/* * 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 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * NFS specific functions */ #include #include #include #include #include #include #include #include #include #include "libshare.h" #include "libshare_impl.h" #include #include #include #include #include "nfslog_config.h" #include "nfslogtab.h" #include "libshare_nfs.h" #include #include #include /* should really be in some global place */ #define DEF_WIN 30000 #define OPT_CHUNK 1024 int debug = 0; #define NFS_SERVER_SVC "svc:/network/nfs/server:default" /* internal functions */ static int nfs_init(); static void nfs_fini(); static int nfs_enable_share(sa_share_t); static int nfs_disable_share(sa_share_t, char *); static int nfs_validate_property(sa_handle_t, sa_property_t, sa_optionset_t); static int nfs_validate_security_mode(char *); static int nfs_is_security_opt(char *); static int nfs_parse_legacy_options(sa_group_t, char *); static char *nfs_format_options(sa_group_t, int); static int nfs_set_proto_prop(sa_property_t); static sa_protocol_properties_t nfs_get_proto_set(); static char *nfs_get_status(); static char *nfs_space_alias(char *); static uint64_t nfs_features(); /* * ops vector that provides the protocol specific info and operations * for share management. */ struct sa_plugin_ops sa_plugin_ops = { SA_PLUGIN_VERSION, "nfs", nfs_init, nfs_fini, nfs_enable_share, nfs_disable_share, nfs_validate_property, nfs_validate_security_mode, nfs_is_security_opt, nfs_parse_legacy_options, nfs_format_options, nfs_set_proto_prop, nfs_get_proto_set, nfs_get_status, nfs_space_alias, NULL, /* update_legacy */ NULL, /* delete_legacy */ NULL, /* change_notify */ NULL, /* enable_resource */ NULL, /* disable_resource */ nfs_features, NULL, /* transient shares */ NULL, /* notify resource */ NULL, /* rename_resource */ NULL, /* run_command */ NULL, /* command_help */ NULL /* delete_proto_section */ }; /* * list of support services needed * defines should come from head/rpcsvc/daemon_utils.h */ static char *service_list_default[] = { STATD, LOCKD, MOUNTD, NFSD, NFSMAPID, RQUOTAD, REPARSED, NULL }; static char *service_list_logging[] = { STATD, LOCKD, MOUNTD, NFSD, NFSMAPID, RQUOTAD, NFSLOGD, REPARSED, NULL }; /* * option definitions. Make sure to keep the #define for the option * index just before the entry it is the index for. Changing the order * can cause breakage. E.g OPT_RW is index 1 and must precede the * line that includes the SHOPT_RW and OPT_RW entries. */ struct option_defs optdefs[] = { #define OPT_RO 0 {SHOPT_RO, OPT_RO, OPT_TYPE_ACCLIST}, #define OPT_RW 1 {SHOPT_RW, OPT_RW, OPT_TYPE_ACCLIST}, #define OPT_ROOT 2 {SHOPT_ROOT, OPT_ROOT, OPT_TYPE_ACCLIST}, #define OPT_SECURE 3 {SHOPT_SECURE, OPT_SECURE, OPT_TYPE_DEPRECATED}, #define OPT_ANON 4 {SHOPT_ANON, OPT_ANON, OPT_TYPE_USER}, #define OPT_WINDOW 5 {SHOPT_WINDOW, OPT_WINDOW, OPT_TYPE_NUMBER}, #define OPT_NOSUID 6 {SHOPT_NOSUID, OPT_NOSUID, OPT_TYPE_BOOLEAN}, #define OPT_ACLOK 7 {SHOPT_ACLOK, OPT_ACLOK, OPT_TYPE_BOOLEAN}, #define OPT_NOSUB 8 {SHOPT_NOSUB, OPT_NOSUB, OPT_TYPE_BOOLEAN}, #define OPT_SEC 9 {SHOPT_SEC, OPT_SEC, OPT_TYPE_SECURITY}, #define OPT_PUBLIC 10 {SHOPT_PUBLIC, OPT_PUBLIC, OPT_TYPE_BOOLEAN, OPT_SHARE_ONLY}, #define OPT_INDEX 11 {SHOPT_INDEX, OPT_INDEX, OPT_TYPE_FILE}, #define OPT_LOG 12 {SHOPT_LOG, OPT_LOG, OPT_TYPE_LOGTAG}, #define OPT_CKSUM 13 {SHOPT_CKSUM, OPT_CKSUM, OPT_TYPE_STRINGSET}, #define OPT_NONE 14 {SHOPT_NONE, OPT_NONE, OPT_TYPE_ACCLIST}, #define OPT_ROOT_MAPPING 15 {SHOPT_ROOT_MAPPING, OPT_ROOT_MAPPING, OPT_TYPE_USER}, #define OPT_CHARSET_MAP 16 {"", OPT_CHARSET_MAP, OPT_TYPE_ACCLIST}, #ifdef VOLATILE_FH_TEST /* XXX added for testing volatile fh's only */ #define OPT_VOLFH 17 {SHOPT_VOLFH, OPT_VOLFH}, #endif /* VOLATILE_FH_TEST */ NULL }; /* * Codesets that may need to be converted to UTF-8 for file paths. * Add new names here to add new property support. If we ever get a * way to query the kernel for character sets, this should become * dynamically loaded. Make sure changes here are reflected in * cmd/fs.d/nfs/mountd/nfscmd.c */ static char *legal_conv[] = { "euc-cn", "euc-jp", "euc-jpms", "euc-kr", "euc-tw", "iso8859-1", "iso8859-2", "iso8859-5", "iso8859-6", "iso8859-7", "iso8859-8", "iso8859-9", "iso8859-13", "iso8859-15", "koi8-r", NULL }; /* * list of properties that are related to security flavors. */ static char *seclist[] = { SHOPT_RO, SHOPT_RW, SHOPT_ROOT, SHOPT_WINDOW, SHOPT_NONE, SHOPT_ROOT_MAPPING, NULL }; /* structure for list of securities */ struct securities { sa_security_t security; struct securities *next; }; /* * findcharset(charset) * * Returns B_TRUE if the charset is a legal conversion otherwise * B_FALSE. This will need to be rewritten to be more efficient when * we have a dynamic list of legal conversions. */ static boolean_t findcharset(char *charset) { int i; for (i = 0; legal_conv[i] != NULL; i++) if (strcmp(charset, legal_conv[i]) == 0) return (B_TRUE); return (B_FALSE); } /* * findopt(name) * * Lookup option "name" in the option table and return the table * index. */ static int findopt(char *name) { int i; if (name != NULL) { for (i = 0; optdefs[i].tag != NULL; i++) { if (strcmp(optdefs[i].tag, name) == 0) return (i); } if (findcharset(name)) return (OPT_CHARSET_MAP); } return (-1); } /* * gettype(name) * * Return the type of option "name". */ static int gettype(char *name) { int optdef; optdef = findopt(name); if (optdef != -1) return (optdefs[optdef].type); return (OPT_TYPE_ANY); } /* * nfs_validate_security_mode(mode) * * is the specified mode string a valid one for use with NFS? */ static int nfs_validate_security_mode(char *mode) { seconfig_t secinfo; int err; (void) memset(&secinfo, '\0', sizeof (secinfo)); err = nfs_getseconfig_byname(mode, &secinfo); if (err == SC_NOERROR) return (1); return (0); } /* * nfs_is_security_opt(tok) * * check to see if tok represents an option that is only valid in some * security flavor. */ static int nfs_is_security_opt(char *tok) { int i; for (i = 0; seclist[i] != NULL; i++) { if (strcmp(tok, seclist[i]) == 0) return (1); } return (0); } /* * find_security(seclist, sec) * * Walk the current list of security flavors and return true if it is * present, else return false. */ static int find_security(struct securities *seclist, sa_security_t sec) { while (seclist != NULL) { if (seclist->security == sec) return (1); seclist = seclist->next; } return (0); } /* * make_security_list(group, securitymodes, proto) * go through the list of securitymodes and add them to the * group's list of security optionsets. We also keep a list of * those optionsets so we don't have to find them later. All of * these will get copies of the same properties. */ static struct securities * make_security_list(sa_group_t group, char *securitymodes, char *proto) { char *tok, *next = NULL; struct securities *curp, *headp = NULL, *prev; sa_security_t check; int freetok = 0; for (tok = securitymodes; tok != NULL; tok = next) { next = strchr(tok, ':'); if (next != NULL) *next++ = '\0'; if (strcmp(tok, "default") == 0) { /* resolve default into the real type */ tok = nfs_space_alias(tok); freetok = 1; } check = sa_get_security(group, tok, proto); /* add to the security list if it isn't there already */ if (check == NULL || !find_security(headp, check)) { curp = (struct securities *)calloc(1, sizeof (struct securities)); if (curp != NULL) { if (check == NULL) { curp->security = sa_create_security( group, tok, proto); } else { curp->security = check; } /* * note that the first time through the loop, * headp will be NULL and prev will be * undefined. Since headp is NULL, we set * both it and prev to the curp (first * structure to be allocated). * * later passes through the loop will have * headp not being NULL and prev will be used * to allocate at the end of the list. */ if (headp == NULL) { headp = curp; prev = curp; } else { prev->next = curp; prev = curp; } } } if (freetok) { freetok = 0; sa_free_attr_string(tok); } } return (headp); } static void free_security_list(struct securities *sec) { struct securities *next; if (sec != NULL) { for (next = sec->next; sec != NULL; sec = next) { next = sec->next; free(sec); } } } /* * nfs_alistcat(str1, str2, sep) * * concatenate str1 and str2 into a new string using sep as a separate * character. If memory allocation fails, return NULL; */ static char * nfs_alistcat(char *str1, char *str2, char sep) { char *newstr; size_t len; len = strlen(str1) + strlen(str2) + 2; newstr = (char *)malloc(len); if (newstr != NULL) (void) snprintf(newstr, len, "%s%c%s", str1, sep, str2); return (newstr); } /* * add_security_prop(sec, name, value, persist) * * Add the property to the securities structure. This accumulates * properties for as part of parsing legacy options. */ static int add_security_prop(struct securities *sec, char *name, char *value, int persist, int iszfs) { sa_property_t prop; int ret = SA_OK; for (; sec != NULL; sec = sec->next) { if (value == NULL) { if (strcmp(name, SHOPT_RW) == 0 || strcmp(name, SHOPT_RO) == 0) value = "*"; else value = "true"; } /* * Get the existing property, if it exists, so we can * determine what to do with it. The ro/rw/root * properties can be merged if multiple instances of * these properies are given. For example, if "rw" * exists with a value "host1" and a later token of * rw="host2" is seen, the values are merged into a * single rw="host1:host2". */ prop = sa_get_property(sec->security, name); if (prop != NULL) { char *oldvalue; char *newvalue; /* * The security options of ro/rw/root might appear * multiple times. If they do, the values need to be * merged into an access list. If it was previously * empty, the new value alone is added. */ oldvalue = sa_get_property_attr(prop, "value"); if (oldvalue != NULL) { /* * The general case is to concatenate the new * value onto the old value for multiple * rw(ro/root) properties. A special case * exists when either the old or new is the * "all" case. In the special case, if both * are "all", then it is "all", else if one is * an access-list, that replaces the "all". */ if (strcmp(oldvalue, "*") == 0) { /* Replace old value with new value. */ newvalue = strdup(value); } else if (strcmp(value, "*") == 0 || strcmp(oldvalue, value) == 0) { /* * Keep old value and ignore * the new value. */ newvalue = NULL; } else { /* * Make a new list of old plus new * access-list. */ newvalue = nfs_alistcat(oldvalue, value, ':'); } if (newvalue != NULL) { (void) sa_remove_property(prop); prop = sa_create_property(name, newvalue); ret = sa_add_property(sec->security, prop); free(newvalue); } if (oldvalue != NULL) sa_free_attr_string(oldvalue); } } else { prop = sa_create_property(name, value); ret = sa_add_property(sec->security, prop); } if (ret == SA_OK && !iszfs) { ret = sa_commit_properties(sec->security, !persist); } } return (ret); } /* * check to see if group/share is persistent. */ static int is_persistent(sa_group_t group) { char *type; int persist = 1; type = sa_get_group_attr(group, "type"); if (type != NULL && strcmp(type, "persist") != 0) persist = 0; if (type != NULL) sa_free_attr_string(type); return (persist); } /* * invalid_security(options) * * search option string for any invalid sec= type. * return true (1) if any are not valid else false (0) */ static int invalid_security(char *options) { char *copy, *base, *token, *value; int ret = 0; copy = strdup(options); token = base = copy; while (token != NULL && ret == 0) { token = strtok(base, ","); base = NULL; if (token != NULL) { value = strchr(token, '='); if (value != NULL) *value++ = '\0'; if (strcmp(token, "sec") == 0) { /* HAVE security flavors so check them */ char *tok, *next; for (next = NULL, tok = value; tok != NULL; tok = next) { next = strchr(tok, ':'); if (next != NULL) *next++ = '\0'; ret = !nfs_validate_security_mode(tok); if (ret) break; } } } } if (copy != NULL) free(copy); return (ret); } /* * nfs_parse_legacy_options(group, options) * * Parse the old style options into internal format and store on the * specified group. Group could be a share for full legacy support. */ static int nfs_parse_legacy_options(sa_group_t group, char *options) { char *dup; char *base; char *token; sa_optionset_t optionset; struct securities *security_list = NULL; sa_property_t prop; int ret = SA_OK; int iszfs = 0; sa_group_t parent; int persist = 0; char *lasts; /* do we have an existing optionset? */ optionset = sa_get_optionset(group, "nfs"); if (optionset == NULL) { /* didn't find existing optionset so create one */ optionset = sa_create_optionset(group, "nfs"); } else { /* * Have an existing optionset . Ideally, we would need * to compare options in order to detect errors. For * now, we assume that the first optionset is the * correct one and the others will be the same. An * empty optionset is the same as no optionset so we * don't want to exit in that case. Getting an empty * optionset can occur with ZFS property checking. */ if (sa_get_property(optionset, NULL) != NULL) return (ret); } if (strcmp(options, SHOPT_RW) == 0) { /* * there is a special case of only the option "rw" * being the default option. We don't have to do * anything. */ return (ret); } /* * check if security types are present and validate them. If * any are not legal, fail. */ if (invalid_security(options)) { return (SA_INVALID_SECURITY); } /* * in order to not attempt to change ZFS properties unless * absolutely necessary, we never do it in the legacy parsing. */ if (sa_is_share(group)) { char *zfs; parent = sa_get_parent_group(group); if (parent != NULL) { zfs = sa_get_group_attr(parent, "zfs"); if (zfs != NULL) { sa_free_attr_string(zfs); iszfs++; } } } else { iszfs = sa_group_is_zfs(group); } /* We need a copy of options for the next part. */ dup = strdup(options); if (dup == NULL) return (SA_NO_MEMORY); /* * we need to step through each option in the string and then * add either the option or the security option as needed. If * this is not a persistent share, don't commit to the * repository. If there is an error, we also want to abort the * processing and report it. */ persist = is_persistent(group); base = dup; token = dup; lasts = NULL; while (token != NULL && ret == SA_OK) { ret = SA_OK; token = strtok_r(base, ",", &lasts); base = NULL; if (token != NULL) { char *value; /* * if the option has a value, it will have an '=' to * separate the name from the value. The following * code will result in value != NULL and token * pointing to just the name if there is a value. */ value = strchr(token, '='); if (value != NULL) { *value++ = '\0'; } if (strcmp(token, "sec") == 0 || strcmp(token, "secure") == 0) { /* * Once in security parsing, we only * do security. We do need to move * between the security node and the * toplevel. The security tag goes on * the root while the following ones * go on the security. */ if (security_list != NULL) { /* * have an old list so close it and * start the new */ free_security_list(security_list); } if (strcmp(token, "secure") == 0) { value = "dh"; } else { if (value == NULL) { ret = SA_SYNTAX_ERR; break; } } security_list = make_security_list(group, value, "nfs"); } else { /* * Note that the "old" syntax allowed a * default security model This must be * accounted for and internally converted to * "standard" security structure. */ if (nfs_is_security_opt(token)) { if (security_list == NULL) { /* * need to have a * security * option. This will * be "closed" when a * defined "sec=" * option is * seen. This is * technically an * error but will be * allowed with * warning. */ security_list = make_security_list(group, "default", "nfs"); } if (security_list != NULL) { ret = add_security_prop( security_list, token, value, persist, iszfs); } else { ret = SA_NO_MEMORY; } } else { /* regular options */ if (value == NULL) { if (strcmp(token, SHOPT_RW) == 0 || strcmp(token, SHOPT_RO) == 0) { value = "*"; } else { value = "global"; if (strcmp(token, SHOPT_LOG) != 0) { value = "true"; } } } /* * In all cases, create the * property specified. If the * value was NULL, the default * value will have been * substituted. */ prop = sa_create_property(token, value); ret = sa_add_property(optionset, prop); if (ret != SA_OK) break; if (!iszfs) { ret = sa_commit_properties( optionset, !persist); } } } } } if (security_list != NULL) free_security_list(security_list); free(dup); return (ret); } /* * is_a_number(number) * * is the string a number in one of the forms we want to use? */ static int is_a_number(char *number) { int ret = 1; int hex = 0; if (strncmp(number, "0x", 2) == 0) { number += 2; hex = 1; } else if (*number == '-') { number++; /* skip the minus */ } while (ret == 1 && *number != '\0') { if (hex) { ret = isxdigit(*number++); } else { ret = isdigit(*number++); } } return (ret); } /* * Look for the specified tag in the configuration file. If it is found, * enable logging and set the logging configuration information for exp. */ static void configlog(struct exportdata *exp, char *tag) { nfsl_config_t *configlist = NULL, *configp; int error = 0; char globaltag[] = DEFAULTTAG; /* * Sends config errors to stderr */ nfsl_errs_to_syslog = B_FALSE; /* * get the list of configuration settings */ error = nfsl_getconfig_list(&configlist); if (error) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "Cannot get log configuration: %s\n"), strerror(error)); } if (tag == NULL) tag = globaltag; if ((configp = nfsl_findconfig(configlist, tag, &error)) == NULL) { nfsl_freeconfig_list(&configlist); (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "No tags matching \"%s\"\n"), tag); /* bad configuration */ error = ENOENT; goto err; } if ((exp->ex_tag = strdup(tag)) == NULL) { error = ENOMEM; goto out; } if ((exp->ex_log_buffer = strdup(configp->nc_bufferpath)) == NULL) { error = ENOMEM; goto out; } exp->ex_flags |= EX_LOG; if (configp->nc_rpclogpath != NULL) exp->ex_flags |= EX_LOG_ALLOPS; out: if (configlist != NULL) nfsl_freeconfig_list(&configlist); err: if (error != 0) { if (exp->ex_flags != NULL) free(exp->ex_tag); if (exp->ex_log_buffer != NULL) free(exp->ex_log_buffer); (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "Cannot set log configuration: %s\n"), strerror(error)); } } /* * fill_export_from_optionset(export, optionset) * * In order to share, we need to set all the possible general options * into the export structure. Share info will be filled in by the * caller. Various property values get turned into structure specific * values. */ static int fill_export_from_optionset(struct exportdata *export, sa_optionset_t optionset) { sa_property_t option; int ret = SA_OK; for (option = sa_get_property(optionset, NULL); option != NULL; option = sa_get_next_property(option)) { char *name; char *value; uint32_t val; /* * since options may be set/reset multiple times, always do an * explicit set or clear of the option. This allows defaults * to be set and then the protocol specific to override. */ name = sa_get_property_attr(option, "type"); value = sa_get_property_attr(option, "value"); switch (findopt(name)) { case OPT_ANON: if (value != NULL && is_a_number(value)) { val = strtoul(value, NULL, 0); } else { struct passwd *pw; pw = getpwnam(value != NULL ? value : "nobody"); if (pw != NULL) { val = pw->pw_uid; } else { val = UID_NOBODY; } endpwent(); } export->ex_anon = val; break; case OPT_NOSUID: if (value != NULL && (strcasecmp(value, "true") == 0 || strcmp(value, "1") == 0)) export->ex_flags |= EX_NOSUID; else export->ex_flags &= ~EX_NOSUID; break; case OPT_ACLOK: if (value != NULL && (strcasecmp(value, "true") == 0 || strcmp(value, "1") == 0)) export->ex_flags |= EX_ACLOK; else export->ex_flags &= ~EX_ACLOK; break; case OPT_NOSUB: if (value != NULL && (strcasecmp(value, "true") == 0 || strcmp(value, "1") == 0)) export->ex_flags |= EX_NOSUB; else export->ex_flags &= ~EX_NOSUB; break; case OPT_PUBLIC: if (value != NULL && (strcasecmp(value, "true") == 0 || strcmp(value, "1") == 0)) export->ex_flags |= EX_PUBLIC; else export->ex_flags &= ~EX_PUBLIC; break; case OPT_INDEX: if (value != NULL && (strcmp(value, "..") == 0 || strchr(value, '/') != NULL)) { /* this is an error */ (void) printf(dgettext(TEXT_DOMAIN, "NFS: index=\"%s\" not valid;" "must be a filename.\n"), value); break; } if (value != NULL && *value != '\0' && strcmp(value, ".") != 0) { /* valid index file string */ if (export->ex_index != NULL) { /* left over from "default" */ free(export->ex_index); } /* remember to free */ export->ex_index = strdup(value); if (export->ex_index == NULL) { (void) printf(dgettext(TEXT_DOMAIN, "NFS: out of memory setting " "index property\n")); break; } export->ex_flags |= EX_INDEX; } break; case OPT_LOG: if (value == NULL) value = strdup("global"); if (value != NULL) configlog(export, strlen(value) ? value : "global"); break; case OPT_CHARSET_MAP: /* * Set EX_CHARMAP when there is at least one * charmap conversion property. This will get * checked by the nfs server when it needs to. */ export->ex_flags |= EX_CHARMAP; break; default: /* have a syntactic error */ (void) printf(dgettext(TEXT_DOMAIN, "NFS: unrecognized option %s=%s\n"), name, value != NULL ? value : ""); break; } if (name != NULL) sa_free_attr_string(name); if (value != NULL) sa_free_attr_string(value); } return (ret); } /* * cleanup_export(export) * * Cleanup the allocated areas so we don't leak memory */ static void cleanup_export(struct exportdata *export) { int i; if (export->ex_index != NULL) free(export->ex_index); if (export->ex_secinfo != NULL) { for (i = 0; i < export->ex_seccnt; i++) if (export->ex_secinfo[i].s_rootnames != NULL) free(export->ex_secinfo[i].s_rootnames); free(export->ex_secinfo); } } /* * Given a seconfig entry and a colon-separated * list of names, allocate an array big enough * to hold the root list, then convert each name to * a principal name according to the security * info and assign it to an array element. * Return the array and its size. */ static caddr_t * get_rootnames(seconfig_t *sec, char *list, int *count) { caddr_t *a; int c, i; char *host, *p; /* * Count the number of strings in the list. * This is the number of colon separators + 1. */ c = 1; for (p = list; *p; p++) if (*p == ':') c++; *count = c; a = (caddr_t *)malloc(c * sizeof (char *)); if (a == NULL) { (void) printf(dgettext(TEXT_DOMAIN, "get_rootnames: no memory\n")); } else { for (i = 0; i < c; i++) { host = strtok(list, ":"); if (!nfs_get_root_principal(sec, host, &a[i])) { free(a); a = NULL; break; } list = NULL; } } return (a); } /* * fill_security_from_secopts(sp, secopts) * * Fill the secinfo structure from the secopts optionset. */ static int fill_security_from_secopts(struct secinfo *sp, sa_security_t secopts) { sa_property_t prop; char *type; int longform; int err = SC_NOERROR; uint32_t val; type = sa_get_security_attr(secopts, "sectype"); if (type != NULL) { /* named security type needs secinfo to be filled in */ err = nfs_getseconfig_byname(type, &sp->s_secinfo); sa_free_attr_string(type); if (err != SC_NOERROR) return (err); } else { /* default case */ err = nfs_getseconfig_default(&sp->s_secinfo); if (err != SC_NOERROR) return (err); } err = SA_OK; for (prop = sa_get_property(secopts, NULL); prop != NULL && err == SA_OK; prop = sa_get_next_property(prop)) { char *name; char *value; name = sa_get_property_attr(prop, "type"); value = sa_get_property_attr(prop, "value"); longform = value != NULL && strcmp(value, "*") != 0; switch (findopt(name)) { case OPT_RO: sp->s_flags |= longform ? M_ROL : M_RO; break; case OPT_RW: sp->s_flags |= longform ? M_RWL : M_RW; break; case OPT_ROOT: sp->s_flags |= M_ROOT; /* * if we are using AUTH_UNIX, handle like other things * such as RO/RW */ if (sp->s_secinfo.sc_rpcnum == AUTH_UNIX) continue; /* not AUTH_UNIX */ if (value != NULL) { sp->s_rootnames = get_rootnames(&sp->s_secinfo, value, &sp->s_rootcnt); if (sp->s_rootnames == NULL) { err = SA_BAD_VALUE; (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "Bad root list\n")); } } break; case OPT_NONE: sp->s_flags |= M_NONE; break; case OPT_WINDOW: if (value != NULL) { sp->s_window = atoi(value); /* just in case */ if (sp->s_window < 0) sp->s_window = DEF_WIN; } break; case OPT_ROOT_MAPPING: if (value != NULL && is_a_number(value)) { val = strtoul(value, NULL, 0); } else { struct passwd *pw; pw = getpwnam(value != NULL ? value : "nobody"); if (pw != NULL) { val = pw->pw_uid; } else { val = UID_NOBODY; } endpwent(); } sp->s_rootid = val; break; default: break; } if (name != NULL) sa_free_attr_string(name); if (value != NULL) sa_free_attr_string(value); } /* if rw/ro options not set, use default of RW */ if ((sp->s_flags & NFS_RWMODES) == 0) sp->s_flags |= M_RW; return (err); } /* * This is for testing only * It displays the export structure that * goes into the kernel. */ static void printarg(char *path, struct exportdata *ep) { int i, j; struct secinfo *sp; if (debug == 0) return; (void) printf("%s:\n", path); (void) printf("\tex_version = %d\n", ep->ex_version); (void) printf("\tex_path = %s\n", ep->ex_path); (void) printf("\tex_pathlen = %ld\n", (ulong_t)ep->ex_pathlen); (void) printf("\tex_flags: (0x%02x) ", ep->ex_flags); if (ep->ex_flags & EX_NOSUID) (void) printf("NOSUID "); if (ep->ex_flags & EX_ACLOK) (void) printf("ACLOK "); if (ep->ex_flags & EX_PUBLIC) (void) printf("PUBLIC "); if (ep->ex_flags & EX_NOSUB) (void) printf("NOSUB "); if (ep->ex_flags & EX_LOG) (void) printf("LOG "); if (ep->ex_flags & EX_CHARMAP) (void) printf("CHARMAP "); if (ep->ex_flags & EX_LOG_ALLOPS) (void) printf("LOG_ALLOPS "); if (ep->ex_flags == 0) (void) printf("(none)"); (void) printf("\n"); if (ep->ex_flags & EX_LOG) { (void) printf("\tex_log_buffer = %s\n", (ep->ex_log_buffer ? ep->ex_log_buffer : "(NULL)")); (void) printf("\tex_tag = %s\n", (ep->ex_tag ? ep->ex_tag : "(NULL)")); } (void) printf("\tex_anon = %d\n", ep->ex_anon); (void) printf("\tex_seccnt = %d\n", ep->ex_seccnt); (void) printf("\n"); for (i = 0; i < ep->ex_seccnt; i++) { sp = &ep->ex_secinfo[i]; (void) printf("\t\ts_secinfo = %s\n", sp->s_secinfo.sc_name); (void) printf("\t\ts_flags: (0x%02x) ", sp->s_flags); if (sp->s_flags & M_ROOT) (void) printf("M_ROOT "); if (sp->s_flags & M_RO) (void) printf("M_RO "); if (sp->s_flags & M_ROL) (void) printf("M_ROL "); if (sp->s_flags & M_RW) (void) printf("M_RW "); if (sp->s_flags & M_RWL) (void) printf("M_RWL "); if (sp->s_flags & M_NONE) (void) printf("M_NONE "); if (sp->s_flags == 0) (void) printf("(none)"); (void) printf("\n"); (void) printf("\t\ts_window = %d\n", sp->s_window); (void) printf("\t\ts_rootid = %d\n", sp->s_rootid); (void) printf("\t\ts_rootcnt = %d ", sp->s_rootcnt); (void) fflush(stdout); for (j = 0; j < sp->s_rootcnt; j++) (void) printf("%s ", sp->s_rootnames[j] ? sp->s_rootnames[j] : ""); (void) printf("\n\n"); } } /* * count_security(opts) * * Count the number of security types (flavors). The optionset has * been populated with the security flavors as a holding mechanism. * We later use this number to allocate data structures. */ static int count_security(sa_optionset_t opts) { int count = 0; sa_property_t prop; if (opts != NULL) { for (prop = sa_get_property(opts, NULL); prop != NULL; prop = sa_get_next_property(prop)) { count++; } } return (count); } /* * nfs_sprint_option(rbuff, rbuffsize, incr, prop, sep) * * provides a mechanism to format NFS properties into legacy output * format. If the buffer would overflow, it is reallocated and grown * as appropriate. Special cases of converting internal form of values * to those used by "share" are done. this function does one property * at a time. */ static int nfs_sprint_option(char **rbuff, size_t *rbuffsize, size_t incr, sa_property_t prop, int sep) { char *name; char *value; int curlen; char *buff = *rbuff; size_t buffsize = *rbuffsize; int printed = B_FALSE; name = sa_get_property_attr(prop, "type"); value = sa_get_property_attr(prop, "value"); if (buff != NULL) curlen = strlen(buff); else curlen = 0; if (name != NULL) { int len; len = strlen(name) + sep; /* * A future RFE would be to replace this with more * generic code and to possibly handle more types. */ switch (gettype(name)) { case OPT_TYPE_BOOLEAN: /* * For NFS, boolean value of FALSE means it * doesn't show up in the option list at all. */ if (value != NULL && strcasecmp(value, "false") == 0) goto skip; if (value != NULL) { sa_free_attr_string(value); value = NULL; } break; case OPT_TYPE_ACCLIST: if (value != NULL && strcmp(value, "*") == 0) { sa_free_attr_string(value); value = NULL; } else { if (value != NULL) len += 1 + strlen(value); } break; case OPT_TYPE_LOGTAG: if (value != NULL && strlen(value) == 0) { sa_free_attr_string(value); value = NULL; } else { if (value != NULL) len += 1 + strlen(value); } break; default: if (value != NULL) len += 1 + strlen(value); break; } while (buffsize <= (curlen + len)) { /* need more room */ buffsize += incr; buff = realloc(buff, buffsize); if (buff == NULL) { /* realloc failed so free everything */ if (*rbuff != NULL) free(*rbuff); } *rbuff = buff; *rbuffsize = buffsize; if (buff == NULL) goto skip; } if (buff == NULL) goto skip; if (value == NULL) { (void) snprintf(buff + curlen, buffsize - curlen, "%s%s", sep ? "," : "", name, value != NULL ? value : ""); } else { (void) snprintf(buff + curlen, buffsize - curlen, "%s%s=%s", sep ? "," : "", name, value != NULL ? value : ""); } printed = B_TRUE; } skip: if (name != NULL) sa_free_attr_string(name); if (value != NULL) sa_free_attr_string(value); return (printed); } /* * nfs_format_options(group, hier) * * format all the options on the group into an old-style option * string. If hier is non-zero, walk up the tree to get inherited * options. */ static char * nfs_format_options(sa_group_t group, int hier) { sa_optionset_t options = NULL; sa_optionset_t secoptions = NULL; sa_property_t prop, secprop; sa_security_t security = NULL; char *buff; size_t buffsize; char *sectype = NULL; int sep = 0; buff = malloc(OPT_CHUNK); if (buff == NULL) { return (NULL); } buff[0] = '\0'; buffsize = OPT_CHUNK; /* * We may have a an optionset relative to this item. format * these if we find them and then add any security definitions. */ options = sa_get_derived_optionset(group, "nfs", hier); /* * do the default set first but skip any option that is also * in the protocol specific optionset. */ if (options != NULL) { for (prop = sa_get_property(options, NULL); prop != NULL; prop = sa_get_next_property(prop)) { /* * use this one since we skipped any * of these that were also in * optdefault */ if (nfs_sprint_option(&buff, &buffsize, OPT_CHUNK, prop, sep)) sep = 1; if (buff == NULL) { /* * buff could become NULL if there * isn't enough memory for * nfs_sprint_option to realloc() * as necessary. We can't really * do anything about it at this * point so we return NULL. The * caller should handle the * failure. */ if (options != NULL) sa_free_derived_optionset( options); return (buff); } } } secoptions = (sa_optionset_t)sa_get_all_security_types(group, "nfs", hier); if (secoptions != NULL) { for (secprop = sa_get_property(secoptions, NULL); secprop != NULL; secprop = sa_get_next_property(secprop)) { sectype = sa_get_property_attr(secprop, "type"); security = (sa_security_t)sa_get_derived_security( group, sectype, "nfs", hier); if (security != NULL) { if (sectype != NULL) { prop = sa_create_property( "sec", sectype); if (prop == NULL) goto err; if (nfs_sprint_option(&buff, &buffsize, OPT_CHUNK, prop, sep)) sep = 1; (void) sa_remove_property(prop); if (buff == NULL) goto err; } for (prop = sa_get_property(security, NULL); prop != NULL; prop = sa_get_next_property(prop)) { if (nfs_sprint_option(&buff, &buffsize, OPT_CHUNK, prop, sep)) sep = 1; if (buff == NULL) goto err; } sa_free_derived_optionset(security); } if (sectype != NULL) sa_free_attr_string(sectype); } sa_free_derived_optionset(secoptions); } if (options != NULL) sa_free_derived_optionset(options); return (buff); err: /* * If we couldn't allocate memory for option printing, we need * to break out of the nested loops, cleanup and return NULL. */ if (secoptions != NULL) sa_free_derived_optionset(secoptions); if (security != NULL) sa_free_derived_optionset(security); if (sectype != NULL) sa_free_attr_string(sectype); if (options != NULL) sa_free_derived_optionset(options); return (NULL); } /* * Append an entry to the nfslogtab file */ static int nfslogtab_add(dir, buffer, tag) char *dir, *buffer, *tag; { FILE *f; struct logtab_ent lep; int error = 0; /* * Open the file for update and create it if necessary. * This may leave the I/O offset at the end of the file, * so rewind back to the beginning of the file. */ f = fopen(NFSLOGTAB, "a+"); if (f == NULL) { error = errno; goto out; } rewind(f); if (lockf(fileno(f), F_LOCK, 0L) < 0) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "share complete, however failed to lock %s " "for update: %s\n"), NFSLOGTAB, strerror(errno)); error = -1; goto out; } if (logtab_deactivate_after_boot(f) == -1) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "share complete, however could not deactivate " "entries in %s\n"), NFSLOGTAB); error = -1; goto out; } /* * Remove entries matching buffer and sharepoint since we're * going to replace it with perhaps an entry with a new tag. */ if (logtab_rement(f, buffer, dir, NULL, -1)) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "share complete, however could not remove matching " "entries in %s\n"), NFSLOGTAB); error = -1; goto out; } /* * Deactivate all active entries matching this sharepoint */ if (logtab_deactivate(f, NULL, dir, NULL)) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "share complete, however could not deactivate matching " "entries in %s\n"), NFSLOGTAB); error = -1; goto out; } lep.le_buffer = buffer; lep.le_path = dir; lep.le_tag = tag; lep.le_state = LES_ACTIVE; /* * Add new sharepoint / buffer location to nfslogtab */ if (logtab_putent(f, &lep) < 0) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "share complete, however could not add %s to %s\n"), dir, NFSLOGTAB); error = -1; } out: if (f != NULL) (void) fclose(f); return (error); } /* * Deactivate an entry from the nfslogtab file */ static int nfslogtab_deactivate(path) char *path; { FILE *f; int error = 0; f = fopen(NFSLOGTAB, "r+"); if (f == NULL) { error = errno; goto out; } if (lockf(fileno(f), F_LOCK, 0L) < 0) { error = errno; (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "share complete, however could not lock %s for " "update: %s\n"), NFSLOGTAB, strerror(error)); goto out; } if (logtab_deactivate(f, NULL, path, NULL) == -1) { error = -1; (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "share complete, however could not " "deactivate %s in %s\n"), path, NFSLOGTAB); goto out; } out: if (f != NULL) (void) fclose(f); return (error); } /* * check_public(group, skipshare) * * Check the group for any shares that have the public property * enabled. We skip "skipshare" since that is the one we are * working with. This is a separate function to make handling * subgroups simpler. Returns true if there is a share with public. */ static int check_public(sa_group_t group, sa_share_t skipshare) { int exists = B_FALSE; sa_share_t share; sa_optionset_t opt; sa_property_t prop; char *shared; for (share = sa_get_share(group, NULL); share != NULL; share = sa_get_next_share(share)) { if (share == skipshare) continue; opt = sa_get_optionset(share, "nfs"); if (opt == NULL) continue; prop = sa_get_property(opt, "public"); if (prop == NULL) continue; shared = sa_get_share_attr(share, "shared"); if (shared != NULL) { exists = strcmp(shared, "true") == 0; sa_free_attr_string(shared); if (exists == B_TRUE) break; } } return (exists); } /* * public_exists(handle, share) * * check to see if public option is set on any other share than the * one specified. Need to check zfs sub-groups as well as the top * level groups. */ static int public_exists(sa_handle_t handle, sa_share_t skipshare) { sa_group_t group = NULL; /* * If we don't have a handle, we can only do syntax check. We * can't check against other shares so we assume OK and will * catch the problem only when we actually try to apply it. */ if (handle == NULL) return (SA_OK); if (skipshare != NULL) { group = sa_get_parent_group(skipshare); if (group == NULL) return (SA_NO_SUCH_GROUP); } for (group = sa_get_group(handle, NULL); group != NULL; group = sa_get_next_group(group)) { /* Walk any ZFS subgroups as well as all standard groups */ if (sa_group_is_zfs(group)) { sa_group_t subgroup; for (subgroup = sa_get_sub_group(group); subgroup != NULL; subgroup = sa_get_next_group(subgroup)) { if (check_public(subgroup, skipshare)) return (B_TRUE); } } else { if (check_public(group, skipshare)) return (B_TRUE); } } return (B_FALSE); } /* * sa_enable_share at the protocol level, enable_share must tell the * implementation that it is to enable the share. This entails * converting the path and options into the appropriate ioctl * calls. It is assumed that all error checking of paths, etc. were * done earlier. */ static int nfs_enable_share(sa_share_t share) { struct exportdata export; sa_optionset_t secoptlist; struct secinfo *sp; int num_secinfo; sa_optionset_t opt; sa_security_t sec; sa_property_t prop; char *path; int err = SA_OK; int i; int iszfs; sa_handle_t handle; /* Don't drop core if the NFS module isn't loaded. */ (void) signal(SIGSYS, SIG_IGN); /* get the path since it is important in several places */ path = sa_get_share_attr(share, "path"); if (path == NULL) return (SA_NO_SUCH_PATH); iszfs = sa_path_is_zfs(path); /* * find the optionsets and security sets. There may not be * any or there could be one or two for each of optionset and * security may have multiple, one per security type per * protocol type. */ opt = sa_get_derived_optionset(share, "nfs", 1); secoptlist = (sa_optionset_t)sa_get_all_security_types(share, "nfs", 1); if (secoptlist != NULL) num_secinfo = MAX(1, count_security(secoptlist)); else num_secinfo = 1; /* * walk through the options and fill in the structure * appropriately. */ (void) memset(&export, '\0', sizeof (export)); /* * do non-security options first since there is only one after * the derived group is constructed. */ export.ex_version = EX_CURRENT_VERSION; export.ex_anon = UID_NOBODY; /* this is our default value */ export.ex_index = NULL; export.ex_path = path; export.ex_pathlen = strlen(path) + 1; if (opt != NULL) err = fill_export_from_optionset(&export, opt); /* * check to see if "public" is set. If it is, then make sure * no other share has it set. If it is already used, fail. */ handle = sa_find_group_handle((sa_group_t)share); if (export.ex_flags & EX_PUBLIC && public_exists(handle, share)) { (void) printf(dgettext(TEXT_DOMAIN, "NFS: Cannot share more than one file " "system with 'public' property\n")); err = SA_NOT_ALLOWED; goto out; } sp = calloc(num_secinfo, sizeof (struct secinfo)); if (sp == NULL) { err = SA_NO_MEMORY; (void) printf(dgettext(TEXT_DOMAIN, "NFS: NFS: no memory for security\n")); goto out; } export.ex_secinfo = sp; /* get default secinfo */ export.ex_seccnt = num_secinfo; /* * since we must have one security option defined, we * init to the default and then override as we find * defined security options. This handles the case * where we have no defined options but we need to set * up one. */ sp[0].s_window = DEF_WIN; sp[0].s_rootnames = NULL; /* setup a default in case no properties defined */ if (nfs_getseconfig_default(&sp[0].s_secinfo)) { (void) printf(dgettext(TEXT_DOMAIN, "NFS: nfs_getseconfig_default: failed to " "get default security mode\n")); err = SA_CONFIG_ERR; } if (secoptlist != NULL) { for (i = 0, prop = sa_get_property(secoptlist, NULL); prop != NULL && i < num_secinfo; prop = sa_get_next_property(prop), i++) { char *sectype; sectype = sa_get_property_attr(prop, "type"); /* * if sectype is NULL, we probably * have a memory problem and can't get * the correct values. Rather than * exporting with incorrect security, * don't share it. */ if (sectype == NULL) { err = SA_NO_MEMORY; (void) printf(dgettext(TEXT_DOMAIN, "NFS: Cannot share %s: " "no memory\n"), path); goto out; } sec = (sa_security_t)sa_get_derived_security( share, sectype, "nfs", 1); sp[i].s_window = DEF_WIN; sp[i].s_rootcnt = 0; sp[i].s_rootnames = NULL; (void) fill_security_from_secopts(&sp[i], sec); if (sec != NULL) sa_free_derived_security(sec); if (sectype != NULL) sa_free_attr_string(sectype); } } /* * when we get here, we can do the exportfs system call and * initiate thinsg. We probably want to enable the nfs.server * service first if it isn't running within SMF. */ /* check nfs.server status and start if needed */ /* now add the share to the internal tables */ printarg(path, &export); /* * call the exportfs system call which is implemented * via the nfssys() call as the EXPORTFS subfunction. */ if (iszfs) { struct exportfs_args ea; share_t sh; char *str; priv_set_t *priv_effective; int privileged; /* * If we aren't a privileged user * and NFS server service isn't running * then print out an error message * and return EPERM */ priv_effective = priv_allocset(); (void) getppriv(PRIV_EFFECTIVE, priv_effective); privileged = (priv_isfullset(priv_effective) == B_TRUE); priv_freeset(priv_effective); if (!privileged && (str = smf_get_state(NFS_SERVER_SVC)) != NULL) { err = 0; if (strcmp(str, SCF_STATE_STRING_ONLINE) != 0) { (void) printf(dgettext(TEXT_DOMAIN, "NFS: Cannot share remote " "filesystem: %s\n"), path); (void) printf(dgettext(TEXT_DOMAIN, "NFS: Service needs to be enabled " "by a privileged user\n")); err = SA_SYSTEM_ERR; errno = EPERM; } free(str); } if (err == 0) { ea.dname = path; ea.uex = &export; sa_sharetab_fill_zfs(share, &sh, "nfs"); err = sa_share_zfs(share, NULL, path, &sh, &ea, ZFS_SHARE_NFS); if (err != SA_OK) { errno = err; err = -1; } sa_emptyshare(&sh); } } else { err = exportfs(path, &export); } if (err < 0) { err = SA_SYSTEM_ERR; switch (errno) { case EREMOTE: (void) printf(dgettext(TEXT_DOMAIN, "NFS: Cannot share filesystems " "in non-global zones: %s\n"), path); err = SA_NOT_SUPPORTED; break; case EPERM: if (getzoneid() != GLOBAL_ZONEID) { (void) printf(dgettext(TEXT_DOMAIN, "NFS: Cannot share file systems " "in non-global zones: %s\n"), path); err = SA_NOT_SUPPORTED; break; } err = SA_NO_PERMISSION; /* FALLTHROUGH */ default: break; } } else { /* update sharetab with an add/modify */ if (!iszfs) { (void) sa_update_sharetab(share, "nfs"); } } if (err == SA_OK) { /* * enable services as needed. This should probably be * done elsewhere in order to minimize the calls to * check services. */ /* * check to see if logging and other services need to * be triggered, but only if there wasn't an * error. This is probably where sharetab should be * updated with the NFS specific entry. */ if (export.ex_flags & EX_LOG) { /* enable logging */ if (nfslogtab_add(path, export.ex_log_buffer, export.ex_tag) != 0) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "Could not enable logging for %s\n"), path); } _check_services(service_list_logging); } else { /* * don't have logging so remove it from file. It might * not be thre, but that doesn't matter. */ (void) nfslogtab_deactivate(path); _check_services(service_list_default); } } out: if (path != NULL) free(path); cleanup_export(&export); if (opt != NULL) sa_free_derived_optionset(opt); if (secoptlist != NULL) (void) sa_destroy_optionset(secoptlist); return (err); } /* * nfs_disable_share(share, path) * * Unshare the specified share. Note that "path" is the same path as * what is in the "share" object. It is passed in to avoid an * additional lookup. A missing "path" value makes this a no-op * function. */ static int nfs_disable_share(sa_share_t share, char *path) { int err; int ret = SA_OK; int iszfs; sa_group_t parent; sa_handle_t handle; if (path == NULL) return (ret); /* * If the share is in a ZFS group we need to handle it * differently. Just being on a ZFS file system isn't * enough since we may be in a legacy share case. */ parent = sa_get_parent_group(share); iszfs = sa_group_is_zfs(parent); if (iszfs) { struct exportfs_args ea; share_t sh = { 0 }; ea.dname = path; ea.uex = NULL; sh.sh_path = path; sh.sh_fstype = "nfs"; err = sa_share_zfs(share, NULL, path, &sh, &ea, ZFS_UNSHARE_NFS); if (err != SA_OK) { errno = err; err = -1; } } else { err = exportfs(path, NULL); } if (err < 0) { /* * TBD: only an error in some * cases - need better analysis */ switch (errno) { case EPERM: case EACCES: ret = SA_NO_PERMISSION; if (getzoneid() != GLOBAL_ZONEID) { ret = SA_NOT_SUPPORTED; } break; case EINVAL: case ENOENT: ret = SA_NO_SUCH_PATH; break; default: ret = SA_SYSTEM_ERR; break; } } if (ret == SA_OK || ret == SA_NO_SUCH_PATH) { handle = sa_find_group_handle((sa_group_t)share); if (!iszfs) (void) sa_delete_sharetab(handle, path, "nfs"); /* just in case it was logged */ (void) nfslogtab_deactivate(path); } return (ret); } /* * check_rorwnone(v1, v2, v3) * * check ro vs rw vs none values. Over time this may get beefed up. * for now it just does simple checks. v1 is never NULL but v2 or v3 * could be. */ static int check_rorwnone(char *v1, char *v2, char *v3) { int ret = SA_OK; if (v2 != NULL && strcmp(v1, v2) == 0) ret = SA_VALUE_CONFLICT; else if (v3 != NULL && strcmp(v1, v3) == 0) ret = SA_VALUE_CONFLICT; return (ret); } /* * nfs_validate_property(handle, property, parent) * * Check that the property has a legitimate value for its type. */ static int nfs_validate_property(sa_handle_t handle, sa_property_t property, sa_optionset_t parent) { int ret = SA_OK; char *propname; char *other1; char *other2; int optindex; nfsl_config_t *configlist; sa_group_t parent_group; char *value; propname = sa_get_property_attr(property, "type"); if ((optindex = findopt(propname)) < 0) ret = SA_NO_SUCH_PROP; /* need to validate value range here as well */ if (ret == SA_OK) { parent_group = sa_get_parent_group((sa_share_t)parent); if (optdefs[optindex].share && parent_group != NULL && !sa_is_share(parent_group)) ret = SA_PROP_SHARE_ONLY; } if (ret == SA_OK) { if (optdefs[optindex].index == OPT_PUBLIC) { /* * Public is special in that only one instance can * be in the repository at the same time. */ if (public_exists(handle, parent_group)) { sa_free_attr_string(propname); return (SA_VALUE_CONFLICT); } } value = sa_get_property_attr(property, "value"); if (value != NULL) { /* first basic type checking */ switch (optdefs[optindex].type) { case OPT_TYPE_NUMBER: /* check that the value is all digits */ if (!is_a_number(value)) ret = SA_BAD_VALUE; break; case OPT_TYPE_BOOLEAN: if (strlen(value) == 0 || strcasecmp(value, "true") == 0 || strcmp(value, "1") == 0 || strcasecmp(value, "false") == 0 || strcmp(value, "0") == 0) { ret = SA_OK; } else { ret = SA_BAD_VALUE; } break; case OPT_TYPE_USER: if (!is_a_number(value)) { struct passwd *pw; /* * in this case it would have to be a * user name */ pw = getpwnam(value); if (pw == NULL) ret = SA_BAD_VALUE; endpwent(); } else { uint64_t intval; intval = strtoull(value, NULL, 0); if (intval > UID_MAX && intval != ~0) ret = SA_BAD_VALUE; } break; case OPT_TYPE_FILE: if (strcmp(value, "..") == 0 || strchr(value, '/') != NULL) { ret = SA_BAD_VALUE; } break; case OPT_TYPE_ACCLIST: { sa_property_t oprop1; sa_property_t oprop2; char *ovalue1 = NULL; char *ovalue2 = NULL; if (parent == NULL) break; /* * access list handling. Should eventually * validate that all the values make sense. * Also, ro and rw may have cross value * conflicts. */ if (strcmp(propname, SHOPT_RO) == 0) { other1 = SHOPT_RW; other2 = SHOPT_NONE; } else if (strcmp(propname, SHOPT_RW) == 0) { other1 = SHOPT_RO; other2 = SHOPT_NONE; } else if (strcmp(propname, SHOPT_NONE) == 0) { other1 = SHOPT_RO; other2 = SHOPT_RW; } else { other1 = NULL; other2 = NULL; } if (other1 == NULL && other2 == NULL) break; /* compare rw(ro) with ro(rw) */ oprop1 = sa_get_property(parent, other1); oprop2 = sa_get_property(parent, other2); if (oprop1 == NULL && oprop2 == NULL) break; /* * Only potential confusion if other1 * or other2 exists. Check the values * and run the check if there is a * value other than the one we are * explicitly looking at. */ ovalue1 = sa_get_property_attr(oprop1, "value"); ovalue2 = sa_get_property_attr(oprop2, "value"); if (ovalue1 != NULL || ovalue2 != NULL) ret = check_rorwnone(value, ovalue1, ovalue2); if (ovalue1 != NULL) sa_free_attr_string(ovalue1); if (ovalue2 != NULL) sa_free_attr_string(ovalue2); break; } case OPT_TYPE_LOGTAG: if (nfsl_getconfig_list(&configlist) == 0) { int error; if (value == NULL || strlen(value) == 0) { if (value != NULL) sa_free_attr_string( value); value = strdup("global"); } if (value != NULL && nfsl_findconfig(configlist, value, &error) == NULL) { ret = SA_BAD_VALUE; } /* Must always free when done */ nfsl_freeconfig_list(&configlist); } else { ret = SA_CONFIG_ERR; } break; case OPT_TYPE_STRING: /* whatever is here should be ok */ break; case OPT_TYPE_SECURITY: /* * The "sec" property isn't used in the * non-legacy parts of sharemgr. We need to * reject it here. For legacy, it is pulled * out well before we get here. */ ret = SA_NO_SUCH_PROP; break; default: break; } if (value != NULL) sa_free_attr_string(value); if (ret == SA_OK && optdefs[optindex].check != NULL) { /* do the property specific check */ ret = optdefs[optindex].check(handle, property); } } } if (propname != NULL) sa_free_attr_string(propname); return (ret); } /* * Protocol management functions * * Properties defined in the default files are defined in * proto_option_defs for parsing and validation. If "other" and * "compare" are set, then the value for this property should be * compared against the property specified in "other" using the * "compare" check (either <= or >=) in order to ensure that the * values are in the correct range. E.g. setting server_versmin * higher than server_versmax should not be allowed. */ struct proto_option_defs { char *tag; char *name; /* display name -- remove protocol identifier */ int index; int type; union { int intval; char *string; } defvalue; uint32_t svcs; int32_t minval; int32_t maxval; char *file; char *other; int compare; #define OPT_CMP_GE 0 #define OPT_CMP_LE 1 int (*check)(char *); } proto_options[] = { #define PROTO_OPT_NFSD_SERVERS 0 {"nfsd_servers", "servers", PROTO_OPT_NFSD_SERVERS, OPT_TYPE_NUMBER, 16, SVC_NFSD, 1, INT32_MAX, NFSADMIN}, #define PROTO_OPT_LOCKD_LISTEN_BACKLOG 1 {"lockd_listen_backlog", "lockd_listen_backlog", PROTO_OPT_LOCKD_LISTEN_BACKLOG, OPT_TYPE_NUMBER, 32, SVC_LOCKD, 32, INT32_MAX, NFSADMIN}, #define PROTO_OPT_LOCKD_SERVERS 2 {"lockd_servers", "lockd_servers", PROTO_OPT_LOCKD_SERVERS, OPT_TYPE_NUMBER, 20, SVC_LOCKD, 1, INT32_MAX, NFSADMIN}, #define PROTO_OPT_LOCKD_RETRANSMIT_TIMEOUT 3 {"lockd_retransmit_timeout", "lockd_retransmit_timeout", PROTO_OPT_LOCKD_RETRANSMIT_TIMEOUT, OPT_TYPE_NUMBER, 5, SVC_LOCKD, 0, INT32_MAX, NFSADMIN}, #define PROTO_OPT_GRACE_PERIOD 4 {"grace_period", "grace_period", PROTO_OPT_GRACE_PERIOD, OPT_TYPE_NUMBER, 90, SVC_LOCKD, 0, INT32_MAX, NFSADMIN}, #define PROTO_OPT_NFS_SERVER_VERSMIN 5 {"nfs_server_versmin", "server_versmin", PROTO_OPT_NFS_SERVER_VERSMIN, OPT_TYPE_NUMBER, (int)NFS_VERSMIN_DEFAULT, SVC_NFSD|SVC_MOUNTD, NFS_VERSMIN, NFS_VERSMAX, NFSADMIN, "server_versmax", OPT_CMP_LE}, #define PROTO_OPT_NFS_SERVER_VERSMAX 6 {"nfs_server_versmax", "server_versmax", PROTO_OPT_NFS_SERVER_VERSMAX, OPT_TYPE_NUMBER, (int)NFS_VERSMAX_DEFAULT, SVC_NFSD|SVC_MOUNTD, NFS_VERSMIN, NFS_VERSMAX, NFSADMIN, "server_versmin", OPT_CMP_GE}, #define PROTO_OPT_NFS_CLIENT_VERSMIN 7 {"nfs_client_versmin", "client_versmin", PROTO_OPT_NFS_CLIENT_VERSMIN, OPT_TYPE_NUMBER, (int)NFS_VERSMIN_DEFAULT, NULL, NFS_VERSMIN, NFS_VERSMAX, NFSADMIN, "client_versmax", OPT_CMP_LE}, #define PROTO_OPT_NFS_CLIENT_VERSMAX 8 {"nfs_client_versmax", "client_versmax", PROTO_OPT_NFS_CLIENT_VERSMAX, OPT_TYPE_NUMBER, (int)NFS_VERSMAX_DEFAULT, NULL, NFS_VERSMIN, NFS_VERSMAX, NFSADMIN, "client_versmin", OPT_CMP_GE}, #define PROTO_OPT_NFS_SERVER_DELEGATION 9 {"nfs_server_delegation", "server_delegation", PROTO_OPT_NFS_SERVER_DELEGATION, OPT_TYPE_ONOFF, NFS_SERVER_DELEGATION_DEFAULT, SVC_NFSD, 0, 0, NFSADMIN}, #define PROTO_OPT_NFSMAPID_DOMAIN 10 {"nfsmapid_domain", "nfsmapid_domain", PROTO_OPT_NFSMAPID_DOMAIN, OPT_TYPE_DOMAIN, NULL, SVC_NFSMAPID, 0, 0, NFSADMIN}, #define PROTO_OPT_NFSD_MAX_CONNECTIONS 11 {"nfsd_max_connections", "max_connections", PROTO_OPT_NFSD_MAX_CONNECTIONS, OPT_TYPE_NUMBER, -1, SVC_NFSD, -1, INT32_MAX, NFSADMIN}, #define PROTO_OPT_NFSD_PROTOCOL 12 {"nfsd_protocol", "protocol", PROTO_OPT_NFSD_PROTOCOL, OPT_TYPE_PROTOCOL, 0, SVC_NFSD, 0, 0, NFSADMIN}, #define PROTO_OPT_NFSD_LISTEN_BACKLOG 13 {"nfsd_listen_backlog", "listen_backlog", PROTO_OPT_NFSD_LISTEN_BACKLOG, OPT_TYPE_NUMBER, 0, SVC_LOCKD, 0, INT32_MAX, NFSADMIN}, {NULL} }; /* * the protoset holds the defined options so we don't have to read * them multiple times */ static sa_protocol_properties_t protoset; static int findprotoopt(char *name, int whichname) { int i; for (i = 0; proto_options[i].tag != NULL; i++) { if (whichname == 1) { if (strcasecmp(proto_options[i].name, name) == 0) return (i); } else { if (strcasecmp(proto_options[i].tag, name) == 0) return (i); } } return (-1); } /* * fixcaselower(str) * * convert a string to lower case (inplace). */ static void fixcaselower(char *str) { while (*str) { *str = tolower(*str); str++; } } /* * fixcaseupper(str) * * convert a string to upper case (inplace). */ static void fixcaseupper(char *str) { while (*str) { *str = toupper(*str); str++; } } /* * skipwhitespace(str) * * Skip leading white space. It is assumed that it is called with a * valid pointer. */ static char * skipwhitespace(char *str) { while (*str && isspace(*str)) str++; return (str); } /* * extractprop() * * Extract the property and value out of the line and create the * property in the optionset. */ static int extractprop(char *name, char *value) { sa_property_t prop; int index; int ret = SA_OK; /* * Remove any leading * white space. */ name = skipwhitespace(name); index = findprotoopt(name, 0); if (index >= 0) { fixcaselower(name); prop = sa_create_property(proto_options[index].name, value); if (prop != NULL) ret = sa_add_protocol_property(protoset, prop); else ret = SA_NO_MEMORY; } return (ret); } /* * initprotofromdefault() * * Read the default file(s) and add the defined values to the * protoset. Note that default values are known from the built in * table in case the file doesn't have a definition. Not having the * /etc/default/nfs file is OK since we have builtin default * values. The default file will get constructed as needed if values * are changed from the defaults. */ static int initprotofromdefault() { FILE *nfs; char buff[BUFSIZ]; char *name; char *value; int ret = SA_OK; protoset = sa_create_protocol_properties("nfs"); if (protoset != NULL) { nfs = fopen(NFSADMIN, "r"); if (nfs != NULL) { while (ret == SA_OK && fgets(buff, sizeof (buff), nfs) != NULL) { switch (buff[0]) { case '\n': case '#': /* skip */ break; default: name = buff; buff[strlen(buff) - 1] = '\0'; value = strchr(name, '='); if (value != NULL) { *value++ = '\0'; ret = extractprop(name, value); } } } (void) fclose(nfs); } else { switch (errno) { case EPERM: case EACCES: ret = SA_NO_PERMISSION; break; case ENOENT: break; default: ret = SA_SYSTEM_ERR; break; } } } else { ret = SA_NO_MEMORY; } return (ret); } /* * add_defaults() * * Add the default values for any property not defined in the parsing * of the default files. Values are set according to their defined * types. */ static void add_defaults() { int i; char number[MAXDIGITS]; for (i = 0; proto_options[i].tag != NULL; i++) { sa_property_t prop; prop = sa_get_protocol_property(protoset, proto_options[i].name); if (prop == NULL) { /* add the default value */ switch (proto_options[i].type) { case OPT_TYPE_NUMBER: (void) snprintf(number, sizeof (number), "%d", proto_options[i].defvalue.intval); prop = sa_create_property(proto_options[i].name, number); break; case OPT_TYPE_BOOLEAN: prop = sa_create_property(proto_options[i].name, proto_options[i].defvalue.intval ? "true" : "false"); break; case OPT_TYPE_ONOFF: prop = sa_create_property(proto_options[i].name, proto_options[i].defvalue.intval ? "on" : "off"); break; default: /* treat as strings of zero length */ prop = sa_create_property(proto_options[i].name, ""); break; } if (prop != NULL) (void) sa_add_protocol_property(protoset, prop); } } } static void free_protoprops() { if (protoset != NULL) { xmlFreeNode(protoset); protoset = NULL; } } /* * nfs_init() * * Initialize the NFS plugin. */ static int nfs_init() { int ret = SA_OK; if (sa_plugin_ops.sa_init != nfs_init) { (void) printf(dgettext(TEXT_DOMAIN, "NFS plugin not properly initialized\n")); return (SA_CONFIG_ERR); } ret = initprotofromdefault(); if (ret != SA_OK) { (void) printf(dgettext(TEXT_DOMAIN, "NFS plugin problem with default file: %s\n"), sa_errorstr(ret)); ret = SA_OK; } add_defaults(); return (ret); } /* * nfs_fini() * * uninitialize the NFS plugin. Want to avoid memory leaks. */ static void nfs_fini() { free_protoprops(); } /* * nfs_get_proto_set() * * Return an optionset with all the protocol specific properties in * it. */ static sa_protocol_properties_t nfs_get_proto_set() { return (protoset); } struct deffile { struct deffile *next; char *line; }; /* * read_default_file(fname) * * Read the specified default file. We return a list of entries. This * get used for adding or removing values. */ static struct deffile * read_default_file(char *fname) { FILE *file; struct deffile *defs = NULL; struct deffile *newdef; struct deffile *prevdef = NULL; char buff[BUFSIZ * 2]; file = fopen(fname, "r"); if (file != NULL) { while (fgets(buff, sizeof (buff), file) != NULL) { newdef = (struct deffile *)calloc(1, sizeof (struct deffile)); if (newdef != NULL) { /* Make sure we skip any leading whitespace. */ newdef->line = strdup(skipwhitespace(buff)); if (defs == NULL) { prevdef = defs = newdef; } else { prevdef->next = newdef; prevdef = newdef; } } } (void) fclose(file); } else { int ret = SA_OK; switch (errno) { case EPERM: case EACCES: ret = SA_NO_PERMISSION; break; case ENOENT: break; default: ret = SA_SYSTEM_ERR; break; } if (ret == SA_OK) { /* Want at least one comment line */ defs = (struct deffile *) calloc(1, sizeof (struct deffile)); defs->line = strdup("# NFS default file\n"); } } return (defs); } static void free_default_file(struct deffile *defs) { struct deffile *curdefs = NULL; while (defs != NULL) { curdefs = defs; defs = defs->next; if (curdefs->line != NULL) free(curdefs->line); free(curdefs); } } /* * write_default_file(fname, defs) * * Write the default file back. */ static int write_default_file(char *fname, struct deffile *defs) { FILE *file; int ret = SA_OK; sigset_t old, new; file = fopen(fname, "w+"); if (file != NULL) { (void) sigprocmask(SIG_BLOCK, NULL, &new); (void) sigaddset(&new, SIGHUP); (void) sigaddset(&new, SIGINT); (void) sigaddset(&new, SIGQUIT); (void) sigaddset(&new, SIGTSTP); (void) sigprocmask(SIG_SETMASK, &new, &old); while (defs != NULL) { (void) fputs(defs->line, file); defs = defs->next; } (void) fsync(fileno(file)); (void) sigprocmask(SIG_SETMASK, &old, NULL); (void) fclose(file); } else { switch (errno) { case EPERM: case EACCES: ret = SA_NO_PERMISSION; break; default: ret = SA_SYSTEM_ERR; } } return (ret); } /* * set_default_file_value(tag, value) * * Set the default file value for tag to value. Then rewrite the file. * tag and value are always set. The caller must ensure this. */ #define MAX_STRING_LENGTH 256 static int set_default_file_value(char *tag, char *value) { int ret = SA_OK; struct deffile *root; struct deffile *defs; struct deffile *prev; char string[MAX_STRING_LENGTH]; int len; boolean_t update = B_FALSE; (void) snprintf(string, MAX_STRING_LENGTH, "%s=", tag); len = strlen(string); root = defs = read_default_file(NFSADMIN); if (root == NULL) { switch (errno) { case EPERM: case EACCES: ret = SA_NO_PERMISSION; break; default: ret = SA_NO_MEMORY; break; } return (ret); } while (defs != NULL) { if (defs->line != NULL && strncasecmp(defs->line, string, len) == 0) { /* replace with the new value */ free(defs->line); fixcaseupper(tag); (void) snprintf(string, sizeof (string), "%s=%s\n", tag, value); string[MAX_STRING_LENGTH - 1] = '\0'; defs->line = strdup(string); update = B_TRUE; break; } defs = defs->next; } if (!update) { defs = root; /* didn't find, so see if it is a comment */ (void) snprintf(string, MAX_STRING_LENGTH, "#%s=", tag); len = strlen(string); while (defs != NULL) { if (strncasecmp(defs->line, string, len) == 0) { /* replace with the new value */ free(defs->line); fixcaseupper(tag); (void) snprintf(string, sizeof (string), "%s=%s\n", tag, value); string[MAX_STRING_LENGTH - 1] = '\0'; defs->line = strdup(string); update = B_TRUE; break; } defs = defs->next; } } if (!update) { fixcaseupper(tag); (void) snprintf(string, sizeof (string), "%s=%s\n", tag, value); prev = root; while (prev->next != NULL) prev = prev->next; defs = malloc(sizeof (struct deffile)); prev->next = defs; if (defs != NULL) { defs->next = NULL; defs->line = strdup(string); update = B_TRUE; } } if (update) { ret = write_default_file(NFSADMIN, root); } free_default_file(root); return (ret); } /* * service_in_state(service, chkstate) * * Want to know if the specified service is in the desired state * (chkstate) or not. Return true (1) if it is and false (0) if it * isn't. */ static int service_in_state(char *service, const char *chkstate) { char *state; int ret = B_FALSE; state = smf_get_state(service); if (state != NULL) { /* got the state so get the equality for the return value */ ret = strcmp(state, chkstate) == 0 ? B_TRUE : B_FALSE; free(state); } return (ret); } /* * restart_service(svcs) * * Walk through the bit mask of services that need to be restarted in * order to use the new property values. Some properties affect * multiple daemons. Should only restart a service if it is currently * enabled (online). */ static void restart_service(uint32_t svcs) { uint32_t mask; int ret; char *service; for (mask = 1; svcs != 0; mask <<= 1) { switch (svcs & mask) { case SVC_LOCKD: service = LOCKD; break; case SVC_STATD: service = STATD; break; case SVC_NFSD: service = NFSD; break; case SVC_MOUNTD: service = MOUNTD; break; case SVC_NFS4CBD: service = NFS4CBD; break; case SVC_NFSMAPID: service = NFSMAPID; break; case SVC_RQUOTAD: service = RQUOTAD; break; case SVC_NFSLOGD: service = NFSLOGD; break; case SVC_REPARSED: service = REPARSED; break; default: continue; } /* * Only attempt to restart the service if it is * currently running. In the future, it may be * desirable to use smf_refresh_instance if the NFS * services ever implement the refresh method. */ if (service_in_state(service, SCF_STATE_STRING_ONLINE)) { ret = smf_restart_instance(service); /* * There are only a few SMF errors at this point, but * it is also possible that a bad value may have put * the service into maintenance if there wasn't an * SMF level error. */ if (ret != 0) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "%s failed to restart: %s\n"), scf_strerror(scf_error())); } else { /* * Check whether it has gone to "maintenance" * mode or not. Maintenance implies something * went wrong. */ if (service_in_state(service, SCF_STATE_STRING_MAINT)) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "%s failed to restart\n"), service); } } } svcs &= ~mask; } } /* * nfs_minmax_check(name, value) * * Verify that the value for the property specified by index is valid * relative to the opposite value in the case of a min/max variable. * Currently, server_minvers/server_maxvers and * client_minvers/client_maxvers are the only ones to check. */ static int nfs_minmax_check(int index, int value) { int val; char *pval; sa_property_t prop; sa_optionset_t opts; int ret = B_TRUE; if (proto_options[index].other != NULL) { /* have a property to compare against */ opts = nfs_get_proto_set(); prop = sa_get_property(opts, proto_options[index].other); /* * If we don't find the property, assume default * values which will work since the max will be at the * max and the min at the min. */ if (prop != NULL) { pval = sa_get_property_attr(prop, "value"); if (pval != NULL) { val = strtoul(pval, NULL, 0); if (proto_options[index].compare == OPT_CMP_LE) { ret = value <= val ? B_TRUE : B_FALSE; } else if (proto_options[index].compare == OPT_CMP_GE) { ret = value >= val ? B_TRUE : B_FALSE; } } } } return (ret); } /* * nfs_validate_proto_prop(index, name, value) * * Verify that the property specified by name can take the new * value. This is a sanity check to prevent bad values getting into * the default files. All values need to be checked against what is * allowed by their defined type. If a type isn't explicitly defined * here, it is treated as a string. * * Note that OPT_TYPE_NUMBER will additionally check that the value is * within the range specified and potentially against another property * value as well as specified in the proto_options members other and * compare. */ static int nfs_validate_proto_prop(int index, char *name, char *value) { int ret = SA_OK; char *cp; #ifdef lint name = name; #endif switch (proto_options[index].type) { case OPT_TYPE_NUMBER: if (!is_a_number(value)) ret = SA_BAD_VALUE; else { int val; val = strtoul(value, NULL, 0); if (val < proto_options[index].minval || val > proto_options[index].maxval) ret = SA_BAD_VALUE; /* * For server_versmin/server_versmax and * client_versmin/client_versmax, the value of the * min(max) should be checked to be correct relative * to the current max(min). */ if (!nfs_minmax_check(index, val)) { ret = SA_BAD_VALUE; } } break; case OPT_TYPE_DOMAIN: /* * needs to be a qualified domain so will have at * least one period and other characters on either * side of it. A zero length string is also allowed * and is the way to turn off the override. */ if (strlen(value) == 0) break; cp = strchr(value, '.'); if (cp == NULL || cp == value || strchr(value, '@') != NULL) ret = SA_BAD_VALUE; break; case OPT_TYPE_BOOLEAN: if (strlen(value) == 0 || strcasecmp(value, "true") == 0 || strcmp(value, "1") == 0 || strcasecmp(value, "false") == 0 || strcmp(value, "0") == 0) { ret = SA_OK; } else { ret = SA_BAD_VALUE; } break; case OPT_TYPE_ONOFF: if (strcasecmp(value, "on") != 0 && strcasecmp(value, "off") != 0) { ret = SA_BAD_VALUE; } break; case OPT_TYPE_PROTOCOL: if (strlen(value) != 0 && strcasecmp(value, "all") != 0 && strcasecmp(value, "tcp") != 0 && strcasecmp(value, "udp") != 0) ret = SA_BAD_VALUE; break; default: /* treat as a string */ break; } return (ret); } /* * nfs_set_proto_prop(prop) * * check that prop is valid. */ static int nfs_set_proto_prop(sa_property_t prop) { int ret = SA_OK; char *name; char *value; name = sa_get_property_attr(prop, "type"); value = sa_get_property_attr(prop, "value"); if (name != NULL && value != NULL) { int index = findprotoopt(name, 1); if (index >= 0) { /* should test for valid value */ ret = nfs_validate_proto_prop(index, name, value); if (ret == SA_OK) ret = set_default_file_value( proto_options[index].tag, value); if (ret == SA_OK) restart_service(proto_options[index].svcs); } } if (name != NULL) sa_free_attr_string(name); if (value != NULL) sa_free_attr_string(value); return (ret); } /* * nfs_get_status() * * What is the current status of the nfsd? We use the SMF state here. * Caller must free the returned value. */ static char * nfs_get_status() { char *state; state = smf_get_state(NFSD); return (state != NULL ? state : strdup("-")); } /* * nfs_space_alias(alias) * * Lookup the space (security) name. If it is default, convert to the * real name. */ static char * nfs_space_alias(char *space) { char *name = space; seconfig_t secconf; /* * Only the space named "default" is special. If it is used, * the default needs to be looked up and the real name used. * This is normally "sys" but could be changed. We always * change defautl to the real name. */ if (strcmp(space, "default") == 0 && nfs_getseconfig_default(&secconf) == 0) { if (nfs_getseconfig_bynumber(secconf.sc_nfsnum, &secconf) == 0) name = secconf.sc_name; } return (strdup(name)); } /* * nfs_features() * * Return a mask of the features required. */ static uint64_t nfs_features() { return ((uint64_t)SA_FEATURE_DFSTAB | SA_FEATURE_SERVER); }