/* * Copyright (C) 2014 The Android Open Source Project * * 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. */ #ifdef __ANDROID__ #include #else #include #include #endif #include #include #include #include #include "sigchain.h" #if defined(__APPLE__) #define _NSIG NSIG #define sighandler_t sig_t #endif namespace art { typedef int (*SigActionFnPtr)(int, const struct sigaction*, struct sigaction*); class SignalAction { public: SignalAction() : claimed_(false), uses_old_style_(false), special_handler_(nullptr) { } // Claim the signal and keep the action specified. void Claim(const struct sigaction& action) { action_ = action; claimed_ = true; } // Unclaim the signal and restore the old action. void Unclaim(int signal) { claimed_ = false; sigaction(signal, &action_, nullptr); // Restore old action. } // Get the action associated with this signal. const struct sigaction& GetAction() const { return action_; } // Is the signal claimed? bool IsClaimed() const { return claimed_; } // Change the recorded action to that specified. // If oldstyle is true then this action is from an older style signal() // call as opposed to sigaction(). In this case the sa_handler is // used when invoking the user's handler. void SetAction(const struct sigaction& action, bool oldstyle) { action_ = action; uses_old_style_ = oldstyle; } bool OldStyle() const { return uses_old_style_; } void SetSpecialHandler(SpecialSignalHandlerFn fn) { special_handler_ = fn; } SpecialSignalHandlerFn GetSpecialHandler() { return special_handler_; } private: struct sigaction action_; // Action to be performed. bool claimed_; // Whether signal is claimed or not. bool uses_old_style_; // Action is created using signal(). Use sa_handler. SpecialSignalHandlerFn special_handler_; // A special handler executed before user handlers. }; // User's signal handlers static SignalAction user_sigactions[_NSIG]; static bool initialized; static void* linked_sigaction_sym; static void* linked_sigprocmask_sym; static void log(const char* format, ...) { char buf[256]; va_list ap; va_start(ap, format); vsnprintf(buf, sizeof(buf), format, ap); #ifdef __ANDROID__ __android_log_write(ANDROID_LOG_ERROR, "libsigchain", buf); #else std::cout << buf << "\n"; #endif va_end(ap); } static void CheckSignalValid(int signal) { if (signal <= 0 || signal >= _NSIG) { log("Invalid signal %d", signal); abort(); } } // Sigchainlib's own handler so we can ensure a managed handler is called first even if nobody // claimed a chain. Simply forward to InvokeUserSignalHandler. static void sigchainlib_managed_handler_sigaction(int sig, siginfo_t* info, void* context) { InvokeUserSignalHandler(sig, info, context); } // Claim a signal chain for a particular signal. extern "C" void ClaimSignalChain(int signal, struct sigaction* oldaction) { CheckSignalValid(signal); user_sigactions[signal].Claim(*oldaction); } extern "C" void UnclaimSignalChain(int signal) { CheckSignalValid(signal); user_sigactions[signal].Unclaim(signal); } // Invoke the user's signal handler. extern "C" void InvokeUserSignalHandler(int sig, siginfo_t* info, void* context) { // Check the arguments. CheckSignalValid(sig); // The signal must have been claimed in order to get here. Check it. if (!user_sigactions[sig].IsClaimed()) { abort(); } // Do we have a managed handler? If so, run it first. SpecialSignalHandlerFn managed = user_sigactions[sig].GetSpecialHandler(); if (managed != nullptr) { sigset_t mask, old_mask; sigfillset(&mask); sigprocmask(SIG_BLOCK, &mask, &old_mask); // Call the handler. If it succeeds, we're done. if (managed(sig, info, context)) { sigprocmask(SIG_SETMASK, &old_mask, nullptr); return; } sigprocmask(SIG_SETMASK, &old_mask, nullptr); } const struct sigaction& action = user_sigactions[sig].GetAction(); if (user_sigactions[sig].OldStyle()) { if (action.sa_handler != nullptr) { action.sa_handler(sig); } else { signal(sig, SIG_DFL); raise(sig); } } else { if (action.sa_sigaction != nullptr) { sigset_t old_mask; sigprocmask(SIG_BLOCK, &action.sa_mask, &old_mask); action.sa_sigaction(sig, info, context); sigprocmask(SIG_SETMASK, &old_mask, nullptr); } else { signal(sig, SIG_DFL); raise(sig); } } } extern "C" void EnsureFrontOfChain(int signal, struct sigaction* expected_action) { CheckSignalValid(signal); // Read the current action without looking at the chain, it should be the expected action. SigActionFnPtr linked_sigaction = reinterpret_cast(linked_sigaction_sym); struct sigaction current_action; linked_sigaction(signal, nullptr, ¤t_action); // If the sigactions don't match then we put the current action on the chain and make ourself as // the main action. if (current_action.sa_sigaction != expected_action->sa_sigaction) { log("Warning: Unexpected sigaction action found %p\n", current_action.sa_sigaction); user_sigactions[signal].Claim(current_action); linked_sigaction(signal, expected_action, nullptr); } } extern "C" int sigaction(int signal, const struct sigaction* new_action, struct sigaction* old_action) { // If this signal has been claimed as a signal chain, record the user's // action but don't pass it on to the kernel. // Note that we check that the signal number is in range here. An out of range signal // number should behave exactly as the libc sigaction. if (signal > 0 && signal < _NSIG && user_sigactions[signal].IsClaimed() && (new_action == nullptr || new_action->sa_handler != SIG_DFL)) { struct sigaction saved_action = user_sigactions[signal].GetAction(); if (new_action != nullptr) { user_sigactions[signal].SetAction(*new_action, false); } if (old_action != nullptr) { *old_action = saved_action; } return 0; } // Will only get here if the signal chain has not been claimed. We want // to pass the sigaction on to the kernel via the real sigaction in libc. if (linked_sigaction_sym == nullptr) { // Perform lazy initialization. // This will only occur outside of a signal context since we have // not been initialized and therefore cannot be within the ART // runtime. InitializeSignalChain(); } if (linked_sigaction_sym == nullptr) { log("Unable to find next sigaction in signal chain"); abort(); } SigActionFnPtr linked_sigaction = reinterpret_cast(linked_sigaction_sym); return linked_sigaction(signal, new_action, old_action); } extern "C" sighandler_t signal(int signal, sighandler_t handler) { struct sigaction sa; sigemptyset(&sa.sa_mask); sa.sa_handler = handler; sa.sa_flags = SA_RESTART; sighandler_t oldhandler; // If this signal has been claimed as a signal chain, record the user's // action but don't pass it on to the kernel. // Note that we check that the signal number is in range here. An out of range signal // number should behave exactly as the libc sigaction. if (signal > 0 && signal < _NSIG && user_sigactions[signal].IsClaimed() && handler != SIG_DFL) { oldhandler = reinterpret_cast(user_sigactions[signal].GetAction().sa_handler); user_sigactions[signal].SetAction(sa, true); return oldhandler; } // Will only get here if the signal chain has not been claimed. We want // to pass the sigaction on to the kernel via the real sigaction in libc. if (linked_sigaction_sym == nullptr) { // Perform lazy initialization. InitializeSignalChain(); } if (linked_sigaction_sym == nullptr) { log("Unable to find next sigaction in signal chain"); abort(); } typedef int (*SigAction)(int, const struct sigaction*, struct sigaction*); SigAction linked_sigaction = reinterpret_cast(linked_sigaction_sym); if (linked_sigaction(signal, &sa, &sa) == -1) { return SIG_ERR; } return reinterpret_cast(sa.sa_handler); } extern "C" int sigprocmask(int how, const sigset_t* bionic_new_set, sigset_t* bionic_old_set) { const sigset_t* new_set_ptr = bionic_new_set; sigset_t tmpset; if (bionic_new_set != nullptr) { tmpset = *bionic_new_set; if (how == SIG_BLOCK) { // Don't allow claimed signals in the mask. If a signal chain has been claimed // we can't allow the user to block that signal. for (int i = 0 ; i < _NSIG; ++i) { if (user_sigactions[i].IsClaimed() && sigismember(&tmpset, i)) { sigdelset(&tmpset, i); } } } new_set_ptr = &tmpset; } if (linked_sigprocmask_sym == nullptr) { // Perform lazy initialization. InitializeSignalChain(); } if (linked_sigprocmask_sym == nullptr) { log("Unable to find next sigprocmask in signal chain"); abort(); } typedef int (*SigProcMask)(int how, const sigset_t*, sigset_t*); SigProcMask linked_sigprocmask= reinterpret_cast(linked_sigprocmask_sym); return linked_sigprocmask(how, new_set_ptr, bionic_old_set); } extern "C" void InitializeSignalChain() { // Warning. // Don't call this from within a signal context as it makes calls to // dlsym. Calling into the dynamic linker will result in locks being // taken and if it so happens that a signal occurs while one of these // locks is already taken, dlsym will block trying to reenter a // mutex and we will never get out of it. if (initialized) { // Don't initialize twice. return; } linked_sigaction_sym = dlsym(RTLD_NEXT, "sigaction"); if (linked_sigaction_sym == nullptr) { linked_sigaction_sym = dlsym(RTLD_DEFAULT, "sigaction"); if (linked_sigaction_sym == nullptr || linked_sigaction_sym == reinterpret_cast(sigaction)) { linked_sigaction_sym = nullptr; } } linked_sigprocmask_sym = dlsym(RTLD_NEXT, "sigprocmask"); if (linked_sigprocmask_sym == nullptr) { linked_sigprocmask_sym = dlsym(RTLD_DEFAULT, "sigprocmask"); if (linked_sigprocmask_sym == nullptr || linked_sigprocmask_sym == reinterpret_cast(sigprocmask)) { linked_sigprocmask_sym = nullptr; } } initialized = true; } extern "C" void SetSpecialSignalHandlerFn(int signal, SpecialSignalHandlerFn fn) { CheckSignalValid(signal); // Set the managed_handler. user_sigactions[signal].SetSpecialHandler(fn); // In case the chain isn't claimed, claim it for ourself so we can ensure the managed handler // goes first. if (!user_sigactions[signal].IsClaimed()) { struct sigaction act, old_act; act.sa_sigaction = sigchainlib_managed_handler_sigaction; sigemptyset(&act.sa_mask); act.sa_flags = SA_SIGINFO | SA_ONSTACK; #if !defined(__APPLE__) && !defined(__mips__) act.sa_restorer = nullptr; #endif if (sigaction(signal, &act, &old_act) != -1) { user_sigactions[signal].Claim(old_act); } } } } // namespace art