/* * 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 2012 Nexenta Systems, Inc. All rights reserved. */ /* * This module provides the high level interface to the SAM RPC * functions. */ #include #include #include #include #include #include #include #include #include #ifdef _LITTLE_ENDIAN /* little-endian values on little-endian */ #define htolel(x) ((uint32_t)(x)) #define letohl(x) ((uint32_t)(x)) #else /* (BYTE_ORDER == LITTLE_ENDIAN) */ /* little-endian values on big-endian (swap) */ #define letohl(x) BSWAP_32(x) #define htolel(x) BSWAP_32(x) #endif /* (BYTE_ORDER == LITTLE_ENDIAN) */ /* * Valid values for the OEM OWF password encryption. */ #define SAM_KEYLEN 16 static void samr_fill_userpw(struct samr_user_password *, const char *); static void samr_make_encrypted_password( struct samr_encr_passwd *epw, char *new_pw_clear, uint8_t *crypt_key); /* * Todo: Implement "unjoin" domain, which would use the * sam_remove_trust_account code below. */ /* * sam_remove_trust_account * * Attempt to remove the workstation trust account for this system. * Administrator access is required to perform this operation. * * Returns NT status codes. */ DWORD sam_remove_trust_account(char *server, char *domain) { char account_name[SMB_SAMACCT_MAXLEN]; if (smb_getsamaccount(account_name, SMB_SAMACCT_MAXLEN) != 0) return (NT_STATUS_INTERNAL_ERROR); return (sam_delete_account(server, domain, account_name)); } /* * sam_delete_account * * Attempt to remove an account from the SAM database on the specified * server. * * Returns NT status codes. */ DWORD sam_delete_account(char *server, char *domain_name, char *account_name) { mlsvc_handle_t samr_handle; mlsvc_handle_t domain_handle; mlsvc_handle_t user_handle; smb_account_t ainfo; smb_sid_t *sid; DWORD access_mask; DWORD status; int rc; char user[SMB_USERNAME_MAXLEN]; smb_ipc_get_user(user, SMB_USERNAME_MAXLEN); rc = samr_open(server, domain_name, user, SAM_LOOKUP_INFORMATION, &samr_handle); if (rc != 0) return (NT_STATUS_CANT_ACCESS_DOMAIN_INFO); sid = samr_lookup_domain(&samr_handle, domain_name); if (sid == NULL) { status = NT_STATUS_CANT_ACCESS_DOMAIN_INFO; goto out_samr_hdl; } status = samr_open_domain(&samr_handle, SAM_LOOKUP_INFORMATION, (struct samr_sid *)sid, &domain_handle); if (status != NT_STATUS_SUCCESS) goto out_sid_ptr; status = samr_lookup_domain_names(&domain_handle, account_name, &ainfo); if (status != NT_STATUS_SUCCESS) goto out_dom_hdl; access_mask = STANDARD_RIGHTS_EXECUTE | DELETE; status = samr_open_user(&domain_handle, access_mask, ainfo.a_rid, &user_handle); if (status != NT_STATUS_SUCCESS) goto out_dom_hdl; status = samr_delete_user(&user_handle); (void) samr_close_handle(&user_handle); out_dom_hdl: (void) samr_close_handle(&domain_handle); out_sid_ptr: free(sid); out_samr_hdl: (void) samr_close_handle(&samr_handle); return (status); } /* * sam_lookup_name * * Lookup an account name in the SAM database on the specified domain * controller. Provides the account RID on success. * * Returns NT status codes. */ DWORD sam_lookup_name(char *server, char *domain_name, char *account_name, DWORD *rid_ret) { mlsvc_handle_t samr_handle; mlsvc_handle_t domain_handle; smb_account_t ainfo; struct samr_sid *domain_sid; int rc; DWORD status; char user[SMB_USERNAME_MAXLEN]; smb_ipc_get_user(user, SMB_USERNAME_MAXLEN); *rid_ret = 0; rc = samr_open(server, domain_name, user, SAM_LOOKUP_INFORMATION, &samr_handle); if (rc != 0) return (NT_STATUS_OPEN_FAILED); domain_sid = (struct samr_sid *)samr_lookup_domain(&samr_handle, domain_name); if (domain_sid == NULL) { (void) samr_close_handle(&samr_handle); return (NT_STATUS_NO_SUCH_DOMAIN); } status = samr_open_domain(&samr_handle, SAM_LOOKUP_INFORMATION, domain_sid, &domain_handle); if (status == NT_STATUS_SUCCESS) { status = samr_lookup_domain_names(&domain_handle, account_name, &ainfo); if (status == NT_STATUS_SUCCESS) *rid_ret = ainfo.a_rid; (void) samr_close_handle(&domain_handle); } (void) samr_close_handle(&samr_handle); return (status); } /* * sam_get_local_domains * * Query a remote server to get the list of local domains that it * supports. * * Returns NT status codes. */ DWORD sam_get_local_domains(char *server, char *domain_name) { mlsvc_handle_t samr_handle; DWORD status; int rc; char user[SMB_USERNAME_MAXLEN]; smb_ipc_get_user(user, SMB_USERNAME_MAXLEN); rc = samr_open(server, domain_name, user, SAM_ENUM_LOCAL_DOMAIN, &samr_handle); if (rc != 0) return (NT_STATUS_OPEN_FAILED); status = samr_enum_local_domains(&samr_handle); (void) samr_close_handle(&samr_handle); return (status); } /* * Set the account control flags on some account for which we * have already opened a SAM handle with appropriate rights, * passed in here as sam_handle, along with the new flags. */ DWORD netr_set_user_control( mlsvc_handle_t *user_handle, DWORD UserAccountControl) { struct samr_SetUserInfo16 info; info.UserAccountControl = UserAccountControl; return (samr_set_user_info(user_handle, 16, &info)); } /* * Set the password on some account, for which we have already * opened a SAM handle with appropriate rights, passed in here * as sam_handle, along with the new password as cleartext. * * This builds a struct SAMPR_USER_INTERNAL5_INFORMATION [MS-SAMR] * containing the new password, encrypted with our session key. */ DWORD netr_set_user_password( mlsvc_handle_t *user_handle, char *new_pw_clear) { unsigned char ssn_key[SMBAUTH_HASH_SZ]; struct samr_SetUserInfo24 info; if (ndr_rpc_get_ssnkey(user_handle, ssn_key, SMBAUTH_HASH_SZ)) return (NT_STATUS_INTERNAL_ERROR); (void) memset(&info, 0, sizeof (info)); samr_make_encrypted_password(&info.encr_pw, new_pw_clear, ssn_key); /* Rather not leave the session key around. */ (void) memset(ssn_key, 0, sizeof (ssn_key)); return (samr_set_user_info(user_handle, 24, &info)); } /* * Change a password like NetUserChangePassword(), * but where we already know which AD server to use, * so we don't request the domain name or search for * an AD server for that domain here. */ DWORD netr_change_password( char *server, char *account, char *old_pw_clear, char *new_pw_clear) { struct samr_encr_passwd epw; struct samr_encr_hash old_hash; uint8_t old_nt_hash[SAMR_PWHASH_LEN]; uint8_t new_nt_hash[SAMR_PWHASH_LEN]; mlsvc_handle_t handle; DWORD rc; /* * Create an RPC handle to this server, bound to SAMR. */ rc = ndr_rpc_bind(&handle, server, "", "", "SAMR"); if (rc) return (RPC_NT_SERVER_UNAVAILABLE); /* * Encrypt the new p/w (plus random filler) with the * old password, and send the old p/w encrypted with * the new p/w hash to prove we know the old p/w. * Details: [MS-SAMR 3.1.5.10.3] */ (void) smb_auth_ntlm_hash(old_pw_clear, old_nt_hash); (void) smb_auth_ntlm_hash(new_pw_clear, new_nt_hash); samr_make_encrypted_password(&epw, new_pw_clear, old_nt_hash); (void) smb_auth_DES(old_hash.data, SAMR_PWHASH_LEN, new_nt_hash, 14, /* key */ old_nt_hash, SAMR_PWHASH_LEN); /* * Finally, ready to try the OtW call. */ rc = samr_change_password( &handle, server, account, &epw, &old_hash); /* Avoid leaving cleartext (or equivalent) around. */ (void) memset(old_nt_hash, 0, sizeof (old_nt_hash)); (void) memset(new_nt_hash, 0, sizeof (new_nt_hash)); ndr_rpc_unbind(&handle); return (rc); } /* * Build an encrypted password, as used by samr_set_user_info * and samr_change_password. Note: This builds the unencrypted * form in one union arm, and encrypts it in the other union arm. */ void samr_make_encrypted_password( struct samr_encr_passwd *epw, char *new_pw_clear, uint8_t *crypt_key) { union { struct samr_user_password u; struct samr_encr_passwd e; } pwu; samr_fill_userpw(&pwu.u, new_pw_clear); (void) smb_auth_RC4(pwu.e.data, sizeof (pwu.e.data), crypt_key, SAMR_PWHASH_LEN, pwu.e.data, sizeof (pwu.e.data)); (void) memcpy(epw->data, pwu.e.data, sizeof (pwu.e.data)); (void) memset(pwu.e.data, 0, sizeof (pwu.e.data)); } /* * This fills in a samr_user_password (a.k.a. SAMPR_USER_PASSWORD * in the MS Net API) which has the new password "right justified" * in the buffer, and any space on the left filled with random junk * to improve the quality of the encryption that is subsequently * applied to this buffer before it goes over the wire. */ static void samr_fill_userpw(struct samr_user_password *upw, const char *new_pw) { smb_wchar_t *pbuf; uint32_t pwlen_bytes; size_t pwlen_wchars; /* * First fill the whole buffer with the random junk. * (Slightly less random when debugging:) */ #ifdef DEBUG (void) memset(upw->Buffer, '*', sizeof (upw->Buffer)); #else randomize((char *)upw->Buffer, sizeof (upw->Buffer)); #endif /* * Now overwrite the last pwlen characters of * that buffer with the password, and set the * length field so the receiving end knows where * the junk ends and the real password starts. */ pwlen_wchars = smb_wcequiv_strlen(new_pw) / 2; if (pwlen_wchars > SAMR_USER_PWLEN) pwlen_wchars = SAMR_USER_PWLEN; pwlen_bytes = pwlen_wchars * 2; pbuf = &upw->Buffer[SAMR_USER_PWLEN - pwlen_wchars]; (void) smb_mbstowcs(pbuf, new_pw, pwlen_wchars); /* Yes, this is in Bytes, not wchars. */ upw->Length = htolel(pwlen_bytes); }