// Copyright 2016 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 MOJO_CORE_TEST_MOJO_TEST_BASE_H_ #define MOJO_CORE_TEST_MOJO_TEST_BASE_H_ #include #include #include #include "base/bind.h" #include "base/callback.h" #include "base/logging.h" #include "base/macros.h" #include "base/memory/ref_counted.h" #include "build/build_config.h" #include "mojo/core/test/multiprocess_test_helper.h" #include "mojo/public/c/system/trap.h" #include "mojo/public/c/system/types.h" #include "mojo/public/cpp/system/message_pipe.h" #include "testing/gtest/include/gtest/gtest.h" namespace mojo { namespace core { namespace test { class MojoTestBase : public testing::Test { public: MojoTestBase(); ~MojoTestBase() override; using LaunchType = MultiprocessTestHelper::LaunchType; using HandlerCallback = base::Callback; class ClientController { public: ClientController(const std::string& client_name, MojoTestBase* test, LaunchType launch_type); ~ClientController(); MojoHandle pipe() const { return pipe_.get().value(); } int WaitForShutdown(); private: friend class MojoTestBase; #if !defined(OS_IOS) MultiprocessTestHelper helper_; #endif ScopedMessagePipeHandle pipe_; bool was_shutdown_ = false; DISALLOW_COPY_AND_ASSIGN(ClientController); }; ClientController& StartClient(const std::string& client_name); template void RunTestClient(const std::string& client_name, HandlerFunc handler) { EXPECT_EQ(0, RunTestClientAndGetExitCode(client_name, handler)); } template int RunTestClientAndGetExitCode(const std::string& client_name, HandlerFunc handler) { ClientController& c = StartClient(client_name); handler(c.pipe()); return c.WaitForShutdown(); } // Closes a handle and expects success. static void CloseHandle(MojoHandle h); ////// Message pipe test utilities /////// // Creates a new pipe, returning endpoint handles in |p0| and |p1|. static void CreateMessagePipe(MojoHandle* p0, MojoHandle* p1); // Writes a string to the pipe, transferring handles in the process. static void WriteMessageWithHandles(MojoHandle mp, const std::string& message, const MojoHandle* handles, uint32_t num_handles); // Writes a string to the pipe with no handles. static void WriteMessage(MojoHandle mp, const std::string& message); // Reads a string from the pipe, expecting to read an exact number of handles // in the process. Returns the read string. static std::string ReadMessageWithHandles(MojoHandle mp, MojoHandle* handles, uint32_t expected_num_handles); // Reads a string from the pipe, expecting either zero or one handles. // If no handle is read, |handle| will be reset. static std::string ReadMessageWithOptionalHandle(MojoHandle mp, MojoHandle* handle); // Reads a string from the pipe, expecting to read no handles. // Returns the string. static std::string ReadMessage(MojoHandle mp); // Reads a string from the pipe, expecting to read no handles and exactly // |num_bytes| bytes, which are read into |data|. static void ReadMessage(MojoHandle mp, char* data, size_t num_bytes); // Writes |message| to |in| and expects to read it back from |out|. static void VerifyTransmission(MojoHandle in, MojoHandle out, const std::string& message); // Writes |message| to |mp| and expects to read it back from the same handle. static void VerifyEcho(MojoHandle mp, const std::string& message); //////// Shared buffer test utilities ///////// // Creates a new shared buffer. static MojoHandle CreateBuffer(uint64_t size); // Duplicates a shared buffer to a new handle. static MojoHandle DuplicateBuffer(MojoHandle h, bool read_only); // Maps a buffer, writes some data into it, and unmaps it. static void WriteToBuffer(MojoHandle h, size_t offset, const base::StringPiece& s); // Maps a buffer, tests the value of some of its contents, and unmaps it. static void ExpectBufferContents(MojoHandle h, size_t offset, const base::StringPiece& s); //////// Data pipe test utilities ///////// // Creates a new data pipe. static void CreateDataPipe(MojoHandle* producer, MojoHandle* consumer, size_t capacity); // Writes data to a data pipe. static void WriteData(MojoHandle producer, const std::string& data); // Reads data from a data pipe. static std::string ReadData(MojoHandle consumer, size_t size); // Queries the signals state of |handle|. static MojoHandleSignalsState GetSignalsState(MojoHandle handle); // Helper to block the calling thread waiting for signals to go high or low. static MojoResult WaitForSignals(MojoHandle handle, MojoHandleSignals signals, MojoTriggerCondition condition, MojoHandleSignalsState* state = nullptr); // Like above but only waits for signals to go high. static MojoResult WaitForSignals(MojoHandle handle, MojoHandleSignals signals, MojoHandleSignalsState* state = nullptr); void set_launch_type(LaunchType launch_type) { launch_type_ = launch_type; } private: friend class ClientController; std::vector> clients_; LaunchType launch_type_ = LaunchType::CHILD; DISALLOW_COPY_AND_ASSIGN(MojoTestBase); }; // Use this to declare the child process's "main()" function for tests using // MojoTestBase and MultiprocessTestHelper. It returns an |int|, which will // will be the process's exit code (but see the comment about // WaitForChildShutdown()). // // The function is defined as a subclass of |test_base| to facilitate shared // code between test clients and to allow clients to spawn children // themselves. // // |pipe_name| will be bound to the MojoHandle of a message pipe connected // to the test process (see RunTestClient* above.) This pipe handle is // automatically closed on test client teardown. #if !defined(OS_IOS) #define DEFINE_TEST_CLIENT_WITH_PIPE(client_name, test_base, pipe_name) \ class client_name##_MainFixture : public test_base { \ void TestBody() override {} \ \ public: \ int Main(MojoHandle); \ }; \ MULTIPROCESS_TEST_MAIN_WITH_SETUP( \ client_name##TestChildMain, \ ::mojo::core::test::MultiprocessTestHelper::ChildSetup) { \ client_name##_MainFixture test; \ return ::mojo::core::test::MultiprocessTestHelper::RunClientMain( \ base::Bind(&client_name##_MainFixture::Main, \ base::Unretained(&test))); \ } \ int client_name##_MainFixture::Main(MojoHandle pipe_name) // This is a version of DEFINE_TEST_CLIENT_WITH_PIPE which can be used with // gtest ASSERT/EXPECT macros. #define DEFINE_TEST_CLIENT_TEST_WITH_PIPE(client_name, test_base, pipe_name) \ class client_name##_MainFixture : public test_base { \ void TestBody() override {} \ \ public: \ void Main(MojoHandle); \ }; \ MULTIPROCESS_TEST_MAIN_WITH_SETUP( \ client_name##TestChildMain, \ ::mojo::core::test::MultiprocessTestHelper::ChildSetup) { \ client_name##_MainFixture test; \ return ::mojo::core::test::MultiprocessTestHelper::RunClientTestMain( \ base::Bind(&client_name##_MainFixture::Main, \ base::Unretained(&test))); \ } \ void client_name##_MainFixture::Main(MojoHandle pipe_name) #else // !defined(OS_IOS) #define DEFINE_TEST_CLIENT_WITH_PIPE(client_name, test_base, pipe_name) #define DEFINE_TEST_CLIENT_TEST_WITH_PIPE(client_name, test_base, pipe_name) #endif // !defined(OS_IOS) } // namespace test } // namespace core } // namespace mojo #endif // MOJO_CORE_TEST_MOJO_TEST_BASE_H_