/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2017 Peter Tribble. */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * Module: lock.c * Program: pkgadm (/usr/bin/pkgadm) * Synopsis: implements the zone/package administrative lock interface * Public methods: * admin_lock * Usage: * Acquire: -a [ -e | -s ] [ -o obj ] [ -k key ] [ -R root ] [ -q ] \ * [ -w ] [ -W timeout ] * Release: -r -o object -k key [ -R altRoot ] [ -q ] * Status: [ -o object ] [ -k key ] [ -R altRoot ] [ -q ] */ /* enable extentions to standard Unix libraries */ #define __EXTENSIONS__ /* unix system includes */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* local includes */ #include #include #include "pkgadm.h" #include "pkgadm_msgs.h" /* definition and conversion of sleep units */ #define SECONDS(x) ((unsigned int)(x)) #define MINUTES(x) ((unsigned int)(seconds(x)*60)) /* define how waits are timed */ #define WAITER_INITIAL SECONDS(1) #define WAITER_MAX SECONDS(60) #define WAITER_NEXT(x) ((x)*2) typedef unsigned int WAITER_T; /* * The administrative lock file resides in /tmp * It does not survive a reboot * It consists of fixed length records * Each record has the following information: * record number - record position within the lock file * lock count - number of lock holders maintaining this lock * lock object - object being locked * lock key - key needed to manipulate existing lock * lock exclusive - is the lock exclusive (single locker only) */ #define LOCK_OBJECT_MAXLEN 512-1 #define LOCK_KEY_MAXLEN 37 #define LOCK_DIRECTORY "/tmp" /* * this is the "well known name" of the lock file that is used by the * package, patch, and zone administration commands to synchronize their * various efforts - it must live in a temporary directory that is cleared * on system reboot but it is NOT a temporary file in that it survives * the process that creates and updates it - if the format of the lock * file ever changes, this path should be updated with a later "uuid" * so that previous (incompatible) pkgadm's will not use the later data. */ #define LOCK_FILENAME \ "/tmp/.ai.pkg.zone.lock-afdb66cf-1dd1-11b2-a049-000d560ddc3e" /* mode to use for LOCK_FILENAME */ #define LOCK_FILEMODE \ (S_ISGID|S_IRUSR|S_IWUSR|S_IRGRP|S_IWGRP|S_IROTH|S_IWOTH) #define LOCK_SLEEP_INTERVAL SECONDS(2) /* lock contents types */ typedef unsigned long RECORDNUM_T; #define RECORDNUM_NONE 0xFFFFFFFF /* actual lock data */ struct _adminLock { RECORDNUM_T lockRecordNum; unsigned long lockCount; unsigned long lockExclusive; pid_t lockPid; zoneid_t lockZoneId; char lockKey[LOCK_KEY_MAXLEN+1]; char lockObject[LOCK_OBJECT_MAXLEN+1]; }; typedef struct _adminLock ADMINLOCK_T; /* size of an individual "lock" */ #define LOCK_SIZE sizeof (ADMINLOCK_T) /* union to allow lock to be accessed as raw or structured data */ union _lockRecord { char _lrLockData[LOCK_SIZE]; ADMINLOCK_T _lrLock; }; typedef union _lockRecord LOCK_T; /* return codes from "_findLock" */ typedef unsigned long FINDLOCK_T; #define FINDLOCK_FOUND ((FINDLOCK_T)0) #define FINDLOCK_ERROR ((FINDLOCK_T)-1) #define FINDLOCK_NOTFOUND ((FINDLOCK_T)-2) #define FINDLOCK_KEYMISMATCH ((FINDLOCK_T)-3) #define FINDLOCK_LOCKED ((FINDLOCK_T)-4) #define FINDLOCK_NOTLOCKED ((FINDLOCK_T)-5) #define FINDLOCK_LOCKACQUIRED ((FINDLOCK_T)-6) /* * Forward declarations */ /* local main function implementation methods */ static FINDLOCK_T lock_acquire(LOCK_T *a_lock, int *a_fd, char *a_root, char *a_key, char *a_object, int a_quiet, int a_wait, long a_timeout, int a_exclusive, char *a_altRoot, pid_t a_pid, zoneid_t a_zid); static int lock_release(int a_fd, char *a_key, char *a_object, int a_quiet); static int lock_status(int a_fd, char *a_key, char *a_object, int a_quiet); /* local utility functions */ static int _lockMatch(char *a_s1Lock, char *a_s2Lock); static FINDLOCK_T _findLock(LOCK_T *a_theLock, RECORDNUM_T *r_recordNum, int a_fd, char *a_object, char *a_key); static int _decrementLockCount(int a_fd, LOCK_T *a_theLock); static int _addLock(char *r_key, int a_fd, char *a_object, int a_exclusive, pid_t a_pid, zoneid_t a_zid); static int _incrementLockCount(int a_fd, LOCK_T *a_theLock); static FINDLOCK_T _lock_acquire(LOCK_T *a_lock, int a_fd, char *a_key, char *a_object, int a_quiet, int a_exclusive, pid_t a_pid, zoneid_t a_zid); static char *_getUniqueId(void); static int _openLockFile(char *a_root); static void sighup_handler(int a_signo); static void sigint_handler(int a_signo); static boolean_t _validateLock(int a_fd, LOCK_T *a_theLock, int a_quiet); static int signal_received = 0; /* * main methods with external entry points */ /* * Name: admin_lock * Synopsis: main entry point for pkgadm "lock" subcommand * Description: Control zone/package administrative locking * Returns: 0 on success, non-zero otherwise. */ int admin_lock(int argc, char **argv) { FINDLOCK_T tResult; LOCK_T theLock; char *RFlag = "/"; /* altRoot */ char *endptr; char *kFlag = ""; /* key */ char *oFlag = ""; /* object */ char *p; char c; int aFlag = 0; /* acquire lock */ int eFlag = 0; /* exclusive lock */ int exclusive = 1; /* exclusive vs shared lock */ int fd; int qFlag = 0; /* quiet */ int rFlag = 0; /* release lock */ int result; int sFlag = 0; /* shared lock */ int tFlag = 0; /* test comparison */ int wFlag = 0; /* wait */ long WFlag = 0; /* wait timeout */ pid_t pFlag = 0; /* process # */ struct sigaction nact; struct sigaction oact; void (*funcSighup)(); void (*funcSigint)(); zoneid_t zFlag = -1; /* zone i.d. */ while ((c = getopt(argc, argv, ":aek:o:p:qrR:stwW:z:")) != EOF) { switch (c) { case 'a': /* acquire lock */ aFlag++; break; case 'e': /* exclusive lock */ eFlag++; break; case 'k': /* lock-key */ kFlag = optarg; if (strlen(optarg) > LOCK_KEY_MAXLEN) { log_msg(LOG_MSG_ERR, MSG_LOCK_kARG_TOOLONG, strlen(optarg), LOCK_KEY_MAXLEN); return (1); } break; case 'o': /* object */ oFlag = optarg; if (strlen(optarg) > LOCK_OBJECT_MAXLEN) { log_msg(LOG_MSG_ERR, MSG_LOCK_oARG_TOOLONG, strlen(optarg), LOCK_OBJECT_MAXLEN); return (1); } break; case 'p': /* process i.d. */ errno = 0; endptr = 0; pFlag = strtol(optarg, &endptr, 10); if ((endptr != (char *)NULL) && (*endptr != '\0')) { log_msg(LOG_MSG_ERR, MSG_LOCK_pFLAG_BADINT, optarg, *endptr); return (1); } if ((pFlag == 0) && (errno != 0)) { log_msg(LOG_MSG_ERR, MSG_LOCK_pFLAG_ERROR, optarg, strerror(errno)); return (1); } break; case 'q': /* quiet */ qFlag++; break; case 'r': /* release lock */ rFlag++; break; case 'R': /* alternative root */ /* if root directory is not absolute path, error */ if (*optarg != '/') { log_msg(LOG_MSG_ERR, MSG_LOCK_RARG_NOT_ABSOLUTE, optarg); return (1); } /* if root directory does not exist, create it */ if (access(optarg, F_OK) != 0) { /* create top level root directory */ if (mkdirp(optarg, 0755) != 0) { log_msg(LOG_MSG_ERR, MSG_LOCK_ALTROOT_CANTCREATE, optarg, strerror(errno)); return (1); } } /* if $ALTROOT/tmp directory does not exist create it */ p = pkgstrPrintf("%s/tmp", optarg); if (access(p, F_OK) != 0) { /* create $ALTROOT/tmp directory */ if (mkdirp(p, 0777) != 0) { log_msg(LOG_MSG_ERR, MSG_LOCK_ALTROOT_CANTCREATE, p, strerror(errno)); return (1); } } /* if $ALTROOT/tmp directory cannot be created, exit */ if (access(p, F_OK) != 0) { log_msg(LOG_MSG_ERR, MSG_LOCK_ALTROOT_NONEXIST, optarg, strerror(errno)); return (1); } (void) free(p); RFlag = optarg; break; case 's': /* shared */ sFlag++; break; case 't': /* test comparison */ tFlag++; break; case 'w': /* wait */ wFlag++; break; case 'W': /* wait with timeout */ errno = 0; endptr = 0; WFlag = strtol(optarg, &endptr, 10); if ((endptr != (char *)NULL) && (*endptr != '\0')) { log_msg(LOG_MSG_ERR, MSG_LOCK_WFLAG_BADINT, optarg, *endptr); return (1); } if ((WFlag == 0) && (errno != 0)) { log_msg(LOG_MSG_ERR, MSG_LOCK_WFLAG_ERROR, optarg, strerror(errno)); return (1); } wFlag++; break; case 'z': /* zone i.d. */ errno = 0; endptr = 0; zFlag = strtol(optarg, &endptr, 10); if ((endptr != (char *)NULL) && (*endptr != '\0')) { log_msg(LOG_MSG_ERR, MSG_LOCK_zFLAG_BADINT, optarg, *endptr); return (1); } if ((zFlag == 0) && (errno != 0)) { log_msg(LOG_MSG_ERR, MSG_LOCK_zFLAG_ERROR, optarg, strerror(errno)); return (1); } break; case ':': log_msg(LOG_MSG_ERR, MSG_MISSING_OPERAND, optopt); /* LINTED fallthrough on case statement */ case '?': default: log_msg(LOG_MSG_ERR, MSG_USAGE); return (1); } } /* * validate arguments */ /* if -t option is specified, override all other options */ if (tFlag) { int rs; int rx; int a; /* only 2 or 3 args are valid */ a = argc-optind; if ((a < 2) || (a > 3)) { (void) fprintf(stderr, MSG_T_OPTION_ARGS, argc-optind); return (1); } /* if 3rd argument given, it is return value to check */ if (a == 3) { rs = atoi(argv[optind+2]); } rx = _lockMatch(argv[optind+0], argv[optind+1]); /* if 3rd argument not given, code to check is code returned */ if (a == 2) { rs = rx; } /* report results */ if (a == 2) { (void) fprintf(stderr, MSG_T_RESULT_TWO, rx, argv[optind+0], argv[optind+1]); return (rx); } if (rx != rs) { (void) fprintf(stderr, MSG_T_RESULT_THREE, rs, rx, argv[optind+0], argv[optind+1]); } /* always successful */ return (rx == rs ? 0 : 1); } /* must be no non-option arguments left */ if ((argc-optind) > 0) { log_msg(LOG_MSG_ERR, MSG_USAGE); return (1); } /* -a and -r cannot be used together */ if (aFlag && rFlag) { log_msg(LOG_MSG_ERR, MSG_LOCK_ar_TOGETHER); return (1); } /* -e and -s cannot be used together */ if (eFlag && sFlag) { log_msg(LOG_MSG_ERR, MSG_LOCK_es_TOGETHER); return (1); } /* -e can only be used if -a is used */ if (!aFlag && eFlag) { log_msg(LOG_MSG_ERR, MSG_LOCK_e_without_a); return (1); } /* -s can only be used if -a is used */ if (!aFlag && sFlag) { log_msg(LOG_MSG_ERR, MSG_LOCK_s_without_a); return (1); } /* * perform the requested operation */ /* * hook SIGINT and SIGHUP interrupts into quit.c's trap handler */ /* hold SIGINT/SIGHUP interrupts */ (void) sighold(SIGHUP); (void) sighold(SIGINT); /* connect sigint_handler() to SIGINT */ nact.sa_handler = sigint_handler; nact.sa_flags = SA_RESTART; (void) sigemptyset(&nact.sa_mask); if (sigaction(SIGINT, &nact, &oact) < 0) { funcSigint = SIG_DFL; } else { funcSigint = oact.sa_handler; } /* connect sighupt_handler() to SIGHUP */ nact.sa_handler = sighup_handler; nact.sa_flags = SA_RESTART; (void) sigemptyset(&nact.sa_mask); if (sigaction(SIGHUP, &nact, &oact) < 0) { funcSighup = SIG_DFL; } else { funcSighup = oact.sa_handler; } /* release hold on signals */ (void) sigrelse(SIGHUP); (void) sigrelse(SIGINT); /* open the lock file */ fd = _openLockFile(RFlag); if (fd < 0) { return (1); } if (aFlag) { /* set "exclusive" mode based on -e/-s flag used */ if (sFlag) { exclusive = 0; } else if (eFlag) { exclusive = 1; } /* acquire lock */ tResult = lock_acquire(&theLock, &fd, RFlag, kFlag, oFlag, qFlag, wFlag, WFlag, exclusive, RFlag, pFlag, zFlag); switch (tResult) { case FINDLOCK_LOCKACQUIRED: (void) fprintf(stdout, "%s\n", theLock._lrLock.lockKey); result = 0; break; case FINDLOCK_LOCKED: (void) fprintf(stdout, "%s\n", theLock._lrLock.lockObject); result = 1; break; default: result = 1; break; } } else if (rFlag) { /* release lock */ result = lock_release(fd, kFlag, oFlag, qFlag); } else { /* lock status */ result = lock_status(fd, kFlag, oFlag, qFlag); } /* close the lock file */ (void) close(fd); /* return results of operation */ return (result); } /* * local main function implementation methods */ /* * Name: lock_acquire * Description: implement lock acquisition implementing the wait/timeouts * Calls _lock_acquire to attempt lock acquisition. * Arguments: * a_theLock - lock object filled with contents of existing lock * a_fd - file descriptor opened on the lock file * a_root - root of file system to manipulate locks on * a_key - key associated with lock to acquire * a_object - object associated with lock to acquire * a_wait - wait if lock cannot be acquired flag: * == 0 - do not wait * != 0 - wait * a_timeout - timeout if waiting to acquire busy lock: * == 0 - no timeout (wait forever) * != 0 - max # seconds to wait to acquire busy lock * a_quiet - quiet mode enabled flag * a_exclusive - exclusive/shared lock flag * a_pid - if != 0 process i.d. to associate with this lock * a_zid - if >= 0 - zone i.d. to associate with this lock * Returns: int * == 0 - successful * != 0 - not successful */ static FINDLOCK_T lock_acquire(LOCK_T *a_theLock, int *a_fd, char *a_root, char *a_key, char *a_object, int a_quiet, int a_wait, long a_timeout, int a_exclusive, char *a_altRoot, pid_t a_pid, zoneid_t a_zid) { int notified = 0; FINDLOCK_T result; time_t timeout; int closeOnExit = 0; /* reset the lock */ bzero(a_theLock, sizeof (LOCK_T)); /* open file if not open */ if ((*a_fd) < 0) { (*a_fd) = _openLockFile(a_altRoot); if ((*a_fd) < 0) { return (FINDLOCK_ERROR); } closeOnExit++; } /* compute time after which acquire times out */ timeout = time((time_t *)NULL) + a_timeout; for (;;) { time_t curtime; /* attempt to aquire the lock */ result = _lock_acquire(a_theLock, *a_fd, a_key, a_object, a_quiet, a_exclusive, a_pid, a_zid); /* return result if any result other than object is locked */ switch (result) { case FINDLOCK_LOCKACQUIRED: /* close lock file if opened in this function */ if (closeOnExit) { (void) close(*a_fd); *a_fd = -1; } return (FINDLOCK_LOCKACQUIRED); case FINDLOCK_FOUND: case FINDLOCK_NOTFOUND: case FINDLOCK_KEYMISMATCH: case FINDLOCK_NOTLOCKED: case FINDLOCK_ERROR: default: /* close lock file if opened in this function */ if (closeOnExit) { (void) close(*a_fd); *a_fd = -1; } return (result); case FINDLOCK_LOCKED: ; /* FALLTHROUGH */ } /* * object locked OR SIGINT/SIGHUP interrupt received; * return error if not waiting for lock OR signal received */ if ((a_wait == 0) || (signal_received != 0)) { log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_ACQUIRE_BUSY_FIRST, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_object, a_key, a_theLock->_lrLock.lockObject, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_theLock->_lrLock.lockExclusive != a_exclusive ? "" : MSG_LOCK_ACQUIRE_BUSY_ADDITIONAL); /* close lock file if opened in this function */ if (closeOnExit) { (void) close(*a_fd); *a_fd = -1; } return (FINDLOCK_LOCKED); } /* waiting for lock - if timeout specified see if time left */ if (a_timeout > 0) { curtime = time((time_t *)NULL); if (curtime > timeout) { log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_ACQUIRE_TIMEDOUT, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_object, a_key); /* close lock file if opened in this function */ if (closeOnExit) { (void) close(*a_fd); *a_fd = -1; } return (FINDLOCK_ERROR); } } /* * waiting to aquire lock: * - notify waiting (one time only) * - close lock file * - sleep * - open lock file * - try again */ /* notify once */ if (notified++ == 0) { log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_WRN, MSG_LOCK_ACQUIRE_WAITING, a_object); } /* close lock file */ (void) close(*a_fd); /* wait (sleep) */ (void) sleep(LOCK_SLEEP_INTERVAL); /* open the lock file and try again */ *a_fd = _openLockFile(a_root); if (*a_fd < 0) { log_msg(LOG_MSG_ERR, MSG_LOCK_ACQUIRE_REOPEN_FAILED, a_object); /* close lock file if opened in this function */ if (closeOnExit) { (void) close(*a_fd); *a_fd = -1; } return (FINDLOCK_ERROR); } } } /* * Name: lock_release * Description: implement lock release * Arguments: * a_fd - file descriptor opened on the lock file * a_key - key associated with lock to release * a_object - object associated with lock to release * a_quiet - quiet mode enabled flag * Returns: int * == 0 - successful * != 0 - not successful */ static int lock_release(int a_fd, char *a_key, char *a_object, int a_quiet) { RECORDNUM_T recordNum; LOCK_T theLock; FINDLOCK_T result; /* entry debugging info */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_RELEASE_ENTRY, a_key, a_object, a_quiet); /* find the lock to be released */ result = _findLock(&theLock, &recordNum, a_fd, a_object, a_key); log_msg(LOG_MSG_DEBUG, MSG_LOCK_RELEASE_FINDRESULT, result, recordNum); /* determine how to release the lock if found */ switch (result) { /* * object is not locked but a key was specified */ case FINDLOCK_NOTLOCKED: log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_RELEASE_NOTLOCKED, a_object, a_key); return (result); /* * object is locked and no matching key was specified */ case FINDLOCK_LOCKED: log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_RELEASE_LOCKED, a_object, a_key); return (result); /* * object is not locked */ case FINDLOCK_NOTFOUND: log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_RELEASE_NOTFOUND, a_object, a_key); return (result); /* * object is locked and specified key does not match */ case FINDLOCK_KEYMISMATCH: log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_RELEASE_KEYMISMATCH, a_object); return (result); /* * error determining if object is locked */ case FINDLOCK_ERROR: log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_RELEASE_ERROR, a_object, a_key); perror(LOCK_FILENAME); return (result); /* * object is locked and specified key matches */ case FINDLOCK_FOUND: log_msg(LOG_MSG_DEBUG, MSG_LOCK_RELEASE_FOUND, a_object, a_key); (void) _decrementLockCount(a_fd, &theLock); break; /* * unknown return */ default: result = FINDLOCK_ERROR; break; } return (result); } /* * Name: lock_status * Description: implement lock status display/inquiry * Arguments: * a_fd - file descriptor opened on the lock file * a_key - key associated with lock to look up * a_object - object associated with lock to look up * a_quiet - quiet mode enabled flag * Returns: int * == 0 - successful * != 0 - not successful */ static int lock_status(int a_fd, char *a_key, char *a_object, int a_quiet) { ADMINLOCK_T *pll; LOCK_T theLock; RECORDNUM_T recordNum = 0; char *pld; int found = 0; long pls; /* entry debugging info */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_STATUS_ENTRY, a_key, a_object); /* localize references to lock object */ pld = &theLock._lrLockData[0]; pll = &theLock._lrLock; pls = sizeof (theLock._lrLockData); bzero(pld, pls); /* read and process each lock */ for (; pread(a_fd, pld, pls, pls*recordNum) == pls; recordNum++) { /* debug info on this lock */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_STATUS_READRECORD, recordNum, pll->lockCount, pll->lockObject, pll->lockKey, pll->lockPid, pll->lockZoneId); /* ignore if key specified and key does not match */ if ((*a_key != '\0') && (strcmp(pll->lockKey, a_key) != 0)) { continue; } /* ignore if object specified and object does not match */ if ((*a_object != '\0') && (strcmp(pll->lockObject, a_object) != 0)) { continue; } found++; /* process next lock if quiet operation */ if (a_quiet != 0) { continue; } /* output header if first lock object */ if (found == 1) { (void) fprintf(stdout, "%2s %2s %3s %8s %3s %9s %37s %s\n", "i#", "l#", "cnt", "pid", "zid", "lock-type", "---------------lock-key-------------", "lock-object"); } /* output status line for this lock object */ (void) fprintf(stdout, "%2ld %2ld %3ld %8ld %3d %9s %37s %s\n", recordNum, pll->lockRecordNum, pll->lockCount, pll->lockPid, pll->lockZoneId, pll->lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, pll->lockKey, *pll->lockObject == '\0' ? "*" : pll->lockObject); } /* return == 0 if found, != 0 if not found */ return (found == 0 ? 1 : 0); } /* * local utility functions */ /* * Name: _lock_acquire * Description: implement lock acquisition without wait/timeouts * Arguments: * a_theLock - lock object filled with contents of existing lock * a_fd - file descriptor opened on the lock file * a_key - key associated with lock to acquire * a_object - object associated with lock to acquire * a_quiet - quiet mode enabled flag * a_exclusive - exclusive/shared lock flag * a_pid - if != 0 process i.d. to associate with this lock * a_zid - if >= 0 zone i.d. to associate with this lock * Returns: FINDLOCK_T */ static FINDLOCK_T _lock_acquire(LOCK_T *a_theLock, int a_fd, char *a_key, char *a_object, int a_quiet, int a_exclusive, pid_t a_pid, zoneid_t a_zid) { RECORDNUM_T recordNum; FINDLOCK_T result; char key[LOCK_KEY_MAXLEN+1] = {'\0'}; /* entry debugging info */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_ACQUIRE_ENTRY, a_key, a_object, a_quiet, a_exclusive); /* is the specified object already locked? */ for (;;) { result = _findLock(a_theLock, &recordNum, a_fd, a_object, a_key); if (result != FINDLOCK_LOCKED) { break; } if (_validateLock(a_fd, a_theLock, a_quiet) == B_TRUE) { break; } } /* debug info on result of find of lock */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_ACQUIRE_FINDRESULT, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, result, recordNum); /* determine how to acquire the lock */ switch (result) { /* * object is not locked but a key was specified */ case FINDLOCK_NOTLOCKED: log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_ACQUIRE_NOTLOCKED, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_object, a_key); break; /* * object is locked and no key was specified: * - if lock is exclusively held, return "locked" * - if exclusive lock requested, return "locked" * - otherwise lock is shared and shared lock requested, * - increment lock count and return the key */ case FINDLOCK_LOCKED: /* return error if current lock exclusive */ if (a_theLock->_lrLock.lockExclusive) { break; } /* return error if requesting exclusive lock */ if (a_exclusive) { break; } /* shared requesting shared - add to shared lock */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_ACQUIRE_LOCKED_SHARED, a_object, a_key); /* increment shared lock count */ if (_incrementLockCount(a_fd, a_theLock) == 0) { result = FINDLOCK_LOCKACQUIRED; } else { result = FINDLOCK_ERROR; } break; /* * object is not locked */ case FINDLOCK_NOTFOUND: log_msg(LOG_MSG_DEBUG, MSG_LOCK_ACQUIRE_NOTFOUND, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_object); if (_addLock(key, a_fd, a_object, a_exclusive, a_pid, a_zid) == 0) { (void) strncpy(a_theLock->_lrLock.lockKey, key, sizeof (a_theLock->_lrLock.lockKey)); result = FINDLOCK_LOCKACQUIRED; } else { result = FINDLOCK_ERROR; } break; /* * object is locked, key specified, specified key does not match */ case FINDLOCK_KEYMISMATCH: log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_ERR, MSG_LOCK_ACQUIRE_KEYMISMATCH, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_object); break; /* * error determining if object is locked */ case FINDLOCK_ERROR: log_msg(LOG_MSG_ERR, MSG_LOCK_ACQUIRE_ERROR, a_object, a_key, strerror(errno)); break; /* * object is locked and specified key matches */ case FINDLOCK_FOUND: /* return locked if object currently locked */ if (a_exclusive != a_theLock->_lrLock.lockExclusive) { result = FINDLOCK_LOCKED; break; } log_msg(LOG_MSG_DEBUG, MSG_LOCK_ACQUIRE_FOUND_INC, a_object, a_key, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR); /* increment shared lock */ if (_incrementLockCount(a_fd, a_theLock) == 0) { result = FINDLOCK_LOCKACQUIRED; } else { result = FINDLOCK_ERROR; } break; /* * unknown return */ default: result = FINDLOCK_ERROR; break; } return (result); } /* * Name: _openLockFile * Description: open the lock file, acquiring exclusive record locks * Arguments: * a_root - root of file system to manipulate locks on * Returns: int * >= 0 - successful - file descriptor lock file opened on * < 0 - not successful */ static int _openLockFile(char *a_root) { WAITER_T waiter; char lockpath[MAXPATHLEN]; int fd; int result; /* entry debugging info */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_OPENFILE_ENTRY, a_root, LOCK_FILENAME); /* generate path to lock directory */ (void) snprintf(lockpath, sizeof (lockpath), "%s/%s", a_root, LOCK_DIRECTORY); if (access(lockpath, F_OK) != 0) { log_msg(LOG_MSG_ERR, MSG_LOCK_ROOTDIR_INVALID, lockpath, strerror(errno)); return (-1); } /* generate path to lock file */ (void) snprintf(lockpath, sizeof (lockpath), "%s/%s", a_root, LOCK_FILENAME); /* wait for open to succeed up to limits */ for (waiter = WAITER_INITIAL; waiter < WAITER_MAX; waiter = WAITER_NEXT(waiter)) { /* LINTED O_CREAT without O_EXCL specified in call to open() */ fd = open(lockpath, O_CREAT|O_RDWR, LOCK_FILEMODE); /* break out of loop if file opened */ if (fd >= 0) { break; } /* failed - exit loop if due to access (permissions) failure */ if (errno == EACCES) { break; } /* file is busy - wait and try again */ if (waiter == WAITER_INITIAL) { log_msg(LOG_MSG_DEBUG, MSG_LOCK_OPENFILE_SLEEPING, strerror(errno), waiter); } (void) sleep(waiter); } /* if open filed generate error message and return error */ if (fd < 0) { log_msg(LOG_MSG_DEBUG, MSG_LOCK_OPENFILE_FAILURE, strerror(errno)); perror(lockpath); return (-1); } /* * lock file opened - acquire exclusive section lock on entire file; * wait for lockf to succeed up to limits */ for (waiter = WAITER_INITIAL; waiter < WAITER_MAX; waiter = WAITER_NEXT(waiter)) { /* acquire exclusive section lock on entire file */ result = lockf(fd, F_LOCK, 0xFFFFF); /* break out of loop if entire file locked */ if (result == 0) { break; } /* file is busy - wait and try again */ if (waiter == WAITER_INITIAL) { log_msg(LOG_MSG_DEBUG, MSG_LOCK_OPENFILE_SLEEP2, strerror(errno), waiter); } (void) sleep(waiter); } /* if section lock failed generate error message and return error */ if (result < 0) { log_msg(LOG_MSG_DEBUG, MSG_LOCK_OPENFILE_FAIL2, strerror(errno)); perror(lockpath); (void) close(fd); return (-1); } /* file opened and locked - return success */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_OPENFILE_SUCCESS, fd); return (fd); } /* * Name: _lockMatch * Description: Compare two lock objects using file name match criteria * Arguments: * a_s1Lock - first lock object to compare against the second * a_s2Lock - second lock object to compare against the first * Returns: * == 0 - the locks match at some level * != 0 - the locks do not match at any level */ static int _lockMatch(char *a_s1Lock, char *a_s2Lock) { boolean_t s1Sfx = B_FALSE; boolean_t s2Sfx = B_FALSE; char *final1Lock = (char *)NULL; char *final2Lock = (char *)NULL; char s1Buf[MAXPATHLEN] = {'\0'}; char s1Prefix[MAXPATHLEN] = {'\0'}; char s2Buf[MAXPATHLEN] = {'\0'}; char s2Prefix[MAXPATHLEN] = {'\0'}; int result = 0; int s1Cnt; int s2Cnt; /* entry assertions */ assert(a_s1Lock != (char *)NULL); assert(a_s2Lock != (char *)NULL); /* entry debugging info */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_ENTRY, a_s1Lock, a_s2Lock); /* * attempt to find a common anchor between the two locks; that is, * find the first node in the first lock that matches any node * in the second lock; for example: * --> a/b/c vs b/c/d * -> common anchor is "b"; comparison would expand to: * --> a/b/c/? vs ?/b/c/d */ /* process each node in the first lock */ for (s1Cnt = 0; ; s1Cnt++) { /* get next first lock node */ pkgstrGetToken_r((char *)NULL, a_s1Lock, s1Cnt, "/", s1Buf, sizeof (s1Buf)); log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_FSTNODE, s1Cnt, s1Buf); /* exit if no more nodes left */ if (s1Buf[0] == '\0') { break; } /* discover "." prefix for this node */ pkgstrGetToken_r((char *)NULL, s1Buf, 0, ".", s1Prefix, sizeof (s1Prefix)); s1Sfx = (strlen(s1Prefix) == strlen(s1Buf) ? B_FALSE : B_TRUE); /* search each second lock node; look for the first node lock */ for (s2Cnt = 0; ; s2Cnt++) { /* get next second lock node */ pkgstrGetToken_r((char *)NULL, a_s2Lock, s2Cnt, "/", s2Buf, sizeof (s2Buf)); log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_SCNDNODE, s2Cnt, s2Buf); /* exit if no nodes left */ if (s2Buf[0] == '\0') { break; } /* discover "." prefix for this node */ pkgstrGetToken_r((char *)NULL, s2Buf, 0, ".", s2Prefix, sizeof (s2Prefix)); s2Sfx = (strlen(s2Prefix) == strlen(s2Buf) ? B_FALSE : B_TRUE); /* * process this pair of nodes: * if both nodes do not have a prefix, then directly * compare the nodes (e.g. a/b vs c/d: a vs c, b vs d) * and break out of the loop if there is a match; * otherwise, compare prefixes and break out of the * loop if there is a match (e.g. a.* / b.* vs * vs c.* / d.*: a.* vs c.*, a.* vs d.*, b.* vs c.*, * b.* vs d.*). */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_NODES, s1Buf, s1Prefix, s1Sfx, s2Buf, s2Prefix, s2Sfx); if ((s1Sfx == B_FALSE) || (s2Sfx == B_FALSE)) { /* one doesnt have a prefix direct comparison */ if (strcmp(s1Buf, s2Buf) == 0) { log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_DIRMCH, s1Buf, s2Buf); break; } /* nodes do not directly match, continue */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_DIRNOMCH, s1Buf, s2Buf); continue; } /* both have prefix, compare prefixes */ if (strcmp(s1Prefix, s2Prefix) == 0) { log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_PFXMCH, s1Prefix, s2Prefix); break; } /* prefixes do not match, continue */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_PFXNOMCH, s1Prefix, s2Prefix); } /* * match found if not at the end of the second lock node list, * break out of loop because some match between the two lock * objects has been found */ if (s2Buf[0] != '\0') { break; } } /* * at this point, either a match has been found between the nodes in * the two lock objects, or there is no commonality at all between * the two lock objects. * * s1Buf[0] == '\0' && s2Buf[0] == '\0': * --> nothing in first lock matches anything in second lock: * ----> (s1Cnt == 1) || (s2Cnt == 1) && (s1Sfx == B_FALSE) * ----> || (s2Sfx == B_FALSE) * --------> an absolute lock do not match * ----> else both object locks have nothing in common - match * * s2Buf[0] != '\0' && s1Buf[0] != '\0' && s1Cnt > 0 && s2Cnt > 0 * --> locks have incompatible overlaps - no match, such as: * ----> a.* / b.* / c.* / d.* and y.* / b.* / c.* * * s1Cnt == 0 && s2Cnt == 0: * --> locks begin with same node - do comparison * * s1Cnt != 0 && s2Cnt == 0 && s2Buf[0] != '\0' * --> second lock is subset of first lock * * s2Cnt == 0 && s2Buf[0] != '\0': * --> s1Buf[s1Cnt] matches s2Buf[0] - second is subset of first * * s2Cnt != 0 && s1Cnt == 0 && s1Buf[0] != '\0': * --> first lock is subset of second lock * */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_FSTLCK, s1Cnt, s1Buf, s1Prefix, s1Sfx); log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_SCNDLCK, s2Cnt, s2Buf, s2Prefix, s2Sfx); /* process any direct comparisons that might be possible */ if ((s1Buf[0] == '\0') && (s2Buf[0] == '\0')) { /* nothing in first matches anything in second lock */ if (((s1Cnt == 1) || (s2Cnt == 1)) && ((s1Sfx == B_FALSE) || (s2Sfx == B_FALSE))) { /* two absolute locks match (e.g. 'file' and 'dir') */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_ABSNOMCH, a_s1Lock, a_s2Lock); return (1); } /* two object locks have nothing in common: match */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_OBJMCH, a_s1Lock, a_s2Lock); return (0); } if ((s2Buf[0] != '\0') && (s1Buf[0] != '\0') && (s1Cnt > 0) && (s2Cnt > 0)) { /* incompatible overlapping objects */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_OVLPNOMCH, a_s1Lock, a_s2Lock, s1Cnt+1, s1Buf); return (1); } /* * must compare each node of each lock to determine match; * start off at the first byte of both locks */ final1Lock = a_s1Lock; final2Lock = a_s2Lock; if ((s1Cnt == 0) && (s2Cnt == 0)) { /* both have first match - start comparison from the begining */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_SAME, a_s1Lock, a_s2Lock, s1Buf); } else if ((s1Cnt != 0) && (s2Cnt == 0) && (s2Buf[0] != '\0')) { /* second lock begins somewhere inside of the first lock */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_SCNDSUB, a_s2Lock, a_s1Lock, s1Cnt+1, s1Buf); /* advance first lock to matching node in second lock */ if (strchr(a_s1Lock, '/') != (char *)NULL) { for (; s1Cnt > 0 && (*final1Lock != '\0'); final1Lock++) { if (*final1Lock == '/') { s1Cnt--; } } } } else if ((s2Cnt != 0) && (s1Cnt == 0) && (s1Buf[0] != '\0')) { /* first lock begins somewhere inside of the second lock */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_FRSTSUB, a_s1Lock, a_s2Lock, s2Cnt+1, s2Buf); /* advance second lock to matching node in first lock */ if (strchr(a_s2Lock, '/') != (char *)NULL) { for (; s2Cnt > 0 && (*final2Lock != '\0'); final2Lock++) { if (*final2Lock == '/') { s2Cnt--; } } } } else { /* unknown condition (probably impossible): directly compare */ log_msg(LOG_MSG_ERR, MSG_LCKMCH_DONTKNOW, a_s1Lock, a_s2Lock); } /* * locks have common node - compare from that node forward */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_READY, final1Lock, final2Lock); /* compare each node (prefix) - success when no more nodes to compare */ for (s1Cnt = 0; ; s1Cnt++) { /* get next node from first lock */ pkgstrGetToken_r((char *)NULL, final1Lock, s1Cnt, "/", s1Buf, sizeof (s1Buf)); /* success if at end of lock */ if (s1Buf[0] == '\0') { break; } /* get next node from second lock */ pkgstrGetToken_r((char *)NULL, final2Lock, s1Cnt, "/", s2Buf, sizeof (s2Buf)); /* success if at end of lock */ if (s2Buf[0] == '\0') { break; } /* compare both nodes */ result = fnmatch(s1Buf, s2Buf, 0); if (result != 0) { result = fnmatch(s2Buf, s1Buf, 0); } /* failure if nodes do not match */ if (result != 0) { log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_NODEFAIL, s1Cnt, s1Buf, s2Buf); return (1); } /* nodes match, continue and compare next set of nodes */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_NODEOK, s1Cnt, s1Buf, s2Buf); } /* no more nodes to compare - locks match */ log_msg(LOG_MSG_DEBUG, MSG_LCKMCH_MATCHOK, final1Lock, final2Lock); return (0); } /* * Name: _findLock * Description: Locate specified lock in lock file * Arguments: * a_theLock - lock object filled with contents of lock (if found) * r_recordNum - will contain record number if lock found * - will be RECORDNUM_NONE if lock not found * a_fd - file descriptor opened on the lock file * a_key - key associated with lock to look up * a_object - object associated with lock to look up * Returns: * FINDLOCK_FOUND - specified lock found; a_theLock contains contents * of found lock, r_recordNum contain record number of lock * FINDLOCK_ERROR - failed - error occurred looking up the lock * FINDLOCK_NOTFOUND - specified object is not locked * FINDLOCK_KEYMISMATCH - object lock found but specified key doesnt match * FINDLOCK_LOCKED - object lock found but no key specified * FINDLOCK_NOTLOCKED - object not locked */ static FINDLOCK_T _findLock(LOCK_T *a_theLock, RECORDNUM_T *r_recordNum, int a_fd, char *a_object, char *a_key) { ADMINLOCK_T *pll; char *pld; int recordNum = 0; long pls; off_t pos; /* reset returned record number to "none" */ *r_recordNum = RECORDNUM_NONE; /* localize references to lock object */ pld = &a_theLock->_lrLockData[0]; pll = &a_theLock->_lrLock; pls = sizeof (a_theLock->_lrLockData); /* zero out returned lock data */ bzero(pld, pls); /* debug info before processing lock file */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_FINDLOCK_ENTRY, a_object, a_key); /* rewind to beginning of lock file */ pos = lseek(a_fd, 0L, SEEK_SET); if (pos == (off_t)-1) { log_msg(LOG_MSG_ERR, MSG_LOCK_FINDLOCK_LSEEK_FAILURE, a_object, a_key, strerror(errno)); return (FINDLOCK_ERROR); } /* read and process each lock */ for (; pread(a_fd, pld, pls, pls*recordNum) == pls; recordNum++) { /* debug info on this lock */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_FINDLOCK_READRECORD, recordNum, pll->lockCount, pll->lockObject, pll->lockKey, pll->lockPid, pll->lockZoneId); /* continue if object is not the one we are looking for */ if (_lockMatch(a_object, pll->lockObject) != 0) { continue; } /* * object found; return locked if searching for no key */ if (*a_key == '\0') { /* no key specified - object is locked */ *r_recordNum = recordNum; return (FINDLOCK_LOCKED); } /* * object found and keys present; see if keys match */ if (strcmp(pll->lockKey, a_key) != 0) { /* keys do not match */ *r_recordNum = recordNum; return (FINDLOCK_KEYMISMATCH); } /* object found and keys match - return match */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_FINDLOCK_FOUND); *r_recordNum = recordNum; return (FINDLOCK_FOUND); } /* object not locked - return error if key supplied */ if (*a_key != '\0') { return (FINDLOCK_NOTLOCKED); } /* object not locked and key not supplied - no lock found */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_FINDLOCK_NOTFOUND); return (FINDLOCK_NOTFOUND); } /* * Name: _addLock * Description: Add a new lock to the lock file * Arguments: * r_key - if lock acquired key is placed here * a_fd - file descriptor opened on the lock file * a_object - object to lock * a_exclusive - type of lock to add: * == 0 - shared lock * != 0 - exclusive lock * a_pid - if != 0 process i.d. to associate with this lock * a_zid - if >= 0 zone i.d. to associate with this lock * Returns: int * == 0 - success * != 0 - failure */ static int _addLock(char *r_key, int a_fd, char *a_object, int a_exclusive, pid_t a_pid, zoneid_t a_zid) { LOCK_T theLock; char *key; off_t pos; ssize_t result; /* get unique i.d. for this lock */ key = _getUniqueId(); /* determine record number for next record in lock file */ pos = lseek(a_fd, 0L, SEEK_END); if (pos == (off_t)-1) { log_msg(LOG_MSG_ERR, MSG_LOCK_ADDLOCK_LSEEK_FAILURE, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_object, strerror(errno)); return (1); } /* allocate storace for this lock */ bzero(&theLock, sizeof (theLock)); /* fill in components of the lock */ (void) strlcpy(theLock._lrLock.lockObject, a_object, LOCK_OBJECT_MAXLEN); (void) strlcpy(theLock._lrLock.lockKey, key, LOCK_KEY_MAXLEN); theLock._lrLock.lockCount = 1; theLock._lrLock.lockPid = (a_pid > 0 ? a_pid : 0); theLock._lrLock.lockRecordNum = (pos == 0 ? 0 : (pos/sizeof (LOCK_T))); theLock._lrLock.lockExclusive = a_exclusive; theLock._lrLock.lockZoneId = (a_zid >= 0 ? a_zid : -1); /* debug info on new lock */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_ADDLOCK_ADDING, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, pos, theLock._lrLock.lockObject, theLock._lrLock.lockKey, theLock._lrLock.lockPid, theLock._lrLock.lockZoneId); /* write the new lock record to the end of the lock file */ result = pwrite(a_fd, &theLock, LOCK_SIZE, pos); if (result != LOCK_SIZE) { log_msg(LOG_MSG_ERR, MSG_LOCK_ADDLOCK_PWRITE_FAILURE, a_exclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_object, strerror(errno)); return (1); } /* output the key assigned to standard out */ (void) strncpy(r_key, key, LOCK_KEY_MAXLEN); return (0); } static int _incrementLockCount(int a_fd, LOCK_T *a_theLock) { ADMINLOCK_T *pll; char *pld; long pls; ssize_t result; /* localize references to lock object */ pld = &a_theLock->_lrLockData[0]; pll = &a_theLock->_lrLock; pls = sizeof (a_theLock->_lrLockData); /* debug info on incrementing lock */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_INCLOCK_ENTRY, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, pll->lockRecordNum, pll->lockCount); /* increment lock count */ pll->lockCount++; /* write out updated lock */ result = pwrite(a_fd, pld, pls, pll->lockRecordNum*pls); if (result != pls) { log_msg(LOG_MSG_ERR, MSG_LOCK_INCLOCK_PWRITE_FAILURE, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_theLock->_lrLock.lockObject, strerror(errno)); return (1); } /* debug info lock incremented */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_INCLOCK_DONE, pll->lockRecordNum, pll->lockCount, pll->lockObject, pll->lockKey); return (0); } /* * Name: _validateLock * Description: determine if a specified lock is valid; if the lock is not valid * then remove the lock * Arguments: a_fd - file descriptor opened on the lock file * a_theLock - lock object to validate * Returns: boolean_t * B_TRUE - the lock is valid * B_FALSE - the lock is not valid and has been removed */ static boolean_t _validateLock(int a_fd, LOCK_T *a_theLock, int a_quiet) { ADMINLOCK_T *pll; char *pld; long pls; char path[MAXPATHLEN]; /* localize references to lock object */ pld = &a_theLock->_lrLockData[0]; pll = &a_theLock->_lrLock; pls = sizeof (a_theLock->_lrLockData); /* return true if no process i.d. associated with lock */ if (pll->lockPid <= 0) { log_msg(LOG_MSG_DEBUG, MSG_VALID_NOPID, pll->lockObject); return (B_TRUE); } /* see if the zone i.d. matches */ if (pll->lockZoneId != getzoneid()) { log_msg(LOG_MSG_DEBUG, MSG_VALID_BADZID, pll->lockObject, pll->lockZoneId, getzoneid()); return (B_TRUE); } else { log_msg(LOG_MSG_DEBUG, MSG_VALID_ZIDOK, pll->lockObject, pll->lockZoneId, getzoneid()); } /* see if the process is still active */ pkgstrPrintf_r(path, sizeof (path), "/proc/%d", pll->lockPid); if (access(path, F_OK) == 0) { log_msg(LOG_MSG_DEBUG, MSG_VALID_OK, pll->lockObject, pll->lockPid, path); return (B_TRUE); } log_msg(LOG_MSG_DEBUG, MSG_VALID_NOTOK, pll->lockObject, pll->lockPid, path); /* delete this lock */ log_msg(a_quiet ? LOG_MSG_DEBUG : LOG_MSG_WRN, MSG_VALID_STALE, pll->lockObject, pll->lockPid, pll->lockZoneId); _decrementLockCount(a_fd, a_theLock); return (B_FALSE); } static int _decrementLockCount(int a_fd, LOCK_T *a_theLock) { ADMINLOCK_T *pll; LOCK_T tmpLock; RECORDNUM_T lastRecord; char *pld; long pls; off_t lastPos; ssize_t result; int res; /* localize references to lock object */ pld = &a_theLock->_lrLockData[0]; pll = &a_theLock->_lrLock; pls = sizeof (a_theLock->_lrLockData); /* decrement lock count */ pll->lockCount--; /* if lock count > 0 then write out and leave locked */ if (pll->lockCount > 0) { log_msg(LOG_MSG_DEBUG, MSG_LOCK_DECLOCK_DECING, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, pll->lockRecordNum, pll->lockCount); result = pwrite(a_fd, pld, pls, pll->lockRecordNum*pls); if (result != pls) { log_msg(LOG_MSG_ERR, MSG_LOCK_DECLOCK_PWRITE_FAILURE, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_theLock->_lrLock.lockObject, strerror(errno)); return (1); } log_msg(LOG_MSG_DEBUG, MSG_LOCK_DECLOCK_DONE, pll->lockRecordNum, pll->lockCount, pll->lockObject, pll->lockKey); return (0); } /* * lock count zero - erase the record */ /* find last record in the lock file */ lastPos = lseek(a_fd, 0L, SEEK_END); /* get size of lock file */ if (lastPos == (off_t)-1) { log_msg(LOG_MSG_ERR, MSG_LOCK_DECLOCK_LSEEK_FAILURE, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_theLock->_lrLock.lockObject, strerror(errno)); return (1); } lastRecord = (lastPos/pls)-1; /* convert size to record # */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_DECLOCK_REMOVE, lastPos, lastRecord, pll->lockRecordNum); /* see if removing last record of file */ if (lastRecord == pll->lockRecordNum) { /* debug info removing last record */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_DECLOCK_LASTONE, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, lastRecord, lastPos-pls); /* removing last record of file, truncate */ res = ftruncate(a_fd, lastPos-pls); if (res == -1) { log_msg(LOG_MSG_ERR, MSG_LOCK_DECLOCK_FTRUNCATE_FAILURE, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_theLock->_lrLock.lockObject, strerror(errno)); return (1); } return (0); } /* * not removing last record of file: * read last record, truncate file one record, * replace record to be removed with last record read */ log_msg(LOG_MSG_DEBUG, MSG_LOCK_DECLOCK_REMOVING, pll->lockRecordNum, lastRecord, lastPos-pls); /* read in the last record */ result = pread(a_fd, tmpLock._lrLockData, pls, lastRecord*pls); if (result != pls) { log_msg(LOG_MSG_ERR, MSG_LOCK_DECLOCK_PREAD_FAILURE, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_theLock->_lrLock.lockObject, strerror(errno)); return (1); } /* truncate lock file removing the last record (just read in) */ res = ftruncate(a_fd, lastPos-pls); if (res == -1) { log_msg(LOG_MSG_ERR, MSG_LOCK_DECLOCK_FTRUNCATE_FAILURE, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_theLock->_lrLock.lockObject, strerror(errno)); return (1); } /* update record to indicate its new position in the lock file */ tmpLock._lrLock.lockRecordNum = pll->lockRecordNum; /* write out the updated record to the new location */ result = pwrite(a_fd, tmpLock._lrLockData, pls, pll->lockRecordNum*pls); if (result != pls) { log_msg(LOG_MSG_ERR, MSG_LOCK_DECLOCK_PWRITE_FAILURE, a_theLock->_lrLock.lockExclusive ? MSG_LOCK_EXC : MSG_LOCK_SHR, a_theLock->_lrLock.lockObject, strerror(errno)); return (1); } return (0); } /* * Name: _getUniqueId * Description: Generate a unique ID that can be used as a key for a new lock * Arguments: None * Returns: char * * == NULL - error, no key generated * != NULL - generated key * NOTE: Any results returned is placed in new storage for the * calling method. The caller must use 'lu_memFree' to dispose * of the storage once the results are no longer needed. */ static char * _getUniqueId(void) { char newkey[LOCK_KEY_MAXLEN]; hrtime_t hretime; int b; int execStatus; struct tm tstruct; time_t thetime; /* * generate own unique key - the key is the * same length as unique uid but contains different information that * is as unique as can be made - include current hires time (nanosecond * real timer). Such a unique i.d. will look like: * 0203104092-1145345-0004e94d6af481a0 */ hretime = gethrtime(); thetime = time((time_t *)NULL); (void) localtime_r(&thetime, &tstruct); (void) snprintf(newkey, sizeof (newkey), "%02d%02d%02d%03d-%02d%02d%02d%d-%016llx", tstruct.tm_mday, tstruct.tm_mon, tstruct.tm_year, tstruct.tm_yday, tstruct.tm_hour, tstruct.tm_min, tstruct.tm_sec, tstruct.tm_wday, hretime); log_msg(LOG_MSG_DEBUG, MSG_LOCK_GENUID_INTERNAL, newkey); return (strdup(newkey)); } /* * Name: sigint_handler * Synopsis: SIGINT interrupt handler * Description: Catch the "SIGINT" signal; increment signal_received * global variable, * Arguments: signo - [RO, *RO] - (int) * Signal number that was caught * Returns: void */ static void sigint_handler(int a_signo) { signal_received++; } /* * Name: sighup_handler * Synopsis: SIGHUP interrupt handler * Description: Catch the "SIGHUP" signal; increment signal_received * global variable, * Arguments: signo - [RO, *RO] - (int) * Signal number that was caught * Returns: void */ static void sighup_handler(int a_signo) { signal_received++; }