/* * 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) 2007, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2022 Tintri by DDN, Inc. All rights reserved. * Copyright 2022 RackTop Systems, Inc. */ /* * CIFS configuration management library */ /* * Checking for things like unsupportable parameter combinations are * the responsibility of callers of these functions. Example include: * trying to set min_protocol above max_protocol, or requiring encryption * with an allowed protocol range that can't support it. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include typedef struct smb_cfg_param { smb_cfg_id_t sc_id; char *sc_name; int sc_type; uint32_t sc_flags; } smb_cfg_param_t; struct str_val { char *str; uint32_t val; }; /* * config parameter flags */ #define SMB_CF_PROTECTED 0x01 #define SMB_CF_EXEC 0x02 /* idmap SMF fmri and Property Group */ #define IDMAP_FMRI_PREFIX "system/idmap" #define MACHINE_SID "machine_sid" #define MACHINE_UUID "machine_uuid" #define IDMAP_DOMAIN "domain_name" #define IDMAP_PREF_DC "preferred_dc" #define IDMAP_SITE_NAME "site_name" #define IDMAP_PG_NAME "config" #define SMB_SECMODE_WORKGRP_STR "workgroup" #define SMB_SECMODE_DOMAIN_STR "domain" #define SMB_ENC_LEN 1024 #define SMB_DEC_LEN 256 static char *b64_data = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; static smb_cfg_param_t smb_cfg_table[] = { {SMB_CI_VERSION, "sv_version", SCF_TYPE_ASTRING, 0}, /* Oplock configuration, Kernel Only */ {SMB_CI_OPLOCK_ENABLE, "oplock_enable", SCF_TYPE_BOOLEAN, 0}, /* Autohome configuration */ {SMB_CI_AUTOHOME_MAP, "autohome_map", SCF_TYPE_ASTRING, 0}, /* Domain/PDC configuration */ {SMB_CI_DOMAIN_SID, "domain_sid", SCF_TYPE_ASTRING, 0}, {SMB_CI_DOMAIN_MEMB, "domain_member", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_DOMAIN_NAME, "domain_name", SCF_TYPE_ASTRING, 0}, {SMB_CI_DOMAIN_FQDN, "fqdn", SCF_TYPE_ASTRING, 0}, {SMB_CI_DOMAIN_FOREST, "forest", SCF_TYPE_ASTRING, 0}, {SMB_CI_DOMAIN_GUID, "domain_guid", SCF_TYPE_ASTRING, 0}, {SMB_CI_DOMAIN_SRV, "pdc", SCF_TYPE_ASTRING, 0}, /* WINS configuration */ {SMB_CI_WINS_SRV1, "wins_server_1", SCF_TYPE_ASTRING, 0}, {SMB_CI_WINS_SRV2, "wins_server_2", SCF_TYPE_ASTRING, 0}, {SMB_CI_WINS_EXCL, "wins_exclude", SCF_TYPE_ASTRING, 0}, /* Kmod specific configuration */ {SMB_CI_MAX_WORKERS, "max_workers", SCF_TYPE_INTEGER, 0}, {SMB_CI_MAX_CONNECTIONS, "max_connections", SCF_TYPE_INTEGER, 0}, {SMB_CI_KEEPALIVE, "keep_alive", SCF_TYPE_INTEGER, 0}, {SMB_CI_RESTRICT_ANON, "restrict_anonymous", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_SIGNING_ENABLE, "signing_enabled", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_SIGNING_REQD, "signing_required", SCF_TYPE_BOOLEAN, 0}, /* Kmod tuning configuration */ {SMB_CI_SYNC_ENABLE, "sync_enable", SCF_TYPE_BOOLEAN, 0}, /* SMBd configuration */ {SMB_CI_SECURITY, "security", SCF_TYPE_ASTRING, 0}, {SMB_CI_NETBIOS_ENABLE, "netbios_enable", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_NBSCOPE, "netbios_scope", SCF_TYPE_ASTRING, 0}, {SMB_CI_SYS_CMNT, "system_comment", SCF_TYPE_ASTRING, 0}, {SMB_CI_LM_LEVEL, "lmauth_level", SCF_TYPE_INTEGER, 0}, /* ADS Configuration */ {SMB_CI_ADS_SITE, "ads_site", SCF_TYPE_ASTRING, 0}, /* Dynamic DNS */ {SMB_CI_DYNDNS_ENABLE, "ddns_enable", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_MACHINE_PASSWD, "machine_passwd", SCF_TYPE_ASTRING, SMB_CF_PROTECTED}, {SMB_CI_MACHINE_UUID, "machine_uuid", SCF_TYPE_ASTRING, 0}, {SMB_CI_KPASSWD_SRV, "kpasswd_server", SCF_TYPE_ASTRING, 0}, {SMB_CI_KPASSWD_DOMAIN, "kpasswd_domain", SCF_TYPE_ASTRING, 0}, {SMB_CI_KPASSWD_SEQNUM, "kpasswd_seqnum", SCF_TYPE_INTEGER, 0}, {SMB_CI_NETLOGON_SEQNUM, "netlogon_seqnum", SCF_TYPE_INTEGER, 0}, {SMB_CI_IPV6_ENABLE, "ipv6_enable", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_PRINT_ENABLE, "print_enable", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_MAP, "map", SCF_TYPE_ASTRING, SMB_CF_EXEC}, {SMB_CI_UNMAP, "unmap", SCF_TYPE_ASTRING, SMB_CF_EXEC}, {SMB_CI_DISPOSITION, "disposition", SCF_TYPE_ASTRING, SMB_CF_EXEC}, {SMB_CI_DFS_STDROOT_NUM, "dfs_stdroot_num", SCF_TYPE_INTEGER, 0}, {SMB_CI_TRAVERSE_MOUNTS, "traverse_mounts", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_SMB2_ENABLE_OLD, "smb2_enable", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_INITIAL_CREDITS, "initial_credits", SCF_TYPE_INTEGER, 0}, {SMB_CI_MAXIMUM_CREDITS, "maximum_credits", SCF_TYPE_INTEGER, 0}, {SMB_CI_MAX_PROTOCOL, "max_protocol", SCF_TYPE_ASTRING, 0}, {SMB_CI_ENCRYPT, "encrypt", SCF_TYPE_ASTRING, 0}, {SMB_CI_MIN_PROTOCOL, "min_protocol", SCF_TYPE_ASTRING, 0}, {SMB_CI_BYPASS_TRAVERSE_CHECKING, "bypass_traverse_checking", SCF_TYPE_BOOLEAN, 0}, {SMB_CI_ENCRYPT_CIPHER, "encrypt_cipher", SCF_TYPE_ASTRING, 0}, {SMB_CI_NETLOGON_FLAGS, "netlogon_flags", SCF_TYPE_INTEGER, 0}, {SMB_CI_SHORT_NAMES, "short_names", SCF_TYPE_BOOLEAN, 0}, /* SMB_CI_MAX */ }; /* * We store the max SMB protocol version in SMF as a string, * (for convenience of svccfg etc) but the programmatic get/set * interfaces use the numeric form. * * The numeric values are as defined in the [MS-SMB2] spec. * except for how we represent "1" (for SMB1) which is an * arbitrary value below SMB2_VERS_BASE. */ static struct str_val smb_versions[] = { { "3.11", SMB_VERS_3_11 }, { "3.02", SMB_VERS_3_02 }, { "3.0", SMB_VERS_3_0 }, { "2.1", SMB_VERS_2_1 }, { "2.002", SMB_VERS_2_002 }, { "1", SMB_VERS_1 }, { NULL, 0 } }; /* * Supported encryption ciphers. */ static struct str_val smb31_enc_ciphers[] = { { "aes128-ccm", SMB3_CIPHER_FLAG_AES128_CCM }, /* SMB 3.x */ { "aes128-gcm", SMB3_CIPHER_FLAG_AES128_GCM }, /* SMB 3.1.1 */ { "all", SMB3_ALL_CIPHERS }, { NULL, 0 } }; static smb_cfg_param_t *smb_config_getent(smb_cfg_id_t); static boolean_t smb_is_base64(unsigned char c); static char *smb_base64_encode(char *str_to_encode); static char *smb_base64_decode(char *encoded_str); static int smb_config_get_idmap_preferred_dc(char *, int); static int smb_config_set_idmap_preferred_dc(char *); static int smb_config_get_idmap_site_name(char *, int); static int smb_config_set_idmap_site_name(char *); uint32_t smb_convert_version_str(const char *version) { uint32_t dialect = 0; int i; for (i = 0; smb_versions[i].str != NULL; i++) { if (strcmp(version, smb_versions[i].str) == 0) dialect = smb_versions[i].val; } return (dialect); } char * smb_config_getname(smb_cfg_id_t id) { smb_cfg_param_t *cfg; cfg = smb_config_getent(id); return (cfg->sc_name); } static boolean_t smb_is_base64(unsigned char c) { return (isalnum(c) || (c == '+') || (c == '/')); } /* * smb_base64_encode * * Encode a string using base64 algorithm. * Caller should free the returned buffer when done. */ static char * smb_base64_encode(char *str_to_encode) { int ret_cnt = 0; int i = 0, j = 0; char arr_3[3], arr_4[4]; int len = strlen(str_to_encode); char *ret = malloc(SMB_ENC_LEN); if (ret == NULL) { return (NULL); } while (len--) { arr_3[i++] = *(str_to_encode++); if (i == 3) { arr_4[0] = (arr_3[0] & 0xfc) >> 2; arr_4[1] = ((arr_3[0] & 0x03) << 4) + ((arr_3[1] & 0xf0) >> 4); arr_4[2] = ((arr_3[1] & 0x0f) << 2) + ((arr_3[2] & 0xc0) >> 6); arr_4[3] = arr_3[2] & 0x3f; for (i = 0; i < 4; i++) ret[ret_cnt++] = b64_data[arr_4[i]]; i = 0; } } if (i) { for (j = i; j < 3; j++) arr_3[j] = '\0'; arr_4[0] = (arr_3[0] & 0xfc) >> 2; arr_4[1] = ((arr_3[0] & 0x03) << 4) + ((arr_3[1] & 0xf0) >> 4); arr_4[2] = ((arr_3[1] & 0x0f) << 2) + ((arr_3[2] & 0xc0) >> 6); arr_4[3] = arr_3[2] & 0x3f; for (j = 0; j < (i + 1); j++) ret[ret_cnt++] = b64_data[arr_4[j]]; while (i++ < 3) ret[ret_cnt++] = '='; } ret[ret_cnt++] = '\0'; return (ret); } /* * smb_base64_decode * * Decode using base64 algorithm. * Caller should free the returned buffer when done. */ static char * smb_base64_decode(char *encoded_str) { int len = strlen(encoded_str); int i = 0, j = 0; int en_ind = 0; char arr_4[4], arr_3[3]; int ret_cnt = 0; char *ret = malloc(SMB_DEC_LEN); char *p; if (ret == NULL) { return (NULL); } while (len-- && (encoded_str[en_ind] != '=') && smb_is_base64(encoded_str[en_ind])) { arr_4[i++] = encoded_str[en_ind]; en_ind++; if (i == 4) { for (i = 0; i < 4; i++) { if ((p = strchr(b64_data, arr_4[i])) == NULL) return (NULL); arr_4[i] = (int)(p - b64_data); } arr_3[0] = (arr_4[0] << 2) + ((arr_4[1] & 0x30) >> 4); arr_3[1] = ((arr_4[1] & 0xf) << 4) + ((arr_4[2] & 0x3c) >> 2); arr_3[2] = ((arr_4[2] & 0x3) << 6) + arr_4[3]; for (i = 0; i < 3; i++) ret[ret_cnt++] = arr_3[i]; i = 0; } } if (i) { for (j = i; j < 4; j++) arr_4[j] = 0; for (j = 0; j < 4; j++) { if ((p = strchr(b64_data, arr_4[j])) == NULL) return (NULL); arr_4[j] = (int)(p - b64_data); } arr_3[0] = (arr_4[0] << 2) + ((arr_4[1] & 0x30) >> 4); arr_3[1] = ((arr_4[1] & 0xf) << 4) + ((arr_4[2] & 0x3c) >> 2); arr_3[2] = ((arr_4[2] & 0x3) << 6) + arr_4[3]; for (j = 0; j < (i - 1); j++) ret[ret_cnt++] = arr_3[j]; } ret[ret_cnt++] = '\0'; return (ret); } static char * smb_config_getenv_generic(char *name, char *svc_fmri_prefix, char *svc_propgrp) { smb_scfhandle_t *handle; char *value; if ((value = malloc(MAX_VALUE_BUFLEN * sizeof (char))) == NULL) return (NULL); handle = smb_smf_scf_init(svc_fmri_prefix); if (handle == NULL) { free(value); return (NULL); } (void) smb_smf_create_service_pgroup(handle, svc_propgrp); if (smb_smf_get_string_property(handle, name, value, sizeof (char) * MAX_VALUE_BUFLEN) != 0) { smb_smf_scf_fini(handle); free(value); return (NULL); } smb_smf_scf_fini(handle); return (value); } static int smb_config_setenv_generic(char *svc_fmri_prefix, char *svc_propgrp, char *name, char *value) { smb_scfhandle_t *handle = NULL; int rc = 0; handle = smb_smf_scf_init(svc_fmri_prefix); if (handle == NULL) { return (1); } (void) smb_smf_create_service_pgroup(handle, svc_propgrp); if (smb_smf_start_transaction(handle) != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (1); } if (smb_smf_set_string_property(handle, name, value) != SMBD_SMF_OK) rc = 1; if (smb_smf_end_transaction(handle) != SMBD_SMF_OK) rc = 1; smb_smf_scf_fini(handle); return (rc); } /* * smb_config_getstr * * Fetch the specified string configuration item from SMF */ int smb_config_getstr(smb_cfg_id_t id, char *cbuf, int bufsz) { smb_scfhandle_t *handle; smb_cfg_param_t *cfg; int rc = SMBD_SMF_OK; char *pg; char protbuf[SMB_ENC_LEN]; char *tmp; *cbuf = '\0'; cfg = smb_config_getent(id); assert(cfg->sc_type == SCF_TYPE_ASTRING); if (id == SMB_CI_ADS_SITE) return (smb_config_get_idmap_site_name(cbuf, bufsz)); if (id == SMB_CI_DOMAIN_SRV) return (smb_config_get_idmap_preferred_dc(cbuf, bufsz)); handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) return (SMBD_SMF_SYSTEM_ERR); if (cfg->sc_flags & SMB_CF_PROTECTED) { if ((rc = smb_smf_create_service_pgroup(handle, SMBD_PROTECTED_PG_NAME)) != SMBD_SMF_OK) goto error; if ((rc = smb_smf_get_string_property(handle, cfg->sc_name, protbuf, sizeof (protbuf))) != SMBD_SMF_OK) goto error; if (*protbuf != '\0') { tmp = smb_base64_decode(protbuf); (void) strlcpy(cbuf, tmp, bufsz); free(tmp); } } else { pg = (cfg->sc_flags & SMB_CF_EXEC) ? SMBD_EXEC_PG_NAME : SMBD_PG_NAME; rc = smb_smf_create_service_pgroup(handle, pg); if (rc == SMBD_SMF_OK) rc = smb_smf_get_string_property(handle, cfg->sc_name, cbuf, bufsz); } error: smb_smf_scf_fini(handle); return (rc); } /* * Translate the value of an astring SMF property into a binary * IP address. If the value is neither a valid IPv4 nor IPv6 * address, attempt to look it up as a hostname using the * configured address type. */ int smb_config_getip(smb_cfg_id_t sc_id, smb_inaddr_t *ipaddr) { int rc, error; int a_family; char ipstr[MAXHOSTNAMELEN]; struct hostent *h; smb_cfg_param_t *cfg; if (ipaddr == NULL) return (SMBD_SMF_INVALID_ARG); bzero(ipaddr, sizeof (smb_inaddr_t)); rc = smb_config_getstr(sc_id, ipstr, sizeof (ipstr)); if (rc == SMBD_SMF_OK) { if (*ipstr == '\0') return (SMBD_SMF_INVALID_ARG); if (inet_pton(AF_INET, ipstr, &ipaddr->a_ipv4) == 1) { ipaddr->a_family = AF_INET; return (SMBD_SMF_OK); } if (inet_pton(AF_INET6, ipstr, &ipaddr->a_ipv6) == 1) { ipaddr->a_family = AF_INET6; return (SMBD_SMF_OK); } /* * The value is neither an IPv4 nor IPv6 address; * so check if it's a hostname. */ a_family = smb_config_getbool(SMB_CI_IPV6_ENABLE) ? AF_INET6 : AF_INET; h = getipnodebyname(ipstr, a_family, AI_DEFAULT, &error); if (h != NULL) { bcopy(*(h->h_addr_list), &ipaddr->a_ip, h->h_length); ipaddr->a_family = a_family; freehostent(h); rc = SMBD_SMF_OK; } else { cfg = smb_config_getent(sc_id); syslog(LOG_ERR, "smbd/%s: %s unable to get %s " "address: %d", cfg->sc_name, ipstr, a_family == AF_INET ? "IPv4" : "IPv6", error); rc = SMBD_SMF_INVALID_ARG; } } return (rc); } /* * smb_config_getnum * * Returns the value of a numeric config param. */ int smb_config_getnum(smb_cfg_id_t id, int64_t *cint) { smb_scfhandle_t *handle; smb_cfg_param_t *cfg; int rc = SMBD_SMF_OK; *cint = 0; cfg = smb_config_getent(id); assert(cfg->sc_type == SCF_TYPE_INTEGER); handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) return (SMBD_SMF_SYSTEM_ERR); rc = smb_smf_create_service_pgroup(handle, SMBD_PG_NAME); if (rc == SMBD_SMF_OK) rc = smb_smf_get_integer_property(handle, cfg->sc_name, cint); smb_smf_scf_fini(handle); return (rc); } /* * smb_config_getbool * * Returns the value of a boolean config param. */ boolean_t smb_config_getbool(smb_cfg_id_t id) { smb_scfhandle_t *handle; smb_cfg_param_t *cfg; int rc = SMBD_SMF_OK; uint8_t vbool; cfg = smb_config_getent(id); assert(cfg->sc_type == SCF_TYPE_BOOLEAN); handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) return (B_FALSE); rc = smb_smf_create_service_pgroup(handle, SMBD_PG_NAME); if (rc == SMBD_SMF_OK) rc = smb_smf_get_boolean_property(handle, cfg->sc_name, &vbool); smb_smf_scf_fini(handle); return ((rc == SMBD_SMF_OK) ? (vbool == 1) : B_FALSE); } /* * smb_config_get * * This function returns the value of the requested config * iterm regardless of its type in string format. This should * be used when the config item type is not known by the caller. */ int smb_config_get(smb_cfg_id_t id, char *cbuf, int bufsz) { smb_cfg_param_t *cfg; int64_t cint; int rc; cfg = smb_config_getent(id); switch (cfg->sc_type) { case SCF_TYPE_ASTRING: return (smb_config_getstr(id, cbuf, bufsz)); case SCF_TYPE_INTEGER: rc = smb_config_getnum(id, &cint); if (rc == SMBD_SMF_OK) (void) snprintf(cbuf, bufsz, "%lld", cint); return (rc); case SCF_TYPE_BOOLEAN: if (smb_config_getbool(id)) (void) strlcpy(cbuf, "true", bufsz); else (void) strlcpy(cbuf, "false", bufsz); return (SMBD_SMF_OK); } return (SMBD_SMF_INVALID_ARG); } /* * smb_config_setstr * * Set the specified config param with the given * value. */ int smb_config_setstr(smb_cfg_id_t id, char *value) { smb_scfhandle_t *handle; smb_cfg_param_t *cfg; int rc = SMBD_SMF_OK; boolean_t protected; char *tmp = NULL; char *pg; cfg = smb_config_getent(id); assert(cfg->sc_type == SCF_TYPE_ASTRING); if (id == SMB_CI_ADS_SITE) return (smb_config_set_idmap_site_name(value)); if (id == SMB_CI_DOMAIN_SRV) return (smb_config_set_idmap_preferred_dc(value)); protected = B_FALSE; switch (cfg->sc_flags) { case SMB_CF_PROTECTED: protected = B_TRUE; pg = SMBD_PROTECTED_PG_NAME; break; case SMB_CF_EXEC: pg = SMBD_EXEC_PG_NAME; break; default: pg = SMBD_PG_NAME; break; } handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) return (SMBD_SMF_SYSTEM_ERR); rc = smb_smf_create_service_pgroup(handle, pg); if (rc == SMBD_SMF_OK) rc = smb_smf_start_transaction(handle); if (rc != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (rc); } if (protected && value && (*value != '\0')) { if ((tmp = smb_base64_encode(value)) == NULL) { (void) smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (SMBD_SMF_NO_MEMORY); } value = tmp; } rc = smb_smf_set_string_property(handle, cfg->sc_name, value); free(tmp); (void) smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (rc); } /* * smb_config_setnum * * Sets a numeric configuration iterm */ int smb_config_setnum(smb_cfg_id_t id, int64_t value) { smb_scfhandle_t *handle; smb_cfg_param_t *cfg; int rc = SMBD_SMF_OK; cfg = smb_config_getent(id); assert(cfg->sc_type == SCF_TYPE_INTEGER); handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) return (SMBD_SMF_SYSTEM_ERR); rc = smb_smf_create_service_pgroup(handle, SMBD_PG_NAME); if (rc == SMBD_SMF_OK) rc = smb_smf_start_transaction(handle); if (rc != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (rc); } rc = smb_smf_set_integer_property(handle, cfg->sc_name, value); (void) smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (rc); } /* * smb_config_setbool * * Sets a boolean configuration iterm */ int smb_config_setbool(smb_cfg_id_t id, boolean_t value) { smb_scfhandle_t *handle; smb_cfg_param_t *cfg; int rc = SMBD_SMF_OK; cfg = smb_config_getent(id); assert(cfg->sc_type == SCF_TYPE_BOOLEAN); handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) return (SMBD_SMF_SYSTEM_ERR); rc = smb_smf_create_service_pgroup(handle, SMBD_PG_NAME); if (rc == SMBD_SMF_OK) rc = smb_smf_start_transaction(handle); if (rc != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (rc); } rc = smb_smf_set_boolean_property(handle, cfg->sc_name, value); (void) smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (rc); } /* * smb_config_set * * This function sets the value of the specified config * iterm regardless of its type in string format. This should * be used when the config item type is not known by the caller. */ int smb_config_set(smb_cfg_id_t id, char *value) { smb_cfg_param_t *cfg; int64_t cint; cfg = smb_config_getent(id); switch (cfg->sc_type) { case SCF_TYPE_ASTRING: return (smb_config_setstr(id, value)); case SCF_TYPE_INTEGER: cint = atoi(value); return (smb_config_setnum(id, cint)); case SCF_TYPE_BOOLEAN: return (smb_config_setbool(id, strcasecmp(value, "true") == 0)); } return (SMBD_SMF_INVALID_ARG); } int smb_config_get_debug() { int64_t val64; int val = 0; /* default */ smb_scfhandle_t *handle = NULL; handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) { return (val); } if (smb_smf_create_service_pgroup(handle, SMBD_PG_NAME) != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (val); } if (smb_smf_get_integer_property(handle, "debug", &val64) != 0) { smb_smf_scf_fini(handle); return (val); } val = (int)val64; smb_smf_scf_fini(handle); return (val); } uint8_t smb_config_get_fg_flag() { uint8_t run_fg = 0; /* Default is to run in daemon mode */ smb_scfhandle_t *handle = NULL; handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) { return (run_fg); } if (smb_smf_create_service_pgroup(handle, SMBD_PG_NAME) != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (run_fg); } if (smb_smf_get_boolean_property(handle, "run_fg", &run_fg) != 0) { smb_smf_scf_fini(handle); return (run_fg); } smb_smf_scf_fini(handle); return (run_fg); } /* * smb_config_get_ads_enable * * Returns value of the "config/use_ads" parameter * from the IDMAP SMF configuration repository. * */ boolean_t smb_config_get_ads_enable(void) { smb_scfhandle_t *handle = NULL; uint8_t vbool; int rc = 0; handle = smb_smf_scf_init(IDMAP_FMRI_PREFIX); if (handle == NULL) return (B_FALSE); rc = smb_smf_create_service_pgroup(handle, IDMAP_PG_NAME); if (rc == SMBD_SMF_OK) rc = smb_smf_get_boolean_property(handle, "use_ads", &vbool); smb_smf_scf_fini(handle); return ((rc == SMBD_SMF_OK) ? (vbool == 1) : B_TRUE); } /* * smb_config_get_localsid * * Returns value of the "config/machine_sid" parameter * from the IDMAP SMF configuration repository. * Result is allocated; caller should free. */ char * smb_config_get_localsid(void) { return (smb_config_getenv_generic(MACHINE_SID, IDMAP_FMRI_PREFIX, IDMAP_PG_NAME)); } /* * smb_config_get_localuuid * * Returns value of the "config/machine_uuid" parameter * from the IDMAP SMF configuration repository. * */ int smb_config_get_localuuid(uuid_t uu) { char *s; int rc = 0; uuid_clear(uu); s = smb_config_getenv_generic(MACHINE_UUID, IDMAP_FMRI_PREFIX, IDMAP_PG_NAME); if (s == NULL) return (-1); if (uuid_parse(s, uu) < 0) rc = -1; free(s); return (rc); } static int smb_config_get_idmap_preferred_dc(char *cbuf, int bufsz) { char *s; int len, rc = -1; s = smb_config_getenv_generic(IDMAP_PREF_DC, IDMAP_FMRI_PREFIX, IDMAP_PG_NAME); if (s != NULL) { len = strlcpy(cbuf, s, bufsz); if (len < bufsz) rc = 0; free(s); } return (rc); } static int smb_config_set_idmap_preferred_dc(char *value) { return (smb_config_setenv_generic(IDMAP_FMRI_PREFIX, IDMAP_PG_NAME, IDMAP_PREF_DC, value)); } static int smb_config_get_idmap_site_name(char *cbuf, int bufsz) { char *s; int len, rc = -1; s = smb_config_getenv_generic(IDMAP_SITE_NAME, IDMAP_FMRI_PREFIX, IDMAP_PG_NAME); if (s != NULL) { len = strlcpy(cbuf, s, bufsz); if (len < bufsz) rc = 0; free(s); } return (rc); } static int smb_config_set_idmap_site_name(char *value) { return (smb_config_setenv_generic(IDMAP_FMRI_PREFIX, IDMAP_PG_NAME, IDMAP_SITE_NAME, value)); } /* * smb_config_set_idmap_domain * * Set the "config/domain_name" parameter from IDMAP SMF repository. */ int smb_config_set_idmap_domain(char *value) { return (smb_config_setenv_generic(IDMAP_FMRI_PREFIX, IDMAP_PG_NAME, IDMAP_DOMAIN, value)); } /* * smb_config_refresh_idmap * * Refresh IDMAP SMF service after making changes to its configuration. */ int smb_config_refresh_idmap(void) { char instance[32]; (void) snprintf(instance, sizeof (instance), "%s:default", IDMAP_FMRI_PREFIX); return (smf_refresh_instance(instance)); } int smb_config_secmode_fromstr(char *secmode) { if (secmode == NULL) return (SMB_SECMODE_WORKGRP); if (strcasecmp(secmode, SMB_SECMODE_DOMAIN_STR) == 0) return (SMB_SECMODE_DOMAIN); return (SMB_SECMODE_WORKGRP); } char * smb_config_secmode_tostr(int secmode) { if (secmode == SMB_SECMODE_DOMAIN) return (SMB_SECMODE_DOMAIN_STR); return (SMB_SECMODE_WORKGRP_STR); } int smb_config_get_secmode() { char p[16]; (void) smb_config_getstr(SMB_CI_SECURITY, p, sizeof (p)); return (smb_config_secmode_fromstr(p)); } int smb_config_set_secmode(int secmode) { char *p; p = smb_config_secmode_tostr(secmode); return (smb_config_setstr(SMB_CI_SECURITY, p)); } void smb_config_getdomaininfo(char *domain, char *fqdn, char *sid, char *forest, char *guid) { if (domain) (void) smb_config_getstr(SMB_CI_DOMAIN_NAME, domain, NETBIOS_NAME_SZ); if (fqdn) (void) smb_config_getstr(SMB_CI_DOMAIN_FQDN, fqdn, MAXHOSTNAMELEN); if (sid) (void) smb_config_getstr(SMB_CI_DOMAIN_SID, sid, SMB_SID_STRSZ); if (forest) (void) smb_config_getstr(SMB_CI_DOMAIN_FOREST, forest, MAXHOSTNAMELEN); if (guid) (void) smb_config_getstr(SMB_CI_DOMAIN_GUID, guid, UUID_PRINTABLE_STRING_LENGTH); } void smb_config_setdomaininfo(char *domain, char *fqdn, char *sid, char *forest, char *guid) { if (domain) (void) smb_config_setstr(SMB_CI_DOMAIN_NAME, domain); if (fqdn) (void) smb_config_setstr(SMB_CI_DOMAIN_FQDN, fqdn); if (sid) (void) smb_config_setstr(SMB_CI_DOMAIN_SID, sid); if (forest) (void) smb_config_setstr(SMB_CI_DOMAIN_FOREST, forest); if (guid) (void) smb_config_setstr(SMB_CI_DOMAIN_GUID, guid); } /* * The version stored in SMF in string format as N.N where * N is a number defined by Microsoft. The first number represents * the major version and the second number is the minor version. * Current defined values can be found here in 'ver_table'. * * This function reads the SMF string value and converts it to * two numbers returned in the given 'version' structure. * Current default version number is 5.0 which is for Windows 2000. */ void smb_config_get_version(smb_version_t *version) { smb_version_t tmpver; char verstr[SMB_VERSTR_LEN]; char *p; int rc, i; static smb_version_t ver_table [] = { { 0, SMB_MAJOR_NT, SMB_MINOR_NT, 1381, 0 }, { 0, SMB_MAJOR_2000, SMB_MINOR_2000, 2195, 0 }, { 0, SMB_MAJOR_XP, SMB_MINOR_XP, 2196, 0 }, { 0, SMB_MAJOR_2003, SMB_MINOR_2003, 2196, 0 }, { 0, SMB_MAJOR_VISTA, SMB_MINOR_VISTA, 6000, 0 }, { 0, SMB_MAJOR_2008, SMB_MINOR_2008, 6000, 0 }, { 0, SMB_MAJOR_2008R2, SMB_MINOR_2008R2, 7007, 0 }, { 0, SMB_MAJOR_7, SMB_MINOR_7, 7007, 0 } }; *version = ver_table[1]; version->sv_size = sizeof (smb_version_t); rc = smb_config_getstr(SMB_CI_VERSION, verstr, sizeof (verstr)); if (rc != SMBD_SMF_OK) return; if ((p = strchr(verstr, '.')) == NULL) return; *p = '\0'; tmpver.sv_major = (uint8_t)atoi(verstr); tmpver.sv_minor = (uint8_t)atoi(p + 1); for (i = 0; i < sizeof (ver_table)/sizeof (ver_table[0]); ++i) { if ((tmpver.sv_major == ver_table[i].sv_major) && (tmpver.sv_minor == ver_table[i].sv_minor)) { *version = ver_table[i]; version->sv_size = sizeof (smb_version_t); break; } } } /* * Reads share exec script properties */ uint32_t smb_config_get_execinfo(char *map, char *unmap, size_t bufsz) { char buf[MAXPATHLEN]; uint32_t flags = 0; if (map == NULL) { map = buf; bufsz = MAXPATHLEN; } *map = '\0'; (void) smb_config_getstr(SMB_CI_MAP, map, bufsz); if (*map != '\0') flags |= SMB_EXEC_MAP; if (unmap == NULL) { unmap = buf; bufsz = MAXPATHLEN; } *unmap = '\0'; (void) smb_config_getstr(SMB_CI_UNMAP, unmap, bufsz); if (*unmap != '\0') flags |= SMB_EXEC_UNMAP; *buf = '\0'; (void) smb_config_getstr(SMB_CI_DISPOSITION, buf, sizeof (buf)); if (*buf != '\0') if (strcasecmp(buf, SMB_EXEC_DISP_TERMINATE) == 0) flags |= SMB_EXEC_TERM; return (flags); } static smb_cfg_param_t * smb_config_getent(smb_cfg_id_t id) { int i; for (i = 0; i < SMB_CI_MAX; i++) if (smb_cfg_table[i].sc_id == id) return (&smb_cfg_table[id]); assert(0); return (NULL); } static uint32_t smb_config_get_protocol(smb_cfg_id_t id, char *name, uint32_t default_val) { char str[SMB_VERSTR_LEN]; int rc; uint32_t val; rc = smb_config_getstr(id, str, sizeof (str)); if (rc == SMBD_SMF_OK) { val = smb_convert_version_str(str); if (val != 0) return (val); if (str[0] != '\0') { syslog(LOG_ERR, "smbd/%s value invalid: %s", name, str); } } return (default_val); } /* * The service manifest has empty values by default for min_protocol and * max_protocol. The expectation is that when those values are empty, we don't * constrain the range of supported protocol versions (and allow use of the * whole range that we implement). For that reason, this should usually be the * highest protocol version we implement. */ uint32_t max_protocol_default = SMB_VERS_3_11; uint32_t smb_config_get_max_protocol(void) { uint32_t max; max = smb_config_get_protocol(SMB_CI_MAX_PROTOCOL, "max_protocol", max_protocol_default); return (max); } /* * This should eventually be SMB_VERS_2_BASE */ uint32_t min_protocol_default = SMB_VERS_1; uint32_t smb_config_get_min_protocol(void) { uint32_t min; min = smb_config_get_protocol(SMB_CI_MIN_PROTOCOL, "min_protocol", min_protocol_default); return (min); } /* * Only SMB 3.x supports encryption. * SMB 3.0.2 uses AES128-CCM only. * SMB 3.1.1 - AES128-CCM or AES128-GCM. * This function returns bitmask for enabled ciphers */ uint16_t smb31_config_get_encrypt_cipher(void) { uint32_t max_proto = smb_config_get_max_protocol(); uint16_t cipher = 0; char str[50]; int i; /* SMB 3.0 supports only AES-128-CCM */ if (max_proto < SMB_VERS_3_11) return (SMB3_CIPHER_FLAG_AES128_CCM); /* SMB 3.1.1 */ if (smb_config_getstr(SMB_CI_ENCRYPT_CIPHER, str, sizeof (str)) == SMBD_SMF_OK) { char *s = str; char *p = NULL; do { p = strchr(s, ','); if (p != NULL) *p++ = '\0'; /* # of ciphers too small - don't care about O(n2) */ for (i = 0; smb31_enc_ciphers[i].str != NULL; i++) { if (strcmp(s, smb31_enc_ciphers[i].str) == 0) cipher |= smb31_enc_ciphers[i].val; } if (p != NULL) s = p; } while (p != NULL && *s != '\0'); } if (cipher == 0) cipher = SMB3_ALL_CIPHERS; return (cipher); } /* * Run once at startup convert old SMF settings to current. */ void smb_config_upgrade(void) { } smb_cfg_val_t smb_config_get_require(smb_cfg_id_t id) { int rc; char str[sizeof ("required")]; rc = smb_config_getstr(id, str, sizeof (str)); if (rc != SMBD_SMF_OK) return (SMB_CONFIG_DISABLED); if (strncmp(str, "required", sizeof (str)) == 0) return (SMB_CONFIG_REQUIRED); if (strncmp(str, "enabled", sizeof (str)) == 0) return (SMB_CONFIG_ENABLED); return (SMB_CONFIG_DISABLED); }