/* Copyright (C) 2017-2021 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 Pierre Chifflier <chifflier@wzdftpd.net>
use crate::snmp::snmp_parser::*;
use crate::core::{self, *};
use crate::applayer::{self, *};
use std;
use std::ffi::CString;
use asn1_rs::Oid;
use der_parser::ber::BerObjectContent;
use der_parser::der::parse_der_sequence;
use nom7::{Err, IResult};
use nom7::error::{ErrorKind, make_error};
#[derive(AppLayerEvent)]
pub enum SNMPEvent {
MalformedData,
UnknownSecurityModel,
VersionMismatch,
}
#[derive(Default)]
pub struct SNMPState<'a> {
state_data: AppLayerStateData,
/// SNMP protocol version
pub version: u32,
/// List of transactions for this session
transactions: Vec<SNMPTransaction<'a>>,
/// tx counter for assigning incrementing id's to tx's
tx_id: u64,
}
pub struct SNMPPduInfo<'a> {
pub pdu_type: PduType,
pub err: ErrorStatus,
pub trap_type: Option<(TrapType,Oid<'a>,NetworkAddress)>,
pub vars: Vec<Oid<'a>>,
}
pub struct SNMPTransaction<'a> {
/// PDU version
pub version: u32,
/// PDU info, if present (and cleartext)
pub info: Option<SNMPPduInfo<'a>>,
/// Community, if present (SNMPv2)
pub community: Option<String>,
/// USM info, if present (SNMPv3)
pub usm: Option<String>,
/// True if transaction was encrypted
pub encrypted: bool,
/// The internal transaction id
id: u64,
tx_data: applayer::AppLayerTxData,
}
impl<'a> Transaction for SNMPTransaction<'a> {
fn id(&self) -> u64 {
self.id
}
}
impl<'a> SNMPState<'a> {
pub fn new() -> SNMPState<'a> {
Default::default()
}
}
impl<'a> Default for SNMPPduInfo<'a> {
fn default() -> SNMPPduInfo<'a> {
SNMPPduInfo{
pdu_type: PduType(0),
err: ErrorStatus::NoError,
trap_type: None,
vars: Vec::new()
}
}
}
impl<'a> State<SNMPTransaction<'a>> for SNMPState<'a> {
fn get_transaction_count(&self) -> usize {
self.transactions.len()
}
fn get_transaction_by_index(&self, index: usize) -> Option<&SNMPTransaction<'a>> {
self.transactions.get(index)
}
}
impl<'a> SNMPState<'a> {
fn add_pdu_info(&mut self, pdu: &SnmpPdu<'a>, tx: &mut SNMPTransaction<'a>) {
let mut pdu_info = SNMPPduInfo {
pdu_type: pdu.pdu_type(),
..Default::default()
};
match *pdu {
SnmpPdu::Generic(ref pdu) => {
pdu_info.err = pdu.err;
},
SnmpPdu::Bulk(_) => {
},
SnmpPdu::TrapV1(ref t) => {
pdu_info.trap_type = Some((t.generic_trap,t.enterprise.clone(),t.agent_addr));
}
}
for var in pdu.vars_iter() {
pdu_info.vars.push(var.oid.to_owned());
}
tx.info = Some(pdu_info);
}
fn handle_snmp_v12(&mut self, msg: SnmpMessage<'a>, _direction: Direction) -> i32 {
let mut tx = self.new_tx(_direction);
// in the message, version is encoded as 0 (version 1) or 1 (version 2)
if self.version != msg.version + 1 {
SCLogDebug!("SNMP version mismatch: expected {}, received {}", self.version, msg.version+1);
self.set_event_tx(&mut tx, SNMPEvent::VersionMismatch);
}
self.add_pdu_info(&msg.pdu, &mut tx);
tx.community = Some(msg.community);
self.transactions.push(tx);
0
}
fn handle_snmp_v3(&mut self, msg: SnmpV3Message<'a>, _direction: Direction) -> i32 {
let mut tx = self.new_tx(_direction);
if self.version != msg.version {
SCLogDebug!("SNMP version mismatch: expected {}, received {}", self.version, msg.version);
self.set_event_tx(&mut tx, SNMPEvent::VersionMismatch);
}
match msg.data {
ScopedPduData::Plaintext(pdu) => {
self.add_pdu_info(&pdu.data, &mut tx);
},
_ => {
tx.encrypted = true;
}
}
match msg.security_params {
SecurityParameters::USM(usm) => {
tx.usm = Some(usm.msg_user_name);
},
_ => {
self.set_event_tx(&mut tx, SNMPEvent::UnknownSecurityModel);
}
}
self.transactions.push(tx);
0
}
/// Parse an SNMP request message
///
/// Returns 0 if successful, or -1 on error
fn parse(&mut self, i: &'a [u8], direction: Direction) -> i32 {
if self.version == 0 {
if let Ok((_, x)) = parse_pdu_envelope_version(i) {
self.version = x;
}
}
match parse_snmp_generic_message(i) {
Ok((_rem,SnmpGenericMessage::V1(msg))) |
Ok((_rem,SnmpGenericMessage::V2(msg))) => self.handle_snmp_v12(msg, direction),
Ok((_rem,SnmpGenericMessage::V3(msg))) => self.handle_snmp_v3(msg, direction),
Err(_e) => {
SCLogDebug!("parse_snmp failed: {:?}", _e);
self.set_event(SNMPEvent::MalformedData);
-1
},
}
}
fn free(&mut self) {
// All transactions are freed when the `transactions` object is freed.
// But let's be explicit
self.transactions.clear();
}
fn new_tx(&mut self, direction: Direction) -> SNMPTransaction<'a> {
self.tx_id += 1;
SNMPTransaction::new(direction, self.version, self.tx_id)
}
fn get_tx_by_id(&mut self, tx_id: u64) -> Option<&SNMPTransaction> {
self.transactions.iter().rev().find(|&tx| tx.id == tx_id + 1)
}
fn free_tx(&mut self, tx_id: u64) {
let tx = self.transactions.iter().position(|tx| tx.id == tx_id + 1);
debug_assert!(tx.is_some());
if let Some(idx) = tx {
let _ = self.transactions.remove(idx);
}
}
/// Set an event. The event is set on the most recent transaction.
fn set_event(&mut self, event: SNMPEvent) {
if let Some(tx) = self.transactions.last_mut() {
tx.tx_data.set_event(event as u8);
}
}
/// Set an event on a specific transaction.
fn set_event_tx(&self, tx: &mut SNMPTransaction, event: SNMPEvent) {
tx.tx_data.set_event(event as u8);
}
}
impl<'a> SNMPTransaction<'a> {
pub fn new(direction: Direction, version: u32, id: u64) -> SNMPTransaction<'a> {
SNMPTransaction {
version,
info: None,
community: None,
usm: None,
encrypted: false,
id,
tx_data: applayer::AppLayerTxData::for_direction(direction),
}
}
}
/// Returns *mut SNMPState
#[no_mangle]
pub extern "C" fn rs_snmp_state_new(_orig_state: *mut std::os::raw::c_void, _orig_proto: AppProto) -> *mut std::os::raw::c_void {
let state = SNMPState::new();
let boxed = Box::new(state);
return Box::into_raw(boxed) as *mut _;
}
/// Params:
/// - state: *mut SNMPState as void pointer
#[no_mangle]
pub extern "C" fn rs_snmp_state_free(state: *mut std::os::raw::c_void) {
let mut snmp_state = unsafe{ Box::from_raw(state as *mut SNMPState) };
snmp_state.free();
}
#[no_mangle]
pub unsafe extern "C" fn rs_snmp_parse_request(_flow: *const core::Flow,
state: *mut std::os::raw::c_void,
_pstate: *mut std::os::raw::c_void,
stream_slice: StreamSlice,
_data: *const std::os::raw::c_void,
) -> AppLayerResult {
let state = cast_pointer!(state,SNMPState);
state.parse(stream_slice.as_slice(), Direction::ToServer).into()
}
#[no_mangle]
pub unsafe extern "C" fn rs_snmp_parse_response(_flow: *const core::Flow,
state: *mut std::os::raw::c_void,
_pstate: *mut std::os::raw::c_void,
stream_slice: StreamSlice,
_data: *const std::os::raw::c_void,
) -> AppLayerResult {
let state = cast_pointer!(state,SNMPState);
state.parse(stream_slice.as_slice(), Direction::ToClient).into()
}
#[no_mangle]
pub unsafe extern "C" fn rs_snmp_state_get_tx(state: *mut std::os::raw::c_void,
tx_id: u64)
-> *mut std::os::raw::c_void
{
let state = cast_pointer!(state,SNMPState);
match state.get_tx_by_id(tx_id) {
Some(tx) => tx as *const _ as *mut _,
None => std::ptr::null_mut(),
}
}
#[no_mangle]
pub unsafe extern "C" fn rs_snmp_state_get_tx_count(state: *mut std::os::raw::c_void)
-> u64
{
let state = cast_pointer!(state,SNMPState);
state.tx_id
}
#[no_mangle]
pub unsafe extern "C" fn rs_snmp_state_tx_free(state: *mut std::os::raw::c_void,
tx_id: u64)
{
let state = cast_pointer!(state,SNMPState);
state.free_tx(tx_id);
}
#[no_mangle]
pub extern "C" fn rs_snmp_tx_get_alstate_progress(_tx: *mut std::os::raw::c_void,
_direction: u8)
-> std::os::raw::c_int
{
1
}
static mut ALPROTO_SNMP : AppProto = ALPROTO_UNKNOWN;
// Read PDU sequence and extract version, if similar to SNMP definition
fn parse_pdu_envelope_version(i:&[u8]) -> IResult<&[u8],u32> {
match parse_der_sequence(i) {
Ok((_,x)) => {
#[allow(clippy::single_match)]
match x.content {
BerObjectContent::Sequence(ref v) => {
if v.len() == 3 {
match v[0].as_u32() {
Ok(0) => { return Ok((i,1)); }, // possibly SNMPv1
Ok(1) => { return Ok((i,2)); }, // possibly SNMPv2c
_ => ()
}
} else if v.len() == 4 && v[0].as_u32() == Ok(3) {
return Ok((i,3)); // possibly SNMPv3
}
},
_ => ()
};
Err(Err::Error(make_error(i, ErrorKind::Verify)))
},
Err(Err::Incomplete(i)) => Err(Err::Incomplete(i)),
Err(Err::Failure(_)) |
Err(Err::Error(_)) => Err(Err::Error(make_error(i,ErrorKind::Verify)))
}
}
#[no_mangle]
pub unsafe extern "C" fn rs_snmp_probing_parser(_flow: *const Flow,
_direction: u8,
input:*const u8,
input_len: u32,
_rdir: *mut u8) -> AppProto {
let slice = build_slice!(input,input_len as usize);
let alproto = ALPROTO_SNMP;
if slice.len() < 4 { return ALPROTO_FAILED; }
match parse_pdu_envelope_version(slice) {
Ok((_,_)) => alproto,
Err(Err::Incomplete(_)) => ALPROTO_UNKNOWN,
_ => ALPROTO_FAILED,
}
}
export_tx_data_get!(rs_snmp_get_tx_data, SNMPTransaction);
export_state_data_get!(rs_snmp_get_state_data, SNMPState);
const PARSER_NAME : &[u8] = b"snmp\0";
#[no_mangle]
pub unsafe extern "C" fn rs_register_snmp_parser() {
let default_port = CString::new("161").unwrap();
let mut parser = RustParser {
name : PARSER_NAME.as_ptr() as *const std::os::raw::c_char,
default_port : default_port.as_ptr(),
ipproto : core::IPPROTO_UDP,
probe_ts : Some(rs_snmp_probing_parser),
probe_tc : Some(rs_snmp_probing_parser),
min_depth : 0,
max_depth : 16,
state_new : rs_snmp_state_new,
state_free : rs_snmp_state_free,
tx_free : rs_snmp_state_tx_free,
parse_ts : rs_snmp_parse_request,
parse_tc : rs_snmp_parse_response,
get_tx_count : rs_snmp_state_get_tx_count,
get_tx : rs_snmp_state_get_tx,
tx_comp_st_ts : 1,
tx_comp_st_tc : 1,
tx_get_progress : rs_snmp_tx_get_alstate_progress,
get_eventinfo : Some(SNMPEvent::get_event_info),
get_eventinfo_byid : Some(SNMPEvent::get_event_info_by_id),
localstorage_new : None,
localstorage_free : None,
get_tx_files : None,
get_tx_iterator : Some(applayer::state_get_tx_iterator::<SNMPState, SNMPTransaction>),
get_tx_data : rs_snmp_get_tx_data,
get_state_data : rs_snmp_get_state_data,
apply_tx_config : None,
flags : 0,
truncate : None,
get_frame_id_by_name: None,
get_frame_name_by_id: None,
};
let ip_proto_str = CString::new("udp").unwrap();
if AppLayerProtoDetectConfProtoDetectionEnabled(ip_proto_str.as_ptr(), parser.name) != 0 {
// port 161
let alproto = AppLayerRegisterProtocolDetection(&parser, 1);
// store the allocated ID for the probe function
ALPROTO_SNMP = alproto;
if AppLayerParserConfParserEnabled(ip_proto_str.as_ptr(), parser.name) != 0 {
let _ = AppLayerRegisterParser(&parser, alproto);
}
// port 162
let default_port_traps = CString::new("162").unwrap();
parser.default_port = default_port_traps.as_ptr();
let _ = AppLayerRegisterProtocolDetection(&parser, 1);
if AppLayerParserConfParserEnabled(ip_proto_str.as_ptr(), parser.name) != 0 {
let _ = AppLayerRegisterParser(&parser, alproto);
}
} else {
SCLogDebug!("Protocol detector and parser disabled for SNMP.");
}
}