/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* From iscsitgtd */ #define TARGET_NAME_VERS 2 /* this should be defined someplace central... */ #define ISCSI_NAME_LEN_MAX 223 /* max length of a base64 encoded secret */ #define MAX_BASE64_LEN 341 /* Default RADIUS server port */ #define DEFAULT_RADIUS_PORT 1812 /* The iscsit SMF service FMRI */ #define ISCSIT_FMRI "svc:/network/iscsi/target:default" /* * The kernel reserves target portal group tag value 1 as the default. */ #define ISCSIT_DEFAULT_TPGT 1 #define MAXTAG 0xffff /* helper for property list validation */ #define PROPERR(lst, key, value) { \ if (lst) { \ (void) nvlist_add_string(lst, key, value); \ } \ } /* helper function declarations */ static int it_iqn_generate(char *iqn_buf, int iqn_buf_len, char *opt_iqn_suffix); static int it_val_pass(char *name, char *val, nvlist_t *e); /* consider making validate funcs public */ static int it_validate_configprops(nvlist_t *nvl, nvlist_t *errs); static int it_validate_tgtprops(nvlist_t *nvl, nvlist_t *errs); static int it_validate_iniprops(nvlist_t *nvl, nvlist_t *errs); static boolean_t is_iscsit_enabled(void); static void iqnstr(char *s); static void euistr(char *s); /* * Function: it_config_load() * * Allocate and create an it_config_t structure representing the * current iSCSI configuration. This structure is compiled using * the 'provider' data returned by stmfGetProviderData(). If there * is no provider data associated with iscsit, the it_config_t * structure will be set to a default configuration. * * Parameters: * cfg A C representation of the current iSCSI configuration * * Return Values: * 0 Success * ENOMEM Could not allocate resources * EINVAL Invalid parameter */ int it_config_load(it_config_t **cfg) { int ret = 0; nvlist_t *cfg_nv = NULL; it_config_t *newcfg = NULL; uint64_t stmf_token = 0; if (!cfg) { return (EINVAL); } *cfg = NULL; ret = stmfGetProviderDataProt(ISCSIT_MODNAME, &cfg_nv, STMF_PORT_PROVIDER_TYPE, &stmf_token); if ((ret == STMF_STATUS_SUCCESS) || (ret == STMF_ERROR_NOT_FOUND)) { /* * If not initialized yet, return empty it_config_t * Else, convert nvlist to struct */ ret = it_nv_to_config(cfg_nv, &newcfg); } if (ret == 0) { newcfg->stmf_token = stmf_token; *cfg = newcfg; } if (cfg_nv) { nvlist_free(cfg_nv); } return (ret); } /* * Function: it_config_commit() * * Informs the iscsit service that the configuration has changed and * commits the new configuration to persistent store by calling * stmfSetProviderData. This function can be called multiple times * during a configuration sequence if necessary. * * Parameters: * cfg A C representation of the current iSCSI configuration * * Return Values: * 0 Success * ENOMEM Could not allocate resources * EINVAL Invalid it_config_t structure * TBD ioctl() failed * TBD could not save config to STMF */ int it_config_commit(it_config_t *cfg) { int ret; nvlist_t *cfgnv = NULL; char *packednv = NULL; int iscsit_fd = -1; size_t pnv_size; iscsit_ioc_set_config_t iop; it_tgt_t *tgtp; if (!cfg) { return (EINVAL); } ret = it_config_to_nv(cfg, &cfgnv); if (ret == 0) { ret = nvlist_size(cfgnv, &pnv_size, NV_ENCODE_NATIVE); } /* * If the iscsit service is enabled, send the changes to the * kernel first. Kernel will be the final sanity check before * the config is saved persistently. * * This somewhat leaves open the simultaneous-change hole * that STMF was trying to solve, but is a better sanity * check and allows for graceful handling of target renames. */ if ((ret == 0) && is_iscsit_enabled()) { packednv = malloc(pnv_size); if (!packednv) { ret = ENOMEM; } else { ret = nvlist_pack(cfgnv, &packednv, &pnv_size, NV_ENCODE_NATIVE, 0); } if (ret == 0) { iscsit_fd = open(ISCSIT_NODE, O_RDWR|O_EXCL); if (iscsit_fd != -1) { iop.set_cfg_vers = ISCSIT_API_VERS0; iop.set_cfg_pnvlist = packednv; iop.set_cfg_pnvlist_len = pnv_size; if ((ioctl(iscsit_fd, ISCSIT_IOC_SET_CONFIG, &iop)) != 0) { ret = errno; } (void) close(iscsit_fd); } else { ret = errno; } } if (packednv != NULL) { free(packednv); } } /* * Before saving the config persistently, remove any * PROP_OLD_TARGET_NAME entries. This is only interesting to * the active service. */ if (ret == 0) { boolean_t changed = B_FALSE; tgtp = cfg->config_tgt_list; for (; tgtp != NULL; tgtp = tgtp->tgt_next) { if (!tgtp->tgt_properties) { continue; } if (nvlist_exists(tgtp->tgt_properties, PROP_OLD_TARGET_NAME)) { (void) nvlist_remove_all(tgtp->tgt_properties, PROP_OLD_TARGET_NAME); changed = B_TRUE; } } if (changed) { /* rebuild the config nvlist */ nvlist_free(cfgnv); cfgnv = NULL; ret = it_config_to_nv(cfg, &cfgnv); } } /* * stmfGetProviderDataProt() checks to ensure * that the config data hasn't changed since we fetched it. * * The kernel now has a version we need to save persistently. * CLI will 'do the right thing' and warn the user if it * gets STMF_ERROR_PROV_DATA_STALE. We'll try once to revert * the kernel to the persistently saved data, but ultimately, * it's up to the administrator to validate things are as they * want them to be. */ if (ret == 0) { ret = stmfSetProviderDataProt(ISCSIT_MODNAME, cfgnv, STMF_PORT_PROVIDER_TYPE, &(cfg->stmf_token)); if (ret == STMF_STATUS_SUCCESS) { ret = 0; } else if (ret == STMF_ERROR_NOMEM) { ret = ENOMEM; } else if (ret == STMF_ERROR_PROV_DATA_STALE) { int st; it_config_t *rcfg = NULL; st = it_config_load(&rcfg); if (st == 0) { (void) it_config_commit(rcfg); it_config_free(rcfg); } } } if (cfgnv) { nvlist_free(cfgnv); } return (ret); } /* * Function: it_config_setprop() * * Validate the provided property list and set the global properties * for iSCSI Target. If errlist is not NULL, returns detailed * errors for each property that failed. The format for errorlist * is key = property, value = error string. * * Parameters: * * cfg The current iSCSI configuration obtained from * it_config_load() * proplist nvlist_t containing properties for this target. * errlist (optional) nvlist_t of errors encountered when * validating the properties. * * Return Values: * 0 Success * EINVAL Invalid property * */ int it_config_setprop(it_config_t *cfg, nvlist_t *proplist, nvlist_t **errlist) { int ret; it_portal_t *isns = NULL; it_portal_t *pnext = NULL; it_portal_t *newisnslist = NULL; char **arr; uint32_t count; uint32_t newcount; nvlist_t *cprops = NULL; char *val = NULL; if (!cfg || !proplist) { return (EINVAL); } if (errlist) { (void) nvlist_alloc(errlist, 0, 0); } /* * copy the existing properties, merge, then validate * the merged properties before committing them. */ if (cfg->config_global_properties) { ret = nvlist_dup(cfg->config_global_properties, &cprops, 0); } else { ret = nvlist_alloc(&cprops, NV_UNIQUE_NAME, 0); } /* base64 encode the radius secret, if it's changed */ val = NULL; (void) nvlist_lookup_string(proplist, PROP_RADIUS_SECRET, &val); if (val) { char bsecret[MAX_BASE64_LEN]; ret = it_val_pass(PROP_RADIUS_SECRET, val, *errlist); if (ret == 0) { (void) memset(bsecret, 0, MAX_BASE64_LEN); ret = iscsi_binary_to_base64_str((uint8_t *)val, strlen(val), bsecret, MAX_BASE64_LEN); if (ret == 0) { /* replace the value in the nvlist */ ret = nvlist_add_string(proplist, PROP_RADIUS_SECRET, bsecret); } } } if (ret == 0) { ret = nvlist_merge(cprops, proplist, 0); } /* see if we need to remove the radius server setting */ val = NULL; (void) nvlist_lookup_string(cprops, PROP_RADIUS_SERVER, &val); if (val && (strcasecmp(val, "none") == 0)) { (void) nvlist_remove_all(cprops, PROP_RADIUS_SERVER); } /* and/or remove the alias */ val = NULL; (void) nvlist_lookup_string(cprops, PROP_ALIAS, &val); if (val && (strcasecmp(val, "none") == 0)) { (void) nvlist_remove_all(cprops, PROP_ALIAS); } if (ret == 0) { ret = it_validate_configprops(cprops, *errlist); } if (ret != 0) { if (cprops) { nvlist_free(cprops); } return (ret); } /* * Update iSNS server list, if exists in provided property list. */ ret = nvlist_lookup_string_array(proplist, PROP_ISNS_SERVER, &arr, &count); if (ret == 0) { /* special case: if "none", remove all defined */ if (strcasecmp(arr[0], "none") != 0) { ret = it_array_to_portallist(arr, count, ISNS_DEFAULT_SERVER_PORT, &newisnslist, &newcount); } else { newisnslist = NULL; newcount = 0; (void) nvlist_remove_all(cprops, PROP_ISNS_SERVER); } if (ret == 0) { isns = cfg->config_isns_svr_list; while (isns) { pnext = isns->next; free(isns); isns = pnext; } cfg->config_isns_svr_list = newisnslist; cfg->config_isns_svr_count = newcount; /* * Replace the array in the nvlist to ensure * duplicates are properly removed & port numbers * are added. */ if (newcount > 0) { int i = 0; char **newarray; newarray = malloc(sizeof (char *) * newcount); if (newarray == NULL) { ret = ENOMEM; } else { for (isns = newisnslist; isns != NULL; isns = isns->next) { (void) sockaddr_to_str( &(isns->portal_addr), &(newarray[i++])); } (void) nvlist_add_string_array(cprops, PROP_ISNS_SERVER, newarray, newcount); for (i = 0; i < newcount; i++) { if (newarray[i]) { free(newarray[i]); } } free(newarray); } } } } else if (ret == ENOENT) { /* not an error */ ret = 0; } if (ret == 0) { /* replace the global properties list */ nvlist_free(cfg->config_global_properties); cfg->config_global_properties = cprops; } else { if (cprops) { nvlist_free(cprops); } } return (ret); } /* * Function: it_config_free() * * Free any resources associated with the it_config_t structure. * * Parameters: * cfg A C representation of the current iSCSI configuration */ void it_config_free(it_config_t *cfg) { it_config_free_cmn(cfg); } /* * Function: it_tgt_create() * * Allocate and create an it_tgt_t structure representing a new iSCSI * target node. If tgt_name is NULL, then a unique target node name will * be generated automatically. Otherwise, the value of tgt_name will be * used as the target node name. The new it_tgt_t structure is added to * the target list (cfg_tgt_list) in the configuration structure, and the * new target will not be instantiated until the modified configuration * is committed by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configuration obtained from * it_config_load() * tgt Pointer to an iSCSI target structure * tgt_name The target node name for the target to be created. * The name must be in either IQN or EUI format. If * this value is NULL, a node name will be generated * automatically in IQN format. * * Return Values: * 0 Success * ENOMEM Could not allocated resources * EINVAL Invalid parameter * EFAULT Invalid iSCSI name specified * E2BIG Too many already exist */ int it_tgt_create(it_config_t *cfg, it_tgt_t **tgt, char *tgt_name) { int ret = 0; it_tgt_t *ptr; it_tgt_t *cfgtgt; char *namep; char buf[ISCSI_NAME_LEN_MAX + 1]; if (!cfg || !tgt) { return (EINVAL); } if (!tgt_name) { /* generate a name */ ret = it_iqn_generate(buf, sizeof (buf), NULL); if (ret != 0) { return (ret); } } else { /* validate the passed-in name */ if (!validate_iscsi_name(tgt_name)) { return (EFAULT); } (void) strlcpy(buf, tgt_name, sizeof (buf)); canonical_iscsi_name(buf); } namep = buf; /* make sure this name isn't already on the list */ cfgtgt = cfg->config_tgt_list; while (cfgtgt != NULL) { if (strcasecmp(namep, cfgtgt->tgt_name) == 0) { return (EEXIST); } cfgtgt = cfgtgt->tgt_next; } /* Too many targets? */ if (cfg->config_tgt_count >= MAX_TARGETS) { return (E2BIG); } ptr = calloc(1, sizeof (it_tgt_t)); if (ptr == NULL) { return (ENOMEM); } (void) strlcpy(ptr->tgt_name, namep, sizeof (ptr->tgt_name)); ptr->tgt_generation = 1; ptr->tgt_next = cfg->config_tgt_list; cfg->config_tgt_list = ptr; cfg->config_tgt_count++; *tgt = ptr; return (0); } /* * Function: it_tgt_setprop() * * Validate the provided property list and set the properties for * the specified target. If errlist is not NULL, returns detailed * errors for each property that failed. The format for errorlist * is key = property, value = error string. * * Parameters: * * cfg The current iSCSI configuration obtained from * it_config_load() * tgt Pointer to an iSCSI target structure * proplist nvlist_t containing properties for this target. * errlist (optional) nvlist_t of errors encountered when * validating the properties. * * Return Values: * 0 Success * EINVAL Invalid property * */ int it_tgt_setprop(it_config_t *cfg, it_tgt_t *tgt, nvlist_t *proplist, nvlist_t **errlist) { int ret; nvlist_t *tprops = NULL; char *val = NULL; if (!cfg || !tgt || !proplist) { return (EINVAL); } /* verify the target name in case the target node is renamed */ if (!validate_iscsi_name(tgt->tgt_name)) { return (EINVAL); } canonical_iscsi_name(tgt->tgt_name); if (errlist) { (void) nvlist_alloc(errlist, 0, 0); } /* * copy the existing properties, merge, then validate * the merged properties before committing them. */ if (tgt->tgt_properties) { ret = nvlist_dup(tgt->tgt_properties, &tprops, 0); } else { ret = nvlist_alloc(&tprops, NV_UNIQUE_NAME, 0); } if (ret == 0) { ret = nvlist_merge(tprops, proplist, 0); } /* unset chap username or alias if requested */ val = NULL; (void) nvlist_lookup_string(proplist, PROP_TARGET_CHAP_USER, &val); if (val && (strcasecmp(val, "none") == 0)) { (void) nvlist_remove_all(tprops, PROP_TARGET_CHAP_USER); } val = NULL; (void) nvlist_lookup_string(proplist, PROP_ALIAS, &val); if (val && (strcasecmp(val, "none") == 0)) { (void) nvlist_remove_all(tprops, PROP_ALIAS); } /* base64 encode the CHAP secret, if it's changed */ val = NULL; (void) nvlist_lookup_string(proplist, PROP_TARGET_CHAP_SECRET, &val); if (val) { char bsecret[MAX_BASE64_LEN]; ret = it_val_pass(PROP_TARGET_CHAP_SECRET, val, *errlist); if (ret == 0) { (void) memset(bsecret, 0, MAX_BASE64_LEN); ret = iscsi_binary_to_base64_str((uint8_t *)val, strlen(val), bsecret, MAX_BASE64_LEN); if (ret == 0) { /* replace the value in the nvlist */ ret = nvlist_add_string(tprops, PROP_TARGET_CHAP_SECRET, bsecret); } } } if (ret == 0) { ret = it_validate_tgtprops(tprops, *errlist); } if (ret != 0) { if (tprops) { nvlist_free(tprops); } return (ret); } if (tgt->tgt_properties) { nvlist_free(tgt->tgt_properties); } tgt->tgt_properties = tprops; return (0); } /* * Function: it_tgt_delete() * * Delete target represented by 'tgt', where 'tgt' is an existing * it_tgt_structure within the configuration 'cfg'. The target removal * will not take effect until the modified configuration is committed * by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configuration obtained from * it_config_load() * tgt Pointer to an iSCSI target structure * * force Set the target to offline before removing it from * the config. If not specified, the operation will * fail if the target is determined to be online. * Return Values: * 0 Success * EBUSY Target is online */ int it_tgt_delete(it_config_t *cfg, it_tgt_t *tgt, boolean_t force) { int ret; it_tgt_t *ptgt; it_tgt_t *prev = NULL; stmfDevid devid; stmfTargetProperties props; if (!cfg || !tgt) { return (0); } ptgt = cfg->config_tgt_list; while (ptgt != NULL) { if (strcasecmp(tgt->tgt_name, ptgt->tgt_name) == 0) { break; } prev = ptgt; ptgt = ptgt->tgt_next; } if (!ptgt) { return (0); } /* * check to see if this target is offline. If it is not, * and the 'force' flag is TRUE, tell STMF to offline it * before removing from the configuration. */ ret = stmfDevidFromIscsiName(ptgt->tgt_name, &devid); if (ret != STMF_STATUS_SUCCESS) { /* can't happen? */ return (EINVAL); } ret = stmfGetTargetProperties(&devid, &props); if (ret == STMF_STATUS_SUCCESS) { /* * only other return is STMF_ERROR_NOT_FOUND, which * means we don't have to offline it. */ if (props.status == STMF_TARGET_PORT_ONLINE) { if (!force) { return (EBUSY); } ret = stmfOfflineTarget(&devid); if (ret != 0) { return (EBUSY); } } } if (prev) { prev->tgt_next = ptgt->tgt_next; } else { /* first one on the list */ cfg->config_tgt_list = ptgt->tgt_next; } ptgt->tgt_next = NULL; /* Only free this target */ cfg->config_tgt_count--; it_tgt_free(ptgt); return (0); } /* * Function: it_tgt_free() * * Frees an it_tgt_t structure. If tgt_next is not NULL, frees * all structures in the list. */ void it_tgt_free(it_tgt_t *tgt) { it_tgt_free_cmn(tgt); } /* * Function: it_tpgt_create() * * Allocate and create an it_tpgt_t structure representing a new iSCSI * target portal group tag. The new it_tpgt_t structure is added to the * target tpgt list (tgt_tpgt_list) in the it_tgt_t structure. The new * target portal group tag will not be instantiated until the modified * configuration is committed by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configuration obtained from * it_config_load() * tgt Pointer to the iSCSI target structure associated * with the target portal group tag * tpgt Pointer to a target portal group tag structure * tpg_name The name of the TPG to be associated with this TPGT * tpgt_tag 16-bit numerical identifier for this TPGT. If * tpgt_tag is '0', this function will choose the * tag number. If tpgt_tag is >0, and the requested * tag is determined to be in use, another value * will be chosen. * * Return Values: * 0 Success * ENOMEM Could not allocate resources * EINVAL Invalid parameter * EEXIST Specified tag name is already used. * E2BIG No available tag numbers */ int it_tpgt_create(it_config_t *cfg, it_tgt_t *tgt, it_tpgt_t **tpgt, char *tpg_name, uint16_t tpgt_tag) { it_tpgt_t *ptr = NULL; it_tpgt_t *cfgt; char tagid_used[MAXTAG + 1]; uint16_t tagid = ISCSIT_DEFAULT_TPGT; if (!cfg || !tgt || !tpgt || !tpg_name) { return (EINVAL); } (void) memset(&(tagid_used[0]), 0, sizeof (tagid_used)); /* * Make sure this name and/or tag isn't already on the list * At the same time, capture all tag ids in use for this target * * About tag numbering -- since tag numbers are used by * the iSCSI protocol, we should be careful about reusing * them too quickly. Start with a value greater than the * highest one currently defined. If current == MAXTAG, * just find an unused tag. */ cfgt = tgt->tgt_tpgt_list; while (cfgt != NULL) { tagid_used[cfgt->tpgt_tag] = 1; if (strcmp(tpg_name, cfgt->tpgt_tpg_name) == 0) { return (EEXIST); } if (cfgt->tpgt_tag > tagid) { tagid = cfgt->tpgt_tag; } cfgt = cfgt->tpgt_next; } if ((tpgt_tag > ISCSIT_DEFAULT_TPGT) && (tpgt_tag < MAXTAG) && (tagid_used[tpgt_tag] == 0)) { /* ok to use requested */ tagid = tpgt_tag; } else if (tagid == MAXTAG) { /* * The highest value is used, find an available id. */ tagid = ISCSIT_DEFAULT_TPGT + 1; for (; tagid < MAXTAG; tagid++) { if (tagid_used[tagid] == 0) { break; } } if (tagid >= MAXTAG) { return (E2BIG); } } else { /* next available ID */ tagid++; } ptr = calloc(1, sizeof (it_tpgt_t)); if (!ptr) { return (ENOMEM); } (void) strlcpy(ptr->tpgt_tpg_name, tpg_name, sizeof (ptr->tpgt_tpg_name)); ptr->tpgt_generation = 1; ptr->tpgt_tag = tagid; ptr->tpgt_next = tgt->tgt_tpgt_list; tgt->tgt_tpgt_list = ptr; tgt->tgt_tpgt_count++; tgt->tgt_generation++; *tpgt = ptr; return (0); } /* * Function: it_tpgt_delete() * * Delete the target portal group tag represented by 'tpgt', where * 'tpgt' is an existing is_tpgt_t structure within the target 'tgt'. * The target portal group tag removal will not take effect until the * modified configuration is committed by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configuration obtained from * it_config_load() * tgt Pointer to the iSCSI target structure associated * with the target portal group tag * tpgt Pointer to a target portal group tag structure */ void it_tpgt_delete(it_config_t *cfg, it_tgt_t *tgt, it_tpgt_t *tpgt) { it_tpgt_t *ptr; it_tpgt_t *prev = NULL; if (!cfg || !tgt || !tpgt) { return; } ptr = tgt->tgt_tpgt_list; while (ptr) { if (ptr->tpgt_tag == tpgt->tpgt_tag) { break; } prev = ptr; ptr = ptr->tpgt_next; } if (!ptr) { return; } if (prev) { prev->tpgt_next = ptr->tpgt_next; } else { tgt->tgt_tpgt_list = ptr->tpgt_next; } ptr->tpgt_next = NULL; tgt->tgt_tpgt_count--; tgt->tgt_generation++; it_tpgt_free(ptr); } /* * Function: it_tpgt_free() * * Deallocates resources of an it_tpgt_t structure. If tpgt->next * is not NULL, frees all members of the list. */ void it_tpgt_free(it_tpgt_t *tpgt) { it_tpgt_free_cmn(tpgt); } /* * Function: it_tpg_create() * * Allocate and create an it_tpg_t structure representing a new iSCSI * target portal group. The new it_tpg_t structure is added to the global * tpg list (cfg_tgt_list) in the it_config_t structure. The new target * portal group will not be instantiated until the modified configuration * is committed by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configuration obtained from * it_config_load() * tpg Pointer to the it_tpg_t structure representing * the target portal group * tpg_name Identifier for the target portal group * portal_ip_port A string containing an appropriatedly formatted * IP address:port. Both IPv4 and IPv6 addresses are * permitted. This value becomes the first portal in * the TPG -- applications can add additional values * using it_portal_create() before committing the TPG. * Return Values: * 0 Success * ENOMEM Cannot allocate resources * EINVAL Invalid parameter * EEXIST Requested portal in use by another target portal * group */ int it_tpg_create(it_config_t *cfg, it_tpg_t **tpg, char *tpg_name, char *portal_ip_port) { int ret; it_tpg_t *ptr; it_portal_t *portal = NULL; if (!cfg || !tpg || !tpg_name || !portal_ip_port) { return (EINVAL); } *tpg = NULL; ptr = cfg->config_tpg_list; while (ptr) { if (strcmp(tpg_name, ptr->tpg_name) == 0) { break; } ptr = ptr->tpg_next; } if (ptr) { return (EEXIST); } ptr = calloc(1, sizeof (it_tpg_t)); if (!ptr) { return (ENOMEM); } ptr->tpg_generation = 1; (void) strlcpy(ptr->tpg_name, tpg_name, sizeof (ptr->tpg_name)); /* create the portal */ ret = it_portal_create(cfg, ptr, &portal, portal_ip_port); if (ret != 0) { free(ptr); return (ret); } ptr->tpg_next = cfg->config_tpg_list; cfg->config_tpg_list = ptr; cfg->config_tpg_count++; *tpg = ptr; return (0); } /* * Function: it_tpg_delete() * * Delete target portal group represented by 'tpg', where 'tpg' is an * existing it_tpg_t structure within the global configuration 'cfg'. * The target portal group removal will not take effect until the * modified configuration is committed by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configuration obtained from * it_config_load() * tpg Pointer to the it_tpg_t structure representing * the target portal group * force Remove this target portal group even if it's * associated with one or more targets. * * Return Values: * 0 Success * EINVAL Invalid parameter * EBUSY Portal group associated with one or more targets. */ int it_tpg_delete(it_config_t *cfg, it_tpg_t *tpg, boolean_t force) { it_tpg_t *ptr; it_tpg_t *prev = NULL; it_tgt_t *tgt; it_tpgt_t *tpgt; it_tpgt_t *ntpgt; if (!cfg || !tpg) { return (EINVAL); } ptr = cfg->config_tpg_list; while (ptr) { if (strcmp(ptr->tpg_name, tpg->tpg_name) == 0) { break; } prev = ptr; ptr = ptr->tpg_next; } if (!ptr) { return (0); } /* * See if any targets are using this portal group. * If there are, and the force flag is not set, fail. */ tgt = cfg->config_tgt_list; while (tgt) { tpgt = tgt->tgt_tpgt_list; while (tpgt) { ntpgt = tpgt->tpgt_next; if (strcmp(tpgt->tpgt_tpg_name, tpg->tpg_name) == 0) { if (!force) { return (EBUSY); } it_tpgt_delete(cfg, tgt, tpgt); } tpgt = ntpgt; } tgt = tgt->tgt_next; } /* Now that it's not in use anywhere, remove the TPG */ if (prev) { prev->tpg_next = ptr->tpg_next; } else { cfg->config_tpg_list = ptr->tpg_next; } ptr->tpg_next = NULL; cfg->config_tpg_count--; it_tpg_free(ptr); return (0); } /* * Function: it_tpg_free() * * Deallocates resources associated with an it_tpg_t structure. * If tpg->next is not NULL, frees all members of the list. */ void it_tpg_free(it_tpg_t *tpg) { it_tpg_free_cmn(tpg); } /* * Function: it_portal_create() * * Add an it_portal_t structure presenting a new portal to the specified * target portal group. The change to the target portal group will not take * effect until the modified configuration is committed by calling * it_config_commit(). * * Parameters: * cfg The current iSCSI configration obtained from * it_config_load() * tpg Pointer to the it_tpg_t structure representing the * target portal group * portal Pointer to the it_portal_t structure representing * the portal * portal_ip_port A string containing an appropriately formatted * IP address or IP address:port in either IPv4 or * IPv6 format. * Return Values: * 0 Success * ENOMEM Could not allocate resources * EINVAL Invalid parameter * EEXIST Portal already configured for another portal group */ int it_portal_create(it_config_t *cfg, it_tpg_t *tpg, it_portal_t **portal, char *portal_ip_port) { struct sockaddr_storage sa; it_portal_t *ptr; it_tpg_t *ctpg = NULL; if (!cfg || !tpg || !portal || !portal_ip_port) { return (EINVAL); } if ((it_common_convert_sa(portal_ip_port, &sa, ISCSI_LISTEN_PORT)) == NULL) { return (EINVAL); } /* Check that this portal doesn't appear in any other tag */ ctpg = cfg->config_tpg_list; while (ctpg) { ptr = ctpg->tpg_portal_list; for (; ptr != NULL; ptr = ptr->next) { if (it_sa_compare(&(ptr->portal_addr), &sa) != 0) { continue; } /* * Existing in the same group is not an error, * but don't add it again. */ if (strcmp(ctpg->tpg_name, tpg->tpg_name) == 0) { return (0); } else { /* Not allowed */ return (EEXIST); } } ctpg = ctpg->tpg_next; } ptr = calloc(1, sizeof (it_portal_t)); if (!ptr) { return (ENOMEM); } (void) memcpy(&(ptr->portal_addr), &sa, sizeof (struct sockaddr_storage)); ptr->next = tpg->tpg_portal_list; tpg->tpg_portal_list = ptr; tpg->tpg_portal_count++; tpg->tpg_generation++; return (0); } /* * Function: it_portal_delete() * * Remove the specified portal from the specified target portal group. * The portal removal will not take effect until the modified configuration * is committed by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configration obtained from * it_config_load() * tpg Pointer to the it_tpg_t structure representing the * target portal group * portal Pointer to the it_portal_t structure representing * the portal */ void it_portal_delete(it_config_t *cfg, it_tpg_t *tpg, it_portal_t *portal) { it_portal_t *ptr; it_portal_t *prev; if (!cfg || !tpg || !portal) { return; } ptr = tpg->tpg_portal_list; while (ptr) { if (memcmp(&(ptr->portal_addr), &(portal->portal_addr), sizeof (ptr->portal_addr)) == 0) { break; } prev = ptr; ptr = ptr->next; } if (!ptr) { return; } if (prev) { prev->next = ptr->next; } else { tpg->tpg_portal_list = ptr->next; } tpg->tpg_portal_count--; tpg->tpg_generation++; free(ptr); } /* * Function: it_ini_create() * * Add an initiator context to the global configuration. The new * initiator context will not be instantiated until the modified * configuration is committed by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configration obtained from * it_config_load() * ini Pointer to the it_ini_t structure representing * the initiator context. * ini_node_name The iSCSI node name of the remote initiator. * * Return Values: * 0 Success * ENOMEM Could not allocate resources * EINVAL Invalid parameter. * EFAULT Invalid initiator name */ int it_ini_create(it_config_t *cfg, it_ini_t **ini, char *ini_node_name) { it_ini_t *ptr; if (!cfg || !ini || !ini_node_name) { return (EINVAL); } /* * Ensure this is a valid ini name */ if (!validate_iscsi_name(ini_node_name)) { return (EFAULT); } ptr = cfg->config_ini_list; while (ptr) { if (strcasecmp(ptr->ini_name, ini_node_name) == 0) { break; } ptr = ptr->ini_next; } if (ptr) { return (EEXIST); } ptr = calloc(1, sizeof (it_ini_t)); if (!ptr) { return (ENOMEM); } (void) strlcpy(ptr->ini_name, ini_node_name, sizeof (ptr->ini_name)); ptr->ini_generation = 1; /* nvlist for props? */ ptr->ini_next = cfg->config_ini_list; cfg->config_ini_list = ptr; cfg->config_ini_count++; *ini = ptr; return (0); } /* * Function: it_ini_setprop() * * Validate the provided property list and set the initiator properties. * If errlist is not NULL, returns detailed errors for each property * that failed. The format for errorlist is key = property, * value = error string. * * Parameters: * * ini The initiator being updated. * proplist nvlist_t containing properties for this target. * errlist (optional) nvlist_t of errors encountered when * validating the properties. * * Return Values: * 0 Success * EINVAL Invalid property * */ int it_ini_setprop(it_ini_t *ini, nvlist_t *proplist, nvlist_t **errlist) { int ret; nvlist_t *iprops = NULL; char *val = NULL; if (!ini || !proplist) { return (EINVAL); } if (errlist) { (void) nvlist_alloc(errlist, 0, 0); } /* * copy the existing properties, merge, then validate * the merged properties before committing them. */ if (ini->ini_properties) { ret = nvlist_dup(ini->ini_properties, &iprops, 0); } else { ret = nvlist_alloc(&iprops, NV_UNIQUE_NAME, 0); } if (ret == 0) { ret = nvlist_merge(iprops, proplist, 0); } /* unset chap username if requested */ if ((nvlist_lookup_string(proplist, PROP_CHAP_USER, &val)) == 0) { if (strcasecmp(val, "none") == 0) { (void) nvlist_remove_all(iprops, PROP_CHAP_USER); } } /* base64 encode the CHAP secret, if it's changed */ if ((nvlist_lookup_string(proplist, PROP_CHAP_SECRET, &val)) == 0) { char bsecret[MAX_BASE64_LEN]; ret = it_val_pass(PROP_CHAP_SECRET, val, *errlist); if (ret == 0) { (void) memset(bsecret, 0, MAX_BASE64_LEN); ret = iscsi_binary_to_base64_str((uint8_t *)val, strlen(val), bsecret, MAX_BASE64_LEN); if (ret == 0) { /* replace the value in the nvlist */ ret = nvlist_add_string(iprops, PROP_CHAP_SECRET, bsecret); } } } if (ret == 0) { ret = it_validate_iniprops(iprops, *errlist); } if (ret != 0) { if (iprops) { nvlist_free(iprops); } return (ret); } if (ini->ini_properties) { nvlist_free(ini->ini_properties); } ini->ini_properties = iprops; return (0); } /* * Function: it_ini_delete() * * Remove the specified initiator context from the global configuration. * The removal will not take effect until the modified configuration is * committed by calling it_config_commit(). * * Parameters: * cfg The current iSCSI configration obtained from * it_config_load() * ini Pointer to the it_ini_t structure representing * the initiator context. */ void it_ini_delete(it_config_t *cfg, it_ini_t *ini) { it_ini_t *ptr; it_ini_t *prev = NULL; if (!cfg || !ini) { return; } ptr = cfg->config_ini_list; while (ptr) { if (strcasecmp(ptr->ini_name, ini->ini_name) == 0) { break; } prev = ptr; ptr = ptr->ini_next; } if (!ptr) { return; } if (prev) { prev->ini_next = ptr->ini_next; } else { cfg->config_ini_list = ptr->ini_next; } ptr->ini_next = NULL; /* Only free this initiator */ cfg->config_ini_count--; it_ini_free(ptr); } /* * Function: it_ini_free() * * Deallocates resources of an it_ini_t structure. If ini->next is * not NULL, frees all members of the list. */ void it_ini_free(it_ini_t *ini) { it_ini_free_cmn(ini); } /* * Goes through the target property list and validates * each entry. If errs is non-NULL, will return explicit errors * for each property that fails validation. */ static int it_validate_tgtprops(nvlist_t *nvl, nvlist_t *errs) { int errcnt = 0; nvpair_t *nvp = NULL; data_type_t nvtype; char *name; char *val; char *auth = NULL; if (!nvl) { return (0); } while ((nvp = nvlist_next_nvpair(nvl, nvp)) != NULL) { name = nvpair_name(nvp); nvtype = nvpair_type(nvp); if (!name) { continue; } val = NULL; if (strcmp(name, PROP_TARGET_CHAP_USER) == 0) { if (nvtype != DATA_TYPE_STRING) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } } else if (strcmp(name, PROP_TARGET_CHAP_SECRET) == 0) { /* * must be between 12 and 255 chars in cleartext. * will be base64 encoded when it's set. */ if (nvtype == DATA_TYPE_STRING) { (void) nvpair_value_string(nvp, &val); } if (!val) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } } else if (strcmp(name, PROP_ALIAS) == 0) { if (nvtype != DATA_TYPE_STRING) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } } else if (strcmp(name, PROP_AUTH) == 0) { if (nvtype == DATA_TYPE_STRING) { val = NULL; (void) nvpair_value_string(nvp, &val); } if (!val) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } if ((strcmp(val, PA_AUTH_NONE) != 0) && (strcmp(val, PA_AUTH_CHAP) != 0) && (strcmp(val, PA_AUTH_RADIUS) != 0) && (strcmp(val, "default") != 0)) { PROPERR(errs, val, gettext( "must be none, chap, radius or default")); errcnt++; } auth = val; continue; } else if (strcmp(name, PROP_OLD_TARGET_NAME) == 0) { continue; } else { /* unrecognized property */ PROPERR(errs, name, gettext("unrecognized property")); errcnt++; } } if (errcnt) { return (EINVAL); } /* if auth is being set to default, remove from this nvlist */ if (auth && (strcmp(auth, "default") == 0)) { (void) nvlist_remove_all(nvl, PROP_AUTH); } return (0); } /* * Goes through the config property list and validates * each entry. If errs is non-NULL, will return explicit errors * for each property that fails validation. */ static int it_validate_configprops(nvlist_t *nvl, nvlist_t *errs) { int errcnt = 0; nvpair_t *nvp = NULL; data_type_t nvtype; char *name; char *val; struct sockaddr_storage sa; boolean_t update_rad_server = B_FALSE; char *rad_server; char *auth = NULL; if (!nvl) { return (0); } while ((nvp = nvlist_next_nvpair(nvl, nvp)) != NULL) { name = nvpair_name(nvp); nvtype = nvpair_type(nvp); if (!name) { continue; } val = NULL; /* prefetch string value as we mostly need it */ if (nvtype == DATA_TYPE_STRING) { (void) nvpair_value_string(nvp, &val); } if (strcmp(name, PROP_ALIAS) == 0) { if (!val) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; } } else if (strcmp(name, PROP_AUTH) == 0) { if (!val) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } if ((strcmp(val, PA_AUTH_NONE) != 0) && (strcmp(val, PA_AUTH_CHAP) != 0) && (strcmp(val, PA_AUTH_RADIUS) != 0)) { PROPERR(errs, PROP_AUTH, gettext("must be none, chap or radius")); errcnt++; } auth = val; } else if (strcmp(name, PROP_ISNS_ENABLED) == 0) { if (nvtype != DATA_TYPE_BOOLEAN_VALUE) { PROPERR(errs, name, gettext("must be a boolean value")); errcnt++; } } else if (strcmp(name, PROP_ISNS_SERVER) == 0) { char **arr = NULL; uint32_t acount = 0; (void) nvlist_lookup_string_array(nvl, name, &arr, &acount); while (acount > 0) { if (strcasecmp(arr[acount - 1], "none") == 0) { break; } if ((it_common_convert_sa(arr[acount - 1], &sa, 0)) == NULL) { PROPERR(errs, arr[acount - 1], gettext("invalid address")); errcnt++; } acount--; } } else if (strcmp(name, PROP_RADIUS_SECRET) == 0) { if (!val) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } } else if (strcmp(name, PROP_RADIUS_SERVER) == 0) { struct sockaddr_storage sa; if (!val) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } if ((it_common_convert_sa(val, &sa, DEFAULT_RADIUS_PORT)) == NULL) { PROPERR(errs, name, gettext("invalid address")); errcnt++; } else { /* * rewrite this property to ensure port * number is added. */ if (sockaddr_to_str(&sa, &rad_server) == 0) { update_rad_server = B_TRUE; } } } else { /* unrecognized property */ PROPERR(errs, name, gettext("unrecognized property")); errcnt++; } } /* * If we successfully reformatted the radius server to add the port * number then update the nvlist */ if (update_rad_server) { (void) nvlist_add_string(nvl, PROP_RADIUS_SERVER, rad_server); } /* * if auth = radius, ensure radius server & secret are set. */ if (auth) { if (strcmp(auth, PA_AUTH_RADIUS) == 0) { /* need server & secret for radius */ if (!nvlist_exists(nvl, PROP_RADIUS_SERVER)) { PROPERR(errs, PROP_RADIUS_SERVER, gettext("missing required property")); errcnt++; } if (!nvlist_exists(nvl, PROP_RADIUS_SECRET)) { PROPERR(errs, PROP_RADIUS_SECRET, gettext("missing required property")); errcnt++; } } } if (errcnt) { return (EINVAL); } return (0); } /* * Goes through the ini property list and validates * each entry. If errs is non-NULL, will return explicit errors * for each property that fails validation. */ static int it_validate_iniprops(nvlist_t *nvl, nvlist_t *errs) { int errcnt = 0; nvpair_t *nvp = NULL; data_type_t nvtype; char *name; char *val; if (!nvl) { return (0); } while ((nvp = nvlist_next_nvpair(nvl, nvp)) != NULL) { name = nvpair_name(nvp); nvtype = nvpair_type(nvp); if (!name) { continue; } if (strcmp(name, PROP_CHAP_USER) == 0) { if (nvtype != DATA_TYPE_STRING) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } } else if (strcmp(name, PROP_CHAP_SECRET) == 0) { /* * must be between 12 and 255 chars in cleartext. * will be base64 encoded when it's set. */ if (nvtype == DATA_TYPE_STRING) { val = NULL; (void) nvpair_value_string(nvp, &val); } if (!val) { PROPERR(errs, name, gettext("must be a string value")); errcnt++; continue; } } else { /* unrecognized property */ PROPERR(errs, name, gettext("unrecognized property")); errcnt++; } } if (errcnt) { return (EINVAL); } return (0); } static int it_iqn_generate(char *iqn_buf, int iqn_buf_len, char *opt_iqn_suffix) { int ret; uuid_t id; char id_str[UUID_PRINTABLE_STRING_LENGTH]; uuid_generate_random(id); uuid_unparse(id, id_str); if (opt_iqn_suffix) { ret = snprintf(iqn_buf, iqn_buf_len, "iqn.1986-03.com.sun:" "%02d:%s.%s", TARGET_NAME_VERS, id_str, opt_iqn_suffix); } else { ret = snprintf(iqn_buf, iqn_buf_len, "iqn.1986-03.com.sun:" "%02d:%s", TARGET_NAME_VERS, id_str); } if (ret > iqn_buf_len) { return (1); } return (0); } static int it_val_pass(char *name, char *val, nvlist_t *e) { size_t sz; if (!name || !val) { return (EINVAL); } /* * must be at least 12 chars and less than 256 chars cleartext. */ sz = strlen(val); /* * Since we will be automatically encoding secrets we don't really * need the prefix anymore. */ if (sz < 12) { PROPERR(e, name, gettext("secret too short")); } else if (sz > 255) { PROPERR(e, name, gettext("secret too long")); } else { /* all is well */ return (0); } return (1); } /* * Function: validate_iscsi_name() * * Ensures the passed-in string is a valid IQN or EUI iSCSI name * */ boolean_t validate_iscsi_name(char *in_name) { size_t in_len; int i; char month[3]; if (in_name == NULL) { return (B_FALSE); } in_len = strlen(in_name); if (in_len < 12) { return (B_FALSE); } if (IS_IQN_NAME(in_name)) { /* * IQN names are iqn.yyyy-mm. */ if ((!isdigit(in_name[4])) || (!isdigit(in_name[5])) || (!isdigit(in_name[6])) || (!isdigit(in_name[7])) || (in_name[8] != '-') || (!isdigit(in_name[9])) || (!isdigit(in_name[10])) || (in_name[11] != '.')) { return (B_FALSE); } (void) strncpy(month, &(in_name[9]), 2); month[2] = '\0'; i = atoi(month); if ((i < 0) || (i > 12)) { return (B_FALSE); } /* * RFC 3722: if using only ASCII chars, only the following * chars are allowed: dash, dot, colon, lower case a-z, 0-9. * We allow upper case names, which should be folded * to lower case names later. */ for (i = 12; i < in_len; i++) { char c = in_name[i]; if ((c != '-') && (c != '.') && (c != ':') && !isalpha(c) && !isdigit(c)) { return (B_FALSE); } } /* Finally, validate the overall length, in wide chars */ in_len = mbstowcs(NULL, in_name, 0); if (in_len > ISCSI_NAME_LEN_MAX) { return (B_FALSE); } } else if (IS_EUI_NAME(in_name)) { /* * EUI names are "eui." + 16 hex chars */ if (in_len != 20) { return (B_FALSE); } for (i = 4; i < in_len; i++) { if (!isxdigit(in_name[i])) { return (B_FALSE); } } } else { return (B_FALSE); } return (B_TRUE); } static boolean_t is_iscsit_enabled(void) { char *state; state = smf_get_state(ISCSIT_FMRI); if (state != NULL) { if (strcmp(state, SCF_STATE_STRING_ONLINE) == 0) { return (B_TRUE); } } return (B_FALSE); } /* * Function: canonical_iscsi_name() * * Fold the iqn iscsi name to lower-case and the EUI-64 identifier of * the eui iscsi name to upper-case. * Ensures the passed-in string is a valid IQN or EUI iSCSI name */ void canonical_iscsi_name(char *tgt) { if (IS_IQN_NAME(tgt)) { /* lowercase iqn names */ iqnstr(tgt); } else { /* uppercase EUI-64 identifier */ euistr(tgt); } } /* * Fold an iqn name to lower-case. */ static void iqnstr(char *s) { if (s != NULL) { while (*s) { *s = tolower(*s); s++; } } } /* * Fold the EUI-64 identifier of a eui name to upper-case. */ static void euistr(char *s) { if (s != NULL) { char *l = s + 4; while (*l) { *l = toupper(*l); l++; } } }