/* Copyright (C) 2018 Open Information Security Foundation * * You can copy, redistribute or modify this Program under the terms of * the GNU General Public License version 2 as published by the Free * Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * version 2 along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. */ use crate::smb::smb_records::*; use crate::smb::smb1_records::*; use crate::smb::smb::*; use crate::smb::events::*; use crate::smb::auth::*; #[derive(Debug)] pub struct SessionSetupRequest { pub native_os: Vec, pub native_lm: Vec, pub primary_domain: Vec, } #[derive(Debug)] pub struct SessionSetupResponse { pub native_os: Vec, pub native_lm: Vec, } pub fn smb1_session_setup_request_host_info(r: &SmbRecord, blob: &[u8]) -> SessionSetupRequest { if blob.len() > 1 && r.has_unicode_support() { let offset = r.data.len() - blob.len(); let blob = if offset % 2 == 1 { &blob[1..] } else { blob }; let (native_os, native_lm, primary_domain) = match smb_get_unicode_string(blob) { Ok((rem, n1)) => { match smb_get_unicode_string(rem) { Ok((rem, n2)) => { match smb_get_unicode_string(rem) { Ok((_, n3)) => { (n1, n2, n3) }, _ => { (n1, n2, Vec::new()) }, } }, _ => { (n1, Vec::new(), Vec::new()) }, } }, _ => { (Vec::new(), Vec::new(), Vec::new()) }, }; SCLogDebug!("name1 {:?} name2 {:?} name3 {:?}", native_os,native_lm,primary_domain); SessionSetupRequest { native_os, native_lm, primary_domain, } } else { let (native_os, native_lm, primary_domain) = match smb_get_ascii_string(blob) { Ok((rem, n1)) => { match smb_get_ascii_string(rem) { Ok((rem, n2)) => { match smb_get_ascii_string(rem) { Ok((_, n3)) => { (n1, n2, n3) }, _ => { (n1, n2, Vec::new()) }, } }, _ => { (n1, Vec::new(), Vec::new()) }, } }, _ => { (Vec::new(), Vec::new(), Vec::new()) }, }; SCLogDebug!("session_setup_request_host_info: not unicode"); SessionSetupRequest { native_os, native_lm, primary_domain, } } } pub fn smb1_session_setup_response_host_info(r: &SmbRecord, blob: &[u8]) -> SessionSetupResponse { if blob.len() > 1 && r.has_unicode_support() { let offset = r.data.len() - blob.len(); let blob = if offset % 2 == 1 { &blob[1..] } else { blob }; let (native_os, native_lm) = match smb_get_unicode_string(blob) { Ok((rem, n1)) => { match smb_get_unicode_string(rem) { Ok((_, n2)) => (n1, n2), _ => { (n1, Vec::new()) }, } }, _ => { (Vec::new(), Vec::new()) }, }; SCLogDebug!("name1 {:?} name2 {:?}", native_os,native_lm); SessionSetupResponse { native_os, native_lm, } } else { SCLogDebug!("session_setup_response_host_info: not unicode"); let (native_os, native_lm) = match smb_get_ascii_string(blob) { Ok((rem, n1)) => { match smb_get_ascii_string(rem) { Ok((_, n2)) => (n1, n2), _ => { (n1, Vec::new()) }, } }, _ => { (Vec::new(), Vec::new()) }, }; SessionSetupResponse { native_os, native_lm, } } } pub fn smb1_session_setup_request(state: &mut SMBState, r: &SmbRecord, andx_offset: usize) { SCLogDebug!("SMB1_COMMAND_SESSION_SETUP_ANDX user_id {}", r.user_id); #[allow(clippy::single_match)] match parse_smb_setup_andx_record(&r.data[andx_offset-SMB1_HEADER_SIZE..]) { Ok((rem, setup)) => { let hdr = SMBCommonHdr::new(SMBHDR_TYPE_HEADER, r.ssn_id as u64, 0, r.multiplex_id as u64); let tx = state.new_sessionsetup_tx(hdr); tx.vercmd.set_smb1_cmd(r.command); if let Some(SMBTransactionTypeData::SESSIONSETUP(ref mut td)) = tx.type_data { td.request_host = Some(smb1_session_setup_request_host_info(r, rem)); if let Some(s) = parse_secblob(setup.sec_blob) { td.ntlmssp = s.ntlmssp; td.krb_ticket = s.krb; if let Some(ntlm) = &td.ntlmssp { if ntlm.warning { tx.set_event(SMBEvent::UnusualNtlmsspOrder); } } } } }, _ => { // events.push(SMBEvent::MalformedData); }, } } fn smb1_session_setup_update_tx(tx: &mut SMBTransaction, r: &SmbRecord, andx_offset: usize) { match parse_smb_response_setup_andx_record(&r.data[andx_offset-SMB1_HEADER_SIZE..]) { Ok((rem, _setup)) => { if let Some(SMBTransactionTypeData::SESSIONSETUP(ref mut td)) = tx.type_data { td.response_host = Some(smb1_session_setup_response_host_info(r, rem)); } }, _ => { tx.set_event(SMBEvent::MalformedData); }, } // update tx even if we can't parse the response tx.hdr = SMBCommonHdr::from1(r, SMBHDR_TYPE_HEADER); // to overwrite ssn_id 0 tx.set_status(r.nt_status, r.is_dos_error); tx.response_done = true; } pub fn smb1_session_setup_response(state: &mut SMBState, r: &SmbRecord, andx_offset: usize) { // try exact match with session id already set (e.g. NTLMSSP AUTH phase) let found = r.ssn_id != 0 && match state.get_sessionsetup_tx( SMBCommonHdr::new(SMBHDR_TYPE_HEADER, r.ssn_id as u64, 0, r.multiplex_id as u64)) { Some(tx) => { smb1_session_setup_update_tx(tx, r, andx_offset); SCLogDebug!("smb1_session_setup_response: tx {:?}", tx); true }, None => { false }, }; // otherwise try match with ssn id 0 (e.g. NTLMSSP_NEGOTIATE) if !found { match state.get_sessionsetup_tx( SMBCommonHdr::new(SMBHDR_TYPE_HEADER, 0, 0, r.multiplex_id as u64)) { Some(tx) => { smb1_session_setup_update_tx(tx, r, andx_offset); SCLogDebug!("smb1_session_setup_response: tx {:?}", tx); }, None => { SCLogDebug!("smb1_session_setup_response: tx not found for {:?}", r); }, } } }