/* Copyright (C) 2017-2022 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 nom7::Err; use crate::core::*; use crate::smb::smb::*; use crate::smb::smb2_records::*; use crate::smb::smb2_session::*; use crate::smb::smb2_ioctl::*; use crate::smb::dcerpc::*; use crate::smb::events::*; use crate::smb::files::*; use crate::smb::smb_status::*; pub const SMB2_COMMAND_NEGOTIATE_PROTOCOL: u16 = 0; pub const SMB2_COMMAND_SESSION_SETUP: u16 = 1; pub const SMB2_COMMAND_SESSION_LOGOFF: u16 = 2; pub const SMB2_COMMAND_TREE_CONNECT: u16 = 3; pub const SMB2_COMMAND_TREE_DISCONNECT: u16 = 4; pub const SMB2_COMMAND_CREATE: u16 = 5; pub const SMB2_COMMAND_CLOSE: u16 = 6; pub const SMB2_COMMAND_FLUSH: u16 = 7; pub const SMB2_COMMAND_READ: u16 = 8; pub const SMB2_COMMAND_WRITE: u16 = 9; pub const SMB2_COMMAND_LOCK: u16 = 10; pub const SMB2_COMMAND_IOCTL: u16 = 11; pub const SMB2_COMMAND_CANCEL: u16 = 12; pub const SMB2_COMMAND_KEEPALIVE: u16 = 13; pub const SMB2_COMMAND_FIND: u16 = 14; pub const SMB2_COMMAND_CHANGE_NOTIFY: u16 = 15; pub const SMB2_COMMAND_GET_INFO: u16 = 16; pub const SMB2_COMMAND_SET_INFO: u16 = 17; pub const SMB2_COMMAND_OPLOCK_BREAK: u16 = 18; pub fn smb2_command_string(c: u16) -> String { match c { SMB2_COMMAND_NEGOTIATE_PROTOCOL => "SMB2_COMMAND_NEGOTIATE_PROTOCOL", SMB2_COMMAND_SESSION_SETUP => "SMB2_COMMAND_SESSION_SETUP", SMB2_COMMAND_SESSION_LOGOFF => "SMB2_COMMAND_SESSION_LOGOFF", SMB2_COMMAND_TREE_CONNECT => "SMB2_COMMAND_TREE_CONNECT", SMB2_COMMAND_TREE_DISCONNECT => "SMB2_COMMAND_TREE_DISCONNECT", SMB2_COMMAND_CREATE => "SMB2_COMMAND_CREATE", SMB2_COMMAND_CLOSE => "SMB2_COMMAND_CLOSE", SMB2_COMMAND_READ => "SMB2_COMMAND_READ", SMB2_COMMAND_FLUSH => "SMB2_COMMAND_FLUSH", SMB2_COMMAND_WRITE => "SMB2_COMMAND_WRITE", SMB2_COMMAND_LOCK => "SMB2_COMMAND_LOCK", SMB2_COMMAND_IOCTL => "SMB2_COMMAND_IOCTL", SMB2_COMMAND_CANCEL => "SMB2_COMMAND_CANCEL", SMB2_COMMAND_KEEPALIVE => "SMB2_COMMAND_KEEPALIVE", SMB2_COMMAND_FIND => "SMB2_COMMAND_FIND", SMB2_COMMAND_CHANGE_NOTIFY => "SMB2_COMMAND_CHANGE_NOTIFY", SMB2_COMMAND_GET_INFO => "SMB2_COMMAND_GET_INFO", SMB2_COMMAND_SET_INFO => "SMB2_COMMAND_SET_INFO", SMB2_COMMAND_OPLOCK_BREAK => "SMB2_COMMAND_OPLOCK_BREAK", _ => { return (c).to_string(); }, }.to_string() } pub fn smb2_dialect_string(d: u16) -> String { match d { 0x0202 => "2.02", 0x0210 => "2.10", 0x0222 => "2.22", 0x0224 => "2.24", 0x02ff => "2.??", 0x0300 => "3.00", 0x0302 => "3.02", 0x0310 => "3.10", 0x0311 => "3.11", _ => { return (d).to_string(); }, }.to_string() } // later we'll use this to determine if we need to // track a ssn per type fn smb2_create_new_tx(cmd: u16) -> bool { match cmd { SMB2_COMMAND_READ | SMB2_COMMAND_WRITE | SMB2_COMMAND_GET_INFO | SMB2_COMMAND_SET_INFO => { false }, _ => { true }, } } fn smb2_read_response_record_generic(state: &mut SMBState, r: &Smb2Record) { if smb2_create_new_tx(r.command) { let tx_hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_GENERICTX); let tx = state.get_generic_tx(2, r.command, &tx_hdr); if let Some(tx) = tx { tx.set_status(r.nt_status, false); tx.response_done = true; } } } pub fn smb2_read_response_record(state: &mut SMBState, r: &Smb2Record, nbss_remaining: u32) { let max_queue_size = unsafe { SMB_CFG_MAX_READ_QUEUE_SIZE }; let max_queue_cnt = unsafe { SMB_CFG_MAX_READ_QUEUE_CNT }; smb2_read_response_record_generic(state, r); match parse_smb2_response_read(r.data) { Ok((_, rd)) => { if rd.len - rd.data.len() as u32 > nbss_remaining { // Record claims more bytes than are in NBSS record... state.set_event(SMBEvent::ReadResponseTooLarge); // Skip the remaining bytes of the record. state.set_skip(Direction::ToClient, nbss_remaining); return; } if r.nt_status == SMB_NTSTATUS_BUFFER_OVERFLOW { SCLogDebug!("SMBv2/READ: incomplete record, expecting a follow up"); // fall through } else if r.nt_status != SMB_NTSTATUS_SUCCESS { SCLogDebug!("SMBv2: read response error code received: skip record"); state.set_skip(Direction::ToClient, nbss_remaining); return; } if (state.max_read_size != 0 && rd.len > state.max_read_size) || (unsafe { SMB_CFG_MAX_READ_SIZE != 0 && SMB_CFG_MAX_READ_SIZE < rd.len }) { state.set_event(SMBEvent::ReadResponseTooLarge); state.set_skip(Direction::ToClient, nbss_remaining); return; } SCLogDebug!("SMBv2: read response => {:?}", rd); // get the request info. If we don't have it, there is nothing // we can do except skip this record. let guid_key = SMBCommonHdr::from2_notree(r, SMBHDR_TYPE_OFFSET); let (offset, file_guid) = match state.ssn2vecoffset_map.remove(&guid_key) { Some(o) => (o.offset, o.guid), None => { SCLogDebug!("SMBv2 READ response: reply to unknown request {:?}",rd); state.set_skip(Direction::ToClient, nbss_remaining); return; }, }; SCLogDebug!("SMBv2 READ: GUID {:?} offset {}", file_guid, offset); let mut set_event_fileoverlap = false; // look up existing tracker and if we have it update it let found = match state.get_file_tx_by_fuid_with_open_file(&file_guid, Direction::ToClient) { Some(tx) => { if let Some(SMBTransactionTypeData::FILE(ref mut tdf)) = tx.type_data { let file_id : u32 = tx.id as u32; if offset < tdf.file_tracker.tracked { set_event_fileoverlap = true; } if max_queue_size != 0 && tdf.file_tracker.get_inflight_size() + rd.len as u64 > max_queue_size.into() { state.set_event(SMBEvent::ReadQueueSizeExceeded); state.set_skip(Direction::ToClient, nbss_remaining); } else if max_queue_cnt != 0 && tdf.file_tracker.get_inflight_cnt() >= max_queue_cnt as usize { state.set_event(SMBEvent::ReadQueueCntExceeded); state.set_skip(Direction::ToClient, nbss_remaining); } else { filetracker_newchunk(&mut tdf.file_tracker, &tdf.file_name, rd.data, offset, rd.len, false, &file_id); } } true }, None => { false }, }; SCLogDebug!("existing file tx? {}", found); if !found { let tree_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_SHARE); let (share_name, mut is_pipe) = match state.ssn2tree_map.get(&tree_key) { Some(n) => (n.name.to_vec(), n.is_pipe), _ => { (Vec::new(), false) }, }; let mut is_dcerpc = if is_pipe || share_name.is_empty() { state.get_service_for_guid(&file_guid).1 } else { false }; SCLogDebug!("SMBv2/READ: share_name {:?} is_pipe {} is_dcerpc {}", share_name, is_pipe, is_dcerpc); if share_name.is_empty() && !is_pipe { SCLogDebug!("SMBv2/READ: no tree connect seen, we don't know if we are a pipe"); if smb_dcerpc_probe(rd.data) { SCLogDebug!("SMBv2/READ: looks like dcerpc"); // insert fake tree to assist in follow up lookups let tree = SMBTree::new(b"suricata::dcerpc".to_vec(), true); state.ssn2tree_map.insert(tree_key, tree); if !is_dcerpc { state.guid2name_map.insert(file_guid.to_vec(), b"suricata::dcerpc".to_vec()); } is_pipe = true; is_dcerpc = true; } else { SCLogDebug!("SMBv2/READ: not DCERPC"); } } if is_pipe && is_dcerpc { SCLogDebug!("SMBv2 DCERPC read"); let hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_HEADER); let vercmd = SMBVerCmdStat::new2_with_ntstatus(SMB2_COMMAND_READ, r.nt_status); smb_read_dcerpc_record(state, vercmd, hdr, &file_guid, rd.data); } else if is_pipe { SCLogDebug!("non-DCERPC pipe"); state.set_skip(Direction::ToClient, nbss_remaining); } else { let file_name = match state.guid2name_map.get(&file_guid) { Some(n) => { n.to_vec() } None => { b"".to_vec() } }; let tx = state.new_file_tx(&file_guid, &file_name, Direction::ToClient); tx.vercmd.set_smb2_cmd(SMB2_COMMAND_READ); tx.hdr = SMBCommonHdr::new(SMBHDR_TYPE_HEADER, r.session_id, r.tree_id, 0); // TODO move into new_file_tx if let Some(SMBTransactionTypeData::FILE(ref mut tdf)) = tx.type_data { tdf.share_name = share_name; let file_id : u32 = tx.id as u32; if offset < tdf.file_tracker.tracked { set_event_fileoverlap = true; } if max_queue_size != 0 && tdf.file_tracker.get_inflight_size() + rd.len as u64 > max_queue_size.into() { state.set_event(SMBEvent::ReadQueueSizeExceeded); state.set_skip(Direction::ToClient, nbss_remaining); } else if max_queue_cnt != 0 && tdf.file_tracker.get_inflight_cnt() >= max_queue_cnt as usize { state.set_event(SMBEvent::ReadQueueCntExceeded); state.set_skip(Direction::ToClient, nbss_remaining); } else { filetracker_newchunk(&mut tdf.file_tracker, &file_name, rd.data, offset, rd.len, false, &file_id); } } } } if set_event_fileoverlap { state.set_event(SMBEvent::FileOverlap); } state.set_file_left(Direction::ToClient, rd.len, rd.data.len() as u32, file_guid.to_vec()); } _ => { SCLogDebug!("SMBv2: failed to parse read response"); state.set_event(SMBEvent::MalformedData); } } } pub fn smb2_write_request_record(state: &mut SMBState, r: &Smb2Record, nbss_remaining: u32) { let max_queue_size = unsafe { SMB_CFG_MAX_WRITE_QUEUE_SIZE }; let max_queue_cnt = unsafe { SMB_CFG_MAX_WRITE_QUEUE_CNT }; SCLogDebug!("SMBv2/WRITE: request record"); if smb2_create_new_tx(r.command) { let tx_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_GENERICTX); let tx = state.new_generic_tx(2, r.command, tx_key); tx.request_done = true; } match parse_smb2_request_write(r.data) { Ok((_, wr)) => { if wr.wr_len - wr.data.len() as u32 > nbss_remaining { // Record claims more bytes than are in NBSS record... state.set_event(SMBEvent::WriteRequestTooLarge); // Skip the remaining bytes of the record. state.set_skip(Direction::ToServer, nbss_remaining); return; } if (state.max_write_size != 0 && wr.wr_len > state.max_write_size) || (unsafe { SMB_CFG_MAX_WRITE_SIZE != 0 && SMB_CFG_MAX_WRITE_SIZE < wr.wr_len }) { state.set_event(SMBEvent::WriteRequestTooLarge); state.set_skip(Direction::ToServer, nbss_remaining); return; } /* update key-guid map */ let guid_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_GUID); state.ssn2vec_map.insert(guid_key, wr.guid.to_vec()); let file_guid = wr.guid.to_vec(); let file_name = match state.guid2name_map.get(&file_guid) { Some(n) => n.to_vec(), None => Vec::new(), }; let mut set_event_fileoverlap = false; let found = match state.get_file_tx_by_fuid_with_open_file(&file_guid, Direction::ToServer) { Some(tx) => { if let Some(SMBTransactionTypeData::FILE(ref mut tdf)) = tx.type_data { let file_id : u32 = tx.id as u32; if wr.wr_offset < tdf.file_tracker.tracked { set_event_fileoverlap = true; } if max_queue_size != 0 && tdf.file_tracker.get_inflight_size() + wr.wr_len as u64 > max_queue_size.into() { state.set_event(SMBEvent::WriteQueueSizeExceeded); state.set_skip(Direction::ToServer, nbss_remaining); } else if max_queue_cnt != 0 && tdf.file_tracker.get_inflight_cnt() >= max_queue_cnt as usize { state.set_event(SMBEvent::WriteQueueCntExceeded); state.set_skip(Direction::ToServer, nbss_remaining); } else { filetracker_newchunk(&mut tdf.file_tracker, &file_name, wr.data, wr.wr_offset, wr.wr_len, false, &file_id); } } true }, None => { false }, }; if !found { let tree_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_SHARE); let (share_name, mut is_pipe) = match state.ssn2tree_map.get(&tree_key) { Some(n) => { (n.name.to_vec(), n.is_pipe) }, _ => { (Vec::new(), false) }, }; let mut is_dcerpc = if is_pipe || share_name.is_empty() { state.get_service_for_guid(wr.guid).1 } else { false }; SCLogDebug!("SMBv2/WRITE: share_name {:?} is_pipe {} is_dcerpc {}", share_name, is_pipe, is_dcerpc); // if we missed the TREE connect we can't be sure if 'is_dcerpc' is correct if share_name.is_empty() && !is_pipe { SCLogDebug!("SMBv2/WRITE: no tree connect seen, we don't know if we are a pipe"); if smb_dcerpc_probe(wr.data) { SCLogDebug!("SMBv2/WRITE: looks like we have dcerpc"); let tree = SMBTree::new(b"suricata::dcerpc".to_vec(), true); state.ssn2tree_map.insert(tree_key, tree); if !is_dcerpc { state.guid2name_map.insert(file_guid.to_vec(), b"suricata::dcerpc".to_vec()); } is_pipe = true; is_dcerpc = true; } else { SCLogDebug!("SMBv2/WRITE: not DCERPC"); } } if is_pipe && is_dcerpc { SCLogDebug!("SMBv2 DCERPC write"); let hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_HEADER); let vercmd = SMBVerCmdStat::new2(SMB2_COMMAND_WRITE); smb_write_dcerpc_record(state, vercmd, hdr, wr.data); } else if is_pipe { SCLogDebug!("non-DCERPC pipe: skip rest of the record"); state.set_skip(Direction::ToServer, nbss_remaining); } else { let tx = state.new_file_tx(&file_guid, &file_name, Direction::ToServer); tx.vercmd.set_smb2_cmd(SMB2_COMMAND_WRITE); tx.hdr = SMBCommonHdr::new(SMBHDR_TYPE_HEADER, r.session_id, r.tree_id, 0); // TODO move into new_file_tx if let Some(SMBTransactionTypeData::FILE(ref mut tdf)) = tx.type_data { let file_id : u32 = tx.id as u32; if wr.wr_offset < tdf.file_tracker.tracked { set_event_fileoverlap = true; } if max_queue_size != 0 && tdf.file_tracker.get_inflight_size() + wr.wr_len as u64 > max_queue_size.into() { state.set_event(SMBEvent::WriteQueueSizeExceeded); state.set_skip(Direction::ToServer, nbss_remaining); } else if max_queue_cnt != 0 && tdf.file_tracker.get_inflight_cnt() >= max_queue_cnt as usize { state.set_event(SMBEvent::WriteQueueCntExceeded); state.set_skip(Direction::ToServer, nbss_remaining); } else { filetracker_newchunk(&mut tdf.file_tracker, &file_name, wr.data, wr.wr_offset, wr.wr_len, false, &file_id); } } } } if set_event_fileoverlap { state.set_event(SMBEvent::FileOverlap); } state.set_file_left(Direction::ToServer, wr.wr_len, wr.data.len() as u32, file_guid.to_vec()); }, _ => { state.set_event(SMBEvent::MalformedData); }, } } pub fn smb2_request_record(state: &mut SMBState, r: &Smb2Record) { SCLogDebug!("SMBv2 request record, command {} tree {} session {}", &smb2_command_string(r.command), r.tree_id, r.session_id); let mut events : Vec = Vec::new(); let have_tx = match r.command { SMB2_COMMAND_SET_INFO => { SCLogDebug!("SMB2_COMMAND_SET_INFO: {:?}", r); let have_si_tx = match parse_smb2_request_setinfo(r.data) { Ok((_, rd)) => { SCLogDebug!("SMB2_COMMAND_SET_INFO: {:?}", rd); match rd.data { Smb2SetInfoRequestData::RENAME(ref ren) => { let tx_hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_GENERICTX); let mut newname = ren.name.to_vec(); newname.retain(|&i|i != 0x00); let oldname = match state.guid2name_map.get(rd.guid) { Some(n) => { n.to_vec() }, None => { b"".to_vec() }, }; let tx = state.new_rename_tx(rd.guid.to_vec(), oldname, newname); tx.hdr = tx_hdr; tx.request_done = true; tx.vercmd.set_smb2_cmd(SMB2_COMMAND_SET_INFO); true } Smb2SetInfoRequestData::DISPOSITION(ref dis) => { let tx_hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_GENERICTX); let fname = match state.guid2name_map.get(rd.guid) { Some(n) => { n.to_vec() }, None => { // try to find latest created file in case of chained commands let mut guid_key = SMBCommonHdr::from2_notree(r, SMBHDR_TYPE_FILENAME); if guid_key.msg_id == 0 { b"".to_vec() } else { guid_key.msg_id -= 1; match state.ssn2vec_map.get(&guid_key) { Some(n) => { n.to_vec() }, None => { b"".to_vec()}, } } }, }; let tx = state.new_setfileinfo_tx(fname, rd.guid.to_vec(), rd.class as u16, rd.infolvl as u16, dis.delete); tx.hdr = tx_hdr; tx.request_done = true; tx.vercmd.set_smb2_cmd(SMB2_COMMAND_SET_INFO); true } _ => false, } }, Err(Err::Incomplete(_n)) => { SCLogDebug!("SMB2_COMMAND_SET_INFO: {:?}", _n); events.push(SMBEvent::MalformedData); false }, Err(Err::Error(_e)) | Err(Err::Failure(_e)) => { SCLogDebug!("SMB2_COMMAND_SET_INFO: {:?}", _e); events.push(SMBEvent::MalformedData); false }, }; have_si_tx }, SMB2_COMMAND_IOCTL => { smb2_ioctl_request_record(state, r); true }, SMB2_COMMAND_TREE_DISCONNECT => { let tree_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_SHARE); state.ssn2tree_map.remove(&tree_key); false } SMB2_COMMAND_NEGOTIATE_PROTOCOL => { match parse_smb2_request_negotiate_protocol(r.data) { Ok((_, rd)) => { let mut dialects : Vec> = Vec::new(); for d in rd.dialects_vec { SCLogDebug!("dialect {:x} => {}", d, &smb2_dialect_string(d)); let dvec = smb2_dialect_string(d).as_bytes().to_vec(); dialects.push(dvec); } let found = match state.get_negotiate_tx(2) { Some(_) => { SCLogDebug!("WEIRD, should not have NEGOTIATE tx!"); true }, None => { false }, }; if !found { let tx = state.new_negotiate_tx(2); if let Some(SMBTransactionTypeData::NEGOTIATE(ref mut tdn)) = tx.type_data { tdn.dialects2 = dialects; tdn.client_guid = Some(rd.client_guid.to_vec()); } tx.request_done = true; } true }, _ => { events.push(SMBEvent::MalformedData); false }, } }, SMB2_COMMAND_SESSION_SETUP => { smb2_session_setup_request(state, r); true }, SMB2_COMMAND_TREE_CONNECT => { match parse_smb2_request_tree_connect(r.data) { Ok((_, tr)) => { let name_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_TREE); let mut name_val = tr.share_name.to_vec(); name_val.retain(|&i|i != 0x00); if name_val.len() > 1 { name_val = name_val[1..].to_vec(); } let tx = state.new_treeconnect_tx(name_key, name_val); tx.request_done = true; tx.vercmd.set_smb2_cmd(SMB2_COMMAND_TREE_CONNECT); true } _ => { events.push(SMBEvent::MalformedData); false }, } }, SMB2_COMMAND_READ => { match parse_smb2_request_read(r.data) { Ok((_, rd)) => { if (state.max_read_size != 0 && rd.rd_len > state.max_read_size) || (unsafe { SMB_CFG_MAX_READ_SIZE != 0 && SMB_CFG_MAX_READ_SIZE < rd.rd_len }) { events.push(SMBEvent::ReadRequestTooLarge); } else { SCLogDebug!("SMBv2 READ: GUID {:?} requesting {} bytes at offset {}", rd.guid, rd.rd_len, rd.rd_offset); // store read guid,offset in map let guid_key = SMBCommonHdr::from2_notree(r, SMBHDR_TYPE_OFFSET); let guidoff = SMBFileGUIDOffset::new(rd.guid.to_vec(), rd.rd_offset); state.ssn2vecoffset_map.insert(guid_key, guidoff); } }, _ => { events.push(SMBEvent::MalformedData); }, } false }, SMB2_COMMAND_CREATE => { match parse_smb2_request_create(r.data) { Ok((_, cr)) => { let del = cr.create_options & 0x0000_1000 != 0; let dir = cr.create_options & 0x0000_0001 != 0; SCLogDebug!("create_options {:08x}", cr.create_options); let name_key = SMBCommonHdr::from2_notree(r, SMBHDR_TYPE_FILENAME); state.ssn2vec_map.insert(name_key, cr.data.to_vec()); let tx_hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_GENERICTX); let tx = state.new_create_tx(cr.data, cr.disposition, del, dir, tx_hdr); tx.vercmd.set_smb2_cmd(r.command); SCLogDebug!("TS CREATE TX {} created", tx.id); true }, _ => { events.push(SMBEvent::MalformedData); false }, } }, SMB2_COMMAND_WRITE => { smb2_write_request_record(state, r, 0); true // write handling creates both file tx and generic tx }, SMB2_COMMAND_CLOSE => { match parse_smb2_request_close(r.data) { Ok((_, cd)) => { let found_ts = match state.get_file_tx_by_fuid(cd.guid, Direction::ToServer) { Some(tx) => { if !tx.request_done { if let Some(SMBTransactionTypeData::FILE(ref mut tdf)) = tx.type_data { filetracker_close(&mut tdf.file_tracker); } } tx.request_done = true; tx.response_done = true; tx.set_status(SMB_NTSTATUS_SUCCESS, false); true }, None => { false }, }; let found_tc = match state.get_file_tx_by_fuid(cd.guid, Direction::ToClient) { Some(tx) => { if !tx.request_done { if let Some(SMBTransactionTypeData::FILE(ref mut tdf)) = tx.type_data { filetracker_close(&mut tdf.file_tracker); } } tx.request_done = true; tx.response_done = true; tx.set_status(SMB_NTSTATUS_SUCCESS, false); true }, None => { false }, }; if !found_ts && !found_tc { SCLogDebug!("SMBv2: CLOSE(TS): no TX at GUID {:?}", cd.guid); } }, _ => { events.push(SMBEvent::MalformedData); }, } false }, _ => { false }, }; /* if we don't have a tx, create it here (maybe) */ if !have_tx && smb2_create_new_tx(r.command) { let tx_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_GENERICTX); let tx = state.new_generic_tx(2, r.command, tx_key); SCLogDebug!("TS TX {} command {} created with session_id {} tree_id {} message_id {}", tx.id, r.command, r.session_id, r.tree_id, r.message_id); tx.set_events(events); } } pub fn smb2_response_record(state: &mut SMBState, r: &Smb2Record) { SCLogDebug!("SMBv2 response record, command {} status {} tree {} session {} message {}", &smb2_command_string(r.command), r.nt_status, r.tree_id, r.session_id, r.message_id); let mut events : Vec = Vec::new(); let have_tx = match r.command { SMB2_COMMAND_IOCTL => { smb2_ioctl_response_record(state, r); true }, SMB2_COMMAND_SESSION_SETUP => { smb2_session_setup_response(state, r); true }, SMB2_COMMAND_WRITE => { if r.nt_status == SMB_NTSTATUS_SUCCESS { match parse_smb2_response_write(r.data) { Ok((_, _wr)) => { SCLogDebug!("SMBv2: Write response => {:?}", _wr); /* search key-guid map */ let guid_key = SMBCommonHdr::new(SMBHDR_TYPE_GUID, r.session_id, r.tree_id, r.message_id); let _guid_vec = match state.ssn2vec_map.remove(&guid_key) { Some(p) => p, None => { SCLogDebug!("SMBv2 response: GUID NOT FOUND"); Vec::new() }, }; SCLogDebug!("SMBv2 write response for GUID {:?}", _guid_vec); } _ => { events.push(SMBEvent::MalformedData); }, } } false // the request may have created a generic tx, so handle that here }, SMB2_COMMAND_READ => { if r.nt_status == SMB_NTSTATUS_SUCCESS || r.nt_status == SMB_NTSTATUS_BUFFER_OVERFLOW { smb2_read_response_record(state, r, 0); false } else if r.nt_status == SMB_NTSTATUS_END_OF_FILE { SCLogDebug!("SMBv2: read response => EOF"); let guid_key = SMBCommonHdr::from2_notree(r, SMBHDR_TYPE_OFFSET); let file_guid = match state.ssn2vecoffset_map.remove(&guid_key) { Some(o) => o.guid, _ => { SCLogDebug!("SMBv2 READ response: reply to unknown request"); Vec::new() }, }; let found = match state.get_file_tx_by_fuid(&file_guid, Direction::ToClient) { Some(tx) => { if !tx.request_done { if let Some(SMBTransactionTypeData::FILE(ref mut tdf)) = tx.type_data { filetracker_close(&mut tdf.file_tracker); } } tx.set_status(r.nt_status, false); tx.request_done = true; false }, None => { false }, }; if !found { SCLogDebug!("SMBv2 READ: no TX at GUID {:?}", file_guid); } false } else { SCLogDebug!("SMBv2 READ: status {}", r.nt_status); false } }, SMB2_COMMAND_CREATE => { if r.nt_status == SMB_NTSTATUS_SUCCESS { match parse_smb2_response_create(r.data) { Ok((_, cr)) => { SCLogDebug!("SMBv2: Create response => {:?}", cr); let guid_key = SMBCommonHdr::from2_notree(r, SMBHDR_TYPE_FILENAME); if let Some(mut p) = state.ssn2vec_map.remove(&guid_key) { p.retain(|&i|i != 0x00); state.guid2name_map.insert(cr.guid.to_vec(), p); } else { SCLogDebug!("SMBv2 response: GUID NOT FOUND"); } let tx_hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_GENERICTX); if let Some(tx) = state.get_generic_tx(2, r.command, &tx_hdr) { SCLogDebug!("tx {} with {}/{} marked as done", tx.id, r.command, &smb2_command_string(r.command)); tx.set_status(r.nt_status, false); tx.response_done = true; if let Some(SMBTransactionTypeData::CREATE(ref mut tdn)) = tx.type_data { tdn.create_ts = cr.create_ts.as_unix(); tdn.last_access_ts = cr.last_access_ts.as_unix(); tdn.last_write_ts = cr.last_write_ts.as_unix(); tdn.last_change_ts = cr.last_change_ts.as_unix(); tdn.size = cr.size; tdn.guid = cr.guid.to_vec(); } } } _ => { events.push(SMBEvent::MalformedData); }, } true } else { false } }, SMB2_COMMAND_TREE_DISCONNECT => { // normally removed when processing request, // but in case we missed that try again here let tree_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_SHARE); state.ssn2tree_map.remove(&tree_key); false } SMB2_COMMAND_TREE_CONNECT => { if r.nt_status == SMB_NTSTATUS_SUCCESS { match parse_smb2_response_tree_connect(r.data) { Ok((_, tr)) => { let name_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_TREE); let mut share_name = Vec::new(); let is_pipe = tr.share_type == 2; let found = match state.get_treeconnect_tx(name_key) { Some(tx) => { if let Some(SMBTransactionTypeData::TREECONNECT(ref mut tdn)) = tx.type_data { tdn.share_type = tr.share_type; tdn.is_pipe = is_pipe; tdn.tree_id = r.tree_id; share_name = tdn.share_name.to_vec(); } // update hdr now that we have a tree_id tx.hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_HEADER); tx.response_done = true; tx.set_status(r.nt_status, false); true }, None => { false }, }; if found { let tree = SMBTree::new(share_name.to_vec(), is_pipe); let tree_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_SHARE); state.ssn2tree_map.insert(tree_key, tree); } true } _ => { events.push(SMBEvent::MalformedData); false }, } } else { let name_key = SMBCommonHdr::from2(r, SMBHDR_TYPE_TREE); let found = match state.get_treeconnect_tx(name_key) { Some(tx) => { tx.response_done = true; tx.set_status(r.nt_status, false); true }, None => { false }, }; found } }, SMB2_COMMAND_NEGOTIATE_PROTOCOL => { let res = if r.nt_status == SMB_NTSTATUS_SUCCESS { parse_smb2_response_negotiate_protocol(r.data) } else { parse_smb2_response_negotiate_protocol_error(r.data) }; match res { Ok((_, rd)) => { SCLogDebug!("SERVER dialect => {}", &smb2_dialect_string(rd.dialect)); let smb_cfg_max_read_size = unsafe { SMB_CFG_MAX_READ_SIZE }; if smb_cfg_max_read_size != 0 && rd.max_read_size > smb_cfg_max_read_size { state.set_event(SMBEvent::NegotiateMaxReadSizeTooLarge); } let smb_cfg_max_write_size = unsafe { SMB_CFG_MAX_WRITE_SIZE }; if smb_cfg_max_write_size != 0 && rd.max_write_size > smb_cfg_max_write_size { state.set_event(SMBEvent::NegotiateMaxWriteSizeTooLarge); } state.dialect = rd.dialect; state.max_read_size = rd.max_read_size; state.max_write_size = rd.max_write_size; let found2 = match state.get_negotiate_tx(2) { Some(tx) => { if let Some(SMBTransactionTypeData::NEGOTIATE(ref mut tdn)) = tx.type_data { tdn.server_guid = rd.server_guid.to_vec(); } tx.set_status(r.nt_status, false); tx.response_done = true; true }, None => { false }, }; // SMB2 response to SMB1 request? let found1 = !found2 && match state.get_negotiate_tx(1) { Some(tx) => { if let Some(SMBTransactionTypeData::NEGOTIATE(ref mut tdn)) = tx.type_data { tdn.server_guid = rd.server_guid.to_vec(); } tx.set_status(r.nt_status, false); tx.response_done = true; true }, None => { false }, }; found1 || found2 }, _ => { events.push(SMBEvent::MalformedData); false } } }, _ => { SCLogDebug!("default case: no TX"); false }, }; if !have_tx { let tx_hdr = SMBCommonHdr::from2(r, SMBHDR_TYPE_GENERICTX); SCLogDebug!("looking for TX {} with session_id {} tree_id {} message_id {}", &smb2_command_string(r.command), r.session_id, r.tree_id, r.message_id); let _found = match state.get_generic_tx(2, r.command, &tx_hdr) { Some(tx) => { SCLogDebug!("tx {} with {}/{} marked as done", tx.id, r.command, &smb2_command_string(r.command)); if r.nt_status != SMB_NTSTATUS_PENDING { tx.response_done = true; } tx.set_status(r.nt_status, false); tx.set_events(events); true }, _ => { SCLogDebug!("no tx found for {:?}", r); false }, }; } }