/* Copyright (C) 2004 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #if defined(__GNUC__) && defined(USE_PRAGMA_IMPLEMENTATION) #pragma implementation #endif #include "instance.h" #include "mysql_manager_error.h" #include "log.h" #include "instance_map.h" #include "priv.h" #include "portability.h" #ifndef __WIN__ #include #endif #include #include #include #include static void start_and_monitor_instance(Instance_options *old_instance_options, Instance_map *instance_map); #ifndef __WIN__ typedef pid_t My_process_info; #else typedef PROCESS_INFORMATION My_process_info; #endif /* Proxy thread is a simple way to avoid all pitfalls of the threads implementation in the OS (e.g. LinuxThreads). With such a thread we don't have to process SIGCHLD, which is a tricky business if we want to do it in a portable way. */ pthread_handler_t proxy(void *arg) { Instance *instance= (Instance *) arg; start_and_monitor_instance(&instance->options, instance->get_map()); return 0; } /* Wait for an instance SYNOPSYS wait_process() pi Pointer to the process information structure (platform-dependent). RETURN 0 - Success 1 - Error */ #ifndef __WIN__ static int wait_process(My_process_info *pi) { /* Here we wait for the child created. This process differs for systems running LinuxThreads and POSIX Threads compliant systems. This is because according to POSIX we could wait() for a child in any thread of the process. While LinuxThreads require that wait() is called by the thread, which created the child. On the other hand we could not expect mysqld to return the pid, we got in from fork(), to wait4() fucntion when running on LinuxThreads. This is because MySQL shutdown thread is not the one, which was created by our fork() call. So basically we have two options: whether the wait() call returns only in the creator thread, but we cannot use waitpid() since we have no idea which pid we should wait for (in fact it should be the pid of shutdown thread, but we don't know this one). Or we could use waitpid(), but couldn't use wait(), because it could return in any wait() in the program. */ if (linuxthreads) wait(NULL); /* LinuxThreads were detected */ else waitpid(*pi, NULL, 0); return 0; } #else static int wait_process(My_process_info *pi) { /* Wait until child process exits. */ WaitForSingleObject(pi->hProcess, INFINITE); DWORD exitcode; ::GetExitCodeProcess(pi->hProcess, &exitcode); /* Close process and thread handles. */ CloseHandle(pi->hProcess); CloseHandle(pi->hThread); /* GetExitCodeProces returns zero on failure. We should revert this value to report an error. */ return (!exitcode); } #endif /* Launch an instance SYNOPSYS start_process() instance_options Pointer to the options of the instance to be launched. pi Pointer to the process information structure (platform-dependent). RETURN 0 - Success 1 - Cannot create an instance */ #ifndef __WIN__ static int start_process(Instance_options *instance_options, My_process_info *pi) { #ifndef __QNX__ *pi= fork(); #else /* On QNX one cannot use fork() in multithreaded environment and we should use spawn() or one of it's siblings instead. Here we use spawnv(), which is a combination of fork() and execv() in one call. It returns the pid of newly created process (>0) or -1 */ *pi= spawnv(P_NOWAIT, instance_options->mysqld_path, instance_options->argv); #endif switch (*pi) { case 0: /* never happens on QNX */ execv(instance_options->mysqld_path, instance_options->argv); /* exec never returns */ exit(1); case -1: log_info("cannot create a new process to start instance '%s'.", (const char *) instance_options->instance_name); return 1; } return 0; } #else static int start_process(Instance_options *instance_options, My_process_info *pi) { STARTUPINFO si; ZeroMemory(&si, sizeof(STARTUPINFO)); si.cb= sizeof(STARTUPINFO); ZeroMemory(pi, sizeof(PROCESS_INFORMATION)); int cmdlen= 0; for (int i= 0; instance_options->argv[i] != 0; i++) cmdlen+= strlen(instance_options->argv[i]) + 3; cmdlen++; /* make room for the null */ char *cmdline= new char[cmdlen]; if (cmdline == NULL) return 1; cmdline[0]= 0; for (int i= 0; instance_options->argv[i] != 0; i++) { strcat(cmdline, "\""); strcat(cmdline, instance_options->argv[i]); strcat(cmdline, "\" "); } /* Start the child process */ BOOL result= CreateProcess(NULL, /* Put it all in cmdline */ cmdline, /* Command line */ NULL, /* Process handle not inheritable */ NULL, /* Thread handle not inheritable */ FALSE, /* Set handle inheritance to FALSE */ 0, /* No creation flags */ NULL, /* Use parent's environment block */ NULL, /* Use parent's starting directory */ &si, /* Pointer to STARTUPINFO structure */ pi); /* Pointer to PROCESS_INFORMATION structure */ delete cmdline; return (!result); } #endif /* Fork child, exec an instance and monitor it. SYNOPSYS start_and_monitor_instance() old_instance_options Pointer to the options of the instance to be launched. This info is likely to become obsolete when function returns from wait_process() instance_map Pointer to the instance_map. We use it to protect the instance from deletion, while we are working with it. DESCRIPTION Fork a child, then exec and monitor it. When the child is dead, find appropriate instance (for this purpose we save its name), set appropriate flags and wake all threads waiting for instance to stop. RETURN Function returns no value */ static void start_and_monitor_instance(Instance_options *old_instance_options, Instance_map *instance_map) { enum { MAX_INSTANCE_NAME_LEN= 512 }; char instance_name_buff[MAX_INSTANCE_NAME_LEN]; uint instance_name_len; Instance *current_instance; My_process_info process_info; /* Lock instance map to guarantee that no instances are deleted during strmake() and execv() calls. */ instance_map->lock(); /* Save the instance name in the case if Instance object we are using is destroyed. (E.g. by "FLUSH INSTANCES") */ strmake(instance_name_buff, old_instance_options->instance_name, MAX_INSTANCE_NAME_LEN - 1); instance_name_len= old_instance_options->instance_name_len; log_info("starting instance '%s'...", (const char *) instance_name_buff); if (start_process(old_instance_options, &process_info)) { instance_map->unlock(); return; /* error is logged */ } /* allow users to delete instances */ instance_map->unlock(); /* don't check for return value */ wait_process(&process_info); current_instance= instance_map->find(instance_name_buff, instance_name_len); if (current_instance) current_instance->set_crash_flag_n_wake_all(); return; } Instance_map *Instance::get_map() { return instance_map; } void Instance::remove_pid() { int pid; if ((pid= options.get_pid()) != 0) /* check the pidfile */ if (options.unlink_pidfile()) /* remove stalled pidfile */ log_error("cannot remove pidfile for instance '%s', this might be \ since IM lacks permmissions or hasn't found the pidifle", (const char *) options.instance_name); } /* The method starts an instance. SYNOPSYS start() RETURN 0 ok ER_CANNOT_START_INSTANCE Cannot start instance ER_INSTANCE_ALREADY_STARTED The instance on the specified port/socket is already started */ int Instance::start() { /* clear crash flag */ pthread_mutex_lock(&LOCK_instance); crashed= 0; pthread_mutex_unlock(&LOCK_instance); if (!is_running()) { remove_pid(); /* No need to monitor this thread in the Thread_registry, as all instances are to be stopped during shutdown. */ pthread_t proxy_thd_id; pthread_attr_t proxy_thd_attr; int rc; pthread_attr_init(&proxy_thd_attr); pthread_attr_setdetachstate(&proxy_thd_attr, PTHREAD_CREATE_DETACHED); rc= pthread_create(&proxy_thd_id, &proxy_thd_attr, proxy, this); pthread_attr_destroy(&proxy_thd_attr); if (rc) { log_error("Instance::start(): pthread_create(proxy) failed"); return ER_CANNOT_START_INSTANCE; } return 0; } /* the instance is started already */ return ER_INSTANCE_ALREADY_STARTED; } /* The method sets the crash flag and wakes all waiters on COND_instance_stopped and COND_guardian SYNOPSYS set_crash_flag_n_wake_all() DESCRIPTION The method is called when an instance is crashed or terminated. In the former case it might indicate that guardian probably should restart it. RETURN Function returns no value */ void Instance::set_crash_flag_n_wake_all() { /* set instance state to crashed */ pthread_mutex_lock(&LOCK_instance); crashed= 1; pthread_mutex_unlock(&LOCK_instance); /* Wake connection threads waiting for an instance to stop. This is needed if a user issued command to stop an instance via mysql connection. This is not the case if Guardian stop the thread. */ pthread_cond_signal(&COND_instance_stopped); /* wake guardian */ pthread_cond_signal(&instance_map->guardian->COND_guardian); } Instance::Instance(): crashed(0) { pthread_mutex_init(&LOCK_instance, 0); pthread_cond_init(&COND_instance_stopped, 0); } Instance::~Instance() { pthread_cond_destroy(&COND_instance_stopped); pthread_mutex_destroy(&LOCK_instance); } int Instance::is_crashed() { int val; pthread_mutex_lock(&LOCK_instance); val= crashed; pthread_mutex_unlock(&LOCK_instance); return val; } bool Instance::is_running() { MYSQL mysql; uint port= 0; const char *socket= NULL; static const char *password= "check_connection"; static const char *username= "MySQL_Instance_Manager"; static const char *access_denied_message= "Access denied for user"; bool return_val; if (options.mysqld_port) port= options.mysqld_port_val; if (options.mysqld_socket) socket= strchr(options.mysqld_socket, '=') + 1; /* no port was specified => instance falled back to default value */ if (!options.mysqld_port && !options.mysqld_socket) port= SERVER_DEFAULT_PORT; pthread_mutex_lock(&LOCK_instance); mysql_init(&mysql); /* try to connect to a server with a fake username/password pair */ if (mysql_real_connect(&mysql, LOCAL_HOST, username, password, NullS, port, socket, 0)) { /* We have successfully connected to the server using fake username/password. Write a warning to the logfile. */ log_info("The Instance Manager was able to log into you server " "with faked compiled-in password while checking server status. " "Looks like something is wrong."); pthread_mutex_unlock(&LOCK_instance); return_val= TRUE; /* server is alive */ } else return_val= test(!strncmp(access_denied_message, mysql_error(&mysql), sizeof(access_denied_message) - 1)); mysql_close(&mysql); pthread_mutex_unlock(&LOCK_instance); return return_val; } /* Stop an instance. SYNOPSYS stop() RETURN: 0 ok ER_INSTANCE_IS_NOT_STARTED Looks like the instance it is not started ER_STOP_INSTANCE mysql_shutdown reported an error */ int Instance::stop() { struct timespec timeout; uint waitchild= (uint) DEFAULT_SHUTDOWN_DELAY; if (is_running()) { if (options.shutdown_delay_val) waitchild= options.shutdown_delay_val; kill_instance(SIGTERM); /* sleep on condition to wait for SIGCHLD */ timeout.tv_sec= time(NULL) + waitchild; timeout.tv_nsec= 0; if (pthread_mutex_lock(&LOCK_instance)) return ER_STOP_INSTANCE; while (options.get_pid() != 0) /* while server isn't stopped */ { int status; status= pthread_cond_timedwait(&COND_instance_stopped, &LOCK_instance, &timeout); if (status == ETIMEDOUT || status == ETIME) break; } pthread_mutex_unlock(&LOCK_instance); kill_instance(SIGKILL); return 0; } return ER_INSTANCE_IS_NOT_STARTED; } #ifdef __WIN__ BOOL SafeTerminateProcess(HANDLE hProcess, UINT uExitCode) { DWORD dwTID, dwCode, dwErr= 0; HANDLE hProcessDup= INVALID_HANDLE_VALUE; HANDLE hRT= NULL; HINSTANCE hKernel= GetModuleHandle("Kernel32"); BOOL bSuccess= FALSE; BOOL bDup= DuplicateHandle(GetCurrentProcess(), hProcess, GetCurrentProcess(), &hProcessDup, PROCESS_ALL_ACCESS, FALSE, 0); // Detect the special case where the process is // already dead... if (GetExitCodeProcess((bDup) ? hProcessDup : hProcess, &dwCode) && (dwCode == STILL_ACTIVE)) { FARPROC pfnExitProc; pfnExitProc= GetProcAddress(hKernel, "ExitProcess"); hRT= CreateRemoteThread((bDup) ? hProcessDup : hProcess, NULL, 0, (LPTHREAD_START_ROUTINE)pfnExitProc, (PVOID)uExitCode, 0, &dwTID); if (hRT == NULL) dwErr= GetLastError(); } else dwErr= ERROR_PROCESS_ABORTED; if (hRT) { // Must wait process to terminate to // guarantee that it has exited... WaitForSingleObject((bDup) ? hProcessDup : hProcess, INFINITE); CloseHandle(hRT); bSuccess= TRUE; } if (bDup) CloseHandle(hProcessDup); if (!bSuccess) SetLastError(dwErr); return bSuccess; } int kill(pid_t pid, int signum) { HANDLE processhandle= ::OpenProcess(PROCESS_ALL_ACCESS, FALSE, pid); if (signum == SIGTERM) ::SafeTerminateProcess(processhandle, 0); else ::TerminateProcess(processhandle, -1); return 0; } #endif void Instance::kill_instance(int signum) { pid_t pid; /* if there are no pid, everything seems to be fine */ if ((pid= options.get_pid()) != 0) /* get pid from pidfile */ { if (kill(pid, signum) == 0) { /* Kill suceeded */ if (signum == SIGKILL) /* really killed instance with SIGKILL */ { log_error("The instance '%s' is being stopped forcibly. Normally" "it should not happen. Probably the instance has been" "hanging. You should also check your IM setup", (const char *) options.instance_name); /* After sucessful hard kill the pidfile need to be removed */ options.unlink_pidfile(); } } } return; } /* We execute this function to initialize instance parameters. Return value: 0 - ok. 1 - unable to init DYNAMIC_ARRAY. */ int Instance::init(const char *name_arg) { return options.init(name_arg); } int Instance::complete_initialization(Instance_map *instance_map_arg, const char *mysqld_path, uint instance_type) { instance_map= instance_map_arg; return options.complete_initialization(mysqld_path, instance_type); }