1use super::*;
2
3#[derive(Clone, Copy, Debug, Default, PartialEq, Eq)]
4pub(in crate::node) struct FmpPlaintextTrafficClass {
5 pub(in crate::node) bulk_endpoint_data: bool,
6 pub(in crate::node) drop_on_backpressure: bool,
7}
8
9#[derive(Clone, Copy, Debug, Default, PartialEq, Eq)]
11pub enum EndpointPayloadLane {
12 #[default]
13 Priority,
14 Bulk,
15}
16
17impl EndpointPayloadLane {
18 fn command_lane(self) -> EndpointCommandLane {
19 match self {
20 Self::Priority => EndpointCommandLane::Priority,
21 Self::Bulk => EndpointCommandLane::Bulk,
22 }
23 }
24}
25
26#[derive(Clone, Copy, Debug, Default, PartialEq, Eq)]
28pub struct EndpointPayloadClass {
29 lane: EndpointPayloadLane,
30 drop_on_backpressure: bool,
31}
32
33#[derive(Clone, Copy, Debug, Eq, PartialEq)]
34pub(in crate::node) struct EndpointFlowDispatchKey(u64);
35
36impl EndpointFlowDispatchKey {
37 pub(in crate::node) fn get(self) -> u64 {
38 self.0
39 }
40}
41
42impl EndpointPayloadClass {
43 pub fn lane(self) -> EndpointPayloadLane {
44 self.lane
45 }
46
47 pub fn is_latency_sensitive(self) -> bool {
48 self.lane == EndpointPayloadLane::Priority
49 }
50
51 pub fn drop_on_backpressure(self) -> bool {
52 self.drop_on_backpressure
53 }
54}
55
56#[cfg(unix)]
57pub(in crate::node) struct FmpWorkerSendReservation {
58 pub(in crate::node) counter: u64,
59 pub(in crate::node) header: [u8; ESTABLISHED_HEADER_SIZE],
60 pub(in crate::node) cipher: ring::aead::LessSafeKey,
61}
62
63#[cfg(unix)]
64pub(in crate::node) fn reserve_fmp_worker_send(
65 session: &mut crate::noise::NoiseSession,
66 their_index: crate::utils::index::SessionIndex,
67 flags: u8,
68 payload_len: u16,
69) -> Result<Option<FmpWorkerSendReservation>, crate::noise::NoiseError> {
70 let Some(cipher) = session.send_cipher_clone() else {
71 return Ok(None);
72 };
73 let counter = session.take_send_counter()?;
74 let header = build_established_header(their_index, counter, flags, payload_len);
75 Ok(Some(FmpWorkerSendReservation {
76 counter,
77 header,
78 cipher,
79 }))
80}
81
82#[derive(Clone, Copy, Debug, PartialEq, Eq)]
83pub(crate) enum EndpointCommandLane {
84 Priority,
85 Bulk,
86}
87
88pub(in crate::node) fn classify_fmp_plaintext_traffic(
89 plaintext: &[u8],
90) -> FmpPlaintextTrafficClass {
91 let bulk_endpoint_data = fmp_plaintext_is_bulk_session_datagram(plaintext);
92 FmpPlaintextTrafficClass {
97 bulk_endpoint_data,
98 drop_on_backpressure: false,
99 }
100}
101
102pub(in crate::node) fn fmp_plaintext_is_bulk_session_datagram(plaintext: &[u8]) -> bool {
103 if plaintext
104 .first()
105 .is_none_or(|ty| *ty != LinkMessageType::SessionDatagram.to_byte())
106 {
107 return false;
108 }
109 let Some(fsp_payload) = plaintext.get(crate::protocol::SESSION_DATAGRAM_HEADER_SIZE..) else {
110 return false;
111 };
112 FspCommonPrefix::parse(fsp_payload).is_some_and(|prefix| {
113 prefix.phase == FSP_PHASE_ESTABLISHED && !prefix.is_unencrypted() && !prefix.has_coords()
114 })
115}
116
117pub(in crate::node) fn endpoint_flow_dispatch_key(
118 payload: &[u8],
119) -> Option<EndpointFlowDispatchKey> {
120 endpoint_payload_flow_parts(payload).map(|parts| EndpointFlowDispatchKey(parts.hash()))
121}
122
123pub fn classify_endpoint_payload(payload: &[u8]) -> EndpointPayloadClass {
125 const IPPROTO_ICMP: u8 = 1;
126 const IPPROTO_TCP: u8 = 6;
127 const IPPROTO_ICMPV6: u8 = 58;
128
129 match parse_endpoint_payload_ip_proto(payload) {
130 Some((IPPROTO_ICMP, _)) => EndpointPayloadClass::default(),
131 Some((IPPROTO_ICMPV6, _)) => EndpointPayloadClass::default(),
132 Some((IPPROTO_TCP, offset)) => {
133 let latency_sensitive = endpoint_tcp_payload_is_latency_sensitive(payload, offset);
134 EndpointPayloadClass {
135 lane: if latency_sensitive {
136 EndpointPayloadLane::Priority
137 } else {
138 EndpointPayloadLane::Bulk
139 },
140 drop_on_backpressure: false,
141 }
142 }
143 _ => EndpointPayloadClass {
144 lane: EndpointPayloadLane::Bulk,
145 drop_on_backpressure: true,
146 },
147 }
148}
149
150pub fn endpoint_payload_is_latency_sensitive(payload: &[u8]) -> bool {
156 classify_endpoint_payload(payload).is_latency_sensitive()
157}
158
159#[cfg(test)]
160pub(crate) fn endpoint_command_lane_for_payload(payload: &[u8]) -> EndpointCommandLane {
161 if endpoint_payload_is_latency_sensitive(payload) {
162 EndpointCommandLane::Priority
163 } else {
164 EndpointCommandLane::Bulk
165 }
166}
167
168#[derive(Clone, Debug, PartialEq, Eq)]
170pub(crate) struct EndpointDataPayload {
171 bytes: Vec<u8>,
172 traffic_class: EndpointPayloadClass,
173}
174
175impl EndpointDataPayload {
176 pub(crate) fn new(bytes: Vec<u8>) -> Self {
177 let traffic_class = classify_endpoint_payload(&bytes);
178 Self {
179 bytes,
180 traffic_class,
181 }
182 }
183
184 pub(crate) fn from_classified(bytes: Vec<u8>, traffic_class: EndpointPayloadClass) -> Self {
185 Self {
186 bytes,
187 traffic_class,
188 }
189 }
190
191 pub(crate) fn lane(&self) -> EndpointCommandLane {
192 self.traffic_class.lane().command_lane()
193 }
194
195 pub(crate) fn bulk_endpoint_data(&self) -> bool {
196 self.traffic_class.lane() == EndpointPayloadLane::Bulk
197 }
198
199 pub(crate) fn drop_on_backpressure(&self) -> bool {
200 self.traffic_class.drop_on_backpressure()
201 }
202
203 pub(crate) fn as_slice(&self) -> &[u8] {
204 &self.bytes
205 }
206
207 pub(crate) fn len(&self) -> usize {
208 self.bytes.len()
209 }
210}
211
212impl From<Vec<u8>> for EndpointDataPayload {
213 fn from(bytes: Vec<u8>) -> Self {
214 Self::new(bytes)
215 }
216}
217
218#[derive(Debug)]
220pub(crate) struct EndpointDataSend {
221 dest_addr: NodeAddr,
222 dest_pubkey: secp256k1::PublicKey,
223 payload: EndpointDataPayload,
224}
225
226impl EndpointDataSend {
227 pub(crate) fn new(remote: PeerIdentity, payload: EndpointDataPayload) -> Self {
228 Self {
229 dest_addr: *remote.node_addr(),
230 dest_pubkey: remote.pubkey_full(),
231 payload,
232 }
233 }
234
235 pub(crate) fn dest_addr(&self) -> NodeAddr {
236 self.dest_addr
237 }
238
239 pub(crate) fn dest_pubkey(&self) -> secp256k1::PublicKey {
240 self.dest_pubkey
241 }
242
243 pub(crate) fn payload(&self) -> &EndpointDataPayload {
244 &self.payload
245 }
246
247 pub(crate) fn into_payload(self) -> EndpointDataPayload {
248 self.payload
249 }
250}
251
252#[derive(Clone, Copy, Debug, PartialEq, Eq)]
254pub(crate) struct PendingEndpointDataQueueAdmission {
255 dropped_oldest: bool,
256}
257
258impl PendingEndpointDataQueueAdmission {
259 pub(crate) fn dropped_oldest(&self) -> bool {
260 self.dropped_oldest
261 }
262}
263
264#[derive(Debug, Default)]
266pub(crate) struct PendingEndpointDataQueue {
267 payloads: VecDeque<EndpointDataPayload>,
268}
269
270impl PendingEndpointDataQueue {
271 pub(crate) fn push_bounded(
272 &mut self,
273 payload: EndpointDataPayload,
274 capacity: usize,
275 ) -> PendingEndpointDataQueueAdmission {
276 let dropped_oldest = self.payloads.len() >= capacity;
277 if dropped_oldest {
278 self.payloads.pop_front();
279 }
280 self.payloads.push_back(payload);
281 PendingEndpointDataQueueAdmission { dropped_oldest }
282 }
283
284 pub(crate) fn len(&self) -> usize {
285 self.payloads.len()
286 }
287
288 pub(crate) fn into_payloads(self) -> VecDeque<EndpointDataPayload> {
289 self.payloads
290 }
291
292 #[cfg(test)]
293 pub(crate) fn iter(&self) -> impl Iterator<Item = &EndpointDataPayload> {
294 self.payloads.iter()
295 }
296}
297
298#[derive(Clone, Copy, Debug, PartialEq, Eq)]
300pub(crate) struct PendingTunPacketQueueAdmission {
301 dropped_oldest: bool,
302}
303
304impl PendingTunPacketQueueAdmission {
305 pub(crate) fn dropped_oldest(&self) -> bool {
306 self.dropped_oldest
307 }
308}
309
310#[derive(Debug, Default)]
312pub(crate) struct PendingTunPacketQueue {
313 packets: VecDeque<Vec<u8>>,
314}
315
316impl PendingTunPacketQueue {
317 pub(crate) fn push_bounded(
318 &mut self,
319 packet: Vec<u8>,
320 capacity: usize,
321 ) -> PendingTunPacketQueueAdmission {
322 let dropped_oldest = self.packets.len() >= capacity;
323 if dropped_oldest {
324 self.packets.pop_front();
325 }
326 self.packets.push_back(packet);
327 PendingTunPacketQueueAdmission { dropped_oldest }
328 }
329
330 pub(crate) fn len(&self) -> usize {
331 self.packets.len()
332 }
333
334 pub(crate) fn into_packets(self) -> VecDeque<Vec<u8>> {
335 self.packets
336 }
337
338 #[cfg(test)]
339 pub(crate) fn iter(&self) -> impl Iterator<Item = &Vec<u8>> {
340 self.packets.iter()
341 }
342}
343
344#[derive(Clone, Copy, Debug, PartialEq, Eq)]
346pub(crate) struct PendingSessionTrafficAdmission {
347 destination_dropped: bool,
348 dropped_oldest: bool,
349}
350
351impl PendingSessionTrafficAdmission {
352 pub(crate) fn destination_dropped(&self) -> bool {
353 self.destination_dropped
354 }
355
356 pub(crate) fn dropped_oldest(&self) -> bool {
357 self.dropped_oldest
358 }
359}
360
361#[derive(Debug, Default)]
363pub(crate) struct PendingDestinationTraffic {
364 tun_packets: Option<PendingTunPacketQueue>,
365 endpoint_data: Option<PendingEndpointDataQueue>,
366}
367
368impl PendingDestinationTraffic {
369 pub(crate) fn tun_packets(&self) -> Option<&PendingTunPacketQueue> {
370 self.tun_packets.as_ref()
371 }
372
373 pub(crate) fn into_tun_packets(self) -> Option<PendingTunPacketQueue> {
374 self.tun_packets
375 }
376
377 pub(crate) fn endpoint_data(&self) -> Option<&PendingEndpointDataQueue> {
378 self.endpoint_data.as_ref()
379 }
380}
381
382#[derive(Debug, Default)]
384pub(crate) struct PendingSessionTrafficQueues {
385 pending_destinations: HashSet<NodeAddr>,
386 tun_packets: HashMap<NodeAddr, PendingTunPacketQueue>,
387 endpoint_data: HashMap<NodeAddr, PendingEndpointDataQueue>,
388}
389
390impl PendingSessionTrafficQueues {
391 pub(crate) fn push_tun_packet(
392 &mut self,
393 dest_addr: NodeAddr,
394 packet: Vec<u8>,
395 max_destinations: usize,
396 packets_per_dest: usize,
397 ) -> PendingSessionTrafficAdmission {
398 if !self.tun_packets.contains_key(&dest_addr) && self.tun_packets.len() >= max_destinations
399 {
400 return PendingSessionTrafficAdmission {
401 destination_dropped: true,
402 dropped_oldest: false,
403 };
404 }
405
406 let admission = self
407 .tun_packets
408 .entry(dest_addr)
409 .or_default()
410 .push_bounded(packet, packets_per_dest);
411 self.pending_destinations.insert(dest_addr);
412 PendingSessionTrafficAdmission {
413 destination_dropped: false,
414 dropped_oldest: admission.dropped_oldest(),
415 }
416 }
417
418 pub(crate) fn push_endpoint_data(
419 &mut self,
420 dest_addr: NodeAddr,
421 payload: impl Into<EndpointDataPayload>,
422 max_destinations: usize,
423 packets_per_dest: usize,
424 ) -> PendingSessionTrafficAdmission {
425 if !self.endpoint_data.contains_key(&dest_addr)
426 && self.endpoint_data.len() >= max_destinations
427 {
428 return PendingSessionTrafficAdmission {
429 destination_dropped: true,
430 dropped_oldest: false,
431 };
432 }
433
434 let admission = self
435 .endpoint_data
436 .entry(dest_addr)
437 .or_default()
438 .push_bounded(payload.into(), packets_per_dest);
439 self.pending_destinations.insert(dest_addr);
440 PendingSessionTrafficAdmission {
441 destination_dropped: false,
442 dropped_oldest: admission.dropped_oldest(),
443 }
444 }
445
446 pub(crate) fn remove_destination(&mut self, dest_addr: &NodeAddr) -> PendingDestinationTraffic {
447 self.pending_destinations.remove(dest_addr);
448 PendingDestinationTraffic {
449 tun_packets: self.tun_packets.remove(dest_addr),
450 endpoint_data: self.endpoint_data.remove(dest_addr),
451 }
452 }
453
454 pub(crate) fn take_tun_packets(
455 &mut self,
456 dest_addr: &NodeAddr,
457 ) -> Option<PendingTunPacketQueue> {
458 let packets = self.tun_packets.remove(dest_addr);
459 if packets.is_some() && !self.endpoint_data.contains_key(dest_addr) {
460 self.pending_destinations.remove(dest_addr);
461 }
462 packets
463 }
464
465 pub(crate) fn take_endpoint_data(
466 &mut self,
467 dest_addr: &NodeAddr,
468 ) -> Option<PendingEndpointDataQueue> {
469 let payloads = self.endpoint_data.remove(dest_addr);
470 if payloads.is_some() && !self.tun_packets.contains_key(dest_addr) {
471 self.pending_destinations.remove(dest_addr);
472 }
473 payloads
474 }
475
476 pub(crate) fn has_traffic_for(&self, dest_addr: &NodeAddr) -> bool {
477 self.pending_destinations.contains(dest_addr)
478 }
479
480 pub(crate) fn tun_packets_for(&self, dest_addr: &NodeAddr) -> Option<&PendingTunPacketQueue> {
481 self.tun_packets.get(dest_addr)
482 }
483
484 pub(crate) fn endpoint_data_for(
485 &self,
486 dest_addr: &NodeAddr,
487 ) -> Option<&PendingEndpointDataQueue> {
488 self.endpoint_data.get(dest_addr)
489 }
490
491 pub(crate) fn tun_destination_count(&self) -> usize {
492 self.tun_packets.len()
493 }
494
495 pub(crate) fn tun_packet_count(&self) -> usize {
496 self.tun_packets.values().map(|q| q.len()).sum()
497 }
498}
499
500fn endpoint_tcp_payload_is_latency_sensitive(payload: &[u8], tcp_offset: usize) -> bool {
501 const TCP_MIN_HEADER_LEN: usize = 20;
502 const TCP_FLAG_FIN: u8 = 0x01;
503 const TCP_FLAG_SYN: u8 = 0x02;
504 const TCP_FLAG_RST: u8 = 0x04;
505 const INTERACTIVE_TCP_PAYLOAD_MAX: usize = 256;
506
507 if payload.len() < tcp_offset + TCP_MIN_HEADER_LEN {
508 return true;
509 }
510
511 let tcp_header_len = usize::from(payload[tcp_offset + 12] >> 4) * 4;
512 if tcp_header_len < TCP_MIN_HEADER_LEN || payload.len() < tcp_offset + tcp_header_len {
513 return true;
514 }
515
516 let flags = payload[tcp_offset + 13];
517 if flags & (TCP_FLAG_FIN | TCP_FLAG_SYN | TCP_FLAG_RST) != 0 {
518 return true;
519 }
520
521 let payload_len = endpoint_ip_payload_len(payload)
522 .and_then(|ip_payload_len| ip_payload_len.checked_sub(tcp_header_len))
523 .unwrap_or_else(|| payload.len().saturating_sub(tcp_offset + tcp_header_len));
524 payload_len <= INTERACTIVE_TCP_PAYLOAD_MAX
525}
526
527fn endpoint_ip_payload_len(payload: &[u8]) -> Option<usize> {
528 const IPV4_MIN_HEADER_LEN: usize = 20;
529 const IPV6_HEADER_LEN: usize = 40;
530
531 let version_ihl = payload.first().copied()?;
532 match version_ihl >> 4 {
533 4 => {
534 if payload.len() < IPV4_MIN_HEADER_LEN {
535 return None;
536 }
537 let header_len = usize::from(version_ihl & 0x0f) * 4;
538 if header_len < IPV4_MIN_HEADER_LEN || payload.len() < header_len {
539 return None;
540 }
541 let total_len = usize::from(u16::from_be_bytes([payload[2], payload[3]]));
542 total_len.checked_sub(header_len)
543 }
544 6 => {
545 if payload.len() < IPV6_HEADER_LEN {
546 return None;
547 }
548 Some(usize::from(u16::from_be_bytes([payload[4], payload[5]])))
549 }
550 _ => None,
551 }
552}
553
554fn parse_endpoint_payload_ip_proto(payload: &[u8]) -> Option<(u8, usize)> {
555 const IPV4_MIN_HEADER_LEN: usize = 20;
556
557 let version_ihl = payload.first().copied()?;
558
559 match version_ihl >> 4 {
560 4 => {
561 if payload.len() < IPV4_MIN_HEADER_LEN {
562 return None;
563 }
564 let header_len = usize::from(version_ihl & 0x0f) * 4;
565 if header_len >= IPV4_MIN_HEADER_LEN && payload.len() >= header_len {
566 Some((payload[9], header_len))
567 } else {
568 None
569 }
570 }
571 6 => ipv6_payload_next_header(payload),
572 _ => None,
573 }
574}
575
576#[derive(Clone, Copy)]
577struct EndpointFlowParts<'a> {
578 version: u8,
579 proto: u8,
580 src: &'a [u8],
581 dst: &'a [u8],
582 ports: Option<[u8; 4]>,
583}
584
585impl EndpointFlowParts<'_> {
586 fn hash(self) -> u64 {
587 let mut h = EndpointFlowHasher::default();
588 h.write_u8(self.version);
589 h.write_u8(self.proto);
590 h.write(self.src);
591 h.write(self.dst);
592 if let Some(ports) = self.ports {
593 h.write(&ports);
594 }
595 h.finish()
596 }
597}
598
599#[derive(Clone, Copy)]
600struct EndpointFlowHasher(u64);
601
602impl Default for EndpointFlowHasher {
603 fn default() -> Self {
604 Self(0x9ae1_6a3b_2f90_404f)
605 }
606}
607
608impl EndpointFlowHasher {
609 fn write_u8(&mut self, value: u8) {
610 self.write(&[value]);
611 }
612
613 fn write(&mut self, bytes: &[u8]) {
614 for byte in bytes {
615 self.0 ^= u64::from(*byte);
616 self.0 = self.0.wrapping_mul(0x1000_0000_01b3);
617 self.0 ^= self.0 >> 32;
618 }
619 }
620
621 fn finish(self) -> u64 {
622 self.0
623 }
624}
625
626fn endpoint_payload_flow_parts(payload: &[u8]) -> Option<EndpointFlowParts<'_>> {
627 const IPV4_MIN_HEADER_LEN: usize = 20;
628 const IPV6_HEADER_LEN: usize = 40;
629
630 let version = payload.first().copied()? >> 4;
631 match version {
632 4 => {
633 if payload.len() < IPV4_MIN_HEADER_LEN {
634 return None;
635 }
636 let header_len = usize::from(payload[0] & 0x0f) * 4;
637 if header_len < IPV4_MIN_HEADER_LEN || payload.len() < header_len {
638 return None;
639 }
640 let fragment_bits = u16::from_be_bytes([payload[6], payload[7]]) & 0x3fff;
641 Some(EndpointFlowParts {
642 version,
643 proto: payload[9],
644 src: &payload[12..16],
645 dst: &payload[16..20],
646 ports: if fragment_bits == 0 {
647 endpoint_transport_ports(payload, payload[9], header_len)
648 } else {
649 None
650 },
651 })
652 }
653 6 => {
654 if payload.len() < IPV6_HEADER_LEN {
655 return None;
656 }
657 let (proto, offset, fragmented) = ipv6_payload_next_header_with_fragment(payload)?;
658 Some(EndpointFlowParts {
659 version,
660 proto,
661 src: &payload[8..24],
662 dst: &payload[24..40],
663 ports: if fragmented {
664 None
665 } else {
666 endpoint_transport_ports(payload, proto, offset)
667 },
668 })
669 }
670 _ => None,
671 }
672}
673
674fn endpoint_transport_ports(payload: &[u8], proto: u8, transport_offset: usize) -> Option<[u8; 4]> {
675 const IPPROTO_TCP: u8 = 6;
676 const IPPROTO_UDP: u8 = 17;
677 const IPPROTO_SCTP: u8 = 132;
678
679 if !matches!(proto, IPPROTO_TCP | IPPROTO_UDP | IPPROTO_SCTP) {
680 return None;
681 }
682 let ports = payload.get(transport_offset..transport_offset + 4)?;
683 Some([ports[0], ports[1], ports[2], ports[3]])
684}
685
686#[cfg(test)]
687pub(in crate::node) fn endpoint_payload_is_tcp(payload: &[u8]) -> bool {
688 const IPPROTO_TCP: u8 = 6;
689 parse_endpoint_payload_ip_proto(payload).is_some_and(|(proto, _)| proto == IPPROTO_TCP)
690}
691
692fn ipv6_payload_next_header(payload: &[u8]) -> Option<(u8, usize)> {
693 ipv6_payload_next_header_with_fragment(payload)
694 .map(|(next_header, offset, _)| (next_header, offset))
695}
696
697fn ipv6_payload_next_header_with_fragment(payload: &[u8]) -> Option<(u8, usize, bool)> {
698 const IPV6_HEADER_LEN: usize = 40;
699 const IPV6_FRAGMENT_HEADER_LEN: usize = 8;
700
701 if payload.len() < IPV6_HEADER_LEN || payload[0] >> 4 != 6 {
702 return None;
703 }
704
705 let mut next_header = payload[6];
706 let mut offset = IPV6_HEADER_LEN;
707 let mut extension_count = 0usize;
708 let mut fragmented = false;
709 while ipv6_extension_header_is_skippable(next_header) {
710 if next_header == 44 {
711 if payload.len() < offset + IPV6_FRAGMENT_HEADER_LEN {
712 return None;
713 }
714 fragmented = true;
715 next_header = payload[offset];
716 offset += IPV6_FRAGMENT_HEADER_LEN;
717 } else if next_header == 51 {
718 if payload.len() < offset + 2 {
719 return None;
720 }
721 let header_len = (usize::from(payload[offset + 1]) + 2) * 4;
722 if payload.len() < offset + header_len {
723 return None;
724 }
725 next_header = payload[offset];
726 offset += header_len;
727 } else {
728 if payload.len() < offset + 2 {
729 return None;
730 }
731 let header_len = (usize::from(payload[offset + 1]) + 1) * 8;
732 if payload.len() < offset + header_len {
733 return None;
734 }
735 next_header = payload[offset];
736 offset += header_len;
737 }
738 extension_count += 1;
739 if extension_count > 8 {
740 return None;
741 }
742 }
743
744 Some((next_header, offset, fragmented))
745}
746
747fn ipv6_extension_header_is_skippable(next_header: u8) -> bool {
748 matches!(next_header, 0 | 43 | 44 | 51 | 60 | 135)
749}