// Copyright (c) 2007, 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. // // Utility that can inspect another process and write a crash dump #include #include #include #include #include #include #import "client/mac/crash_generation/Inspector.h" #import "client/mac/Framework/Breakpad.h" #import "client/mac/handler/minidump_generator.h" #import "common/mac/SimpleStringDictionary.h" #import "common/mac/MachIPC.h" #import #if VERBOSE bool gDebugLog = true; #else bool gDebugLog = false; #endif namespace google_breakpad { //============================================================================= static BOOL EnsureDirectoryPathExists(NSString *dirPath) { NSFileManager *mgr = [NSFileManager defaultManager]; // If we got a relative path, prepend the current directory if (![dirPath isAbsolutePath]) dirPath = [[mgr currentDirectoryPath] stringByAppendingPathComponent:dirPath]; NSString *path = dirPath; // Ensure that no file exists within the path which would block creation while (1) { BOOL isDir; if ([mgr fileExistsAtPath:path isDirectory:&isDir]) { if (isDir) break; return NO; } path = [path stringByDeletingLastPathComponent]; } // Path now contains the first valid directory (or is empty) if (![path length]) return NO; NSString *common = [dirPath commonPrefixWithString:path options:NSLiteralSearch]; // If everything is good if ([common isEqualToString:dirPath]) return YES; // Break up the difference into components NSString *diff = [dirPath substringFromIndex:[common length] + 1]; NSArray *components = [diff pathComponents]; unsigned count = [components count]; // Rebuild the path one component at a time NSDictionary *attrs = [NSDictionary dictionaryWithObject:[NSNumber numberWithUnsignedLong:0750] forKey:NSFilePosixPermissions]; path = common; for (unsigned i = 0; i < count; ++i) { path = [path stringByAppendingPathComponent:[components objectAtIndex:i]]; if (![mgr createDirectoryAtPath:path attributes:attrs]) return NO; } return YES; } //============================================================================= BOOL ConfigFile::WriteData(const void *data, size_t length) { size_t result = write(config_file_, data, length); return result == length; } //============================================================================= BOOL ConfigFile::AppendConfigData(const char *key, const void *data, size_t length) { assert(config_file_ != -1); if (!key) { DEBUGLOG(stderr, "Breakpad: Missing Key\n"); return NO; } if (!data) { DEBUGLOG(stderr, "Breakpad: Missing data for key: %s\n", key ? key : ""); return NO; } // Write the key, \n, length of data (ascii integer), \n, data char buffer[16]; char nl = '\n'; BOOL result = WriteData(key, strlen(key)); snprintf(buffer, sizeof(buffer) - 1, "\n%lu\n", length); result &= WriteData(buffer, strlen(buffer)); result &= WriteData(data, length); result &= WriteData(&nl, 1); return result; } //============================================================================= BOOL ConfigFile::AppendConfigString(const char *key, const char *value) { return AppendConfigData(key, value, strlen(value)); } //============================================================================= void ConfigFile::WriteFile(const SimpleStringDictionary *configurationParameters, const char *dump_dir, const char *minidump_id) { assert(config_file_ == -1); // Open and write out configuration file preamble strlcpy(config_file_path_, "/tmp/Config-XXXXXX", sizeof(config_file_path_)); config_file_ = mkstemp(config_file_path_); if (config_file_ == -1) { DEBUGLOG(stderr, "mkstemp(config_file_path_) == -1 (%s)\n", strerror(errno)); return; } else { DEBUGLOG(stderr, "Writing config file to (%s)\n", config_file_path_); } has_created_file_ = true; // Add the minidump dir AppendConfigString(kReporterMinidumpDirectoryKey, dump_dir); AppendConfigString(kReporterMinidumpIDKey, minidump_id); // Write out the configuration parameters BOOL result = YES; const SimpleStringDictionary &dictionary = *configurationParameters; const KeyValueEntry *entry = NULL; SimpleStringDictionaryIterator iter(dictionary); while ((entry = iter.Next())) { DEBUGLOG(stderr, "config: (%s) -> (%s)\n", entry->GetKey(), entry->GetValue()); result = AppendConfigString(entry->GetKey(), entry->GetValue()); if (!result) break; } close(config_file_); config_file_ = -1; } //============================================================================= void Inspector::Inspect(const char *receive_port_name) { kern_return_t result = ServiceCheckIn(receive_port_name); if (result == KERN_SUCCESS) { result = ReadMessages(); if (result == KERN_SUCCESS) { // Inspect the task and write a minidump file. bool wrote_minidump = InspectTask(); // Send acknowledgement to the crashed process that the inspection // has finished. It will then be able to cleanly exit. // The return value is ignored because failure isn't fatal. If the process // didn't get the message there's nothing we can do, and we still want to // send the report. SendAcknowledgement(); if (wrote_minidump) { // Ask the user if he wants to upload the crash report to a server, // and do so if he agrees. LaunchReporter(config_file_.GetFilePath()); } else { fprintf(stderr, "Inspection of crashed process failed\n"); } // Now that we're done reading messages, cleanup the service, but only // if there was an actual exception // Otherwise, it means the dump was generated on demand and the process // lives on, and we might be needed again in the future. if (exception_code_) { ServiceCheckOut(receive_port_name); } } else { PRINT_MACH_RESULT(result, "Inspector: WaitForMessage()"); } } } //============================================================================= kern_return_t Inspector::ServiceCheckIn(const char *receive_port_name) { // We need to get the mach port representing this service, so we can // get information from the crashed process. kern_return_t kr = bootstrap_check_in(bootstrap_port, (char*)receive_port_name, &service_rcv_port_); if (kr != KERN_SUCCESS) { #if VERBOSE PRINT_MACH_RESULT(kr, "Inspector: bootstrap_check_in()"); #endif } return kr; } //============================================================================= kern_return_t Inspector::ServiceCheckOut(const char *receive_port_name) { // We're done receiving mach messages from the crashed process, // so clean up a bit. kern_return_t kr; // DO NOT use mach_port_deallocate() here -- it will fail and the // following bootstrap_register() will also fail leaving our service // name hanging around forever (until reboot) kr = mach_port_destroy(mach_task_self(), service_rcv_port_); if (kr != KERN_SUCCESS) { PRINT_MACH_RESULT(kr, "Inspector: UNREGISTERING: service_rcv_port mach_port_deallocate()"); return kr; } // Unregister the service associated with the receive port. kr = bootstrap_register(bootstrap_port, (char*)receive_port_name, MACH_PORT_NULL); if (kr != KERN_SUCCESS) { PRINT_MACH_RESULT(kr, "Inspector: UNREGISTERING: bootstrap_register()"); } return kr; } //============================================================================= kern_return_t Inspector::ReadMessages() { // Wait for an initial message from the crashed process containing basic // information about the crash. ReceivePort receive_port(service_rcv_port_); MachReceiveMessage message; kern_return_t result = receive_port.WaitForMessage(&message, 1000); if (result == KERN_SUCCESS) { InspectorInfo &info = (InspectorInfo &)*message.GetData(); exception_type_ = info.exception_type; exception_code_ = info.exception_code; exception_subcode_ = info.exception_subcode; #if VERBOSE printf("message ID = %d\n", message.GetMessageID()); #endif remote_task_ = message.GetTranslatedPort(0); crashing_thread_ = message.GetTranslatedPort(1); handler_thread_ = message.GetTranslatedPort(2); ack_port_ = message.GetTranslatedPort(3); #if VERBOSE printf("exception_type = %d\n", exception_type_); printf("exception_code = %d\n", exception_code_); printf("exception_subcode = %d\n", exception_subcode_); printf("remote_task = %d\n", remote_task_); printf("crashing_thread = %d\n", crashing_thread_); printf("handler_thread = %d\n", handler_thread_); printf("ack_port_ = %d\n", ack_port_); printf("parameter count = %d\n", info.parameter_count); #endif // The initial message contains the number of key value pairs that // we are expected to read. // Read each key/value pair, one mach message per key/value pair. for (unsigned int i = 0; i < info.parameter_count; ++i) { MachReceiveMessage message; result = receive_port.WaitForMessage(&message, 1000); if(result == KERN_SUCCESS) { KeyValueMessageData &key_value_data = (KeyValueMessageData&)*message.GetData(); config_params_.SetKeyValue(key_value_data.key, key_value_data.value); } else { PRINT_MACH_RESULT(result, "Inspector: key/value message"); break; } } } return result; } //============================================================================= // Sets keys in the parameters dictionary that are specific to process uptime. // The two we set are process up time, and process crash time. void Inspector::SetCrashTimeParameters() { // Set process uptime parameter struct timeval tv; gettimeofday(&tv, NULL); char processUptimeString[32], processCrashtimeString[32]; const char *processStartTimeString = config_params_.GetValueForKey(BREAKPAD_PROCESS_START_TIME); // Set up time if we've received the start time. if (processStartTimeString) { time_t processStartTime = strtol(processStartTimeString, NULL, 10); time_t processUptime = tv.tv_sec - processStartTime; sprintf(processUptimeString, "%d", processUptime); config_params_.SetKeyValue(BREAKPAD_PROCESS_UP_TIME, processUptimeString); } sprintf(processCrashtimeString, "%d", tv.tv_sec); config_params_.SetKeyValue(BREAKPAD_PROCESS_CRASH_TIME, processCrashtimeString); } bool Inspector::InspectTask() { // keep the task quiet while we're looking at it task_suspend(remote_task_); DEBUGLOG(stderr, "Suspended Remote task\n"); NSString *minidumpDir; const char *minidumpDirectory = config_params_.GetValueForKey(BREAKPAD_DUMP_DIRECTORY); SetCrashTimeParameters(); // If the client app has not specified a minidump directory, // use a default of Library// if (0 == strlen(minidumpDirectory)) { NSArray *libraryDirectories = NSSearchPathForDirectoriesInDomains(NSLibraryDirectory, NSUserDomainMask, YES); NSString *applicationSupportDirectory = [libraryDirectories objectAtIndex:0]; NSString *library_subdirectory = [NSString stringWithUTF8String:kDefaultLibrarySubdirectory]; NSString *breakpad_product = [NSString stringWithUTF8String:config_params_.GetValueForKey(BREAKPAD_PRODUCT)]; NSArray *path_components = [NSArray arrayWithObjects:applicationSupportDirectory, library_subdirectory, breakpad_product, nil]; minidumpDir = [NSString pathWithComponents:path_components]; } else { minidumpDir = [[NSString stringWithUTF8String:minidumpDirectory] stringByExpandingTildeInPath]; } DEBUGLOG(stderr, "Writing minidump to directory (%s)\n", [minidumpDir UTF8String]); MinidumpLocation minidumpLocation(minidumpDir); // Obscure bug alert: // Don't use [NSString stringWithFormat] to build up the path here since it // assumes system encoding and in RTL locales will prepend an LTR override // character for paths beginning with '/' which fileSystemRepresentation does // not remove. Filed as rdar://6889706 . NSString *path_ns = [NSString stringWithUTF8String:minidumpLocation.GetPath()]; NSString *pathid_ns = [NSString stringWithUTF8String:minidumpLocation.GetID()]; NSString *minidumpPath = [path_ns stringByAppendingPathComponent:pathid_ns]; minidumpPath = [minidumpPath stringByAppendingPathExtension:@"dmp"]; DEBUGLOG(stderr, "minidump path (%s)\n", [minidumpPath UTF8String]); config_file_.WriteFile( &config_params_, minidumpLocation.GetPath(), minidumpLocation.GetID()); MinidumpGenerator generator(remote_task_, handler_thread_); if (exception_type_ && exception_code_) { generator.SetExceptionInformation(exception_type_, exception_code_, exception_subcode_, crashing_thread_); } bool result = generator.Write([minidumpPath fileSystemRepresentation]); if (result) { DEBUGLOG(stderr, "Wrote minidump - OK\n"); } else { DEBUGLOG(stderr, "Error writing minidump - errno=%s\n", strerror(errno)); } // let the task continue task_resume(remote_task_); DEBUGLOG(stderr, "Resumed remote task\n"); return result; } //============================================================================= // The crashed task needs to be told that the inspection has finished. // It will wait on a mach port (with timeout) until we send acknowledgement. kern_return_t Inspector::SendAcknowledgement() { if (ack_port_ != MACH_PORT_DEAD) { MachPortSender sender(ack_port_); MachSendMessage ack_message(kMsgType_InspectorAcknowledgement); DEBUGLOG(stderr, "Inspector: trying to send acknowledgement to port %d\n", ack_port_); kern_return_t result = sender.SendMessage(ack_message, 2000); #if VERBOSE PRINT_MACH_RESULT(result, "Inspector: sent acknowledgement"); #endif return result; } DEBUGLOG(stderr, "Inspector: port translation failure!\n"); return KERN_INVALID_NAME; } //============================================================================= void Inspector::LaunchReporter(const char *inConfigFilePath) { // Extract the path to the reporter executable. const char *reporterExecutablePath = config_params_.GetValueForKey(BREAKPAD_REPORTER_EXE_LOCATION); DEBUGLOG(stderr, "reporter path = %s\n", reporterExecutablePath); // Setup and launch the crash dump sender. const char *argv[3]; argv[0] = reporterExecutablePath; argv[1] = inConfigFilePath; argv[2] = NULL; // Launch the reporter pid_t pid = fork(); // If we're in the child, load in our new executable and run. // The parent will not wait for the child to complete. if (pid == 0) { execv(argv[0], (char * const *)argv); config_file_.Unlink(); // launch failed - get rid of config file DEBUGLOG(stderr, "Inspector: unable to launch reporter app\n"); _exit(1); } // Wait until the Reporter child process exits. // // We'll use a timeout of one minute. int timeoutCount = 60; // 60 seconds while (timeoutCount-- > 0) { int status; pid_t result = waitpid(pid, &status, WNOHANG); if (result == 0) { // The child has not yet finished. sleep(1); } else if (result == -1) { DEBUGLOG(stderr, "Inspector: waitpid error (%d) waiting for reporter app\n", errno); break; } else { // child has finished break; } } } } // namespace google_breakpad