// Copyright 2014 The Crashpad Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef CRASHPAD_TEST_MULTIPROCESS_H_ #define CRASHPAD_TEST_MULTIPROCESS_H_ #include #include #include "base/macros.h" #include "build/build_config.h" #include "util/file/file_io.h" namespace crashpad { namespace test { namespace internal { struct MultiprocessInfo; } // namespace internal #if defined(OS_FUCHSIA) using ReturnCodeType = int64_t; #else using ReturnCodeType = int; #endif //! \brief Manages a multiprocess test. //! //! These tests are `fork()`-based. The parent and child processes are able to //! communicate via a pair of POSIX pipes. //! //! Subclasses are expected to implement the parent and child by overriding the //! appropriate methods. //! //! On Windows and Fuchsia, this class is only an internal implementation //! detail of MultiprocessExec and all tests must use that class. class Multiprocess { public: //! \brief The termination type for a child process. enum TerminationReason : bool { //! \brief The child terminated normally. //! //! A normal return happens when a test returns from RunChild(), or for //! tests that `exec()`, returns from `main()`. This also happens for tests //! that call `exit()` or `_exit()`. kTerminationNormal = false, #if !defined(OS_FUCHSIA) // There are no signals on Fuchsia. //! \brief The child terminated by signal. //! //! Signal termination happens as a result of a crash, a call to `abort()`, //! assertion failure (including Google Test assertions), etc. kTerminationSignal, #endif // !defined(OS_FUCHSIA) }; Multiprocess(); //! \brief Runs the test. //! //! This method establishes the proper testing environment by calling //! PreFork(), then calls `fork()`. In the parent process, it calls //! RunParent(), and in the child process, it calls RunChild(). //! //! This method uses Google Test assertions to validate the testing //! environment. If the testing environment cannot be set up properly, it is //! possible that MultiprocessParent() or MultiprocessChild() will not be //! called. In the parent process, this method also waits for the child //! process to exit after MultiprocessParent() returns, and verifies that it //! exited in accordance with the expectations set by //! SetExpectedChildTermination(). void Run(); //! \brief Sets the expected termination reason and code. //! //! The default expected termination reason is //! TerminationReason::kTerminationNormal, and the default expected //! termination code is `EXIT_SUCCESS` (`0`). //! //! This method does not need to be called if the default termination //! expectation is appropriate, but if this method is called, it must be //! called before Run(). //! //! \param[in] reason Whether to expect the child to terminate normally or //! as a result of a signal. //! \param[in] code If \a reason is TerminationReason::kTerminationNormal, //! this is the expected exit status of the child. If \a reason is //! TerminationReason::kTerminationSignal, this is the signal that is //! expected to kill the child. On Linux platforms, SIG_DFL will be //! installed for \a code in the child process. void SetExpectedChildTermination(TerminationReason reason, ReturnCodeType code); #if !defined(OS_WIN) //! \brief Sets termination reason and code appropriately for a child that //! terminates via `__builtin_trap()`. void SetExpectedChildTerminationBuiltinTrap(); #endif // !OS_WIN protected: ~Multiprocess(); //! \brief Establishes the proper testing environment prior to forking. //! //! Subclasses that solely implement a test should not need to override this //! method. Subclasses that do not implement tests but instead implement //! additional testing features on top of this class may override this method //! provided that they call the superclass’ implementation first as follows: //! //! \code //! void PreFork() override { //! ASSERT_NO_FATAL_FAILURE(Multiprocess::PreFork()); //! //! // Place subclass-specific pre-fork code here. //! } //! \endcode //! //! Subclass implementations may signal failure by raising their own fatal //! Google Test assertions. virtual void PreFork() #if defined(OS_WIN) || defined(OS_FUCHSIA) = 0 #endif // OS_WIN || OS_FUCHSIA ; #if !defined(OS_WIN) && !defined(OS_FUCHSIA) //! \brief Returns the child process’ process ID. //! //! This method may only be called by the parent process. pid_t ChildPID() const; #endif // !OS_WIN && !OS_FUCHSIA //! \brief Returns the read pipe’s file handle. //! //! This method may be called by either the parent or the child process. //! Anything written to the write pipe in the partner process will appear //! on this file handle in this process. //! //! It is an error to call this after CloseReadPipe() has been called. //! //! \return The read pipe’s file handle. FileHandle ReadPipeHandle() const; //! \brief Returns the write pipe’s file handle. //! //! This method may be called by either the parent or the child process. //! Anything written to this file handle in this process will appear on //! the read pipe in the partner process. //! //! It is an error to call this after CloseWritePipe() has been called. //! //! \return The write pipe’s file handle. FileHandle WritePipeHandle() const; //! \brief Closes the read pipe. //! //! This method may be called by either the parent or the child process. An //! attempt to write to the write pipe in the partner process will fail with //! `EPIPE` or `SIGPIPE`. ReadPipeHandle() must not be called after this. void CloseReadPipe(); //! \brief Closes the write pipe. //! //! This method may be called by either the parent or the child process. An //! attempt to read from the read pipe in the partner process will indicate //! end-of-file. WritePipeHandle() must not be called after this. void CloseWritePipe(); void set_info(internal::MultiprocessInfo* info) { info_ = info; } internal::MultiprocessInfo* info() { return info_; } private: //! \brief Runs the parent side of the test. //! //! This method establishes the parent’s environment and calls //! MultiprocessParent(). void RunParent(); //! \brief Runs the child side of the test. //! //! This method establishes the child’s environment, calls //! MultiprocessChild(), and exits cleanly by calling `_exit(0)`. However, if //! any failure (via fatal or nonfatal Google Test assertion) is detected, the //! child will exit with a failure status. void RunChild(); //! \brief The subclass-provided parent routine. //! //! Test failures should be reported via Google Test: `EXPECT_*()`, //! `ASSERT_*()`, `FAIL()`, etc. //! //! This method must not use a `wait()`-family system call to wait for the //! child process to exit, as this is handled by this class. //! //! Subclasses must implement this method to define how the parent operates. virtual void MultiprocessParent() = 0; //! \brief The subclass-provided child routine. //! //! Test failures should be reported via Google Test: `EXPECT_*()`, //! `ASSERT_*()`, `FAIL()`, etc. //! //! Subclasses must implement this method to define how the child operates. //! Subclasses may exit with a failure status by using `LOG(FATAL)`, //! `abort()`, or similar. They may exit cleanly by returning from this method //! or by calling `_exit(0)`. Under no circumstances may `exit()` be called //! by the child without having the child process `exec()`. Use //! MultiprocessExec if the child should call `exec()`. virtual void MultiprocessChild() = 0; internal::MultiprocessInfo* info_; ReturnCodeType code_; TerminationReason reason_; DISALLOW_COPY_AND_ASSIGN(Multiprocess); }; } // namespace test } // namespace crashpad #endif // CRASHPAD_TEST_MULTIPROCESS_H_