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/* Copyright (C) 2017 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.
*/
// written by Victor Julien
use uuid;
use crate::smb::smb::*;
use crate::smb::smb2::*;
use crate::smb::dcerpc_records::*;
use crate::smb::events::*;
use crate::dcerpc::dcerpc::*;
use crate::smb::smb_status::*;
impl SMBCommonHdr {
/// helper for DCERPC tx tracking. Check if we need
/// to use the msg_id/multiplex_id in TX tracking.
///
pub fn to_dcerpc(&self, vercmd: &SMBVerCmdStat) -> SMBCommonHdr {
// only use the msg id for IOCTL, not for READ/WRITE
// as there request/response are different transactions
let mut use_msg_id = self.msg_id;
match vercmd.get_version() {
2 => {
let (_, cmd2) = vercmd.get_smb2_cmd();
let x = match cmd2 {
SMB2_COMMAND_READ => { 0 },
SMB2_COMMAND_WRITE => { 0 },
SMB2_COMMAND_IOCTL => { self.msg_id },
_ => { self.msg_id },
};
use_msg_id = x;
},
1 => {
SCLogDebug!("FIXME TODO");
//let (_, cmd1) = vercmd.get_smb1_cmd();
//if cmd1 != SMB1_COMMAND_IOCTL {
use_msg_id = 0;
//}
},
_ => { },
}
SMBCommonHdr {
ssn_id: self.ssn_id,
tree_id: self.tree_id,
msg_id: use_msg_id,
rec_type: SMBHDR_TYPE_DCERPCTX,
}
}
}
#[derive(Default, Debug)]
pub struct DCERPCIface {
pub uuid: Vec<u8>,
pub ver: u16,
pub ver_min: u16,
pub ack_result: u16,
pub ack_reason: u16,
pub acked: bool,
pub context_id: u16,
}
impl DCERPCIface {
pub fn new(uuid: Vec<u8>, ver: u16, ver_min: u16) -> Self {
Self {
uuid,
ver,
ver_min,
..Default::default()
}
}
}
#[derive(Default, Debug)]
pub struct SMBTransactionDCERPC {
pub opnum: u16,
pub context_id: u16,
pub req_cmd: u8,
pub req_set: bool,
pub res_cmd: u8,
pub res_set: bool,
pub call_id: u32,
pub frag_cnt_ts: u16,
pub frag_cnt_tc: u16,
pub stub_data_ts: Vec<u8>,
pub stub_data_tc: Vec<u8>,
}
impl SMBTransactionDCERPC {
fn new_request(req: u8, call_id: u32) -> Self {
return Self {
opnum: 0,
context_id: 0,
req_cmd: req,
req_set: true,
call_id,
..Default::default()
}
}
fn new_response(call_id: u32) -> Self {
return Self {
call_id,
..Default::default()
};
}
pub fn set_result(&mut self, res: u8) {
self.res_set = true;
self.res_cmd = res;
}
}
impl SMBState {
fn new_dcerpc_tx(&mut self, hdr: SMBCommonHdr, vercmd: SMBVerCmdStat, cmd: u8, call_id: u32)
-> &mut SMBTransaction
{
let mut tx = self.new_tx();
tx.hdr = hdr;
tx.vercmd = vercmd;
tx.type_data = Some(SMBTransactionTypeData::DCERPC(
SMBTransactionDCERPC::new_request(cmd, call_id)));
SCLogDebug!("SMB: TX DCERPC created: ID {} hdr {:?}", tx.id, tx.hdr);
self.transactions.push_back(tx);
let tx_ref = self.transactions.back_mut();
return tx_ref.unwrap();
}
fn new_dcerpc_tx_for_response(&mut self, hdr: SMBCommonHdr, vercmd: SMBVerCmdStat, call_id: u32)
-> &mut SMBTransaction
{
let mut tx = self.new_tx();
tx.hdr = hdr;
tx.vercmd = vercmd;
tx.type_data = Some(SMBTransactionTypeData::DCERPC(
SMBTransactionDCERPC::new_response(call_id)));
SCLogDebug!("SMB: TX DCERPC created: ID {} hdr {:?}", tx.id, tx.hdr);
self.transactions.push_back(tx);
let tx_ref = self.transactions.back_mut();
return tx_ref.unwrap();
}
fn get_dcerpc_tx(&mut self, hdr: &SMBCommonHdr, vercmd: &SMBVerCmdStat, call_id: u32)
-> Option<&mut SMBTransaction>
{
let dce_hdr = hdr.to_dcerpc(vercmd);
SCLogDebug!("looking for {:?}", dce_hdr);
for tx in &mut self.transactions {
let found = dce_hdr.compare(&tx.hdr.to_dcerpc(vercmd)) &&
match tx.type_data {
Some(SMBTransactionTypeData::DCERPC(ref x)) => {
x.call_id == call_id
},
_ => { false },
};
if found {
return Some(tx);
}
}
return None;
}
}
/// Handle DCERPC request data from a WRITE, IOCTL or TRANS record.
/// return bool indicating whether an tx has been created/updated.
///
pub fn smb_write_dcerpc_record(state: &mut SMBState,
vercmd: SMBVerCmdStat,
hdr: SMBCommonHdr,
data: &[u8]) -> bool
{
let mut bind_ifaces : Option<Vec<DCERPCIface>> = None;
let mut is_bind = false;
SCLogDebug!("called for {} bytes of data", data.len());
match parse_dcerpc_record(data) {
Ok((_, dcer)) => {
SCLogDebug!("DCERPC: version {}.{} write data {} => {:?}",
dcer.version_major, dcer.version_minor, dcer.data.len(), dcer);
/* if this isn't the first frag, simply update the existing
* tx with the additional stub data */
if dcer.packet_type == DCERPC_TYPE_REQUEST && !dcer.first_frag {
SCLogDebug!("NOT the first frag. Need to find an existing TX");
match parse_dcerpc_request_record(dcer.data, dcer.frag_len, dcer.little_endian) {
Ok((_, recr)) => {
let found = match state.get_dcerpc_tx(&hdr, &vercmd, dcer.call_id) {
Some(tx) => {
SCLogDebug!("previous CMD {} found at tx {} => {:?}",
dcer.packet_type, tx.id, tx);
if let Some(SMBTransactionTypeData::DCERPC(ref mut tdn)) = tx.type_data {
SCLogDebug!("additional frag of size {}", recr.data.len());
tdn.stub_data_ts.extend_from_slice(recr.data);
tdn.frag_cnt_ts += 1;
SCLogDebug!("stub_data now {}", tdn.stub_data_ts.len());
}
if dcer.last_frag {
SCLogDebug!("last frag set, so request side of DCERPC closed");
tx.request_done = true;
} else {
SCLogDebug!("NOT last frag, so request side of DCERPC remains open");
}
true
},
None => {
SCLogDebug!("NO previous CMD {} found", dcer.packet_type);
false
},
};
return found;
},
_ => {
state.set_event(SMBEvent::MalformedData);
return false;
},
}
}
let tx = state.new_dcerpc_tx(hdr, vercmd, dcer.packet_type, dcer.call_id);
match dcer.packet_type {
DCERPC_TYPE_REQUEST => {
match parse_dcerpc_request_record(dcer.data, dcer.frag_len, dcer.little_endian) {
Ok((_, recr)) => {
SCLogDebug!("DCERPC: REQUEST {:?}", recr);
if let Some(SMBTransactionTypeData::DCERPC(ref mut tdn)) = tx.type_data {
SCLogDebug!("first frag size {}", recr.data.len());
tdn.stub_data_ts.extend_from_slice(recr.data);
tdn.opnum = recr.opnum;
tdn.context_id = recr.context_id;
tdn.frag_cnt_ts += 1;
SCLogDebug!("DCERPC: REQUEST opnum {} stub data len {}",
tdn.opnum, tdn.stub_data_ts.len());
}
if dcer.last_frag {
tx.request_done = true;
} else {
SCLogDebug!("NOT last frag, so request side of DCERPC remains open");
}
},
_ => {
tx.set_event(SMBEvent::MalformedData);
tx.request_done = true;
},
}
},
DCERPC_TYPE_BIND => {
let brec = if dcer.little_endian {
parse_dcerpc_bind_record(dcer.data)
} else {
parse_dcerpc_bind_record_big(dcer.data)
};
match brec {
Ok((_, bindr)) => {
is_bind = true;
SCLogDebug!("SMB DCERPC {:?} BIND {:?}", dcer, bindr);
if !bindr.ifaces.is_empty() {
let mut ifaces: Vec<DCERPCIface> = Vec::new();
for i in bindr.ifaces {
let x = if dcer.little_endian {
vec![i.iface[3], i.iface[2], i.iface[1], i.iface[0],
i.iface[5], i.iface[4], i.iface[7], i.iface[6],
i.iface[8], i.iface[9], i.iface[10], i.iface[11],
i.iface[12], i.iface[13], i.iface[14], i.iface[15]]
} else {
i.iface.to_vec()
};
let uuid_str = uuid::Uuid::from_slice(&x.clone());
let _uuid_str = uuid_str.map(|uuid_str| uuid_str.to_hyphenated().to_string()).unwrap();
let d = DCERPCIface::new(x,i.ver,i.ver_min);
SCLogDebug!("UUID {} version {}/{} bytes {:?}",
_uuid_str,
i.ver, i.ver_min,i.iface);
ifaces.push(d);
}
bind_ifaces = Some(ifaces);
}
},
_ => {
tx.set_event(SMBEvent::MalformedData);
},
}
tx.request_done = true;
}
21..=255 => {
tx.set_event(SMBEvent::MalformedData);
tx.request_done = true;
},
_ => {
// valid type w/o special processing
tx.request_done = true;
},
}
},
_ => {
state.set_event(SMBEvent::MalformedData);
},
}
if is_bind {
// We have to write here the interfaces
// rather than in the BIND block
// due to borrow issues with the tx mutable reference
// that is part of the state
state.dcerpc_ifaces = bind_ifaces; // TODO store per ssn
}
return true;
}
/// Update TX for bind ack. Needs to update both tx and state.
///
fn smb_dcerpc_response_bindack(
state: &mut SMBState,
vercmd: SMBVerCmdStat,
hdr: SMBCommonHdr,
dcer: &DceRpcRecord,
ntstatus: u32)
{
match parse_dcerpc_bindack_record(dcer.data) {
Ok((_, bindackr)) => {
SCLogDebug!("SMB READ BINDACK {:?}", bindackr);
let found = match state.get_dcerpc_tx(&hdr, &vercmd, dcer.call_id) {
Some(tx) => {
if let Some(SMBTransactionTypeData::DCERPC(ref mut tdn)) = tx.type_data {
tdn.set_result(DCERPC_TYPE_BINDACK);
}
tx.vercmd.set_ntstatus(ntstatus);
tx.response_done = true;
true
},
None => false,
};
if found {
if let Some(ref mut ifaces) = state.dcerpc_ifaces {
for (i, r) in bindackr.results.into_iter().enumerate() {
if i >= ifaces.len() {
// TODO set event: more acks that requests
break;
}
ifaces[i].ack_result = r.ack_result;
ifaces[i].acked = true;
}
}
}
},
_ => {
state.set_event(SMBEvent::MalformedData);
},
}
}
fn smb_read_dcerpc_record_error(state: &mut SMBState,
hdr: SMBCommonHdr, vercmd: SMBVerCmdStat, ntstatus: u32)
-> bool
{
let ver = vercmd.get_version();
let cmd = if ver == 2 {
let (_, c) = vercmd.get_smb2_cmd();
c
} else {
let (_, c) = vercmd.get_smb1_cmd();
c as u16
};
let found = match state.get_generic_tx(ver, cmd, &hdr) {
Some(tx) => {
SCLogDebug!("found");
tx.set_status(ntstatus, false);
tx.response_done = true;
true
},
None => {
SCLogDebug!("NOT found");
false
},
};
return found;
}
fn dcerpc_response_handle(tx: &mut SMBTransaction,
vercmd: SMBVerCmdStat,
dcer: &DceRpcRecord)
{
let (_, ntstatus) = vercmd.get_ntstatus();
match dcer.packet_type {
DCERPC_TYPE_RESPONSE => {
match parse_dcerpc_response_record(dcer.data, dcer.frag_len) {
Ok((_, respr)) => {
SCLogDebug!("SMBv1 READ RESPONSE {:?}", respr);
if let Some(SMBTransactionTypeData::DCERPC(ref mut tdn)) = tx.type_data {
SCLogDebug!("CMD 11 found at tx {}", tx.id);
tdn.set_result(DCERPC_TYPE_RESPONSE);
tdn.stub_data_tc.extend_from_slice(respr.data);
tdn.frag_cnt_tc += 1;
}
tx.vercmd.set_ntstatus(ntstatus);
tx.response_done = dcer.last_frag;
},
_ => {
tx.set_event(SMBEvent::MalformedData);
},
}
},
DCERPC_TYPE_BINDACK => {
// handled elsewhere
},
21..=255 => {
if let Some(SMBTransactionTypeData::DCERPC(ref mut tdn)) = tx.type_data {
tdn.set_result(dcer.packet_type);
}
tx.vercmd.set_ntstatus(ntstatus);
tx.response_done = true;
tx.set_event(SMBEvent::MalformedData);
}
_ => { // valid type w/o special processing
if let Some(SMBTransactionTypeData::DCERPC(ref mut tdn)) = tx.type_data {
tdn.set_result(dcer.packet_type);
}
tx.vercmd.set_ntstatus(ntstatus);
tx.response_done = true;
},
}
}
/// Handle DCERPC reply record. Called for READ, TRANS, IOCTL
///
pub fn smb_read_dcerpc_record(state: &mut SMBState,
vercmd: SMBVerCmdStat,
hdr: SMBCommonHdr,
guid: &[u8],
indata: &[u8]) -> bool
{
let (_, ntstatus) = vercmd.get_ntstatus();
if ntstatus != SMB_NTSTATUS_SUCCESS && ntstatus != SMB_NTSTATUS_BUFFER_OVERFLOW {
return smb_read_dcerpc_record_error(state, hdr, vercmd, ntstatus);
}
SCLogDebug!("lets first see if we have prior data");
// msg_id 0 as this data crosses cmd/reply pairs
let ehdr = SMBHashKeyHdrGuid::new(SMBCommonHdr::new(SMBHDR_TYPE_TRANS_FRAG,
hdr.ssn_id, hdr.tree_id, 0_u64), guid.to_vec());
let mut prevdata = match state.ssnguid2vec_map.remove(&ehdr) {
Some(s) => s,
None => Vec::new(),
};
SCLogDebug!("indata {} prevdata {}", indata.len(), prevdata.len());
prevdata.extend_from_slice(indata);
let data = prevdata;
let mut malformed = false;
if data.is_empty() {
SCLogDebug!("weird: no DCERPC data"); // TODO
// TODO set event?
return false;
} else {
match parse_dcerpc_record(&data) {
Ok((_, dcer)) => {
SCLogDebug!("DCERPC: version {}.{} read data {} => {:?}",
dcer.version_major, dcer.version_minor, dcer.data.len(), dcer);
if ntstatus == SMB_NTSTATUS_BUFFER_OVERFLOW && data.len() < dcer.frag_len as usize {
SCLogDebug!("short record {} < {}: storing partial data in state",
data.len(), dcer.frag_len);
state.ssnguid2vec_map.insert(ehdr, data.to_vec());
return true; // TODO review
}
if dcer.packet_type == DCERPC_TYPE_BINDACK {
smb_dcerpc_response_bindack(state, vercmd, hdr, &dcer, ntstatus);
return true;
}
let found = match state.get_dcerpc_tx(&hdr, &vercmd, dcer.call_id) {
Some(tx) => {
dcerpc_response_handle(tx, vercmd.clone(), &dcer);
true
},
None => {
SCLogDebug!("no tx");
false
},
};
if !found {
// pick up DCERPC tx even if we missed the request
let tx = state.new_dcerpc_tx_for_response(hdr, vercmd.clone(), dcer.call_id);
dcerpc_response_handle(tx, vercmd, &dcer);
}
},
_ => {
malformed = true;
},
}
}
if malformed {
state.set_event(SMBEvent::MalformedData);
}
return true;
}
/// Try to find out if the input data looks like DCERPC
pub fn smb_dcerpc_probe(data: &[u8]) -> bool
{
if let Ok((_, recr)) = parse_dcerpc_record(data) {
SCLogDebug!("SMB: could be DCERPC {:?}", recr);
if recr.version_major == 5 && recr.version_minor < 3 &&
recr.frag_len > 0 && recr.packet_type <= 20
{
SCLogDebug!("SMB: looks like we have dcerpc");
return true;
}
}
return false;
}
|