// Copyright (c) 2010 Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #ifndef CLIENT_LINUX_HANDLER_EXCEPTION_HANDLER_H_ #define CLIENT_LINUX_HANDLER_EXCEPTION_HANDLER_H_ #include #include #include #include #include #include "client/linux/crash_generation/crash_generation_client.h" #include "client/linux/handler/minidump_descriptor.h" #include "client/linux/minidump_writer/minidump_writer.h" #include "common/scoped_ptr.h" #include "common/using_std_string.h" #include "google_breakpad/common/minidump_format.h" namespace google_breakpad { // ExceptionHandler // // ExceptionHandler can write a minidump file when an exception occurs, // or when WriteMinidump() is called explicitly by your program. // // To have the exception handler write minidumps when an uncaught exception // (crash) occurs, you should create an instance early in the execution // of your program, and keep it around for the entire time you want to // have crash handling active (typically, until shutdown). // (NOTE): There should be only be one this kind of exception handler // object per process. // // If you want to write minidumps without installing the exception handler, // you can create an ExceptionHandler with install_handler set to false, // then call WriteMinidump. You can also use this technique if you want to // use different minidump callbacks for different call sites. // // In either case, a callback function is called when a minidump is written, // which receives the full path or file descriptor of the minidump. The // caller can collect and write additional application state to that minidump, // and launch an external crash-reporting application. // // Caller should try to make the callbacks as crash-friendly as possible, // it should avoid use heap memory allocation as much as possible. class ExceptionHandler { public: // A callback function to run before Breakpad performs any substantial // processing of an exception. A FilterCallback is called before writing // a minidump. |context| is the parameter supplied by the user as // callback_context when the handler was created. // // If a FilterCallback returns true, Breakpad will continue processing, // attempting to write a minidump. If a FilterCallback returns false, // Breakpad will immediately report the exception as unhandled without // writing a minidump, allowing another handler the opportunity to handle it. typedef bool (*FilterCallback)(void* context); // A callback function to run after the minidump has been written. // |descriptor| contains the file descriptor or file path containing the // minidump. |context| is the parameter supplied by the user as // callback_context when the handler was created. |succeeded| indicates // whether a minidump file was successfully written. // // If an exception occurred and the callback returns true, Breakpad will // treat the exception as fully-handled, suppressing any other handlers from // being notified of the exception. If the callback returns false, Breakpad // will treat the exception as unhandled, and allow another handler to handle // it. If there are no other handlers, Breakpad will report the exception to // the system as unhandled, allowing a debugger or native crash dialog the // opportunity to handle the exception. Most callback implementations // should normally return the value of |succeeded|, or when they wish to // not report an exception of handled, false. Callbacks will rarely want to // return true directly (unless |succeeded| is true). typedef bool (*MinidumpCallback)(const MinidumpDescriptor& descriptor, void* context, bool succeeded); // In certain cases, a user may wish to handle the generation of the minidump // themselves. In this case, they can install a handler callback which is // called when a crash has occurred. If this function returns true, no other // processing of occurs and the process will shortly be crashed. If this // returns false, the normal processing continues. typedef bool (*HandlerCallback)(const void* crash_context, size_t crash_context_size, void* context); // Creates a new ExceptionHandler instance to handle writing minidumps. // Before writing a minidump, the optional |filter| callback will be called. // Its return value determines whether or not Breakpad should write a // minidump. The minidump content will be written to the file path or file // descriptor from |descriptor|, and the optional |callback| is called after // writing the dump file, as described above. // If install_handler is true, then a minidump will be written whenever // an unhandled exception occurs. If it is false, minidumps will only // be written when WriteMinidump is called. // If |server_fd| is valid, the minidump is generated out-of-process. If it // is -1, in-process generation will always be used. ExceptionHandler(const MinidumpDescriptor& descriptor, FilterCallback filter, MinidumpCallback callback, void* callback_context, bool install_handler, const int server_fd); ~ExceptionHandler(); const MinidumpDescriptor& minidump_descriptor() const { return minidump_descriptor_; } void set_minidump_descriptor(const MinidumpDescriptor& descriptor) { minidump_descriptor_ = descriptor; } void set_crash_handler(HandlerCallback callback) { crash_handler_ = callback; } void set_crash_generation_client(CrashGenerationClient* client) { crash_generation_client_.reset(client); } // Writes a minidump immediately. This can be used to capture the execution // state independently of a crash. // Returns true on success. // If the ExceptionHandler has been created with a path, a new file is // generated for each minidump. The file path can be retrieved in the // MinidumpDescriptor passed to the MinidumpCallback or by accessing the // MinidumpDescriptor directly from the ExceptionHandler (with // minidump_descriptor()). // If the ExceptionHandler has been created with a file descriptor, the file // descriptor is repositioned to its beginning and the previous generated // minidump is overwritten. // Note that this method is not supposed to be called from a compromised // context as it uses the heap. bool WriteMinidump(); // Convenience form of WriteMinidump which does not require an // ExceptionHandler instance. static bool WriteMinidump(const string& dump_path, MinidumpCallback callback, void* callback_context); // Write a minidump of |child| immediately. This can be used to // capture the execution state of |child| independently of a crash. // Pass a meaningful |child_blamed_thread| to make that thread in // the child process the one from which a crash signature is // extracted. // // WARNING: the return of this function *must* happen before // the code that will eventually reap |child| executes. // Otherwise there's a pernicious race condition in which |child| // exits, is reaped, another process created with its pid, then that // new process dumped. static bool WriteMinidumpForChild(pid_t child, pid_t child_blamed_thread, const string& dump_path, MinidumpCallback callback, void* callback_context); // This structure is passed to minidump_writer.h:WriteMinidump via an opaque // blob. It shouldn't be needed in any user code. struct CrashContext { siginfo_t siginfo; pid_t tid; // the crashing thread. ucontext_t context; #if !defined(__ARM_EABI__) && !defined(__mips__) // #ifdef this out because FP state is not part of user ABI for Linux ARM. // In case of MIPS Linux FP state is already part of ucontext_t so // 'float_state' is not required. fpstate_t float_state; #endif }; // Returns whether out-of-process dump generation is used or not. bool IsOutOfProcess() const { return crash_generation_client_.get() != NULL; } // Add information about a memory mapping. This can be used if // a custom library loader is used that maps things in a way // that the linux dumper can't handle by reading the maps file. void AddMappingInfo(const string& name, const uint8_t identifier[sizeof(MDGUID)], uintptr_t start_address, size_t mapping_size, size_t file_offset); // Register a block of memory of length bytes starting at address ptr // to be copied to the minidump when a crash happens. void RegisterAppMemory(void* ptr, size_t length); // Unregister a block of memory that was registered with RegisterAppMemory. void UnregisterAppMemory(void* ptr); // Force signal handling for the specified signal. bool SimulateSignalDelivery(int sig); // Report a crash signal from an SA_SIGINFO signal handler. bool HandleSignal(int sig, siginfo_t* info, void* uc); private: // Save the old signal handlers and install new ones. static bool InstallHandlersLocked(); // Restore the old signal handlers. static void RestoreHandlersLocked(); void PreresolveSymbols(); bool GenerateDump(CrashContext* context); void SendContinueSignalToChild(); void WaitForContinueSignal(); static void SignalHandler(int sig, siginfo_t* info, void* uc); static int ThreadEntry(void* arg); bool DoDump(pid_t crashing_process, const void* context, size_t context_size); const FilterCallback filter_; const MinidumpCallback callback_; void* const callback_context_; scoped_ptr crash_generation_client_; MinidumpDescriptor minidump_descriptor_; // Must be volatile. The compiler is unaware of the code which runs in // the signal handler which reads this variable. Without volatile the // compiler is free to optimise away writes to this variable which it // believes are never read. volatile HandlerCallback crash_handler_; // We need to explicitly enable ptrace of parent processes on some // kernels, but we need to know the PID of the cloned process before we // can do this. We create a pipe which we can use to block the // cloned process after creating it, until we have explicitly enabled // ptrace. This is used to store the file descriptors for the pipe int fdes[2] = {-1, -1}; // Callers can add extra info about mappings for cases where the // dumper code cannot extract enough information from /proc//maps. MappingList mapping_list_; // Callers can request additional memory regions to be included in // the dump. AppMemoryList app_memory_list_; }; typedef bool (*FirstChanceHandler)(int, siginfo_t*, void*); void SetFirstChanceExceptionHandler(FirstChanceHandler callback); } // namespace google_breakpad #endif // CLIENT_LINUX_HANDLER_EXCEPTION_HANDLER_H_