/* * 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) 2008, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright (c) 2016 by Delphix. All rights reserved. * Copyright 2018 Nexenta Systems, Inc. All rights reserved. */ #include #include #include #include #include #include #include #include #include #include #include #include #include static smb_account_t smb_guest; static smb_account_t smb_domusers; static rwlock_t smb_logoninit_rwl; typedef void (*smb_logonop_t)(smb_logon_t *, smb_token_t *); static void smb_logon_local(smb_logon_t *, smb_token_t *); static void smb_logon_guest(smb_logon_t *, smb_token_t *); static void smb_logon_anon(smb_logon_t *, smb_token_t *); static uint32_t smb_token_auth_local(smb_logon_t *, smb_token_t *, smb_passwd_t *); static uint32_t smb_token_setup_local(smb_passwd_t *, smb_token_t *); static uint32_t smb_token_setup_guest(smb_logon_t *, smb_token_t *); static uint32_t smb_token_setup_anon(smb_token_t *token); static boolean_t smb_token_is_member(smb_token_t *, smb_sid_t *); static uint32_t smb_token_setup_wingrps(smb_token_t *); static smb_posix_grps_t *smb_token_create_pxgrps(uid_t); static void smb_guest_account(char *, size_t); /* Consolidation private function from Network Repository */ extern int _getgroupsbymember(const char *, gid_t[], int, int); static idmap_stat smb_token_idmap(smb_token_t *token, smb_idmap_batch_t *sib) { idmap_stat stat; smb_idmap_t *sim; smb_id_t *id; int i; if (!token || !sib) return (IDMAP_ERR_ARG); sim = sib->sib_maps; if (token->tkn_flags & SMB_ATF_ANON) { token->tkn_user.i_id = UID_NOBODY; token->tkn_owner.i_id = UID_NOBODY; } else { /* User SID */ id = &token->tkn_user; sim->sim_id = &id->i_id; stat = smb_idmap_batch_getid(sib->sib_idmaph, sim++, id->i_sid, SMB_IDMAP_USER); if (stat != IDMAP_SUCCESS) return (stat); /* Owner SID */ id = &token->tkn_owner; sim->sim_id = &id->i_id; stat = smb_idmap_batch_getid(sib->sib_idmaph, sim++, id->i_sid, SMB_IDMAP_USER); if (stat != IDMAP_SUCCESS) return (stat); } /* Primary Group SID */ id = &token->tkn_primary_grp; sim->sim_id = &id->i_id; stat = smb_idmap_batch_getid(sib->sib_idmaph, sim++, id->i_sid, SMB_IDMAP_GROUP); if (stat != IDMAP_SUCCESS) return (stat); /* Other Windows Group SIDs */ for (i = 0; i < token->tkn_win_grps.i_cnt; i++, sim++) { id = &token->tkn_win_grps.i_ids[i]; sim->sim_id = &id->i_id; stat = smb_idmap_batch_getid(sib->sib_idmaph, sim, id->i_sid, SMB_IDMAP_GROUP); if (stat != IDMAP_SUCCESS) break; } return (stat); } /* * smb_token_sids2ids * * This will map all the SIDs of the access token to UIDs/GIDs. * However, if there are some SIDs we can't map to UIDs/GIDs, * we don't want to fail the logon, and instead just log the * SIDs we could not map and continue as best we can. * The flag SMB_IDMAP_SKIP_ERRS below does that. * * Returns 0 upon success. Otherwise, returns -1. */ static int smb_token_sids2ids(smb_token_t *token) { idmap_stat stat; int nmaps; smb_idmap_batch_t sib; /* * Number of idmap lookups: user SID, owner SID, primary group SID, * and all Windows group SIDs. Skip user/owner SID for Anonymous. */ if (token->tkn_flags & SMB_ATF_ANON) nmaps = token->tkn_win_grps.i_cnt + 1; else nmaps = token->tkn_win_grps.i_cnt + 3; stat = smb_idmap_batch_create(&sib, nmaps, SMB_IDMAP_SID2ID | SMB_IDMAP_SKIP_ERRS); if (stat != IDMAP_SUCCESS) return (-1); stat = smb_token_idmap(token, &sib); if (stat != IDMAP_SUCCESS) { smb_idmap_batch_destroy(&sib); return (-1); } stat = smb_idmap_batch_getmappings(&sib); smb_idmap_check("smb_idmap_batch_getmappings", stat); smb_idmap_batch_destroy(&sib); return (stat == IDMAP_SUCCESS ? 0 : -1); } /* * smb_token_create_pxgrps * * Setup the POSIX group membership of the access token if the given UID is * a POSIX UID (non-ephemeral). Both the user's primary group and * supplementary groups will be added to the POSIX group array of the access * token. */ static smb_posix_grps_t * smb_token_create_pxgrps(uid_t uid) { struct passwd *pwd; smb_posix_grps_t *pgrps; int ngroups_max, num; gid_t *gids; if ((ngroups_max = sysconf(_SC_NGROUPS_MAX)) < 0) { syslog(LOG_ERR, "smb_logon: failed to get _SC_NGROUPS_MAX"); return (NULL); } pwd = getpwuid(uid); if (pwd == NULL) { pgrps = malloc(sizeof (smb_posix_grps_t)); if (pgrps == NULL) return (NULL); pgrps->pg_ngrps = 0; return (pgrps); } if (pwd->pw_name == NULL) { pgrps = malloc(sizeof (smb_posix_grps_t)); if (pgrps == NULL) return (NULL); pgrps->pg_ngrps = 1; pgrps->pg_grps[0] = pwd->pw_gid; return (pgrps); } gids = (gid_t *)malloc(ngroups_max * sizeof (gid_t)); if (gids == NULL) { return (NULL); } bzero(gids, ngroups_max * sizeof (gid_t)); gids[0] = pwd->pw_gid; /* * Setup the groups starting at index 1 (the last arg) * of gids array. */ num = _getgroupsbymember(pwd->pw_name, gids, ngroups_max, 1); if (num == -1) { syslog(LOG_ERR, "smb_logon: unable " "to get user's supplementary groups"); num = 1; } pgrps = (smb_posix_grps_t *)malloc(SMB_POSIX_GRPS_SIZE(num)); if (pgrps) { pgrps->pg_ngrps = num; bcopy(gids, pgrps->pg_grps, num * sizeof (gid_t)); } free(gids); return (pgrps); } /* * smb_token_destroy * * Release all of the memory associated with a token structure. Ensure * that the token has been unlinked before calling. */ void smb_token_destroy(smb_token_t *token) { if (token != NULL) { smb_sid_free(token->tkn_user.i_sid); smb_sid_free(token->tkn_owner.i_sid); smb_sid_free(token->tkn_primary_grp.i_sid); smb_ids_free(&token->tkn_win_grps); smb_privset_free(token->tkn_privileges); free(token->tkn_posix_grps); free(token->tkn_account_name); free(token->tkn_domain_name); free(token->tkn_ssnkey.val); bzero(token, sizeof (smb_token_t)); free(token); } } /* * Token owner should be set to local Administrators group * in two cases: * 1. The logged on user is a member of Domain Admins group * 2. They are a member of local Administrators group */ static void smb_token_set_owner(smb_token_t *token) { #ifdef SMB_SUPPORT_GROUP_OWNER smb_sid_t *owner_sid; if (token->tkn_flags & SMB_ATF_ADMIN) { owner_sid = smb_wka_get_sid("Administrators"); assert(owner_sid); } else { owner_sid = token->tkn_user->i_sid; } token->tkn_owner.i_sid = smb_sid_dup(owner_sid); #endif token->tkn_owner.i_sid = smb_sid_dup(token->tkn_user.i_sid); } static smb_privset_t * smb_token_create_privs(smb_token_t *token) { smb_privset_t *privs; smb_giter_t gi; smb_group_t grp; int rc; privs = smb_privset_new(); if (privs == NULL) return (NULL); if (smb_lgrp_iteropen(&gi) != SMB_LGRP_SUCCESS) { smb_privset_free(privs); return (NULL); } while (smb_lgrp_iterate(&gi, &grp) == SMB_LGRP_SUCCESS) { if (smb_lgrp_is_member(&grp, token->tkn_user.i_sid)) smb_privset_merge(privs, grp.sg_privs); smb_lgrp_free(&grp); } smb_lgrp_iterclose(&gi); if (token->tkn_flags & SMB_ATF_ADMIN) { char admgrp[] = "Administrators"; rc = smb_lgrp_getbyname(admgrp, &grp); if (rc == SMB_LGRP_SUCCESS) { smb_privset_merge(privs, grp.sg_privs); smb_lgrp_free(&grp); } /* * This privilege is required to view/edit SACL */ smb_privset_enable(privs, SE_SECURITY_LUID); } /* * Members of "Authenticated Users" (!anon) should normally get * "Bypass traverse checking" privilege, though we allow this * to be disabled (see smb.4). For historical reasons, the * internal privilege name is "SeChangeNotifyPrivilege". */ if ((token->tkn_flags & SMB_ATF_ANON) == 0 && smb_config_getbool(SMB_CI_BYPASS_TRAVERSE_CHECKING)) smb_privset_enable(privs, SE_CHANGE_NOTIFY_LUID); return (privs); } static void smb_token_set_flags(smb_token_t *token) { if (smb_token_is_member(token, smb_wka_get_sid("Administrators"))) token->tkn_flags |= SMB_ATF_ADMIN; if (smb_token_is_member(token, smb_wka_get_sid("Power Users"))) token->tkn_flags |= SMB_ATF_POWERUSER; if (smb_token_is_member(token, smb_wka_get_sid("Backup Operators"))) token->tkn_flags |= SMB_ATF_BACKUPOP; } /* * Common token setup for both local and domain users. * This function must be called after the initial setup * has been done. * * Note that the order of calls in this function are important. * * Returns B_TRUE for success. */ boolean_t smb_token_setup_common(smb_token_t *token) { smb_token_set_flags(token); smb_token_set_owner(token); if (token->tkn_owner.i_sid == NULL) return (B_FALSE); /* Privileges */ token->tkn_privileges = smb_token_create_privs(token); if (token->tkn_privileges == NULL) return (B_FALSE); if (smb_token_sids2ids(token) != 0) { syslog(LOG_ERR, "%s\\%s: idmap failed", token->tkn_domain_name, token->tkn_account_name); return (B_FALSE); } /* Solaris Groups */ token->tkn_posix_grps = smb_token_create_pxgrps(token->tkn_user.i_id); return (smb_token_valid(token)); } uint32_t smb_logon_init(void) { uint32_t status; (void) rw_wrlock(&smb_logoninit_rwl); status = smb_sam_lookup_name(NULL, "guest", SidTypeUser, &smb_guest); if (status != NT_STATUS_SUCCESS) { (void) rw_unlock(&smb_logoninit_rwl); return (status); } status = smb_sam_lookup_name(NULL, "domain users", SidTypeGroup, &smb_domusers); if (status != NT_STATUS_SUCCESS) { smb_account_free(&smb_guest); bzero(&smb_guest, sizeof (smb_account_t)); (void) rw_unlock(&smb_logoninit_rwl); return (status); } (void) rw_unlock(&smb_logoninit_rwl); return (status); } void smb_logon_fini(void) { (void) rw_wrlock(&smb_logoninit_rwl); smb_account_free(&smb_guest); smb_account_free(&smb_domusers); bzero(&smb_guest, sizeof (smb_account_t)); bzero(&smb_domusers, sizeof (smb_account_t)); (void) rw_unlock(&smb_logoninit_rwl); } /* * Perform user authentication. * * The dispatched functions must only update the user_info status if they * attempt to authenticate the user. * * On success, a pointer to a new access token is returned. * On failure, NULL return and status in user_info->lg_status */ smb_token_t * smb_logon(smb_logon_t *user_info) { static smb_logonop_t ops[] = { smb_logon_anon, smb_logon_local, smb_logon_domain, smb_logon_guest }; smb_token_t *token = NULL; smb_domain_t domain; int n_op = (sizeof (ops) / sizeof (ops[0])); int i; user_info->lg_secmode = smb_config_get_secmode(); if (smb_domain_lookup_name(user_info->lg_e_domain, &domain)) user_info->lg_domain_type = domain.di_type; else user_info->lg_domain_type = SMB_DOMAIN_NULL; if ((token = calloc(1, sizeof (smb_token_t))) == NULL) { syslog(LOG_ERR, "logon[%s\\%s]: %m", user_info->lg_e_domain, user_info->lg_e_username); return (NULL); } /* * If any logonop function takes significant action * (logon or authoratative failure) it will change * this status field to something else. */ user_info->lg_status = NT_STATUS_NO_SUCH_USER; for (i = 0; i < n_op; ++i) { (*ops[i])(user_info, token); if (user_info->lg_status == NT_STATUS_SUCCESS) break; } if (user_info->lg_status == NT_STATUS_SUCCESS) { if (smb_token_setup_common(token)) return (token); /* success */ /* * (else) smb_token_setup_common failed, which usually * means smb_token_sids2ids() failed to map some SIDs to * Unix IDs. This indicates an idmap config problem. */ user_info->lg_status = NT_STATUS_INTERNAL_ERROR; } smb_token_destroy(token); /* * Any unknown user or bad password should result in * NT_STATUS_LOGON_FAILURE (so we don't give hints). */ if (user_info->lg_status == NT_STATUS_NO_SUCH_USER || user_info->lg_status == NT_STATUS_WRONG_PASSWORD) user_info->lg_status = NT_STATUS_LOGON_FAILURE; return (NULL); } /* * If the user has an entry in the local database, attempt local authentication. * * In domain mode, we try to exclude domain accounts, which we do by only * accepting local or null (blank) domain names here. Some clients (Mac OS) * don't always send the domain name. * * If we are not going to attempt authentication, this function must return * without updating the status. */ static void smb_logon_local(smb_logon_t *user_info, smb_token_t *token) { char guest[SMB_USERNAME_MAXLEN]; smb_passwd_t smbpw; uint32_t status; if (user_info->lg_secmode == SMB_SECMODE_DOMAIN) { if ((user_info->lg_domain_type != SMB_DOMAIN_LOCAL) && (user_info->lg_domain_type != SMB_DOMAIN_NULL)) return; } /* * If the requested account name is "guest" (or whatever * our guest account is named) then don't handle it here. * Let this request fall through to smb_logon_guest(). */ smb_guest_account(guest, SMB_USERNAME_MAXLEN); if (smb_strcasecmp(guest, user_info->lg_e_username, 0) == 0) return; status = smb_token_auth_local(user_info, token, &smbpw); if (status == NT_STATUS_SUCCESS) status = smb_token_setup_local(&smbpw, token); user_info->lg_status = status; } /* * Guest authentication. This may be a local guest account or the guest * account may be mapped to a local account. These accounts are regular * accounts with normal password protection. * * Only proceed with a guest logon if previous logon options have resulted * in NO_SUCH_USER. * * If we are not going to attempt authentication, this function must return * without updating the status. */ static void smb_logon_guest(smb_logon_t *user_info, smb_token_t *token) { char guest[SMB_USERNAME_MAXLEN]; smb_passwd_t smbpw; char *temp; if (user_info->lg_status != NT_STATUS_NO_SUCH_USER) return; /* Get the name of the guest account. */ smb_guest_account(guest, SMB_USERNAME_MAXLEN); /* Does the guest account exist? */ if (smb_pwd_getpwnam(guest, &smbpw) == NULL) return; /* Is it enabled? (empty p/w is OK) */ if (smbpw.pw_flags & SMB_PWF_DISABLE) return; /* * OK, give the client a guest logon. Note that on entry, * lg_e_username is typically something other than "guest" * so we need to set the effective username when createing * the guest token. */ temp = user_info->lg_e_username; user_info->lg_e_username = guest; user_info->lg_status = smb_token_setup_guest(user_info, token); user_info->lg_e_username = temp; } /* * If user_info represents an anonymous user then setup the token. * Otherwise return without updating the status. */ static void smb_logon_anon(smb_logon_t *user_info, smb_token_t *token) { if (user_info->lg_flags & SMB_ATF_ANON) user_info->lg_status = smb_token_setup_anon(token); } /* * Try both LM hash and NT hashes with user's password(s) to authenticate * the user. */ static uint32_t smb_token_auth_local(smb_logon_t *user_info, smb_token_t *token, smb_passwd_t *smbpw) { boolean_t ok; uint32_t status = NT_STATUS_SUCCESS; if (smb_pwd_getpwnam(user_info->lg_e_username, smbpw) == NULL) return (NT_STATUS_NO_SUCH_USER); if (smbpw->pw_flags & SMB_PWF_DISABLE) return (NT_STATUS_ACCOUNT_DISABLED); if ((smbpw->pw_flags & (SMB_PWF_LM | SMB_PWF_NT)) == 0) { /* * The SMB passwords have not been set. * Return an error that suggests the * password needs to be set. */ return (NT_STATUS_PASSWORD_EXPIRED); } token->tkn_ssnkey.val = malloc(SMBAUTH_SESSION_KEY_SZ); if (token->tkn_ssnkey.val == NULL) return (NT_STATUS_NO_MEMORY); token->tkn_ssnkey.len = SMBAUTH_SESSION_KEY_SZ; ok = smb_auth_validate( smbpw, user_info->lg_domain, user_info->lg_username, user_info->lg_challenge_key.val, user_info->lg_challenge_key.len, user_info->lg_nt_password.val, user_info->lg_nt_password.len, user_info->lg_lm_password.val, user_info->lg_lm_password.len, token->tkn_ssnkey.val); if (ok) return (NT_STATUS_SUCCESS); free(token->tkn_ssnkey.val); token->tkn_ssnkey.val = NULL; token->tkn_ssnkey.len = 0; status = NT_STATUS_WRONG_PASSWORD; syslog(LOG_NOTICE, "logon[%s\\%s]: %s", user_info->lg_e_domain, user_info->lg_e_username, xlate_nt_status(status)); return (status); } /* * Setup an access token for the specified local user. */ static uint32_t smb_token_setup_local(smb_passwd_t *smbpw, smb_token_t *token) { idmap_stat stat; smb_idmap_batch_t sib; smb_idmap_t *umap, *gmap; struct passwd pw; char pwbuf[1024]; char nbname[NETBIOS_NAME_SZ]; (void) smb_getnetbiosname(nbname, sizeof (nbname)); token->tkn_account_name = strdup(smbpw->pw_name); token->tkn_domain_name = strdup(nbname); if (token->tkn_account_name == NULL || token->tkn_domain_name == NULL) return (NT_STATUS_NO_MEMORY); if (getpwuid_r(smbpw->pw_uid, &pw, pwbuf, sizeof (pwbuf)) == NULL) return (NT_STATUS_NO_SUCH_USER); /* Get the SID for user's uid & gid */ stat = smb_idmap_batch_create(&sib, 2, SMB_IDMAP_ID2SID); if (stat != IDMAP_SUCCESS) return (NT_STATUS_INTERNAL_ERROR); umap = &sib.sib_maps[0]; stat = smb_idmap_batch_getsid(sib.sib_idmaph, umap, pw.pw_uid, SMB_IDMAP_USER); if (stat != IDMAP_SUCCESS) { smb_idmap_batch_destroy(&sib); return (NT_STATUS_INTERNAL_ERROR); } gmap = &sib.sib_maps[1]; stat = smb_idmap_batch_getsid(sib.sib_idmaph, gmap, pw.pw_gid, SMB_IDMAP_GROUP); if (stat != IDMAP_SUCCESS) { smb_idmap_batch_destroy(&sib); return (NT_STATUS_INTERNAL_ERROR); } if (smb_idmap_batch_getmappings(&sib) != IDMAP_SUCCESS) return (NT_STATUS_INTERNAL_ERROR); token->tkn_user.i_sid = smb_sid_dup(umap->sim_sid); token->tkn_primary_grp.i_sid = smb_sid_dup(gmap->sim_sid); smb_idmap_batch_destroy(&sib); if (token->tkn_user.i_sid == NULL || token->tkn_primary_grp.i_sid == NULL) return (NT_STATUS_NO_MEMORY); return (smb_token_setup_wingrps(token)); } /* * Setup access token for guest connections */ static uint32_t smb_token_setup_guest(smb_logon_t *user_info, smb_token_t *token) { token->tkn_account_name = strdup(user_info->lg_e_username); (void) rw_rdlock(&smb_logoninit_rwl); token->tkn_domain_name = strdup(smb_guest.a_domain); token->tkn_user.i_sid = smb_sid_dup(smb_guest.a_sid); token->tkn_primary_grp.i_sid = smb_sid_dup(smb_domusers.a_sid); (void) rw_unlock(&smb_logoninit_rwl); token->tkn_flags = SMB_ATF_GUEST; if (token->tkn_account_name == NULL || token->tkn_domain_name == NULL || token->tkn_user.i_sid == NULL || token->tkn_primary_grp.i_sid == NULL) return (NT_STATUS_NO_MEMORY); return (smb_token_setup_wingrps(token)); } /* * Setup access token for anonymous connections */ static uint32_t smb_token_setup_anon(smb_token_t *token) { smb_sid_t *user_sid; token->tkn_account_name = strdup("Anonymous"); token->tkn_domain_name = strdup("NT Authority"); user_sid = smb_wka_get_sid("Anonymous"); token->tkn_user.i_sid = smb_sid_dup(user_sid); token->tkn_primary_grp.i_sid = smb_sid_dup(user_sid); token->tkn_flags = SMB_ATF_ANON; if (token->tkn_account_name == NULL || token->tkn_domain_name == NULL || token->tkn_user.i_sid == NULL || token->tkn_primary_grp.i_sid == NULL) return (NT_STATUS_NO_MEMORY); return (smb_token_setup_wingrps(token)); } /* * smb_token_user_sid * * Return a pointer to the user SID in the specified token. A null * pointer indicates an error. */ static smb_sid_t * smb_token_user_sid(smb_token_t *token) { return ((token) ? token->tkn_user.i_sid : NULL); } /* * smb_token_group_sid * * Return a pointer to the group SID as indicated by the iterator. * Setting the iterator to 0 before calling this function will return * the first group, which will always be the primary group. The * iterator will be incremented before returning the SID so that this * function can be used to cycle through the groups. The caller can * adjust the iterator as required between calls to obtain any specific * group. * * On success a pointer to the appropriate group SID will be returned. * Otherwise a null pointer will be returned. */ static smb_sid_t * smb_token_group_sid(smb_token_t *token, int *iterator) { int index; if (token == NULL || iterator == NULL) return (NULL); if (token->tkn_win_grps.i_ids == NULL) return (NULL); index = *iterator; if (index < 0 || index >= token->tkn_win_grps.i_cnt) return (NULL); ++(*iterator); return (token->tkn_win_grps.i_ids[index].i_sid); } /* * smb_token_is_member * * This function will determine whether or not the specified SID is a * member of a token. The user SID and all group SIDs are tested. * Returns 1 if the SID is a member of the token. Otherwise returns 0. */ static boolean_t smb_token_is_member(smb_token_t *token, smb_sid_t *sid) { smb_sid_t *tsid; int iterator = 0; if (token == NULL || sid == NULL) return (B_FALSE); tsid = smb_token_user_sid(token); while (tsid) { if (smb_sid_cmp(tsid, sid)) return (B_TRUE); tsid = smb_token_group_sid(token, &iterator); } return (B_FALSE); } /* * smb_token_log * * Diagnostic routine to write the contents of a token to the log. */ void smb_token_log(smb_token_t *token) { smb_ids_t *w_grps; smb_id_t *grp; smb_posix_grps_t *x_grps; char sidstr[SMB_SID_STRSZ]; int i; if (token == NULL) return; syslog(LOG_DEBUG, "Token for %s\\%s", (token->tkn_domain_name) ? token->tkn_domain_name : "-NULL-", (token->tkn_account_name) ? token->tkn_account_name : "-NULL-"); syslog(LOG_DEBUG, " User->Attr: %d", token->tkn_user.i_attrs); smb_sid_tostr((smb_sid_t *)token->tkn_user.i_sid, sidstr); syslog(LOG_DEBUG, " User->Sid: %s (id=%u)", sidstr, token->tkn_user.i_id); smb_sid_tostr((smb_sid_t *)token->tkn_owner.i_sid, sidstr); syslog(LOG_DEBUG, " Ownr->Sid: %s (id=%u)", sidstr, token->tkn_owner.i_id); smb_sid_tostr((smb_sid_t *)token->tkn_primary_grp.i_sid, sidstr); syslog(LOG_DEBUG, " PGrp->Sid: %s (id=%u)", sidstr, token->tkn_primary_grp.i_id); w_grps = &token->tkn_win_grps; if (w_grps->i_ids) { syslog(LOG_DEBUG, " Windows groups: %d", w_grps->i_cnt); grp = w_grps->i_ids; for (i = 0; i < w_grps->i_cnt; ++i, grp++) { syslog(LOG_DEBUG, " Grp[%d].Attr:%d", i, grp->i_attrs); if (grp->i_sid != NULL) { smb_sid_tostr((smb_sid_t *)grp->i_sid, sidstr); syslog(LOG_DEBUG, " Grp[%d].Sid: %s (id=%u)", i, sidstr, grp->i_id); } } } else { syslog(LOG_DEBUG, " No Windows groups"); } x_grps = token->tkn_posix_grps; if (x_grps) { syslog(LOG_DEBUG, " Solaris groups: %d", x_grps->pg_ngrps); for (i = 0; i < x_grps->pg_ngrps; i++) syslog(LOG_DEBUG, " %u", x_grps->pg_grps[i]); } else { syslog(LOG_DEBUG, " No Solaris groups"); } if (token->tkn_privileges) smb_privset_log(token->tkn_privileges); else syslog(LOG_DEBUG, " No privileges"); } /* * Sets up local and well-known group membership for the given * token. Two assumptions have been made here: * * a) token already contains a valid user SID so that group * memberships can be established * * b) token belongs to a local or anonymous user */ static uint32_t smb_token_setup_wingrps(smb_token_t *token) { smb_ids_t tkn_grps; uint32_t status; /* * We always want the user's primary group in the list * of groups. */ tkn_grps.i_cnt = 1; if ((tkn_grps.i_ids = malloc(sizeof (smb_id_t))) == NULL) return (NT_STATUS_NO_MEMORY); tkn_grps.i_ids->i_sid = smb_sid_dup(token->tkn_primary_grp.i_sid); tkn_grps.i_ids->i_attrs = token->tkn_primary_grp.i_attrs; if (tkn_grps.i_ids->i_sid == NULL) { smb_ids_free(&tkn_grps); return (NT_STATUS_NO_MEMORY); } status = smb_sam_usr_groups(token->tkn_user.i_sid, &tkn_grps); if (status != NT_STATUS_SUCCESS) { smb_ids_free(&tkn_grps); return (status); } status = smb_wka_token_groups(token->tkn_flags, &tkn_grps); if (status != NT_STATUS_SUCCESS) { smb_ids_free(&tkn_grps); return (status); } token->tkn_win_grps = tkn_grps; return (status); } /* * Returns the guest account name in the provided buffer. * * By default the name would be "guest" unless there's * a idmap name-based rule which maps the guest to a local * Solaris user in which case the name of that user is * returned. */ static void smb_guest_account(char *guest, size_t buflen) { idmap_stat stat; uid_t guest_uid; struct passwd pw; char pwbuf[1024]; int idtype; /* default Guest account name */ (void) rw_rdlock(&smb_logoninit_rwl); (void) strlcpy(guest, smb_guest.a_name, buflen); idtype = SMB_IDMAP_USER; stat = smb_idmap_getid(smb_guest.a_sid, &guest_uid, &idtype); (void) rw_unlock(&smb_logoninit_rwl); if (stat != IDMAP_SUCCESS) return; /* If Ephemeral ID return the default name */ if (IDMAP_ID_IS_EPHEMERAL(guest_uid)) return; if (getpwuid_r(guest_uid, &pw, pwbuf, sizeof (pwbuf)) == NULL) return; (void) strlcpy(guest, pw.pw_name, buflen); }