// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef PPAPI_TESTS_TEST_CASE_H_
#define PPAPI_TESTS_TEST_CASE_H_
#include <cmath>
#include <limits>
#include <map>
#include <set>
#include <string>
#include "ppapi/c/pp_resource.h"
#include "ppapi/c/pp_time.h"
#include "ppapi/c/private/ppb_testing_private.h"
#include "ppapi/cpp/dev/scrollbar_dev.h"
#include "ppapi/cpp/message_loop.h"
#include "ppapi/cpp/view.h"
#include "ppapi/tests/test_utils.h"
#include "ppapi/tests/testing_instance.h"
#if (defined __native_client__)
#include "ppapi/cpp/var.h"
#else
#include "ppapi/cpp/private/var_private.h"
#endif
class TestingInstance;
namespace pp {
namespace deprecated {
class ScriptableObject;
}
}
// Individual classes of tests derive from this generic test case.
class TestCase {
public:
explicit TestCase(TestingInstance* instance);
virtual ~TestCase();
// Optionally override to do testcase specific initialization.
// Default implementation just returns true.
virtual bool Init();
// Override to implement the test case. It will be called after the plugin is
// first displayed, passing a string. If the string is empty, RunTests should
// run all tests for this test case. Otherwise, it must be a comma-delimited
// list of test names, possibly prefixed. E.g.:
// "Foo_GoodTest,DISABLED_Foo_BadTest,Foo_OtherGoodTest"
// All listed tests which are not prefixed will be run.
//
// This should generally be implemented in a TestCase subclass using the
// RUN_TEST* macros.
virtual void RunTests(const std::string& test_filter) = 0;
static std::string MakeFailureMessage(const char* file, int line,
const char* cmd);
#if !(defined __native_client__)
// Returns the scriptable test object for the current test, if any.
// Internally, this uses CreateTestObject which each test overrides.
pp::VarPrivate GetTestObject();
#endif
// A function that is invoked whenever HandleMessage is called on the
// associated TestingInstance. Default implementation does nothing. TestCases
// that want to handle incoming postMessage events should override this
// method.
virtual void HandleMessage(const pp::Var& message_data);
// A function that is invoked whenever DidChangeView is called on the
// associated TestingInstance. Default implementation does nothing. TestCases
// that want to handle view changes should override this method.
virtual void DidChangeView(const pp::View& view);
// A function that is invoked whenever HandleInputEvent is called on the
// associated TestingInstance. Default implementation returns false. TestCases
// that want to handle view changes should override this method.
virtual bool HandleInputEvent(const pp::InputEvent& event);
void IgnoreLeakedVar(int64_t id);
TestingInstance* instance() { return instance_; }
const PPB_Testing_Private* testing_interface() { return testing_interface_; }
static void QuitMainMessageLoop(PP_Instance instance);
const std::map<std::string, bool>& remaining_tests() {
return remaining_tests_;
}
const std::set<std::string>& skipped_tests() {
return skipped_tests_;
}
protected:
#if !(defined __native_client__)
// Overridden by each test to supply a ScriptableObject corresponding to the
// test. There can only be one object created for all tests in a given class,
// so be sure your object is designed to be re-used.
//
// This object should be created on the heap. Ownership will be passed to the
// caller. Return NULL if there is no supported test object (the default).
virtual pp::deprecated::ScriptableObject* CreateTestObject();
#endif
// Checks whether the testing interface is available. Returns true if it is,
// false otherwise. If it is not available, adds a descriptive error. This is
// for use by tests that require the testing interface.
bool CheckTestingInterface();
// Makes sure the test is run over HTTP.
bool EnsureRunningOverHTTP();
// Returns true if |filter| only contains a TestCase name, which normally
// means "run all tests". Some TestCases require special setup for individual
// tests, and can use this function to decide whether to ignore those tests.
bool ShouldRunAllTests(const std::string& filter);
// Return true if the given test name matches the filter. This is true if
// (a) filter is empty or (b) test_name matches a test name listed in filter
// exactly.
bool ShouldRunTest(const std::string& test_name, const std::string& filter);
// Check for leaked resources and vars at the end of the test. If any exist,
// return a string with some information about the error. Otherwise, return
// an empty string.
//
// You should pass the error string from the test so far; if it is non-empty,
// CheckResourcesAndVars will do nothing and return the same string.
std::string CheckResourcesAndVars(std::string errors);
PP_TimeTicks NowInTimeTicks();
// Run the given test method on a background thread and return the result.
template <class T>
std::string RunOnThread(std::string(T::*test_to_run)()) {
if (!testing_interface_) {
return "Testing blocking callbacks requires the testing interface. In "
"Chrome, use the --enable-pepper-testing flag.";
}
// These tests are only valid if running out-of-process (threading is not
// supported in-process). For in-process, just consider it a pass.
if (!testing_interface_->IsOutOfProcess())
return std::string();
pp::MessageLoop background_loop(instance_);
ThreadedTestRunner<T> runner(instance_->pp_instance(),
static_cast<T*>(this), test_to_run, background_loop);
RunOnThreadInternal(&ThreadedTestRunner<T>::ThreadFunction, &runner,
testing_interface_);
return runner.result();
}
// Pointer to the instance that owns us.
TestingInstance* instance_;
// NULL unless InitTestingInterface is called.
const PPB_Testing_Private* testing_interface_;
void set_callback_type(CallbackType callback_type) {
callback_type_ = callback_type;
}
CallbackType callback_type() const {
return callback_type_;
}
private:
template <class T>
class ThreadedTestRunner {
public:
typedef std::string(T::*TestMethodType)();
ThreadedTestRunner(PP_Instance instance,
T* test_case,
TestMethodType test_to_run,
pp::MessageLoop loop)
: instance_(instance),
test_case_(test_case),
test_to_run_(test_to_run),
loop_(loop) {
}
const std::string& result() { return result_; }
static void ThreadFunction(void* runner) {
static_cast<ThreadedTestRunner<T>*>(runner)->Run();
}
private:
void Run() {
int32_t result = loop_.AttachToCurrentThread();
static_cast<void>(result); // result is not used in the RELEASE build.
PP_DCHECK(PP_OK == result);
result_ = (test_case_->*test_to_run_)();
// Now give the loop a chance to clean up.
loop_.PostQuit(true /* should_destroy */);
loop_.Run();
// Tell the main thread to quit its nested message loop, now that the test
// is complete.
TestCase::QuitMainMessageLoop(instance_);
}
std::string result_;
PP_Instance instance_;
T* test_case_;
TestMethodType test_to_run_;
pp::MessageLoop loop_;
};
// The internals for RunOnThread. This allows us to avoid including
// pp_thread.h in this header file, since it includes system headers like
// windows.h.
// RunOnThreadInternal launches a new thread to run |thread_func|, waits
// for it to complete using RunMessageLoop(), then joins.
void RunOnThreadInternal(void (*thread_func)(void*),
void* thread_param,
const PPB_Testing_Private* testing_interface);
static void DoQuitMainMessageLoop(void* pp_instance, int32_t result);
// Passed when creating completion callbacks in some tests. This determines
// what kind of callback we use for the test.
CallbackType callback_type_;
// Var ids that should be ignored when checking for leaks on shutdown.
std::set<int64_t> ignored_leaked_vars_;
// The tests that were found in test_filter. The bool indicates whether the
// test should be run (i.e., it will be false if the test name was prefixed in
// the test_filter string).
//
// This is initialized lazily the first time that ShouldRunTest is called.
std::map<std::string, bool> filter_tests_;
// Flag indicating whether we have populated filter_tests_ yet.
bool have_populated_filter_tests_;
// This is initialized with the contents of filter_tests_. As each test is
// run, it is removed from remaining_tests_. When RunTests is finished,
// remaining_tests_ should be empty. Any remaining tests are tests that were
// listed in the test_filter but didn't match any calls to ShouldRunTest,
// meaning it was probably a typo. TestingInstance should log this and
// consider it a failure.
std::map<std::string, bool> remaining_tests_;
// If ShouldRunTest is called but the given test name doesn't match anything
// in the test_filter, the test name will be added here. This allows
// TestingInstance to detect when not all tests were listed.
std::set<std::string> skipped_tests_;
#if !(defined __native_client__)
// Holds the test object, if any was retrieved from CreateTestObject.
pp::VarPrivate test_object_;
#endif
};
// This class is an implementation detail.
class TestCaseFactory {
public:
typedef TestCase* (*Method)(TestingInstance* instance);
TestCaseFactory(const char* name, Method method)
: next_(head_),
name_(name),
method_(method) {
head_ = this;
}
private:
friend class TestingInstance;
TestCaseFactory* next_;
const char* name_;
Method method_;
static TestCaseFactory* head_;
};
// Use the REGISTER_TEST_CASE macro in your TestCase implementation file to
// register your TestCase. If your test is named TestFoo, then add the
// following to test_foo.cc:
//
// REGISTER_TEST_CASE(Foo);
//
// This will cause your test to be included in the set of known tests.
//
#define REGISTER_TEST_CASE(name) \
static TestCase* Test##name##_FactoryMethod(TestingInstance* instance) { \
return new Test##name(instance); \
} \
static TestCaseFactory g_Test##name_factory( \
#name, &Test##name##_FactoryMethod \
)
// Helper macro for calling functions implementing specific tests in the
// RunTest function. This assumes the function name is TestFoo where Foo is the
// test |name|.
#define RUN_TEST(name, test_filter) \
if (ShouldRunTest(#name, test_filter)) { \
set_callback_type(PP_OPTIONAL); \
PP_TimeTicks start_time(NowInTimeTicks()); \
instance_->LogTest(#name, \
CheckResourcesAndVars(Test##name()), \
start_time); \
}
// Like RUN_TEST above but forces functions taking callbacks to complete
// asynchronously on success or error.
#define RUN_TEST_FORCEASYNC(name, test_filter) \
if (ShouldRunTest(#name, test_filter)) { \
set_callback_type(PP_REQUIRED); \
PP_TimeTicks start_time(NowInTimeTicks()); \
instance_->LogTest(#name"ForceAsync", \
CheckResourcesAndVars(Test##name()), \
start_time); \
}
#define RUN_TEST_BLOCKING(test_case, name, test_filter) \
if (ShouldRunTest(#name, test_filter)) { \
set_callback_type(PP_BLOCKING); \
PP_TimeTicks start_time(NowInTimeTicks()); \
instance_->LogTest( \
#name"Blocking", \
CheckResourcesAndVars(RunOnThread(&test_case::Test##name)), \
start_time); \
}
#define RUN_TEST_BACKGROUND(test_case, name, test_filter) \
if (ShouldRunTest(#name, test_filter)) { \
PP_TimeTicks start_time(NowInTimeTicks()); \
instance_->LogTest( \
#name"Background", \
CheckResourcesAndVars(RunOnThread(&test_case::Test##name)), \
start_time); \
}
#define RUN_TEST_FORCEASYNC_AND_NOT(name, test_filter) \
do { \
RUN_TEST_FORCEASYNC(name, test_filter); \
RUN_TEST(name, test_filter); \
} while (false)
// Run a test with all possible callback types.
#define RUN_CALLBACK_TEST(test_case, name, test_filter) \
do { \
RUN_TEST_FORCEASYNC(name, test_filter); \
RUN_TEST(name, test_filter); \
RUN_TEST_BLOCKING(test_case, name, test_filter); \
RUN_TEST_BACKGROUND(test_case, name, test_filter); \
} while (false)
#define RUN_TEST_WITH_REFERENCE_CHECK(name, test_filter) \
if (ShouldRunTest(#name, test_filter)) { \
set_callback_type(PP_OPTIONAL); \
uint32_t objects = testing_interface_->GetLiveObjectsForInstance( \
instance_->pp_instance()); \
std::string error_message = Test##name(); \
if (error_message.empty() && \
testing_interface_->GetLiveObjectsForInstance( \
instance_->pp_instance()) != objects) \
error_message = MakeFailureMessage(__FILE__, __LINE__, \
"reference leak check"); \
PP_TimeTicks start_time(NowInTimeTicks()); \
instance_->LogTest(#name, \
CheckResourcesAndVars(error_message), \
start_time); \
}
// TODO(dmichael): Add CheckResourcesAndVars above when Windows tests pass
// cleanly. crbug.com/173503
// Helper macros for checking values in tests, and returning a location
// description of the test fails.
#define ASSERT_TRUE(cmd) \
do { \
if (!(cmd)) \
return MakeFailureMessage(__FILE__, __LINE__, #cmd); \
} while (false)
#define ASSERT_FALSE(cmd) ASSERT_TRUE(!(cmd))
#define ASSERT_EQ(a, b) ASSERT_TRUE((a) == (b))
#define ASSERT_NE(a, b) ASSERT_TRUE((a) != (b))
#define ASSERT_LT(a, b) ASSERT_TRUE((a) < (b))
#define ASSERT_LE(a, b) ASSERT_TRUE((a) <= (b))
#define ASSERT_GT(a, b) ASSERT_TRUE((a) > (b))
#define ASSERT_GE(a, b) ASSERT_TRUE((a) >= (b))
#define ASSERT_DOUBLE_EQ(a, b) ASSERT_TRUE( \
std::fabs((a)-(b)) <= std::numeric_limits<double>::epsilon())
// Runs |function| as a subtest and asserts that it has passed.
#define ASSERT_SUBTEST_SUCCESS(function) \
do { \
std::string result = (function); \
if (!result.empty()) \
return result; \
} while (false)
#define PASS() return std::string()
#endif // PPAPI_TESTS_TEST_CASE_H_