mirror-chatterino2/tests/src/NetworkRequest.cpp

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#include "common/NetworkRequest.hpp"
#include "common/NetworkManager.hpp"
#include "common/NetworkResult.hpp"
#include "common/Outcome.hpp"
#include "common/QLogging.hpp"
#include "providers/twitch/api/Helix.hpp"
#include <gtest/gtest.h>
using namespace chatterino;
namespace {
// Change to http://httpbin.org if you don't want to run the docker image yourself to test this
const char *const HTTPBIN_BASE_URL = "http://127.0.0.1:9051";
QString getStatusURL(int code)
{
return QString("%1/status/%2").arg(HTTPBIN_BASE_URL).arg(code);
}
QString getDelayURL(int delay)
{
return QString("%1/delay/%2").arg(HTTPBIN_BASE_URL).arg(delay);
}
} // namespace
TEST(NetworkRequest, Success)
{
const std::vector<int> codes{200, 201, 202, 203, 204, 205, 206};
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
for (const auto code : codes)
{
auto url = getStatusURL(code);
std::mutex mut;
bool requestDone = false;
std::condition_variable requestDoneCondition;
NetworkRequest(url)
.onSuccess([code, &mut, &requestDone, &requestDoneCondition,
url](NetworkResult result) -> Outcome {
EXPECT_EQ(result.status(), code);
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
return Success;
})
.onError([&](NetworkResult result) {
// The codes should *not* throw an error
EXPECT_TRUE(false);
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
})
.execute();
// Wait for the request to finish
std::unique_lock lck(mut);
requestDoneCondition.wait(lck, [&requestDone] {
return requestDone;
});
}
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
}
TEST(NetworkRequest, FinallyCallbackOnSuccess)
{
const std::vector<int> codes{200, 201, 202, 203, 204, 205, 206};
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
for (const auto code : codes)
{
auto url = getStatusURL(code);
std::mutex mut;
bool requestDone = false;
std::condition_variable requestDoneCondition;
bool finallyCalled = false;
NetworkRequest(url)
.finally(
[&mut, &requestDone, &requestDoneCondition, &finallyCalled] {
finallyCalled = true;
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
})
.execute();
// Wait for the request to finish
std::unique_lock lck(mut);
requestDoneCondition.wait(lck, [&requestDone] {
return requestDone;
});
EXPECT_TRUE(finallyCalled);
}
}
TEST(NetworkRequest, Error)
{
const std::vector<int> codes{
400, 401, 402, 403, 404, 405, 406, 407, 408, 409, 410,
411, 412, 413, 414, 418, 500, 501, 502, 503, 504,
};
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
for (const auto code : codes)
{
auto url = getStatusURL(code);
std::mutex mut;
bool requestDone = false;
std::condition_variable requestDoneCondition;
NetworkRequest(url)
.onSuccess([code, &mut, &requestDone, &requestDoneCondition,
url](NetworkResult result) -> Outcome {
// The codes should throw an error
EXPECT_TRUE(false);
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
return Success;
})
.onError([code, &mut, &requestDone, &requestDoneCondition,
url](NetworkResult result) {
EXPECT_EQ(result.status(), code);
if (code == 402)
{
EXPECT_EQ(result.getData(),
QString("Fuck you, pay me!").toUtf8());
}
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
})
.execute();
// Wait for the request to finish
std::unique_lock lck(mut);
requestDoneCondition.wait(lck, [&requestDone] {
return requestDone;
});
}
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
}
TEST(NetworkRequest, FinallyCallbackOnError)
{
const std::vector<int> codes{
400, 401, 402, 403, 404, 405, 406, 407, 408, 409, 410,
411, 412, 413, 414, 418, 500, 501, 502, 503, 504,
};
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
for (const auto code : codes)
{
auto url = getStatusURL(code);
std::mutex mut;
bool requestDone = false;
std::condition_variable requestDoneCondition;
bool finallyCalled = false;
NetworkRequest(url)
.finally(
[&mut, &requestDone, &requestDoneCondition, &finallyCalled] {
finallyCalled = true;
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
})
.execute();
// Wait for the request to finish
std::unique_lock lck(mut);
requestDoneCondition.wait(lck, [&requestDone] {
return requestDone;
});
EXPECT_TRUE(finallyCalled);
}
}
TEST(NetworkRequest, TimeoutTimingOut)
{
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
auto url = getDelayURL(5);
std::mutex mut;
bool requestDone = false;
std::condition_variable requestDoneCondition;
NetworkRequest(url)
.timeout(1000)
.onSuccess([&mut, &requestDone, &requestDoneCondition,
url](NetworkResult result) -> Outcome {
// The timeout should throw an error
EXPECT_TRUE(false);
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
return Success;
})
.onError([&mut, &requestDone, &requestDoneCondition,
url](NetworkResult result) {
qDebug() << QTime::currentTime().toString()
<< "timeout request finish error";
EXPECT_EQ(result.status(), NetworkResult::timedoutStatus);
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
})
.execute();
// Wait for the request to finish
std::unique_lock lck(mut);
requestDoneCondition.wait(lck, [&requestDone] {
return requestDone;
});
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
}
TEST(NetworkRequest, TimeoutNotTimingOut)
{
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
auto url = getDelayURL(1);
std::mutex mut;
bool requestDone = false;
std::condition_variable requestDoneCondition;
NetworkRequest(url)
.timeout(2000)
.onSuccess([&mut, &requestDone, &requestDoneCondition,
url](NetworkResult result) -> Outcome {
EXPECT_EQ(result.status(), 200);
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
return Success;
})
.onError([&mut, &requestDone, &requestDoneCondition,
url](NetworkResult result) {
// The timeout should *not* throw an error
EXPECT_TRUE(false);
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
})
.execute();
// Wait for the request to finish
std::unique_lock lck(mut);
requestDoneCondition.wait(lck, [&requestDone] {
return requestDone;
});
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
}
TEST(NetworkRequest, FinallyCallbackOnTimeout)
{
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
auto url = getDelayURL(5);
std::mutex mut;
bool requestDone = false;
std::condition_variable requestDoneCondition;
bool finallyCalled = false;
bool onSuccessCalled = false;
bool onErrorCalled = false;
NetworkRequest(url)
.timeout(1000)
.onSuccess([&](NetworkResult result) -> Outcome {
onSuccessCalled = true;
return Success;
})
.onError([&](NetworkResult result) {
onErrorCalled = true;
EXPECT_EQ(result.status(), NetworkResult::timedoutStatus);
})
.finally([&] {
finallyCalled = true;
{
std::unique_lock lck(mut);
requestDone = true;
}
requestDoneCondition.notify_one();
})
.execute();
// Wait for the request to finish
std::unique_lock lck(mut);
requestDoneCondition.wait(lck, [&requestDone] {
return requestDone;
});
EXPECT_TRUE(finallyCalled);
EXPECT_TRUE(onErrorCalled);
EXPECT_FALSE(onSuccessCalled);
EXPECT_TRUE(NetworkManager::workerThread.isRunning());
}