/* Copyright (c) 2008-2012 Red Hat, Inc. This file is part of GlusterFS. This file is licensed to you under your choice of the GNU Lesser General Public License, version 3 or any later version (LGPLv3 or later), or the GNU General Public License, version 2 (GPLv2), in all cases as published by the Free Software Foundation. */ #ifndef _CONFIG_H #define _CONFIG_H #include "config.h" #endif #ifdef HAVE_BACKTRACE #include #else #include "execinfo_compat.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* for dirname() */ #if defined(GF_BSD_HOST_OS) || defined(GF_DARWIN_HOST_OS) #include #endif #include "compat-errno.h" #include "logging.h" #include "common-utils.h" #include "revision.h" #include "glusterfs.h" #include "stack.h" #include "globals.h" #include "lkowner.h" #include "syscall.h" #include #ifndef AI_ADDRCONFIG #define AI_ADDRCONFIG 0 #endif /* AI_ADDRCONFIG */ typedef int32_t (*rw_op_t)(int32_t fd, char *buf, int32_t size); typedef int32_t (*rwv_op_t)(int32_t fd, const struct iovec *buf, int32_t size); struct dnscache6 { struct addrinfo *first; struct addrinfo *next; }; void md5_wrapper(const unsigned char *data, size_t len, char *md5) { unsigned short i = 0; unsigned short lim = MD5_DIGEST_LENGTH*2+1; unsigned char scratch[MD5_DIGEST_LENGTH] = {0,}; MD5(data, len, scratch); for (; i < MD5_DIGEST_LENGTH; i++) snprintf(md5 + i * 2, lim-i*2, "%02x", scratch[i]); } /* works similar to mkdir(1) -p. */ int mkdir_p (char *path, mode_t mode, gf_boolean_t allow_symlinks) { int i = 0; int ret = -1; char dir[PATH_MAX] = {0,}; struct stat stbuf = {0,}; strncpy (dir, path, (PATH_MAX - 1)); dir[PATH_MAX - 1] = '\0'; i = (dir[0] == '/')? 1: 0; do { if (path[i] != '/' && path[i] != '\0') continue; dir[i] = '\0'; ret = mkdir (dir, mode); if (ret && errno != EEXIST) { gf_log ("", GF_LOG_ERROR, "Failed due to reason %s", strerror (errno)); goto out; } if (ret && errno == EEXIST && !allow_symlinks) { ret = lstat (dir, &stbuf); if (ret) goto out; if (S_ISLNK (stbuf.st_mode)) { ret = -1; gf_log ("", GF_LOG_ERROR, "%s is a symlink", dir); goto out; } } dir[i] = '/'; } while (path[i++] != '\0'); ret = stat (dir, &stbuf); if (ret || !S_ISDIR (stbuf.st_mode)) { ret = -1; gf_log ("", GF_LOG_ERROR, "Failed to create directory, " "possibly some of the components were not directories"); goto out; } ret = 0; out: return ret; } int gf_lstat_dir (const char *path, struct stat *stbuf_in) { int ret = -1; struct stat stbuf = {0,}; if (path == NULL) { errno = EINVAL; goto out; } ret = sys_lstat (path, &stbuf); if (ret) goto out; if (!S_ISDIR (stbuf.st_mode)) { errno = ENOTDIR; ret = -1; goto out; } ret = 0; out: if (!ret && stbuf_in) *stbuf_in = stbuf; return ret; } int log_base2 (unsigned long x) { int val = 0; while (x > 1) { x /= 2; val++; } return val; } /** * gf_rev_dns_lookup -- Perform a reverse DNS lookup on the IP address. * * @ip: The IP address to perform a reverse lookup on * * @return: success: Allocated string containing the hostname * failure: NULL */ char * gf_rev_dns_lookup (const char *ip) { char *fqdn = NULL; int ret = 0; struct sockaddr_in sa = {0}; char host_addr[256] = {0, }; GF_VALIDATE_OR_GOTO ("resolver", ip, out); sa.sin_family = AF_INET; inet_pton (AF_INET, ip, &sa.sin_addr); ret = getnameinfo ((struct sockaddr *)&sa, sizeof (sa), host_addr, sizeof (host_addr), NULL, 0, 0); if (ret != 0) { gf_log ("resolver", GF_LOG_INFO, "could not resolve hostname " "for %s: %s", ip, strerror (errno)); goto out; } /* Get the FQDN */ fqdn = gf_strdup (host_addr); if (!fqdn) gf_log ("resolver", GF_LOG_CRITICAL, "Allocation failed for " "the host address"); out: return fqdn; } /** * gf_resolve_parent_path -- Given a path, returns an allocated string * containing the parent's path. * @path: Path to parse * @return: The parent path if found, NULL otherwise */ char * gf_resolve_path_parent (const char *path) { char *parent = NULL; char *tmp = NULL; char *pathc = NULL; GF_VALIDATE_OR_GOTO (THIS->name, path, out); if (strlen (path) <= 0) { gf_log_callingfn (THIS->name, GF_LOG_DEBUG, "invalid string for 'path'"); goto out; } /* dup the parameter, we don't want to modify it */ pathc = strdupa (path); if (!pathc) { gf_log (THIS->name, GF_LOG_CRITICAL, "Allocation failed for the parent"); goto out; } /* Get the parent directory */ tmp = dirname (pathc); if (strcmp (tmp, "/") == 0) goto out; parent = gf_strdup (tmp); if (!parent) gf_log (THIS->name, GF_LOG_CRITICAL, "Allocation failed for the parent"); out: return parent; } int32_t gf_resolve_ip6 (const char *hostname, uint16_t port, int family, void **dnscache, struct addrinfo **addr_info) { int32_t ret = 0; struct addrinfo hints; struct dnscache6 *cache = NULL; char service[NI_MAXSERV], host[NI_MAXHOST]; if (!hostname) { gf_log_callingfn ("resolver", GF_LOG_WARNING, "hostname is NULL"); return -1; } if (!*dnscache) { *dnscache = GF_CALLOC (1, sizeof (struct dnscache6), gf_common_mt_dnscache6); if (!*dnscache) return -1; } cache = *dnscache; if (cache->first && !cache->next) { freeaddrinfo(cache->first); cache->first = cache->next = NULL; gf_log ("resolver", GF_LOG_TRACE, "flushing DNS cache"); } if (!cache->first) { char *port_str = NULL; gf_log ("resolver", GF_LOG_TRACE, "DNS cache not present, freshly probing hostname: %s", hostname); memset(&hints, 0, sizeof(hints)); hints.ai_family = family; hints.ai_socktype = SOCK_STREAM; #ifndef __NetBSD__ hints.ai_flags = AI_ADDRCONFIG; #endif ret = gf_asprintf (&port_str, "%d", port); if (-1 == ret) { gf_log ("resolver", GF_LOG_ERROR, "asprintf failed"); return -1; } if ((ret = getaddrinfo(hostname, port_str, &hints, &cache->first)) != 0) { gf_log ("resolver", GF_LOG_ERROR, "getaddrinfo failed (%s)", gai_strerror (ret)); GF_FREE (*dnscache); *dnscache = NULL; GF_FREE (port_str); return -1; } GF_FREE (port_str); cache->next = cache->first; } if (cache->next) { ret = getnameinfo((struct sockaddr *)cache->next->ai_addr, cache->next->ai_addrlen, host, sizeof (host), service, sizeof (service), NI_NUMERICHOST); if (ret != 0) { gf_log ("resolver", GF_LOG_ERROR, "getnameinfo failed (%s)", gai_strerror (ret)); goto err; } gf_log ("resolver", GF_LOG_DEBUG, "returning ip-%s (port-%s) for hostname: %s and port: %d", host, service, hostname, port); *addr_info = cache->next; } if (cache->next) cache->next = cache->next->ai_next; if (cache->next) { ret = getnameinfo((struct sockaddr *)cache->next->ai_addr, cache->next->ai_addrlen, host, sizeof (host), service, sizeof (service), NI_NUMERICHOST); if (ret != 0) { gf_log ("resolver", GF_LOG_ERROR, "getnameinfo failed (%s)", gai_strerror (ret)); goto err; } gf_log ("resolver", GF_LOG_DEBUG, "next DNS query will return: ip-%s port-%s", host, service); } return 0; err: freeaddrinfo (cache->first); cache->first = cache->next = NULL; GF_FREE (cache); *dnscache = NULL; return -1; } struct xldump { int lineno; }; /* to catch any format discrepencies that may arise in code */ static int nprintf (struct xldump *dump, const char *fmt, ...) __attribute__ ((__format__ (__printf__, 2, 3))); static int nprintf (struct xldump *dump, const char *fmt, ...) { va_list ap; char *msg = NULL; char header[32]; int ret = 0; ret = snprintf (header, 32, "%3d:", ++dump->lineno); if (ret < 0) goto out; va_start (ap, fmt); ret = vasprintf (&msg, fmt, ap); va_end (ap); if (-1 == ret) goto out; /* NOTE: No ret value from gf_msg_plain, so unable to compute printed * characters. The return value from nprintf is not used, so for now * living with it */ gf_msg_plain (GF_LOG_WARNING, "%s %s", header, msg); out: FREE (msg); return 0; } static int xldump_options (dict_t *this, char *key, data_t *value, void *d) { nprintf (d, " option %s %s", key, value->data); return 0; } static void xldump_subvolumes (xlator_t *this, void *d) { xlator_list_t *subv = NULL; int len = 0; char *subvstr = NULL; subv = this->children; if (!this->children) return; for (subv = this->children; subv; subv = subv->next) len += (strlen (subv->xlator->name) + 1); subvstr = GF_CALLOC (1, len, gf_common_mt_strdup); len = 0; for (subv = this->children; subv; subv= subv->next) len += sprintf (subvstr + len, "%s%s", subv->xlator->name, subv->next ? " " : ""); nprintf (d, " subvolumes %s", subvstr); GF_FREE (subvstr); } static void xldump (xlator_t *each, void *d) { nprintf (d, "volume %s", each->name); nprintf (d, " type %s", each->type); dict_foreach (each->options, xldump_options, d); xldump_subvolumes (each, d); nprintf (d, "end-volume"); nprintf (d, " "); } void gf_log_dump_graph (FILE *specfp, glusterfs_graph_t *graph) { struct xldump xld = {0, }; gf_msg_plain (GF_LOG_WARNING, "Final graph:"); gf_msg_plain (GF_LOG_WARNING, "+---------------------------------------" "---------------------------------------+"); xlator_foreach_depth_first (graph->top, xldump, &xld); gf_msg_plain (GF_LOG_WARNING, "+---------------------------------------" "---------------------------------------+"); } static void gf_dump_config_flags () { gf_msg_plain_nomem (GF_LOG_ALERT, "configuration details:"); /* have argp */ #ifdef HAVE_ARGP gf_msg_plain_nomem (GF_LOG_ALERT, "argp 1"); #endif /* ifdef if found backtrace */ #ifdef HAVE_BACKTRACE gf_msg_plain_nomem (GF_LOG_ALERT, "backtrace 1"); #endif /* Berkeley-DB version has cursor->get() */ #ifdef HAVE_BDB_CURSOR_GET gf_msg_plain_nomem (GF_LOG_ALERT, "bdb->cursor->get 1"); #endif /* Define to 1 if you have the header file. */ #ifdef HAVE_DB_H gf_msg_plain_nomem (GF_LOG_ALERT, "db.h 1"); #endif /* Define to 1 if you have the header file. */ #ifdef HAVE_DLFCN_H gf_msg_plain_nomem (GF_LOG_ALERT, "dlfcn 1"); #endif /* define if fdatasync exists */ #ifdef HAVE_FDATASYNC gf_msg_plain_nomem (GF_LOG_ALERT, "fdatasync 1"); #endif /* Define to 1 if you have the `pthread' library (-lpthread). */ #ifdef HAVE_LIBPTHREAD gf_msg_plain_nomem (GF_LOG_ALERT, "libpthread 1"); #endif /* define if llistxattr exists */ #ifdef HAVE_LLISTXATTR gf_msg_plain_nomem (GF_LOG_ALERT, "llistxattr 1"); #endif /* define if found setfsuid setfsgid */ #ifdef HAVE_SET_FSID gf_msg_plain_nomem (GF_LOG_ALERT, "setfsid 1"); #endif /* define if found spinlock */ #ifdef HAVE_SPINLOCK gf_msg_plain_nomem (GF_LOG_ALERT, "spinlock 1"); #endif /* Define to 1 if you have the header file. */ #ifdef HAVE_SYS_EPOLL_H gf_msg_plain_nomem (GF_LOG_ALERT, "epoll.h 1"); #endif /* Define to 1 if you have the header file. */ #ifdef HAVE_SYS_EXTATTR_H gf_msg_plain_nomem (GF_LOG_ALERT, "extattr.h 1"); #endif /* Define to 1 if you have the header file. */ #ifdef HAVE_SYS_XATTR_H gf_msg_plain_nomem (GF_LOG_ALERT, "xattr.h 1"); #endif /* define if found st_atim.tv_nsec */ #ifdef HAVE_STRUCT_STAT_ST_ATIM_TV_NSEC gf_msg_plain_nomem (GF_LOG_ALERT, "st_atim.tv_nsec 1"); #endif /* define if found st_atimespec.tv_nsec */ #ifdef HAVE_STRUCT_STAT_ST_ATIMESPEC_TV_NSEC gf_msg_plain_nomem (GF_LOG_ALERT, "st_atimespec.tv_nsec 1"); #endif /* Define to the full name and version of this package. */ #ifdef PACKAGE_STRING { char msg[128]; sprintf (msg, "package-string: %s", PACKAGE_STRING); gf_msg_plain_nomem (GF_LOG_ALERT, msg); } #endif return; } /* Obtain a backtrace and print it to the log */ void gf_print_trace (int32_t signum, glusterfs_ctx_t *ctx) { char msg[1024] = {0,}; char timestr[64] = {0,}; /* Now every gf_log call will just write to a buffer and when the * buffer becomes full, its written to the log-file. Suppose the process * crashes and prints the backtrace in the log-file, then the previous * log information will still be in the buffer itself. So flush the * contents of the buffer to the log file before printing the backtrace * which helps in debugging. */ gf_log_flush(); gf_log_disable_suppression_before_exit (ctx); /* Pending frames, (if any), list them in order */ gf_msg_plain_nomem (GF_LOG_ALERT, "pending frames:"); { struct list_head *trav = ((call_pool_t *)ctx->pool)->all_frames.next; while (trav != (&((call_pool_t *)ctx->pool)->all_frames)) { call_frame_t *tmp = (call_frame_t *)(&((call_stack_t *)trav)->frames); if (tmp->root->type == GF_OP_TYPE_FOP) sprintf (msg,"frame : type(%d) op(%s)", tmp->root->type, gf_fop_list[tmp->root->op]); else sprintf (msg,"frame : type(%d) op(%d)", tmp->root->type, tmp->root->op); gf_msg_plain_nomem (GF_LOG_ALERT, msg); trav = trav->next; } } sprintf (msg, "patchset: %s", GLUSTERFS_REPOSITORY_REVISION); gf_msg_plain_nomem (GF_LOG_ALERT, msg); sprintf (msg, "signal received: %d", signum); gf_msg_plain_nomem (GF_LOG_ALERT, msg); { /* Dump the timestamp of the crash too, so the previous logs can be related */ gf_time_fmt (timestr, sizeof timestr, time (NULL), gf_timefmt_FT); gf_msg_plain_nomem (GF_LOG_ALERT, "time of crash: "); gf_msg_plain_nomem (GF_LOG_ALERT, timestr); } gf_dump_config_flags (); gf_msg_backtrace_nomem (GF_LOG_ALERT, 200); sprintf (msg, "---------"); gf_msg_plain_nomem (GF_LOG_ALERT, msg); /* Send a signal to terminate the process */ signal (signum, SIG_DFL); raise (signum); } void trap (void) { } char * gf_trim (char *string) { register char *s, *t; if (string == NULL) { return NULL; } for (s = string; isspace (*s); s++) ; if (*s == 0) return s; t = s + strlen (s) - 1; while (t > s && isspace (*t)) t--; *++t = '\0'; return s; } int gf_strsplit (const char *str, const char *delim, char ***tokens, int *token_count) { char *_running = NULL; char *running = NULL; char *token = NULL; char **token_list = NULL; int count = 0; int i = 0; int j = 0; if (str == NULL || delim == NULL || tokens == NULL || token_count == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); return -1; } _running = gf_strdup (str); if (_running == NULL) return -1; running = _running; while ((token = strsep (&running, delim)) != NULL) { if (token[0] != '\0') count++; } GF_FREE (_running); _running = gf_strdup (str); if (_running == NULL) return -1; running = _running; if ((token_list = GF_CALLOC (count, sizeof (char *), gf_common_mt_char)) == NULL) { GF_FREE (_running); return -1; } while ((token = strsep (&running, delim)) != NULL) { if (token[0] == '\0') continue; token_list[i] = gf_strdup (token); if (token_list[i] == NULL) goto free_exit; i++; } GF_FREE (_running); *tokens = token_list; *token_count = count; return 0; free_exit: GF_FREE (_running); for (j = 0; j < i; j++) GF_FREE (token_list[j]); GF_FREE (token_list); return -1; } int gf_strstr (const char *str, const char *delim, const char *match) { char *tmp = NULL; char *save_ptr = NULL; char *tmp_str = NULL; int ret = 0; tmp_str = strdup (str); if (str == NULL || delim == NULL || match == NULL || tmp_str == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); ret = -1; goto out; } tmp = strtok_r (tmp_str, delim, &save_ptr); while (tmp) { ret = strcmp (tmp, match); if (ret == 0) break; tmp = strtok_r (NULL, delim, &save_ptr); } out: free (tmp_str); return ret; } int gf_volume_name_validate (const char *volume_name) { const char *vname = NULL; if (volume_name == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); return -1; } if (!isalpha (volume_name[0])) return 1; for (vname = &volume_name[1]; *vname != '\0'; vname++) { if (!(isalnum (*vname) || *vname == '_')) return 1; } return 0; } int gf_string2time (const char *str, uint32_t *n) { unsigned long value = 0; char *tail = NULL; int old_errno = 0; const char *s = NULL; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } for (s = str; *s != '\0'; s++) { if (isspace (*s)) continue; if (*s == '-') return -1; break; } old_errno = errno; errno = 0; value = strtol (str, &tail, 0); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (((tail[0] == '\0') || ((tail[0] == 's') && (tail[1] == '\0')) || ((tail[0] == 's') && (tail[1] == 'e') && (tail[2] == 'c') && (tail[3] == '\0')))) goto out; else if (((tail[0] == 'm') && (tail[1] == '\0')) || ((tail[0] == 'm') && (tail[1] == 'i') && (tail[2] == 'n') && (tail[3] == '\0'))) { value = value * GF_MINUTE_IN_SECONDS; goto out; } else if (((tail[0] == 'h') && (tail[1] == '\0')) || ((tail[0] == 'h') && (tail[1] == 'r') && (tail[2] == '\0'))) { value = value * GF_HOUR_IN_SECONDS; goto out; } else if (((tail[0] == 'd') && (tail[1] == '\0')) || ((tail[0] == 'd') && (tail[1] == 'a') && (tail[2] == 'y') && (tail[3] == 's') && (tail[4] == '\0'))) { value = value * GF_DAY_IN_SECONDS; goto out; } else if (((tail[0] == 'w') && (tail[1] == '\0')) || ((tail[0] == 'w') && (tail[1] == 'k') && (tail[2] == '\0'))) { value = value * GF_WEEK_IN_SECONDS; goto out; } else { return -1; } out: *n = value; return 0; } int gf_string2percent (const char *str, double *n) { double value = 0; char *tail = NULL; int old_errno = 0; const char *s = NULL; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } for (s = str; *s != '\0'; s++) { if (isspace (*s)) continue; if (*s == '-') return -1; break; } old_errno = errno; errno = 0; value = strtod (str, &tail); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (!((tail[0] == '\0') || ((tail[0] == '%') && (tail[1] == '\0')))) return -1; *n = value; return 0; } static int _gf_string2long (const char *str, long *n, int base) { long value = 0; char *tail = NULL; int old_errno = 0; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } old_errno = errno; errno = 0; value = strtol (str, &tail, base); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (tail[0] != '\0') return -1; *n = value; return 0; } static int _gf_string2ulong (const char *str, unsigned long *n, int base) { unsigned long value = 0; char *tail = NULL; int old_errno = 0; const char *s = NULL; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } for (s = str; *s != '\0'; s++) { if (isspace (*s)) continue; if (*s == '-') return -1; break; } old_errno = errno; errno = 0; value = strtoul (str, &tail, base); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (tail[0] != '\0') return -1; *n = value; return 0; } static int _gf_string2uint (const char *str, unsigned int *n, int base) { unsigned long value = 0; char *tail = NULL; int old_errno = 0; const char *s = NULL; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } for (s = str; *s != '\0'; s++) { if (isspace (*s)) continue; if (*s == '-') return -1; break; } old_errno = errno; errno = 0; value = strtoul (str, &tail, base); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (tail[0] != '\0') return -1; *n = (unsigned int)value; return 0; } static int _gf_string2double (const char *str, double *n) { double value = 0.0; char *tail = NULL; int old_errno = 0; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } old_errno = errno; errno = 0; value = strtod (str, &tail); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (tail[0] != '\0') return -1; *n = value; return 0; } static int _gf_string2longlong (const char *str, long long *n, int base) { long long value = 0; char *tail = NULL; int old_errno = 0; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } old_errno = errno; errno = 0; value = strtoll (str, &tail, base); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (tail[0] != '\0') return -1; *n = value; return 0; } static int _gf_string2ulonglong (const char *str, unsigned long long *n, int base) { unsigned long long value = 0; char *tail = NULL; int old_errno = 0; const char *s = NULL; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } for (s = str; *s != '\0'; s++) { if (isspace (*s)) continue; if (*s == '-') return -1; break; } old_errno = errno; errno = 0; value = strtoull (str, &tail, base); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (tail[0] != '\0') return -1; *n = value; return 0; } int gf_string2long (const char *str, long *n) { return _gf_string2long (str, n, 0); } int gf_string2ulong (const char *str, unsigned long *n) { return _gf_string2ulong (str, n, 0); } int gf_string2int (const char *str, int *n) { long l = 0; int ret = 0; ret = _gf_string2long (str, &l, 0); *n = l; return ret; } int gf_string2uint (const char *str, unsigned int *n) { return _gf_string2uint (str, n, 0); } int gf_string2double (const char *str, double *n) { return _gf_string2double (str, n); } int gf_string2longlong (const char *str, long long *n) { return _gf_string2longlong (str, n, 0); } int gf_string2ulonglong (const char *str, unsigned long long *n) { return _gf_string2ulonglong (str, n, 0); } int gf_string2int8 (const char *str, int8_t *n) { long l = 0L; int rv = 0; rv = _gf_string2long (str, &l, 0); if (rv != 0) return rv; if ((l >= INT8_MIN) && (l <= INT8_MAX)) { *n = (int8_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2int16 (const char *str, int16_t *n) { long l = 0L; int rv = 0; rv = _gf_string2long (str, &l, 0); if (rv != 0) return rv; if ((l >= INT16_MIN) && (l <= INT16_MAX)) { *n = (int16_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2int32 (const char *str, int32_t *n) { long l = 0L; int rv = 0; rv = _gf_string2long (str, &l, 0); if (rv != 0) return rv; if ((l >= INT32_MIN) && (l <= INT32_MAX)) { *n = (int32_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2int64 (const char *str, int64_t *n) { long long l = 0LL; int rv = 0; rv = _gf_string2longlong (str, &l, 0); if (rv != 0) return rv; if ((l >= INT64_MIN) && (l <= INT64_MAX)) { *n = (int64_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2uint8 (const char *str, uint8_t *n) { unsigned long l = 0L; int rv = 0; rv = _gf_string2ulong (str, &l, 0); if (rv != 0) return rv; if (l <= UINT8_MAX) { *n = (uint8_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2uint16 (const char *str, uint16_t *n) { unsigned long l = 0L; int rv = 0; rv = _gf_string2ulong (str, &l, 0); if (rv != 0) return rv; if (l <= UINT16_MAX) { *n = (uint16_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2uint32 (const char *str, uint32_t *n) { unsigned long l = 0L; int rv = 0; rv = _gf_string2ulong (str, &l, 0); if (rv != 0) return rv; if (l <= UINT32_MAX) { *n = (uint32_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2uint64 (const char *str, uint64_t *n) { unsigned long long l = 0ULL; int rv = 0; rv = _gf_string2ulonglong (str, &l, 0); if (rv != 0) return rv; if (l <= UINT64_MAX) { *n = (uint64_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2ulong_base10 (const char *str, unsigned long *n) { return _gf_string2ulong (str, n, 10); } int gf_string2uint_base10 (const char *str, unsigned int *n) { return _gf_string2uint (str, n, 10); } int gf_string2uint8_base10 (const char *str, uint8_t *n) { unsigned long l = 0L; int rv = 0; rv = _gf_string2ulong (str, &l, 10); if (rv != 0) return rv; if (l <= UINT8_MAX) { *n = (uint8_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2uint16_base10 (const char *str, uint16_t *n) { unsigned long l = 0L; int rv = 0; rv = _gf_string2ulong (str, &l, 10); if (rv != 0) return rv; if (l <= UINT16_MAX) { *n = (uint16_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2uint32_base10 (const char *str, uint32_t *n) { unsigned long l = 0L; int rv = 0; rv = _gf_string2ulong (str, &l, 10); if (rv != 0) return rv; if (l <= UINT32_MAX) { *n = (uint32_t) l; return 0; } errno = ERANGE; return -1; } int gf_string2uint64_base10 (const char *str, uint64_t *n) { unsigned long long l = 0ULL; int rv = 0; rv = _gf_string2ulonglong (str, &l, 10); if (rv != 0) return rv; if (l <= UINT64_MAX) { *n = (uint64_t) l; return 0; } errno = ERANGE; return -1; } char * gf_uint64_2human_readable (uint64_t n) { int ret = 0; char *str = NULL; if (n >= GF_UNIT_PB) { ret = gf_asprintf (&str, "%.1lfPB", ((double) n)/GF_UNIT_PB); if (ret < 0) goto err; } else if (n >= GF_UNIT_TB) { ret = gf_asprintf (&str, "%.1lfTB", ((double) n)/GF_UNIT_TB); if (ret < 0) goto err; } else if (n >= GF_UNIT_GB) { ret = gf_asprintf (&str, "%.1lfGB", ((double) n)/GF_UNIT_GB); if (ret < 0) goto err; } else if (n >= GF_UNIT_MB) { ret = gf_asprintf (&str, "%.1lfMB", ((double) n)/GF_UNIT_MB); if (ret < 0) goto err; } else if (n >= GF_UNIT_KB) { ret = gf_asprintf (&str, "%.1lfKB", ((double) n)/GF_UNIT_KB); if (ret < 0) goto err; } else { ret = gf_asprintf (&str, "%luBytes", n); if (ret < 0) goto err; } return str; err: return NULL; } int gf_string2bytesize_range (const char *str, uint64_t *n, uint64_t max) { double value = 0.0; uint64_t int_value = 0; uint64_t unit = 0; char *tail = NULL; int old_errno = 0; const char *s = NULL; gf_boolean_t fraction = _gf_false; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } for (s = str; *s != '\0'; s++) { if (isspace (*s)) continue; if (*s == '-') return -1; break; } if (strrchr (str, '.')) fraction = _gf_true; old_errno = errno; errno = 0; if (fraction) value = strtod (str, &tail); else int_value = strtoll (str, &tail, 10); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; if (tail[0] != '\0') { if (strcasecmp (tail, GF_UNIT_KB_STRING) == 0) unit = GF_UNIT_KB; else if (strcasecmp (tail, GF_UNIT_MB_STRING) == 0) unit = GF_UNIT_MB; else if (strcasecmp (tail, GF_UNIT_GB_STRING) == 0) unit = GF_UNIT_GB; else if (strcasecmp (tail, GF_UNIT_TB_STRING) == 0) unit = GF_UNIT_TB; else if (strcasecmp (tail, GF_UNIT_PB_STRING) == 0) unit = GF_UNIT_PB; else if (strcasecmp (tail, GF_UNIT_B_STRING) != 0) return -1; if (unit > 0) { if (fraction) value *= unit; else int_value *= unit; } } if (fraction) { if ((max - value) < 0) { errno = ERANGE; return -1; } *n = (uint64_t) value; } else { if ((max - int_value) < 0) { errno = ERANGE; return -1; } *n = int_value; } return 0; } int gf_string2bytesize_size (const char *str, size_t *n) { uint64_t u64; size_t max = (size_t) - 1; int val = gf_string2bytesize_range (str, &u64, max); *n = (size_t) u64; return val; } int gf_string2bytesize (const char *str, uint64_t *n) { return gf_string2bytesize_range(str, n, UINT64_MAX); } int gf_string2bytesize_uint64 (const char *str, uint64_t *n) { return gf_string2bytesize_range(str, n, UINT64_MAX); } int gf_string2bytesize_int64 (const char *str, int64_t *n) { uint64_t u64 = 0; int ret = 0; ret = gf_string2bytesize_range(str, &u64, INT64_MAX); *n = (int64_t) u64; return ret; } int gf_string2percent_or_bytesize (const char *str, double *n, gf_boolean_t *is_percent) { double value = 0ULL; char *tail = NULL; int old_errno = 0; const char *s = NULL; if (str == NULL || n == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); errno = EINVAL; return -1; } for (s = str; *s != '\0'; s++) { if (isspace (*s)) continue; if (*s == '-') return -1; break; } old_errno = errno; errno = 0; value = strtod (str, &tail); if (str == tail) errno = EINVAL; if (errno == ERANGE || errno == EINVAL) return -1; if (errno == 0) errno = old_errno; /*Maximum accepted value for 64 bit OS will be (2^14 -1)PB*/ if (tail[0] != '\0') { if (strcasecmp (tail, GF_UNIT_KB_STRING) == 0) value *= GF_UNIT_KB; else if (strcasecmp (tail, GF_UNIT_MB_STRING) == 0) value *= GF_UNIT_MB; else if (strcasecmp (tail, GF_UNIT_GB_STRING) == 0) value *= GF_UNIT_GB; else if (strcasecmp (tail, GF_UNIT_TB_STRING) == 0) value *= GF_UNIT_TB; else if (strcasecmp (tail, GF_UNIT_PB_STRING) == 0) value *= GF_UNIT_PB; else if (strcasecmp (tail, GF_UNIT_PERCENT_STRING) == 0) *is_percent = _gf_true; else return -1; } /* Error out if we cannot store the value in uint64 */ if ((UINT64_MAX - value) < 0) { errno = ERANGE; return -1; } *n = value; return 0; } int64_t gf_str_to_long_long (const char *number) { int64_t unit = 1; int64_t ret = 0; char *endptr = NULL ; if (!number) return 0; ret = strtoll (number, &endptr, 0); if (endptr) { switch (*endptr) { case 'G': case 'g': if ((* (endptr + 1) == 'B') ||(* (endptr + 1) == 'b')) unit = 1024 * 1024 * 1024; break; case 'M': case 'm': if ((* (endptr + 1) == 'B') ||(* (endptr + 1) == 'b')) unit = 1024 * 1024; break; case 'K': case 'k': if ((* (endptr + 1) == 'B') ||(* (endptr + 1) == 'b')) unit = 1024; break; case '%': unit = 1; break; default: unit = 1; break; } } return ret * unit; } int gf_string2boolean (const char *str, gf_boolean_t *b) { if (str == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); return -1; } if ((strcasecmp (str, "1") == 0) || (strcasecmp (str, "on") == 0) || (strcasecmp (str, "yes") == 0) || (strcasecmp (str, "true") == 0) || (strcasecmp (str, "enable") == 0)) { *b = _gf_true; return 0; } if ((strcasecmp (str, "0") == 0) || (strcasecmp (str, "off") == 0) || (strcasecmp (str, "no") == 0) || (strcasecmp (str, "false") == 0) || (strcasecmp (str, "disable") == 0)) { *b = _gf_false; return 0; } return -1; } int gf_lockfd (int fd) { struct gf_flock fl; fl.l_type = F_WRLCK; fl.l_whence = SEEK_SET; fl.l_start = 0; fl.l_len = 0; return fcntl (fd, F_SETLK, &fl); } int gf_unlockfd (int fd) { struct gf_flock fl; fl.l_type = F_UNLCK; fl.l_whence = SEEK_SET; fl.l_start = 0; fl.l_len = 0; return fcntl (fd, F_SETLK, &fl); } static void compute_checksum (char *buf, size_t size, uint32_t *checksum) { int ret = -1; char *checksum_buf = NULL; checksum_buf = (char *)(checksum); if (!(*checksum)) { checksum_buf [0] = 0xba; checksum_buf [1] = 0xbe; checksum_buf [2] = 0xb0; checksum_buf [3] = 0x0b; } for (ret = 0; ret < (size - 4); ret += 4) { checksum_buf[0] ^= (buf[ret]); checksum_buf[1] ^= (buf[ret + 1] << 1) ; checksum_buf[2] ^= (buf[ret + 2] << 2); checksum_buf[3] ^= (buf[ret + 3] << 3); } for (ret = 0; ret <= (size % 4); ret++) { checksum_buf[ret] ^= (buf[(size - 4) + ret] << ret); } return; } #define GF_CHECKSUM_BUF_SIZE 1024 int get_checksum_for_file (int fd, uint32_t *checksum) { int ret = -1; char buf[GF_CHECKSUM_BUF_SIZE] = {0,}; /* goto first place */ lseek (fd, 0L, SEEK_SET); do { ret = read (fd, &buf, GF_CHECKSUM_BUF_SIZE); if (ret > 0) compute_checksum (buf, GF_CHECKSUM_BUF_SIZE, checksum); } while (ret > 0); /* set it back */ lseek (fd, 0L, SEEK_SET); return ret; } int get_checksum_for_path (char *path, uint32_t *checksum) { int ret = -1; int fd = -1; GF_ASSERT (path); GF_ASSERT (checksum); fd = open (path, O_RDWR); if (fd == -1) { gf_log (THIS->name, GF_LOG_ERROR, "Unable to open %s, errno: %d", path, errno); goto out; } ret = get_checksum_for_file (fd, checksum); out: if (fd != -1) close (fd); return ret; } /** * get_file_mtime -- Given a path, get the mtime for the file * * @path: The filepath to check the mtime on * @stamp: The parameter to set after we get the mtime * * @returns: success: 0 * errors : Errors returned by the stat () call */ int get_file_mtime (const char *path, time_t *stamp) { struct stat f_stat = {0}; int ret = -EINVAL; GF_VALIDATE_OR_GOTO (THIS->name, path, out); GF_VALIDATE_OR_GOTO (THIS->name, stamp, out); ret = stat (path, &f_stat); if (ret < 0) { gf_log (THIS->name, GF_LOG_ERROR, "failed to stat %s: %s", path, strerror (errno)); goto out; } /* Set the mtime */ *stamp = f_stat.st_mtime; out: return ret; } /** * gf_is_ip_in_net -- Checks if an IP Address is in a network. * A network should be specified by something like * '10.5.153.0/24' (in CIDR notation). * * @result : Sets to true if the IP is in the network * @ip_str : The IP to check * @network: The network to check the IP against. * * @return: success: 0 * failure: -EINVAL for bad args, retval of inet_pton otherwise */ gf_boolean_t gf_is_ip_in_net (const char *network, const char *ip_str) { unsigned long ip_buf = 0; unsigned long net_ip_buf = 0; unsigned long subnet_mask = 0; int ret = -EINVAL; char *slash = NULL; char *net_ip = NULL; char *subnet = NULL; char *net_str = NULL; int family = AF_INET; gf_boolean_t result = _gf_false; GF_ASSERT (network); GF_ASSERT (ip_str); if (strchr (network, ':')) family = AF_INET6; else if (strchr (network, '.')) family = AF_INET; else { family = -1; goto out; } net_str = strdupa (network); slash = strchr (net_str, '/'); if (!slash) goto out; *slash = '\0'; subnet = slash + 1; net_ip = net_str; /* Convert IP address to a long */ ret = inet_pton (family, ip_str, &ip_buf); if (ret < 0) gf_log ("common-utils", GF_LOG_ERROR, "inet_pton() failed with %s", strerror (errno)); /* Convert network IP address to a long */ ret = inet_pton (family, net_ip, &net_ip_buf); if (ret < 0) { gf_log ("common-utils", GF_LOG_ERROR, "inet_pton() failed with %s", strerror (errno)); goto out; } /* Converts /x into a mask */ subnet_mask = (1 << atoi (subnet)) - 1; result = ((ip_buf & subnet_mask) == (net_ip_buf & subnet_mask)); out: return result; } char * strtail (char *str, const char *pattern) { int i = 0; for (i = 0; str[i] == pattern[i] && str[i]; i++); if (pattern[i] == '\0') return str + i; return NULL; } void skipwhite (char **s) { while (isspace (**s)) (*s)++; } char * nwstrtail (char *str, char *pattern) { for (;;) { skipwhite (&str); skipwhite (&pattern); if (*str != *pattern || !*str) break; str++; pattern++; } return *pattern ? NULL : str; } void skipword (char **s) { if (!*s) return; skipwhite (s); while (!isspace(**s)) (*s)++; } char * get_nth_word (const char *str, int n) { char buf[4096] = {0}; char *start = NULL; char *word = NULL; int i = 0; int word_len = 0; const char *end = NULL; if (!str) goto out; snprintf (buf, sizeof (buf), "%s", str); start = buf; for (i = 0; i < n-1; i++) skipword (&start); skipwhite (&start); end = strpbrk ((const char *)start, " \t\n\0"); if (!end) goto out; word_len = abs (end - start); word = GF_CALLOC (1, word_len + 1, gf_common_mt_strdup); if (!word) goto out; strncpy (word, start, word_len); *(word + word_len) = '\0'; out: return word; } /* Syntax formed according to RFC 1912 (RFC 1123 & 952 are more restrictive) * ::= *["."] * ::= <[*[]] */ char valid_host_name (char *address, int length) { int i = 0; int str_len = 0; char ret = 1; char *dup_addr = NULL; char *temp_str = NULL; char *save_ptr = NULL; if ((length > _POSIX_HOST_NAME_MAX) || (length < 1)) { ret = 0; goto out; } dup_addr = gf_strdup (address); if (!dup_addr) { ret = 0; goto out; } if (!isalnum (dup_addr[length - 1]) && (dup_addr[length - 1] != '*')) { ret = 0; goto out; } /* Check for consecutive dots, which is invalid in a hostname and is * ignored by strtok() */ if (strstr (dup_addr, "..")) { ret = 0; goto out; } /* gen-name */ temp_str = strtok_r (dup_addr, ".", &save_ptr); do { str_len = strlen (temp_str); if (!isalnum (temp_str[0]) || !isalnum (temp_str[str_len-1])) { ret = 0; goto out; } for (i = 1; i < str_len; i++) { if (!isalnum (temp_str[i]) && (temp_str[i] != '-')) { ret = 0; goto out; } } } while ((temp_str = strtok_r (NULL, ".", &save_ptr))); out: GF_FREE (dup_addr); return ret; } /* Matches all ipv4 address, if wildcard_acc is true '*' wildcard pattern for* subnets is considered as valid strings as well */ char valid_ipv4_address (char *address, int length, gf_boolean_t wildcard_acc) { int octets = 0; int value = 0; char *tmp = NULL, *ptr = NULL, *prev = NULL, *endptr = NULL; char ret = 1; int is_wildcard = 0; tmp = gf_strdup (address); /* * To prevent cases where last character is '.' and which have * consecutive dots like ".." as strtok ignore consecutive * delimeters. */ if (length <= 0 || (strstr (address, "..")) || (!isdigit (tmp[length - 1]) && (tmp[length - 1] != '*'))) { ret = 0; goto out; } prev = tmp; prev = strtok_r (tmp, ".", &ptr); while (prev != NULL) { octets++; if (wildcard_acc && !strcmp (prev, "*")) { is_wildcard = 1; } else { value = strtol (prev, &endptr, 10); if ((value > 255) || (value < 0) || (endptr != NULL && *endptr != '\0')) { ret = 0; goto out; } } prev = strtok_r (NULL, ".", &ptr); } if ((octets > 4) || (octets < 4 && !is_wildcard)) { ret = 0; } out: GF_FREE (tmp); return ret; } /** * valid_ipv4_subnetwork() takes the pattern and checks if it contains * a valid ipv4 subnetwork pattern i.e. xx.xx.xx.xx/n. IPv4 address * part (xx.xx.xx.xx) and mask bits lengh part (n). The mask bits lengh * must be in 0-32 range (ipv4 addr is 32 bit). The pattern must be * in this format. * * Returns _gf_true if both IP addr and mask bits len are valid * _gf_false otherwise. */ gf_boolean_t valid_ipv4_subnetwork (const char *address) { char *slash = NULL; char *paddr = NULL; char *endptr = NULL; long prefixlen = -1; gf_boolean_t retv = _gf_true; if (address == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); return _gf_false; } paddr = gf_strdup (address); if (paddr == NULL) /* ENOMEM */ return _gf_false; /* * INVALID: If '/' is not present OR * Nothing specified after '/' */ slash = strchr(paddr, '/'); if ((slash == NULL) || (slash[1] == '\0')) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "Invalid IPv4 subnetwork format"); retv = _gf_false; goto out; } *slash = '\0'; retv = valid_ipv4_address (paddr, strlen(paddr), _gf_false); if (retv == _gf_false) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "Invalid IPv4 subnetwork address"); goto out; } prefixlen = strtol (slash + 1, &endptr, 10); if ((errno != 0) || (*endptr != '\0') || (prefixlen < 0) || (prefixlen > IPv4_ADDR_SIZE)) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "Invalid IPv4 subnetwork mask"); retv = _gf_false; goto out; } retv = _gf_true; out: GF_FREE (paddr); return retv; } char valid_ipv6_address (char *address, int length, gf_boolean_t wildcard_acc) { int hex_numbers = 0; int value = 0; int i = 0; char *tmp = NULL, *ptr = NULL, *prev = NULL, *endptr = NULL; char ret = 1; int is_wildcard = 0; int is_compressed = 0; tmp = gf_strdup (address); /* Check for compressed form */ if (length <= 0 || tmp[length - 1] == ':') { ret = 0; goto out; } for (i = 0; i < (length - 1) ; i++) { if (tmp[i] == ':' && tmp[i + 1] == ':') { if (is_compressed == 0) is_compressed = 1; else { ret = 0; goto out; } } } prev = strtok_r (tmp, ":", &ptr); while (prev != NULL) { hex_numbers++; if (wildcard_acc && !strcmp (prev, "*")) { is_wildcard = 1; } else { value = strtol (prev, &endptr, 16); if ((value > 0xffff) || (value < 0) || (endptr != NULL && *endptr != '\0')) { ret = 0; goto out; } } prev = strtok_r (NULL, ":", &ptr); } if ((hex_numbers > 8) || (hex_numbers < 8 && !is_wildcard && !is_compressed)) { ret = 0; } out: GF_FREE (tmp); return ret; } char valid_internet_address (char *address, gf_boolean_t wildcard_acc) { char ret = 0; int length = 0; if (address == NULL) { gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); goto out; } length = strlen (address); if (length == 0) goto out; if (valid_ipv4_address (address, length, wildcard_acc) || valid_ipv6_address (address, length, wildcard_acc) || valid_host_name (address, length)) ret = 1; out: return ret; } /** * valid_mount_auth_address - Validate the rpc-auth.addr.allow/reject pattern * * @param address - Pattern to be validated * * @return _gf_true if "address" is "*" (anonymous) 'OR' * if "address" is valid FQDN or valid IPv4/6 address 'OR' * if "address" contains wildcard chars e.g. "'*' or '?' or '['" * if "address" is valid ipv4 subnet pattern (xx.xx.xx.xx/n) * _gf_false otherwise * * * NB: If the user/admin set for wildcard pattern, then it does not have * to be validated. Make it similar to the way exportfs (kNFS) works. */ gf_boolean_t valid_mount_auth_address (char *address) { int length = 0; char *cp = NULL; /* 1. Check for "NULL and empty string */ if ((address == NULL) || (address[0] == '\0')){ gf_log_callingfn (THIS->name, GF_LOG_WARNING, "argument invalid"); return _gf_false; } /* 2. Check for Anonymous */ if (strcmp(address, "*") == 0) return _gf_true; for (cp = address; *cp; cp++) { /* 3. Check for wildcard pattern */ if (*cp == '*' || *cp == '?' || *cp == '[') { return _gf_true; } /* * 4. check for IPv4 subnetwork i.e. xx.xx.xx.xx/n * TODO: check for IPv6 subnetwork * NB: Wildcard must not be mixed with subnetwork. */ if (*cp == '/') { return valid_ipv4_subnetwork (address); } } /* 5. Check for v4/v6 IP addr and FQDN/hostname */ length = strlen (address); if ((valid_ipv4_address (address, length, _gf_false)) || (valid_ipv6_address (address, length, _gf_false)) || (valid_host_name (address, length))) { return _gf_true; } return _gf_false; } /** * gf_sock_union_equal_addr - check if two given gf_sock_unions have same addr * * @param a - first sock union * @param b - second sock union * @return _gf_true if a and b have same ipv{4,6} addr, _gf_false otherwise */ gf_boolean_t gf_sock_union_equal_addr (union gf_sock_union *a, union gf_sock_union *b) { if (!a || !b) { gf_log ("common-utils", GF_LOG_ERROR, "Invalid arguments" " to gf_sock_union_equal_addr"); return _gf_false; } if (a->storage.ss_family != b->storage.ss_family) return _gf_false; switch (a->storage.ss_family) { case AF_INET: if (a->sin.sin_addr.s_addr == b->sin.sin_addr.s_addr) return _gf_true; else return _gf_false; case AF_INET6: if (memcmp ((void *)(&a->sin6.sin6_addr), (void *)(&b->sin6.sin6_addr), sizeof (a->sin6.sin6_addr))) return _gf_false; else return _gf_true; default: gf_log ("common-utils", GF_LOG_DEBUG, "Unsupported/invalid address family"); break; } return _gf_false; } /* * Check if both have same network address. * Extract the network address from the sockaddr(s) addr by applying the * network mask. If they match, return boolean _gf_true, _gf_false otherwise. * * (x == y) <=> (x ^ y == 0) * (x & y) ^ (x & z) <=> x & (y ^ z) * * ((ip1 & mask) == (ip2 & mask)) <=> ((mask & (ip1 ^ ip2)) == 0) */ gf_boolean_t mask_match(const uint32_t a, const uint32_t b, const uint32_t m) { return (((a ^ b) & m) == 0); } /*Thread safe conversion function*/ char * uuid_utoa (uuid_t uuid) { char *uuid_buffer = glusterfs_uuid_buf_get (); gf_uuid_unparse (uuid, uuid_buffer); return uuid_buffer; } /*Re-entrant conversion function*/ char * uuid_utoa_r (uuid_t uuid, char *dst) { if(!dst) return NULL; gf_uuid_unparse (uuid, dst); return dst; } /*Thread safe conversion function*/ char * lkowner_utoa (gf_lkowner_t *lkowner) { char *lkowner_buffer = glusterfs_lkowner_buf_get (); lkowner_unparse (lkowner, lkowner_buffer, GF_LKOWNER_BUF_SIZE); return lkowner_buffer; } /*Re-entrant conversion function*/ char * lkowner_utoa_r (gf_lkowner_t *lkowner, char *dst, int len) { if(!dst) return NULL; lkowner_unparse (lkowner, dst, len); return dst; } void* gf_array_elem (void *a, int index, size_t elem_size) { uint8_t* ptr = a; return (void*)(ptr + index * elem_size); } void gf_elem_swap (void *x, void *y, size_t l) { uint8_t *a = x, *b = y, c; while(l--) { c = *a; *a++ = *b; *b++ = c; } } void gf_array_insertionsort (void *A, int l, int r, size_t elem_size, gf_cmp cmp) { int i = l; int N = r+1; void *Temp = NULL; int j = 0; for(i = l; i < N; i++) { Temp = gf_array_elem (A, i, elem_size); j = i - 1; while((cmp (Temp, gf_array_elem (A, j, elem_size)) < 0) && j>=0) { gf_elem_swap (Temp, gf_array_elem (A, j, elem_size), elem_size); Temp = gf_array_elem (A, j, elem_size); j = j-1; } } } int gf_is_str_int (const char *value) { int flag = 0; char *str = NULL; char *fptr = NULL; GF_VALIDATE_OR_GOTO (THIS->name, value, out); str = gf_strdup (value); if (!str) goto out; fptr = str; while (*str) { if (!isdigit(*str)) { flag = 1; goto out; } str++; } out: GF_FREE (fptr); return flag; } /* * rounds up nr to power of two. If nr is already a power of two, just returns * nr */ inline int32_t gf_roundup_power_of_two (int32_t nr) { int32_t result = 1; if (nr < 0) { gf_log ("common-utils", GF_LOG_WARNING, "negative number passed"); result = -1; goto out; } while (result < nr) result *= 2; out: return result; } /* * rounds up nr to next power of two. If nr is already a power of two, next * power of two is returned. */ inline int32_t gf_roundup_next_power_of_two (int32_t nr) { int32_t result = 1; if (nr < 0) { gf_log ("common-utils", GF_LOG_WARNING, "negative number passed"); result = -1; goto out; } while (result <= nr) result *= 2; out: return result; } int validate_brick_name (char *brick) { char *delimiter = NULL; int ret = 0; delimiter = strrchr (brick, ':'); if (!delimiter || delimiter == brick || *(delimiter+1) != '/') ret = -1; return ret; } char * get_host_name (char *word, char **host) { char *delimiter = NULL; delimiter = strrchr (word, ':'); if (delimiter) *delimiter = '\0'; else return NULL; *host = word; return *host; } char * get_path_name (char *word, char **path) { char *delimiter = NULL; delimiter = strchr (word, '/'); if (!delimiter) return NULL; *path = delimiter; return *path; } void gf_path_strip_trailing_slashes (char *path) { int i = 0; int len = 0; if (!path) return; len = strlen (path); for (i = len - 1; i > 0; i--) { if (path[i] != '/') break; } if (i < (len -1)) path [i+1] = '\0'; return; } uint64_t get_mem_size () { uint64_t memsize = -1; #if defined GF_LINUX_HOST_OS || defined GF_SOLARIS_HOST_OS uint64_t page_size = 0; uint64_t num_pages = 0; page_size = sysconf (_SC_PAGESIZE); num_pages = sysconf (_SC_PHYS_PAGES); memsize = page_size * num_pages; #endif #if defined GF_BSD_HOST_OS || defined GF_DARWIN_HOST_OS size_t len = sizeof(memsize); int name [] = { CTL_HW, HW_PHYSMEM }; sysctl (name, 2, &memsize, &len, NULL, 0); #endif return memsize; } /* Strips all whitespace characters in a string and returns length of new string * on success */ int gf_strip_whitespace (char *str, int len) { int i = 0; int new_len = 0; char *new_str = NULL; GF_ASSERT (str); new_str = GF_CALLOC (1, len + 1, gf_common_mt_char); if (new_str == NULL) return -1; for (i = 0; i < len; i++) { if (!isspace (str[i])) new_str[new_len++] = str[i]; } new_str[new_len] = '\0'; if (new_len != len) { memset (str, 0, len); strncpy (str, new_str, new_len); } GF_FREE (new_str); return new_len; } int gf_canonicalize_path (char *path) { int ret = -1; int path_len = 0; int dir_path_len = 0; char *tmppath = NULL; char *dir = NULL; char *tmpstr = NULL; if (!path || *path != '/') goto out; if (!strcmp (path, "/")) return 0; tmppath = gf_strdup (path); if (!tmppath) goto out; /* Strip the extra slashes and return */ bzero (path, strlen(path)); path[0] = '/'; dir = strtok_r(tmppath, "/", &tmpstr); while (dir) { dir_path_len = strlen(dir); strncpy ((path + path_len + 1), dir, dir_path_len); path_len += dir_path_len + 1; dir = strtok_r (NULL, "/", &tmpstr); if (dir) strncpy ((path + path_len), "/", 1); } path[path_len] = '\0'; ret = 0; out: if (ret) gf_log ("common-utils", GF_LOG_ERROR, "Path manipulation failed"); GF_FREE(tmppath); return ret; } static const char *__gf_timefmts[] = { "%F %T", "%Y/%m/%d-%T", "%b %d %T", "%F %H%M%S", "%Y-%m-%d-%T", "%s", }; static const char *__gf_zerotimes[] = { "0000-00-00 00:00:00", "0000/00/00-00:00:00", "xxx 00 00:00:00", "0000-00-00 000000", "0000-00-00-00:00:00", "0", }; void _gf_timestuff (gf_timefmts *fmt, const char ***fmts, const char ***zeros) { *fmt = gf_timefmt_last; *fmts = __gf_timefmts; *zeros = __gf_zerotimes; } char * generate_glusterfs_ctx_id (void) { char tmp_str[1024] = {0,}; char hostname[256] = {0,}; struct timeval tv = {0,}; char now_str[32]; if (gettimeofday (&tv, NULL) == -1) { gf_log ("glusterfsd", GF_LOG_ERROR, "gettimeofday: failed %s", strerror (errno)); } if (gethostname (hostname, 256) == -1) { gf_log ("glusterfsd", GF_LOG_ERROR, "gethostname: failed %s", strerror (errno)); } gf_time_fmt (now_str, sizeof now_str, tv.tv_sec, gf_timefmt_Ymd_T); snprintf (tmp_str, sizeof tmp_str, "%s-%d-%s:%" #ifdef GF_DARWIN_HOST_OS PRId32, #else "ld", #endif hostname, getpid(), now_str, tv.tv_usec); return gf_strdup (tmp_str); } char * gf_get_reserved_ports () { char *ports_info = NULL; #if defined GF_LINUX_HOST_OS int proc_fd = -1; char *proc_file = "/proc/sys/net/ipv4/ip_local_reserved_ports"; char buffer[4096] = {0,}; int32_t ret = -1; proc_fd = open (proc_file, O_RDONLY); if (proc_fd == -1) { /* What should be done in this case? error out from here * and thus stop the glusterfs process from starting or * continue with older method of using any of the available * port? For now 2nd option is considered. */ gf_log ("glusterfs", GF_LOG_WARNING, "could not open " "the file /proc/sys/net/ipv4/ip_local_reserved_ports " "for getting reserved ports info (%s)", strerror (errno)); goto out; } ret = read (proc_fd, buffer, sizeof (buffer)); if (ret < 0) { gf_log ("glusterfs", GF_LOG_WARNING, "could not " "read the file %s for getting reserved ports " "info (%s)", proc_file, strerror (errno)); goto out; } ports_info = gf_strdup (buffer); out: if (proc_fd != -1) close (proc_fd); #endif /* GF_LINUX_HOST_OS */ return ports_info; } int gf_process_reserved_ports (gf_boolean_t *ports) { int ret = -1; #if defined GF_LINUX_HOST_OS char *ports_info = NULL; char *tmp = NULL; char *blocked_port = NULL; ports_info = gf_get_reserved_ports (); if (!ports_info) { gf_log ("glusterfs", GF_LOG_WARNING, "Not able to get reserved " "ports, hence there is a possibility that glusterfs " "may consume reserved port"); goto out; } blocked_port = strtok_r (ports_info, ",\n",&tmp); while (blocked_port) { gf_ports_reserved (blocked_port, ports); blocked_port = strtok_r (NULL, ",\n", &tmp); } ret = 0; out: GF_FREE (ports_info); #endif /* GF_LINUX_HOST_OS */ return ret; } gf_boolean_t gf_ports_reserved (char *blocked_port, gf_boolean_t *ports) { gf_boolean_t result = _gf_false; char *range_port = NULL; int16_t tmp_port1, tmp_port2 = -1; if (strstr (blocked_port, "-") == NULL) { /* get rid of the new line character*/ if (blocked_port[strlen(blocked_port) -1] == '\n') blocked_port[strlen(blocked_port) -1] = '\0'; if (gf_string2int16 (blocked_port, &tmp_port1) == 0) { if (tmp_port1 > (GF_CLIENT_PORT_CEILING - 1) || tmp_port1 < 0) { gf_log ("glusterfs-socket", GF_LOG_WARNING, "invalid port %d", tmp_port1); result = _gf_true; goto out; } else { gf_log ("glusterfs", GF_LOG_DEBUG, "blocking port %d", tmp_port1); ports[tmp_port1] = _gf_true; } } else { gf_log ("glusterfs-socket", GF_LOG_WARNING, "%s is " "not a valid port identifier", blocked_port); result = _gf_true; goto out; } } else { range_port = strtok (blocked_port, "-"); if (!range_port){ result = _gf_true; goto out; } if (gf_string2int16 (range_port, &tmp_port1) == 0) { if (tmp_port1 > (GF_CLIENT_PORT_CEILING - 1)) tmp_port1 = GF_CLIENT_PORT_CEILING - 1; if (tmp_port1 < 0) tmp_port1 = 0; } range_port = strtok (NULL, "-"); if (!range_port) { result = _gf_true; goto out; } /* get rid of the new line character*/ if (range_port[strlen(range_port) -1] == '\n') range_port[strlen(range_port) - 1] = '\0'; if (gf_string2int16 (range_port, &tmp_port2) == 0) { if (tmp_port2 > (GF_CLIENT_PORT_CEILING - 1)) tmp_port2 = GF_CLIENT_PORT_CEILING - 1; if (tmp_port2 < 0) tmp_port2 = 0; } gf_log ("glusterfs", GF_LOG_DEBUG, "lower: %d, higher: %d", tmp_port1, tmp_port2); for (; tmp_port1 <= tmp_port2; tmp_port1++) ports[tmp_port1] = _gf_true; } out: return result; } /* Takes in client ip{v4,v6} and returns associated hostname, if any * Also, allocates memory for the hostname. * Returns: 0 for success, -1 for failure */ int gf_get_hostname_from_ip (char *client_ip, char **hostname) { int ret = -1; struct sockaddr *client_sockaddr = NULL; struct sockaddr_in client_sock_in = {0}; struct sockaddr_in6 client_sock_in6 = {0}; char client_hostname[NI_MAXHOST] = {0}; char *client_ip_copy = NULL; char *tmp = NULL; char *ip = NULL; /* if ipv4, reverse lookup the hostname to * allow FQDN based rpc authentication */ if (valid_ipv4_address (client_ip, strlen (client_ip), 0) == _gf_false) { /* most times, we get a.b.c.d:port form, so check that */ client_ip_copy = gf_strdup (client_ip); if (!client_ip_copy) goto out; ip = strtok_r (client_ip_copy, ":", &tmp); } else { ip = client_ip; } if (valid_ipv4_address (ip, strlen (ip), 0) == _gf_true) { client_sockaddr = (struct sockaddr *)&client_sock_in; client_sock_in.sin_family = AF_INET; ret = inet_pton (AF_INET, ip, (void *)&client_sock_in.sin_addr.s_addr); } else if (valid_ipv6_address (ip, strlen (ip), 0) == _gf_true) { client_sockaddr = (struct sockaddr *) &client_sock_in6; client_sock_in6.sin6_family = AF_INET6; ret = inet_pton (AF_INET6, ip, (void *)&client_sock_in6.sin6_addr); } else { goto out; } if (ret != 1) { ret = -1; goto out; } ret = getnameinfo (client_sockaddr, sizeof (*client_sockaddr), client_hostname, sizeof (client_hostname), NULL, 0, 0); if (ret) { gf_log ("common-utils", GF_LOG_ERROR, "Could not lookup hostname of %s : %s", client_ip, gai_strerror (ret)); ret = -1; goto out; } *hostname = gf_strdup ((char *)client_hostname); out: if (client_ip_copy) GF_FREE (client_ip_copy); return ret; } gf_boolean_t gf_interface_search (char *ip) { int32_t ret = -1; gf_boolean_t found = _gf_false; struct ifaddrs *ifaddr, *ifa; int family; char host[NI_MAXHOST]; xlator_t *this = NULL; char *pct = NULL; this = THIS; ret = getifaddrs (&ifaddr); if (ret != 0) { gf_log (this->name, GF_LOG_ERROR, "getifaddrs() failed: %s\n", gai_strerror(ret)); goto out; } for (ifa = ifaddr; ifa != NULL; ifa = ifa->ifa_next) { if (!ifa->ifa_addr) { /* * This seemingly happens if an interface hasn't * been bound to a particular protocol (seen with * TUN devices). */ continue; } family = ifa->ifa_addr->sa_family; if (family != AF_INET && family != AF_INET6) continue; ret = getnameinfo (ifa->ifa_addr, (family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6), host, NI_MAXHOST, NULL, 0, NI_NUMERICHOST); if (ret != 0) { gf_log (this->name, GF_LOG_ERROR, "getnameinfo() failed: %s\n", gai_strerror(ret)); goto out; } /* * Sometimes the address comes back as addr%eth0 or * similar. Since % is an invalid character, we can * strip it out with confidence that doing so won't * harm anything. */ pct = index(host,'%'); if (pct) { *pct = '\0'; } if (strncmp (ip, host, NI_MAXHOST) == 0) { gf_log (this->name, GF_LOG_DEBUG, "%s is local address at interface %s", ip, ifa->ifa_name); found = _gf_true; goto out; } } out: if(ifaddr) freeifaddrs (ifaddr); return found; } char * get_ip_from_addrinfo (struct addrinfo *addr, char **ip) { char buf[64]; void *in_addr = NULL; struct sockaddr_in *s4 = NULL; struct sockaddr_in6 *s6 = NULL; switch (addr->ai_family) { case AF_INET: s4 = (struct sockaddr_in *)addr->ai_addr; in_addr = &s4->sin_addr; break; case AF_INET6: s6 = (struct sockaddr_in6 *)addr->ai_addr; in_addr = &s6->sin6_addr; break; default: gf_log ("glusterd", GF_LOG_ERROR, "Invalid family"); return NULL; } if (!inet_ntop(addr->ai_family, in_addr, buf, sizeof(buf))) { gf_log ("glusterd", GF_LOG_ERROR, "String conversion failed"); return NULL; } *ip = gf_strdup (buf); return *ip; } gf_boolean_t gf_is_loopback_localhost (const struct sockaddr *sa, char *hostname) { GF_ASSERT (sa); gf_boolean_t is_local = _gf_false; const struct in_addr *addr4 = NULL; const struct in6_addr *addr6 = NULL; uint8_t *ap = NULL; struct in6_addr loopbackaddr6 = IN6ADDR_LOOPBACK_INIT; switch (sa->sa_family) { case AF_INET: addr4 = &(((struct sockaddr_in *)sa)->sin_addr); ap = (uint8_t*)&addr4->s_addr; if (ap[0] == 127) is_local = _gf_true; break; case AF_INET6: addr6 = &(((struct sockaddr_in6 *)sa)->sin6_addr); if (memcmp (addr6, &loopbackaddr6, sizeof (loopbackaddr6)) == 0) is_local = _gf_true; break; default: if (hostname) gf_log ("glusterd", GF_LOG_ERROR, "unknown address family %d for %s", sa->sa_family, hostname); break; } return is_local; } gf_boolean_t gf_is_local_addr (char *hostname) { int32_t ret = -1; struct addrinfo *result = NULL; struct addrinfo *res = NULL; gf_boolean_t found = _gf_false; char *ip = NULL; xlator_t *this = NULL; this = THIS; ret = getaddrinfo (hostname, NULL, NULL, &result); if (ret != 0) { gf_log (this->name, GF_LOG_ERROR, "error in getaddrinfo: %s\n", gai_strerror(ret)); goto out; } for (res = result; res != NULL; res = res->ai_next) { gf_log (this->name, GF_LOG_DEBUG, "%s ", get_ip_from_addrinfo (res, &ip)); found = gf_is_loopback_localhost (res->ai_addr, hostname) || gf_interface_search (ip); if (found) { GF_FREE (ip); goto out; } GF_FREE (ip); } out: if (result) freeaddrinfo (result); if (!found) gf_log (this->name, GF_LOG_DEBUG, "%s is not local", hostname); return found; } gf_boolean_t gf_is_same_address (char *name1, char *name2) { struct addrinfo *addr1 = NULL; struct addrinfo *addr2 = NULL; struct addrinfo *p = NULL; struct addrinfo *q = NULL; gf_boolean_t ret = _gf_false; int gai_err = 0; gai_err = getaddrinfo(name1,NULL,NULL,&addr1); if (gai_err != 0) { gf_log (name1, GF_LOG_WARNING, "error in getaddrinfo: %s\n", gai_strerror(gai_err)); goto out; } gai_err = getaddrinfo(name2,NULL,NULL,&addr2); if (gai_err != 0) { gf_log (name2, GF_LOG_WARNING, "error in getaddrinfo: %s\n", gai_strerror(gai_err)); goto out; } for (p = addr1; p; p = p->ai_next) { for (q = addr2; q; q = q->ai_next) { if (p->ai_addrlen != q->ai_addrlen) { continue; } if (memcmp(p->ai_addr,q->ai_addr,p->ai_addrlen)) { continue; } ret = _gf_true; goto out; } } out: if (addr1) { freeaddrinfo(addr1); } if (addr2) { freeaddrinfo(addr2); } return ret; } /* Sets log file path from user provided arguments */ int gf_set_log_file_path (cmd_args_t *cmd_args) { int i = 0; int j = 0; int ret = 0; char tmp_str[1024] = {0,}; if (!cmd_args) goto done; if (cmd_args->mount_point) { j = 0; i = 0; if (cmd_args->mount_point[0] == '/') i = 1; for (; i < strlen (cmd_args->mount_point); i++,j++) { tmp_str[j] = cmd_args->mount_point[i]; if (cmd_args->mount_point[i] == '/') tmp_str[j] = '-'; } ret = gf_asprintf (&cmd_args->log_file, DEFAULT_LOG_FILE_DIRECTORY "/%s.log", tmp_str); if (ret > 0) ret = 0; goto done; } if (cmd_args->volfile) { j = 0; i = 0; if (cmd_args->volfile[0] == '/') i = 1; for (; i < strlen (cmd_args->volfile); i++,j++) { tmp_str[j] = cmd_args->volfile[i]; if (cmd_args->volfile[i] == '/') tmp_str[j] = '-'; } ret = gf_asprintf (&cmd_args->log_file, DEFAULT_LOG_FILE_DIRECTORY "/%s.log", tmp_str); if (ret > 0) ret = 0; goto done; } if (cmd_args->volfile_server) { ret = gf_asprintf (&cmd_args->log_file, DEFAULT_LOG_FILE_DIRECTORY "/%s-%s-%d.log", cmd_args->volfile_server, cmd_args->volfile_id, getpid()); if (ret > 0) ret = 0; } done: return ret; } int gf_set_log_ident (cmd_args_t *cmd_args) { int ret = 0; char *ptr = NULL; if (cmd_args->log_file == NULL) { /* no ident source */ return 0; } /* TODO: Some idents would look like, etc-glusterfs-glusterd.vol, which * seems ugly and can be bettered? */ /* just get the filename as the ident */ if (NULL != (ptr = strrchr (cmd_args->log_file, '/'))) { ret = gf_asprintf (&cmd_args->log_ident, "%s", ptr + 1); } else { ret = gf_asprintf (&cmd_args->log_ident, "%s", cmd_args->log_file); } if (ret > 0) ret = 0; else return ret; /* remove .log suffix */ if (NULL != (ptr = strrchr (cmd_args->log_ident, '.'))) { if (strcmp (ptr, ".log") == 0) { ptr[0] = '\0'; } } return ret; } int gf_thread_cleanup_xint (pthread_t thread) { int ret = 0; void *res = NULL; ret = pthread_cancel (thread); if (ret != 0) goto error_return; ret = pthread_join (thread, &res); if (ret != 0) goto error_return; if (res != PTHREAD_CANCELED) goto error_return; ret = 0; error_return: return ret; } int gf_thread_create (pthread_t *thread, const pthread_attr_t *attr, void *(*start_routine)(void *), void *arg) { sigset_t set, old; int ret; sigemptyset (&set); sigfillset (&set); sigdelset (&set, SIGSEGV); sigdelset (&set, SIGBUS); sigdelset (&set, SIGILL); sigdelset (&set, SIGSYS); sigdelset (&set, SIGFPE); sigdelset (&set, SIGABRT); pthread_sigmask (SIG_BLOCK, &set, &old); ret = pthread_create (thread, attr, start_routine, arg); pthread_sigmask (SIG_SETMASK, &old, NULL); return ret; } int gf_skip_header_section (int fd, int header_len) { int ret = -1; ret = lseek (fd, header_len, SEEK_SET); if (ret == (off_t) -1) { gf_log ("", GF_LOG_ERROR, "Failed to skip header " "section"); } else { ret = 0; } return ret; } gf_boolean_t gf_is_service_running (char *pidfile, int *pid) { FILE *file = NULL; gf_boolean_t running = _gf_false; int ret = 0; int fno = 0; file = fopen (pidfile, "r+"); if (!file) goto out; fno = fileno (file); ret = lockf (fno, F_TEST, 0); if (ret == -1) running = _gf_true; if (!pid) goto out; ret = fscanf (file, "%d", pid); if (ret <= 0) { gf_log ("", GF_LOG_ERROR, "Unable to read pidfile: %s, %s", pidfile, strerror (errno)); *pid = -1; } out: if (file) fclose (file); return running; } static inline int dht_is_linkfile_key (dict_t *this, char *key, data_t *value, void *data) { gf_boolean_t *linkfile_key_found = NULL; if (!data) goto out; linkfile_key_found = data; *linkfile_key_found = _gf_true; out: return 0; } inline gf_boolean_t dht_is_linkfile (struct iatt *buf, dict_t *dict) { gf_boolean_t linkfile_key_found = _gf_false; if (!IS_DHT_LINKFILE_MODE (buf)) return _gf_false; dict_foreach_fnmatch (dict, "*."DHT_LINKFILE_STR, dht_is_linkfile_key, &linkfile_key_found); return linkfile_key_found; } int gf_check_log_format (const char *value) { int log_format = -1; if (!strcasecmp (value, GF_LOG_FORMAT_NO_MSG_ID)) log_format = gf_logformat_traditional; else if (!strcasecmp (value, GF_LOG_FORMAT_WITH_MSG_ID)) log_format = gf_logformat_withmsgid; if (log_format == -1) gf_log (THIS->name, GF_LOG_ERROR, "Invalid log-format. " "possible values are " GF_LOG_FORMAT_NO_MSG_ID "|" GF_LOG_FORMAT_WITH_MSG_ID); return log_format; } int gf_check_logger (const char *value) { int logger = -1; if (!strcasecmp (value, GF_LOGGER_GLUSTER_LOG)) logger = gf_logger_glusterlog; else if (!strcasecmp (value, GF_LOGGER_SYSLOG)) logger = gf_logger_syslog; if (logger == -1) gf_log (THIS->name, GF_LOG_ERROR, "Invalid logger. " "possible values are " GF_LOGGER_GLUSTER_LOG "|" GF_LOGGER_SYSLOG); return logger; } /* gf_compare_sockaddr compares the given addresses @addr1 and @addr2 for * equality, ie. if they both refer to the same address. * * This was inspired by sock_addr_cmp_addr() from * https://www.opensource.apple.com/source/postfix/postfix-197/postfix/src/util/sock_addr.c */ gf_boolean_t gf_compare_sockaddr (const struct sockaddr *addr1, const struct sockaddr *addr2) { GF_ASSERT (addr1 != NULL); GF_ASSERT (addr2 != NULL); /* Obviously, the addresses don't match if their families are different */ if (addr1->sa_family != addr2->sa_family) return _gf_false; if (AF_INET == addr1->sa_family) { if (((struct sockaddr_in *)addr1)->sin_addr.s_addr == ((struct sockaddr_in *)addr2)->sin_addr.s_addr) return _gf_true; } else if (AF_INET6 == addr1->sa_family) { if (memcmp ((char *)&((struct sockaddr_in6 *)addr1)->sin6_addr, (char *)&((struct sockaddr_in6 *)addr2)->sin6_addr, sizeof (struct in6_addr)) == 0) return _gf_true; } return _gf_false; } /* * gf_set_timestamp: * It sets the mtime and atime of 'dest' file as of 'src'. */ int gf_set_timestamp (const char *src, const char* dest) { struct stat sb = {0, }; struct timeval new_time[2] = {{0, },{0,}}; int ret = 0; xlator_t *this = NULL; this = THIS; GF_ASSERT (this); GF_ASSERT (src); GF_ASSERT (dest); ret = stat (src, &sb); if (ret) { gf_log (this->name, GF_LOG_ERROR, "stat on %s failed: %s", src, strerror(errno)); goto out; } new_time[0].tv_sec = sb.st_atime; new_time[0].tv_usec = ST_ATIM_NSEC (&sb)/1000; new_time[1].tv_sec = sb.st_mtime; new_time[1].tv_usec = ST_MTIM_NSEC (&sb)/1000; /* The granularity is micro seconds as per the current * requiremnt. Hence using 'utimes'. This can be updated * to 'utimensat' if we need timestamp in nanoseconds. */ ret = utimes (dest, new_time); if (ret) { gf_log (this->name, GF_LOG_ERROR, "utimes on %s failed: %s", dest, strerror(errno)); } out: return ret; } static void gf_backtrace_end (char *buf, size_t frames) { size_t pos = 0; if (!buf) return; pos = strlen (buf); frames = min(frames, GF_BACKTRACE_LEN - pos -1); if (frames <= 0) return; memset (buf+pos, ')', frames); buf[pos+frames] = '\0'; } /*Returns bytes written*/ static int gf_backtrace_append (char *buf, size_t pos, char *framestr) { if (pos >= GF_BACKTRACE_LEN) return -1; return snprintf (buf+pos, GF_BACKTRACE_LEN-pos, "(--> %s ", framestr); } static int gf_backtrace_fillframes (char *buf) { void *array[GF_BACKTRACE_FRAME_COUNT]; size_t frames = 0; FILE *fp = NULL; char callingfn[GF_BACKTRACE_FRAME_COUNT-2][1024] = {{0},}; int ret = -1; int fd = -1; size_t idx = 0; size_t pos = 0; size_t inc = 0; char tmpl[32] = "/tmp/btXXXXXX"; frames = backtrace (array, GF_BACKTRACE_FRAME_COUNT); if (!frames) return -1; fd = gf_mkostemp (tmpl, 0, O_RDWR); if (fd == -1) return -1; /*The most recent two frames are the calling function and * gf_backtrace_save, which we can infer.*/ backtrace_symbols_fd (&array[2], frames-2, fd); fp = fdopen (fd, "r"); if (!fp) { close (fd); ret = -1; goto out; } ret = fseek (fp, 0L, SEEK_SET); if (ret) goto out; pos = 0; for (idx = 0; idx < frames - 2; idx++) { ret = fscanf (fp, "%s", callingfn[idx]); if (ret == EOF) break; inc = gf_backtrace_append (buf, pos, callingfn[idx]); if (inc == -1) break; pos += inc; } gf_backtrace_end (buf, idx); out: if (fp) fclose (fp); unlink (tmpl); return (idx > 0)? 0: -1; } /* Optionally takes @buf to save backtrace. If @buf is NULL, uses the * pre-allocated ctx->btbuf to avoid allocating memory while printing * backtrace. * TODO: This API doesn't provide flexibility in terms of no. of frames * of the backtrace is being saved in the buffer. Deferring fixing it * when there is a real-use for that.*/ char * gf_backtrace_save (char *buf) { char *bt = NULL; if (!buf) { bt = THIS->ctx->btbuf; GF_ASSERT (bt); } else { bt = buf; } if ((0 == gf_backtrace_fillframes (bt))) return bt; gf_log (THIS->name, GF_LOG_WARNING, "Failed to save the backtrace."); return NULL; } gf_loglevel_t fop_log_level (glusterfs_fop_t fop, int op_errno) { /* if gfid doesn't exist ESTALE comes */ if (op_errno == ENOENT || op_errno == ESTALE) return GF_LOG_DEBUG; if ((fop == GF_FOP_ENTRYLK) || (fop == GF_FOP_FENTRYLK) || (fop == GF_FOP_FINODELK) || (fop == GF_FOP_INODELK) || (fop == GF_FOP_LK)) { /* * if non-blocking lock fails EAGAIN comes * if locks xlator is not loaded ENOSYS comes */ if (op_errno == EAGAIN || op_errno == ENOSYS) return GF_LOG_DEBUG; } if ((fop == GF_FOP_GETXATTR) || (fop == GF_FOP_FGETXATTR)) { if (op_errno == ENOTSUP || op_errno == ENODATA) return GF_LOG_DEBUG; } if ((fop == GF_FOP_SETXATTR) || (fop == GF_FOP_FSETXATTR) || (fop == GF_FOP_REMOVEXATTR) || (fop == GF_FOP_FREMOVEXATTR)) { if (op_errno == ENOTSUP) return GF_LOG_DEBUG; } return GF_LOG_ERROR; } /* This function will build absolute path of file/directory from the * current location and relative path given from the current location * For example consider our current path is /a/b/c/ and relative path * from current location is ./../x/y/z .After parsing through this * function the absolute path becomes /a/b/x/y/z/. * * The function gives a pointer to absolute path if it is successful * and also returns zero. * Otherwise function gives NULL pointer with returning an err value. * * So the user need to free memory allocated for path. * */ int32_t gf_build_absolute_path (char *current_path, char *relative_path, char **path) { char *absolute_path = NULL; char *token = NULL; char *component = NULL; char *saveptr = NULL; char *end = NULL; int ret = 0; size_t relativepath_len = 0; size_t currentpath_len = 0; size_t max_absolutepath_len = 0; GF_ASSERT (current_path); GF_ASSERT (relative_path); GF_ASSERT (path); if (!path || !current_path || !relative_path) { ret = -EFAULT; goto err; } /* Check for current and relative path * current path should be absolute one and start from '/' * relative path should not start from '/' */ currentpath_len = strlen (current_path); if (current_path[0] != '/' || (currentpath_len > PATH_MAX)) { gf_log (THIS->name, GF_LOG_ERROR, "Wrong value for" " current path %s", current_path); ret = -EINVAL; goto err; } relativepath_len = strlen (relative_path); if (relative_path[0] == '/' || (relativepath_len > PATH_MAX)) { gf_log (THIS->name, GF_LOG_ERROR, "Wrong value for" " relative path %s", relative_path); ret = -EINVAL; goto err; } /* It is maximum possible value for absolute path */ max_absolutepath_len = currentpath_len + relativepath_len + 2; absolute_path = GF_CALLOC (1, max_absolutepath_len, gf_common_mt_char); if (!absolute_path) { ret = -ENOMEM; goto err; } absolute_path[0] = '\0'; /* If current path is root i.e contains only "/", we do not * need to copy it */ if (strcmp (current_path, "/") != 0) { strcpy (absolute_path, current_path); /* We trim '/' at the end for easier string manipulation */ gf_path_strip_trailing_slashes (absolute_path); } /* Used to spilt relative path based on '/' */ component = gf_strdup (relative_path); if (!component) { ret = -ENOMEM; goto err; } /* In the relative path, we want to consider ".." and "." * if token is ".." , we just need to reduce one level hierarchy * if token is "." , we just ignore it * if token is NULL , end of relative path * if absolute path becomes '\0' and still "..", then it is a bad * relative path, it points to out of boundary area and stop * building the absolute path * All other cases we just concatenate token to the absolute path */ for (token = strtok_r (component, "/", &saveptr), end = strchr (absolute_path, '\0'); token; token = strtok_r (NULL, "/", &saveptr)) { if (strcmp (token, ".") == 0) continue; else if (strcmp (token, "..") == 0) { if (absolute_path[0] == '\0') { ret = -EACCES; goto err; } end = strrchr (absolute_path, '/'); *end = '\0'; } else { ret = snprintf (end, max_absolutepath_len - strlen (absolute_path), "/%s", token); end = strchr (absolute_path , '\0'); } } if (strlen (absolute_path) > PATH_MAX) { ret = -EINVAL; goto err; } *path = gf_strdup (absolute_path); err: if (component) GF_FREE (component); if (absolute_path) GF_FREE (absolute_path); return ret; } /* This is an utility function which will recursively delete * a folder and its contents. * * @param delete_path folder to be deleted. * * @return 0 on success and -1 on failure. */ int recursive_rmdir (const char *delete_path) { int ret = -1; char path[PATH_MAX] = {0,}; struct stat st = {0,}; DIR *dir = NULL; struct dirent *entry = NULL; xlator_t *this = NULL; this = THIS; GF_ASSERT (this); GF_VALIDATE_OR_GOTO (this->name, delete_path, out); dir = opendir (delete_path); if (!dir) { gf_log (this->name, GF_LOG_DEBUG, "Failed to open directory %s." " Reason : %s", delete_path, strerror (errno)); ret = 0; goto out; } GF_FOR_EACH_ENTRY_IN_DIR (entry, dir); while (entry) { snprintf (path, PATH_MAX, "%s/%s", delete_path, entry->d_name); ret = lstat (path, &st); if (ret == -1) { gf_log (this->name, GF_LOG_DEBUG, "Failed to stat " "entry %s : %s", path, strerror (errno)); goto out; } if (S_ISDIR (st.st_mode)) ret = recursive_rmdir (path); else ret = unlink (path); if (ret) { gf_log (this->name, GF_LOG_DEBUG, " Failed to remove " "%s. Reason : %s", path, strerror (errno)); } gf_log (this->name, GF_LOG_DEBUG, "%s %s", ret ? "Failed to remove":"Removed", entry->d_name); GF_FOR_EACH_ENTRY_IN_DIR (entry, dir); } ret = closedir (dir); if (ret) { gf_log (this->name, GF_LOG_DEBUG, "Failed to close dir %s. " "Reason : %s", delete_path, strerror (errno)); } ret = rmdir (delete_path); if (ret) { gf_log (this->name, GF_LOG_DEBUG, "Failed to rmdir: %s,err: %s", delete_path, strerror (errno)); } out: return ret; } /* * Input: Array of strings 'array' terminating in NULL * string 'elem' to be searched in the array * * Output: Index of the element in the array if found, '-1' otherwise */ int gf_get_index_by_elem (char **array, char *elem) { int i = 0; for (i = 0; array[i]; i++) { if (strcmp (elem, array[i]) == 0) return i; } return -1; } static int get_pathinfo_host (char *pathinfo, char *hostname, size_t size) { char *start = NULL; char *end = NULL; int ret = -1; int i = 0; if (!pathinfo) goto out; start = strchr (pathinfo, ':'); if (!start) goto out; end = strrchr (pathinfo, ':'); if (start == end) goto out; memset (hostname, 0, size); i = 0; while (++start != end) hostname[i++] = *start; ret = 0; out: return ret; } /*Note: 'pathinfo' should be gathered only from one brick*/ int glusterfs_is_local_pathinfo (char *pathinfo, gf_boolean_t *is_local) { int ret = 0; char pathinfohost[1024] = {0}; char localhost[1024] = {0}; *is_local = _gf_false; ret = get_pathinfo_host (pathinfo, pathinfohost, sizeof (pathinfohost)); if (ret) goto out; ret = gethostname (localhost, sizeof (localhost)); if (ret) goto out; if (!strcmp (localhost, pathinfohost)) *is_local = _gf_true; out: return ret; }