/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2006, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2018 Nexenta Systems, Inc. All rights reserved. * Copyright (c) 2016 by Delphix. All rights reserved. */ /* * Share control API */ #include #include #include #include #include #include #include #include #include #include "libshare.h" #include "libshare_impl.h" #include #include "scfutil.h" #include #include #include #include #include #define DFS_LOCK_FILE "/etc/dfs/fstypes" #define SA_STRSIZE 256 /* max string size for names */ /* * internal object type values returned by sa_get_object_type() */ #define SA_TYPE_UNKNOWN 0 #define SA_TYPE_GROUP 1 #define SA_TYPE_SHARE 2 #define SA_TYPE_RESOURCE 3 #define SA_TYPE_OPTIONSET 4 #define SA_TYPE_ALTSPACE 5 /* * internal data structures */ extern struct sa_proto_plugin *sap_proto_list; /* current SMF/SVC repository handle */ extern void getlegacyconfig(sa_handle_t, char *, xmlNodePtr *); extern int gettransients(sa_handle_impl_t, xmlNodePtr *); extern int get_one_transient(sa_handle_impl_t, xmlNodePtr *, char **, size_t); extern char *sa_fstype(char *); extern int sa_is_share(void *); extern int sa_is_resource(void *); extern ssize_t scf_max_name_len; /* defined in scfutil during initialization */ extern int sa_group_is_zfs(sa_group_t); extern int sa_path_is_zfs(char *); extern int sa_zfs_set_sharenfs(sa_group_t, char *, int); extern int sa_zfs_set_sharesmb(sa_group_t, char *, int); extern void update_legacy_config(sa_handle_t); extern int issubdir(char *, char *); extern int sa_zfs_init(sa_handle_impl_t); extern void sa_zfs_fini(sa_handle_impl_t); extern void sablocksigs(sigset_t *); extern void saunblocksigs(sigset_t *); static sa_group_t sa_get_optionset_parent(sa_optionset_t); static char *get_node_attr(void *, char *); extern void sa_update_sharetab_ts(sa_handle_t); /* * Data structures for finding/managing the document root to access * handle mapping. The list isn't expected to grow very large so a * simple list is acceptable. The purpose is to provide a way to start * with a group or share and find the library handle needed for * various operations. */ mutex_t sa_global_lock; struct doc2handle { struct doc2handle *next; xmlNodePtr root; sa_handle_impl_t handle; }; mutex_t sa_dfstab_lock; /* definitions used in a couple of property functions */ #define SA_PROP_OP_REMOVE 1 #define SA_PROP_OP_ADD 2 #define SA_PROP_OP_UPDATE 3 static struct doc2handle *sa_global_handles = NULL; /* helper functions */ /* * sa_errorstr(err) * * convert an error value to an error string */ char * sa_errorstr(int err) { static char errstr[32]; char *ret = NULL; switch (err) { case SA_OK: ret = dgettext(TEXT_DOMAIN, "ok"); break; case SA_NO_SUCH_PATH: ret = dgettext(TEXT_DOMAIN, "path doesn't exist"); break; case SA_NO_MEMORY: ret = dgettext(TEXT_DOMAIN, "no memory"); break; case SA_DUPLICATE_NAME: ret = dgettext(TEXT_DOMAIN, "name in use"); break; case SA_BAD_PATH: ret = dgettext(TEXT_DOMAIN, "bad path"); break; case SA_NO_SUCH_GROUP: ret = dgettext(TEXT_DOMAIN, "no such group"); break; case SA_CONFIG_ERR: ret = dgettext(TEXT_DOMAIN, "configuration error"); break; case SA_SYSTEM_ERR: ret = dgettext(TEXT_DOMAIN, "system error"); break; case SA_SYNTAX_ERR: ret = dgettext(TEXT_DOMAIN, "syntax error"); break; case SA_NO_PERMISSION: ret = dgettext(TEXT_DOMAIN, "no permission"); break; case SA_BUSY: ret = dgettext(TEXT_DOMAIN, "busy"); break; case SA_NO_SUCH_PROP: ret = dgettext(TEXT_DOMAIN, "no such property"); break; case SA_INVALID_NAME: ret = dgettext(TEXT_DOMAIN, "invalid name"); break; case SA_INVALID_PROTOCOL: ret = dgettext(TEXT_DOMAIN, "invalid protocol"); break; case SA_NOT_ALLOWED: ret = dgettext(TEXT_DOMAIN, "operation not allowed"); break; case SA_BAD_VALUE: ret = dgettext(TEXT_DOMAIN, "bad property value"); break; case SA_INVALID_SECURITY: ret = dgettext(TEXT_DOMAIN, "invalid security type"); break; case SA_NO_SUCH_SECURITY: ret = dgettext(TEXT_DOMAIN, "security type not found"); break; case SA_VALUE_CONFLICT: ret = dgettext(TEXT_DOMAIN, "property value conflict"); break; case SA_NOT_IMPLEMENTED: ret = dgettext(TEXT_DOMAIN, "not implemented"); break; case SA_INVALID_PATH: ret = dgettext(TEXT_DOMAIN, "invalid path"); break; case SA_NOT_SUPPORTED: ret = dgettext(TEXT_DOMAIN, "operation not supported"); break; case SA_PROP_SHARE_ONLY: ret = dgettext(TEXT_DOMAIN, "property not valid for group"); break; case SA_NOT_SHARED: ret = dgettext(TEXT_DOMAIN, "not shared"); break; case SA_NO_SUCH_RESOURCE: ret = dgettext(TEXT_DOMAIN, "no such resource"); break; case SA_RESOURCE_REQUIRED: ret = dgettext(TEXT_DOMAIN, "resource name required"); break; case SA_MULTIPLE_ERROR: ret = dgettext(TEXT_DOMAIN, "errors from multiple protocols"); break; case SA_PATH_IS_SUBDIR: ret = dgettext(TEXT_DOMAIN, "path is a subpath of share"); break; case SA_PATH_IS_PARENTDIR: ret = dgettext(TEXT_DOMAIN, "path is parent of a share"); break; case SA_NO_SECTION: ret = dgettext(TEXT_DOMAIN, "protocol requires a section"); break; case SA_NO_PROPERTIES: ret = dgettext(TEXT_DOMAIN, "properties not found"); break; case SA_NO_SUCH_SECTION: ret = dgettext(TEXT_DOMAIN, "section not found"); break; case SA_PASSWORD_ENC: ret = dgettext(TEXT_DOMAIN, "passwords must be encrypted"); break; case SA_SHARE_EXISTS: ret = dgettext(TEXT_DOMAIN, "path or file is already shared"); break; default: (void) snprintf(errstr, sizeof (errstr), dgettext(TEXT_DOMAIN, "unknown %d"), err); ret = errstr; } return (ret); } /* * Document root to active handle mapping functions. These are only * used internally. A mutex is used to prevent access while the list * is changing. In general, the list will be relatively short - one * item per thread that has called sa_init(). */ sa_handle_impl_t get_handle_for_root(xmlNodePtr root) { struct doc2handle *item; (void) mutex_lock(&sa_global_lock); for (item = sa_global_handles; item != NULL; item = item->next) { if (item->root == root) break; } (void) mutex_unlock(&sa_global_lock); if (item != NULL) return (item->handle); return (NULL); } static int add_handle_for_root(xmlNodePtr root, sa_handle_impl_t handle) { struct doc2handle *item; int ret = SA_NO_MEMORY; item = calloc(1, sizeof (struct doc2handle)); if (item != NULL) { item->root = root; item->handle = handle; (void) mutex_lock(&sa_global_lock); item->next = sa_global_handles; sa_global_handles = item; (void) mutex_unlock(&sa_global_lock); ret = SA_OK; } return (ret); } /* * remove_handle_for_root(root) * * Walks the list of handles and removes the one for this "root" from * the list. It is up to the caller to free the data. */ static void remove_handle_for_root(xmlNodePtr root) { struct doc2handle *item, *prev; (void) mutex_lock(&sa_global_lock); for (prev = NULL, item = sa_global_handles; item != NULL; item = item->next) { if (item->root == root) { /* first in the list */ if (prev == NULL) sa_global_handles = sa_global_handles->next; else prev->next = item->next; /* Item is out of the list so free the list structure */ free(item); break; } prev = item; } (void) mutex_unlock(&sa_global_lock); } /* * sa_find_group_handle(sa_group_t group) * * Find the sa_handle_t for the configuration associated with this * group. */ sa_handle_t sa_find_group_handle(sa_group_t group) { xmlNodePtr node = (xmlNodePtr)group; sa_handle_t handle; while (node != NULL) { if (strcmp((char *)(node->name), "sharecfg") == 0) { /* have the root so get the handle */ handle = (sa_handle_t)get_handle_for_root(node); return (handle); } node = node->parent; } return (NULL); } /* * set_legacy_timestamp(root, path, timevalue) * * add the current timestamp value to the configuration for use in * determining when to update the legacy files. For SMF, this * property is kept in default/operation/legacy_timestamp */ static void set_legacy_timestamp(xmlNodePtr root, char *path, uint64_t tval) { xmlNodePtr node; xmlChar *lpath = NULL; sa_handle_impl_t handle; /* Have to have a handle or else we weren't initialized. */ handle = get_handle_for_root(root); if (handle == NULL) return; for (node = root->xmlChildrenNode; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"legacy") == 0) { /* a possible legacy node for this path */ lpath = xmlGetProp(node, (xmlChar *)"path"); if (lpath != NULL && xmlStrcmp(lpath, (xmlChar *)path) == 0) { xmlFree(lpath); break; } if (lpath != NULL) xmlFree(lpath); } } if (node == NULL) { /* need to create the first legacy timestamp node */ node = xmlNewChild(root, NULL, (xmlChar *)"legacy", NULL); } if (node != NULL) { char tstring[32]; int ret; (void) snprintf(tstring, sizeof (tstring), "%lld", tval); (void) xmlSetProp(node, (xmlChar *)"timestamp", (xmlChar *)tstring); (void) xmlSetProp(node, (xmlChar *)"path", (xmlChar *)path); /* now commit to SMF */ ret = sa_get_instance(handle->scfhandle, "default"); if (ret == SA_OK) { ret = sa_start_transaction(handle->scfhandle, "operation"); if (ret == SA_OK) { ret = sa_set_property(handle->scfhandle, "legacy-timestamp", tstring); if (ret == SA_OK) { (void) sa_end_transaction( handle->scfhandle, handle); } else { sa_abort_transaction(handle->scfhandle); } } } } } /* * is_shared(share) * * determine if the specified share is currently shared or not. */ static int is_shared(sa_share_t share) { char *shared; int result = 0; /* assume not */ shared = sa_get_share_attr(share, "shared"); if (shared != NULL) { if (strcmp(shared, "true") == 0) result = 1; sa_free_attr_string(shared); } return (result); } /* * excluded_protocol(share, proto) * * Returns B_TRUE if the specified protocol appears in the "exclude" * property. This is used to prevent sharing special case shares * (e.g. subdirs when SMB wants a subdir and NFS doesn't. B_FALSE is * returned if the protocol isn't in the list. */ static boolean_t excluded_protocol(sa_share_t share, char *proto) { char *protolist; char *str; char *token; protolist = sa_get_share_attr(share, "exclude"); if (protolist != NULL) { str = protolist; while ((token = strtok(str, ",")) != NULL) { if (strcmp(token, proto) == 0) { sa_free_attr_string(protolist); return (B_TRUE); } str = NULL; } sa_free_attr_string(protolist); } return (B_FALSE); } /* * checksubdirgroup(group, newpath, strictness) * * check all the specified newpath against all the paths in the * group. This is a helper function for checksubdir to make it easier * to also check ZFS subgroups. * The strictness values mean: * SA_CHECK_NORMAL == only check newpath against shares that are active * SA_CHECK_STRICT == check newpath against both active shares and those * stored in the repository */ static int checksubdirgroup(sa_group_t group, char *newpath, int strictness) { sa_share_t share; char *path; int issub = SA_OK; int subdir; int parent; if (newpath == NULL) return (SA_INVALID_PATH); for (share = sa_get_share(group, NULL); share != NULL; share = sa_get_next_share(share)) { /* * The original behavior of share never checked * against the permanent configuration * (/etc/dfs/dfstab). PIT has a number of cases where * it depends on this older behavior even though it * could be considered incorrect. We may tighten this * up in the future. */ if (strictness == SA_CHECK_NORMAL && !is_shared(share)) continue; path = sa_get_share_attr(share, "path"); /* * If path is NULL, then a share is in the process of * construction or someone has modified the property * group inappropriately. It should be * ignored. issubdir() comes from the original share * implementation and does the difficult part of * checking subdirectories. */ if (path == NULL) continue; if (strcmp(path, newpath) == 0) { issub = SA_INVALID_PATH; } else { subdir = issubdir(newpath, path); parent = issubdir(path, newpath); if (subdir || parent) { sa_free_attr_string(path); path = NULL; return (subdir ? SA_PATH_IS_SUBDIR : SA_PATH_IS_PARENTDIR); } } sa_free_attr_string(path); path = NULL; } return (issub); } /* * checksubdir(newpath, strictness) * * checksubdir determines if the specified path (newpath) is a * subdirectory of another share. It calls checksubdirgroup() to do * the complicated work. The strictness parameter determines how * strict a check to make against the path. The strictness values * mean: SA_CHECK_NORMAL == only check newpath against shares that are * active SA_CHECK_STRICT == check newpath against both active shares * and those * stored in the repository */ static int checksubdir(sa_handle_t handle, char *newpath, int strictness) { sa_group_t group; int issub = SA_OK; char *path = NULL; for (group = sa_get_group(handle, NULL); group != NULL && issub == SA_OK; group = sa_get_next_group(group)) { if (sa_group_is_zfs(group)) { sa_group_t subgroup; for (subgroup = sa_get_sub_group(group); subgroup != NULL && issub == SA_OK; subgroup = sa_get_next_group(subgroup)) issub = checksubdirgroup(subgroup, newpath, strictness); } else { issub = checksubdirgroup(group, newpath, strictness); } } if (path != NULL) sa_free_attr_string(path); return (issub); } /* * validpath(path, strictness) * determine if the provided path is valid for a share. It shouldn't * be a sub-dir of an already shared path or the parent directory of a * share path. */ static int validpath(sa_handle_t handle, char *path, int strictness) { int error = SA_OK; struct stat st; sa_share_t share; char *fstype; if (*path != '/') return (SA_BAD_PATH); if (stat(path, &st) < 0) { error = SA_NO_SUCH_PATH; } else { share = sa_find_share(handle, path); if (share != NULL) error = SA_DUPLICATE_NAME; if (error == SA_OK) { /* * check for special case with file system * that might have restrictions. For now, ZFS * is the only case since it has its own idea * of how to configure shares. We do this * before subdir checking since things like * ZFS will do that for us. This should also * be done via plugin interface. */ fstype = sa_fstype(path); if (fstype != NULL && strcmp(fstype, "zfs") == 0) { if (sa_zfs_is_shared(handle, path)) error = SA_INVALID_NAME; } if (fstype != NULL) sa_free_fstype(fstype); } if (error == SA_OK) error = checksubdir(handle, path, strictness); } return (error); } /* * check to see if group/share is persistent. * * "group" can be either an sa_group_t or an sa_share_t. (void *) * works since both these types are also void *. * If the share is a ZFS share, mark it as persistent. */ int sa_is_persistent(void *group) { char *type; int persist = 1; sa_group_t grp; type = sa_get_group_attr((sa_group_t)group, "type"); if (type != NULL) { if (strcmp(type, "transient") == 0) persist = 0; sa_free_attr_string(type); } grp = (sa_is_share(group)) ? sa_get_parent_group(group) : group; if (sa_group_is_zfs(grp)) persist = 1; return (persist); } /* * sa_valid_group_name(name) * * check that the "name" contains only valid characters and otherwise * fits the required naming conventions. Valid names must start with * an alphabetic and the remainder may consist of only alphanumeric * plus the '-' and '_' characters. This name limitation comes from * inherent limitations in SMF. */ int sa_valid_group_name(char *name) { int ret = 1; ssize_t len; if (name != NULL && isalpha(*name)) { char c; len = strlen(name); if (len < (scf_max_name_len - sizeof ("group:"))) { for (c = *name++; c != '\0' && ret != 0; c = *name++) { if (!isalnum(c) && c != '-' && c != '_') ret = 0; } } else { ret = 0; } } else { ret = 0; } return (ret); } /* * is_zfs_group(group) * Determine if the specified group is a ZFS sharenfs group */ static int is_zfs_group(sa_group_t group) { int ret = 0; xmlNodePtr parent; xmlChar *zfs; if (strcmp((char *)((xmlNodePtr)group)->name, "share") == 0) parent = (xmlNodePtr)sa_get_parent_group(group); else parent = (xmlNodePtr)group; zfs = xmlGetProp(parent, (xmlChar *)"zfs"); if (zfs != NULL) { xmlFree(zfs); ret = 1; } return (ret); } /* * sa_get_object_type(object) * * This function returns a numeric value representing the object * type. This allows using simpler checks when doing type specific * operations. */ static int sa_get_object_type(void *object) { xmlNodePtr node = (xmlNodePtr)object; int type; if (xmlStrcmp(node->name, (xmlChar *)"group") == 0) type = SA_TYPE_GROUP; else if (xmlStrcmp(node->name, (xmlChar *)"share") == 0) type = SA_TYPE_SHARE; else if (xmlStrcmp(node->name, (xmlChar *)"resource") == 0) type = SA_TYPE_RESOURCE; else if (xmlStrcmp(node->name, (xmlChar *)"optionset") == 0) type = SA_TYPE_OPTIONSET; else if (xmlStrcmp(node->name, (xmlChar *)"security") == 0) type = SA_TYPE_ALTSPACE; else assert(0); return (type); } /* * sa_optionset_name(optionset, oname, len, id) * return the SMF name for the optionset. If id is not NULL, it * will have the GUID value for a share and should be used * instead of the keyword "optionset" which is used for * groups. If the optionset doesn't have a protocol type * associated with it, "default" is used. This shouldn't happen * at this point but may be desirable in the future if there are * protocol independent properties added. The name is returned in * oname. */ static int sa_optionset_name(sa_optionset_t optionset, char *oname, size_t len, char *id) { char *proto; void *parent; int ptype; if (id == NULL) id = "optionset"; parent = sa_get_optionset_parent(optionset); if (parent != NULL) { ptype = sa_get_object_type(parent); proto = sa_get_optionset_attr(optionset, "type"); if (ptype != SA_TYPE_RESOURCE) { len = snprintf(oname, len, "%s_%s", id, proto ? proto : "default"); } else { char *index; index = get_node_attr((void *)parent, "id"); if (index != NULL) { len = snprintf(oname, len, "%s_%s_%s", id, proto ? proto : "default", index); sa_free_attr_string(index); } else { len = 0; } } if (proto != NULL) sa_free_attr_string(proto); } else { len = 0; } return (len); } /* * sa_security_name(optionset, oname, len, id) * * return the SMF name for the security. If id is not NULL, it will * have the GUID value for a share and should be used instead of the * keyword "optionset" which is used for groups. If the optionset * doesn't have a protocol type associated with it, "default" is * used. This shouldn't happen at this point but may be desirable in * the future if there are protocol independent properties added. The * name is returned in oname. The security type is also encoded into * the name. In the future, this wil *be handled a bit differently. */ static int sa_security_name(sa_security_t security, char *oname, size_t len, char *id) { char *proto; char *sectype; if (id == NULL) id = "optionset"; proto = sa_get_security_attr(security, "type"); sectype = sa_get_security_attr(security, "sectype"); len = snprintf(oname, len, "%s_%s_%s", id, proto ? proto : "default", sectype ? sectype : "default"); if (proto != NULL) sa_free_attr_string(proto); if (sectype != NULL) sa_free_attr_string(sectype); return (len); } /* * verifydefgroupopts(handle) * * Make sure a "default" group exists and has default protocols enabled. */ static void verifydefgroupopts(sa_handle_t handle) { sa_group_t defgrp; sa_optionset_t opt; defgrp = sa_get_group(handle, "default"); if (defgrp != NULL) { opt = sa_get_optionset(defgrp, NULL); /* * NFS is the default for default group */ if (opt == NULL) opt = sa_create_optionset(defgrp, "nfs"); } } /* * sa_init_impl(init_service, arg) * Initialize the API * find all the shared objects * init the tables with all objects * read in the current configuration * * arg is a parameter passed in whose meaning is based on the init_service. * See libshare.h under API initialization. */ #define GETPROP(prop) scf_simple_prop_next_astring(prop) #define CHECKTSTAMP(st, tval) stat(SA_LEGACY_DFSTAB, &st) >= 0 && \ tval != TSTAMP(st.st_ctim) static sa_handle_t sa_init_impl(int init_service, void *arg) { struct stat st; /* legacy is used for debugging only as far as I can tell */ int legacy = 0; uint64_t tval = 0; int lockfd; sigset_t old; int updatelegacy = B_FALSE; scf_simple_prop_t *prop; sa_handle_impl_t handle; int err; handle = calloc(1, sizeof (struct sa_handle_impl)); if (handle != NULL) { handle->sa_service = init_service; /* * Get protocol specific structures, but only if this * is the only handle. */ (void) mutex_lock(&sa_global_lock); if (sa_global_handles == NULL) (void) proto_plugin_init(); (void) mutex_unlock(&sa_global_lock); if (init_service & (SA_INIT_SHARE_API | SA_INIT_SHARE_API_SELECTIVE | SA_INIT_ONE_SHARE_FROM_NAME | SA_INIT_ONE_SHARE_FROM_HANDLE)) { /* * initialize access into libzfs. We use this * when collecting info about ZFS datasets and * shares. */ if (sa_zfs_init(handle) == B_FALSE) { free(handle); (void) mutex_lock(&sa_global_lock); (void) proto_plugin_fini(); (void) mutex_unlock(&sa_global_lock); return (NULL); } /* * since we want to use SMF, initialize an svc handle * and find out what is there. */ handle->scfhandle = sa_scf_init(handle); if (handle->scfhandle != NULL) { /* * Need to lock the extraction of the * configuration if the dfstab file has * changed. Lock everything now and release if * not needed. Use a file that isn't being * manipulated by other parts of the system in * order to not interfere with locking. Using * dfstab doesn't work. */ sablocksigs(&old); lockfd = open(DFS_LOCK_FILE, O_RDWR); if (lockfd >= 0) { errno = 0; (void) lockf(lockfd, F_LOCK, 0); (void) mutex_lock(&sa_dfstab_lock); /* * Check whether we are going to need * to merge any dfstab changes. This * is done by comparing the value of * legacy-timestamp with the current * st_ctim of the file. If they are * different, an update is needed and * the file must remain locked until * the merge is done in order to * prevent multiple startups from * changing the SMF repository at the * same time. The first to get the * lock will make any changes before * the others can read the repository. */ prop = scf_simple_prop_get (handle->scfhandle->handle, (const char *)SA_SVC_FMRI_BASE ":default", "operation", "legacy-timestamp"); if (prop != NULL) { char *i64; i64 = GETPROP(prop); if (i64 != NULL) tval = strtoull(i64, NULL, 0); if (CHECKTSTAMP(st, tval)) updatelegacy = B_TRUE; scf_simple_prop_free(prop); } else { /* * We haven't set the * timestamp before so do it. */ updatelegacy = B_TRUE; } if (updatelegacy == B_FALSE) { (void) mutex_unlock( &sa_dfstab_lock); (void) lockf(lockfd, F_ULOCK, 0); (void) close(lockfd); } } /* * It is essential that the document tree and * the internal list of roots to handles be * setup before anything that might try to * create a new object is called. The document * tree is the combination of handle->doc and * handle->tree. This allows searches, * etc. when all you have is an object in the * tree. */ handle->doc = xmlNewDoc((xmlChar *)"1.0"); handle->tree = xmlNewNode(NULL, (xmlChar *)"sharecfg"); if (handle->doc != NULL && handle->tree != NULL) { (void) xmlDocSetRootElement(handle->doc, handle->tree); err = add_handle_for_root(handle->tree, handle); if (err == SA_OK) err = sa_get_config( handle->scfhandle, handle->tree, handle); } else { if (handle->doc != NULL) xmlFreeDoc(handle->doc); if (handle->tree != NULL) xmlFreeNode(handle->tree); err = SA_NO_MEMORY; } saunblocksigs(&old); if (err != SA_OK) { /* * If we couldn't add the tree handle * to the list, then things are going * to fail badly. Might as well undo * everything now and fail the * sa_init(). */ sa_fini(handle); if (updatelegacy == B_TRUE) { (void) mutex_unlock( &sa_dfstab_lock); (void) lockf(lockfd, F_ULOCK, 0); (void) close(lockfd); } return (NULL); } if (tval == 0) { /* * first time so make sure * default is setup */ verifydefgroupopts(handle); } if (updatelegacy == B_TRUE) { sablocksigs(&old); getlegacyconfig((sa_handle_t)handle, SA_LEGACY_DFSTAB, &handle->tree); if (stat(SA_LEGACY_DFSTAB, &st) >= 0) set_legacy_timestamp( handle->tree, SA_LEGACY_DFSTAB, TSTAMP(st.st_ctim)); saunblocksigs(&old); /* * Safe to unlock now to allow * others to run */ (void) mutex_unlock(&sa_dfstab_lock); (void) lockf(lockfd, F_ULOCK, 0); (void) close(lockfd); } /* Get sharetab timestamp */ sa_update_sharetab_ts((sa_handle_t)handle); /* Get lastupdate (transaction) timestamp */ prop = scf_simple_prop_get( handle->scfhandle->handle, (const char *)SA_SVC_FMRI_BASE ":default", "state", "lastupdate"); if (prop != NULL) { char *str; str = scf_simple_prop_next_astring(prop); if (str != NULL) handle->tstrans = strtoull(str, NULL, 0); else handle->tstrans = 0; scf_simple_prop_free(prop); } /* * In this conditional the library reads from * zfs and /etc/dfs/sharetab to find datasets * that must be shared. The result is a tree of * groups that are stored in the handle for * libshare to utilize later when asked to share * or unshare datasets. */ if (init_service & SA_INIT_SHARE_API_SELECTIVE) { char **paths; size_t paths_len, i; legacy |= sa_get_one_zfs_share(handle, "zfs", (sa_init_selective_arg_t *)arg, &paths, &paths_len); legacy |= get_one_transient(handle, &handle->tree, paths, paths_len); for (i = 0; i < paths_len; ++i) { free(paths[i]); } free(paths); } else if (init_service & SA_INIT_ONE_SHARE_FROM_NAME) { char path[ZFS_MAXPROPLEN]; char *ptr = path; char **ptr_to_path = &ptr; legacy |= sa_get_zfs_share_for_name(handle, "zfs", (char *)arg, path); legacy |= get_one_transient(handle, &handle->tree, ptr_to_path, 1); } else if (init_service & SA_INIT_ONE_SHARE_FROM_HANDLE) { char path[ZFS_MAXPROPLEN]; char *ptr = path; char **ptr_to_path = &ptr; legacy |= sa_get_zfs_share_for_name(handle, "zfs", zfs_get_name( (zfs_handle_t *)arg), path); legacy |= get_one_transient(handle, &handle->tree, ptr_to_path, 1); } else { legacy |= sa_get_zfs_shares(handle, "zfs"); legacy |= gettransients(handle, &handle->tree); } } } } return ((sa_handle_t)handle); } /* * sa_init exists as a legacy interface, new consumers should use sa_init_arg. */ sa_handle_t sa_init(int init_service) { return (sa_init_impl(init_service, NULL)); } /* * See libshare.h "API Initialization" section for valid values of init_service * as well as the appropriate argument type for a given init_service. */ sa_handle_t sa_init_arg(int init_service, void *arg) { return (sa_init_impl(init_service, arg)); } /* * sa_fini(handle) * Uninitialize the API structures including the configuration * data structures and ZFS related data. */ void sa_fini(sa_handle_t handle) { sa_handle_impl_t impl_handle = (sa_handle_impl_t)handle; if (impl_handle != NULL) { /* * Free the config trees and any other data structures * used in the handle. */ if (impl_handle->doc != NULL) xmlFreeDoc(impl_handle->doc); /* Remove and free the entry in the global list. */ remove_handle_for_root(impl_handle->tree); /* * If this was the last handle to release, unload the * plugins that were loaded. Use a mutex in case * another thread is reinitializing. */ (void) mutex_lock(&sa_global_lock); if (sa_global_handles == NULL) (void) proto_plugin_fini(); (void) mutex_unlock(&sa_global_lock); sa_scf_fini(impl_handle->scfhandle); sa_zfs_fini(impl_handle); /* Make sure we free the handle */ free(impl_handle); } } /* * sa_service(sa_handle_t handle) * * Returns the service for which the handle is currently initialized. */ int sa_service(sa_handle_t handle) { if (handle == NULL) return (0); return (((sa_handle_impl_t)handle)->sa_service); } /* * sa_get_protocols(char **protocol) * Get array of protocols that are supported * Returns pointer to an allocated and NULL terminated * array of strings. Caller must free. * This really should be determined dynamically. * If there aren't any defined, return -1. * Use free() to return memory. */ int sa_get_protocols(char ***protocols) { int numproto = -1; if (protocols != NULL) { struct sa_proto_plugin *plug; for (numproto = 0, plug = sap_proto_list; plug != NULL; plug = plug->plugin_next) { numproto++; } *protocols = calloc(numproto + 1, sizeof (char *)); if (*protocols != NULL) { int ret = 0; for (plug = sap_proto_list; plug != NULL; plug = plug->plugin_next) { /* faking for now */ (*protocols)[ret++] = plug->plugin_ops->sa_protocol; } } else { numproto = -1; } } return (numproto); } /* * find_group_by_name(node, group) * * search the XML document subtree specified by node to find the group * specified by group. Searching subtree allows subgroups to be * searched for. */ static xmlNodePtr find_group_by_name(xmlNodePtr node, xmlChar *group) { xmlChar *name = NULL; for (node = node->xmlChildrenNode; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"group") == 0) { /* if no groupname, return the first found */ if (group == NULL) break; name = xmlGetProp(node, (xmlChar *)"name"); if (name != NULL && xmlStrcmp(name, group) == 0) break; if (name != NULL) { xmlFree(name); name = NULL; } } } if (name != NULL) xmlFree(name); return (node); } /* * sa_get_group(groupname) * Return the "group" specified. If groupname is NULL, * return the first group of the list of groups. */ sa_group_t sa_get_group(sa_handle_t handle, char *groupname) { xmlNodePtr node = NULL; char *subgroup = NULL; char *group = NULL; sa_handle_impl_t impl_handle = (sa_handle_impl_t)handle; if (impl_handle != NULL && impl_handle->tree != NULL) { if (groupname != NULL) { group = strdup(groupname); if (group != NULL) { subgroup = strchr(group, '/'); if (subgroup != NULL) *subgroup++ = '\0'; } } /* * We want to find the, possibly, named group. If * group is not NULL, then lookup the name. If it is * NULL, we only do the find if groupname is also * NULL. This allows lookup of the "first" group in * the internal list. */ if (group != NULL || groupname == NULL) node = find_group_by_name(impl_handle->tree, (xmlChar *)group); /* if a subgroup, find it before returning */ if (subgroup != NULL && node != NULL) node = find_group_by_name(node, (xmlChar *)subgroup); } if (node != NULL && (char *)group != NULL) (void) sa_get_instance(impl_handle->scfhandle, (char *)group); if (group != NULL) free(group); return ((sa_group_t)(node)); } /* * sa_get_next_group(group) * Return the "next" group after the specified group from * the internal group list. NULL if there are no more. */ sa_group_t sa_get_next_group(sa_group_t group) { xmlNodePtr ngroup = NULL; if (group != NULL) { for (ngroup = ((xmlNodePtr)group)->next; ngroup != NULL; ngroup = ngroup->next) { if (xmlStrcmp(ngroup->name, (xmlChar *)"group") == 0) break; } } return ((sa_group_t)ngroup); } /* * sa_get_share(group, sharepath) * Return the share object for the share specified. The share * must be in the specified group. Return NULL if not found. */ sa_share_t sa_get_share(sa_group_t group, char *sharepath) { xmlNodePtr node = NULL; xmlChar *path; /* * For future scalability, this should end up building a cache * since it will get called regularly by the mountd and info * services. */ if (group != NULL) { for (node = ((xmlNodePtr)group)->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"share") == 0) { if (sharepath == NULL) { break; } else { /* is it the correct share? */ path = xmlGetProp(node, (xmlChar *)"path"); if (path != NULL && xmlStrcmp(path, (xmlChar *)sharepath) == 0) { xmlFree(path); break; } xmlFree(path); } } } } return ((sa_share_t)node); } /* * sa_get_next_share(share) * Return the next share following the specified share * from the internal list of shares. Returns NULL if there * are no more shares. The list is relative to the same * group. */ sa_share_t sa_get_next_share(sa_share_t share) { xmlNodePtr node = NULL; if (share != NULL) { for (node = ((xmlNodePtr)share)->next; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"share") == 0) { break; } } } return ((sa_share_t)node); } /* * _sa_get_child_node(node, type) * * find the child node of the specified node that has "type". This is * used to implement several internal functions. */ static xmlNodePtr _sa_get_child_node(xmlNodePtr node, xmlChar *type) { xmlNodePtr child; for (child = node->xmlChildrenNode; child != NULL; child = child->next) if (xmlStrcmp(child->name, type) == 0) return (child); return ((xmlNodePtr)NULL); } /* * find_share(group, path) * * Search all the shares in the specified group for one that has the * specified path. */ static sa_share_t find_share(sa_group_t group, char *sharepath) { sa_share_t share; char *path; for (share = sa_get_share(group, NULL); share != NULL; share = sa_get_next_share(share)) { path = sa_get_share_attr(share, "path"); if (path != NULL && strcmp(path, sharepath) == 0) { sa_free_attr_string(path); break; } if (path != NULL) sa_free_attr_string(path); } return (share); } /* * sa_get_sub_group(group) * * Get the first sub-group of group. The sa_get_next_group() function * can be used to get the rest. This is currently only used for ZFS * sub-groups but could be used to implement a more general mechanism. */ sa_group_t sa_get_sub_group(sa_group_t group) { return ((sa_group_t)_sa_get_child_node((xmlNodePtr)group, (xmlChar *)"group")); } /* * sa_find_share(sharepath) * Finds a share regardless of group. In the future, this * function should utilize a cache and hash table of some kind. * The current assumption is that a path will only be shared * once. In the future, this may change as implementation of * resource names comes into being. */ sa_share_t sa_find_share(sa_handle_t handle, char *sharepath) { sa_group_t group; sa_group_t zgroup; sa_share_t share = NULL; int done = 0; for (group = sa_get_group(handle, NULL); group != NULL && !done; group = sa_get_next_group(group)) { if (is_zfs_group(group)) { for (zgroup = (sa_group_t)_sa_get_child_node((xmlNodePtr)group, (xmlChar *)"group"); zgroup != NULL; zgroup = sa_get_next_group(zgroup)) { share = find_share(zgroup, sharepath); if (share != NULL) break; } } else { share = find_share(group, sharepath); } if (share != NULL) break; } return (share); } /* * sa_check_path(group, path, strictness) * * Check that path is a valid path relative to the group. Currently, * we are ignoring the group and checking only the NFS rules. Later, * we may want to use the group to then check against the protocols * enabled on the group. The strictness values mean: * SA_CHECK_NORMAL == only check newpath against shares that are active * SA_CHECK_STRICT == check newpath against both active shares and those * stored in the repository */ int sa_check_path(sa_group_t group, char *path, int strictness) { sa_handle_t handle; handle = sa_find_group_handle(group); if (handle == NULL) return (SA_BAD_PATH); return (validpath(handle, path, strictness)); } /* * mark_excluded_protos(group, share, flags) * * Walk through all the protocols enabled for the group and check to * see if the share has any of them should be in the exclude list * based on the featureset of the protocol. If there are any, add the * "exclude" property to the share. */ static void mark_excluded_protos(sa_group_t group, xmlNodePtr share, uint64_t flags) { sa_optionset_t optionset; char exclude_list[SA_STRSIZE]; char *sep = ""; exclude_list[0] = '\0'; for (optionset = sa_get_optionset(group, NULL); optionset != NULL; optionset = sa_get_next_optionset(optionset)) { char *value; uint64_t features; value = sa_get_optionset_attr(optionset, "type"); if (value == NULL) continue; features = sa_proto_get_featureset(value); if (!(features & flags)) { (void) strlcat(exclude_list, sep, sizeof (exclude_list)); (void) strlcat(exclude_list, value, sizeof (exclude_list)); sep = ","; } sa_free_attr_string(value); } if (exclude_list[0] != '\0') (void) xmlSetProp(share, (xmlChar *)"exclude", (xmlChar *)exclude_list); } /* * get_all_features(group) * * Walk through all the protocols on the group and collect all * possible enabled features. This is the OR of all the featuresets. */ static uint64_t get_all_features(sa_group_t group) { sa_optionset_t optionset; uint64_t features = 0; for (optionset = sa_get_optionset(group, NULL); optionset != NULL; optionset = sa_get_next_optionset(optionset)) { char *value; value = sa_get_optionset_attr(optionset, "type"); if (value == NULL) continue; features |= sa_proto_get_featureset(value); sa_free_attr_string(value); } return (features); } /* * _sa_add_share(group, sharepath, persist, *error, flags) * * Common code for all types of add_share. sa_add_share() is the * public API, we also need to be able to do this when parsing legacy * files and construction of the internal configuration while * extracting config info from SMF. "flags" indicates if some * protocols need relaxed rules while other don't. These values are * the featureset values defined in libshare.h. */ sa_share_t _sa_add_share(sa_group_t group, char *sharepath, int persist, int *error, uint64_t flags) { xmlNodePtr node = NULL; int err; err = SA_OK; /* assume success */ node = xmlNewChild((xmlNodePtr)group, NULL, (xmlChar *)"share", NULL); if (node == NULL) { if (error != NULL) *error = SA_NO_MEMORY; return (node); } (void) xmlSetProp(node, (xmlChar *)"path", (xmlChar *)sharepath); (void) xmlSetProp(node, (xmlChar *)"type", persist ? (xmlChar *)"persist" : (xmlChar *)"transient"); if (flags != 0) mark_excluded_protos(group, node, flags); if (persist != SA_SHARE_TRANSIENT) { /* * persistent shares come in two flavors: SMF and * ZFS. Sort this one out based on target group and * path type. Both NFS and SMB are supported. First, * check to see if the protocol is enabled on the * subgroup and then setup the share appropriately. */ if (sa_group_is_zfs(group) && sa_path_is_zfs(sharepath)) { if (sa_get_optionset(group, "nfs") != NULL) err = sa_zfs_set_sharenfs(group, sharepath, 1); else if (sa_get_optionset(group, "smb") != NULL) err = sa_zfs_set_sharesmb(group, sharepath, 1); } else { sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) { err = sa_commit_share(impl_handle->scfhandle, group, (sa_share_t)node); } else { err = SA_SYSTEM_ERR; } } } if (err == SA_NO_PERMISSION && persist & SA_SHARE_PARSER) /* called by the dfstab parser so could be a show */ err = SA_OK; if (err != SA_OK) { /* * we couldn't commit to the repository so undo * our internal state to reflect reality. */ xmlUnlinkNode(node); xmlFreeNode(node); node = NULL; } if (error != NULL) *error = err; return (node); } /* * sa_add_share(group, sharepath, persist, *error) * * Add a new share object to the specified group. The share will * have the specified sharepath and will only be constructed if * it is a valid path to be shared. NULL is returned on error * and a detailed error value will be returned via the error * pointer. */ sa_share_t sa_add_share(sa_group_t group, char *sharepath, int persist, int *error) { xmlNodePtr node = NULL; int strictness = SA_CHECK_NORMAL; sa_handle_t handle; uint64_t special = 0; uint64_t features; /* * If the share is to be permanent, use strict checking so a * bad config doesn't get created. Transient shares only need * to check against the currently active * shares. SA_SHARE_PARSER is a modifier used internally to * indicate that we are being called by the dfstab parser and * that we need strict checking in all cases. Normally persist * is in integer value but SA_SHARE_PARSER may be or'd into * it as an override. */ if (persist & SA_SHARE_PARSER || persist == SA_SHARE_PERMANENT) strictness = SA_CHECK_STRICT; handle = sa_find_group_handle(group); /* * need to determine if the share is valid. The rules are: * - The path must not already exist * - The path must not be a subdir or parent dir of an * existing path unless at least one protocol allows it. * The sub/parent check is done in sa_check_path(). */ if (sa_find_share(handle, sharepath) == NULL) { *error = sa_check_path(group, sharepath, strictness); features = get_all_features(group); switch (*error) { case SA_PATH_IS_SUBDIR: if (features & SA_FEATURE_ALLOWSUBDIRS) special |= SA_FEATURE_ALLOWSUBDIRS; break; case SA_PATH_IS_PARENTDIR: if (features & SA_FEATURE_ALLOWPARDIRS) special |= SA_FEATURE_ALLOWPARDIRS; break; } if (*error == SA_OK || special != SA_FEATURE_NONE) node = _sa_add_share(group, sharepath, persist, error, special); } else { *error = SA_DUPLICATE_NAME; } return ((sa_share_t)node); } /* * sa_enable_share(share, protocol) * Enable the specified share to the specified protocol. * If protocol is NULL, then all protocols. */ int sa_enable_share(sa_share_t share, char *protocol) { char *sharepath; struct stat st; int err = SA_OK; int ret; sharepath = sa_get_share_attr(share, "path"); if (sharepath == NULL) return (SA_NO_MEMORY); if (stat(sharepath, &st) < 0) { err = SA_NO_SUCH_PATH; } else { /* tell the server about the share */ if (protocol != NULL) { if (excluded_protocol(share, protocol)) goto done; /* lookup protocol specific handler */ err = sa_proto_share(protocol, share); if (err == SA_OK) (void) sa_set_share_attr(share, "shared", "true"); } else { /* Tell all protocols about the share */ sa_group_t group; sa_optionset_t optionset; group = sa_get_parent_group(share); for (optionset = sa_get_optionset(group, NULL); optionset != NULL; optionset = sa_get_next_optionset(optionset)) { char *proto; proto = sa_get_optionset_attr(optionset, "type"); if (proto != NULL) { if (!excluded_protocol(share, proto)) { ret = sa_proto_share(proto, share); if (ret != SA_OK) err = ret; } sa_free_attr_string(proto); } } (void) sa_set_share_attr(share, "shared", "true"); } } done: if (sharepath != NULL) sa_free_attr_string(sharepath); return (err); } /* * sa_disable_share(share, protocol) * Disable the specified share to the specified protocol. If * protocol is NULL, then all protocols that are enabled for the * share should be disabled. */ int sa_disable_share(sa_share_t share, char *protocol) { char *path; int err = SA_OK; int ret = SA_OK; path = sa_get_share_attr(share, "path"); if (protocol != NULL) { ret = sa_proto_unshare(share, protocol, path); } else { /* need to do all protocols */ sa_group_t group; sa_optionset_t optionset; group = sa_get_parent_group(share); /* Tell all protocols about the share */ for (optionset = sa_get_optionset(group, NULL); optionset != NULL; optionset = sa_get_next_optionset(optionset)) { char *proto; proto = sa_get_optionset_attr(optionset, "type"); if (proto != NULL) { err = sa_proto_unshare(share, proto, path); if (err != SA_OK) ret = err; sa_free_attr_string(proto); } } } if (ret == SA_OK) (void) sa_set_share_attr(share, "shared", NULL); if (path != NULL) sa_free_attr_string(path); return (ret); } /* * sa_remove_share(share) * * remove the specified share from its containing group. * Remove from the SMF or ZFS configuration space. */ int sa_remove_share(sa_share_t share) { sa_group_t group; int ret = SA_OK; char *type; int transient = 0; char *groupname; char *zfs; type = sa_get_share_attr(share, "type"); group = sa_get_parent_group(share); zfs = sa_get_group_attr(group, "zfs"); groupname = sa_get_group_attr(group, "name"); if (type != NULL && strcmp(type, "persist") != 0) transient = 1; if (type != NULL) sa_free_attr_string(type); /* remove the node from its group then free the memory */ /* * need to test if "busy" */ /* only do SMF action if permanent */ if (!transient || zfs != NULL) { /* remove from legacy dfstab as well as possible SMF */ ret = sa_delete_legacy(share, NULL); if (ret == SA_OK) { if (!sa_group_is_zfs(group)) { sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t) sa_find_group_handle(group); if (impl_handle != NULL) { ret = sa_delete_share( impl_handle->scfhandle, group, share); } else { ret = SA_SYSTEM_ERR; } } else { char *sharepath = sa_get_share_attr(share, "path"); if (sharepath != NULL) { ret = sa_zfs_set_sharenfs(group, sharepath, 0); sa_free_attr_string(sharepath); } } } } if (groupname != NULL) sa_free_attr_string(groupname); if (zfs != NULL) sa_free_attr_string(zfs); xmlUnlinkNode((xmlNodePtr)share); xmlFreeNode((xmlNodePtr)share); return (ret); } /* * sa_move_share(group, share) * * move the specified share to the specified group. Update SMF * appropriately. */ int sa_move_share(sa_group_t group, sa_share_t share) { sa_group_t oldgroup; int ret = SA_OK; /* remove the node from its group then free the memory */ oldgroup = sa_get_parent_group(share); if (oldgroup != group) { sa_handle_impl_t impl_handle; xmlUnlinkNode((xmlNodePtr)share); /* * now that the share isn't in its old group, add to * the new one */ (void) xmlAddChild((xmlNodePtr)group, (xmlNodePtr)share); /* need to deal with SMF */ impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) { /* * need to remove from old group first and then add to * new group. Ideally, we would do the other order but * need to avoid having the share in two groups at the * same time. */ ret = sa_delete_share(impl_handle->scfhandle, oldgroup, share); if (ret == SA_OK) ret = sa_commit_share(impl_handle->scfhandle, group, share); } else { ret = SA_SYSTEM_ERR; } } return (ret); } /* * sa_get_parent_group(share) * * Return the containing group for the share. If a group was actually * passed in, we don't want a parent so return NULL. */ sa_group_t sa_get_parent_group(sa_share_t share) { xmlNodePtr node = NULL; if (share != NULL) { node = ((xmlNodePtr)share)->parent; /* * make sure parent is a group and not sharecfg since * we may be cheating and passing in a group. * Eventually, groups of groups might come into being. */ if (node == NULL || xmlStrcmp(node->name, (xmlChar *)"sharecfg") == 0) node = NULL; } return ((sa_group_t)node); } /* * _sa_create_group(impl_handle, groupname) * * Create a group in the document. The caller will need to deal with * configuration store and activation. */ sa_group_t _sa_create_group(sa_handle_impl_t impl_handle, char *groupname) { xmlNodePtr node = NULL; if (sa_valid_group_name(groupname)) { node = xmlNewChild(impl_handle->tree, NULL, (xmlChar *)"group", NULL); if (node != NULL) { (void) xmlSetProp(node, (xmlChar *)"name", (xmlChar *)groupname); (void) xmlSetProp(node, (xmlChar *)"state", (xmlChar *)"enabled"); } } return ((sa_group_t)node); } /* * _sa_create_zfs_group(group, groupname) * * Create a ZFS subgroup under the specified group. This may * eventually form the basis of general sub-groups, but is currently * restricted to ZFS. */ sa_group_t _sa_create_zfs_group(sa_group_t group, char *groupname) { xmlNodePtr node = NULL; node = xmlNewChild((xmlNodePtr)group, NULL, (xmlChar *)"group", NULL); if (node != NULL) { (void) xmlSetProp(node, (xmlChar *)"name", (xmlChar *)groupname); (void) xmlSetProp(node, (xmlChar *)"state", (xmlChar *)"enabled"); } return ((sa_group_t)node); } /* * sa_create_group(groupname, *error) * * Create a new group with groupname. Need to validate that it is a * legal name for SMF and the construct the SMF service instance of * svc:/network/shares/group to implement the group. All necessary * operational properties must be added to the group at this point * (via the SMF transaction model). */ sa_group_t sa_create_group(sa_handle_t handle, char *groupname, int *error) { xmlNodePtr node = NULL; sa_group_t group; int ret; char rbacstr[SA_STRSIZE]; sa_handle_impl_t impl_handle = (sa_handle_impl_t)handle; ret = SA_OK; if (impl_handle == NULL || impl_handle->scfhandle == NULL) { ret = SA_SYSTEM_ERR; goto err; } group = sa_get_group(handle, groupname); if (group != NULL) { ret = SA_DUPLICATE_NAME; } else { if (sa_valid_group_name(groupname)) { node = xmlNewChild(impl_handle->tree, NULL, (xmlChar *)"group", NULL); if (node != NULL) { (void) xmlSetProp(node, (xmlChar *)"name", (xmlChar *)groupname); /* default to the group being enabled */ (void) xmlSetProp(node, (xmlChar *)"state", (xmlChar *)"enabled"); ret = sa_create_instance(impl_handle->scfhandle, groupname); if (ret == SA_OK) { ret = sa_start_transaction( impl_handle->scfhandle, "operation"); } if (ret == SA_OK) { ret = sa_set_property( impl_handle->scfhandle, "state", "enabled"); if (ret == SA_OK) { ret = sa_end_transaction( impl_handle->scfhandle, impl_handle); } else { sa_abort_transaction( impl_handle->scfhandle); } } if (ret == SA_OK) { /* initialize the RBAC strings */ ret = sa_start_transaction( impl_handle->scfhandle, "general"); if (ret == SA_OK) { (void) snprintf(rbacstr, sizeof (rbacstr), "%s.%s", SA_RBAC_MANAGE, groupname); ret = sa_set_property( impl_handle->scfhandle, "action_authorization", rbacstr); } if (ret == SA_OK) { (void) snprintf(rbacstr, sizeof (rbacstr), "%s.%s", SA_RBAC_VALUE, groupname); ret = sa_set_property( impl_handle->scfhandle, "value_authorization", rbacstr); } if (ret == SA_OK) { ret = sa_end_transaction( impl_handle->scfhandle, impl_handle); } else { sa_abort_transaction( impl_handle->scfhandle); } } if (ret != SA_OK) { /* * Couldn't commit the group * so we need to undo * internally. */ xmlUnlinkNode(node); xmlFreeNode(node); node = NULL; } } else { ret = SA_NO_MEMORY; } } else { ret = SA_INVALID_NAME; } } err: if (error != NULL) *error = ret; return ((sa_group_t)node); } /* * sa_remove_group(group) * * Remove the specified group. This deletes from the SMF repository. * All property groups and properties are removed. */ int sa_remove_group(sa_group_t group) { char *name; int ret = SA_OK; sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) { name = sa_get_group_attr(group, "name"); if (name != NULL) { ret = sa_delete_instance(impl_handle->scfhandle, name); sa_free_attr_string(name); } xmlUnlinkNode((xmlNodePtr)group); /* make sure unlinked */ xmlFreeNode((xmlNodePtr)group); /* now it is gone */ } else { ret = SA_SYSTEM_ERR; } return (ret); } /* * sa_update_config() * * Used to update legacy files that need to be updated in bulk * Currently, this is a placeholder and will go away in a future * release. */ int sa_update_config(sa_handle_t handle) { /* * do legacy files first so we can tell when they change. * This will go away when we start updating individual records * rather than the whole file. */ update_legacy_config(handle); return (SA_OK); } /* * get_node_attr(node, tag) * * Get the specified tag(attribute) if it exists on the node. This is * used internally by a number of attribute oriented functions. */ static char * get_node_attr(void *nodehdl, char *tag) { xmlNodePtr node = (xmlNodePtr)nodehdl; xmlChar *name = NULL; if (node != NULL) name = xmlGetProp(node, (xmlChar *)tag); return ((char *)name); } /* * set_node_attr(node, tag) * * Set the specified tag(attribute) to the specified value This is * used internally by a number of attribute oriented functions. It * doesn't update the repository, only the internal document state. */ void set_node_attr(void *nodehdl, char *tag, char *value) { xmlNodePtr node = (xmlNodePtr)nodehdl; if (node != NULL && tag != NULL) { if (value != NULL) (void) xmlSetProp(node, (xmlChar *)tag, (xmlChar *)value); else (void) xmlUnsetProp(node, (xmlChar *)tag); } } /* * sa_get_group_attr(group, tag) * * Get the specied attribute, if defined, for the group. */ char * sa_get_group_attr(sa_group_t group, char *tag) { return (get_node_attr((void *)group, tag)); } /* * sa_set_group_attr(group, tag, value) * * set the specified tag/attribute on the group using value as its * value. * * This will result in setting the property in the SMF repository as * well as in the internal document. */ int sa_set_group_attr(sa_group_t group, char *tag, char *value) { int ret; char *groupname; sa_handle_impl_t impl_handle; /* * ZFS group/subgroup doesn't need the handle so shortcut. */ if (sa_group_is_zfs(group)) { set_node_attr((void *)group, tag, value); return (SA_OK); } impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) { groupname = sa_get_group_attr(group, "name"); ret = sa_get_instance(impl_handle->scfhandle, groupname); if (ret == SA_OK) { set_node_attr((void *)group, tag, value); ret = sa_start_transaction(impl_handle->scfhandle, "operation"); if (ret == SA_OK) { ret = sa_set_property(impl_handle->scfhandle, tag, value); if (ret == SA_OK) ret = sa_end_transaction( impl_handle->scfhandle, impl_handle); else sa_abort_transaction( impl_handle->scfhandle); } if (ret == SA_SYSTEM_ERR) ret = SA_NO_PERMISSION; } if (groupname != NULL) sa_free_attr_string(groupname); } else { ret = SA_SYSTEM_ERR; } return (ret); } /* * sa_get_share_attr(share, tag) * * Return the value of the tag/attribute set on the specified * share. Returns NULL if the tag doesn't exist. */ char * sa_get_share_attr(sa_share_t share, char *tag) { return (get_node_attr((void *)share, tag)); } /* * _sa_set_share_description(share, description) * * Add a description tag with text contents to the specified share. A * separate XML tag is used rather than a property. This can also be * used with resources. */ xmlNodePtr _sa_set_share_description(void *share, char *content) { xmlNodePtr node; node = xmlNewChild((xmlNodePtr)share, NULL, (xmlChar *)"description", NULL); xmlNodeSetContent(node, (xmlChar *)content); return (node); } /* * sa_set_share_attr(share, tag, value) * * Set the share attribute specified by tag to the specified value. In * the case of "resource", enforce a no duplicates in a group rule. If * the share is not transient, commit the changes to the repository * else just update the share internally. */ int sa_set_share_attr(sa_share_t share, char *tag, char *value) { sa_group_t group; sa_share_t resource; int ret = SA_OK; group = sa_get_parent_group(share); /* * There are some attributes that may have specific * restrictions on them. Initially, only "resource" has * special meaning that needs to be checked. Only one instance * of a resource name may exist within a group. */ if (strcmp(tag, "resource") == 0) { resource = sa_get_resource(group, value); if (resource != share && resource != NULL) ret = SA_DUPLICATE_NAME; } if (ret == SA_OK) { set_node_attr((void *)share, tag, value); if (group != NULL) { char *type; /* we can probably optimize this some */ type = sa_get_share_attr(share, "type"); if (type == NULL || strcmp(type, "transient") != 0) { sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle( group); if (impl_handle != NULL) { ret = sa_commit_share( impl_handle->scfhandle, group, share); } else { ret = SA_SYSTEM_ERR; } } if (type != NULL) sa_free_attr_string(type); } } return (ret); } /* * sa_get_property_attr(prop, tag) * * Get the value of the specified property attribute. Standard * attributes are "type" and "value". */ char * sa_get_property_attr(sa_property_t prop, char *tag) { return (get_node_attr((void *)prop, tag)); } /* * sa_get_optionset_attr(prop, tag) * * Get the value of the specified property attribute. Standard * attribute is "type". */ char * sa_get_optionset_attr(sa_property_t optionset, char *tag) { return (get_node_attr((void *)optionset, tag)); } /* * sa_set_optionset_attr(optionset, tag, value) * * Set the specified attribute(tag) to the specified value on the * optionset. */ void sa_set_optionset_attr(sa_group_t optionset, char *tag, char *value) { set_node_attr((void *)optionset, tag, value); } /* * sa_free_attr_string(string) * * Free the string that was returned in one of the sa_get_*_attr() * functions. */ void sa_free_attr_string(char *string) { xmlFree((xmlChar *)string); } /* * sa_get_optionset(group, proto) * * Return the optionset, if it exists, that is associated with the * specified protocol. */ sa_optionset_t sa_get_optionset(void *group, char *proto) { xmlNodePtr node; xmlChar *value = NULL; for (node = ((xmlNodePtr)group)->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"optionset") == 0) { value = xmlGetProp(node, (xmlChar *)"type"); if (proto != NULL) { if (value != NULL && xmlStrcmp(value, (xmlChar *)proto) == 0) { break; } if (value != NULL) { xmlFree(value); value = NULL; } } else { break; } } } if (value != NULL) xmlFree(value); return ((sa_optionset_t)node); } /* * sa_get_next_optionset(optionset) * * Return the next optionset in the group. NULL if this was the last. */ sa_optionset_t sa_get_next_optionset(sa_optionset_t optionset) { xmlNodePtr node; for (node = ((xmlNodePtr)optionset)->next; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"optionset") == 0) { break; } } return ((sa_optionset_t)node); } /* * sa_get_security(group, sectype, proto) * * Return the security optionset. The internal name is a hold over * from the implementation and will be changed before the API is * finalized. This is really a named optionset that can be negotiated * as a group of properties (like NFS security options). */ sa_security_t sa_get_security(sa_group_t group, char *sectype, char *proto) { xmlNodePtr node; xmlChar *value = NULL; for (node = ((xmlNodePtr)group)->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"security") == 0) { if (proto != NULL) { value = xmlGetProp(node, (xmlChar *)"type"); if (value == NULL || (value != NULL && xmlStrcmp(value, (xmlChar *)proto) != 0)) { /* it doesn't match so continue */ xmlFree(value); value = NULL; continue; } } if (value != NULL) { xmlFree(value); value = NULL; } /* potential match */ if (sectype != NULL) { value = xmlGetProp(node, (xmlChar *)"sectype"); if (value != NULL && xmlStrcmp(value, (xmlChar *)sectype) == 0) { break; } } else { break; } } if (value != NULL) { xmlFree(value); value = NULL; } } if (value != NULL) xmlFree(value); return ((sa_security_t)node); } /* * sa_get_next_security(security) * * Get the next security optionset if one exists. */ sa_security_t sa_get_next_security(sa_security_t security) { xmlNodePtr node; for (node = ((xmlNodePtr)security)->next; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"security") == 0) { break; } } return ((sa_security_t)node); } /* * sa_get_property(optionset, prop) * * Get the property object with the name specified in prop from the * optionset. */ sa_property_t sa_get_property(sa_optionset_t optionset, char *prop) { xmlNodePtr node = (xmlNodePtr)optionset; xmlChar *value = NULL; if (optionset == NULL) return (NULL); for (node = node->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"option") == 0) { if (prop == NULL) break; value = xmlGetProp(node, (xmlChar *)"type"); if (value != NULL && xmlStrcmp(value, (xmlChar *)prop) == 0) { break; } if (value != NULL) { xmlFree(value); value = NULL; } } } if (value != NULL) xmlFree(value); if (node != NULL && xmlStrcmp(node->name, (xmlChar *)"option") != 0) { /* * avoid a non option node -- it is possible to be a * text node */ node = NULL; } return ((sa_property_t)node); } /* * sa_get_next_property(property) * * Get the next property following the specified property. NULL if * this was the last. */ sa_property_t sa_get_next_property(sa_property_t property) { xmlNodePtr node; for (node = ((xmlNodePtr)property)->next; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"option") == 0) { break; } } return ((sa_property_t)node); } /* * sa_set_share_description(share, content) * * Set the description of share to content. */ int sa_set_share_description(sa_share_t share, char *content) { xmlNodePtr node; sa_group_t group; int ret = SA_OK; for (node = ((xmlNodePtr)share)->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"description") == 0) { break; } } /* no existing description but want to add */ if (node == NULL && content != NULL) { /* add a description */ node = _sa_set_share_description(share, content); } else if (node != NULL && content != NULL) { /* update a description */ xmlNodeSetContent(node, (xmlChar *)content); } else if (node != NULL && content == NULL) { /* remove an existing description */ xmlUnlinkNode(node); xmlFreeNode(node); } group = sa_get_parent_group(share); if (group != NULL && sa_is_persistent(share) && (!sa_group_is_zfs(group))) { sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) { ret = sa_commit_share(impl_handle->scfhandle, group, share); } else { ret = SA_SYSTEM_ERR; } } return (ret); } /* * fixproblemchars(string) * * don't want any newline or tab characters in the text since these * could break display of data and legacy file formats. */ static void fixproblemchars(char *str) { int c; for (c = *str; c != '\0'; c = *++str) { if (c == '\t' || c == '\n') *str = ' '; else if (c == '"') *str = '\''; } } /* * sa_get_share_description(share) * * Return the description text for the specified share if it * exists. NULL if no description exists. */ char * sa_get_share_description(sa_share_t share) { xmlChar *description = NULL; xmlNodePtr node; for (node = ((xmlNodePtr)share)->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"description") == 0) { break; } } if (node != NULL) { description = xmlNodeGetContent(node); fixproblemchars((char *)description); } return ((char *)description); } /* * sa_free(share_description(description) * * Free the description string. */ void sa_free_share_description(char *description) { xmlFree((xmlChar *)description); } /* * sa_create_optionset(group, proto) * * Create an optionset for the specified protocol in the specied * group. This is manifested as a property group within SMF. */ sa_optionset_t sa_create_optionset(sa_group_t group, char *proto) { sa_optionset_t optionset; sa_group_t parent = group; sa_share_t share = NULL; int err = SA_OK; char *id = NULL; optionset = sa_get_optionset(group, proto); if (optionset != NULL) { /* can't have a duplicate protocol */ optionset = NULL; } else { /* * Account for resource names being slightly * different. */ if (sa_is_share(group)) { /* * Transient shares do not have an "id" so not an * error to not find one. */ id = sa_get_share_attr((sa_share_t)group, "id"); } else if (sa_is_resource(group)) { share = sa_get_resource_parent( (sa_resource_t)group); id = sa_get_resource_attr(share, "id"); /* id can be NULL if the group is transient (ZFS) */ if (id == NULL && sa_is_persistent(group)) err = SA_NO_MEMORY; } if (err == SA_NO_MEMORY) { /* * Couldn't get the id for the share or * resource. While this could be a * configuration issue, it is most likely an * out of memory. In any case, fail the create. */ return (NULL); } optionset = (sa_optionset_t)xmlNewChild((xmlNodePtr)group, NULL, (xmlChar *)"optionset", NULL); /* * only put to repository if on a group and we were * able to create an optionset. */ if (optionset != NULL) { char oname[SA_STRSIZE]; char *groupname; /* * Need to get parent group in all cases, but also get * the share if this is a resource. */ if (sa_is_share(group)) { parent = sa_get_parent_group((sa_share_t)group); } else if (sa_is_resource(group)) { share = sa_get_resource_parent( (sa_resource_t)group); parent = sa_get_parent_group(share); } sa_set_optionset_attr(optionset, "type", proto); (void) sa_optionset_name(optionset, oname, sizeof (oname), id); groupname = sa_get_group_attr(parent, "name"); if (groupname != NULL && sa_is_persistent(group)) { sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle( group); assert(impl_handle != NULL); if (impl_handle != NULL) { (void) sa_get_instance( impl_handle->scfhandle, groupname); (void) sa_create_pgroup( impl_handle->scfhandle, oname); } } if (groupname != NULL) sa_free_attr_string(groupname); } } if (id != NULL) sa_free_attr_string(id); return (optionset); } /* * sa_get_property_parent(property) * * Given a property, return the object it is a property of. This will * be an optionset of some type. */ static sa_optionset_t sa_get_property_parent(sa_property_t property) { xmlNodePtr node = NULL; if (property != NULL) node = ((xmlNodePtr)property)->parent; return ((sa_optionset_t)node); } /* * sa_get_optionset_parent(optionset) * * Return the parent of the specified optionset. This could be a group * or a share. */ static sa_group_t sa_get_optionset_parent(sa_optionset_t optionset) { xmlNodePtr node = NULL; if (optionset != NULL) node = ((xmlNodePtr)optionset)->parent; return ((sa_group_t)node); } /* * zfs_needs_update(share) * * In order to avoid making multiple updates to a ZFS share when * setting properties, the share attribute "changed" will be set to * true when a property is added or modified. When done adding * properties, we can then detect that an update is needed. We then * clear the state here to detect additional changes. */ static int zfs_needs_update(sa_share_t share) { char *attr; int result = 0; attr = sa_get_share_attr(share, "changed"); if (attr != NULL) { sa_free_attr_string(attr); result = 1; } set_node_attr((void *)share, "changed", NULL); return (result); } /* * zfs_set_update(share) * * Set the changed attribute of the share to true. */ static void zfs_set_update(sa_share_t share) { set_node_attr((void *)share, "changed", "true"); } /* * sa_commit_properties(optionset, clear) * * Check if SMF or ZFS config and either update or abort the pending * changes. */ int sa_commit_properties(sa_optionset_t optionset, int clear) { sa_group_t group; sa_group_t parent; int zfs = 0; int needsupdate = 0; int ret = SA_OK; sa_handle_impl_t impl_handle; group = sa_get_optionset_parent(optionset); if (group != NULL && (sa_is_share(group) || is_zfs_group(group))) { /* only update ZFS if on a share */ parent = sa_get_parent_group(group); zfs++; if (parent != NULL && is_zfs_group(parent)) needsupdate = zfs_needs_update(group); else zfs = 0; } if (zfs) { if (!clear && needsupdate) ret = sa_zfs_update((sa_share_t)group); } else { impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) { if (clear) { (void) sa_abort_transaction( impl_handle->scfhandle); } else { ret = sa_end_transaction( impl_handle->scfhandle, impl_handle); } } else { ret = SA_SYSTEM_ERR; } } return (ret); } /* * sa_destroy_optionset(optionset) * * Remove the optionset from its group. Update the repository to * reflect this change. */ int sa_destroy_optionset(sa_optionset_t optionset) { char name[SA_STRSIZE]; int len; int ret = SA_OK; char *id = NULL; sa_group_t group; int ispersist = 1; /* now delete the prop group */ group = sa_get_optionset_parent(optionset); if (group != NULL) { if (sa_is_resource(group)) { sa_resource_t resource = group; sa_share_t share = sa_get_resource_parent(resource); group = sa_get_parent_group(share); id = sa_get_share_attr(share, "id"); } else if (sa_is_share(group)) { id = sa_get_share_attr((sa_share_t)group, "id"); } ispersist = sa_is_persistent(group); } if (ispersist) { sa_handle_impl_t impl_handle; len = sa_optionset_name(optionset, name, sizeof (name), id); impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) { if (len > 0) { ret = sa_delete_pgroup(impl_handle->scfhandle, name); } } else { ret = SA_SYSTEM_ERR; } } xmlUnlinkNode((xmlNodePtr)optionset); xmlFreeNode((xmlNodePtr)optionset); if (id != NULL) sa_free_attr_string(id); return (ret); } /* private to the implementation */ int _sa_remove_optionset(sa_optionset_t optionset) { int ret = SA_OK; xmlUnlinkNode((xmlNodePtr)optionset); xmlFreeNode((xmlNodePtr)optionset); return (ret); } /* * sa_create_security(group, sectype, proto) * * Create a security optionset (one that has a type name and a * proto). Security is left over from a pure NFS implementation. The * naming will change in the future when the API is released. */ sa_security_t sa_create_security(sa_group_t group, char *sectype, char *proto) { sa_security_t security; char *id = NULL; sa_group_t parent; char *groupname = NULL; if (group != NULL && sa_is_share(group)) { id = sa_get_share_attr((sa_share_t)group, "id"); parent = sa_get_parent_group(group); if (parent != NULL) groupname = sa_get_group_attr(parent, "name"); } else if (group != NULL) { groupname = sa_get_group_attr(group, "name"); } security = sa_get_security(group, sectype, proto); if (security != NULL) { /* can't have a duplicate security option */ security = NULL; } else { security = (sa_security_t)xmlNewChild((xmlNodePtr)group, NULL, (xmlChar *)"security", NULL); if (security != NULL) { char oname[SA_STRSIZE]; sa_set_security_attr(security, "type", proto); sa_set_security_attr(security, "sectype", sectype); (void) sa_security_name(security, oname, sizeof (oname), id); if (groupname != NULL && sa_is_persistent(group)) { sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle( group); if (impl_handle != NULL) { (void) sa_get_instance( impl_handle->scfhandle, groupname); (void) sa_create_pgroup( impl_handle->scfhandle, oname); } } } } if (id != NULL) sa_free_attr_string(id); if (groupname != NULL) sa_free_attr_string(groupname); return (security); } /* * sa_destroy_security(security) * * Remove the specified optionset from the document and the * configuration. */ int sa_destroy_security(sa_security_t security) { char name[SA_STRSIZE]; int len; int ret = SA_OK; char *id = NULL; sa_group_t group; int iszfs = 0; int ispersist = 1; group = sa_get_optionset_parent(security); if (group != NULL) iszfs = sa_group_is_zfs(group); if (group != NULL && !iszfs) { if (sa_is_share(group)) ispersist = sa_is_persistent(group); id = sa_get_share_attr((sa_share_t)group, "id"); } if (ispersist) { len = sa_security_name(security, name, sizeof (name), id); if (!iszfs && len > 0) { sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) { ret = sa_delete_pgroup(impl_handle->scfhandle, name); } else { ret = SA_SYSTEM_ERR; } } } xmlUnlinkNode((xmlNodePtr)security); xmlFreeNode((xmlNodePtr)security); if (iszfs) ret = sa_zfs_update(group); if (id != NULL) sa_free_attr_string(id); return (ret); } /* * sa_get_security_attr(optionset, tag) * * Return the specified attribute value from the optionset. */ char * sa_get_security_attr(sa_property_t optionset, char *tag) { return (get_node_attr((void *)optionset, tag)); } /* * sa_set_security_attr(optionset, tag, value) * * Set the optioset attribute specied by tag to the specified value. */ void sa_set_security_attr(sa_group_t optionset, char *tag, char *value) { set_node_attr((void *)optionset, tag, value); } /* * is_nodetype(node, type) * * Check to see if node is of the type specified. */ static int is_nodetype(void *node, char *type) { return (strcmp((char *)((xmlNodePtr)node)->name, type) == 0); } /* * add_or_update() * * Add or update a property. Pulled out of sa_set_prop_by_prop for * readability. */ static int add_or_update(scfutilhandle_t *scf_handle, int type, scf_value_t *value, scf_transaction_entry_t *entry, char *name, char *valstr) { int ret = SA_SYSTEM_ERR; if (value != NULL) { if (type == SA_PROP_OP_ADD) ret = scf_transaction_property_new(scf_handle->trans, entry, name, SCF_TYPE_ASTRING); else ret = scf_transaction_property_change(scf_handle->trans, entry, name, SCF_TYPE_ASTRING); if (ret == 0) { ret = scf_value_set_astring(value, valstr); if (ret == 0) ret = scf_entry_add_value(entry, value); if (ret == 0) return (ret); scf_value_destroy(value); } else { scf_entry_destroy(entry); } } return (SA_SYSTEM_ERR); } /* * sa_set_prop_by_prop(optionset, group, prop, type) * * Add/remove/update the specified property prop into the optionset or * share. If a share, sort out which property group based on GUID. In * all cases, the appropriate transaction is set (or ZFS share is * marked as needing an update) */ static int sa_set_prop_by_prop(sa_optionset_t optionset, sa_group_t group, sa_property_t prop, int type) { char *name; char *valstr; int ret = SA_OK; scf_transaction_entry_t *entry; scf_value_t *value; int opttype; /* 1 == optionset, 0 == security */ char *id = NULL; int iszfs = 0; sa_group_t parent = NULL; sa_share_t share = NULL; sa_handle_impl_t impl_handle; scfutilhandle_t *scf_handle; if (!sa_is_persistent(group)) { /* * if the group/share is not persistent we don't need * to do anything here */ return (SA_OK); } impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle == NULL || impl_handle->scfhandle == NULL) return (SA_SYSTEM_ERR); scf_handle = impl_handle->scfhandle; name = sa_get_property_attr(prop, "type"); valstr = sa_get_property_attr(prop, "value"); entry = scf_entry_create(scf_handle->handle); opttype = is_nodetype((void *)optionset, "optionset"); /* * Check for share vs. resource since they need slightly * different treatment given the hierarchy. */ if (valstr != NULL && entry != NULL) { if (sa_is_share(group)) { parent = sa_get_parent_group(group); share = (sa_share_t)group; if (parent != NULL) iszfs = is_zfs_group(parent); } else if (sa_is_resource(group)) { share = sa_get_parent_group(group); if (share != NULL) parent = sa_get_parent_group(share); } else { iszfs = is_zfs_group(group); } if (!iszfs) { if (scf_handle->trans == NULL) { char oname[SA_STRSIZE]; char *groupname = NULL; if (share != NULL) { if (parent != NULL) groupname = sa_get_group_attr(parent, "name"); id = sa_get_share_attr( (sa_share_t)share, "id"); } else { groupname = sa_get_group_attr(group, "name"); } if (groupname != NULL) { ret = sa_get_instance(scf_handle, groupname); sa_free_attr_string(groupname); } if (opttype) (void) sa_optionset_name(optionset, oname, sizeof (oname), id); else (void) sa_security_name(optionset, oname, sizeof (oname), id); ret = sa_start_transaction(scf_handle, oname); if (id != NULL) sa_free_attr_string(id); } if (ret == SA_OK) { switch (type) { case SA_PROP_OP_REMOVE: ret = scf_transaction_property_delete( scf_handle->trans, entry, name); break; case SA_PROP_OP_ADD: case SA_PROP_OP_UPDATE: value = scf_value_create( scf_handle->handle); ret = add_or_update(scf_handle, type, value, entry, name, valstr); break; } } } else { /* * ZFS update. The calling function would have updated * the internal XML structure. Just need to flag it as * changed for ZFS. */ zfs_set_update((sa_share_t)group); } } if (name != NULL) sa_free_attr_string(name); if (valstr != NULL) sa_free_attr_string(valstr); else if (entry != NULL) scf_entry_destroy(entry); if (ret == -1) ret = SA_SYSTEM_ERR; return (ret); } /* * sa_create_section(name, value) * * Create a new section with the specified name and extra data. */ sa_property_t sa_create_section(char *name, char *extra) { xmlNodePtr node; node = xmlNewNode(NULL, (xmlChar *)"section"); if (node != NULL) { if (name != NULL) (void) xmlSetProp(node, (xmlChar *)"name", (xmlChar *)name); if (extra != NULL) (void) xmlSetProp(node, (xmlChar *)"extra", (xmlChar *)extra); } return ((sa_property_t)node); } void sa_set_section_attr(sa_property_t sect, char *name, char *value) { (void) xmlSetProp(sect, (xmlChar *)name, (xmlChar *)value); } /* * sa_create_property(section, name, value) * * Create a new property with the specified name and value. */ sa_property_t sa_create_property(char *name, char *value) { xmlNodePtr node; node = xmlNewNode(NULL, (xmlChar *)"option"); if (node != NULL) { (void) xmlSetProp(node, (xmlChar *)"type", (xmlChar *)name); (void) xmlSetProp(node, (xmlChar *)"value", (xmlChar *)value); } return ((sa_property_t)node); } /* * sa_add_property(object, property) * * Add the specified property to the object. Issue the appropriate * transaction or mark a ZFS object as needing an update. */ int sa_add_property(void *object, sa_property_t property) { int ret = SA_OK; sa_group_t parent; sa_group_t group; char *proto; if (property != NULL) { sa_handle_t handle; handle = sa_find_group_handle((sa_group_t)object); /* It is legitimate to not find a handle */ proto = sa_get_optionset_attr(object, "type"); if ((ret = sa_valid_property(handle, object, proto, property)) == SA_OK) { property = (sa_property_t)xmlAddChild( (xmlNodePtr)object, (xmlNodePtr)property); } else { if (proto != NULL) sa_free_attr_string(proto); return (ret); } if (proto != NULL) sa_free_attr_string(proto); } parent = sa_get_parent_group(object); if (!sa_is_persistent(parent)) return (ret); if (sa_is_resource(parent)) { /* * Resources are children of share. Need to go up two * levels to find the group but the parent needs to be * the share at this point in order to get the "id". */ parent = sa_get_parent_group(parent); group = sa_get_parent_group(parent); } else if (sa_is_share(parent)) { group = sa_get_parent_group(parent); } else { group = parent; } if (property == NULL) { ret = SA_NO_MEMORY; } else { char oname[SA_STRSIZE]; if (!is_zfs_group(group)) { char *id = NULL; sa_handle_impl_t impl_handle; scfutilhandle_t *scf_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle( group); if (impl_handle == NULL || impl_handle->scfhandle == NULL) ret = SA_SYSTEM_ERR; if (ret == SA_OK) { scf_handle = impl_handle->scfhandle; if (sa_is_share((sa_group_t)parent)) { id = sa_get_share_attr( (sa_share_t)parent, "id"); } if (scf_handle->trans == NULL) { if (is_nodetype(object, "optionset")) { (void) sa_optionset_name( (sa_optionset_t)object, oname, sizeof (oname), id); } else { (void) sa_security_name( (sa_optionset_t)object, oname, sizeof (oname), id); } ret = sa_start_transaction(scf_handle, oname); } if (ret == SA_OK) { char *name; char *value; name = sa_get_property_attr(property, "type"); value = sa_get_property_attr(property, "value"); if (name != NULL && value != NULL) { if (scf_handle->scf_state == SCH_STATE_INIT) { ret = sa_set_property( scf_handle, name, value); } } else { ret = SA_CONFIG_ERR; } if (name != NULL) sa_free_attr_string( name); if (value != NULL) sa_free_attr_string(value); } if (id != NULL) sa_free_attr_string(id); } } else { /* * ZFS is a special case. We do want * to allow editing property/security * lists since we can have a better * syntax and we also want to keep * things consistent when possible. * * Right now, we defer until the * sa_commit_properties so we can get * them all at once. We do need to * mark the share as "changed" */ zfs_set_update((sa_share_t)parent); } } return (ret); } /* * sa_remove_property(property) * * Remove the specied property from its containing object. Update the * repository as appropriate. */ int sa_remove_property(sa_property_t property) { int ret = SA_OK; if (property != NULL) { sa_optionset_t optionset; sa_group_t group; optionset = sa_get_property_parent(property); if (optionset != NULL) { group = sa_get_optionset_parent(optionset); if (group != NULL) { ret = sa_set_prop_by_prop(optionset, group, property, SA_PROP_OP_REMOVE); } } xmlUnlinkNode((xmlNodePtr)property); xmlFreeNode((xmlNodePtr)property); } else { ret = SA_NO_SUCH_PROP; } return (ret); } /* * sa_update_property(property, value) * * Update the specified property to the new value. If value is NULL, * we currently treat this as a remove. */ int sa_update_property(sa_property_t property, char *value) { int ret = SA_OK; if (value == NULL) { return (sa_remove_property(property)); } else { sa_optionset_t optionset; sa_group_t group; set_node_attr((void *)property, "value", value); optionset = sa_get_property_parent(property); if (optionset != NULL) { group = sa_get_optionset_parent(optionset); if (group != NULL) { ret = sa_set_prop_by_prop(optionset, group, property, SA_PROP_OP_UPDATE); } } else { ret = SA_NO_SUCH_PROP; } } return (ret); } /* * sa_get_protocol_section(propset, prop) * * Get the specified protocol specific section. These are global to * the protocol and not specific to a group or share. */ sa_protocol_properties_t sa_get_protocol_section(sa_protocol_properties_t propset, char *section) { xmlNodePtr node = (xmlNodePtr)propset; xmlChar *value = NULL; char *proto; proto = sa_get_optionset_attr(propset, "type"); if ((sa_proto_get_featureset(proto) & SA_FEATURE_HAS_SECTIONS) == 0) { if (proto != NULL) sa_free_attr_string(proto); return (propset); } for (node = node->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"section") == 0) { if (section == NULL) break; value = xmlGetProp(node, (xmlChar *)"name"); if (value != NULL && xmlStrcasecmp(value, (xmlChar *)section) == 0) { break; } if (value != NULL) { xmlFree(value); value = NULL; } } } if (value != NULL) xmlFree(value); if (proto != NULL) sa_free_attr_string(proto); if (node != NULL && xmlStrcmp(node->name, (xmlChar *)"section") != 0) { /* * avoid a non option node -- it is possible to be a * text node */ node = NULL; } return ((sa_protocol_properties_t)node); } /* * sa_get_next_protocol_section(prop, find) * * Get the next protocol specific section in the list. */ sa_property_t sa_get_next_protocol_section(sa_property_t prop, char *find) { xmlNodePtr node; xmlChar *value = NULL; char *proto; proto = sa_get_optionset_attr(prop, "type"); if ((sa_proto_get_featureset(proto) & SA_FEATURE_HAS_SECTIONS) == 0) { if (proto != NULL) sa_free_attr_string(proto); return ((sa_property_t)NULL); } for (node = ((xmlNodePtr)prop)->next; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"section") == 0) { if (find == NULL) break; value = xmlGetProp(node, (xmlChar *)"name"); if (value != NULL && xmlStrcasecmp(value, (xmlChar *)find) == 0) { break; } if (value != NULL) { xmlFree(value); value = NULL; } } } if (value != NULL) xmlFree(value); if (proto != NULL) sa_free_attr_string(proto); return ((sa_property_t)node); } /* * sa_get_protocol_property(propset, prop) * * Get the specified protocol specific property. These are global to * the protocol and not specific to a group or share. */ sa_property_t sa_get_protocol_property(sa_protocol_properties_t propset, char *prop) { xmlNodePtr node = (xmlNodePtr)propset; xmlChar *value = NULL; if (propset == NULL) return (NULL); for (node = node->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"option") == 0) { if (prop == NULL) break; value = xmlGetProp(node, (xmlChar *)"type"); if (value != NULL && xmlStrcasecmp(value, (xmlChar *)prop) == 0) { break; } if (value != NULL) { xmlFree(value); value = NULL; } } } if (value != NULL) xmlFree(value); if (node != NULL && xmlStrcmp(node->name, (xmlChar *)"option") != 0) { /* * avoid a non option node -- it is possible to be a * text node */ node = NULL; } return ((sa_property_t)node); } /* * sa_get_next_protocol_property(prop) * * Get the next protocol specific property in the list. */ sa_property_t sa_get_next_protocol_property(sa_property_t prop, char *find) { xmlNodePtr node; xmlChar *value = NULL; for (node = ((xmlNodePtr)prop)->next; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"option") == 0) { if (find == NULL) break; value = xmlGetProp(node, (xmlChar *)"type"); if (value != NULL && xmlStrcasecmp(value, (xmlChar *)find) == 0) { break; } if (value != NULL) { xmlFree(value); value = NULL; } } } if (value != NULL) xmlFree(value); return ((sa_property_t)node); } /* * sa_set_protocol_property(prop, value) * * Set the specified property to have the new value. The protocol * specific plugin will then be called to update the property. */ int sa_set_protocol_property(sa_property_t prop, char *section, char *value) { sa_protocol_properties_t propset; char *proto; int ret = SA_INVALID_PROTOCOL; propset = ((xmlNodePtr)prop)->parent; if (propset != NULL) { proto = sa_get_optionset_attr(propset, "type"); if (proto != NULL) { if (section != NULL) set_node_attr((xmlNodePtr)prop, "section", section); set_node_attr((xmlNodePtr)prop, "value", value); ret = sa_proto_set_property(proto, prop); sa_free_attr_string(proto); } } return (ret); } /* * sa_add_protocol_property(propset, prop) * * Add a new property to the protocol specific property set. */ int sa_add_protocol_property(sa_protocol_properties_t propset, sa_property_t prop) { xmlNodePtr node; /* should check for legitimacy */ node = xmlAddChild((xmlNodePtr)propset, (xmlNodePtr)prop); if (node != NULL) return (SA_OK); return (SA_NO_MEMORY); } /* * sa_create_protocol_properties(proto) * * Create a protocol specific property set. */ sa_protocol_properties_t sa_create_protocol_properties(char *proto) { xmlNodePtr node; node = xmlNewNode(NULL, (xmlChar *)"propertyset"); if (node != NULL) (void) xmlSetProp(node, (xmlChar *)"type", (xmlChar *)proto); return (node); } /* * sa_get_share_resource(share, resource) * * Get the named resource from the share, if it exists. If resource is * NULL, get the first resource. */ sa_resource_t sa_get_share_resource(sa_share_t share, char *resource) { xmlNodePtr node = NULL; xmlChar *name; if (share != NULL) { for (node = ((xmlNodePtr)share)->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"resource") == 0) { if (resource == NULL) { /* * We are looking for the first * resource node and not a names * resource. */ break; } else { /* is it the correct share? */ name = xmlGetProp(node, (xmlChar *)"name"); if (name != NULL && xmlStrcasecmp(name, (xmlChar *)resource) == 0) { xmlFree(name); break; } xmlFree(name); } } } } return ((sa_resource_t)node); } /* * sa_get_next_resource(resource) * Return the next share following the specified share * from the internal list of shares. Returns NULL if there * are no more shares. The list is relative to the same * group. */ sa_share_t sa_get_next_resource(sa_resource_t resource) { xmlNodePtr node = NULL; if (resource != NULL) { for (node = ((xmlNodePtr)resource)->next; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"resource") == 0) break; } } return ((sa_share_t)node); } /* * _sa_get_next_resource_index(share) * * get the next resource index number (one greater then current largest) */ static int _sa_get_next_resource_index(sa_share_t share) { sa_resource_t resource; int index = 0; char *id; for (resource = sa_get_share_resource(share, NULL); resource != NULL; resource = sa_get_next_resource(resource)) { id = get_node_attr((void *)resource, "id"); if (id != NULL) { int val; val = atoi(id); if (val > index) index = val; sa_free_attr_string(id); } } return (index + 1); } /* * sa_add_resource(share, resource, persist, &err) * * Adds a new resource name associated with share. The resource name * must be unique in the system and will be case insensitive (eventually). */ sa_resource_t sa_add_resource(sa_share_t share, char *resource, int persist, int *error) { xmlNodePtr node = NULL; int err = SA_OK; sa_resource_t res; sa_group_t group; sa_handle_t handle; char istring[8]; /* just big enough for an integer value */ int index; group = sa_get_parent_group(share); handle = sa_find_group_handle(group); res = sa_find_resource(handle, resource); if (res != NULL) { err = SA_DUPLICATE_NAME; res = NULL; } else { node = xmlNewChild((xmlNodePtr)share, NULL, (xmlChar *)"resource", NULL); if (node != NULL) { (void) xmlSetProp(node, (xmlChar *)"name", (xmlChar *)resource); (void) xmlSetProp(node, (xmlChar *)"type", persist ? (xmlChar *)"persist" : (xmlChar *)"transient"); if (persist != SA_SHARE_TRANSIENT) { index = _sa_get_next_resource_index(share); (void) snprintf(istring, sizeof (istring), "%d", index); (void) xmlSetProp(node, (xmlChar *)"id", (xmlChar *)istring); if (!sa_is_persistent((sa_group_t)share)) goto done; if (!sa_group_is_zfs(group)) { /* ZFS doesn't use resource names */ sa_handle_impl_t ihandle; ihandle = (sa_handle_impl_t) sa_find_group_handle( group); if (ihandle != NULL) err = sa_commit_share( ihandle->scfhandle, group, share); else err = SA_SYSTEM_ERR; } else { err = sa_zfs_update((sa_share_t)group); } } } } done: if (error != NULL) *error = err; return ((sa_resource_t)node); } /* * sa_remove_resource(resource) * * Remove the resource name from the share (and the system) */ int sa_remove_resource(sa_resource_t resource) { sa_share_t share; sa_group_t group; char *type; int ret = SA_OK; boolean_t transient = B_FALSE; sa_optionset_t opt; share = sa_get_resource_parent(resource); type = sa_get_share_attr(share, "type"); group = sa_get_parent_group(share); if (type != NULL) { if (strcmp(type, "persist") != 0) transient = B_TRUE; sa_free_attr_string(type); } /* Disable the resource for all protocols. */ (void) sa_disable_resource(resource, NULL); /* Remove any optionsets from the resource. */ for (opt = sa_get_optionset(resource, NULL); opt != NULL; opt = sa_get_next_optionset(opt)) (void) sa_destroy_optionset(opt); /* Remove from the share */ xmlUnlinkNode((xmlNode *)resource); xmlFreeNode((xmlNode *)resource); /* only do SMF action if permanent and not ZFS */ if (transient) return (ret); if (!sa_group_is_zfs(group)) { sa_handle_impl_t ihandle; ihandle = (sa_handle_impl_t)sa_find_group_handle(group); if (ihandle != NULL) ret = sa_commit_share(ihandle->scfhandle, group, share); else ret = SA_SYSTEM_ERR; } else { ret = sa_zfs_update((sa_share_t)group); } return (ret); } /* * proto_rename_resource(handle, group, resource, newname) * * Helper function for sa_rename_resource that notifies the protocol * of a resource name change prior to a config repository update. */ static int proto_rename_resource(sa_handle_t handle, sa_group_t group, sa_resource_t resource, char *newname) { sa_optionset_t optionset; int ret = SA_OK; int err; for (optionset = sa_get_optionset(group, NULL); optionset != NULL; optionset = sa_get_next_optionset(optionset)) { char *type; type = sa_get_optionset_attr(optionset, "type"); if (type != NULL) { err = sa_proto_rename_resource(handle, type, resource, newname); if (err != SA_OK) ret = err; sa_free_attr_string(type); } } return (ret); } /* * sa_rename_resource(resource, newname) * * Rename the resource to the new name, if it is unique. */ int sa_rename_resource(sa_resource_t resource, char *newname) { sa_share_t share; sa_group_t group = NULL; sa_resource_t target; int ret = SA_CONFIG_ERR; sa_handle_t handle = NULL; share = sa_get_resource_parent(resource); if (share == NULL) return (ret); group = sa_get_parent_group(share); if (group == NULL) return (ret); handle = (sa_handle_impl_t)sa_find_group_handle(group); if (handle == NULL) return (ret); target = sa_find_resource(handle, newname); if (target != NULL) { ret = SA_DUPLICATE_NAME; } else { /* * Everything appears to be valid at this * point. Change the name of the active share and then * update the share in the appropriate repository. */ ret = proto_rename_resource(handle, group, resource, newname); set_node_attr(resource, "name", newname); if (!sa_is_persistent((sa_group_t)share)) return (ret); if (!sa_group_is_zfs(group)) { sa_handle_impl_t ihandle = (sa_handle_impl_t)handle; ret = sa_commit_share(ihandle->scfhandle, group, share); } else { ret = sa_zfs_update((sa_share_t)group); } } return (ret); } /* * sa_get_resource_attr(resource, tag) * * Get the named attribute of the resource. "name" and "id" are * currently defined. NULL if tag not defined. */ char * sa_get_resource_attr(sa_resource_t resource, char *tag) { return (get_node_attr((void *)resource, tag)); } /* * sa_set_resource_attr(resource, tag, value) * * Get the named attribute of the resource. "name" and "id" are * currently defined. NULL if tag not defined. Currently we don't do * much, but additional checking may be needed in the future. */ int sa_set_resource_attr(sa_resource_t resource, char *tag, char *value) { set_node_attr((void *)resource, tag, value); return (SA_OK); } /* * sa_get_resource_parent(resource_t) * * Returns the share associated with the resource. */ sa_share_t sa_get_resource_parent(sa_resource_t resource) { sa_share_t share = NULL; if (resource != NULL) share = (sa_share_t)((xmlNodePtr)resource)->parent; return (share); } /* * find_resource(group, name) * * Find the resource within the group. */ static sa_resource_t find_resource(sa_group_t group, char *resname) { sa_share_t share; sa_resource_t resource = NULL; char *name; /* Iterate over all the shares and resources in the group. */ for (share = sa_get_share(group, NULL); share != NULL && resource == NULL; share = sa_get_next_share(share)) { for (resource = sa_get_share_resource(share, NULL); resource != NULL; resource = sa_get_next_resource(resource)) { name = sa_get_resource_attr(resource, "name"); if (name != NULL && xmlStrcasecmp((xmlChar*)name, (xmlChar*)resname) == 0) { sa_free_attr_string(name); break; } if (name != NULL) { sa_free_attr_string(name); } } } return (resource); } /* * sa_find_resource(name) * * Find the named resource in the system. */ sa_resource_t sa_find_resource(sa_handle_t handle, char *name) { sa_group_t group; sa_group_t zgroup; sa_resource_t resource = NULL; /* * Iterate over all groups and zfs subgroups and check for * resource name in them. */ for (group = sa_get_group(handle, NULL); group != NULL; group = sa_get_next_group(group)) { if (is_zfs_group(group)) { for (zgroup = (sa_group_t)_sa_get_child_node((xmlNodePtr)group, (xmlChar *)"group"); zgroup != NULL && resource == NULL; zgroup = sa_get_next_group(zgroup)) { resource = find_resource(zgroup, name); } } else { resource = find_resource(group, name); } if (resource != NULL) break; } return (resource); } /* * sa_get_resource(group, resource) * * Search all the shares in the specified group for a share with a * resource name matching the one specified. * * In the future, it may be advantageous to allow group to be NULL and * search all groups but that isn't needed at present. */ sa_resource_t sa_get_resource(sa_group_t group, char *resource) { sa_share_t share = NULL; sa_resource_t res = NULL; if (resource != NULL) { for (share = sa_get_share(group, NULL); share != NULL && res == NULL; share = sa_get_next_share(share)) { res = sa_get_share_resource(share, resource); } } return (res); } /* * get_protocol_list(optionset, object) * * Get the protocol optionset list for the object and add them as * properties to optionset. */ static int get_protocol_list(sa_optionset_t optionset, void *object) { sa_property_t prop; sa_optionset_t opts; int ret = SA_OK; for (opts = sa_get_optionset(object, NULL); opts != NULL; opts = sa_get_next_optionset(opts)) { char *type; type = sa_get_optionset_attr(opts, "type"); /* * It is possible to have a non-protocol optionset. We * skip any of those found. */ if (type == NULL) continue; prop = sa_create_property(type, "true"); sa_free_attr_string(type); if (prop != NULL) prop = (sa_property_t)xmlAddChild((xmlNodePtr)optionset, (xmlNodePtr)prop); /* If prop is NULL, don't bother continuing */ if (prop == NULL) { ret = SA_NO_MEMORY; break; } } return (ret); } /* * sa_free_protoset(optionset) * * Free the protocol property optionset. */ static void sa_free_protoset(sa_optionset_t optionset) { if (optionset != NULL) { xmlUnlinkNode((xmlNodePtr) optionset); xmlFreeNode((xmlNodePtr) optionset); } } /* * sa_optionset_t sa_get_active_protocols(object) * * Return a list of the protocols that are active for the object. * This is currently an internal helper function, but could be * made visible if there is enough demand for it. * * The function finds the parent group and extracts the protocol * optionsets creating a new optionset with the protocols as properties. * * The caller must free the returned optionset. */ static sa_optionset_t sa_get_active_protocols(void *object) { sa_optionset_t options; sa_share_t share = NULL; sa_group_t group = NULL; sa_resource_t resource = NULL; int ret = SA_OK; if (object == NULL) return (NULL); options = (sa_optionset_t)xmlNewNode(NULL, (xmlChar *)"optionset"); if (options == NULL) return (NULL); /* * Find the objects up the tree that might have protocols * enabled on them. */ if (sa_is_resource(object)) { resource = (sa_resource_t)object; share = sa_get_resource_parent(resource); group = sa_get_parent_group(share); } else if (sa_is_share(object)) { share = (sa_share_t)object; group = sa_get_parent_group(share); } else { group = (sa_group_t)group; } if (resource != NULL) ret = get_protocol_list(options, resource); if (ret == SA_OK && share != NULL) ret = get_protocol_list(options, share); if (ret == SA_OK && group != NULL) ret = get_protocol_list(options, group); /* * If there was an error, we won't have a complete list so * abandon everything. The caller will have to deal with the * issue. */ if (ret != SA_OK) { sa_free_protoset(options); options = NULL; } return (options); } /* * sa_enable_resource, protocol) * Disable the specified share to the specified protocol. * If protocol is NULL, then all protocols. */ int sa_enable_resource(sa_resource_t resource, char *protocol) { int ret = SA_OK; if (protocol != NULL) { ret = sa_proto_share_resource(protocol, resource); } else { sa_optionset_t protoset; sa_property_t prop; char *proto; int err; /* need to do all protocols */ protoset = sa_get_active_protocols(resource); if (protoset == NULL) return (SA_NO_MEMORY); for (prop = sa_get_property(protoset, NULL); prop != NULL; prop = sa_get_next_property(prop)) { proto = sa_get_property_attr(prop, "type"); if (proto == NULL) { ret = SA_NO_MEMORY; continue; } err = sa_proto_share_resource(proto, resource); if (err != SA_OK) ret = err; sa_free_attr_string(proto); } sa_free_protoset(protoset); } if (ret == SA_OK) (void) sa_set_resource_attr(resource, "shared", NULL); return (ret); } /* * sa_disable_resource(resource, protocol) * * Disable the specified share for the specified protocol. If * protocol is NULL, then all protocols. If the underlying * protocol doesn't implement disable at the resource level, we * disable at the share level. */ int sa_disable_resource(sa_resource_t resource, char *protocol) { int ret = SA_OK; if (protocol != NULL) { ret = sa_proto_unshare_resource(protocol, resource); if (ret == SA_NOT_IMPLEMENTED) { sa_share_t parent; /* * The protocol doesn't implement unshare * resource. That implies that resource names are * simple aliases for this protocol so we need to * unshare the share. */ parent = sa_get_resource_parent(resource); if (parent != NULL) ret = sa_disable_share(parent, protocol); else ret = SA_CONFIG_ERR; } } else { sa_optionset_t protoset; sa_property_t prop; char *proto; int err; /* need to do all protocols */ protoset = sa_get_active_protocols(resource); if (protoset == NULL) return (SA_NO_MEMORY); for (prop = sa_get_property(protoset, NULL); prop != NULL; prop = sa_get_next_property(prop)) { proto = sa_get_property_attr(prop, "type"); if (proto == NULL) { ret = SA_NO_MEMORY; continue; } err = sa_proto_unshare_resource(proto, resource); if (err == SA_NOT_SUPPORTED) { sa_share_t parent; parent = sa_get_resource_parent(resource); if (parent != NULL) err = sa_disable_share(parent, proto); else err = SA_CONFIG_ERR; } if (err != SA_OK) ret = err; sa_free_attr_string(proto); } sa_free_protoset(protoset); } if (ret == SA_OK) (void) sa_set_resource_attr(resource, "shared", NULL); return (ret); } /* * sa_set_resource_description(resource, content) * * Set the description of share to content. */ int sa_set_resource_description(sa_resource_t resource, char *content) { xmlNodePtr node; sa_group_t group; sa_share_t share; int ret = SA_OK; for (node = ((xmlNodePtr)resource)->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"description") == 0) { break; } } /* no existing description but want to add */ if (node == NULL && content != NULL) { /* add a description */ node = _sa_set_share_description(resource, content); } else if (node != NULL && content != NULL) { /* update a description */ xmlNodeSetContent(node, (xmlChar *)content); } else if (node != NULL && content == NULL) { /* remove an existing description */ xmlUnlinkNode(node); xmlFreeNode(node); } share = sa_get_resource_parent(resource); group = sa_get_parent_group(share); if (group != NULL && sa_is_persistent(share) && (!sa_group_is_zfs(group))) { sa_handle_impl_t impl_handle; impl_handle = (sa_handle_impl_t)sa_find_group_handle(group); if (impl_handle != NULL) ret = sa_commit_share(impl_handle->scfhandle, group, share); else ret = SA_SYSTEM_ERR; } return (ret); } /* * sa_get_resource_description(share) * * Return the description text for the specified share if it * exists. NULL if no description exists. */ char * sa_get_resource_description(sa_resource_t resource) { xmlChar *description = NULL; xmlNodePtr node; for (node = ((xmlNodePtr)resource)->children; node != NULL; node = node->next) { if (xmlStrcmp(node->name, (xmlChar *)"description") == 0) break; } if (node != NULL) { description = xmlNodeGetContent(node); fixproblemchars((char *)description); } return ((char *)description); }