/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* helper functions for using libscf with sharemgr */ #include #include #include #include "libshare.h" #include "libshare_impl.h" #include "scfutil.h" #include #include #include #include #include ssize_t scf_max_name_len; extern struct sa_proto_plugin *sap_proto_list; /* * The SMF facility uses some properties that must exist. We want to * skip over these when processing protocol options. */ static char *skip_props[] = { "modify_authorization", "action_authorization", "value_authorization", NULL }; /* * sa_scf_fini(handle) * * must be called when done. Called with the handle allocated in * sa_scf_init(), it cleans up the state and frees any SCF resources * still in use. Called by sa_fini(). */ void sa_scf_fini(scfutilhandle_t *handle) { if (handle != NULL) { int unbind = 0; if (handle->scope != NULL) { unbind = 1; scf_scope_destroy(handle->scope); } if (handle->service != NULL) scf_service_destroy(handle->service); if (handle->pg != NULL) scf_pg_destroy(handle->pg); if (handle->handle != NULL) { handle->scf_state = SCH_STATE_UNINIT; if (unbind) (void) scf_handle_unbind(handle->handle); scf_handle_destroy(handle->handle); } free(handle); } } /* * sa_scf_init() * * must be called before using any of the SCF functions. Called by * sa_init() during the API setup. */ scfutilhandle_t * sa_scf_init() { scfutilhandle_t *handle; scf_max_name_len = scf_limit(SCF_LIMIT_MAX_NAME_LENGTH); if (scf_max_name_len <= 0) scf_max_name_len = SA_MAX_NAME_LEN + 1; handle = calloc(1, sizeof (scfutilhandle_t)); if (handle != NULL) { handle->scf_state = SCH_STATE_INITIALIZING; handle->handle = scf_handle_create(SCF_VERSION); if (handle->handle != NULL) { if (scf_handle_bind(handle->handle) == 0) { handle->scope = scf_scope_create(handle->handle); handle->service = scf_service_create(handle->handle); handle->pg = scf_pg_create(handle->handle); handle->instance = scf_instance_create(handle->handle); if (scf_handle_get_scope(handle->handle, SCF_SCOPE_LOCAL, handle->scope) == 0) { if (scf_scope_get_service(handle->scope, SA_GROUP_SVC_NAME, handle->service) != 0) { goto err; } handle->scf_state = SCH_STATE_INIT; if (sa_get_instance(handle, "default") != SA_OK) { char **protolist; int numprotos, i; sa_group_t defgrp; defgrp = sa_create_group("default", NULL); if (defgrp != NULL) { numprotos = sa_get_protocols(&protolist); for (i = 0; i < numprotos; i++) { (void) sa_create_optionset(defgrp, protolist[i]); } if (protolist != NULL) free(protolist); } } } else { goto err; } } else { goto err; } } else { free(handle); handle = NULL; (void) printf("libshare could not access SMF repository: %s\n", scf_strerror(scf_error())); } } return (handle); /* error handling/unwinding */ err: (void) sa_scf_fini(handle); (void) printf("libshare SMF initialization problem: %s\n", scf_strerror(scf_error())); return (NULL); } /* * get_scf_limit(name) * * Since we use scf_limit a lot and do the same check and return the * same value if it fails, implement as a function for code * simplification. Basically, if name isn't found, return MAXPATHLEN * (1024) so we have a reasonable default buffer size. */ static ssize_t get_scf_limit(uint32_t name) { ssize_t vallen; vallen = scf_limit(name); if (vallen == (ssize_t)-1) vallen = MAXPATHLEN; return (vallen); } /* * skip_property(name) * * internal function to check to see if a property is an SMF magic * property that needs to be skipped. */ static int skip_property(char *name) { int i; for (i = 0; skip_props[i] != NULL; i++) if (strcmp(name, skip_props[i]) == 0) return (1); return (0); } /* * generate_unique_sharename(sharename) * * Shares are represented in SMF as property groups. Due to share * paths containing characters that are not allowed in SMF names and * the need to be unique, we use UUIDs to construct a unique name. */ static void generate_unique_sharename(char *sharename) { uuid_t uuid; uuid_generate(uuid); (void) strcpy(sharename, "S-"); uuid_unparse(uuid, sharename + 2); } /* * valid_protocol(proto) * * check to see if the specified protocol is a valid one for the * general sharemgr facility. We determine this by checking which * plugin protocols were found. */ static int valid_protocol(char *proto) { struct sa_proto_plugin *plugin; for (plugin = sap_proto_list; plugin != NULL; plugin = plugin->plugin_next) if (strcmp(proto, plugin->plugin_ops->sa_protocol) == 0) return (1); return (0); } /* * sa_extract_pgroup(root, handle, pg, nodetype, proto, sectype) * * extract the name property group and create the specified type of * node on the provided group. type will be optionset or security. */ static int sa_extract_pgroup(xmlNodePtr root, scfutilhandle_t *handle, scf_propertygroup_t *pg, char *nodetype, char *proto, char *sectype) { xmlNodePtr node; scf_iter_t *iter; scf_property_t *prop; scf_value_t *value; char *name; char *valuestr; ssize_t vallen; int ret = SA_OK; vallen = get_scf_limit(SCF_LIMIT_MAX_VALUE_LENGTH); node = xmlNewChild(root, NULL, (xmlChar *)nodetype, NULL); if (node != NULL) { if (proto != NULL) xmlSetProp(node, (xmlChar *)"type", (xmlChar *)proto); if (sectype != NULL) xmlSetProp(node, (xmlChar *)"sectype", (xmlChar *)sectype); /* * have node to work with so iterate over the properties * in the pg and create option sub nodes. */ iter = scf_iter_create(handle->handle); value = scf_value_create(handle->handle); prop = scf_property_create(handle->handle); name = malloc(scf_max_name_len); valuestr = malloc(vallen); /* * want to iterate through the properties and add them * to the base optionset. */ if (iter != NULL && value != NULL && prop != NULL && valuestr != NULL && name != NULL) { if (scf_iter_pg_properties(iter, pg) == 0) { /* now iterate the properties in the group */ while (scf_iter_next_property(iter, prop) > 0) { /* have a property */ if (scf_property_get_name(prop, name, scf_max_name_len) > 0) { /* some properties are part of the framework */ if (skip_property(name)) continue; if (scf_property_get_value(prop, value) == 0) { if (scf_value_get_astring(value, valuestr, vallen) >= 0) { sa_property_t saprop; saprop = sa_create_property(name, valuestr); if (saprop != NULL) { /* * since in SMF, don't * recurse. Use xmlAddChild * directly, instead. */ xmlAddChild(node, (xmlNodePtr) saprop); } } } } } } } else { ret = SA_NO_MEMORY; } /* cleanup to avoid memory leaks */ if (value != NULL) scf_value_destroy(value); if (iter != NULL) scf_iter_destroy(iter); if (prop != NULL) scf_property_destroy(prop); if (name != NULL) free(name); if (valuestr != NULL) free(valuestr); } return (ret); } /* * sa_extract_attrs(root, handle, instance) * * local function to extract the actual attributes/properties from the * property group of the service instance. These are the well known * attributes of "state" and "zfs". If additional attributes are * added, they should be added here. */ static void sa_extract_attrs(xmlNodePtr root, scfutilhandle_t *handle, scf_instance_t *instance) { scf_property_t *prop; scf_value_t *value; char *valuestr; ssize_t vallen; vallen = get_scf_limit(SCF_LIMIT_MAX_VALUE_LENGTH); prop = scf_property_create(handle->handle); value = scf_value_create(handle->handle); valuestr = malloc(vallen); if (prop != NULL && value != NULL && valuestr != NULL && scf_instance_get_pg(instance, "operation", handle->pg) == 0) { /* * have a property group with desired name so now get * the known attributes. */ if (scf_pg_get_property(handle->pg, "state", prop) == 0) { /* found the property so get the value */ if (scf_property_get_value(prop, value) == 0) { if (scf_value_get_astring(value, valuestr, vallen) >= 0) { xmlSetProp(root, (xmlChar *)"state", (xmlChar *)valuestr); } } } if (scf_pg_get_property(handle->pg, "zfs", prop) == 0) { /* found the property so get the value */ if (scf_property_get_value(prop, value) == 0) { if (scf_value_get_astring(value, valuestr, vallen) > 0) { xmlSetProp(root, (xmlChar *)"zfs", (xmlChar *)valuestr); } } } } if (valuestr != NULL) free(valuestr); if (value != NULL) scf_value_destroy(value); if (prop != NULL) scf_property_destroy(prop); } /* * list of known share attributes. */ static char *share_attr[] = { "path", "id", "resource", NULL, }; static int is_share_attr(char *name) { int i; for (i = 0; share_attr[i] != NULL; i++) if (strcmp(name, share_attr[i]) == 0) return (1); return (0); } /* * sa_share_from_pgroup * * extract the share definition from the share property group. We do * some sanity checking to avoid bad data. * * Since this is only constructing the internal data structures, we * don't use the sa_* functions most of the time. */ void sa_share_from_pgroup(xmlNodePtr root, scfutilhandle_t *handle, scf_propertygroup_t *pg, char *id) { xmlNodePtr node; char *name; scf_iter_t *iter; scf_property_t *prop; scf_value_t *value; ssize_t vallen; char *valuestr; int ret = SA_OK; int have_path = 0; /* * While preliminary check (starts with 'S') passed before * getting here. Need to make sure it is in ID syntax * (Snnnnnn). Note that shares with properties have similar * pgroups. */ vallen = strlen(id); if (*id == SA_SHARE_PG_PREFIX[0] && vallen == SA_SHARE_PG_LEN) { uuid_t uuid; if (strncmp(id, SA_SHARE_PG_PREFIX, SA_SHARE_PG_PREFIXLEN) != 0 || uuid_parse(id + 2, uuid) < 0) return; } else { return; } vallen = get_scf_limit(SCF_LIMIT_MAX_VALUE_LENGTH); iter = scf_iter_create(handle->handle); value = scf_value_create(handle->handle); prop = scf_property_create(handle->handle); name = malloc(scf_max_name_len); valuestr = malloc(vallen); /* * construct the share XML node. It is similar to sa_add_share * but never changes the repository. Also, there won't be any * ZFS or transient shares. Root will be the group it is * associated with. */ node = xmlNewChild(root, NULL, (xmlChar *)"share", NULL); if (node != NULL) { /* * make sure the UUID part of the property group is * stored in the share "id" property. We use this * later. */ xmlSetProp(node, (xmlChar *)"id", (xmlChar *)id); xmlSetProp(node, (xmlChar *)"type", (xmlChar *)"persist"); } if (iter != NULL && value != NULL && prop != NULL && name != NULL) { /* iterate over the share pg properties */ if (scf_iter_pg_properties(iter, pg) == 0) { while (scf_iter_next_property(iter, prop) > 0) { ret = SA_SYSTEM_ERR; /* assume the worst */ if (scf_property_get_name(prop, name, scf_max_name_len) > 0) { if (scf_property_get_value(prop, value) == 0) { if (scf_value_get_astring(value, valuestr, vallen) >= 0) { ret = SA_OK; } } } if (ret == SA_OK) { /* * check that we have the "path" property in * name. The string in name will always be nul * terminated if scf_property_get_name() * succeeded. */ if (strcmp(name, "path") == 0) have_path = 1; if (is_share_attr(name)) { /* * if a share attr, then simple - * usually path and resource name */ xmlSetProp(node, (xmlChar *)name, (xmlChar *)valuestr); } else { if (strcmp(name, "description") == 0) { /* we have a description node */ xmlNodePtr desc; desc = xmlNewChild(node, NULL, (xmlChar *)"description", NULL); if (desc != NULL) xmlNodeSetContent(desc, (xmlChar *)valuestr); } } } } } } /* * a share without a path is broken so we want to not include * these. They shouldn't happen but if you kill a sharemgr in * the process of creating a share, it could happen. They * should be harmless. It is also possible that another * sharemgr is running and in the process of creating a share. */ if (have_path == 0 && node != NULL) { xmlUnlinkNode(node); xmlFreeNode(node); } if (name != NULL) free(name); if (valuestr != NULL) free(valuestr); if (value != NULL) scf_value_destroy(value); if (iter != NULL) scf_iter_destroy(iter); if (prop != NULL) scf_property_destroy(prop); } /* * find_share_by_id(shareid) * * Search all shares in all groups until we find the share represented * by "id". */ static sa_share_t find_share_by_id(char *shareid) { sa_group_t group; sa_share_t share = NULL; char *id = NULL; int done = 0; for (group = sa_get_group(NULL); group != NULL && !done; group = sa_get_next_group(group)) { for (share = sa_get_share(group, NULL); share != NULL; share = sa_get_next_share(share)) { id = sa_get_share_attr(share, "id"); if (id != NULL && strcmp(id, shareid) == 0) { sa_free_attr_string(id); id = NULL; done++; break; } if (id != NULL) { sa_free_attr_string(id); id = NULL; } } } return (share); } /* * sa_share_props_from_pgroup(root, handle, pg, id) * * extract share properties from the SMF property group. More sanity * checks are done and the share object is created. We ignore some * errors that could exist in the repository and only worry about * property groups that validate in naming. */ static int sa_share_props_from_pgroup(xmlNodePtr root, scfutilhandle_t *handle, scf_propertygroup_t *pg, char *id) { xmlNodePtr node; char *name; scf_iter_t *iter; scf_property_t *prop; scf_value_t *value; ssize_t vallen; char *valuestr; int ret = SA_OK; char *sectype = NULL; char *proto; sa_share_t share; /* * While preliminary check (starts with 'S') passed before * getting here. Need to make sure it is in ID syntax * (Snnnnnn). Note that shares with properties have similar * pgroups. If the pg name is more than SA_SHARE_PG_LEN * characters, it is likely one of the protocol/security * versions. */ vallen = strlen(id); if (*id == SA_SHARE_PG_PREFIX[0] && vallen > SA_SHARE_PG_LEN) { uuid_t uuid; if (strncmp(id, SA_SHARE_PG_PREFIX, SA_SHARE_PG_PREFIXLEN) == 0) { proto = strchr(id, '_'); if (proto == NULL) return (ret); *proto++ = '\0'; if (uuid_parse(id + SA_SHARE_PG_PREFIXLEN, uuid) < 0) return (ret); /* * probably a legal optionset so check a few more * syntax points below. */ if (*proto == '\0') { /* not a valid proto (null) */ return (ret); } sectype = strchr(proto, '_'); if (sectype != NULL) *sectype++ = '\0'; if (!valid_protocol(proto)) return (ret); } } else { /* * it is ok to not have what we thought since someone might * have added a name via SMF. */ return (ret); } /* * to get here, we have a valid protocol and possibly a * security. We now have to find the share that it is really * associated with. The "id" portion of the pgroup name will * match. */ share = find_share_by_id(id); if (share == NULL) return (SA_BAD_PATH); root = (xmlNodePtr)share; vallen = get_scf_limit(SCF_LIMIT_MAX_VALUE_LENGTH); iter = scf_iter_create(handle->handle); value = scf_value_create(handle->handle); prop = scf_property_create(handle->handle); name = malloc(scf_max_name_len); valuestr = malloc(vallen); if (sectype == NULL) node = xmlNewChild(root, NULL, (xmlChar *)"optionset", NULL); else { node = xmlNewChild(root, NULL, (xmlChar *)"security", NULL); if (node != NULL) xmlSetProp(node, (xmlChar *)"sectype", (xmlChar *)sectype); } if (node != NULL) { xmlSetProp(node, (xmlChar *)"type", (xmlChar *)proto); /* now find the properties */ if (iter != NULL && value != NULL && prop != NULL && name != NULL) { /* iterate over the share pg properties */ if (scf_iter_pg_properties(iter, pg) == 0) { while (scf_iter_next_property(iter, prop) > 0) { ret = SA_SYSTEM_ERR; /* assume the worst */ if (scf_property_get_name(prop, name, scf_max_name_len) > 0) { if (scf_property_get_value(prop, value) == 0) { if (scf_value_get_astring(value, valuestr, vallen) >= 0) { ret = SA_OK; } } } else { ret = SA_SYSTEM_ERR; } if (ret == SA_OK) { sa_property_t prop; prop = sa_create_property(name, valuestr); if (prop != NULL) prop = (sa_property_t)xmlAddChild(node, (xmlNodePtr)prop); else ret = SA_NO_MEMORY; } } } else { ret = SA_SYSTEM_ERR; } } } else { ret = SA_NO_MEMORY; } if (iter != NULL) scf_iter_destroy(iter); if (value != NULL) scf_value_destroy(value); if (prop != NULL) scf_property_destroy(prop); if (name != NULL) free(name); if (valuestr != NULL) free(valuestr); return (ret); } /* * sa_extract_group(root, handle, instance) * * get the config info for this instance of a group and create the XML * subtree from it. */ static int sa_extract_group(xmlNodePtr root, scfutilhandle_t *handle, scf_instance_t *instance) { char *buff; xmlNodePtr node; scf_iter_t *iter; char *proto; char *sectype; int have_shares = 0; int has_proto = 0; int is_default = 0; int ret = SA_OK; int err; buff = malloc(scf_max_name_len); iter = scf_iter_create(handle->handle); if (buff != NULL) { if (scf_instance_get_name(instance, buff, scf_max_name_len) > 0) { node = xmlNewChild(root, NULL, (xmlChar *)"group", NULL); if (node != NULL) { xmlSetProp(node, (xmlChar *)"name", (xmlChar *)buff); if (strcmp(buff, "default") == 0) is_default++; sa_extract_attrs(node, handle, instance); /* * Iterate through all the property groups * looking for those with security or * optionset prefixes. The names of the * matching pgroups are parsed to get the * protocol, and for security, the sectype. * Syntax is as follows: * optionset | optionset_ * security_default | security__ * "operation" is handled by * sa_extract_attrs(). */ if (iter != NULL) { if (scf_iter_instance_pgs(iter, instance) == 0) { while (scf_iter_next_pg(iter, handle->pg) > 0) { /* have a pgroup so sort it out */ ret = scf_pg_get_name(handle->pg, buff, scf_max_name_len); if (ret > 0) { if (buff[0] == SA_SHARE_PG_PREFIX[0]) { sa_share_from_pgroup(node, handle, handle->pg, buff); have_shares++; } else if (strncmp(buff, "optionset", 9) == 0) { char *nodetype = "optionset"; /* have an optionset */ sectype = NULL; proto = strchr(buff, '_'); if (proto != NULL) { *proto++ = '\0'; sectype = strchr(proto, '_'); if (sectype != NULL) { *sectype++ = '\0'; nodetype = "security"; } } ret = sa_extract_pgroup(node, handle, handle->pg, nodetype, proto, sectype); has_proto++; } else if (strncmp(buff, "security", 8) == 0) { /* * have a security (note that * this should change in the * future) */ proto = strchr(buff, '_'); sectype = NULL; if (proto != NULL) { *proto++ = '\0'; sectype = strchr(proto, '_'); if (sectype != NULL) *sectype++ = '\0'; if (strcmp(proto, "default") == 0) proto = NULL; } ret = sa_extract_pgroup(node, handle, handle->pg, "security", proto, sectype); has_proto++; } /* ignore everything else */ } } } else { ret = SA_NO_MEMORY; } /* * Make sure we have a valid default group. * On first boot, default won't have any * protocols defined and won't be enabled (but * should be). */ if (is_default) { char *state = sa_get_group_attr((sa_group_t)node, "state"); char **protos; int numprotos; int i; if (state == NULL) { /* set attribute to enabled */ (void) sa_set_group_attr((sa_group_t)node, "state", "enabled"); /* we can assume no protocols */ numprotos = sa_get_protocols(&protos); for (i = 0; i < numprotos; i++) (void) sa_create_optionset((sa_group_t)node, protos[i]); if (numprotos > 0) free(protos); } else { sa_free_attr_string(state); } } /* do a second pass if shares were found */ if (have_shares && scf_iter_instance_pgs(iter, instance) == 0) { while (scf_iter_next_pg(iter, handle->pg) > 0) { /* * have a pgroup so see if it is a * share optionset */ err = scf_pg_get_name(handle->pg, buff, scf_max_name_len); if (err > 0) { if (buff[0] == SA_SHARE_PG_PREFIX[0]) { ret = sa_share_props_from_pgroup(node, handle, handle->pg, buff); } } } } } } } } if (iter != NULL) scf_iter_destroy(iter); if (buff != NULL) free(buff); return (ret); } /* * sa_extract_defaults(root, handle, instance) * * local function to find the default properties that live in the * default instance's "operation" proprerty group. */ static void sa_extract_defaults(xmlNodePtr root, scfutilhandle_t *handle, scf_instance_t *instance) { xmlNodePtr node; scf_property_t *prop; scf_value_t *value; char *valuestr; ssize_t vallen; vallen = get_scf_limit(SCF_LIMIT_MAX_VALUE_LENGTH); prop = scf_property_create(handle->handle); value = scf_value_create(handle->handle); valuestr = malloc(vallen); if (prop != NULL && value != NULL && vallen != NULL && scf_instance_get_pg(instance, "operation", handle->pg) == 0) { if (scf_pg_get_property(handle->pg, "legacy-timestamp", prop) == 0) { /* found the property so get the value */ if (scf_property_get_value(prop, value) == 0) { if (scf_value_get_astring(value, valuestr, vallen) > 0) { node = xmlNewChild(root, NULL, (xmlChar *)"legacy", NULL); if (node != NULL) { xmlSetProp(node, (xmlChar *)"timestamp", (xmlChar *)valuestr); xmlSetProp(node, (xmlChar *)"path", (xmlChar *)SA_LEGACY_DFSTAB); } } } } } if (valuestr != NULL) free(valuestr); if (value != NULL) scf_value_destroy(value); if (prop != NULL) scf_property_destroy(prop); } /* * sa_get_config(handle, root, doc) * * walk the SMF repository for /network/shares/group and find all the * instances. These become group names. Then add the XML structure * below the groups based on property groups and properties. */ int sa_get_config(scfutilhandle_t *handle, xmlNodePtr *root, xmlDocPtr *doc) { int ret = SA_OK; scf_instance_t *instance; scf_iter_t *iter; char buff[BUFSIZ * 2]; *doc = xmlNewDoc((xmlChar *)"1.0"); *root = xmlNewNode(NULL, (xmlChar *)"sharecfg"); instance = scf_instance_create(handle->handle); iter = scf_iter_create(handle->handle); if (*doc != NULL && *root != NULL && instance != NULL && iter != NULL) { xmlDocSetRootElement(*doc, *root); if ((ret = scf_iter_service_instances(iter, handle->service)) == 0) { while ((ret = scf_iter_next_instance(iter, instance)) > 0) { if (scf_instance_get_name(instance, buff, sizeof (buff)) > 0) { if (strcmp(buff, "default") == 0) sa_extract_defaults(*root, handle, instance); ret = sa_extract_group(*root, handle, instance); } } } } else { /* if we can't create the document, cleanup */ if (*doc != NULL) xmlFreeDoc(*doc); if (*root != NULL) xmlFreeNode(*root); *doc = NULL; *root = NULL; } /* always cleanup these */ if (instance != NULL) scf_instance_destroy(instance); if (iter != NULL) scf_iter_destroy(iter); return (ret); } /* * sa_get_instance(handle, instance) * * get the instance of the group service. This is actually the * specific group name. The instance is needed for all property and * control operations. */ int sa_get_instance(scfutilhandle_t *handle, char *instname) { if (scf_service_get_instance(handle->service, instname, handle->instance) != 0) { return (SA_NO_SUCH_GROUP); } return (SA_OK); } /* * sa_create_instance(handle, instname) * * Create a new SMF service instance. There can only be one with a * given name. */ int sa_create_instance(scfutilhandle_t *handle, char *instname) { int ret = SA_OK; char instance[SA_GROUP_INST_LEN]; if (scf_service_add_instance(handle->service, instname, handle->instance) != 0) { /* better error returns need to be added based on real error */ if (scf_error() == SCF_ERROR_PERMISSION_DENIED) ret = SA_NO_PERMISSION; else ret = SA_DUPLICATE_NAME; } else { /* have the service created, so enable it */ (void) snprintf(instance, sizeof (instance), "%s:%s", SA_SVC_FMRI_BASE, instname); (void) smf_enable_instance(instance, 0); } return (ret); } /* * sa_delete_instance(handle, instname) * * When a group goes away, we also remove the service instance. */ int sa_delete_instance(scfutilhandle_t *handle, char *instname) { int ret; if (strcmp(instname, "default") == 0) { ret = SA_NO_PERMISSION; } else { if ((ret = sa_get_instance(handle, instname)) == SA_OK) { if (scf_instance_delete(handle->instance) != 0) /* need better analysis */ ret = SA_NO_PERMISSION; } } return (ret); } /* * sa_create_pgroup(handle, pgroup) * * create a new property group */ int sa_create_pgroup(scfutilhandle_t *handle, char *pgroup) { int ret = SA_OK; /* * only create a handle if it doesn't exist. It is ok to exist * since the pg handle will be set as a side effect. */ if (handle->pg == NULL) { handle->pg = scf_pg_create(handle->handle); } /* * if the pgroup exists, we are done. If it doesn't, then we * need to actually add one to the service instance. */ if (scf_instance_get_pg(handle->instance, pgroup, handle->pg) != 0) { /* doesn't exist so create one */ if (scf_instance_add_pg(handle->instance, pgroup, SCF_GROUP_APPLICATION, 0, handle->pg) != 0) { switch (scf_error()) { case SCF_ERROR_PERMISSION_DENIED: ret = SA_NO_PERMISSION; break; default: ret = SA_SYSTEM_ERR; break; } } } return (ret); } /* * sa_delete_pgroup(handle, pgroup) * * remove the property group from the current instance of the service, * but only if it actually exists. */ int sa_delete_pgroup(scfutilhandle_t *handle, char *pgroup) { int ret = SA_OK; /* * only delete if it does exist. */ if (scf_instance_get_pg(handle->instance, pgroup, handle->pg) == 0) { /* does exist so delete it */ if (scf_pg_delete(handle->pg) != 0) { ret = SA_SYSTEM_ERR; } } else { ret = SA_SYSTEM_ERR; } if (ret == SA_SYSTEM_ERR && scf_error() == SCF_ERROR_PERMISSION_DENIED) { ret = SA_NO_PERMISSION; } return (ret); } /* * sa_start_transaction(handle, pgroup) * * Start an SMF transaction so we can deal with properties. it would * be nice to not have to expose this, but we have to in order to * optimize. * * Basic model is to hold the transaction in the handle and allow * property adds/deletes/updates to be added then close the * transaction (or abort). There may eventually be a need to handle * other types of transaction mechanisms but we don't do that now. * * An sa_start_transaction must be followed by either an * sa_end_transaction or sa_abort_transaction before another * sa_start_transaction can be done. */ int sa_start_transaction(scfutilhandle_t *handle, char *propgroup) { int ret = SA_OK; /* * lookup the property group and create it if it doesn't already * exist. */ if (handle->scf_state == SCH_STATE_INIT) { ret = sa_create_pgroup(handle, propgroup); if (ret == SA_OK) { handle->trans = scf_transaction_create(handle->handle); if (handle->trans != NULL) { if (scf_transaction_start(handle->trans, handle->pg) != 0) { ret = SA_SYSTEM_ERR; } if (ret != SA_OK) { scf_transaction_destroy(handle->trans); handle->trans = NULL; } } else { ret = SA_SYSTEM_ERR; } } } if (ret == SA_SYSTEM_ERR && scf_error() == SCF_ERROR_PERMISSION_DENIED) { ret = SA_NO_PERMISSION; } return (ret); } /* * sa_end_transaction(handle) * * Commit the changes that were added to the transaction in the * handle. Do all necessary cleanup. */ int sa_end_transaction(scfutilhandle_t *handle) { int ret = SA_OK; if (handle->trans == NULL) { ret = SA_SYSTEM_ERR; } else { if (scf_transaction_commit(handle->trans) < 0) ret = SA_SYSTEM_ERR; scf_transaction_destroy_children(handle->trans); scf_transaction_destroy(handle->trans); handle->trans = NULL; } return (ret); } /* * sa_abort_transaction(handle) * * Abort the changes that were added to the transaction in the * handle. Do all necessary cleanup. */ void sa_abort_transaction(scfutilhandle_t *handle) { if (handle->trans != NULL) { scf_transaction_reset_all(handle->trans); scf_transaction_destroy_children(handle->trans); scf_transaction_destroy(handle->trans); handle->trans = NULL; } } /* * sa_set_property(handle, prop, value) * * set a property transaction entry into the pending SMF transaction. */ int sa_set_property(scfutilhandle_t *handle, char *propname, char *valstr) { int ret = SA_OK; scf_value_t *value; scf_transaction_entry_t *entry; /* * properties must be set in transactions and don't take * effect until the transaction has been ended/committed. */ value = scf_value_create(handle->handle); entry = scf_entry_create(handle->handle); if (value != NULL && entry != NULL) { if (scf_transaction_property_change(handle->trans, entry, propname, SCF_TYPE_ASTRING) == 0 || scf_transaction_property_new(handle->trans, entry, propname, SCF_TYPE_ASTRING) == 0) { if (scf_value_set_astring(value, valstr) == 0) { if (scf_entry_add_value(entry, value) != 0) { ret = SA_SYSTEM_ERR; scf_value_destroy(value); } /* the value is in the transaction */ value = NULL; } else { /* value couldn't be constructed */ ret = SA_SYSTEM_ERR; } /* the entry is in the transaction */ entry = NULL; } else { ret = SA_SYSTEM_ERR; } } else { ret = SA_SYSTEM_ERR; } if (ret == SA_SYSTEM_ERR) { switch (scf_error()) { case SCF_ERROR_PERMISSION_DENIED: ret = SA_NO_PERMISSION; break; } } /* * cleanup if there were any errors that didn't leave these * values where they would be cleaned up later. */ if (value != NULL) scf_value_destroy(value); if (entry != NULL) scf_entry_destroy(entry); return (ret); } /* * sa_commit_share(handle, group, share) * * commit this share to the repository. * properties are added if they exist but can be added later. * Need to add to dfstab and sharetab, if appropriate. */ int sa_commit_share(scfutilhandle_t *handle, sa_group_t group, sa_share_t share) { int ret = SA_OK; char *groupname; char *name; char *resource; char *description; char *sharename; ssize_t proplen; char *propstring; /* * don't commit in the zfs group. We do commit legacy * (default) and all other groups/shares. ZFS is handled * through the ZFS configuration rather than SMF. */ groupname = sa_get_group_attr(group, "name"); if (groupname != NULL) { if (strcmp(groupname, "zfs") == 0) { /* * adding to the ZFS group will result in the sharenfs * property being set but we don't want to do anything * SMF related at this point. */ sa_free_attr_string(groupname); return (ret); } } proplen = get_scf_limit(SCF_LIMIT_MAX_VALUE_LENGTH); propstring = malloc(proplen); if (propstring == NULL) ret = SA_NO_MEMORY; if (groupname != NULL && ret == SA_OK) { ret = sa_get_instance(handle, groupname); sa_free_attr_string(groupname); groupname = NULL; sharename = sa_get_share_attr(share, "id"); if (sharename == NULL) { /* slipped by */ char shname[SA_SHARE_UUID_BUFLEN]; generate_unique_sharename(shname); xmlSetProp((xmlNodePtr)share, (xmlChar *)"id", (xmlChar *)shname); sharename = strdup(shname); } if (sharename != NULL) { sigset_t old, new; /* * have a share name allocated so create a pgroup for * it. It may already exist, but that is OK. In order * to avoid creating a share pgroup that doesn't have * a path property, block signals around the critical * region of creating the share pgroup and props. */ (void) sigprocmask(SIG_BLOCK, NULL, &new); (void) sigaddset(&new, SIGHUP); (void) sigaddset(&new, SIGINT); (void) sigaddset(&new, SIGQUIT); (void) sigaddset(&new, SIGTSTP); (void) sigprocmask(SIG_SETMASK, &new, &old); ret = sa_create_pgroup(handle, sharename); if (ret == SA_OK) { /* * now start the transaction for the * properties that define this share. They may * exist so attempt to update before create. */ ret = sa_start_transaction(handle, sharename); } if (ret == SA_OK) { name = sa_get_share_attr(share, "path"); if (name != NULL) { /* there needs to be a path for a share to exist */ ret = sa_set_property(handle, "path", name); sa_free_attr_string(name); } else { ret = SA_NO_MEMORY; } } if (ret == SA_OK) { resource = sa_get_share_attr(share, "resource"); if (resource != NULL) { ret = sa_set_property(handle, "resource", resource); sa_free_attr_string(resource); } } if (ret == SA_OK) { description = sa_get_share_description(share); if (description != NULL) { ret = sa_set_property(handle, "description", description); sa_free_share_description(description); } } /* make sure we cleanup the transaction */ if (ret == SA_OK) { ret = sa_end_transaction(handle); } else { sa_abort_transaction(handle); } (void) sigprocmask(SIG_SETMASK, &old, NULL); free(sharename); } } if (ret == SA_SYSTEM_ERR) { int err = scf_error(); if (err == SCF_ERROR_PERMISSION_DENIED) ret = SA_NO_PERMISSION; } if (propstring != NULL) free(propstring); if (groupname != NULL) sa_free_attr_string(groupname); return (ret); } /* * sa_delete_share(handle, group, share) * * remove the specified share from the group (and service instance). */ int sa_delete_share(scfutilhandle_t *handle, sa_group_t group, sa_share_t share) { int ret = SA_OK; char *groupname = NULL; char *shareid = NULL; sa_optionset_t opt; sa_security_t sec; ssize_t proplen; char *propstring; proplen = get_scf_limit(SCF_LIMIT_MAX_VALUE_LENGTH); propstring = malloc(proplen); if (propstring == NULL) ret = SA_NO_MEMORY; if (ret == SA_OK) { groupname = sa_get_group_attr(group, "name"); shareid = sa_get_share_attr(share, "id"); if (groupname != NULL && shareid != NULL) { ret = sa_get_instance(handle, groupname); if (ret == SA_OK) { /* if a share has properties, remove them */ ret = sa_delete_pgroup(handle, shareid); for (opt = sa_get_optionset(share, NULL); opt != NULL; opt = sa_get_next_optionset(opt)) { char *proto; proto = sa_get_optionset_attr(opt, "type"); if (proto != NULL) { (void) snprintf(propstring, proplen, "%s_%s", shareid, proto); ret = sa_delete_pgroup(handle, propstring); sa_free_attr_string(proto); } else { ret = SA_NO_MEMORY; } } /* * if a share has security/negotiable * properties, remove them. */ for (sec = sa_get_security(share, NULL, NULL); sec != NULL; sec = sa_get_next_security(sec)) { char *proto; char *sectype; proto = sa_get_security_attr(sec, "type"); sectype = sa_get_security_attr(sec, "sectype"); if (proto != NULL && sectype != NULL) { (void) snprintf(propstring, proplen, "%s_%s_%s", shareid, proto, sectype); ret = sa_delete_pgroup(handle, propstring); } else { ret = SA_NO_MEMORY; } if (proto != NULL) sa_free_attr_string(proto); if (sectype != NULL) sa_free_attr_string(sectype); } } } else { ret = SA_CONFIG_ERR; } } if (groupname != NULL) sa_free_attr_string(groupname); if (shareid != NULL) sa_free_attr_string(shareid); if (propstring != NULL) free(propstring); return (ret); }