// Copyright 2017 The Crashpad Authors // // 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_UTIL_POSIX_SIGNALS_H_ #define CRASHPAD_UTIL_POSIX_SIGNALS_H_ #include #include namespace crashpad { //! \brief Utilities for handling POSIX signals. class Signals { public: //! \brief A signal number used by Crashpad to simulate signals. static constexpr int kSimulatedSigno = -1; //! \brief The type used for `struct sigaction::sa_sigaction`. using Handler = void (*)(int, siginfo_t*, void*); //! \brief A group of `struct sigaction` structures corresponding to a set //! of signals’ previous actions, addressable by signal number. //! //! This type is used to store previous signal actions when new actions are //! installed in batch by InstallCrashHandlers() or //! InstallTerminateHandlers(). //! //! This object is not initialized by any constructor. Its expected initial //! state is to have its contents filled with zeroes. Because signal handlers //! are stateless (there is no “context” parameter), any state must be //! accessed via objects of static storage duration, and it is expected that //! objects of this class will only ever exist with static storage duration, //! which in the absence of a constructor will be zero-initialized as //! expected. In the event that an object of this class must exist with a //! different storage duration, such as automatic or dynamic storage duration, //! it must be explicitly initialized. For example: `OldActions old_actions = //! {};`. class OldActions { public: // DISALLOW_COPY_AND_ASSIGN removes the default constructor, so explicitly // opt for it. This should not result in any static initialization code even // when an object of this class is given static storage duration. OldActions() = default; OldActions(const OldActions&) = delete; OldActions& operator=(const OldActions&) = delete; //! \brief Returns a `struct sigaction` structure corresponding to the //! given signal. //! //! \note This method is safe to call from a signal handler. struct sigaction* ActionForSignal(int sig); private: // As a small storage optimization, don’t waste any space on a slot for // signal 0, because there is no signal 0. struct sigaction actions_[NSIG - 1]; }; Signals() = delete; Signals(const Signals&) = delete; Signals& operator=(const Signals&) = delete; //! \brief Installs a new signal handler. //! //! \param[in] sig The signal number to handle. //! \param[in] handler A signal-handling function to execute, used as the //! `struct sigaction::sa_sigaction` field when calling `sigaction()`. //! \param[in] flags Flags to pass to `sigaction()` in the `struct //! sigaction::sa_flags` field. `SA_SIGINFO` will be specified implicitly. //! \param[out] old_action The previous action for the signal, replaced by the //! new action. May be `nullptr` if not needed. //! //! \return `true` on success. `false` on failure with a message logged. //! //! \warning This function may not be called from a signal handler because of //! its use of logging. See RestoreHandlerAndReraiseSignalOnReturn() //! instead. static bool InstallHandler(int sig, Handler handler, int flags, struct sigaction* old_action); //! \brief Installs `SIG_DFL` for the signal \a sig. //! //! \param[in] sig The signal to set the default action for. //! //! \return `true` on success, `false` on failure with errno set. No message //! is logged. static bool InstallDefaultHandler(int sig); //! \brief Installs a new signal handler for all signals associated with //! crashes. //! //! Signals associated with crashes are those whose default dispositions //! involve creating a core dump. The precise set of signals involved varies //! between operating systems. //! //! A single signal may either be associated with a crash or with termination //! (see InstallTerminateHandlers()), and perhaps neither, but never both. //! //! \param[in] handler A signal-handling function to execute, used as the //! `struct sigaction::sa_sigaction` field when calling `sigaction()`. //! \param[in] flags Flags to pass to `sigaction()` in the `struct //! sigaction::sa_flags` field. `SA_SIGINFO` will be specified implicitly. //! \param[out] old_actions The previous actions for the signals, replaced by //! the new action. May be `nullptr` if not needed. The same \a //! old_actions object may be used for calls to both this function and //! InstallTerminateHandlers(). //! \param[in] unhandled_signals Signal handlers will not be installed for //! signal numbers in this set. Optional. //! //! \return `true` on success. `false` on failure with a message logged. //! //! \warning This function may not be called from a signal handler because of //! its use of logging. See RestoreHandlerAndReraiseSignalOnReturn() //! instead. static bool InstallCrashHandlers( Handler handler, int flags, OldActions* old_actions, const std::set* unhandled_signals = nullptr); //! \brief Installs a new signal handler for all signals associated with //! termination. //! //! Signals associated with termination are those whose default dispositions //! involve terminating the process without creating a core dump. The precise //! set of signals involved varies between operating systems. //! //! A single signal may either be associated with termination or with a //! crash (see InstalCrashHandlers()), and perhaps neither, but never both. //! //! \param[in] handler A signal-handling function to execute, used as the //! `struct sigaction::sa_sigaction` field when calling `sigaction()`. //! \param[in] flags Flags to pass to `sigaction()` in the `struct //! sigaction::sa_flags` field. `SA_SIGINFO` will be specified implicitly. //! \param[out] old_actions The previous actions for the signals, replaced by //! the new action. May be `nullptr` if not needed. The same \a //! old_actions object may be used for calls to both this function and //! InstallCrashHandlers(). //! //! \return `true` on success. `false` on failure with a message logged. //! //! \warning This function may not be called from a signal handler because of //! its use of logging. See RestoreHandlerAndReraiseSignalOnReturn() //! instead. static bool InstallTerminateHandlers(Handler handler, int flags, OldActions* old_actions); //! \brief Determines whether a signal will be re-raised autonomously upon //! return from a signal handler. //! //! Certain signals, when generated synchronously in response to a hardware //! fault, are unrecoverable. Upon return from the signal handler, the same //! action that triggered the signal to be raised initially will be retried, //! and unless the signal handler took action to mitigate this error, the same //! signal will be re-raised. As an example, a CPU will not be able to read //! unmapped memory (causing `SIGSEGV`), thus the signal will be re-raised //! upon return from the signal handler unless the signal handler established //! a memory mapping where required. //! //! It is important to distinguish between these synchronous signals generated //! in response to a hardware fault and signals generated asynchronously or in //! software. As an example, `SIGSEGV` will not re-raise autonomously if sent //! by `kill()`. //! //! This function distinguishes between signals that can re-raise //! autonomously, and for those that can, between instances of the signal that //! were generated synchronously in response to a hardware fault and instances //! that were generated by other means. //! //! \param[in] siginfo A pointer to a `siginfo_t` object received by a signal //! handler. //! //! \return `true` if the signal being handled will re-raise itself //! autonomously upon return from a signal handler. `false` if it will //! not. When this function returns `false`, a signal can still be //! re-raised upon return from a signal handler by calling `raise()` from //! within the signal handler. //! //! \note This function is safe to call from a signal handler. static bool WillSignalReraiseAutonomously(const siginfo_t* siginfo); //! \brief Restores a previous signal action and arranges to re-raise a signal //! on return from a signal handler. //! //! \param[in] siginfo A pointer to a `siginfo_t` object received by a signal //! handler. //! \param[in] old_action The previous action for the signal, which will be //! re-established as the signal’s action. May be `nullptr`, which directs //! the default action for the signal to be used. //! //! If this function fails, it will immediately call `_exit()` and set an exit //! status of `191`. //! //! \note This function may only be called from a signal handler. static void RestoreHandlerAndReraiseSignalOnReturn( const siginfo_t* siginfo, const struct sigaction* old_action); //! \brief Determines whether a signal is associated with a crash. //! //! Signals associated with crashes are those whose default dispositions //! involve creating a core dump. The precise set of signals involved varies //! between operating systems. //! //! \param[in] sig The signal to test. //! //! \return `true` if \a sig is associated with a crash. `false` otherwise. //! //! \note This function is safe to call from a signal handler. static bool IsCrashSignal(int sig); //! \brief Determines whether a signal is associated with termination. //! //! Signals associated with termination are those whose default dispositions //! involve terminating the process without creating a core dump. The precise //! set of signals involved varies between operating systems. //! //! \param[in] sig The signal to test. //! //! \return `true` if \a sig is associated with termination. `false` //! otherwise. //! //! \note This function is safe to call from a signal handler. static bool IsTerminateSignal(int sig); }; } // namespace crashpad #endif // CRASHPAD_UTIL_POSIX_SIGNALS_H_