
main_headers_,
main_data_,
true);
}
virtual URLRequestJob* MaybeInterceptRedirect(URLRequest* request,
const GURL& location) {
if (cancel_redirect_request_) {
cancel_redirect_request_ = false;
did_cancel_redirect_ = true;
return new CancelTestJob(request);
}
if (!intercept_redirect_)
return NULL;
intercept_redirect_ = false;
did_intercept_redirect_ = true;
return new URLRequestTestJob(request,
redirect_headers_,
redirect_data_,
true);
}
virtual URLRequestJob* MaybeInterceptResponse(URLRequest* request) {
if (cancel_final_request_) {
cancel_final_request_ = false;
did_cancel_final_ = true;
return new CancelTestJob(request);
}
if (!intercept_final_response_)
return NULL;
intercept_final_response_ = false;
did_intercept_final_ = true;
return new URLRequestTestJob(request,
final_headers_,
final_data_,
true);
}
// Whether to intercept the main request, and if so the response to return.
bool intercept_main_request_;
std::string main_headers_;
std::string main_data_;
// Other actions we take at MaybeIntercept time
bool restart_main_request_;
bool cancel_main_request_;
bool cancel_then_restart_main_request_;
bool simulate_main_network_error_;
// Whether to intercept redirects, and if so the response to return.
bool intercept_redirect_;
std::string redirect_headers_;
std::string redirect_data_;
// Other actions we can take at MaybeInterceptRedirect time
bool cancel_redirect_request_;
// Whether to intercept final response, and if so the response to return.
bool intercept_final_response_;
std::string final_headers_;
std::string final_data_;
// Other actions we can take at MaybeInterceptResponse time
bool cancel_final_request_;
// If we did something or not
bool did_intercept_main_;
bool did_restart_main_;
bool did_cancel_main_;
bool did_cancel_then_restart_main_;
bool did_simulate_error_main_;
bool did_intercept_redirect_;
bool did_cancel_redirect_;
bool did_intercept_final_;
bool did_cancel_final_;
// Static getters for canned response header and data strings
static std::string ok_data() {
return URLRequestTestJob::test_data_1();
}
static std::string ok_headers() {
return URLRequestTestJob::test_headers();
}
static std::string redirect_data() {
return std::string();
}
static std::string redirect_headers() {
return URLRequestTestJob::test_redirect_headers();
}
static std::string error_data() {
return std::string("ohhh nooooo mr. bill!");
}
static std::string error_headers() {
return URLRequestTestJob::test_error_headers();
}
};
TEST_F(URLRequestTest, Intercept) {
TestInterceptor interceptor;
// intercept the main request and respond with a simple response
interceptor.intercept_main_request_ = true;
interceptor.main_headers_ = TestInterceptor::ok_headers();
interceptor.main_data_ = TestInterceptor::ok_data();
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
URLRequest::UserData* user_data0 = new URLRequest::UserData();
URLRequest::UserData* user_data1 = new URLRequest::UserData();
URLRequest::UserData* user_data2 = new URLRequest::UserData();
req.SetUserData(NULL, user_data0);
req.SetUserData(&user_data1, user_data1);
req.SetUserData(&user_data2, user_data2);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Make sure we can retrieve our specific user data
EXPECT_EQ(user_data0, req.GetUserData(NULL));
EXPECT_EQ(user_data1, req.GetUserData(&user_data1));
EXPECT_EQ(user_data2, req.GetUserData(&user_data2));
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_intercept_main_);
// Check we got one good response
EXPECT_TRUE(req.status().is_success());
EXPECT_EQ(200, req.response_headers()->response_code());
EXPECT_EQ(TestInterceptor::ok_data(), d.data_received());
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.received_redirect_count());
}
TEST_F(URLRequestTest, InterceptRedirect) {
TestInterceptor interceptor;
// intercept the main request and respond with a redirect
interceptor.intercept_main_request_ = true;
interceptor.main_headers_ = TestInterceptor::redirect_headers();
interceptor.main_data_ = TestInterceptor::redirect_data();
// intercept that redirect and respond a final OK response
interceptor.intercept_redirect_ = true;
interceptor.redirect_headers_ = TestInterceptor::ok_headers();
interceptor.redirect_data_ = TestInterceptor::ok_data();
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_intercept_main_);
EXPECT_TRUE(interceptor.did_intercept_redirect_);
// Check we got one good response
EXPECT_TRUE(req.status().is_success());
if (req.status().is_success()) {
EXPECT_EQ(200, req.response_headers()->response_code());
}
EXPECT_EQ(TestInterceptor::ok_data(), d.data_received());
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.received_redirect_count());
}
TEST_F(URLRequestTest, InterceptServerError) {
TestInterceptor interceptor;
// intercept the main request to generate a server error response
interceptor.intercept_main_request_ = true;
interceptor.main_headers_ = TestInterceptor::error_headers();
interceptor.main_data_ = TestInterceptor::error_data();
// intercept that error and respond with an OK response
interceptor.intercept_final_response_ = true;
interceptor.final_headers_ = TestInterceptor::ok_headers();
interceptor.final_data_ = TestInterceptor::ok_data();
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_intercept_main_);
EXPECT_TRUE(interceptor.did_intercept_final_);
// Check we got one good response
EXPECT_TRUE(req.status().is_success());
EXPECT_EQ(200, req.response_headers()->response_code());
EXPECT_EQ(TestInterceptor::ok_data(), d.data_received());
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.received_redirect_count());
}
TEST_F(URLRequestTest, InterceptNetworkError) {
TestInterceptor interceptor;
// intercept the main request to simulate a network error
interceptor.simulate_main_network_error_ = true;
// intercept that error and respond with an OK response
interceptor.intercept_final_response_ = true;
interceptor.final_headers_ = TestInterceptor::ok_headers();
interceptor.final_data_ = TestInterceptor::ok_data();
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_simulate_error_main_);
EXPECT_TRUE(interceptor.did_intercept_final_);
// Check we received one good response
EXPECT_TRUE(req.status().is_success());
EXPECT_EQ(200, req.response_headers()->response_code());
EXPECT_EQ(TestInterceptor::ok_data(), d.data_received());
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.received_redirect_count());
}
TEST_F(URLRequestTest, InterceptRestartRequired) {
TestInterceptor interceptor;
// restart the main request
interceptor.restart_main_request_ = true;
// then intercept the new main request and respond with an OK response
interceptor.intercept_main_request_ = true;
interceptor.main_headers_ = TestInterceptor::ok_headers();
interceptor.main_data_ = TestInterceptor::ok_data();
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_restart_main_);
EXPECT_TRUE(interceptor.did_intercept_main_);
// Check we received one good response
EXPECT_TRUE(req.status().is_success());
if (req.status().is_success()) {
EXPECT_EQ(200, req.response_headers()->response_code());
}
EXPECT_EQ(TestInterceptor::ok_data(), d.data_received());
EXPECT_EQ(1, d.response_started_count());
EXPECT_EQ(0, d.received_redirect_count());
}
TEST_F(URLRequestTest, InterceptRespectsCancelMain) {
TestInterceptor interceptor;
// intercept the main request and cancel from within the restarted job
interceptor.cancel_main_request_ = true;
// setup to intercept final response and override it with an OK response
interceptor.intercept_final_response_ = true;
interceptor.final_headers_ = TestInterceptor::ok_headers();
interceptor.final_data_ = TestInterceptor::ok_data();
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_cancel_main_);
EXPECT_FALSE(interceptor.did_intercept_final_);
// Check we see a canceled request
EXPECT_FALSE(req.status().is_success());
EXPECT_EQ(URLRequestStatus::CANCELED, req.status().status());
}
TEST_F(URLRequestTest, InterceptRespectsCancelRedirect) {
TestInterceptor interceptor;
// intercept the main request and respond with a redirect
interceptor.intercept_main_request_ = true;
interceptor.main_headers_ = TestInterceptor::redirect_headers();
interceptor.main_data_ = TestInterceptor::redirect_data();
// intercept the redirect and cancel from within that job
interceptor.cancel_redirect_request_ = true;
// setup to intercept final response and override it with an OK response
interceptor.intercept_final_response_ = true;
interceptor.final_headers_ = TestInterceptor::ok_headers();
interceptor.final_data_ = TestInterceptor::ok_data();
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_intercept_main_);
EXPECT_TRUE(interceptor.did_cancel_redirect_);
EXPECT_FALSE(interceptor.did_intercept_final_);
// Check we see a canceled request
EXPECT_FALSE(req.status().is_success());
EXPECT_EQ(URLRequestStatus::CANCELED, req.status().status());
}
TEST_F(URLRequestTest, InterceptRespectsCancelFinal) {
TestInterceptor interceptor;
// intercept the main request to simulate a network error
interceptor.simulate_main_network_error_ = true;
// setup to intercept final response and cancel from within that job
interceptor.cancel_final_request_ = true;
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_simulate_error_main_);
EXPECT_TRUE(interceptor.did_cancel_final_);
// Check we see a canceled request
EXPECT_FALSE(req.status().is_success());
EXPECT_EQ(URLRequestStatus::CANCELED, req.status().status());
}
TEST_F(URLRequestTest, InterceptRespectsCancelInRestart) {
TestInterceptor interceptor;
// intercept the main request and cancel then restart from within that job
interceptor.cancel_then_restart_main_request_ = true;
// setup to intercept final response and override it with an OK response
interceptor.intercept_final_response_ = true;
interceptor.final_headers_ = TestInterceptor::ok_headers();
interceptor.final_data_ = TestInterceptor::ok_data();
TestDelegate d;
TestURLRequest req(GURL("http://test_intercept/foo"), &d);
req.set_context(default_context_);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check the interceptor got called as expected
EXPECT_TRUE(interceptor.did_cancel_then_restart_main_);
EXPECT_FALSE(interceptor.did_intercept_final_);
// Check we see a canceled request
EXPECT_FALSE(req.status().is_success());
EXPECT_EQ(URLRequestStatus::CANCELED, req.status().status());
}
// Check that two different URL requests have different identifiers.
TEST_F(URLRequestTest, Identifiers) {
TestDelegate d;
TestURLRequest req(GURL("http://example.com"), &d);
TestURLRequest other_req(GURL("http://example.com"), &d);
ASSERT_NE(req.identifier(), other_req.identifier());
}
// Check that a failure to connect to the proxy is reported to the network
// delegate.
TEST_F(URLRequestTest, NetworkDelegateProxyError) {
MockHostResolver host_resolver;
host_resolver.rules()->AddSimulatedFailure("*");
TestNetworkDelegate network_delegate; // must outlive URLRequests
scoped_refptr<TestURLRequestContext> context(new TestURLRequestContext(true));
context->set_network_delegate(&network_delegate);
context->SetProxyFromString("myproxy:70");
context->set_host_resolver(&host_resolver);
context->Init();
TestDelegate d;
TestURLRequest req(GURL("http://example.com"), &d);
req.set_context(context);
req.set_method("GET");
req.Start();
MessageLoop::current()->Run();
// Check we see a failed request.
EXPECT_FALSE(req.status().is_success());
EXPECT_EQ(URLRequestStatus::FAILED, req.status().status());
EXPECT_EQ(ERR_PROXY_CONNECTION_FAILED, req.status().os_error());
EXPECT_EQ(1, network_delegate.error_count());
EXPECT_EQ(ERR_PROXY_CONNECTION_FAILED, network_delegate.last_os_error());
EXPECT_EQ(1, network_delegate.completed_requests());
}
// Check that it is impossible to change the referrer in the extra headers of
// an URLRequest.
TEST_F(URLRequestTest, DoNotOverrideReferrer) {
TestServer test_server(TestServer::TYPE_HTTP, FilePath());
ASSERT_TRUE(test_server.Start());
// If extra headers contain referer and the request contains a referer,
// only the latter shall be respected.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Referer"), &d);
req.set_referrer("http://foo.com/");
req.set_context(default_context_);
HttpRequestHeaders headers;
headers.SetHeader(HttpRequestHeaders::kReferer, "http://bar.com/");
req.SetExtraRequestHeaders(headers);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ("http://foo.com/", d.data_received());
}
// If extra headers contain a referer but the request does not, no referer
// shall be sent in the header.
{
TestDelegate d;
TestURLRequest req(test_server.GetURL("echoheader?Referer"), &d);
req.set_context(default_context_);
HttpRequestHeaders headers;
headers.SetHeader(HttpRequestHeaders::kReferer, "http://bar.com/");
req.SetExtraRequestHeaders(headers);
req.set_load_flags(LOAD_VALIDATE_CACHE);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ("None", d.data_received());
}
}
// Make sure that net::NetworkDelegate::NotifyCompleted is called if
// content is empty.
TEST_F(URLRequestTest, RequestCompletionForEmptyResponse) {
TestDelegate d;
TestURLRequest req(GURL("data:,"), &d);
req.set_context(new TestURLRequestContext());
req.set_context(default_context_);
req.Start();
MessageLoop::current()->Run();
EXPECT_EQ("", d.data_received());
EXPECT_EQ(1, default_network_delegate_.completed_requests());
}
class URLRequestTestFTP : public URLRequestTest {
public:
URLRequestTestFTP() : test_server_(TestServer::TYPE_FTP, FilePath()) {
}
protected:
TestServer test_server_;
};
// Flaky, see http://crbug.com/25045.
TEST_F(URLRequestTestFTP, FLAKY_FTPDirectoryListing) {
ASSERT_TRUE(test_server_.Start());
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL("/"), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
EXPECT_FALSE(r.is_pending());
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_LT(0, d.bytes_received());
EXPECT_EQ(test_server_.host_port_pair().host(),
r.GetSocketAddress().host());
EXPECT_EQ(test_server_.host_port_pair().port(),
r.GetSocketAddress().port());
}
}
// Flaky, see http://crbug.com/25045.
TEST_F(URLRequestTestFTP, FLAKY_FTPGetTestAnonymous) {
ASSERT_TRUE(test_server_.Start());
FilePath app_path;
PathService::Get(base::DIR_SOURCE_ROOT, &app_path);
app_path = app_path.AppendASCII("LICENSE");
TestDelegate d;
{
TestURLRequest r(test_server_.GetURL("/LICENSE"), &d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
int64 file_size = 0;
file_util::GetFileSize(app_path, &file_size);
EXPECT_FALSE(r.is_pending());
EXPECT_EQ(1, d.response_started_count());
EXPECT_FALSE(d.received_data_before_response());
EXPECT_EQ(d.bytes_received(), static_cast<int>(file_size));
EXPECT_EQ(test_server_.host_port_pair().host(),
r.GetSocketAddress().host());
EXPECT_EQ(test_server_.host_port_pair().port(),
r.GetSocketAddress().port());
}
}
// Flaky, see http://crbug.com/25045.
TEST_F(URLRequestTestFTP, FLAKY_FTPGetTest) {
ASSERT_TRUE(test_server_.Start());
FilePath app_path;
PathService::Get(base::DIR_SOURCE_ROOT, &app_path);
app_path = app_path.AppendASCII("LICENSE");
TestDelegate d;
{
TestURLRequest r(
test_server_.GetURLWithUserAndPassword("/LICENSE", "chrome", "chrome"),
&d);
r.set_context(default_context_);
r.Start();
EXPECT_TRUE(r.is_pending());
MessageLoop::current()->Run();
int64 file_size = 0;
file_util::GetFileSize(app_path, &file_size);
EXPECT_FALSE(r.