libreoffice-online/test/HttpRequestTests.cpp
Ashod Nakashian 52f2600cf9 wsd: test: embue all tests with a name and unify logs
Now the remaining tests that didn't have a name
get one and the logs are unified between old-
and new-style tests. Mostly.

This makes sure that all logs and assertions
properly log the test name and make test
failures easier to debug and fix.

Change-Id: Id159ffacc81642a6ec594c5143498408adab67cf
Signed-off-by: Ashod Nakashian <ashod.nakashian@collabora.co.uk>
2022-02-17 18:52:48 -05:00

673 lines
24 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*/
#include <config.h>
#include "ConfigUtil.hpp"
#include <HttpTestServer.hpp>
#include <Poco/URI.h>
#include <Poco/Net/AcceptCertificateHandler.h>
#include <Poco/Net/InvalidCertificateHandler.h>
#include <Poco/Net/SSLManager.h>
#include <Poco/Net/HTTPClientSession.h>
#include <Poco/Net/HTTPResponse.h>
#include <Poco/StreamCopier.h>
#include <chrono>
#include <condition_variable>
#include <mutex>
#include <string>
#include <test/lokassert.hpp>
#if ENABLE_SSL
#include "Ssl.hpp"
#include <net/SslSocket.hpp>
#endif
#include <net/ServerSocket.hpp>
#include <net/DelaySocket.hpp>
#include <net/HttpRequest.hpp>
#include <FileUtil.hpp>
#include <Util.hpp>
#include <helpers.hpp>
/// When enabled, in addition to the loopback
/// server, an external server will be used
/// to check for regressions.
// #define ENABLE_EXTERNAL_REGRESSION_CHECK
/// http::Request unit-tests.
class HttpRequestTests final : public CPPUNIT_NS::TestFixture
{
CPPUNIT_TEST_SUITE(HttpRequestTests);
CPPUNIT_TEST(testInvalidURI);
CPPUNIT_TEST(testBadResponse);
CPPUNIT_TEST(testGoodResponse);
CPPUNIT_TEST(testSimpleGet);
CPPUNIT_TEST(testSimpleGetSync);
CPPUNIT_TEST(testChunkedGetSync);
CPPUNIT_TEST(test500GetStatuses); // Slow.
#ifdef ENABLE_EXTERNAL_REGRESSION_CHECK
CPPUNIT_TEST(testChunkedGetSync_External);
CPPUNIT_TEST(testSimplePost_External);
#endif
CPPUNIT_TEST(testTimeout);
CPPUNIT_TEST(testOnFinished_Complete);
CPPUNIT_TEST(testOnFinished_Timeout);
CPPUNIT_TEST_SUITE_END();
void testInvalidURI();
void testBadResponse();
void testGoodResponse();
void testSimpleGet();
void testSimpleGetSync();
void testChunkedGetSync();
void test500GetStatuses();
void testChunkedGetSync_External();
void testSimplePost_External();
void testTimeout();
void testOnFinished_Complete();
void testOnFinished_Timeout();
static constexpr std::chrono::seconds DefTimeoutSeconds{ 5 };
std::string _localUri;
SocketPoll _pollServerThread;
std::shared_ptr<ServerSocket> _socket;
static const int SimulatedLatencyMs = 0;
public:
HttpRequestTests()
: _pollServerThread("HttpServerPoll")
{
#if ENABLE_SSL
Poco::Net::initializeSSL();
// Just accept the certificate anyway for testing purposes
Poco::SharedPtr<Poco::Net::InvalidCertificateHandler> invalidCertHandler
= new Poco::Net::AcceptCertificateHandler(false);
Poco::Net::Context::Params sslParams;
Poco::Net::Context::Ptr sslContext
= new Poco::Net::Context(Poco::Net::Context::CLIENT_USE, sslParams);
Poco::Net::SSLManager::instance().initializeClient(nullptr, invalidCertHandler, sslContext);
#endif
}
~HttpRequestTests()
{
#if ENABLE_SSL
Poco::Net::uninitializeSSL();
#endif
}
class ServerSocketFactory final : public SocketFactory
{
std::shared_ptr<Socket> create(const int physicalFd) override
{
int fd = physicalFd;
#if !MOBILEAPP
if (HttpRequestTests::SimulatedLatencyMs > 0)
fd = Delay::create(HttpRequestTests::SimulatedLatencyMs, physicalFd);
#endif
#if ENABLE_SSL
if (helpers::haveSsl())
return StreamSocket::create<SslStreamSocket>(
std::string(), fd, false, std::make_shared<ServerRequestHandler>());
else
return StreamSocket::create<StreamSocket>(std::string(), fd, false,
std::make_shared<ServerRequestHandler>());
#else
return StreamSocket::create<StreamSocket>(std::string(), fd, false,
std::make_shared<ServerRequestHandler>());
#endif
}
};
void setUp()
{
LOG_INF("HttpRequestTests::setUp");
std::shared_ptr<SocketFactory> factory = std::make_shared<ServerSocketFactory>();
int port = 9990;
for (int i = 0; i < 40; ++i, ++port)
{
// Try listening on this port.
LOG_INF("HttpRequestTests::setUp: creating socket to listen on port " << port);
_socket = ServerSocket::create(ServerSocket::Type::Local, port, Socket::Type::IPv4,
_pollServerThread, factory);
if (_socket)
break;
}
if (helpers::haveSsl())
_localUri = "https://127.0.0.1:" + std::to_string(port);
else
_localUri = "http://127.0.0.1:" + std::to_string(port);
_pollServerThread.startThread();
_pollServerThread.insertNewSocket(_socket);
}
void tearDown()
{
LOG_INF("HttpRequestTests::tearDown");
_pollServerThread.stop();
_socket.reset();
}
};
constexpr std::chrono::seconds HttpRequestTests::DefTimeoutSeconds;
void HttpRequestTests::testInvalidURI()
{
constexpr auto testname = __func__;
try
{
// Cannot create from a blank URI.
http::Session::createHttp(std::string());
LOK_ASSERT_FAIL("Exception expected from http::Session::createHttp for invalid URI");
}
catch (const std::exception& ex)
{
// Pass.
}
}
void HttpRequestTests::testBadResponse()
{
constexpr auto testname = __func__;
const std::string URL = "/inject/" + Util::bytesToHexString("\0\0xa", 2);
http::Request httpRequest(URL);
auto httpSession = http::Session::create(_localUri);
if (httpSession)
{
httpSession->setTimeout(std::chrono::seconds(1));
const std::shared_ptr<const http::Response> httpResponse =
httpSession->syncRequest(httpRequest);
LOK_ASSERT(httpResponse->done());
LOK_ASSERT(httpResponse->state() == http::Response::State::Timeout);
}
}
void HttpRequestTests::testGoodResponse()
{
constexpr auto testname = __func__;
// Inject the following response:
// HTTP/1.1 200 OK
// Date: Wed, 02 Jun 2021 02:30:52 GMT
// Content-Type: text/html; charset=utf-8
// Content-Length: 0
const std::string URL =
"/inject/"
"485454502F312E3120323030204F4B0D0A446174653A205765642C203032204A756E20323032312030323A3330"
"3A353220474D540D0A436F6E74656E742D547970653A20746578742F68746D6C3B20636861727365743D757466"
"2D380D0A436F6E74656E742D4C656E6774683A20300D0A0D0A";
http::Request httpRequest(URL);
auto httpSession = http::Session::create(_localUri);
if (httpSession)
{
httpSession->setTimeout(std::chrono::seconds(1));
const std::shared_ptr<const http::Response> httpResponse =
httpSession->syncRequest(httpRequest);
LOK_ASSERT(httpResponse->done());
LOK_ASSERT(httpResponse->state() == http::Response::State::Complete);
LOK_ASSERT(!httpResponse->statusLine().httpVersion().empty());
LOK_ASSERT(!httpResponse->statusLine().reasonPhrase().empty());
LOK_ASSERT_EQUAL(200U, httpResponse->statusLine().statusCode());
LOK_ASSERT(httpResponse->statusLine().statusCategory() ==
http::StatusLine::StatusCodeClass::Successful);
LOK_ASSERT_EQUAL(std::string("HTTP/1.1"), httpResponse->statusLine().httpVersion());
LOK_ASSERT_EQUAL(std::string("OK"), httpResponse->statusLine().reasonPhrase());
LOK_ASSERT_EQUAL(std::string("text/html; charset=utf-8"),
httpResponse->header().getContentType());
LOK_ASSERT_EQUAL(std::string("Wed, 02 Jun 2021 02:30:52 GMT"),
httpResponse->header().get("Date"));
LOK_ASSERT_EQUAL(std::string(), httpResponse->getBody());
}
}
void HttpRequestTests::testSimpleGet()
{
constexpr auto testname = __func__;
constexpr auto URL = "/";
// Start the polling thread.
SocketPoll pollThread("HttpAsyncReqPoll");
pollThread.startThread();
http::Request httpRequest(URL);
//TODO: test with both SSL and Unencrypted.
static constexpr http::Session::Protocol Protocols[]
= { http::Session::Protocol::HttpUnencrypted, http::Session::Protocol::HttpSsl };
for (const http::Session::Protocol protocol : Protocols)
{
#if ENABLE_SSL
if (protocol != http::Session::Protocol::HttpSsl)
#else
if (protocol != http::Session::Protocol::HttpUnencrypted)
#endif
{
continue; // Skip, unsupported.
}
auto httpSession = http::Session::create(_localUri);
std::condition_variable cv;
std::mutex mutex;
bool timedout = true;
httpSession->setFinishedHandler([&](const std::shared_ptr<http::Session>&) {
std::lock_guard<std::mutex> lock(mutex);
timedout = false;
cv.notify_all();
});
std::unique_lock<std::mutex> lock(mutex);
LOK_ASSERT(httpSession->asyncRequest(httpRequest, pollThread));
// Use Poco to get the same URL in parallel.
const auto pocoResponse = helpers::pocoGetRetry(Poco::URI(_localUri + URL));
cv.wait_for(lock, DefTimeoutSeconds);
const std::shared_ptr<const http::Response> httpResponse = httpSession->response();
LOK_ASSERT_EQUAL_MESSAGE("Timed out waiting for the onFinished handler", false, timedout);
LOK_ASSERT(httpResponse->state() == http::Response::State::Complete);
LOK_ASSERT(!httpResponse->statusLine().httpVersion().empty());
LOK_ASSERT(!httpResponse->statusLine().reasonPhrase().empty());
LOK_ASSERT_EQUAL(200U, httpResponse->statusLine().statusCode());
LOK_ASSERT(httpResponse->statusLine().statusCategory()
== http::StatusLine::StatusCodeClass::Successful);
LOK_ASSERT_EQUAL(pocoResponse.second, httpResponse->getBody());
}
pollThread.joinThread();
}
void HttpRequestTests::testSimpleGetSync()
{
constexpr auto testname = "simpleGetSync";
const auto data = Util::rng::getHardRandomHexString(Util::rng::getNext() % 1024);
const auto body = std::string(data.data(), data.size());
const std::string URL = "/echo/" + body;
TST_LOG("Requesting URI: [" << URL << ']');
const auto pocoResponse = helpers::pocoGet(Poco::URI(_localUri + URL));
http::Request httpRequest(URL);
auto httpSession = http::Session::create(_localUri);
httpSession->setTimeout(std::chrono::seconds(1));
for (int i = 0; i < 5; ++i)
{
TST_LOG("Request #" << i);
const std::shared_ptr<const http::Response> httpResponse
= httpSession->syncRequest(httpRequest);
LOK_ASSERT(httpResponse->done());
LOK_ASSERT(httpResponse->state() == http::Response::State::Complete);
LOK_ASSERT(!httpResponse->statusLine().httpVersion().empty());
LOK_ASSERT(!httpResponse->statusLine().reasonPhrase().empty());
LOK_ASSERT_EQUAL(200U, httpResponse->statusLine().statusCode());
LOK_ASSERT(httpResponse->statusLine().statusCategory()
== http::StatusLine::StatusCodeClass::Successful);
LOK_ASSERT_EQUAL(std::string("HTTP/1.1"), httpResponse->statusLine().httpVersion());
LOK_ASSERT_EQUAL(std::string("OK"), httpResponse->statusLine().reasonPhrase());
LOK_ASSERT_EQUAL(pocoResponse.second, httpResponse->getBody());
LOK_ASSERT_EQUAL(body, httpResponse->getBody());
}
}
void HttpRequestTests::testChunkedGetSync()
{
constexpr auto testname = "chunkedGetSync";
const auto data = Util::rng::getHardRandomHexString(Util::rng::getNext() % 1024);
const auto body = std::string(data.data(), data.size());
const std::string URL = "/echo/chunked/" + body;
TST_LOG("Requesting URI: [" << URL << ']');
const auto pocoResponse = helpers::pocoGet(Poco::URI(_localUri + URL));
http::Request httpRequest(URL);
auto httpSession = http::Session::create(_localUri);
httpSession->setTimeout(std::chrono::seconds(5));
for (int i = 0; i < 5; ++i)
{
TST_LOG("Request #" << i);
const std::shared_ptr<const http::Response> httpResponse
= httpSession->syncRequest(httpRequest);
LOK_ASSERT(httpResponse->done());
LOK_ASSERT(httpResponse->state() == http::Response::State::Complete);
LOK_ASSERT(!httpResponse->statusLine().httpVersion().empty());
LOK_ASSERT(!httpResponse->statusLine().reasonPhrase().empty());
LOK_ASSERT_EQUAL(200U, httpResponse->statusLine().statusCode());
LOK_ASSERT(httpResponse->statusLine().statusCategory()
== http::StatusLine::StatusCodeClass::Successful);
LOK_ASSERT_EQUAL(std::string("HTTP/1.1"), httpResponse->statusLine().httpVersion());
LOK_ASSERT_EQUAL(std::string("OK"), httpResponse->statusLine().reasonPhrase());
LOK_ASSERT_EQUAL(pocoResponse.second, httpResponse->getBody());
LOK_ASSERT_EQUAL(body, httpResponse->getBody());
}
}
void HttpRequestTests::testChunkedGetSync_External()
{
constexpr auto testname = "chunkedGetSync_External";
const std::string hostname = "http://anglesharp.azurewebsites.net";
const std::string URL = "/Chunked";
TST_LOG("Requesting URI: [" << hostname << URL << ']');
const auto pocoResponse = helpers::pocoGet(Poco::URI(hostname + URL));
http::Request httpRequest(URL);
auto httpSession = http::Session::create(hostname);
httpSession->setTimeout(std::chrono::seconds(5));
for (int i = 0; i < 5; ++i)
{
TST_LOG("Request #" << i);
const std::shared_ptr<const http::Response> httpResponse
= httpSession->syncRequest(httpRequest);
LOK_ASSERT(httpResponse->done());
LOK_ASSERT(httpResponse->state() == http::Response::State::Complete);
LOK_ASSERT(!httpResponse->statusLine().httpVersion().empty());
LOK_ASSERT(!httpResponse->statusLine().reasonPhrase().empty());
LOK_ASSERT_EQUAL(200U, httpResponse->statusLine().statusCode());
LOK_ASSERT(httpResponse->statusLine().statusCategory()
== http::StatusLine::StatusCodeClass::Successful);
LOK_ASSERT_EQUAL(std::string("HTTP/1.1"), httpResponse->statusLine().httpVersion());
LOK_ASSERT_EQUAL(std::string("OK"), httpResponse->statusLine().reasonPhrase());
LOK_ASSERT_EQUAL(pocoResponse.second, httpResponse->getBody());
}
}
/// Compare the response from Poco with ours.
/// @checkReasonPhrase controls whether we compare the Reason Phrase too or not.
/// This is useful for when a status code is recognized by one and not the other.
/// @checkBody controls whether we compare the body content or not.
/// This is useful when we don't care about the content of the body, just that
/// there is some content at all or not.
static void compare(const Poco::Net::HTTPResponse& pocoResponse, const std::string& pocoBody,
const http::Response& httpResponse, bool checkReasonPhrase, bool checkBody,
const std::string& testname)
{
LOK_ASSERT_EQUAL_MESSAGE("Response state", httpResponse.state(),
http::Response::State::Complete);
LOK_ASSERT(!httpResponse.statusLine().httpVersion().empty());
LOK_ASSERT(!httpResponse.statusLine().reasonPhrase().empty());
if (checkBody)
LOK_ASSERT_EQUAL_MESSAGE("Body", pocoBody, httpResponse.getBody());
else
LOK_ASSERT_EQUAL_MESSAGE("Body empty?", pocoBody.empty(), httpResponse.getBody().empty());
LOK_ASSERT_EQUAL_MESSAGE("Status Code", static_cast<unsigned>(pocoResponse.getStatus()),
httpResponse.statusLine().statusCode());
if (checkReasonPhrase)
LOK_ASSERT_EQUAL_MESSAGE("Reason Phrase", Util::toLower(pocoResponse.getReason()),
Util::toLower(httpResponse.statusLine().reasonPhrase()));
else
LOK_ASSERT_EQUAL_MESSAGE("Reason Phrase empty?", pocoResponse.getReason().empty(),
httpResponse.statusLine().reasonPhrase().empty());
LOK_ASSERT_EQUAL_MESSAGE("hasContentLength", pocoResponse.hasContentLength(),
httpResponse.header().hasContentLength());
if (checkBody && pocoResponse.hasContentLength())
LOK_ASSERT_EQUAL_MESSAGE("ContentLength", pocoResponse.getContentLength(),
httpResponse.header().getContentLength());
}
/// This test requests specific *reponse* codes from
/// the server to test the handling of all possible
/// response status codes.
/// It exercises a few hundred requests/responses.
void HttpRequestTests::test500GetStatuses()
{
constexpr auto testname = "test500GetStatuses ";
// Start the polling thread.
SocketPoll pollThread("HttpAsyncReqPoll");
pollThread.startThread();
auto httpSession = http::Session::create(_localUri);
httpSession->setTimeout(DefTimeoutSeconds);
std::condition_variable cv;
std::mutex mutex;
bool timedout = true;
httpSession->setFinishedHandler([&](const std::shared_ptr<http::Session>&) {
std::lock_guard<std::mutex> lock(mutex);
timedout = false;
cv.notify_all();
});
http::StatusLine::StatusCodeClass statusCodeClasses[]
= { http::StatusLine::StatusCodeClass::Informational,
http::StatusLine::StatusCodeClass::Successful,
http::StatusLine::StatusCodeClass::Redirection,
http::StatusLine::StatusCodeClass::Client_Error,
http::StatusLine::StatusCodeClass::Server_Error };
int curStatusCodeClass = -1;
for (unsigned statusCode = 100; statusCode < 512; ++statusCode)
{
const std::string url = "/status/" + std::to_string(statusCode);
http::Request httpRequest;
httpRequest.setUrl(url);
TST_LOG("Requesting Status Code [" << statusCode << "]: " << url);
std::unique_lock<std::mutex> lock(mutex);
timedout = true; // Assume we timed out until we prove otherwise.
LOK_ASSERT(httpSession->asyncRequest(httpRequest, pollThread));
// Get via Poco in parallel.
std::pair<std::shared_ptr<Poco::Net::HTTPResponse>, std::string> pocoResponse;
if (statusCode > 100)
pocoResponse = helpers::pocoGetRetry(Poco::URI(_localUri + url));
#ifdef ENABLE_EXTERNAL_REGRESSION_CHECK
std::pair<std::shared_ptr<Poco::Net::HTTPResponse>, std::string> pocoResponseExt;
if (statusCode > 100)
pocoResponseExt = helpers::pocoGet(false, "httpbin.org", 80, url);
#endif
const std::shared_ptr<const http::Response> httpResponse = httpSession->response();
cv.wait_for(lock, DefTimeoutSeconds, [&]() { return httpResponse->done(); });
LOK_ASSERT_EQUAL(http::Response::State::Complete, httpResponse->state());
LOK_ASSERT(!httpResponse->statusLine().httpVersion().empty());
LOK_ASSERT(!httpResponse->statusLine().reasonPhrase().empty());
if (statusCode % 100 == 0)
++curStatusCodeClass;
LOK_ASSERT(httpResponse->statusLine().statusCategory()
== statusCodeClasses[curStatusCodeClass]);
LOK_ASSERT_EQUAL(statusCode, httpResponse->statusLine().statusCode());
// Poco throws exception "No message received" for 1xx Status Codes.
if (statusCode > 100)
{
compare(*pocoResponse.first, pocoResponse.second, *httpResponse, true, true, testname);
#ifdef ENABLE_EXTERNAL_REGRESSION_CHECK
// These Status Codes are not recognized by httpbin.org,
// so we get "unknown" and must skip comparing them.
const bool checkReasonPhrase
= (statusCode != 103 && statusCode != 208 && statusCode != 413 && statusCode != 414
&& statusCode != 416 && statusCode != 421 && statusCode != 425
&& statusCode != 440 && statusCode != 508 && statusCode != 511);
const bool checkBody = (statusCode != 402 && statusCode != 418);
compare(*pocoResponseExt.first, pocoResponseExt.second, *httpResponse,
checkReasonPhrase, checkBody, testname);
#endif
}
}
pollThread.joinThread();
}
void HttpRequestTests::testSimplePost_External()
{
constexpr auto testname = __func__;
const std::string Host = "httpbin.org";
const char* URL = "/post";
// Start the polling thread.
SocketPoll pollThread("HttpAsyncReqPoll");
pollThread.startThread();
http::Request httpRequest(URL, http::Request::VERB_POST);
// Write the test data to file.
const char data[] = "abcd-qwerty!!!";
const std::string path = FileUtil::getSysTempDirectoryPath() + "/test_http_post";
std::ofstream ofs(path, std::ios::binary);
ofs.write(data, sizeof(data) - 1); // Don't write the terminating null.
ofs.close();
httpRequest.setBodyFile(path);
auto httpSession = http::Session::createHttpSsl(Host);
httpSession->setTimeout(DefTimeoutSeconds);
std::condition_variable cv;
std::mutex mutex;
bool timedout = true;
httpSession->setFinishedHandler([&](const std::shared_ptr<http::Session>&) {
std::lock_guard<std::mutex> lock(mutex);
timedout = false;
cv.notify_all();
});
std::unique_lock<std::mutex> lock(mutex);
LOK_ASSERT(httpSession->asyncRequest(httpRequest, pollThread));
cv.wait_for(lock, DefTimeoutSeconds);
const std::shared_ptr<const http::Response> httpResponse = httpSession->response();
LOK_ASSERT(httpResponse->state() == http::Response::State::Complete);
LOK_ASSERT(!httpResponse->statusLine().httpVersion().empty());
LOK_ASSERT(!httpResponse->statusLine().reasonPhrase().empty());
LOK_ASSERT_EQUAL(200U, httpResponse->statusLine().statusCode());
LOK_ASSERT(httpResponse->statusLine().statusCategory()
== http::StatusLine::StatusCodeClass::Successful);
const std::string body = httpResponse->getBody();
LOK_ASSERT(!body.empty());
std::cerr << "[" << body << "]\n";
LOK_ASSERT(body.find(data) != std::string::npos);
pollThread.joinThread();
}
void HttpRequestTests::testTimeout()
{
constexpr auto testname = __func__;
const char* URL = "/timeout";
http::Request httpRequest(URL);
auto httpSession = http::Session::create(_localUri);
httpSession->setTimeout(std::chrono::milliseconds(1)); // Very short interval.
const std::shared_ptr<const http::Response> httpResponse
= httpSession->syncRequest(httpRequest);
LOK_ASSERT(httpResponse->done());
LOK_ASSERT(httpResponse->state() == http::Response::State::Timeout);
}
void HttpRequestTests::testOnFinished_Complete()
{
constexpr auto testname = __func__;
const char* URL = "/";
http::Request httpRequest(URL);
auto httpSession = http::Session::create(_localUri);
bool completed = false;
httpSession->setFinishedHandler([&](const std::shared_ptr<http::Session>& session) {
LOK_ASSERT(session->response()->done());
LOK_ASSERT(session->response()->state() == http::Response::State::Complete);
completed = true;
return true;
});
const std::shared_ptr<const http::Response> httpResponse
= httpSession->syncRequest(httpRequest);
LOK_ASSERT(completed);
LOK_ASSERT(httpResponse->done());
LOK_ASSERT(httpResponse->state() == http::Response::State::Complete);
}
void HttpRequestTests::testOnFinished_Timeout()
{
constexpr auto testname = __func__;
const char* URL = "/timeout";
http::Request httpRequest(URL);
auto httpSession = http::Session::create(_localUri);
httpSession->setTimeout(std::chrono::milliseconds(1)); // Very short interval.
bool completed = false;
httpSession->setFinishedHandler([&](const std::shared_ptr<http::Session>& session) {
LOK_ASSERT(session->response()->done());
LOK_ASSERT(session->response()->state() == http::Response::State::Timeout);
completed = true;
return true;
});
const std::shared_ptr<const http::Response> httpResponse
= httpSession->syncRequest(httpRequest);
LOK_ASSERT(completed);
LOK_ASSERT(httpResponse->done());
LOK_ASSERT(httpResponse->state() == http::Response::State::Timeout);
}
CPPUNIT_TEST_SUITE_REGISTRATION(HttpRequestTests);
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */