/* * 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" /* * CIFS configuration management library */ #include #include #include #include #include #include #include #include #include #include #include #include typedef struct smb_cfg_param { char *sc_pg; char *sc_name; int sc_type; char *sc_value; uint32_t sc_flags; } smb_cfg_param_t; /* * config parameter flags */ #define SMB_CF_NOTINIT 0x00 /* Not initialized yet */ #define SMB_CF_DEFINED 0x01 /* Defined/read from env */ #define SMB_CF_MODIFIED 0x02 /* Has been modified */ #define SMB_CF_SYSTEM 0x04 /* system; not part of cifs config */ #define SMB_CL_NONE 0 #define SMB_CL_READ 1 #define SMB_CL_WRITE 2 /* idmap SMF fmri and Property Group */ #define IDMAP_FMRI_PREFIX "system/idmap" #define MACHINE_SID "machine_sid" #define IDMAP_DOMAIN "domain_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 rwlock_t smb_cfg_rwlk; static int lock_type = SMB_CL_NONE; /* * IMPORTANT: any changes to the order of this table's entries * need to be reflected in smb_cfg_id_t enum in libsmb.h */ static smb_cfg_param_t smb_cfg_table[] = { /* Redirector configuration, User space */ {SMBD_PG_NAME, SMB_CD_RDR_IPCMODE, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PROTECTED_PG_NAME, SMB_CD_RDR_IPCUSER, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PROTECTED_PG_NAME, SMB_CD_RDR_IPCPWD, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, /* Oplock configuration, Kernel Only */ {SMBD_PG_NAME, SMB_CD_OPLOCK_ENABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_OPLOCK_TIMEOUT, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, /* Autohome configuration */ {SMBD_PG_NAME, SMB_CD_AUTOHOME_MAP, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, /* Domain/PDC configuration */ {SMBD_PG_NAME, SMB_CD_DOMAIN_SID, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_DOMAIN_MEMB, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_DOMAIN_NAME, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_DOMAIN_SRV, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, /* WINS configuration */ {SMBD_PG_NAME, SMB_CD_WINS_SRV1, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_WINS_SRV2, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_WINS_EXCL, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, /* RPC services configuration */ {SMBD_PG_NAME, SMB_CD_SRVSVC_SHRSET_ENABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_LOGR_ENABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_MLRPC_KALIVE, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, /* Kmod specific configuration */ {SMBD_PG_NAME, SMB_CD_MAX_BUFSIZE, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_MAX_WORKERS, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_MAX_CONNECTIONS, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_KEEPALIVE, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_RESTRICT_ANON, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_SIGNING_ENABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_SIGNING_REQD, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_SIGNING_CHECK, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, /* Kmod tuning configuration */ {SMBD_PG_NAME, SMB_CD_FLUSH_REQUIRED, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_SYNC_ENABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_DIRSYMLINK_DISABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_ANNONCE_QUOTA, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, /* SMBd configuration */ {SMBD_PG_NAME, SMB_CD_SECURITY, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_NBSCOPE, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_SYS_CMNT, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_LM_LEVEL, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_MSDCS_DISABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, /* ADS Configuration */ {SMBD_PG_NAME, SMB_CD_ADS_ENABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PROTECTED_PG_NAME, SMB_CD_ADS_USER, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PROTECTED_PG_NAME, SMB_CD_ADS_PASSWD, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_ADS_DOMAIN, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_ADS_USER_CONTAINER, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_ADS_SITE, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_ADS_IPLOOKUP, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, /* Dynamic DNS */ {SMBD_PG_NAME, SMB_CD_DYNDNS_ENABLE, SCF_TYPE_BOOLEAN, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_DYNDNS_RETRY_COUNT, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, {SMBD_PG_NAME, SMB_CD_DYNDNS_RETRY_SEC, SCF_TYPE_INTEGER, 0, SMB_CF_NOTINIT}, {SMBD_PROTECTED_PG_NAME, SMB_CD_MACHINE_PASSWD, SCF_TYPE_ASTRING, 0, SMB_CF_NOTINIT} /* SMB_CI_MAX */ }; 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_update(smb_cfg_param_t *cfg, char *value); static int smb_config_save_all(); static int smb_config_save(char *pgname); 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); } /* * Basically commit the transaction. */ static int smb_config_saveenv(smb_scfhandle_t *handle) { int ret = 0; ret = smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (ret); } /* * smb_config_getenv * * Get the property value from SMF. */ char * smb_config_getenv(smb_cfg_id_t id) { smb_scfhandle_t *handle; char *value; if ((value = malloc(MAX_VALUE_BUFLEN * sizeof (char))) == NULL) return (NULL); handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) { free(value); return (NULL); } (void) smb_smf_create_service_pgroup(handle, smb_cfg_table[id].sc_pg); if (smb_smf_get_property(handle, smb_cfg_table[id].sc_type, smb_cfg_table[id].sc_name, value, sizeof (char) * MAX_VALUE_BUFLEN) != 0) { smb_smf_scf_fini(handle); free(value); return (NULL); } smb_smf_scf_fini(handle); return (value); } /* * smb_config_getenv_dec * * For protected property, the value obtained from SMF will be decoded. * The decoded property value will be returned. * * This function should only be called by smb_config_load to populate * the SMB config cache. */ static char * smb_config_getenv_dec(smb_cfg_id_t id) { smb_scfhandle_t *handle; char *value; char *dec; if ((value = malloc(MAX_VALUE_BUFLEN * sizeof (char))) == NULL) return (NULL); handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) { free(value); return (NULL); } (void) smb_smf_create_service_pgroup(handle, smb_cfg_table[id].sc_pg); if (smb_smf_get_property(handle, smb_cfg_table[id].sc_type, smb_cfg_table[id].sc_name, value, sizeof (char) * MAX_VALUE_BUFLEN) != 0) { smb_smf_scf_fini(handle); free(value); return (NULL); } smb_smf_scf_fini(handle); if (strcmp(smb_cfg_table[id].sc_pg, SMBD_PROTECTED_PG_NAME)) return (value); if (!value) return (NULL); if (*value == '\0') { free(value); return (NULL); } dec = smb_base64_decode(value); free(value); return (dec); } 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); } 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_setenv * * For protected properties, the value will be encoded using base64 * algorithm. The encoded string will be stored in SMF. */ int smb_config_setenv(smb_cfg_id_t id, char *value) { smb_scfhandle_t *handle = NULL; char *enc = NULL; int is_protected = 0; if ((id >= SMB_CI_MAX) || (id < 0)) { return (1); } handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) { return (1); } (void) smb_smf_create_service_pgroup(handle, smb_cfg_table[id].sc_pg); if (smb_smf_start_transaction(handle) != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (1); } if (strcmp(smb_cfg_table[id].sc_pg, SMBD_PROTECTED_PG_NAME) == 0) { if ((value == NULL) || (*value == '\0')) { (void) smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (1); } if ((enc = smb_base64_encode(value)) == NULL) { (void) smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (1); } is_protected = 1; } if (smb_smf_set_property(handle, smb_cfg_table[id].sc_type, smb_cfg_table[id].sc_name, is_protected ? enc : value) != SMBD_SMF_OK) { if (enc) free(enc); (void) smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (1); } if (enc) free(enc); if (smb_smf_end_transaction(handle) != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (1); } smb_smf_scf_fini(handle); return (0); } static void smb_config_setenv_trans(smb_scfhandle_t *handle, int type, char *name, char *value) { if (smb_smf_set_property(handle, type, name, value) != SMBD_SMF_OK) { syslog(LOG_ERR, "Failed to save service property %s", name); } } /* * smb_config_setenv_trans_protected * * This function should only be called to set protected properties * in SMF. The argument 'value' will be encoded using base64 algorithm. * The encoded string will be stored in SMF. */ static void smb_config_setenv_trans_protected(smb_scfhandle_t *handle, char *name, char *value) { char *enc; if ((value == NULL) || (*value == '\0')) return; if ((enc = smb_base64_encode(value)) == NULL) return; if (smb_smf_set_string_property(handle, name, enc) != SMBD_SMF_OK) { syslog(LOG_ERR, "Failed to save service protected property" " %s", name); } free(enc); } int smb_config_unsetenv(smb_cfg_id_t id) { smb_scfhandle_t *handle = NULL; int ret = 1; handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) { return (ret); } (void) smb_smf_create_service_pgroup(handle, smb_cfg_table[id].sc_pg); if (smb_smf_start_transaction(handle) != SMBD_SMF_OK) { smb_smf_scf_fini(handle); return (ret); } ret = smb_smf_delete_property(handle, smb_cfg_table[id].sc_name); (void) smb_smf_end_transaction(handle); smb_smf_scf_fini(handle); return (ret); } static int smb_config_unsetenv_trans(smb_scfhandle_t *handle, char *name) { return (smb_smf_delete_property(handle, name)); } /* * smb_config_load * * Loads all the CIFS configuration parameters and sets up the * config table. */ int smb_config_load() { smb_cfg_id_t id; smb_cfg_param_t *cfg; char *value; (void) rw_rdlock(&smb_cfg_rwlk); for (id = 0; id < SMB_CI_MAX; id++) { value = smb_config_getenv_dec(id); cfg = &smb_cfg_table[id]; /* * enval == 0 could mean two things, either the * config param is not defined, or it has been * removed. If the variable has already been defined * and now enval is 0, it should be removed, otherwise * we don't need to do anything in this case. */ if ((cfg->sc_flags & SMB_CF_DEFINED) || value) { if (smb_config_update(cfg, value) != 0) { (void) rw_unlock(&smb_cfg_rwlk); if (value) free(value); return (1); } } if (value) { free(value); } } (void) rw_unlock(&smb_cfg_rwlk); return (0); } /* * smb_config_get * * Returns value of the specified config param. * The return value is a string pointer to the locally * allocated memory if the config param is defined * otherwise it would be NULL. * * This function MUST be called after a smb_config_rd/wrlock * function. Caller MUST NOT modify the returned buffer directly. */ char * smb_config_get(smb_cfg_id_t id) { if (id < SMB_CI_MAX) return (smb_cfg_table[id].sc_value); return (0); } /* * smb_config_getstr * * Returns value of the specified config param. * The returned pointer never will be NULL if the given * 'id' is valid. If the config param is not defined its * default value will be returned. * * This function MUST be called after a smb_config_rd/wrlock * function. Caller MUST NOT modify the returned buffer directly. */ char * smb_config_getstr(smb_cfg_id_t id) { smb_cfg_param_t *cfg; if (id < SMB_CI_MAX) { cfg = &smb_cfg_table[id]; if (cfg->sc_value) return (cfg->sc_value); } return (NULL); } /* * smb_config_getnum * * Returns the value of a numeric config param. * If the config param is not defined it'll return the * default value. * * This function MUST be called after a smb_config_rd/wrlock * function. */ uint32_t smb_config_getnum(smb_cfg_id_t id) { smb_cfg_param_t *cfg; char *strval = NULL; if (id < SMB_CI_MAX) { cfg = &smb_cfg_table[id]; if (cfg->sc_value) strval = cfg->sc_value; if (strval) return (strtol(strval, 0, 10)); } return (0); } /* * smb_config_getyorn * * Returns the value of a yes/no config param. * Returns 1 is config is set to "yes", otherwise 0. * * This function MUST be called after a smb_config_rd/wrlock * function. */ int smb_config_getyorn(smb_cfg_id_t id) { char *val; val = smb_config_get(id); if (val) { if (strcasecmp(val, "true") == 0) return (1); } return (0); } /* * smb_config_set * * Set/update the specified config param with the given * value. If the value is NULL the config param will be * unset as if it is not defined. * * This function MUST be called after a smb_config_wrlock * function. */ int smb_config_set(smb_cfg_id_t id, char *value) { smb_cfg_param_t *cfg; int rc = 0; if (id < SMB_CI_MAX) { cfg = &smb_cfg_table[id]; rc = smb_config_update(cfg, value); if (rc == 0) cfg->sc_flags |= SMB_CF_MODIFIED; return (rc); } return (1); } /* * smb_config_setnum * * Set/update the specified config param with the given * value. This is used for numeric config params. The given * number will be converted to string before setting the * config param. * * This function MUST be called after a smb_config_wrlock * function. */ int smb_config_setnum(smb_cfg_id_t id, uint32_t num) { smb_cfg_param_t *cfg; char value[32]; int rc = 0; if (id < SMB_CI_MAX) { cfg = &smb_cfg_table[id]; (void) snprintf(value, sizeof (value), "%u", num); rc = smb_config_update(cfg, value); if (rc == 0) cfg->sc_flags |= SMB_CF_MODIFIED; return (rc); } return (1); } /* * smb_config_rdlock * * Lock the config table for read access. * This function MUST be called before any kind of * read access to the config table i.e. all flavors of * smb_config_get function */ void smb_config_rdlock() { (void) rw_rdlock(&smb_cfg_rwlk); lock_type = SMB_CL_READ; } /* * smb_config_wrlock * * Lock the config table for write access. * This function MUST be called before any kind of * write access to the config table i.e. all flavors of * smb_config_set function */ void smb_config_wrlock() { (void) rw_wrlock(&smb_cfg_rwlk); lock_type = SMB_CL_WRITE; } /* * smb_config_wrlock * * Unlock the config table. * If the config table has been locked for write access * smb_config_save_all() will be called to save the changes * before unlocking the table. * * This function MUST be called after smb_config_rd/wrlock */ void smb_config_unlock() { if (lock_type == SMB_CL_WRITE) (void) smb_config_save_all(); (void) rw_unlock(&smb_cfg_rwlk); } /* * smb_config_save_all * * Save all modified parameters to SMF. */ static int smb_config_save_all() { int rc; if ((rc = smb_config_save(SMBD_PG_NAME)) != 0) return (rc); return (smb_config_save(SMBD_PROTECTED_PG_NAME)); } /* * smb_config_save * * Scan the config table and call smb_config_setenv/smb_config_unsetenv * for params in the specified property group that has been modified. * When the scan is finished, smb_config_saveenv() will be called to * make the changes persistent. */ static int smb_config_save(char *pgname) { smb_cfg_id_t id; smb_cfg_param_t *cfg; smb_scfhandle_t *handle = NULL; int dorefresh = 0; handle = smb_smf_scf_init(SMBD_FMRI_PREFIX); if (handle == NULL) { syslog(LOG_ERR, "smbd: cannot save configuration"); return (1); } (void) smb_smf_create_service_pgroup(handle, pgname); if (smb_smf_start_transaction(handle) != SMBD_SMF_OK) { syslog(LOG_ERR, "smbd: cannot save configuration"); return (1); } for (id = 0; id < SMB_CI_MAX; id++) { cfg = &smb_cfg_table[id]; if (strcmp(cfg->sc_pg, pgname)) continue; if (cfg->sc_flags & SMB_CF_MODIFIED) { if (cfg->sc_value) { if (strcmp(pgname, SMBD_PG_NAME) == 0) smb_config_setenv_trans(handle, cfg->sc_type, cfg->sc_name, cfg->sc_value); else smb_config_setenv_trans_protected( handle, cfg->sc_name, cfg->sc_value); } else { (void) smb_config_unsetenv_trans(handle, cfg->sc_name); } cfg->sc_flags &= ~SMB_CF_MODIFIED; dorefresh = 1; } } if (smb_config_saveenv(handle) != 0) { syslog(LOG_ERR, "smbd: cannot save configuration"); return (1); } if (dorefresh) (void) smf_refresh_instance(SMBD_DEFAULT_INSTANCE_FMRI); return (0); } /* * smb_config_update * * Updates the specified config param with the given value. * This function is called both on (re)load and set. */ static int smb_config_update(smb_cfg_param_t *cfg, char *value) { char *curval; int rc = 0; int len; if (value) { len = strlen(value); if (cfg->sc_value) { curval = (char *)realloc(cfg->sc_value, (len + 1)); } else { curval = (char *)malloc(len + 1); } if (curval) { cfg->sc_value = curval; (void) strcpy(cfg->sc_value, value); cfg->sc_flags |= SMB_CF_DEFINED; } else { rc = 1; } } else if (cfg->sc_value) { free(cfg->sc_value); cfg->sc_value = NULL; cfg->sc_flags &= ~SMB_CF_DEFINED; } return (rc); } 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_localsid * * Returns value of the "config/machine_sid" parameter * from the IDMAP SMF configuration repository. * */ char * smb_config_get_localsid(void) { return (smb_config_getenv_generic(MACHINE_SID, IDMAP_FMRI_PREFIX, IDMAP_PG_NAME)); } /* * 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)); } /* * smb_config_refresh * * Refresh SMB SMF service. */ int smb_config_refresh(void) { return (smf_refresh_instance(SMBD_DEFAULT_INSTANCE_FMRI)); } 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; p = smb_config_getstr(SMB_CI_SECURITY); return (smb_config_secmode_fromstr(p)); } int smb_config_set_secmode(int secmode) { char *p; p = smb_config_secmode_tostr(secmode); return (smb_config_set(SMB_CI_SECURITY, p)); }