// Copyright (c) 2006, 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. // 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). // // 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 unqiue id of the minidump. The caller can use this // id to collect and write additional application state, and to launch an // external crash-reporting application. // // It is important that creation and destruction of ExceptionHandler objects // be nested cleanly, when using install_handler = true. // Avoid the following pattern: // ExceptionHandler *e = new ExceptionHandler(...); // ExceptionHandler *f = new ExceptionHandler(...); // delete e; // This will put the exception filter stack into an inconsistent state. #ifndef CLIENT_WINDOWS_HANDLER_EXCEPTION_HANDLER_H__ #define CLIENT_WINDOWS_HANDLER_EXCEPTION_HANDLER_H__ #include #include #include #include #pragma warning( push ) // Disable exception handler warnings. #pragma warning( disable : 4530 ) #include #include #include #include "client/windows/common/ipc_protocol.h" #include "client/windows/crash_generation/crash_generation_client.h" #include "google_breakpad/common/minidump_format.h" #include "processor/scoped_ptr.h" namespace google_breakpad { using std::vector; using std::wstring; // These entries store a list of memory regions that the client wants included // in the minidump. struct AppMemory { AppMemory(ULONG64 ptr, ULONG length) : ptr(ptr), length(length) {} ULONG64 ptr; ULONG length; }; typedef std::list AppMemoryList; 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. exinfo points to the // exception record, if any; assertion points to assertion information, // if any. // // 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, EXCEPTION_POINTERS* exinfo, MDRawAssertionInfo* assertion); // A callback function to run after the minidump has been written. // minidump_id is a unique id for the dump, so the minidump // file is \.dmp. context is the parameter supplied // by the user as callback_context when the handler was created. exinfo // points to the exception record, or NULL if no exception occurred. // succeeded indicates whether a minidump file was successfully written. // assertion points to information about an assertion if the handler was // invoked by an assertion. // // 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). // // For out-of-process dump generation, dump path and minidump ID will always // be NULL. In case of out-of-process dump generation, the dump path and // minidump id are controlled by the server process and are not communicated // back to the crashing process. typedef bool (*MinidumpCallback)(const wchar_t* dump_path, const wchar_t* minidump_id, void* context, EXCEPTION_POINTERS* exinfo, MDRawAssertionInfo* assertion, bool succeeded); // HandlerType specifies which types of handlers should be installed, if // any. Use HANDLER_NONE for an ExceptionHandler that remains idle, // without catching any failures on its own. This type of handler may // still be triggered by calling WriteMinidump. Otherwise, use a // combination of the other HANDLER_ values, or HANDLER_ALL to install // all handlers. enum HandlerType { HANDLER_NONE = 0, HANDLER_EXCEPTION = 1 << 0, // SetUnhandledExceptionFilter HANDLER_INVALID_PARAMETER = 1 << 1, // _set_invalid_parameter_handler HANDLER_PURECALL = 1 << 2, // _set_purecall_handler HANDLER_ALL = HANDLER_EXCEPTION | HANDLER_INVALID_PARAMETER | HANDLER_PURECALL }; // 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. Minidump files will be written to dump_path, and the optional // callback is called after writing the dump file, as described above. // handler_types specifies the types of handlers that should be installed. ExceptionHandler(const wstring& dump_path, FilterCallback filter, MinidumpCallback callback, void* callback_context, int handler_types); // Creates a new ExceptionHandler instance that can attempt to perform // out-of-process dump generation if pipe_name is not NULL. If pipe_name is // NULL, or if out-of-process dump generation registration step fails, // in-process dump generation will be used. This also allows specifying // the dump type to generate. ExceptionHandler(const wstring& dump_path, FilterCallback filter, MinidumpCallback callback, void* callback_context, int handler_types, MINIDUMP_TYPE dump_type, const wchar_t* pipe_name, const CustomClientInfo* custom_info); // As above, creates a new ExceptionHandler instance to perform // out-of-process dump generation if the given pipe_handle is not NULL. ExceptionHandler(const wstring& dump_path, FilterCallback filter, MinidumpCallback callback, void* callback_context, int handler_types, MINIDUMP_TYPE dump_type, HANDLE pipe_handle, const CustomClientInfo* custom_info); ~ExceptionHandler(); // Get and set the minidump path. wstring dump_path() const { return dump_path_; } void set_dump_path(const wstring &dump_path) { dump_path_ = dump_path; dump_path_c_ = dump_path_.c_str(); UpdateNextID(); // Necessary to put dump_path_ in next_minidump_path_. } // Requests that a previously reported crash be uploaded. bool RequestUpload(DWORD crash_id); // Writes a minidump immediately. This can be used to capture the // execution state independently of a crash. Returns true on success. bool WriteMinidump(); // Writes a minidump immediately, with the user-supplied exception // information. bool WriteMinidumpForException(EXCEPTION_POINTERS* exinfo); // Convenience form of WriteMinidump which does not require an // ExceptionHandler instance. static bool WriteMinidump(const wstring &dump_path, MinidumpCallback callback, void* callback_context); // Get the thread ID of the thread requesting the dump (either the exception // thread or any other thread that called WriteMinidump directly). This // may be useful if you want to include additional thread state in your // dumps. DWORD get_requesting_thread_id() const { return requesting_thread_id_; } // Controls behavior of EXCEPTION_BREAKPOINT and EXCEPTION_SINGLE_STEP. bool get_handle_debug_exceptions() const { return handle_debug_exceptions_; } void set_handle_debug_exceptions(bool handle_debug_exceptions) { handle_debug_exceptions_ = handle_debug_exceptions; } // Returns whether out-of-process dump generation is used or not. bool IsOutOfProcess() const { return crash_generation_client_.get() != NULL; } // Calling RegisterAppMemory(p, len) causes len bytes starting // at address p to be copied to the minidump when a crash happens. void RegisterAppMemory(void *ptr, size_t length); void UnregisterAppMemory(void *ptr); private: friend class AutoExceptionHandler; // Initializes the instance with given values. void Initialize(const wstring& dump_path, FilterCallback filter, MinidumpCallback callback, void* callback_context, int handler_types, MINIDUMP_TYPE dump_type, const wchar_t* pipe_name, HANDLE pipe_handle, const CustomClientInfo* custom_info); // Function pointer type for MiniDumpWriteDump, which is looked up // dynamically. typedef BOOL (WINAPI *MiniDumpWriteDump_type)( HANDLE hProcess, DWORD dwPid, HANDLE hFile, MINIDUMP_TYPE DumpType, CONST PMINIDUMP_EXCEPTION_INFORMATION ExceptionParam, CONST PMINIDUMP_USER_STREAM_INFORMATION UserStreamParam, CONST PMINIDUMP_CALLBACK_INFORMATION CallbackParam); // Function pointer type for UuidCreate, which is looked up dynamically. typedef RPC_STATUS (RPC_ENTRY *UuidCreate_type)(UUID* Uuid); // Runs the main loop for the exception handler thread. static DWORD WINAPI ExceptionHandlerThreadMain(void* lpParameter); // Called on the exception thread when an unhandled exception occurs. // Signals the exception handler thread to handle the exception. static LONG WINAPI HandleException(EXCEPTION_POINTERS* exinfo); #if _MSC_VER >= 1400 // MSVC 2005/8 // This function will be called by some CRT functions when they detect // that they were passed an invalid parameter. Note that in _DEBUG builds, // the CRT may display an assertion dialog before calling this function, // and the function will not be called unless the assertion dialog is // dismissed by clicking "Ignore." static void HandleInvalidParameter(const wchar_t* expression, const wchar_t* function, const wchar_t* file, unsigned int line, uintptr_t reserved); #endif // _MSC_VER >= 1400 // This function will be called by the CRT when a pure virtual // function is called. static void HandlePureVirtualCall(); // This is called on the exception thread or on another thread that // the user wishes to produce a dump from. It calls // WriteMinidumpWithException on the handler thread, avoiding stack // overflows and inconsistent dumps due to writing the dump from // the exception thread. If the dump is requested as a result of an // exception, exinfo contains exception information, otherwise, it // is NULL. If the dump is requested as a result of an assertion // (such as an invalid parameter being passed to a CRT function), // assertion contains data about the assertion, otherwise, it is NULL. bool WriteMinidumpOnHandlerThread(EXCEPTION_POINTERS* exinfo, MDRawAssertionInfo* assertion); // This function does the actual writing of a minidump. It is called // on the handler thread. requesting_thread_id is the ID of the thread // that requested the dump. If the dump is requested as a result of // an exception, exinfo contains exception information, otherwise, // it is NULL. bool WriteMinidumpWithException(DWORD requesting_thread_id, EXCEPTION_POINTERS* exinfo, MDRawAssertionInfo* assertion); // This function is used as a callback when calling MinidumpWriteDump, // in order to add additional memory regions to the dump. static BOOL CALLBACK MinidumpWriteDumpCallback( PVOID context, const PMINIDUMP_CALLBACK_INPUT callback_input, PMINIDUMP_CALLBACK_OUTPUT callback_output); // Generates a new ID and stores it in next_minidump_id_, and stores the // path of the next minidump to be written in next_minidump_path_. void UpdateNextID(); FilterCallback filter_; MinidumpCallback callback_; void* callback_context_; scoped_ptr crash_generation_client_; // The directory in which a minidump will be written, set by the dump_path // argument to the constructor, or set_dump_path. wstring dump_path_; // The basename of the next minidump to be written, without the extension. wstring next_minidump_id_; // The full pathname of the next minidump to be written, including the file // extension. wstring next_minidump_path_; // Pointers to C-string representations of the above. These are set when // the above wstring versions are set in order to avoid calling c_str during // an exception, as c_str may attempt to allocate heap memory. These // pointers are not owned by the ExceptionHandler object, but their lifetimes // should be equivalent to the lifetimes of the associated wstring, provided // that the wstrings are not altered. const wchar_t* dump_path_c_; const wchar_t* next_minidump_id_c_; const wchar_t* next_minidump_path_c_; HMODULE dbghelp_module_; MiniDumpWriteDump_type minidump_write_dump_; MINIDUMP_TYPE dump_type_; HMODULE rpcrt4_module_; UuidCreate_type uuid_create_; // Tracks the handler types that were installed according to the // handler_types constructor argument. int handler_types_; // When installed_handler_ is true, previous_filter_ is the unhandled // exception filter that was set prior to installing ExceptionHandler as // the unhandled exception filter and pointing it to |this|. NULL indicates // that there is no previous unhandled exception filter. LPTOP_LEVEL_EXCEPTION_FILTER previous_filter_; #if _MSC_VER >= 1400 // MSVC 2005/8 // Beginning in VC 8, the CRT provides an invalid parameter handler that will // be called when some CRT functions are passed invalid parameters. In // earlier CRTs, the same conditions would cause unexpected behavior or // crashes. _invalid_parameter_handler previous_iph_; #endif // _MSC_VER >= 1400 // The CRT allows you to override the default handler for pure // virtual function calls. _purecall_handler previous_pch_; // The exception handler thread. HANDLE handler_thread_; // True if the exception handler is being destroyed. // Starting with MSVC 2005, Visual C has stronger guarantees on volatile vars. // It has release semantics on write and acquire semantics on reads. // See the msdn documentation. volatile bool is_shutdown_; // The critical section enforcing the requirement that only one exception be // handled by a handler at a time. CRITICAL_SECTION handler_critical_section_; // Semaphores used to move exception handling between the exception thread // and the handler thread. handler_start_semaphore_ is signalled by the // exception thread to wake up the handler thread when an exception occurs. // handler_finish_semaphore_ is signalled by the handler thread to wake up // the exception thread when handling is complete. HANDLE handler_start_semaphore_; HANDLE handler_finish_semaphore_; // The next 2 fields contain data passed from the requesting thread to // the handler thread. // The thread ID of the thread requesting the dump (either the exception // thread or any other thread that called WriteMinidump directly). DWORD requesting_thread_id_; // The exception info passed to the exception handler on the exception // thread, if an exception occurred. NULL for user-requested dumps. EXCEPTION_POINTERS* exception_info_; // If the handler is invoked due to an assertion, this will contain a // pointer to the assertion information. It is NULL at other times. MDRawAssertionInfo* assertion_; // The return value of the handler, passed from the handler thread back to // the requesting thread. bool handler_return_value_; // If true, the handler will intercept EXCEPTION_BREAKPOINT and // EXCEPTION_SINGLE_STEP exceptions. Leave this false (the default) // to not interfere with debuggers. bool handle_debug_exceptions_; // Callers can request additional memory regions to be included in // the dump. AppMemoryList app_memory_info_; // A stack of ExceptionHandler objects that have installed unhandled // exception filters. This vector is used by HandleException to determine // which ExceptionHandler object to route an exception to. When an // ExceptionHandler is created with install_handler true, it will append // itself to this list. static vector* handler_stack_; // The index of the ExceptionHandler in handler_stack_ that will handle the // next exception. Note that 0 means the last entry in handler_stack_, 1 // means the next-to-last entry, and so on. This is used by HandleException // to support multiple stacked Breakpad handlers. static LONG handler_stack_index_; // handler_stack_critical_section_ guards operations on handler_stack_ and // handler_stack_index_. The critical section is initialized by the // first instance of the class and destroyed by the last instance of it. static CRITICAL_SECTION handler_stack_critical_section_; // The number of instances of this class. volatile static LONG instance_count_; // disallow copy ctor and operator= explicit ExceptionHandler(const ExceptionHandler &); void operator=(const ExceptionHandler &); }; } // namespace google_breakpad #pragma warning( pop ) #endif // CLIENT_WINDOWS_HANDLER_EXCEPTION_HANDLER_H__