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integrated libwf_timer and libwf_jsonrpc into libwebfuse-core

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This commit is contained in:
Falk Werner
2020-03-29 17:40:33 +02:00
parent 1d4db34ecb
commit bbdd5a24f5
73 changed files with 426 additions and 929 deletions
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31
test/webfuse/tests/core/jsonrpc/mock_timer.cc Normal file
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#include "webfuse/tests/core/jsonrpc/mock_timer.hpp"
#include "webfuse/utils/wrap.hpp"
extern "C"
{
static wf_jsonrpc_test::ITimer * wf_jsonrpc_MockTimer = nullptr;
WF_WRAP_FUNC0(wf_jsonrpc_MockTimer, wf_timer_manager *, wf_timer_manager_create);
WF_WRAP_FUNC1(wf_jsonrpc_MockTimer, void, wf_timer_manager_dispose, wf_timer_manager *);
WF_WRAP_FUNC1(wf_jsonrpc_MockTimer, void, wf_timer_manager_check, wf_timer_manager *);
WF_WRAP_FUNC3(wf_jsonrpc_MockTimer, wf_timer *, wf_timer_create, wf_timer_manager *, wf_timer_on_timer_fn *, void *);
WF_WRAP_FUNC1(wf_jsonrpc_MockTimer, void, wf_timer_dispose, wf_timer *);
WF_WRAP_FUNC2(wf_jsonrpc_MockTimer, void, wf_timer_start, wf_timer *, int);
WF_WRAP_FUNC1(wf_jsonrpc_MockTimer, void, wf_timer_cancel, wf_timer *);
}
namespace wf_jsonrpc_test
{
MockTimer::MockTimer()
{
wf_jsonrpc_MockTimer = this;
}
MockTimer::~MockTimer()
{
wf_jsonrpc_MockTimer = nullptr;
}
}

48
test/webfuse/tests/core/jsonrpc/mock_timer.hpp Normal file
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#ifndef WF_JSONRPC_MOCK_TIMERMANAGER_HPP
#define WF_JSONRPC_MOCK_TIMERMANAGER_HPP
#include "webfuse/core/timer/timer.h"
#include "webfuse/core/timer/manager.h"
#include <gmock/gmock.h>
namespace wf_jsonrpc_test
{
class ITimer
{
public:
virtual ~ITimer() = default;
virtual wf_timer_manager * wf_timer_manager_create() = 0;
virtual void wf_timer_manager_dispose(wf_timer_manager * manager) = 0;
virtual void wf_timer_manager_check(wf_timer_manager * manager) = 0;
virtual wf_timer * wf_timer_create(
wf_timer_manager * manager,
wf_timer_on_timer_fn * on_timer,
void * user_data) = 0;
virtual void wf_timer_dispose(wf_timer * timer) = 0;
virtual void wf_timer_start(wf_timer * timer, int timeout_ms) = 0;
virtual void wf_timer_cancel(wf_timer * timer) = 0;
};
class MockTimer: public ITimer
{
public:
MockTimer();
~MockTimer() override;
MOCK_METHOD0(wf_timer_manager_create, wf_timer_manager * ());
MOCK_METHOD1(wf_timer_manager_dispose, void(wf_timer_manager * manager));
MOCK_METHOD1(wf_timer_manager_check, void (wf_timer_manager * manager));
MOCK_METHOD3(wf_timer_create, wf_timer *(
wf_timer_manager * manager,
wf_timer_on_timer_fn * on_timer,
void * user_data));
MOCK_METHOD1(wf_timer_dispose, void (wf_timer * timer));
MOCK_METHOD2(wf_timer_start, void (wf_timer * timer, int timeout_ms));
MOCK_METHOD1(wf_timer_cancel, void (wf_timer * timer));
};
}
#endif

41
test/webfuse/tests/core/jsonrpc/mock_timer_callback.cc Normal file
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#include "webfuse/tests/core/jsonrpc/mock_timer_callback.hpp"
extern "C"
{
using wf_jsonrpc_test::MockTimerCallback;
static void wf_jsonrpc_test_MockTimerCallback_on_timer(
wf_timer * timer,
void * user_data)
{
auto * self = reinterpret_cast<MockTimerCallback*>(user_data);
self->on_timer(timer, user_data);
}
}
namespace wf_jsonrpc_test
{
MockTimerCallback::MockTimerCallback()
{
}
MockTimerCallback::~MockTimerCallback()
{
}
wf_timer_on_timer_fn * MockTimerCallback::on_timer_fn()
{
return &wf_jsonrpc_test_MockTimerCallback_on_timer;
}
void * MockTimerCallback::user_data()
{
return reinterpret_cast<void*>(this);
}
}

23
test/webfuse/tests/core/jsonrpc/mock_timer_callback.hpp Normal file
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#ifndef WF_JSONRPC_MOCK_TIMERCALLBACK_HPP
#define WF_JSONRPC_MOCK_TIMERCALLBACK_HPP
#include "webfuse/core/timer/on_timer_fn.h"
#include <gmock/gmock.h>
namespace wf_jsonrpc_test
{
class MockTimerCallback
{
public:
MockTimerCallback();
virtual ~MockTimerCallback();
wf_timer_on_timer_fn * on_timer_fn();
void * user_data();
MOCK_METHOD2(on_timer, void (wf_timer * timer, void * user_data));
};
}
#endif

112
test/webfuse/tests/core/jsonrpc/test_is_request.cc Normal file
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#include <gtest/gtest.h>
#include "webfuse/core/jsonrpc/request.h"
TEST(wf_jsonrpc_is_request, request_with_object_params)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_string("method"));
json_object_set_new(request, "params", json_object());
json_object_set_new(request, "id", json_integer(42));
ASSERT_TRUE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_is_request, request_with_array_params)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_string("method"));
json_object_set_new(request, "params", json_array());
json_object_set_new(request, "id", json_integer(42));
ASSERT_TRUE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_is_request, null_request)
{
ASSERT_FALSE(wf_jsonrpc_is_request(nullptr));
}
TEST(wf_jsonrpc_is_request, invalid_request)
{
json_t * request = json_array();
json_array_append_new(request, json_string("method"));
json_array_append_new(request, json_object());
json_array_append_new(request, json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_is_request, invalid_request_without_id)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_string("method"));
json_object_set_new(request, "params", json_object());
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_is_request, invalid_request_due_to_invalid_id)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_string("method"));
json_object_set_new(request, "params", json_object());
json_object_set_new(request, "id", json_string("42"));
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_is_request, invalid_request_without_method)
{
json_t * request = json_object();
json_object_set_new(request, "params", json_object());
json_object_set_new(request, "id", json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_is_request, invalid_request_due_to_invalid_method)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_integer(42));
json_object_set_new(request, "params", json_object());
json_object_set_new(request, "id", json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_is_request, invalid_request_without_params)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_string("method"));
json_object_set_new(request, "id", json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_is_request, invalid_request_due_to_invalid_params)
{
json_t * request = json_object();
json_object_set_new(request, "methdo", json_string("method"));
json_object_set_new(request, "params", json_string("params"));
json_object_set_new(request, "id", json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}

94
test/webfuse/tests/core/jsonrpc/test_is_response.cc Normal file
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#include <gtest/gtest.h>
#include "webfuse/core/jsonrpc/response.h"
TEST(wf_jsonrpc_is_response, valid_result)
{
json_t * message = json_object();
json_object_set_new(message, "result", json_object());
json_object_set_new(message, "id", json_integer(42));
ASSERT_TRUE(wf_jsonrpc_is_response(message));
json_decref(message);
}
TEST(wf_jsonrpc_is_response, valid_result_string)
{
json_t * message = json_object();
json_object_set_new(message, "result", json_string("also valid"));
json_object_set_new(message, "id", json_integer(42));
ASSERT_TRUE(wf_jsonrpc_is_response(message));
json_decref(message);
}
TEST(wf_jsonrpc_is_response, valid_error)
{
json_t * message = json_object();
json_object_set_new(message, "error", json_object());
json_object_set_new(message, "id", json_integer(42));
ASSERT_TRUE(wf_jsonrpc_is_response(message));
json_decref(message);
}
TEST(wf_jsonrpc_is_response, invalid_null)
{
ASSERT_FALSE(wf_jsonrpc_is_response(nullptr));
}
TEST(wf_jsonrpc_is_response, invalid_message)
{
json_t * message = json_array();
json_array_append_new(message, json_object());
json_array_append_new(message, json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_response(message));
json_decref(message);
}
TEST(wf_jsonrpc_is_response, invalid_missing_id)
{
json_t * message = json_object();
json_object_set_new(message, "result", json_object());
ASSERT_FALSE(wf_jsonrpc_is_response(message));
json_decref(message);
}
TEST(wf_jsonrpc_is_response, invalid_id_wrong_type)
{
json_t * message = json_object();
json_object_set_new(message, "result", json_object());
json_object_set_new(message, "id", json_string("42"));
ASSERT_FALSE(wf_jsonrpc_is_response(message));
json_decref(message);
}
TEST(wf_jsonrpc_is_response, invalid_missing_result_and_error)
{
json_t * message = json_object();
json_object_set_new(message, "id", json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_response(message));
json_decref(message);
}
TEST(wf_jsonrpc_is_response, invalid_error_wrong_type)
{
json_t * message = json_object();
json_object_set_new(message, "error", json_array());
json_object_set_new(message, "id", json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_response(message));
json_decref(message);
}

429
test/webfuse/tests/core/jsonrpc/test_proxy.cc Normal file
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#include <gtest/gtest.h>
#include "webfuse/core/jsonrpc/proxy.h"
#include "webfuse/core/status.h"
#include "webfuse/core/timer/manager.h"
#include "webfuse/tests/core/jsonrpc/mock_timer.hpp"
#include <thread>
#include <chrono>
using namespace std::chrono_literals;
using wf_jsonrpc_test::MockTimer;
using testing::Return;
using testing::_;
using testing::DoAll;
using testing::SaveArg;
#define WF_DEFAULT_TIMEOUT (10 * 1000)
namespace
{
int jsonrpc_get_status(json_t * error)
{
json_t * code = json_object_get(error, "code");
return (json_is_integer(code)) ? json_integer_value(code) : WF_BAD_FORMAT;
}
struct SendContext
{
json_t * response;
bool result;
bool is_called;
explicit SendContext(bool result_ = true)
: response(nullptr)
, result(result_)
, is_called(false)
{
}
~SendContext()
{
if (nullptr != response)
{
json_decref(response);
}
}
};
bool jsonrpc_send(
json_t * request,
void * user_data)
{
SendContext * context = reinterpret_cast<SendContext*>(user_data);
context->is_called = true;
context->response = request;
json_incref(request);
return context->result;
}
struct FinishedContext
{
bool is_called;
json_t * result;
json_t * error;
FinishedContext()
: is_called(false)
, result(nullptr)
, error(nullptr)
{
}
~FinishedContext()
{
if (nullptr != result)
{
json_decref(result);
}
if (nullptr != error)
{
json_decref(error);
}
}
};
void jsonrpc_finished(
void * user_data,
json_t const * result,
json_t const * error)
{
FinishedContext * context = reinterpret_cast<FinishedContext*>(user_data);
context->is_called = true;
context->result = json_deep_copy(result);
context->error = json_deep_copy(error);
}
}
TEST(wf_jsonrpc_proxy, init)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext context;
void * user_data = reinterpret_cast<void*>(&context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, user_data);
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
ASSERT_FALSE(context.is_called);
}
TEST(wf_jsonrpc_proxy, invoke)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
FinishedContext finished_context;
void * finished_data = reinterpret_cast<void*>(&finished_context);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data, "foo", "si", "bar", 42);
ASSERT_TRUE(send_context.is_called);
ASSERT_TRUE(json_is_object(send_context.response));
json_t * method = json_object_get(send_context.response, "method");
ASSERT_TRUE(json_is_string(method));
ASSERT_STREQ("foo", json_string_value(method));
json_t * params = json_object_get(send_context.response, "params");
ASSERT_TRUE(json_is_array(params));
ASSERT_EQ(2, json_array_size(params));
ASSERT_TRUE(json_is_string(json_array_get(params, 0)));
ASSERT_STREQ("bar", json_string_value(json_array_get(params, 0)));
ASSERT_TRUE(json_is_integer(json_array_get(params, 1)));
ASSERT_EQ(42, json_integer_value(json_array_get(params, 1)));
json_t * id = json_object_get(send_context.response, "id");
ASSERT_TRUE(json_is_integer(id));
ASSERT_FALSE(finished_context.is_called);
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
ASSERT_TRUE(finished_context.is_called);
ASSERT_FALSE(nullptr == finished_context.error);
}
TEST(wf_jsonrpc_proxy, invoke_calls_finish_if_send_fails)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context(false);
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
FinishedContext finished_context;
void * finished_data = reinterpret_cast<void*>(&finished_context);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data, "foo", "si", "bar", 42);
ASSERT_TRUE(send_context.is_called);
ASSERT_TRUE(json_is_object(send_context.response));
ASSERT_TRUE(finished_context.is_called);
ASSERT_FALSE(nullptr == finished_context.error);
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, invoke_fails_if_another_request_is_pending)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
FinishedContext finished_context;
void * finished_data = reinterpret_cast<void*>(&finished_context);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data, "foo", "si", "bar", 42);
FinishedContext finished_context2;
void * finished_data2 = reinterpret_cast<void*>(&finished_context2);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data2, "foo", "");
ASSERT_TRUE(send_context.is_called);
ASSERT_TRUE(json_is_object(send_context.response));
ASSERT_FALSE(finished_context.is_called);
ASSERT_TRUE(finished_context2.is_called);
ASSERT_EQ(WF_BAD_BUSY, jsonrpc_get_status(finished_context2.error));
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, invoke_fails_if_request_is_invalid)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
FinishedContext finished_context;
void * finished_data = reinterpret_cast<void*>(&finished_context);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data, "foo", "?", "error");
ASSERT_FALSE(send_context.is_called);
ASSERT_TRUE(finished_context.is_called);
ASSERT_EQ(WF_BAD, jsonrpc_get_status(finished_context.error));
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, on_result)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
FinishedContext finished_context;
void * finished_data = reinterpret_cast<void*>(&finished_context);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data, "foo", "si", "bar", 42);
ASSERT_TRUE(send_context.is_called);
ASSERT_TRUE(json_is_object(send_context.response));
json_t * id = json_object_get(send_context.response, "id");
ASSERT_TRUE(json_is_number(id));
json_t * response = json_object();
json_object_set_new(response, "result", json_string("okay"));
json_object_set(response, "id", id);
wf_jsonrpc_proxy_onresult(proxy, response);
json_decref(response);
ASSERT_TRUE(finished_context.is_called);
ASSERT_EQ(nullptr, finished_context.error);
ASSERT_TRUE(json_is_string(finished_context.result));
ASSERT_STREQ("okay", json_string_value(finished_context.result));
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, on_result_reject_response_with_unknown_id)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
FinishedContext finished_context;
void * finished_data = reinterpret_cast<void*>(&finished_context);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data, "foo", "si", "bar", 42);
ASSERT_TRUE(send_context.is_called);
ASSERT_TRUE(json_is_object(send_context.response));
json_t * id = json_object_get(send_context.response, "id");
ASSERT_TRUE(json_is_number(id));
json_t * response = json_object();
json_object_set_new(response, "result", json_string("okay"));
json_object_set_new(response, "id", json_integer(1 + json_integer_value(id)));
wf_jsonrpc_proxy_onresult(proxy, response);
json_decref(response);
ASSERT_FALSE(finished_context.is_called);
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, timeout)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, 0, &jsonrpc_send, send_data);
FinishedContext finished_context;
void * finished_data = reinterpret_cast<void*>(&finished_context);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data, "foo", "si", "bar", 42);
ASSERT_TRUE(send_context.is_called);
ASSERT_TRUE(json_is_object(send_context.response));
std::this_thread::sleep_for(10ms);
wf_timer_manager_check(timer_manager);
ASSERT_TRUE(finished_context.is_called);
ASSERT_EQ(WF_BAD_TIMEOUT, jsonrpc_get_status(finished_context.error));
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, cleanup_pending_request)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, 10, &jsonrpc_send, send_data);
FinishedContext finished_context;
void * finished_data = reinterpret_cast<void*>(&finished_context);
wf_jsonrpc_proxy_invoke(proxy, &jsonrpc_finished, finished_data, "foo", "si", "bar", 42);
ASSERT_TRUE(send_context.is_called);
ASSERT_TRUE(json_is_object(send_context.response));
ASSERT_FALSE(finished_context.is_called);
wf_jsonrpc_proxy_dispose(proxy);
ASSERT_TRUE(finished_context.is_called);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, notify)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
wf_jsonrpc_proxy_notify(proxy, "foo", "si", "bar", 42);
ASSERT_TRUE(send_context.is_called);
ASSERT_TRUE(json_is_object(send_context.response));
json_t * method = json_object_get(send_context.response, "method");
ASSERT_TRUE(json_is_string(method));
ASSERT_STREQ("foo", json_string_value(method));
json_t * params = json_object_get(send_context.response, "params");
ASSERT_TRUE(json_is_array(params));
ASSERT_EQ(2, json_array_size(params));
ASSERT_TRUE(json_is_string(json_array_get(params, 0)));
ASSERT_STREQ("bar", json_string_value(json_array_get(params, 0)));
ASSERT_TRUE(json_is_integer(json_array_get(params, 1)));
ASSERT_EQ(42, json_integer_value(json_array_get(params, 1)));
json_t * id = json_object_get(send_context.response, "id");
ASSERT_EQ(nullptr, id);
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, notify_dont_send_invalid_request)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
wf_jsonrpc_proxy_notify(proxy, "foo", "?");
ASSERT_FALSE(send_context.is_called);
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}
TEST(wf_jsonrpc_proxy, swallow_timeout_if_no_request_pending)
{
MockTimer timer_api;
wf_timer_on_timer_fn * on_timer = nullptr;
void * timer_context = nullptr;
EXPECT_CALL(timer_api, wf_timer_create(_, _, _))
.Times(1)
.WillOnce(DoAll(SaveArg<1>(&on_timer), SaveArg<2>(&timer_context), Return(nullptr)));
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(nullptr, 1, &jsonrpc_send, send_data);
on_timer(nullptr, timer_context);
ASSERT_FALSE(send_context.is_called);
wf_jsonrpc_proxy_dispose(proxy);
}
TEST(wf_jsonrpc_proxy, on_result_swallow_if_no_request_pending)
{
struct wf_timer_manager * timer_manager = wf_timer_manager_create();
SendContext send_context;
void * send_data = reinterpret_cast<void*>(&send_context);
struct wf_jsonrpc_proxy * proxy = wf_jsonrpc_proxy_create(timer_manager, WF_DEFAULT_TIMEOUT, &jsonrpc_send, send_data);
json_t * response = json_object();
json_object_set_new(response, "result", json_string("okay"));
json_object_set_new(response, "id", json_integer(42));
wf_jsonrpc_proxy_onresult(proxy, response);
json_decref(response);
wf_jsonrpc_proxy_dispose(proxy);
wf_timer_manager_dispose(timer_manager);
}

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#include <gtest/gtest.h>
#include "webfuse/core/jsonrpc/request.h"
#include "webfuse/core/status.h"
namespace
{
struct Context
{
json_t * response;
};
bool jsonrpc_send(
json_t * request,
void * user_data)
{
Context * context = reinterpret_cast<Context*>(user_data);
context->response = request;
json_incref(request);
return true;
}
}
TEST(wf_jsonrpc_request, create_dispose)
{
Context context{nullptr};
void * user_data = reinterpret_cast<void*>(&context);
struct wf_jsonrpc_request * request =
wf_jsonrpc_request_create(42, &jsonrpc_send, user_data);
ASSERT_NE(nullptr, request);
ASSERT_EQ(user_data, wf_jsonrpc_request_get_userdata(request));
wf_jsonrpc_request_dispose(request);
}
TEST(wf_jsonrpc_request, respond)
{
Context context{nullptr};
void * user_data = reinterpret_cast<void*>(&context);
struct wf_jsonrpc_request * request =
wf_jsonrpc_request_create(42, &jsonrpc_send, user_data);
wf_jsonrpc_respond(request, json_string("okay"));
ASSERT_NE(nullptr, context.response);
json_t * response = reinterpret_cast<json_t*>(context.response);
ASSERT_TRUE(json_is_object(response));
json_t * id = json_object_get(response, "id");
ASSERT_TRUE(json_is_integer(id));
ASSERT_EQ(42, json_integer_value(id));
json_t * result = json_object_get(response, "result");
ASSERT_TRUE(json_is_string(result));
ASSERT_STREQ("okay", json_string_value(result));
ASSERT_EQ(nullptr, json_object_get(response, "error"));
json_decref(response);
}
TEST(wf_jsonrpc_request, respond_error)
{
Context context{nullptr};
void * user_data = reinterpret_cast<void*>(&context);
struct wf_jsonrpc_request * request =
wf_jsonrpc_request_create(42, &jsonrpc_send, user_data);
wf_jsonrpc_respond_error(request, WF_BAD, "Bad");
ASSERT_NE(nullptr, context.response);
json_t * response = reinterpret_cast<json_t*>(context.response);
ASSERT_TRUE(json_is_object(response));
json_t * id = json_object_get(response, "id");
ASSERT_TRUE(json_is_integer(id));
ASSERT_EQ(42, json_integer_value(id));
ASSERT_EQ(nullptr, json_object_get(response, "result"));
json_t * err = json_object_get(response, "error");
ASSERT_TRUE(json_is_object(err));
json_t * err_code = json_object_get(err, "code");
ASSERT_TRUE(json_is_integer(err_code));
ASSERT_EQ(WF_BAD, json_integer_value(err_code));
json_t * err_message = json_object_get(err, "message");
ASSERT_TRUE(json_is_string(err_message));
ASSERT_STREQ("Bad", json_string_value(err_message));
json_decref(response);
}
TEST(wf_jsonrpc_request, is_request_object_params)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_string("some_method"));
json_object_set_new(request, "params", json_object());
json_object_set_new(request, "id", json_integer(42));
ASSERT_TRUE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_request, is_request_fail_missing_params)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_string("some_method"));
json_object_set_new(request, "id", json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}
TEST(wf_jsonrpc_request, is_request_fail_params_wrong_type)
{
json_t * request = json_object();
json_object_set_new(request, "method", json_string("some_method"));
json_object_set_new(request, "params", json_string("invalid_params"));
json_object_set_new(request, "id", json_integer(42));
ASSERT_FALSE(wf_jsonrpc_is_request(request));
json_decref(request);
}

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#include <gtest/gtest.h>
#include "webfuse/core/jsonrpc/response_intern.h"
#include "webfuse/core/status.h"
TEST(wf_json_response, init_result)
{
json_t * message = json_object();
json_object_set_new(message, "result", json_integer(47));
json_object_set_new(message, "id", json_integer(11));
struct wf_jsonrpc_response response;
wf_jsonrpc_response_init(&response, message);
ASSERT_EQ(nullptr, response.error);
ASSERT_TRUE(json_is_integer(response.result));
ASSERT_EQ(47, json_integer_value(response.result));
ASSERT_EQ(11, response.id);
wf_jsonrpc_response_cleanup(&response);
json_decref(message);
}
TEST(wf_json_response, init_error)
{
json_t * message = json_object();
json_t * err = json_object();
json_object_set_new(err, "code", json_integer(42));
json_object_set_new(err, "message", json_string("Don't Panic!"));
json_object_set_new(message, "error", err);
json_object_set_new(message, "id", json_integer(23));
struct wf_jsonrpc_response response;
wf_jsonrpc_response_init(&response, message);
ASSERT_EQ(42, json_integer_value(json_object_get(response.error, "code")));
ASSERT_STREQ("Don't Panic!", json_string_value(json_object_get(response.error, "message")));
ASSERT_EQ(nullptr, response.result);
ASSERT_EQ(23, response.id);
wf_jsonrpc_response_cleanup(&response);
json_decref(message);
}
TEST(wf_json_response, init_fail_missing_result_and_error)
{
json_t * message = json_object();
json_object_set_new(message, "id", json_integer(12));
struct wf_jsonrpc_response response;
wf_jsonrpc_response_init(&response, message);
ASSERT_EQ(WF_BAD_FORMAT, json_integer_value(json_object_get(response.error, "code")));
ASSERT_EQ(nullptr, response.result);
ASSERT_EQ(12, response.id);
wf_jsonrpc_response_cleanup(&response);
json_decref(message);
}
TEST(wf_json_response, init_fail_missing_id)
{
json_t * message = json_object();
json_object_set_new(message, "result", json_integer(47));
struct wf_jsonrpc_response response;
wf_jsonrpc_response_init(&response, message);
ASSERT_EQ(WF_BAD_FORMAT, json_integer_value(json_object_get(response.error, "code")));
ASSERT_EQ(nullptr, response.result);
ASSERT_EQ(-1, response.id);
wf_jsonrpc_response_cleanup(&response);
json_decref(message);
}
TEST(wf_json_response, init_fail_wrong_id_type)
{
json_t * message = json_object();
json_object_set_new(message, "result", json_integer(47));
json_object_set_new(message, "id", json_string("42"));
struct wf_jsonrpc_response response;
wf_jsonrpc_response_init(&response, message);
ASSERT_EQ(WF_BAD_FORMAT, json_integer_value(json_object_get(response.error, "code")));
ASSERT_EQ(nullptr, response.result);
ASSERT_EQ(-1, response.id);
wf_jsonrpc_response_cleanup(&response);
json_decref(message);
}
TEST(wf_json_response, init_fail_error_missing_code)
{
json_t * message = json_object();
json_t * err = json_object();
json_object_set_new(err, "message", json_string("Don't Panic!"));
json_object_set_new(message, "error", err);
json_object_set_new(message, "id", json_integer(23));
struct wf_jsonrpc_response response;
wf_jsonrpc_response_init(&response, message);
ASSERT_EQ(WF_BAD_FORMAT, json_integer_value(json_object_get(response.error, "code")));
ASSERT_EQ(nullptr, response.result);
ASSERT_EQ(23, response.id);
wf_jsonrpc_response_cleanup(&response);
json_decref(message);
}
TEST(wf_json_response, init_fail_error_wrong_code_type)
{
json_t * message = json_object();
json_t * err = json_object();
json_object_set_new(err, "code", json_string("42"));
json_object_set_new(err, "message", json_string("Don't Panic!"));
json_object_set_new(message, "error", err);
json_object_set_new(message, "id", json_integer(23));
struct wf_jsonrpc_response response;
wf_jsonrpc_response_init(&response, message);
ASSERT_EQ(WF_BAD_FORMAT, json_integer_value(json_object_get(response.error, "code")));
ASSERT_EQ(nullptr, response.result);
ASSERT_EQ(23, response.id);
wf_jsonrpc_response_cleanup(&response);
json_decref(message);
}
TEST(wf_json_response, init_fail_error_wrong_type)
{
json_t * message = json_object();
json_object_set_new(message, "error", json_string("invalid error type"));
json_object_set_new(message, "id", json_integer(23));
struct wf_jsonrpc_response response;
wf_jsonrpc_response_init(&response, message);
ASSERT_EQ(WF_BAD_FORMAT, json_integer_value(json_object_get(response.error, "code")));
ASSERT_EQ(nullptr, response.result);
ASSERT_EQ(23, response.id);
wf_jsonrpc_response_cleanup(&response);
json_decref(message);
}

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#include <string>
#include <gtest/gtest.h>
#include "webfuse/core/jsonrpc/response_intern.h"
static void response_parse_str(
std::string const & buffer,
struct wf_jsonrpc_response * response)
{
json_t * message = json_loadb(buffer.c_str(), buffer.size(), 0, nullptr);
if (nullptr != message)
{
wf_jsonrpc_response_init(response, message);
json_decref(message);
}
}
TEST(response_parser, test)
{
struct wf_jsonrpc_response response;
// no object
response_parse_str("[]", &response);
ASSERT_NE(nullptr, response.error);
ASSERT_EQ(-1, response.id);
ASSERT_EQ(nullptr, response.result);
wf_jsonrpc_response_cleanup(&response);
// empty
response_parse_str("{}", &response);
ASSERT_NE(nullptr, response.error);
ASSERT_EQ(-1, response.id);
ASSERT_EQ(nullptr, response.result);
wf_jsonrpc_response_cleanup(&response);
// no data
response_parse_str("{\"id\":42}", &response);
ASSERT_NE(nullptr, response.error);
ASSERT_EQ(42, response.id);
ASSERT_EQ(nullptr, response.result);
wf_jsonrpc_response_cleanup(&response);
// custom error code
response_parse_str("{\"error\":{\"code\": 42}, \"id\": 42}", &response);
ASSERT_NE(nullptr, response.error);
ASSERT_EQ(42, json_integer_value(json_object_get(response.error, "code")));
ASSERT_EQ(42, response.id);
ASSERT_EQ(nullptr, response.result);
wf_jsonrpc_response_cleanup(&response);
// valid response
response_parse_str("{\"result\": true, \"id\": 42}", &response);
ASSERT_EQ(nullptr, response.error);
ASSERT_EQ(42, response.id);
ASSERT_NE(nullptr, response.result);
wf_jsonrpc_response_cleanup(&response);
}

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#include <gtest/gtest.h>
#include "webfuse/core/jsonrpc/server.h"
#include "webfuse/core/jsonrpc/request.h"
#include "webfuse/core/status.h"
namespace
{
struct Context
{
json_t * response;
bool is_called;
};
bool jsonrpc_send(
json_t * request,
void * user_data)
{
Context * context = reinterpret_cast<Context*>(user_data);
context->is_called = true;
context->response = request;
json_incref(request);
return true;
}
void sayHello(
struct wf_jsonrpc_request * request,
char const * method_name,
json_t * params,
void * user_data)
{
(void) method_name;
(void) params;
(void) user_data;
json_t * result = json_string("Hello");
wf_jsonrpc_respond(request, result);
}
}
TEST(wf_jsonrpc_server, process_request)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
wf_jsonrpc_server_add(server, "sayHello", &sayHello, nullptr);
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "method", json_string("sayHello"));
json_object_set_new(request, "params", json_array());
json_object_set_new(request, "id", json_integer(23));
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_TRUE(context.is_called);
ASSERT_NE(nullptr, context.response);
ASSERT_TRUE(json_is_object(context.response));
json_t * id = json_object_get(context.response, "id");
ASSERT_TRUE(json_is_integer(id));
ASSERT_EQ(23, json_integer_value(id));
json_t * result = json_object_get(context.response, "result");
ASSERT_TRUE(json_is_string(result));
ASSERT_STREQ("Hello", json_string_value(result));
json_decref(context.response);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}
TEST(wf_jsonrpc_server, process_request_with_oject_params)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
wf_jsonrpc_server_add(server, "sayHello", &sayHello, nullptr);
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "method", json_string("sayHello"));
json_object_set_new(request, "params", json_object());
json_object_set_new(request, "id", json_integer(23));
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_TRUE(context.is_called);
ASSERT_NE(nullptr, context.response);
ASSERT_TRUE(json_is_object(context.response));
json_t * id = json_object_get(context.response, "id");
ASSERT_TRUE(json_is_integer(id));
ASSERT_EQ(23, json_integer_value(id));
json_t * result = json_object_get(context.response, "result");
ASSERT_TRUE(json_is_string(result));
ASSERT_STREQ("Hello", json_string_value(result));
json_decref(context.response);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}
TEST(wf_jsonrpc_server, invoke_unknown_method)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
wf_jsonrpc_server_add(server, "sayHello", &sayHello, nullptr);
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "method", json_string("greet"));
json_object_set_new(request, "params", json_array());
json_object_set_new(request, "id", json_integer(42));
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_TRUE(context.is_called);
ASSERT_NE(nullptr, context.response);
ASSERT_TRUE(json_is_object(context.response));
json_t * id = json_object_get(context.response, "id");
ASSERT_TRUE(json_is_integer(id));
ASSERT_EQ(42, json_integer_value(id));
json_t * err = json_object_get(context.response, "error");
ASSERT_TRUE(json_is_object(err));
json_t * err_code = json_object_get(err, "code");
ASSERT_TRUE(json_is_integer(err_code));
ASSERT_EQ(WF_BAD_NOTIMPLEMENTED, json_integer_value(err_code));
json_t * err_message = json_object_get(err, "message");
ASSERT_TRUE(json_is_string(err_message));
json_decref(context.response);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}
TEST(wf_jsonrpc_server, skip_invalid_request_missing_id)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "method", json_string("sayHello"));
json_object_set_new(request, "params", json_array());
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_FALSE(context.is_called);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}
TEST(wf_jsonrpc_server, skip_invalid_request_wrong_id_type)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "method", json_string("sayHello"));
json_object_set_new(request, "params", json_array());
json_object_set_new(request, "id", json_string("42"));
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_FALSE(context.is_called);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}
TEST(wf_jsonrpc_server, skip_invalid_request_missing_params)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "method", json_string("sayHello"));
json_object_set_new(request, "id", json_integer(42));
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_FALSE(context.is_called);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}
TEST(wf_jsonrpc_server, skip_invalid_request_wrong_params_type)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "method", json_string("sayHello"));
json_object_set_new(request, "params", json_string("invalid"));
json_object_set_new(request, "id", json_integer(42));
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_FALSE(context.is_called);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}
TEST(wf_jsonrpc_server, skip_invalid_request_missing_method)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "params", json_array());
json_object_set_new(request, "id", json_integer(42));
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_FALSE(context.is_called);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}
TEST(wf_jsonrpc_server, skip_invalid_request_wront_method_type)
{
struct wf_jsonrpc_server * server = wf_jsonrpc_server_create();
Context context{nullptr, false};
void * user_data = reinterpret_cast<void*>(&context);
json_t * request = json_object();
json_object_set_new(request, "method", json_integer(42));
json_object_set_new(request, "params", json_array());
json_object_set_new(request, "id", json_integer(42));
wf_jsonrpc_server_process(server, request, &jsonrpc_send, user_data);
ASSERT_FALSE(context.is_called);
json_decref(request);
wf_jsonrpc_server_dispose(server);
}

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#include <gtest/gtest.h>
#include "webfuse/core/timer/timepoint.h"
#include <thread>
#include <chrono>
using namespace std::chrono_literals;
TEST(wf_timer_timepoint, now)
{
wf_timer_timepoint start = wf_timer_timepoint_now();
std::this_thread::sleep_for(42ms);
wf_timer_timepoint end = wf_timer_timepoint_now();
ASSERT_LT(start, end);
ASSERT_LT(end, start + 500);
}
TEST(wf_timer_timepoint, in_msec)
{
wf_timer_timepoint now = wf_timer_timepoint_now();
wf_timer_timepoint later = wf_timer_timepoint_in_msec(42);
ASSERT_LT(now, later);
ASSERT_LT(later, now + 500);
}
TEST(wf_timer_timepoint, elapsed)
{
wf_timer_timepoint now;
now = wf_timer_timepoint_now();
ASSERT_TRUE(wf_timer_timepoint_is_elapsed(now - 1));
now = wf_timer_timepoint_now();
ASSERT_FALSE(wf_timer_timepoint_is_elapsed(now + 500));
}

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#include <gtest/gtest.h>
#include <cstddef>
#include <chrono>
#include <thread>
#include "webfuse/core/timer/timer.h"
#include "webfuse/core/timer/manager.h"
using std::size_t;
using namespace std::chrono_literals;
extern "C"
{
void on_timeout(struct wf_timer * timer, void * user_data)
{
(void) timer;
bool * triggered = reinterpret_cast<bool*>(user_data);
*triggered = true;
}
}
TEST(wf_timer, init)
{
bool triggered = false;
struct wf_timer_manager * manager = wf_timer_manager_create();
struct wf_timer * timer = wf_timer_create(manager, &on_timeout, reinterpret_cast<void*>(&triggered));
wf_timer_dispose(timer);
wf_timer_manager_dispose(manager);
}
TEST(wf_timer, trigger)
{
bool triggered = false;
struct wf_timer_manager * manager = wf_timer_manager_create();
struct wf_timer * timer = wf_timer_create(manager, &on_timeout, reinterpret_cast<void*>(&triggered));
wf_timer_start(timer, -1);
wf_timer_manager_check(manager);
ASSERT_TRUE(triggered);
wf_timer_dispose(timer);
wf_timer_manager_dispose(manager);
}
TEST(wf_timer, trigger_on_dispose)
{
bool triggered = false;
struct wf_timer_manager * manager = wf_timer_manager_create();
struct wf_timer * timer = wf_timer_create(manager, &on_timeout, reinterpret_cast<void*>(&triggered));
wf_timer_start(timer, (5 * 60 * 1000));
wf_timer_manager_dispose(manager);
ASSERT_TRUE(triggered);
wf_timer_dispose(timer);
}
TEST(wf_timer, cancel)
{
bool triggered = false;
struct wf_timer_manager * manager = wf_timer_manager_create();
struct wf_timer * timer = wf_timer_create(manager, &on_timeout, reinterpret_cast<void*>(&triggered));
wf_timer_start(timer, 250);
std::this_thread::sleep_for(500ms);
wf_timer_cancel(timer);
wf_timer_manager_check(manager);
ASSERT_FALSE(triggered);
wf_timer_dispose(timer);
wf_timer_manager_dispose(manager);
}
TEST(wf_timer, cancel_multiple_timers)
{
static size_t const count = 5;
struct wf_timer_manager * manager = wf_timer_manager_create();
struct wf_timer * timer[count];
bool triggered = false;
for(size_t i = 0; i < count; i++)
{
timer[i] = wf_timer_create(manager, &on_timeout, reinterpret_cast<void*>(&triggered));
wf_timer_start(timer[i], 0);
}
std::this_thread::sleep_for(10ms);
for(size_t i = 0; i < count; i++)
{
wf_timer_cancel(timer[i]);
}
wf_timer_manager_check(manager);
ASSERT_FALSE(triggered);
for(size_t i = 0; i < count; i++)
{
wf_timer_dispose(timer[i]);
}
wf_timer_manager_dispose(manager);
}
TEST(wf_timer, multiple_timers)
{
static size_t const count = 5;
struct wf_timer_manager * manager = wf_timer_manager_create();
struct wf_timer * timer[count];
bool triggered[count];
for(size_t i = 0; i < count; i++)
{
timer[i] = wf_timer_create(manager, &on_timeout, reinterpret_cast<void*>(&triggered[i]));
triggered[i] = false;
wf_timer_start(timer[i], (300 - (50 * i)));
}
for(size_t i = 0; i < count; i++)
{
std::this_thread::sleep_for(100ms);
wf_timer_manager_check(manager);
}
for(size_t i = 0; i < count; i++)
{
ASSERT_TRUE(triggered[i]);
wf_timer_dispose(timer[i]);
}
wf_timer_manager_dispose(manager);
}
TEST(wf_timer, dont_trigger_null_callback)
{
struct wf_timer_manager * manager = wf_timer_manager_create();
struct wf_timer * timer = wf_timer_create(manager, nullptr, nullptr);
wf_timer_start(timer, -1);
wf_timer_manager_check(manager);
wf_timer_dispose(timer);
wf_timer_manager_dispose(manager);
}

74
test/webfuse/utils/wrap.hpp Normal file
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@@ -0,0 +1,74 @@
#ifndef WF_WRAP_HPP
#define WF_WRAP_HPP
#define WF_WRAP_FUNC0( GLOBAL_VAR, RETURN_TYPE, FUNC_NAME ) \
extern RETURN_TYPE __real_ ## FUNC_NAME (); \
RETURN_TYPE __wrap_ ## FUNC_NAME () \
{ \
if (nullptr == GLOBAL_VAR ) \
{ \
return __real_ ## FUNC_NAME (); \
} \
else \
{ \
return GLOBAL_VAR -> FUNC_NAME(); \
} \
}
#define WF_WRAP_FUNC1( GLOBAL_VAR, RETURN_TYPE, FUNC_NAME, ARG1_TYPE ) \
extern RETURN_TYPE __real_ ## FUNC_NAME (ARG1_TYPE); \
RETURN_TYPE __wrap_ ## FUNC_NAME (ARG1_TYPE arg1) \
{ \
if (nullptr == GLOBAL_VAR ) \
{ \
return __real_ ## FUNC_NAME (arg1); \
} \
else \
{ \
return GLOBAL_VAR -> FUNC_NAME(arg1); \
} \
}
#define WF_WRAP_FUNC2( GLOBAL_VAR, RETURN_TYPE, FUNC_NAME, ARG1_TYPE, ARG2_TYPE ) \
extern RETURN_TYPE __real_ ## FUNC_NAME (ARG1_TYPE, ARG2_TYPE); \
RETURN_TYPE __wrap_ ## FUNC_NAME (ARG1_TYPE arg1, ARG2_TYPE arg2) \
{ \
if (nullptr == GLOBAL_VAR ) \
{ \
return __real_ ## FUNC_NAME (arg1, arg2); \
} \
else \
{ \
return GLOBAL_VAR -> FUNC_NAME(arg1, arg2); \
} \
}
#define WF_WRAP_FUNC3( GLOBAL_VAR, RETURN_TYPE, FUNC_NAME, ARG1_TYPE, ARG2_TYPE, ARG3_TYPE ) \
extern RETURN_TYPE __real_ ## FUNC_NAME (ARG1_TYPE, ARG2_TYPE, ARG3_TYPE); \
RETURN_TYPE __wrap_ ## FUNC_NAME (ARG1_TYPE arg1, ARG2_TYPE arg2, ARG3_TYPE arg3) \
{ \
if (nullptr == GLOBAL_VAR ) \
{ \
return __real_ ## FUNC_NAME (arg1, arg2, arg3); \
} \
else \
{ \
return GLOBAL_VAR -> FUNC_NAME(arg1, arg2, arg3); \
} \
}
#define WF_WRAP_FUNC4( GLOBAL_VAR, RETURN_TYPE, FUNC_NAME, ARG1_TYPE, ARG2_TYPE, ARG3_TYPE, ARG4_TYPE ) \
extern RETURN_TYPE __real_ ## FUNC_NAME (ARG1_TYPE, ARG2_TYPE, ARG3_TYPE, ARG4_TYPE); \
RETURN_TYPE __wrap_ ## FUNC_NAME (ARG1_TYPE arg1, ARG2_TYPE arg2, ARG3_TYPE arg3, ARG4_TYPE arg4) \
{ \
if (nullptr == GLOBAL_VAR ) \
{ \
return __real_ ## FUNC_NAME (arg1, arg2, arg3, arg4); \
} \
else \
{ \
return GLOBAL_VAR -> FUNC_NAME(arg1, arg2, arg3, arg4); \
} \
}
#endif