/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996, 2012 Oracle and/or its affiliates. All rights reserved. * * $Id$ */ #include "db_config.h" #include "db_int.h" #ifndef lint static const char copyright[] = "Copyright (c) 2010, 2012 Oracle and/or its affiliates. All rights reserved.\n"; #endif int main __P((int, char *[])); #ifndef HAVE_REPLICATION_THREADS int main(argc, argv) int argc; char *argv[]; { fprintf(stderr, DB_STR_A("5092", "Cannot run %s without Replication Manager.\n", "%s\n"), argv[0]); COMPQUIET(argc, 0); exit (1); } #else static int usage __P((void)); static int version_check __P((void)); static void event_callback __P((DB_ENV *, u_int32_t, void *)); static int db_replicate_logmsg __P((DB_ENV *, const char *)); static void prog_close __P((DB_ENV *, int)); /* * Buffer for logging messages. */ #define MSG_SIZE 256 char log_msg[MSG_SIZE]; char *logfile; FILE *logfp; pid_t pid; char progname[MSG_SIZE]; int panic_exit; #define REP_NTHREADS 3 #define MAX_RETRY 3 int main(argc, argv) int argc; char *argv[]; { extern char *optarg; extern int optind; DB_ENV *dbenv; time_t now; long argval; db_timeout_t max_req; u_int32_t flags, repmgr_th, seconds, start_state; int ch, count, done, exitval, ret, verbose; char *home, *passwd, *prog, time_buf[CTIME_BUFLEN]; dbenv = NULL; logfp = NULL; log_msg[MSG_SIZE - 1] = '\0'; __os_id(NULL, &pid, NULL); panic_exit = 0; if ((prog = __db_rpath(argv[0])) == NULL) prog = argv[0]; else ++prog; if ((size_t)(count = snprintf(progname, sizeof(progname), "%s(%lu)", prog, (u_long)pid)) >= sizeof(progname)) { fprintf(stderr, DB_STR("5093", "Program name too long\n")); goto err; } if ((ret = version_check()) != 0) goto err; /* * !!! * Don't allow a fully unsigned 32-bit number, some compilers get * upset and require it to be specified in hexadecimal and so on. */ #define MAX_UINT32_T 2147483647 /* * Create an environment object and initialize it for error * reporting. Create it before parsing args so that we can * call methods to set the values directly. */ if ((ret = db_env_create(&dbenv, 0)) != 0) { fprintf(stderr, "%s: db_env_create: %s\n", progname, db_strerror(ret)); goto err; } (void)dbenv->set_event_notify(dbenv, event_callback); dbenv->set_errfile(dbenv, stderr); dbenv->set_errpfx(dbenv, progname); exitval = verbose = 0; flags = 0; home = logfile = passwd = NULL; seconds = 30; start_state = DB_REP_ELECTION; repmgr_th = REP_NTHREADS; while ((ch = getopt(argc, argv, "h:L:MP:T:t:Vv")) != EOF) switch (ch) { case 'h': home = optarg; break; case 'L': logfile = optarg; break; case 'M': start_state = DB_REP_MASTER; break; case 'P': passwd = strdup(optarg); memset(optarg, 0, strlen(optarg)); if (passwd == NULL) { fprintf(stderr, DB_STR_A("5094", "%s: strdup: %s\n", "%s %s\n"), progname, strerror(errno)); return (EXIT_FAILURE); } ret = dbenv->set_encrypt(dbenv, passwd, DB_ENCRYPT_AES); free(passwd); if (ret != 0) { dbenv->err(dbenv, ret, "set_passwd"); goto err; } break; case 'T': if (__db_getlong(NULL, progname, optarg, 1, (long)MAX_UINT32_T, &argval)) return (EXIT_FAILURE); repmgr_th = (u_int32_t)argval; break; case 't': if (__db_getlong(NULL, progname, optarg, 1, (long)MAX_UINT32_T, &argval)) return (EXIT_FAILURE); seconds = (u_int32_t)argval; break; case 'V': printf("%s\n", db_version(NULL, NULL, NULL)); return (EXIT_SUCCESS); case 'v': verbose = 1; break; case '?': default: return (usage()); } argc -= optind; argv += optind; if (argc != 0) return (usage()); /* Handle possible interruptions. */ __db_util_siginit(); /* * Log our process ID. This is a specialized case of * __db_util_logset because we retain the logfp and keep * the file open for additional logging. */ if (logfile != NULL) { if ((logfp = fopen(logfile, "w")) == NULL) goto err; if ((ret = db_replicate_logmsg(dbenv, "STARTED")) != 0) goto err; } /* * If attaching to a pre-existing environment fails, error. */ #define ENV_FLAGS (DB_THREAD | DB_USE_ENVIRON) if ((ret = dbenv->open(dbenv, home, ENV_FLAGS, 0)) != 0) { dbenv->err(dbenv, ret, "DB_ENV->open"); goto err; } /* * Confirm that replication is configured in the underlying * environment. We need the max request value anyway and * the method to get the value returns an error if replication * is not configured. */ if ((ret = dbenv->rep_get_request(dbenv, NULL, &max_req)) != 0) { dbenv->err(dbenv, ret, "rep_get_request"); goto err; } /* * Start replication. */ if (verbose && ((ret = dbenv->set_verbose(dbenv, DB_VERB_REPLICATION, 1)) != 0)) { dbenv->err(dbenv, ret, "set_verbose"); goto err; } count = done = 0; while (!done && count < MAX_RETRY) { /* * Retry if we get an error that indicates that the port is * in use. An old version of this program could still be * running. The application restarts with recovery, and that * should panic the old environment, but it may take a little * bit of time for the old program to notice the panic. * * We wait the max_req time because at worst the rerequest * thread runs every max_req time and should notice a panic. On * the other hand, if we're joining the replication group for * the first time and the master is not available * (DB_REP_UNAVAIL), it makes sense to pause a bit longer before * retrying. */ if ((ret = dbenv->repmgr_start(dbenv, repmgr_th, start_state)) == DB_REP_UNAVAIL) { count++; __os_yield(dbenv->env, 5, 0); } else if (ret != 0) { count++; __os_yield(dbenv->env, 0, max_req); } else done = 1; } if (!done) { dbenv->err(dbenv, ret, "repmgr_start"); goto err; } /* Main loop of the program. */ while (!__db_util_interrupted() && !panic_exit) { /* * The program itself does not have much to do. All the * interesting replication stuff is happening underneath. * Each period, we'll wake up and call rep_flush just to * force a log record and cause any gaps to fill as well as * check program status to see if it was interrupted. */ __os_yield(dbenv->env, seconds, 0); if (verbose) { (void)time(&now); dbenv->errx(dbenv, DB_STR_A("5095", "db_replicate begin: %s", "%s"), __os_ctime(&now, time_buf)); } /* * Hmm, do we really want to exit on error here? This is * a non-essential piece of the program, so if it gets * an error, we may just want to ignore it. Note we call * rep_flush without checking if we're a master or client. */ if ((ret = dbenv->rep_flush(dbenv)) != 0) { dbenv->err(dbenv, ret, "rep_flush"); goto err; } } if (panic_exit) err: exitval = 1; prog_close(dbenv, exitval); return (exitval == 0 ? EXIT_SUCCESS : EXIT_FAILURE); } static void prog_close(dbenv, exitval) DB_ENV *dbenv; int exitval; { int ret; if (logfp != NULL) { fclose(logfp); (void)remove(logfile); } /* Clean up the environment. */ if (dbenv != NULL && (ret = dbenv->close(dbenv, 0)) != 0) { exitval = 1; fprintf(stderr, "%s: dbenv->close: %s\n", progname, db_strerror(ret)); } /* Resend any caught signal. */ __db_util_sigresend(); exit (exitval == 0 ? EXIT_SUCCESS : EXIT_FAILURE); } static void event_callback(dbenv, which, info) DB_ENV *dbenv; u_int32_t which; void *info; { COMPQUIET(info, NULL); switch (which) { case DB_EVENT_PANIC: /* * If the app restarted with recovery, and we're an old * program running against the old regions, we'll discover * the panic and want to exit quickly to give a new * instantiation of the program access to the port. */ printf(DB_STR("5096", "received panic event\n")); db_replicate_logmsg(dbenv, "PANIC"); panic_exit = 1; break; case DB_EVENT_REP_CLIENT: db_replicate_logmsg(dbenv, "CLIENT"); break; case DB_EVENT_REP_CONNECT_BROKEN: db_replicate_logmsg(dbenv, "CONNECTIONBROKEN"); break; case DB_EVENT_REP_DUPMASTER: db_replicate_logmsg(dbenv, "DUPMASTER"); break; case DB_EVENT_REP_ELECTED: db_replicate_logmsg(dbenv, "ELECTED"); break; case DB_EVENT_REP_MASTER: db_replicate_logmsg(dbenv, "MASTER"); break; case DB_EVENT_REP_NEWMASTER: db_replicate_logmsg(dbenv, "NEWMASTER"); break; case DB_EVENT_REP_STARTUPDONE: db_replicate_logmsg(dbenv, "STARTUPDONE"); break; case DB_EVENT_REP_CONNECT_ESTD: case DB_EVENT_REP_CONNECT_TRY_FAILED: case DB_EVENT_REP_INIT_DONE: case DB_EVENT_REP_LOCAL_SITE_REMOVED: case DB_EVENT_REP_PERM_FAILED: case DB_EVENT_REP_SITE_ADDED: case DB_EVENT_REP_SITE_REMOVED: /* We don't care about these, for now. */ break; default: db_replicate_logmsg(dbenv, "IGNORED"); dbenv->errx(dbenv, DB_STR_A("5097", "ignoring event %d", "%d"), which); } } static int usage() { (void)fprintf(stderr, "usage: %s [-MVv]\n\t%s\n", progname, "[-h home] [-P password] [-T nthreads] [-t seconds]"); return (EXIT_FAILURE); } static int version_check() { int v_major, v_minor, v_patch; /* Make sure we're loaded with the right version of the DB library. */ (void)db_version(&v_major, &v_minor, &v_patch); if (v_major != DB_VERSION_MAJOR || v_minor != DB_VERSION_MINOR) { fprintf(stderr, DB_STR_A("5098", "%s: version %d.%d doesn't match library version %d.%d\n", "%s %d %d %d %d\n"), progname, DB_VERSION_MAJOR, DB_VERSION_MINOR, v_major, v_minor); return (EXIT_FAILURE); } return (0); } static int db_replicate_logmsg(dbenv, msg) DB_ENV *dbenv; const char *msg; { time_t now; int cnt; char time_buf[CTIME_BUFLEN]; if (logfp == NULL) return (0); (void)time(&now); (void)__os_ctime(&now, time_buf); if ((size_t)(cnt = snprintf(log_msg, sizeof(log_msg), "%s: %lu %s %s", progname, (u_long)pid, time_buf, msg)) >= sizeof(log_msg)) { dbenv->errx(dbenv, DB_STR_A("5099", "%s: %lu %s %s: message too long", "%s %lu %s %s"), progname, (u_long)pid, time_buf, msg); return (1); } fprintf(logfp, "%s\n", log_msg); return (0); } #endif