cef/tests/ceftests/test_server_unittest.cc

975 lines
33 KiB
C++

// Copyright (c) 2022 The Chromium Embedded Framework 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 <list>
#include <map>
#include <memory>
#include <set>
#include "include/base/cef_callback.h"
#include "include/base/cef_ref_counted.h"
#include "include/cef_command_line.h"
#include "include/cef_task.h"
#include "include/cef_urlrequest.h"
#include "include/test/cef_test_server.h"
#include "include/wrapper/cef_closure_task.h"
#include "tests/ceftests/routing_test_handler.h"
#include "tests/ceftests/test_util.h"
#include "tests/gtest/include/gtest/gtest.h"
namespace {
const char kPlaceholderOrigin[] = "http://placeholder/";
const int kTestTimeout = 5000;
// Handles the test server. Used for both HTTP and HTTPS tests.
class TestServerHandler : public CefTestServerHandler {
public:
// HTTP test handler.
// The methods of this class are always executed on the server thread.
class HttpRequestHandler {
public:
virtual ~HttpRequestHandler() = default;
virtual bool HandleRequest(
CefRefPtr<CefTestServer> server,
CefRefPtr<CefRequest> request,
CefRefPtr<CefTestServerConnection> connection) = 0;
virtual bool VerifyResults() = 0;
virtual std::string ToString() = 0;
};
using StartCallback =
base::OnceCallback<void(const std::string& server_origin)>;
// |start_callback| will be executed on the UI thread after the server is
// started.
// |destroy_callback| will be executed on the UI thread after this handler
// object is destroyed.
TestServerHandler(StartCallback start_callback,
base::OnceClosure destroy_callback)
: start_callback_(std::move(start_callback)),
destroy_callback_(std::move(destroy_callback)) {
EXPECT_FALSE(destroy_callback_.is_null());
}
~TestServerHandler() override {
EXPECT_UI_THREAD();
std::move(destroy_callback_).Run();
}
// Must be called before CreateServer().
void AddHttpRequestHandler(
std::unique_ptr<HttpRequestHandler> request_handler) {
EXPECT_FALSE(initialized_);
EXPECT_TRUE(request_handler);
http_request_handler_list_.push_back(std::move(request_handler));
}
// Must be called before CreateServer().
void SetExpectedHttpRequestCount(int expected) {
EXPECT_FALSE(initialized_);
expected_http_request_ct_ = expected;
}
void CreateServer(bool https_server) {
EXPECT_FALSE(initialized_);
initialized_ = true;
https_server_ = https_server;
// Blocks until the server is created.
server_ = CefTestServer::CreateAndStart(/*port=*/0, https_server,
CEF_TEST_CERT_OK_DOMAIN, this);
origin_ = server_->GetOrigin();
EXPECT_TRUE(VerifyOrigin(origin_));
RunStartCallback();
}
// Results in a call to VerifyResults() and eventual execution of the
// |destroy_callback|.
void ShutdownServer() {
EXPECT_TRUE(server_);
server_->Stop();
server_ = nullptr;
VerifyResults();
}
bool OnTestServerRequest(
CefRefPtr<CefTestServer> server,
CefRefPtr<CefRequest> request,
CefRefPtr<CefTestServerConnection> connection) override {
EXPECT_TRUE(server);
EXPECT_STREQ(origin_.c_str(), server->GetOrigin().ToString().c_str());
EXPECT_TRUE(request);
EXPECT_TRUE(VerifyRequest(request));
EXPECT_TRUE(connection);
bool handled = false;
for (const auto& handler : http_request_handler_list_) {
handled = handler->HandleRequest(server, request, connection);
if (handled) {
break;
}
}
EXPECT_TRUE(handled) << "missing HttpRequestHandler for "
<< request->GetURL().ToString();
actual_http_request_ct_++;
return handled;
}
private:
bool VerifyOrigin(const std::string& origin) const {
V_DECLARE();
V_EXPECT_TRUE(origin.find(https_server_ ? "https://" : "http://") == 0)
<< "origin " << origin_;
V_RETURN();
}
bool VerifyRequest(CefRefPtr<CefRequest> request) const {
V_DECLARE();
V_EXPECT_FALSE(request->GetMethod().empty());
const std::string& url = request->GetURL();
V_EXPECT_FALSE(url.empty());
V_EXPECT_TRUE(VerifyOrigin(url)) << "url " << url;
CefRefPtr<CefPostData> post_data = request->GetPostData();
if (post_data) {
CefPostData::ElementVector elements;
post_data->GetElements(elements);
V_EXPECT_TRUE(elements.size() == 1);
V_EXPECT_TRUE(elements[0]->GetBytesCount() > 0U);
}
V_RETURN();
}
void VerifyResults() const {
EXPECT_EQ(expected_http_request_ct_, actual_http_request_ct_);
for (const auto& handler : http_request_handler_list_) {
EXPECT_TRUE(handler->VerifyResults())
<< "HttpRequestHandler for " << handler->ToString();
}
}
private:
void RunStartCallback() {
if (!CefCurrentlyOn(TID_UI)) {
CefPostTask(TID_UI,
base::BindOnce(&TestServerHandler::RunStartCallback, this));
return;
}
EXPECT_FALSE(start_callback_.is_null());
std::move(start_callback_).Run(server_->GetOrigin());
}
CefRefPtr<CefTestServer> server_;
bool initialized_ = false;
// After initialization only accessed on the UI thread.
StartCallback start_callback_;
base::OnceClosure destroy_callback_;
bool https_server_ = false;
std::string origin_;
// After initialization the below members are only accessed on the server
// thread.
std::list<std::unique_ptr<HttpRequestHandler>> http_request_handler_list_;
int expected_http_request_ct_ = 0;
int actual_http_request_ct_ = 0;
IMPLEMENT_REFCOUNTING(TestServerHandler);
DISALLOW_COPY_AND_ASSIGN(TestServerHandler);
};
// HTTP TESTS
// Test runner for 1 or more HTTP requests/responses.
// Works similarly to TestHandler but without the CefClient dependencies.
class HttpTestRunner : public base::RefCountedThreadSafe<HttpTestRunner> {
public:
// The methods of this class are always executed on the UI thread.
class RequestRunner {
public:
virtual ~RequestRunner() = default;
// Create the server-side handler for the request.
virtual std::unique_ptr<TestServerHandler::HttpRequestHandler>
CreateHttpRequestHandler() = 0;
// Run the request and execute |complete_callback| on completion.
virtual void RunRequest(const std::string& server_origin,
base::OnceClosure complete_callback) = 0;
virtual bool VerifyResults() = 0;
virtual std::string ToString() = 0;
};
// If |parallel_requests| is true all requests will be run at the same time,
// otherwise one request will be run at a time.
HttpTestRunner(bool https_server, bool parallel_requests)
: https_server_(https_server), parallel_requests_(parallel_requests) {}
virtual ~HttpTestRunner() {
if (destroy_event_) {
destroy_event_->Signal();
}
}
void AddRequestRunner(std::unique_ptr<RequestRunner> request_runner) {
EXPECT_FALSE(initialized_);
request_runner_map_.insert(
std::make_pair(++next_request_id_, request_runner.release()));
}
// Blocks until the test has completed or timed out.
void ExecuteTest() {
EXPECT_FALSE(CefCurrentlyOn(TID_UI));
handler_ = new TestServerHandler(
base::BindOnce(&HttpTestRunner::OnServerStarted, this),
base::BindOnce(&HttpTestRunner::OnServerDestroyed, this));
run_event_ = CefWaitableEvent::CreateWaitableEvent(false, false);
CefPostTask(TID_UI, base::BindOnce(&HttpTestRunner::RunTest, this));
// Block until test completion.
run_event_->Wait();
}
// Event that will be signaled from the HttpTestRunner destructor.
// Used by ReleaseAndWaitForDestructor.
void SetDestroyEvent(CefRefPtr<CefWaitableEvent> event) {
destroy_event_ = event;
}
private:
void RunTest() {
EXPECT_UI_THREAD();
EXPECT_FALSE(initialized_);
initialized_ = true;
EXPECT_FALSE(request_runner_map_.empty());
RequestRunnerMap::const_iterator it = request_runner_map_.begin();
for (; it != request_runner_map_.end(); ++it) {
handler_->AddHttpRequestHandler(it->second->CreateHttpRequestHandler());
}
handler_->SetExpectedHttpRequestCount(
static_cast<int>(request_runner_map_.size()));
handler_->CreateServer(https_server_);
SetTestTimeout(kTestTimeout);
}
void OnServerStarted(const std::string& server_origin) {
EXPECT_UI_THREAD();
server_origin_ = server_origin;
if (parallel_requests_) {
RunAllRequests();
} else {
RunNextRequest();
}
}
void OnServerDestroyed() {
EXPECT_UI_THREAD();
EXPECT_FALSE(got_server_destroyed_);
got_server_destroyed_.yes();
// Allow the call stack to unwind.
CefPostTask(TID_UI, base::BindOnce(&HttpTestRunner::DestroyTest, this));
}
// Run all requests in parallel.
void RunAllRequests() {
RequestRunnerMap::const_iterator it = request_runner_map_.begin();
for (; it != request_runner_map_.end(); ++it) {
it->second->RunRequest(
server_origin_,
base::BindOnce(&HttpTestRunner::OnRequestComplete, this, it->first));
}
}
// Run one request at a time.
void RunNextRequest() {
RequestRunnerMap::const_iterator it = request_runner_map_.begin();
it->second->RunRequest(
server_origin_,
base::BindOnce(&HttpTestRunner::OnRequestComplete, this, it->first));
}
void OnRequestComplete(int request_id) {
EXPECT_UI_THREAD()
// Allow the call stack to unwind.
CefPostTask(TID_UI,
base::BindOnce(&HttpTestRunner::OnRequestCompleteContinue, this,
request_id));
}
void OnRequestCompleteContinue(int request_id) {
RequestRunnerMap::iterator it = request_runner_map_.find(request_id);
EXPECT_TRUE(it != request_runner_map_.end());
// Verify the request results.
EXPECT_TRUE(it->second->VerifyResults())
<< "request_id " << request_id << " RequestRunner for "
<< it->second->ToString();
delete it->second;
request_runner_map_.erase(it);
if (request_runner_map_.empty()) {
got_all_requests_.yes();
// Will trigger TestServerHandler::HttpRequestHandler verification and a
// call to OnServerDestroyed().
handler_->ShutdownServer();
handler_ = nullptr;
} else if (!parallel_requests_) {
RunNextRequest();
}
}
void DestroyTest() {
EXPECT_UI_THREAD();
EXPECT_TRUE(got_all_requests_);
EXPECT_TRUE(got_server_destroyed_);
EXPECT_TRUE(request_runner_map_.empty());
// Cancel the timeout, if any.
if (ui_thread_helper_) {
ui_thread_helper_.reset();
}
// Signal test completion.
run_event_->Signal();
}
TestHandler::UIThreadHelper* GetUIThreadHelper() {
EXPECT_UI_THREAD();
if (!ui_thread_helper_) {
ui_thread_helper_ = std::make_unique<TestHandler::UIThreadHelper>();
}
return ui_thread_helper_.get();
}
void SetTestTimeout(int timeout_ms) {
EXPECT_UI_THREAD();
const auto timeout = GetConfiguredTestTimeout(timeout_ms);
if (!timeout) {
return;
}
// Use a weak reference to |this| via UIThreadHelper so that the
// test runner can be destroyed before the timeout expires.
GetUIThreadHelper()->PostDelayedTask(
base::BindOnce(&HttpTestRunner::OnTestTimeout, base::Unretained(this),
*timeout),
*timeout);
}
void OnTestTimeout(int timeout_ms) {
EXPECT_UI_THREAD();
EXPECT_TRUE(false) << "Test timed out after " << timeout_ms << "ms";
DestroyTest();
}
const bool https_server_;
const bool parallel_requests_;
CefRefPtr<CefWaitableEvent> run_event_;
CefRefPtr<CefWaitableEvent> destroy_event_;
CefRefPtr<TestServerHandler> handler_;
bool initialized_ = false;
// After initialization the below members are only accessed on the UI thread.
std::string server_origin_;
int next_request_id_ = 0;
// Map of request ID to RequestRunner.
typedef std::map<int, RequestRunner*> RequestRunnerMap;
RequestRunnerMap request_runner_map_;
TrackCallback got_all_requests_;
TrackCallback got_server_destroyed_;
std::unique_ptr<TestHandler::UIThreadHelper> ui_thread_helper_;
DISALLOW_COPY_AND_ASSIGN(HttpTestRunner);
};
// Structure representing the data that can be sent via
// CefServer::SendHttp*Response().
struct HttpServerResponse {
enum Type { TYPE_200, TYPE_404, TYPE_500, TYPE_CUSTOM };
explicit HttpServerResponse(Type response_type) : type(response_type) {}
Type type;
// Used with 200 and CUSTOM response type.
std::string content;
std::string content_type;
// Used with 500 response type.
std::string error_message;
// Used with CUSTOM response type.
int response_code;
CefRequest::HeaderMap extra_headers;
};
void SendHttpServerResponse(CefRefPtr<CefTestServerConnection> connection,
const HttpServerResponse& response) {
switch (response.type) {
case HttpServerResponse::TYPE_200:
EXPECT_TRUE(!response.content_type.empty());
connection->SendHttp200Response(response.content_type,
response.content.data(),
response.content.size());
break;
case HttpServerResponse::TYPE_404:
connection->SendHttp404Response();
break;
case HttpServerResponse::TYPE_500:
connection->SendHttp500Response(response.error_message);
break;
case HttpServerResponse::TYPE_CUSTOM:
EXPECT_TRUE(!response.content_type.empty());
connection->SendHttpResponse(
response.response_code, response.content_type,
response.content.data(), response.content.size(),
response.extra_headers);
break;
}
}
std::string GetHeaderValue(const CefRequest::HeaderMap& header_map,
const std::string& header_name) {
CefRequest::HeaderMap::const_iterator it = header_map.find(header_name);
if (it != header_map.end()) {
return it->second;
}
return std::string();
}
void VerifyHttpServerResponse(const HttpServerResponse& expected_response,
CefRefPtr<CefResponse> response,
const std::string& data) {
CefRequest::HeaderMap header_map;
response->GetHeaderMap(header_map);
switch (expected_response.type) {
case HttpServerResponse::TYPE_200:
EXPECT_EQ(200, response->GetStatus());
EXPECT_STREQ(expected_response.content_type.c_str(),
GetHeaderValue(header_map, "Content-Type").c_str());
EXPECT_STREQ(expected_response.content.c_str(), data.c_str());
break;
case HttpServerResponse::TYPE_404:
EXPECT_EQ(404, response->GetStatus());
break;
case HttpServerResponse::TYPE_500:
EXPECT_EQ(500, response->GetStatus());
break;
case HttpServerResponse::TYPE_CUSTOM:
EXPECT_EQ(expected_response.response_code, response->GetStatus());
EXPECT_STREQ(expected_response.content_type.c_str(),
GetHeaderValue(header_map, "Content-Type").c_str());
EXPECT_EQ(static_cast<int>(expected_response.content.size()),
atoi(GetHeaderValue(header_map, "Content-Length").c_str()));
EXPECT_STREQ(expected_response.content.c_str(), data.c_str());
TestMapEqual(expected_response.extra_headers, header_map, true);
break;
}
}
CefRefPtr<CefRequest> CreateTestServerRequest(
const std::string& path,
const std::string& method,
const std::string& data = std::string(),
const std::string& content_type = std::string(),
const CefRequest::HeaderMap& extra_headers = CefRequest::HeaderMap()) {
CefRefPtr<CefRequest> request = CefRequest::Create();
request->SetURL(kPlaceholderOrigin + path);
request->SetMethod(method);
CefRequest::HeaderMap header_map;
if (!data.empty()) {
CefRefPtr<CefPostData> post_data = CefPostData::Create();
CefRefPtr<CefPostDataElement> post_element = CefPostDataElement::Create();
post_element->SetToBytes(data.size(), data.data());
post_data->AddElement(post_element);
request->SetPostData(post_data);
EXPECT_FALSE(content_type.empty());
header_map.insert(std::make_pair("content-type", content_type));
}
if (!extra_headers.empty()) {
header_map.insert(extra_headers.begin(), extra_headers.end());
}
request->SetHeaderMap(header_map);
return request;
}
// RequestHandler that returns a static response for 1 or more requests.
class StaticHttpServerRequestHandler
: public TestServerHandler::HttpRequestHandler {
public:
StaticHttpServerRequestHandler(CefRefPtr<CefRequest> expected_request,
int expected_request_ct,
const HttpServerResponse& response)
: expected_request_(expected_request),
expected_request_ct_(expected_request_ct),
response_(response) {}
bool HandleRequest(CefRefPtr<CefTestServer> server,
CefRefPtr<CefRequest> request,
CefRefPtr<CefTestServerConnection> connection) override {
if (request->GetURL() == expected_request_->GetURL() &&
request->GetMethod() == expected_request_->GetMethod()) {
TestRequestEqual(expected_request_, request, true);
actual_request_ct_++;
SendHttpServerResponse(connection, response_);
return true;
}
return false;
}
bool VerifyResults() override {
EXPECT_EQ(expected_request_ct_, actual_request_ct_);
return expected_request_ct_ == actual_request_ct_;
}
std::string ToString() override { return expected_request_->GetURL(); }
private:
CefRefPtr<CefRequest> expected_request_;
int expected_request_ct_;
int actual_request_ct_ = 0;
HttpServerResponse response_;
DISALLOW_COPY_AND_ASSIGN(StaticHttpServerRequestHandler);
};
// URLRequestClient that runs a single request and executes a callback with the
// response.
class StaticHttpURLRequestClient : public CefURLRequestClient {
public:
using ResponseCallback =
base::OnceCallback<void(cef_errorcode_t /* error */,
CefRefPtr<CefResponse> /* response */,
const std::string& /* data */)>;
// |response_callback| will be executed on the UI thread when the response
// is complete.
StaticHttpURLRequestClient(CefRefPtr<CefRequest> request,
ResponseCallback response_callback)
: request_(request), response_callback_(std::move(response_callback)) {
EXPECT_TRUE(request_);
EXPECT_FALSE(response_callback_.is_null());
}
void RunRequest() {
EXPECT_UI_THREAD();
CefURLRequest::Create(request_, this, nullptr);
}
void OnRequestComplete(CefRefPtr<CefURLRequest> request) override {
EXPECT_FALSE(response_callback_.is_null());
std::move(response_callback_)
.Run(request->GetRequestError(), request->GetResponse(), data_);
}
void OnUploadProgress(CefRefPtr<CefURLRequest> request,
int64_t current,
int64_t total) override {}
void OnDownloadProgress(CefRefPtr<CefURLRequest> request,
int64_t current,
int64_t total) override {}
void OnDownloadData(CefRefPtr<CefURLRequest> request,
const void* data,
size_t data_length) override {
data_.append(static_cast<const char*>(data), data_length);
}
bool GetAuthCredentials(bool isProxy,
const CefString& host,
int port,
const CefString& realm,
const CefString& scheme,
CefRefPtr<CefAuthCallback> callback) override {
return false;
}
private:
CefRefPtr<CefRequest> request_;
ResponseCallback response_callback_;
std::string data_;
IMPLEMENT_REFCOUNTING(StaticHttpURLRequestClient);
DISALLOW_COPY_AND_ASSIGN(StaticHttpURLRequestClient);
};
// RequestRunner that will manage a single static HTTP request/response.
class StaticHttpRequestRunner : public HttpTestRunner::RequestRunner {
public:
StaticHttpRequestRunner(CefRefPtr<CefRequest> request,
const HttpServerResponse& response)
: request_(request), response_(response) {}
static std::unique_ptr<HttpTestRunner::RequestRunner> Create200(
const std::string& path,
bool with_content = true) {
CefRefPtr<CefRequest> request = CreateTestServerRequest(path, "GET");
HttpServerResponse response(HttpServerResponse::TYPE_200);
response.content_type = "text/html";
if (with_content) {
response.content = "<html>200 response content</html>";
}
return std::make_unique<StaticHttpRequestRunner>(request, response);
}
static std::unique_ptr<HttpTestRunner::RequestRunner> Create404(
const std::string& path) {
CefRefPtr<CefRequest> request = CreateTestServerRequest(path, "GET");
HttpServerResponse response(HttpServerResponse::TYPE_404);
return std::make_unique<StaticHttpRequestRunner>(request, response);
}
static std::unique_ptr<HttpTestRunner::RequestRunner> Create500(
const std::string& path) {
CefRefPtr<CefRequest> request = CreateTestServerRequest(path, "GET");
// Don't retry the request.
request->SetFlags(UR_FLAG_NO_RETRY_ON_5XX);
HttpServerResponse response(HttpServerResponse::TYPE_500);
response.error_message = "Something went wrong!";
return std::make_unique<StaticHttpRequestRunner>(request, response);
}
static std::unique_ptr<HttpTestRunner::RequestRunner> CreateCustom(
const std::string& path,
bool with_content = true) {
CefRequest::HeaderMap request_headers;
request_headers.insert(std::make_pair("x-request-custom1", "My Value A"));
request_headers.insert(std::make_pair("x-request-custom2", "My Value B"));
CefRefPtr<CefRequest> request = CreateTestServerRequest(
path, "POST", "foo=bar&choo=too", "application/x-www-form-urlencoded",
request_headers);
request->SetReferrer("http://tests/referer.html", REFERRER_POLICY_DEFAULT);
HttpServerResponse response(HttpServerResponse::TYPE_CUSTOM);
response.response_code = 202;
if (with_content) {
response.content = "BlahBlahBlah";
}
response.content_type = "application/x-blah-blah";
response.extra_headers.insert(
std::make_pair("x-response-custom1", "My Value 1"));
response.extra_headers.insert(
std::make_pair("x-response-custom2", "My Value 2"));
return std::make_unique<StaticHttpRequestRunner>(request, response);
}
std::unique_ptr<TestServerHandler::HttpRequestHandler>
CreateHttpRequestHandler() override {
EXPECT_FALSE(got_create_handler_);
got_create_handler_.yes();
return std::make_unique<StaticHttpServerRequestHandler>(request_, 1,
response_);
}
void RunRequest(const std::string& server_origin,
base::OnceClosure complete_callback) override {
EXPECT_UI_THREAD();
EXPECT_FALSE(got_run_request_);
got_run_request_.yes();
complete_callback_ = std::move(complete_callback);
// Replace the placeholder with the actual server origin.
const std::string& url = request_->GetURL();
EXPECT_TRUE(url.find(kPlaceholderOrigin) == 0);
const std::string& real_url =
server_origin + "/" + url.substr(sizeof(kPlaceholderOrigin) - 1);
request_->SetURL(real_url);
request_client_ = new StaticHttpURLRequestClient(
request_, base::BindOnce(&StaticHttpRequestRunner::OnResponseComplete,
base::Unretained(this)));
request_client_->RunRequest();
}
bool VerifyResults() override {
V_DECLARE();
V_EXPECT_TRUE(got_create_handler_);
V_EXPECT_TRUE(got_run_request_);
V_EXPECT_TRUE(got_response_complete_);
V_RETURN();
}
std::string ToString() override { return request_->GetURL(); }
private:
void OnResponseComplete(cef_errorcode_t error,
CefRefPtr<CefResponse> response,
const std::string& data) {
EXPECT_UI_THREAD();
EXPECT_FALSE(got_response_complete_);
got_response_complete_.yes();
EXPECT_EQ(error, ERR_NONE)
<< "OnResponseComplete for " << request_->GetURL().ToString();
if (error == ERR_NONE) {
VerifyHttpServerResponse(response_, response, data);
}
std::move(complete_callback_).Run();
}
CefRefPtr<CefRequest> request_;
HttpServerResponse response_;
CefRefPtr<StaticHttpURLRequestClient> request_client_;
base::OnceClosure complete_callback_;
TrackCallback got_run_request_;
TrackCallback got_create_handler_;
TrackCallback got_response_complete_;
DISALLOW_COPY_AND_ASSIGN(StaticHttpRequestRunner);
};
} // namespace
// Verify handling of a single HTTP 200 request.
TEST(TestServerTest, HttpSingle200) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTPS 200 request.
TEST(TestServerTest, HttpsSingle200) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTP 200 request with no content.
TEST(TestServerTest, HttpSingle200NoContent) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/false);
runner->AddRequestRunner(
StaticHttpRequestRunner::Create200("200.html", false));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTPS 200 request with no content.
TEST(TestServerTest, HttpsSingle200NoContent) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/false);
runner->AddRequestRunner(
StaticHttpRequestRunner::Create200("200.html", false));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTP 404 request.
TEST(TestServerTest, HttpSingle404) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create404("404.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTPS 404 request.
TEST(TestServerTest, HttpsSingle404) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create404("404.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTP 500 request.
TEST(TestServerTest, HttpSingle500) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create500("500.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTPS 500 request.
TEST(TestServerTest, HttpsSingle500) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create500("500.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTP custom request.
TEST(TestServerTest, HttpSingleCustom) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::CreateCustom("202.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTP custom request.
TEST(TestServerTest, HttpsSingleCustom) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::CreateCustom("202.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTP custom request with no content.
TEST(TestServerTest, HttpSingleCustomNoContent) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::CreateCustom(
"202.html", /*with_content=*/false));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of a single HTTPS custom request with no content.
TEST(TestServerTest, HttpsSingleCustomNoContent) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::CreateCustom(
"202.html", /*with_content=*/false));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of multiple HTTP requests in parallel.
TEST(TestServerTest, HttpMultipleParallel200) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/true);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200a.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200b.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200c.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of multiple HTTPS requests in parallel.
TEST(TestServerTest, HttpsMultipleParallel200) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/true);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200a.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200b.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200c.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of multiple HTTP requests in serial.
TEST(TestServerTest, HttpMultipleSerial200) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200a.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200b.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200c.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of multiple HTTPS requests in serial.
TEST(TestServerTest, HttpsMultipleSerial200) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200a.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200b.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200c.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of multiple HTTP requests in parallel.
TEST(TestServerTest, HttpMultipleParallelMixed) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/true);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create404("404.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create500("500.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::CreateCustom("202.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of multiple HTTPS requests in parallel.
TEST(TestServerTest, HttpsMultipleParallelMixed) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/true);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create404("404.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create500("500.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::CreateCustom("202.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of multiple HTTP requests in serial.
TEST(TestServerTest, HttpMultipleSerialMixed) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/false, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create404("404.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create500("500.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::CreateCustom("202.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}
// Verify handling of multiple HTTPS requests in serial.
TEST(TestServerTest, HttpsMultipleSerialMixed) {
CefRefPtr<HttpTestRunner> runner =
new HttpTestRunner(/*https_server=*/true, /*parallel_requests=*/false);
runner->AddRequestRunner(StaticHttpRequestRunner::Create200("200.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create404("404.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::Create500("500.html"));
runner->AddRequestRunner(StaticHttpRequestRunner::CreateCustom("202.html"));
runner->ExecuteTest();
ReleaseAndWaitForDestructor(runner);
}