1.. SPDX-License-Identifier: GPL-2.0
2
3=========
4IP Sysctl
5=========
6
7/proc/sys/net/ipv4/* Variables
8==============================
9
10ip_forward - BOOLEAN
11	- 0 - disabled (default)
12	- not 0 - enabled
13
14	Forward Packets between interfaces.
15
16	This variable is special, its change resets all configuration
17	parameters to their default state (RFC1122 for hosts, RFC1812
18	for routers)
19
20ip_default_ttl - INTEGER
21	Default value of TTL field (Time To Live) for outgoing (but not
22	forwarded) IP packets. Should be between 1 and 255 inclusive.
23	Default: 64 (as recommended by RFC1700)
24
25ip_no_pmtu_disc - INTEGER
26	Disable Path MTU Discovery. If enabled in mode 1 and a
27	fragmentation-required ICMP is received, the PMTU to this
28	destination will be set to the smallest of the old MTU to
29	this destination and min_pmtu (see below). You will need
30	to raise min_pmtu to the smallest interface MTU on your system
31	manually if you want to avoid locally generated fragments.
32
33	In mode 2 incoming Path MTU Discovery messages will be
34	discarded. Outgoing frames are handled the same as in mode 1,
35	implicitly setting IP_PMTUDISC_DONT on every created socket.
36
37	Mode 3 is a hardened pmtu discover mode. The kernel will only
38	accept fragmentation-needed errors if the underlying protocol
39	can verify them besides a plain socket lookup. Current
40	protocols for which pmtu events will be honored are TCP, SCTP
41	and DCCP as they verify e.g. the sequence number or the
42	association. This mode should not be enabled globally but is
43	only intended to secure e.g. name servers in namespaces where
44	TCP path mtu must still work but path MTU information of other
45	protocols should be discarded. If enabled globally this mode
46	could break other protocols.
47
48	Possible values: 0-3
49
50	Default: FALSE
51
52min_pmtu - INTEGER
53	default 552 - minimum Path MTU. Unless this is changed mannually,
54	each cached pmtu will never be lower than this setting.
55
56ip_forward_use_pmtu - BOOLEAN
57	By default we don't trust protocol path MTUs while forwarding
58	because they could be easily forged and can lead to unwanted
59	fragmentation by the router.
60	You only need to enable this if you have user-space software
61	which tries to discover path mtus by itself and depends on the
62	kernel honoring this information. This is normally not the
63	case.
64
65	Default: 0 (disabled)
66
67	Possible values:
68
69	- 0 - disabled
70	- 1 - enabled
71
72fwmark_reflect - BOOLEAN
73	Controls the fwmark of kernel-generated IPv4 reply packets that are not
74	associated with a socket for example, TCP RSTs or ICMP echo replies).
75	If unset, these packets have a fwmark of zero. If set, they have the
76	fwmark of the packet they are replying to.
77
78	Default: 0
79
80fib_multipath_use_neigh - BOOLEAN
81	Use status of existing neighbor entry when determining nexthop for
82	multipath routes. If disabled, neighbor information is not used and
83	packets could be directed to a failed nexthop. Only valid for kernels
84	built with CONFIG_IP_ROUTE_MULTIPATH enabled.
85
86	Default: 0 (disabled)
87
88	Possible values:
89
90	- 0 - disabled
91	- 1 - enabled
92
93fib_multipath_hash_policy - INTEGER
94	Controls which hash policy to use for multipath routes. Only valid
95	for kernels built with CONFIG_IP_ROUTE_MULTIPATH enabled.
96
97	Default: 0 (Layer 3)
98
99	Possible values:
100
101	- 0 - Layer 3
102	- 1 - Layer 4
103	- 2 - Layer 3 or inner Layer 3 if present
104	- 3 - Custom multipath hash. Fields used for multipath hash calculation
105	  are determined by fib_multipath_hash_fields sysctl
106
107fib_multipath_hash_fields - UNSIGNED INTEGER
108	When fib_multipath_hash_policy is set to 3 (custom multipath hash), the
109	fields used for multipath hash calculation are determined by this
110	sysctl.
111
112	This value is a bitmask which enables various fields for multipath hash
113	calculation.
114
115	Possible fields are:
116
117	====== ============================
118	0x0001 Source IP address
119	0x0002 Destination IP address
120	0x0004 IP protocol
121	0x0008 Unused (Flow Label)
122	0x0010 Source port
123	0x0020 Destination port
124	0x0040 Inner source IP address
125	0x0080 Inner destination IP address
126	0x0100 Inner IP protocol
127	0x0200 Inner Flow Label
128	0x0400 Inner source port
129	0x0800 Inner destination port
130	====== ============================
131
132	Default: 0x0007 (source IP, destination IP and IP protocol)
133
134fib_sync_mem - UNSIGNED INTEGER
135	Amount of dirty memory from fib entries that can be backlogged before
136	synchronize_rcu is forced.
137
138	Default: 512kB   Minimum: 64kB   Maximum: 64MB
139
140ip_forward_update_priority - INTEGER
141	Whether to update SKB priority from "TOS" field in IPv4 header after it
142	is forwarded. The new SKB priority is mapped from TOS field value
143	according to an rt_tos2priority table (see e.g. man tc-prio).
144
145	Default: 1 (Update priority.)
146
147	Possible values:
148
149	- 0 - Do not update priority.
150	- 1 - Update priority.
151
152route/max_size - INTEGER
153	Maximum number of routes allowed in the kernel.  Increase
154	this when using large numbers of interfaces and/or routes.
155
156	From linux kernel 3.6 onwards, this is deprecated for ipv4
157	as route cache is no longer used.
158
159neigh/default/gc_thresh1 - INTEGER
160	Minimum number of entries to keep.  Garbage collector will not
161	purge entries if there are fewer than this number.
162
163	Default: 128
164
165neigh/default/gc_thresh2 - INTEGER
166	Threshold when garbage collector becomes more aggressive about
167	purging entries. Entries older than 5 seconds will be cleared
168	when over this number.
169
170	Default: 512
171
172neigh/default/gc_thresh3 - INTEGER
173	Maximum number of non-PERMANENT neighbor entries allowed.  Increase
174	this when using large numbers of interfaces and when communicating
175	with large numbers of directly-connected peers.
176
177	Default: 1024
178
179neigh/default/unres_qlen_bytes - INTEGER
180	The maximum number of bytes which may be used by packets
181	queued for each	unresolved address by other network layers.
182	(added in linux 3.3)
183
184	Setting negative value is meaningless and will return error.
185
186	Default: SK_WMEM_MAX, (same as net.core.wmem_default).
187
188		Exact value depends on architecture and kernel options,
189		but should be enough to allow queuing 256 packets
190		of medium size.
191
192neigh/default/unres_qlen - INTEGER
193	The maximum number of packets which may be queued for each
194	unresolved address by other network layers.
195
196	(deprecated in linux 3.3) : use unres_qlen_bytes instead.
197
198	Prior to linux 3.3, the default value is 3 which may cause
199	unexpected packet loss. The current default value is calculated
200	according to default value of unres_qlen_bytes and true size of
201	packet.
202
203	Default: 101
204
205neigh/default/interval_probe_time_ms - INTEGER
206	The probe interval for neighbor entries with NTF_MANAGED flag,
207	the min value is 1.
208
209	Default: 5000
210
211mtu_expires - INTEGER
212	Time, in seconds, that cached PMTU information is kept.
213
214min_adv_mss - INTEGER
215	The advertised MSS depends on the first hop route MTU, but will
216	never be lower than this setting.
217
218fib_notify_on_flag_change - INTEGER
219        Whether to emit RTM_NEWROUTE notifications whenever RTM_F_OFFLOAD/
220        RTM_F_TRAP/RTM_F_OFFLOAD_FAILED flags are changed.
221
222        After installing a route to the kernel, user space receives an
223        acknowledgment, which means the route was installed in the kernel,
224        but not necessarily in hardware.
225        It is also possible for a route already installed in hardware to change
226        its action and therefore its flags. For example, a host route that is
227        trapping packets can be "promoted" to perform decapsulation following
228        the installation of an IPinIP/VXLAN tunnel.
229        The notifications will indicate to user-space the state of the route.
230
231        Default: 0 (Do not emit notifications.)
232
233        Possible values:
234
235        - 0 - Do not emit notifications.
236        - 1 - Emit notifications.
237        - 2 - Emit notifications only for RTM_F_OFFLOAD_FAILED flag change.
238
239IP Fragmentation:
240
241ipfrag_high_thresh - LONG INTEGER
242	Maximum memory used to reassemble IP fragments.
243
244ipfrag_low_thresh - LONG INTEGER
245	(Obsolete since linux-4.17)
246	Maximum memory used to reassemble IP fragments before the kernel
247	begins to remove incomplete fragment queues to free up resources.
248	The kernel still accepts new fragments for defragmentation.
249
250ipfrag_time - INTEGER
251	Time in seconds to keep an IP fragment in memory.
252
253ipfrag_max_dist - INTEGER
254	ipfrag_max_dist is a non-negative integer value which defines the
255	maximum "disorder" which is allowed among fragments which share a
256	common IP source address. Note that reordering of packets is
257	not unusual, but if a large number of fragments arrive from a source
258	IP address while a particular fragment queue remains incomplete, it
259	probably indicates that one or more fragments belonging to that queue
260	have been lost. When ipfrag_max_dist is positive, an additional check
261	is done on fragments before they are added to a reassembly queue - if
262	ipfrag_max_dist (or more) fragments have arrived from a particular IP
263	address between additions to any IP fragment queue using that source
264	address, it's presumed that one or more fragments in the queue are
265	lost. The existing fragment queue will be dropped, and a new one
266	started. An ipfrag_max_dist value of zero disables this check.
267
268	Using a very small value, e.g. 1 or 2, for ipfrag_max_dist can
269	result in unnecessarily dropping fragment queues when normal
270	reordering of packets occurs, which could lead to poor application
271	performance. Using a very large value, e.g. 50000, increases the
272	likelihood of incorrectly reassembling IP fragments that originate
273	from different IP datagrams, which could result in data corruption.
274	Default: 64
275
276bc_forwarding - INTEGER
277	bc_forwarding enables the feature described in rfc1812#section-5.3.5.2
278	and rfc2644. It allows the router to forward directed broadcast.
279	To enable this feature, the 'all' entry and the input interface entry
280	should be set to 1.
281	Default: 0
282
283INET peer storage
284=================
285
286inet_peer_threshold - INTEGER
287	The approximate size of the storage.  Starting from this threshold
288	entries will be thrown aggressively.  This threshold also determines
289	entries' time-to-live and time intervals between garbage collection
290	passes.  More entries, less time-to-live, less GC interval.
291
292inet_peer_minttl - INTEGER
293	Minimum time-to-live of entries.  Should be enough to cover fragment
294	time-to-live on the reassembling side.  This minimum time-to-live  is
295	guaranteed if the pool size is less than inet_peer_threshold.
296	Measured in seconds.
297
298inet_peer_maxttl - INTEGER
299	Maximum time-to-live of entries.  Unused entries will expire after
300	this period of time if there is no memory pressure on the pool (i.e.
301	when the number of entries in the pool is very small).
302	Measured in seconds.
303
304TCP variables
305=============
306
307somaxconn - INTEGER
308	Limit of socket listen() backlog, known in userspace as SOMAXCONN.
309	Defaults to 4096. (Was 128 before linux-5.4)
310	See also tcp_max_syn_backlog for additional tuning for TCP sockets.
311
312tcp_abort_on_overflow - BOOLEAN
313	If listening service is too slow to accept new connections,
314	reset them. Default state is FALSE. It means that if overflow
315	occurred due to a burst, connection will recover. Enable this
316	option _only_ if you are really sure that listening daemon
317	cannot be tuned to accept connections faster. Enabling this
318	option can harm clients of your server.
319
320tcp_adv_win_scale - INTEGER
321	Count buffering overhead as bytes/2^tcp_adv_win_scale
322	(if tcp_adv_win_scale > 0) or bytes-bytes/2^(-tcp_adv_win_scale),
323	if it is <= 0.
324
325	Possible values are [-31, 31], inclusive.
326
327	Default: 1
328
329tcp_allowed_congestion_control - STRING
330	Show/set the congestion control choices available to non-privileged
331	processes. The list is a subset of those listed in
332	tcp_available_congestion_control.
333
334	Default is "reno" and the default setting (tcp_congestion_control).
335
336tcp_app_win - INTEGER
337	Reserve max(window/2^tcp_app_win, mss) of window for application
338	buffer. Value 0 is special, it means that nothing is reserved.
339
340	Default: 31
341
342tcp_autocorking - BOOLEAN
343	Enable TCP auto corking :
344	When applications do consecutive small write()/sendmsg() system calls,
345	we try to coalesce these small writes as much as possible, to lower
346	total amount of sent packets. This is done if at least one prior
347	packet for the flow is waiting in Qdisc queues or device transmit
348	queue. Applications can still use TCP_CORK for optimal behavior
349	when they know how/when to uncork their sockets.
350
351	Default : 1
352
353tcp_available_congestion_control - STRING
354	Shows the available congestion control choices that are registered.
355	More congestion control algorithms may be available as modules,
356	but not loaded.
357
358tcp_base_mss - INTEGER
359	The initial value of search_low to be used by the packetization layer
360	Path MTU discovery (MTU probing).  If MTU probing is enabled,
361	this is the initial MSS used by the connection.
362
363tcp_mtu_probe_floor - INTEGER
364	If MTU probing is enabled this caps the minimum MSS used for search_low
365	for the connection.
366
367	Default : 48
368
369tcp_min_snd_mss - INTEGER
370	TCP SYN and SYNACK messages usually advertise an ADVMSS option,
371	as described in RFC 1122 and RFC 6691.
372
373	If this ADVMSS option is smaller than tcp_min_snd_mss,
374	it is silently capped to tcp_min_snd_mss.
375
376	Default : 48 (at least 8 bytes of payload per segment)
377
378tcp_congestion_control - STRING
379	Set the congestion control algorithm to be used for new
380	connections. The algorithm "reno" is always available, but
381	additional choices may be available based on kernel configuration.
382	Default is set as part of kernel configuration.
383	For passive connections, the listener congestion control choice
384	is inherited.
385
386	[see setsockopt(listenfd, SOL_TCP, TCP_CONGESTION, "name" ...) ]
387
388tcp_dsack - BOOLEAN
389	Allows TCP to send "duplicate" SACKs.
390
391tcp_early_retrans - INTEGER
392	Tail loss probe (TLP) converts RTOs occurring due to tail
393	losses into fast recovery (draft-ietf-tcpm-rack). Note that
394	TLP requires RACK to function properly (see tcp_recovery below)
395
396	Possible values:
397
398		- 0 disables TLP
399		- 3 or 4 enables TLP
400
401	Default: 3
402
403tcp_ecn - INTEGER
404	Control use of Explicit Congestion Notification (ECN) by TCP.
405	ECN is used only when both ends of the TCP connection indicate
406	support for it.  This feature is useful in avoiding losses due
407	to congestion by allowing supporting routers to signal
408	congestion before having to drop packets.
409
410	Possible values are:
411
412		=  =====================================================
413		0  Disable ECN.  Neither initiate nor accept ECN.
414		1  Enable ECN when requested by incoming connections and
415		   also request ECN on outgoing connection attempts.
416		2  Enable ECN when requested by incoming connections
417		   but do not request ECN on outgoing connections.
418		=  =====================================================
419
420	Default: 2
421
422tcp_ecn_fallback - BOOLEAN
423	If the kernel detects that ECN connection misbehaves, enable fall
424	back to non-ECN. Currently, this knob implements the fallback
425	from RFC3168, section 6.1.1.1., but we reserve that in future,
426	additional detection mechanisms could be implemented under this
427	knob. The value	is not used, if tcp_ecn or per route (or congestion
428	control) ECN settings are disabled.
429
430	Default: 1 (fallback enabled)
431
432tcp_fack - BOOLEAN
433	This is a legacy option, it has no effect anymore.
434
435tcp_fin_timeout - INTEGER
436	The length of time an orphaned (no longer referenced by any
437	application) connection will remain in the FIN_WAIT_2 state
438	before it is aborted at the local end.  While a perfectly
439	valid "receive only" state for an un-orphaned connection, an
440	orphaned connection in FIN_WAIT_2 state could otherwise wait
441	forever for the remote to close its end of the connection.
442
443	Cf. tcp_max_orphans
444
445	Default: 60 seconds
446
447tcp_frto - INTEGER
448	Enables Forward RTO-Recovery (F-RTO) defined in RFC5682.
449	F-RTO is an enhanced recovery algorithm for TCP retransmission
450	timeouts.  It is particularly beneficial in networks where the
451	RTT fluctuates (e.g., wireless). F-RTO is sender-side only
452	modification. It does not require any support from the peer.
453
454	By default it's enabled with a non-zero value. 0 disables F-RTO.
455
456tcp_fwmark_accept - BOOLEAN
457	If set, incoming connections to listening sockets that do not have a
458	socket mark will set the mark of the accepting socket to the fwmark of
459	the incoming SYN packet. This will cause all packets on that connection
460	(starting from the first SYNACK) to be sent with that fwmark. The
461	listening socket's mark is unchanged. Listening sockets that already
462	have a fwmark set via setsockopt(SOL_SOCKET, SO_MARK, ...) are
463	unaffected.
464
465	Default: 0
466
467tcp_invalid_ratelimit - INTEGER
468	Limit the maximal rate for sending duplicate acknowledgments
469	in response to incoming TCP packets that are for an existing
470	connection but that are invalid due to any of these reasons:
471
472	  (a) out-of-window sequence number,
473	  (b) out-of-window acknowledgment number, or
474	  (c) PAWS (Protection Against Wrapped Sequence numbers) check failure
475
476	This can help mitigate simple "ack loop" DoS attacks, wherein
477	a buggy or malicious middlebox or man-in-the-middle can
478	rewrite TCP header fields in manner that causes each endpoint
479	to think that the other is sending invalid TCP segments, thus
480	causing each side to send an unterminating stream of duplicate
481	acknowledgments for invalid segments.
482
483	Using 0 disables rate-limiting of dupacks in response to
484	invalid segments; otherwise this value specifies the minimal
485	space between sending such dupacks, in milliseconds.
486
487	Default: 500 (milliseconds).
488
489tcp_keepalive_time - INTEGER
490	How often TCP sends out keepalive messages when keepalive is enabled.
491	Default: 2hours.
492
493tcp_keepalive_probes - INTEGER
494	How many keepalive probes TCP sends out, until it decides that the
495	connection is broken. Default value: 9.
496
497tcp_keepalive_intvl - INTEGER
498	How frequently the probes are send out. Multiplied by
499	tcp_keepalive_probes it is time to kill not responding connection,
500	after probes started. Default value: 75sec i.e. connection
501	will be aborted after ~11 minutes of retries.
502
503tcp_l3mdev_accept - BOOLEAN
504	Enables child sockets to inherit the L3 master device index.
505	Enabling this option allows a "global" listen socket to work
506	across L3 master domains (e.g., VRFs) with connected sockets
507	derived from the listen socket to be bound to the L3 domain in
508	which the packets originated. Only valid when the kernel was
509	compiled with CONFIG_NET_L3_MASTER_DEV.
510
511	Default: 0 (disabled)
512
513tcp_low_latency - BOOLEAN
514	This is a legacy option, it has no effect anymore.
515
516tcp_max_orphans - INTEGER
517	Maximal number of TCP sockets not attached to any user file handle,
518	held by system.	If this number is exceeded orphaned connections are
519	reset immediately and warning is printed. This limit exists
520	only to prevent simple DoS attacks, you _must_ not rely on this
521	or lower the limit artificially, but rather increase it
522	(probably, after increasing installed memory),
523	if network conditions require more than default value,
524	and tune network services to linger and kill such states
525	more aggressively. Let me to remind again: each orphan eats
526	up to ~64K of unswappable memory.
527
528tcp_max_syn_backlog - INTEGER
529	Maximal number of remembered connection requests (SYN_RECV),
530	which have not received an acknowledgment from connecting client.
531
532	This is a per-listener limit.
533
534	The minimal value is 128 for low memory machines, and it will
535	increase in proportion to the memory of machine.
536
537	If server suffers from overload, try increasing this number.
538
539	Remember to also check /proc/sys/net/core/somaxconn
540	A SYN_RECV request socket consumes about 304 bytes of memory.
541
542tcp_max_tw_buckets - INTEGER
543	Maximal number of timewait sockets held by system simultaneously.
544	If this number is exceeded time-wait socket is immediately destroyed
545	and warning is printed. This limit exists only to prevent
546	simple DoS attacks, you _must_ not lower the limit artificially,
547	but rather increase it (probably, after increasing installed memory),
548	if network conditions require more than default value.
549
550tcp_mem - vector of 3 INTEGERs: min, pressure, max
551	min: below this number of pages TCP is not bothered about its
552	memory appetite.
553
554	pressure: when amount of memory allocated by TCP exceeds this number
555	of pages, TCP moderates its memory consumption and enters memory
556	pressure mode, which is exited when memory consumption falls
557	under "min".
558
559	max: number of pages allowed for queueing by all TCP sockets.
560
561	Defaults are calculated at boot time from amount of available
562	memory.
563
564tcp_min_rtt_wlen - INTEGER
565	The window length of the windowed min filter to track the minimum RTT.
566	A shorter window lets a flow more quickly pick up new (higher)
567	minimum RTT when it is moved to a longer path (e.g., due to traffic
568	engineering). A longer window makes the filter more resistant to RTT
569	inflations such as transient congestion. The unit is seconds.
570
571	Possible values: 0 - 86400 (1 day)
572
573	Default: 300
574
575tcp_moderate_rcvbuf - BOOLEAN
576	If set, TCP performs receive buffer auto-tuning, attempting to
577	automatically size the buffer (no greater than tcp_rmem[2]) to
578	match the size required by the path for full throughput.  Enabled by
579	default.
580
581tcp_mtu_probing - INTEGER
582	Controls TCP Packetization-Layer Path MTU Discovery.  Takes three
583	values:
584
585	- 0 - Disabled
586	- 1 - Disabled by default, enabled when an ICMP black hole detected
587	- 2 - Always enabled, use initial MSS of tcp_base_mss.
588
589tcp_probe_interval - UNSIGNED INTEGER
590	Controls how often to start TCP Packetization-Layer Path MTU
591	Discovery reprobe. The default is reprobing every 10 minutes as
592	per RFC4821.
593
594tcp_probe_threshold - INTEGER
595	Controls when TCP Packetization-Layer Path MTU Discovery probing
596	will stop in respect to the width of search range in bytes. Default
597	is 8 bytes.
598
599tcp_no_metrics_save - BOOLEAN
600	By default, TCP saves various connection metrics in the route cache
601	when the connection closes, so that connections established in the
602	near future can use these to set initial conditions.  Usually, this
603	increases overall performance, but may sometimes cause performance
604	degradation.  If set, TCP will not cache metrics on closing
605	connections.
606
607tcp_no_ssthresh_metrics_save - BOOLEAN
608	Controls whether TCP saves ssthresh metrics in the route cache.
609
610	Default is 1, which disables ssthresh metrics.
611
612tcp_orphan_retries - INTEGER
613	This value influences the timeout of a locally closed TCP connection,
614	when RTO retransmissions remain unacknowledged.
615	See tcp_retries2 for more details.
616
617	The default value is 8.
618
619	If your machine is a loaded WEB server,
620	you should think about lowering this value, such sockets
621	may consume significant resources. Cf. tcp_max_orphans.
622
623tcp_recovery - INTEGER
624	This value is a bitmap to enable various experimental loss recovery
625	features.
626
627	=========   =============================================================
628	RACK: 0x1   enables the RACK loss detection for fast detection of lost
629		    retransmissions and tail drops. It also subsumes and disables
630		    RFC6675 recovery for SACK connections.
631
632	RACK: 0x2   makes RACK's reordering window static (min_rtt/4).
633
634	RACK: 0x4   disables RACK's DUPACK threshold heuristic
635	=========   =============================================================
636
637	Default: 0x1
638
639tcp_reflect_tos - BOOLEAN
640	For listening sockets, reuse the DSCP value of the initial SYN message
641	for outgoing packets. This allows to have both directions of a TCP
642	stream to use the same DSCP value, assuming DSCP remains unchanged for
643	the lifetime of the connection.
644
645	This options affects both IPv4 and IPv6.
646
647	Default: 0 (disabled)
648
649tcp_reordering - INTEGER
650	Initial reordering level of packets in a TCP stream.
651	TCP stack can then dynamically adjust flow reordering level
652	between this initial value and tcp_max_reordering
653
654	Default: 3
655
656tcp_max_reordering - INTEGER
657	Maximal reordering level of packets in a TCP stream.
658	300 is a fairly conservative value, but you might increase it
659	if paths are using per packet load balancing (like bonding rr mode)
660
661	Default: 300
662
663tcp_retrans_collapse - BOOLEAN
664	Bug-to-bug compatibility with some broken printers.
665	On retransmit try to send bigger packets to work around bugs in
666	certain TCP stacks.
667
668tcp_retries1 - INTEGER
669	This value influences the time, after which TCP decides, that
670	something is wrong due to unacknowledged RTO retransmissions,
671	and reports this suspicion to the network layer.
672	See tcp_retries2 for more details.
673
674	RFC 1122 recommends at least 3 retransmissions, which is the
675	default.
676
677tcp_retries2 - INTEGER
678	This value influences the timeout of an alive TCP connection,
679	when RTO retransmissions remain unacknowledged.
680	Given a value of N, a hypothetical TCP connection following
681	exponential backoff with an initial RTO of TCP_RTO_MIN would
682	retransmit N times before killing the connection at the (N+1)th RTO.
683
684	The default value of 15 yields a hypothetical timeout of 924.6
685	seconds and is a lower bound for the effective timeout.
686	TCP will effectively time out at the first RTO which exceeds the
687	hypothetical timeout.
688
689	RFC 1122 recommends at least 100 seconds for the timeout,
690	which corresponds to a value of at least 8.
691
692tcp_rfc1337 - BOOLEAN
693	If set, the TCP stack behaves conforming to RFC1337. If unset,
694	we are not conforming to RFC, but prevent TCP TIME_WAIT
695	assassination.
696
697	Default: 0
698
699tcp_rmem - vector of 3 INTEGERs: min, default, max
700	min: Minimal size of receive buffer used by TCP sockets.
701	It is guaranteed to each TCP socket, even under moderate memory
702	pressure.
703
704	Default: 4K
705
706	default: initial size of receive buffer used by TCP sockets.
707	This value overrides net.core.rmem_default used by other protocols.
708	Default: 131072 bytes.
709	This value results in initial window of 65535.
710
711	max: maximal size of receive buffer allowed for automatically
712	selected receiver buffers for TCP socket. This value does not override
713	net.core.rmem_max.  Calling setsockopt() with SO_RCVBUF disables
714	automatic tuning of that socket's receive buffer size, in which
715	case this value is ignored.
716	Default: between 131072 and 6MB, depending on RAM size.
717
718tcp_sack - BOOLEAN
719	Enable select acknowledgments (SACKS).
720
721tcp_comp_sack_delay_ns - LONG INTEGER
722	TCP tries to reduce number of SACK sent, using a timer
723	based on 5% of SRTT, capped by this sysctl, in nano seconds.
724	The default is 1ms, based on TSO autosizing period.
725
726	Default : 1,000,000 ns (1 ms)
727
728tcp_comp_sack_slack_ns - LONG INTEGER
729	This sysctl control the slack used when arming the
730	timer used by SACK compression. This gives extra time
731	for small RTT flows, and reduces system overhead by allowing
732	opportunistic reduction of timer interrupts.
733
734	Default : 100,000 ns (100 us)
735
736tcp_comp_sack_nr - INTEGER
737	Max number of SACK that can be compressed.
738	Using 0 disables SACK compression.
739
740	Default : 44
741
742tcp_slow_start_after_idle - BOOLEAN
743	If set, provide RFC2861 behavior and time out the congestion
744	window after an idle period.  An idle period is defined at
745	the current RTO.  If unset, the congestion window will not
746	be timed out after an idle period.
747
748	Default: 1
749
750tcp_stdurg - BOOLEAN
751	Use the Host requirements interpretation of the TCP urgent pointer field.
752	Most hosts use the older BSD interpretation, so if you turn this on
753	Linux might not communicate correctly with them.
754
755	Default: FALSE
756
757tcp_synack_retries - INTEGER
758	Number of times SYNACKs for a passive TCP connection attempt will
759	be retransmitted. Should not be higher than 255. Default value
760	is 5, which corresponds to 31seconds till the last retransmission
761	with the current initial RTO of 1second. With this the final timeout
762	for a passive TCP connection will happen after 63seconds.
763
764tcp_syncookies - INTEGER
765	Only valid when the kernel was compiled with CONFIG_SYN_COOKIES
766	Send out syncookies when the syn backlog queue of a socket
767	overflows. This is to prevent against the common 'SYN flood attack'
768	Default: 1
769
770	Note, that syncookies is fallback facility.
771	It MUST NOT be used to help highly loaded servers to stand
772	against legal connection rate. If you see SYN flood warnings
773	in your logs, but investigation	shows that they occur
774	because of overload with legal connections, you should tune
775	another parameters until this warning disappear.
776	See: tcp_max_syn_backlog, tcp_synack_retries, tcp_abort_on_overflow.
777
778	syncookies seriously violate TCP protocol, do not allow
779	to use TCP extensions, can result in serious degradation
780	of some services (f.e. SMTP relaying), visible not by you,
781	but your clients and relays, contacting you. While you see
782	SYN flood warnings in logs not being really flooded, your server
783	is seriously misconfigured.
784
785	If you want to test which effects syncookies have to your
786	network connections you can set this knob to 2 to enable
787	unconditionally generation of syncookies.
788
789tcp_migrate_req - BOOLEAN
790	The incoming connection is tied to a specific listening socket when
791	the initial SYN packet is received during the three-way handshake.
792	When a listener is closed, in-flight request sockets during the
793	handshake and established sockets in the accept queue are aborted.
794
795	If the listener has SO_REUSEPORT enabled, other listeners on the
796	same port should have been able to accept such connections. This
797	option makes it possible to migrate such child sockets to another
798	listener after close() or shutdown().
799
800	The BPF_SK_REUSEPORT_SELECT_OR_MIGRATE type of eBPF program should
801	usually be used to define the policy to pick an alive listener.
802	Otherwise, the kernel will randomly pick an alive listener only if
803	this option is enabled.
804
805	Note that migration between listeners with different settings may
806	crash applications. Let's say migration happens from listener A to
807	B, and only B has TCP_SAVE_SYN enabled. B cannot read SYN data from
808	the requests migrated from A. To avoid such a situation, cancel
809	migration by returning SK_DROP in the type of eBPF program, or
810	disable this option.
811
812	Default: 0
813
814tcp_fastopen - INTEGER
815	Enable TCP Fast Open (RFC7413) to send and accept data in the opening
816	SYN packet.
817
818	The client support is enabled by flag 0x1 (on by default). The client
819	then must use sendmsg() or sendto() with the MSG_FASTOPEN flag,
820	rather than connect() to send data in SYN.
821
822	The server support is enabled by flag 0x2 (off by default). Then
823	either enable for all listeners with another flag (0x400) or
824	enable individual listeners via TCP_FASTOPEN socket option with
825	the option value being the length of the syn-data backlog.
826
827	The values (bitmap) are
828
829	=====  ======== ======================================================
830	  0x1  (client) enables sending data in the opening SYN on the client.
831	  0x2  (server) enables the server support, i.e., allowing data in
832			a SYN packet to be accepted and passed to the
833			application before 3-way handshake finishes.
834	  0x4  (client) send data in the opening SYN regardless of cookie
835			availability and without a cookie option.
836	0x200  (server) accept data-in-SYN w/o any cookie option present.
837	0x400  (server) enable all listeners to support Fast Open by
838			default without explicit TCP_FASTOPEN socket option.
839	=====  ======== ======================================================
840
841	Default: 0x1
842
843	Note that additional client or server features are only
844	effective if the basic support (0x1 and 0x2) are enabled respectively.
845
846tcp_fastopen_blackhole_timeout_sec - INTEGER
847	Initial time period in second to disable Fastopen on active TCP sockets
848	when a TFO firewall blackhole issue happens.
849	This time period will grow exponentially when more blackhole issues
850	get detected right after Fastopen is re-enabled and will reset to
851	initial value when the blackhole issue goes away.
852	0 to disable the blackhole detection.
853
854	By default, it is set to 0 (feature is disabled).
855
856tcp_fastopen_key - list of comma separated 32-digit hexadecimal INTEGERs
857	The list consists of a primary key and an optional backup key. The
858	primary key is used for both creating and validating cookies, while the
859	optional backup key is only used for validating cookies. The purpose of
860	the backup key is to maximize TFO validation when keys are rotated.
861
862	A randomly chosen primary key may be configured by the kernel if
863	the tcp_fastopen sysctl is set to 0x400 (see above), or if the
864	TCP_FASTOPEN setsockopt() optname is set and a key has not been
865	previously configured via sysctl. If keys are configured via
866	setsockopt() by using the TCP_FASTOPEN_KEY optname, then those
867	per-socket keys will be used instead of any keys that are specified via
868	sysctl.
869
870	A key is specified as 4 8-digit hexadecimal integers which are separated
871	by a '-' as: xxxxxxxx-xxxxxxxx-xxxxxxxx-xxxxxxxx. Leading zeros may be
872	omitted. A primary and a backup key may be specified by separating them
873	by a comma. If only one key is specified, it becomes the primary key and
874	any previously configured backup keys are removed.
875
876tcp_syn_retries - INTEGER
877	Number of times initial SYNs for an active TCP connection attempt
878	will be retransmitted. Should not be higher than 127. Default value
879	is 6, which corresponds to 63seconds till the last retransmission
880	with the current initial RTO of 1second. With this the final timeout
881	for an active TCP connection attempt will happen after 127seconds.
882
883tcp_timestamps - INTEGER
884	Enable timestamps as defined in RFC1323.
885
886	- 0: Disabled.
887	- 1: Enable timestamps as defined in RFC1323 and use random offset for
888	  each connection rather than only using the current time.
889	- 2: Like 1, but without random offsets.
890
891	Default: 1
892
893tcp_min_tso_segs - INTEGER
894	Minimal number of segments per TSO frame.
895
896	Since linux-3.12, TCP does an automatic sizing of TSO frames,
897	depending on flow rate, instead of filling 64Kbytes packets.
898	For specific usages, it's possible to force TCP to build big
899	TSO frames. Note that TCP stack might split too big TSO packets
900	if available window is too small.
901
902	Default: 2
903
904tcp_tso_rtt_log - INTEGER
905	Adjustment of TSO packet sizes based on min_rtt
906
907	Starting from linux-5.18, TCP autosizing can be tweaked
908	for flows having small RTT.
909
910	Old autosizing was splitting the pacing budget to send 1024 TSO
911	per second.
912
913	tso_packet_size = sk->sk_pacing_rate / 1024;
914
915	With the new mechanism, we increase this TSO sizing using:
916
917	distance = min_rtt_usec / (2^tcp_tso_rtt_log)
918	tso_packet_size += gso_max_size >> distance;
919
920	This means that flows between very close hosts can use bigger
921	TSO packets, reducing their cpu costs.
922
923	If you want to use the old autosizing, set this sysctl to 0.
924
925	Default: 9  (2^9 = 512 usec)
926
927tcp_pacing_ss_ratio - INTEGER
928	sk->sk_pacing_rate is set by TCP stack using a ratio applied
929	to current rate. (current_rate = cwnd * mss / srtt)
930	If TCP is in slow start, tcp_pacing_ss_ratio is applied
931	to let TCP probe for bigger speeds, assuming cwnd can be
932	doubled every other RTT.
933
934	Default: 200
935
936tcp_pacing_ca_ratio - INTEGER
937	sk->sk_pacing_rate is set by TCP stack using a ratio applied
938	to current rate. (current_rate = cwnd * mss / srtt)
939	If TCP is in congestion avoidance phase, tcp_pacing_ca_ratio
940	is applied to conservatively probe for bigger throughput.
941
942	Default: 120
943
944tcp_tso_win_divisor - INTEGER
945	This allows control over what percentage of the congestion window
946	can be consumed by a single TSO frame.
947	The setting of this parameter is a choice between burstiness and
948	building larger TSO frames.
949
950	Default: 3
951
952tcp_tw_reuse - INTEGER
953	Enable reuse of TIME-WAIT sockets for new connections when it is
954	safe from protocol viewpoint.
955
956	- 0 - disable
957	- 1 - global enable
958	- 2 - enable for loopback traffic only
959
960	It should not be changed without advice/request of technical
961	experts.
962
963	Default: 2
964
965tcp_window_scaling - BOOLEAN
966	Enable window scaling as defined in RFC1323.
967
968tcp_wmem - vector of 3 INTEGERs: min, default, max
969	min: Amount of memory reserved for send buffers for TCP sockets.
970	Each TCP socket has rights to use it due to fact of its birth.
971
972	Default: 4K
973
974	default: initial size of send buffer used by TCP sockets.  This
975	value overrides net.core.wmem_default used by other protocols.
976
977	It is usually lower than net.core.wmem_default.
978
979	Default: 16K
980
981	max: Maximal amount of memory allowed for automatically tuned
982	send buffers for TCP sockets. This value does not override
983	net.core.wmem_max.  Calling setsockopt() with SO_SNDBUF disables
984	automatic tuning of that socket's send buffer size, in which case
985	this value is ignored.
986
987	Default: between 64K and 4MB, depending on RAM size.
988
989tcp_notsent_lowat - UNSIGNED INTEGER
990	A TCP socket can control the amount of unsent bytes in its write queue,
991	thanks to TCP_NOTSENT_LOWAT socket option. poll()/select()/epoll()
992	reports POLLOUT events if the amount of unsent bytes is below a per
993	socket value, and if the write queue is not full. sendmsg() will
994	also not add new buffers if the limit is hit.
995
996	This global variable controls the amount of unsent data for
997	sockets not using TCP_NOTSENT_LOWAT. For these sockets, a change
998	to the global variable has immediate effect.
999
1000	Default: UINT_MAX (0xFFFFFFFF)
1001
1002tcp_workaround_signed_windows - BOOLEAN
1003	If set, assume no receipt of a window scaling option means the
1004	remote TCP is broken and treats the window as a signed quantity.
1005	If unset, assume the remote TCP is not broken even if we do
1006	not receive a window scaling option from them.
1007
1008	Default: 0
1009
1010tcp_thin_linear_timeouts - BOOLEAN
1011	Enable dynamic triggering of linear timeouts for thin streams.
1012	If set, a check is performed upon retransmission by timeout to
1013	determine if the stream is thin (less than 4 packets in flight).
1014	As long as the stream is found to be thin, up to 6 linear
1015	timeouts may be performed before exponential backoff mode is
1016	initiated. This improves retransmission latency for
1017	non-aggressive thin streams, often found to be time-dependent.
1018	For more information on thin streams, see
1019	Documentation/networking/tcp-thin.rst
1020
1021	Default: 0
1022
1023tcp_limit_output_bytes - INTEGER
1024	Controls TCP Small Queue limit per tcp socket.
1025	TCP bulk sender tends to increase packets in flight until it
1026	gets losses notifications. With SNDBUF autotuning, this can
1027	result in a large amount of packets queued on the local machine
1028	(e.g.: qdiscs, CPU backlog, or device) hurting latency of other
1029	flows, for typical pfifo_fast qdiscs.  tcp_limit_output_bytes
1030	limits the number of bytes on qdisc or device to reduce artificial
1031	RTT/cwnd and reduce bufferbloat.
1032
1033	Default: 1048576 (16 * 65536)
1034
1035tcp_challenge_ack_limit - INTEGER
1036	Limits number of Challenge ACK sent per second, as recommended
1037	in RFC 5961 (Improving TCP's Robustness to Blind In-Window Attacks)
1038	Note that this per netns rate limit can allow some side channel
1039	attacks and probably should not be enabled.
1040	TCP stack implements per TCP socket limits anyway.
1041	Default: INT_MAX (unlimited)
1042
1043tcp_ehash_entries - INTEGER
1044	Show the number of hash buckets for TCP sockets in the current
1045	networking namespace.
1046
1047	A negative value means the networking namespace does not own its
1048	hash buckets and shares the initial networking namespace's one.
1049
1050tcp_child_ehash_entries - INTEGER
1051	Control the number of hash buckets for TCP sockets in the child
1052	networking namespace, which must be set before clone() or unshare().
1053
1054	If the value is not 0, the kernel uses a value rounded up to 2^n
1055	as the actual hash bucket size.  0 is a special value, meaning
1056	the child networking namespace will share the initial networking
1057	namespace's hash buckets.
1058
1059	Note that the child will use the global one in case the kernel
1060	fails to allocate enough memory.  In addition, the global hash
1061	buckets are spread over available NUMA nodes, but the allocation
1062	of the child hash table depends on the current process's NUMA
1063	policy, which could result in performance differences.
1064
1065	Note also that the default value of tcp_max_tw_buckets and
1066	tcp_max_syn_backlog depend on the hash bucket size.
1067
1068	Possible values: 0, 2^n (n: 0 - 24 (16Mi))
1069
1070	Default: 0
1071
1072tcp_plb_enabled - BOOLEAN
1073	If set and the underlying congestion control (e.g. DCTCP) supports
1074	and enables PLB feature, TCP PLB (Protective Load Balancing) is
1075	enabled. PLB is described in the following paper:
1076	https://doi.org/10.1145/3544216.3544226. Based on PLB parameters,
1077	upon sensing sustained congestion, TCP triggers a change in
1078	flow label field for outgoing IPv6 packets. A change in flow label
1079	field potentially changes the path of outgoing packets for switches
1080	that use ECMP/WCMP for routing.
1081
1082	PLB changes socket txhash which results in a change in IPv6 Flow Label
1083	field, and currently no-op for IPv4 headers. It is possible
1084	to apply PLB for IPv4 with other network header fields (e.g. TCP
1085	or IPv4 options) or using encapsulation where outer header is used
1086	by switches to determine next hop. In either case, further host
1087	and switch side changes will be needed.
1088
1089	When set, PLB assumes that congestion signal (e.g. ECN) is made
1090	available and used by congestion control module to estimate a
1091	congestion measure (e.g. ce_ratio). PLB needs a congestion measure to
1092	make repathing decisions.
1093
1094	Default: FALSE
1095
1096tcp_plb_idle_rehash_rounds - INTEGER
1097	Number of consecutive congested rounds (RTT) seen after which
1098	a rehash can be performed, given there are no packets in flight.
1099	This is referred to as M in PLB paper:
1100	https://doi.org/10.1145/3544216.3544226.
1101
1102	Possible Values: 0 - 31
1103
1104	Default: 3
1105
1106tcp_plb_rehash_rounds - INTEGER
1107	Number of consecutive congested rounds (RTT) seen after which
1108	a forced rehash can be performed. Be careful when setting this
1109	parameter, as a small value increases the risk of retransmissions.
1110	This is referred to as N in PLB paper:
1111	https://doi.org/10.1145/3544216.3544226.
1112
1113	Possible Values: 0 - 31
1114
1115	Default: 12
1116
1117tcp_plb_suspend_rto_sec - INTEGER
1118	Time, in seconds, to suspend PLB in event of an RTO. In order to avoid
1119	having PLB repath onto a connectivity "black hole", after an RTO a TCP
1120	connection suspends PLB repathing for a random duration between 1x and
1121	2x of this parameter. Randomness is added to avoid concurrent rehashing
1122	of multiple TCP connections. This should be set corresponding to the
1123	amount of time it takes to repair a failed link.
1124
1125	Possible Values: 0 - 255
1126
1127	Default: 60
1128
1129tcp_plb_cong_thresh - INTEGER
1130	Fraction of packets marked with congestion over a round (RTT) to
1131	tag that round as congested. This is referred to as K in the PLB paper:
1132	https://doi.org/10.1145/3544216.3544226.
1133
1134	The 0-1 fraction range is mapped to 0-256 range to avoid floating
1135	point operations. For example, 128 means that if at least 50% of
1136	the packets in a round were marked as congested then the round
1137	will be tagged as congested.
1138
1139	Setting threshold to 0 means that PLB repaths every RTT regardless
1140	of congestion. This is not intended behavior for PLB and should be
1141	used only for experimentation purpose.
1142
1143	Possible Values: 0 - 256
1144
1145	Default: 128
1146
1147UDP variables
1148=============
1149
1150udp_l3mdev_accept - BOOLEAN
1151	Enabling this option allows a "global" bound socket to work
1152	across L3 master domains (e.g., VRFs) with packets capable of
1153	being received regardless of the L3 domain in which they
1154	originated. Only valid when the kernel was compiled with
1155	CONFIG_NET_L3_MASTER_DEV.
1156
1157	Default: 0 (disabled)
1158
1159udp_mem - vector of 3 INTEGERs: min, pressure, max
1160	Number of pages allowed for queueing by all UDP sockets.
1161
1162	min: Number of pages allowed for queueing by all UDP sockets.
1163
1164	pressure: This value was introduced to follow format of tcp_mem.
1165
1166	max: This value was introduced to follow format of tcp_mem.
1167
1168	Default is calculated at boot time from amount of available memory.
1169
1170udp_rmem_min - INTEGER
1171	Minimal size of receive buffer used by UDP sockets in moderation.
1172	Each UDP socket is able to use the size for receiving data, even if
1173	total pages of UDP sockets exceed udp_mem pressure. The unit is byte.
1174
1175	Default: 4K
1176
1177udp_wmem_min - INTEGER
1178	UDP does not have tx memory accounting and this tunable has no effect.
1179
1180udp_hash_entries - INTEGER
1181	Show the number of hash buckets for UDP sockets in the current
1182	networking namespace.
1183
1184	A negative value means the networking namespace does not own its
1185	hash buckets and shares the initial networking namespace's one.
1186
1187udp_child_ehash_entries - INTEGER
1188	Control the number of hash buckets for UDP sockets in the child
1189	networking namespace, which must be set before clone() or unshare().
1190
1191	If the value is not 0, the kernel uses a value rounded up to 2^n
1192	as the actual hash bucket size.  0 is a special value, meaning
1193	the child networking namespace will share the initial networking
1194	namespace's hash buckets.
1195
1196	Note that the child will use the global one in case the kernel
1197	fails to allocate enough memory.  In addition, the global hash
1198	buckets are spread over available NUMA nodes, but the allocation
1199	of the child hash table depends on the current process's NUMA
1200	policy, which could result in performance differences.
1201
1202	Possible values: 0, 2^n (n: 7 (128) - 16 (64K))
1203
1204	Default: 0
1205
1206
1207RAW variables
1208=============
1209
1210raw_l3mdev_accept - BOOLEAN
1211	Enabling this option allows a "global" bound socket to work
1212	across L3 master domains (e.g., VRFs) with packets capable of
1213	being received regardless of the L3 domain in which they
1214	originated. Only valid when the kernel was compiled with
1215	CONFIG_NET_L3_MASTER_DEV.
1216
1217	Default: 1 (enabled)
1218
1219CIPSOv4 Variables
1220=================
1221
1222cipso_cache_enable - BOOLEAN
1223	If set, enable additions to and lookups from the CIPSO label mapping
1224	cache.  If unset, additions are ignored and lookups always result in a
1225	miss.  However, regardless of the setting the cache is still
1226	invalidated when required when means you can safely toggle this on and
1227	off and the cache will always be "safe".
1228
1229	Default: 1
1230
1231cipso_cache_bucket_size - INTEGER
1232	The CIPSO label cache consists of a fixed size hash table with each
1233	hash bucket containing a number of cache entries.  This variable limits
1234	the number of entries in each hash bucket; the larger the value is, the
1235	more CIPSO label mappings that can be cached.  When the number of
1236	entries in a given hash bucket reaches this limit adding new entries
1237	causes the oldest entry in the bucket to be removed to make room.
1238
1239	Default: 10
1240
1241cipso_rbm_optfmt - BOOLEAN
1242	Enable the "Optimized Tag 1 Format" as defined in section 3.4.2.6 of
1243	the CIPSO draft specification (see Documentation/netlabel for details).
1244	This means that when set the CIPSO tag will be padded with empty
1245	categories in order to make the packet data 32-bit aligned.
1246
1247	Default: 0
1248
1249cipso_rbm_structvalid - BOOLEAN
1250	If set, do a very strict check of the CIPSO option when
1251	ip_options_compile() is called.  If unset, relax the checks done during
1252	ip_options_compile().  Either way is "safe" as errors are caught else
1253	where in the CIPSO processing code but setting this to 0 (False) should
1254	result in less work (i.e. it should be faster) but could cause problems
1255	with other implementations that require strict checking.
1256
1257	Default: 0
1258
1259IP Variables
1260============
1261
1262ip_local_port_range - 2 INTEGERS
1263	Defines the local port range that is used by TCP and UDP to
1264	choose the local port. The first number is the first, the
1265	second the last local port number.
1266	If possible, it is better these numbers have different parity
1267	(one even and one odd value).
1268	Must be greater than or equal to ip_unprivileged_port_start.
1269	The default values are 32768 and 60999 respectively.
1270
1271ip_local_reserved_ports - list of comma separated ranges
1272	Specify the ports which are reserved for known third-party
1273	applications. These ports will not be used by automatic port
1274	assignments (e.g. when calling connect() or bind() with port
1275	number 0). Explicit port allocation behavior is unchanged.
1276
1277	The format used for both input and output is a comma separated
1278	list of ranges (e.g. "1,2-4,10-10" for ports 1, 2, 3, 4 and
1279	10). Writing to the file will clear all previously reserved
1280	ports and update the current list with the one given in the
1281	input.
1282
1283	Note that ip_local_port_range and ip_local_reserved_ports
1284	settings are independent and both are considered by the kernel
1285	when determining which ports are available for automatic port
1286	assignments.
1287
1288	You can reserve ports which are not in the current
1289	ip_local_port_range, e.g.::
1290
1291	    $ cat /proc/sys/net/ipv4/ip_local_port_range
1292	    32000	60999
1293	    $ cat /proc/sys/net/ipv4/ip_local_reserved_ports
1294	    8080,9148
1295
1296	although this is redundant. However such a setting is useful
1297	if later the port range is changed to a value that will
1298	include the reserved ports. Also keep in mind, that overlapping
1299	of these ranges may affect probability of selecting ephemeral
1300	ports which are right after block of reserved ports.
1301
1302	Default: Empty
1303
1304ip_unprivileged_port_start - INTEGER
1305	This is a per-namespace sysctl.  It defines the first
1306	unprivileged port in the network namespace.  Privileged ports
1307	require root or CAP_NET_BIND_SERVICE in order to bind to them.
1308	To disable all privileged ports, set this to 0.  They must not
1309	overlap with the ip_local_port_range.
1310
1311	Default: 1024
1312
1313ip_nonlocal_bind - BOOLEAN
1314	If set, allows processes to bind() to non-local IP addresses,
1315	which can be quite useful - but may break some applications.
1316
1317	Default: 0
1318
1319ip_autobind_reuse - BOOLEAN
1320	By default, bind() does not select the ports automatically even if
1321	the new socket and all sockets bound to the port have SO_REUSEADDR.
1322	ip_autobind_reuse allows bind() to reuse the port and this is useful
1323	when you use bind()+connect(), but may break some applications.
1324	The preferred solution is to use IP_BIND_ADDRESS_NO_PORT and this
1325	option should only be set by experts.
1326	Default: 0
1327
1328ip_dynaddr - INTEGER
1329	If set non-zero, enables support for dynamic addresses.
1330	If set to a non-zero value larger than 1, a kernel log
1331	message will be printed when dynamic address rewriting
1332	occurs.
1333
1334	Default: 0
1335
1336ip_early_demux - BOOLEAN
1337	Optimize input packet processing down to one demux for
1338	certain kinds of local sockets.  Currently we only do this
1339	for established TCP and connected UDP sockets.
1340
1341	It may add an additional cost for pure routing workloads that
1342	reduces overall throughput, in such case you should disable it.
1343
1344	Default: 1
1345
1346ping_group_range - 2 INTEGERS
1347	Restrict ICMP_PROTO datagram sockets to users in the group range.
1348	The default is "1 0", meaning, that nobody (not even root) may
1349	create ping sockets.  Setting it to "100 100" would grant permissions
1350	to the single group. "0 4294967295" would enable it for the world, "100
1351	4294967295" would enable it for the users, but not daemons.
1352
1353tcp_early_demux - BOOLEAN
1354	Enable early demux for established TCP sockets.
1355
1356	Default: 1
1357
1358udp_early_demux - BOOLEAN
1359	Enable early demux for connected UDP sockets. Disable this if
1360	your system could experience more unconnected load.
1361
1362	Default: 1
1363
1364icmp_echo_ignore_all - BOOLEAN
1365	If set non-zero, then the kernel will ignore all ICMP ECHO
1366	requests sent to it.
1367
1368	Default: 0
1369
1370icmp_echo_enable_probe - BOOLEAN
1371        If set to one, then the kernel will respond to RFC 8335 PROBE
1372        requests sent to it.
1373
1374        Default: 0
1375
1376icmp_echo_ignore_broadcasts - BOOLEAN
1377	If set non-zero, then the kernel will ignore all ICMP ECHO and
1378	TIMESTAMP requests sent to it via broadcast/multicast.
1379
1380	Default: 1
1381
1382icmp_ratelimit - INTEGER
1383	Limit the maximal rates for sending ICMP packets whose type matches
1384	icmp_ratemask (see below) to specific targets.
1385	0 to disable any limiting,
1386	otherwise the minimal space between responses in milliseconds.
1387	Note that another sysctl, icmp_msgs_per_sec limits the number
1388	of ICMP packets	sent on all targets.
1389
1390	Default: 1000
1391
1392icmp_msgs_per_sec - INTEGER
1393	Limit maximal number of ICMP packets sent per second from this host.
1394	Only messages whose type matches icmp_ratemask (see below) are
1395	controlled by this limit. For security reasons, the precise count
1396	of messages per second is randomized.
1397
1398	Default: 1000
1399
1400icmp_msgs_burst - INTEGER
1401	icmp_msgs_per_sec controls number of ICMP packets sent per second,
1402	while icmp_msgs_burst controls the burst size of these packets.
1403	For security reasons, the precise burst size is randomized.
1404
1405	Default: 50
1406
1407icmp_ratemask - INTEGER
1408	Mask made of ICMP types for which rates are being limited.
1409
1410	Significant bits: IHGFEDCBA9876543210
1411
1412	Default mask:     0000001100000011000 (6168)
1413
1414	Bit definitions (see include/linux/icmp.h):
1415
1416		= =========================
1417		0 Echo Reply
1418		3 Destination Unreachable [1]_
1419		4 Source Quench [1]_
1420		5 Redirect
1421		8 Echo Request
1422		B Time Exceeded [1]_
1423		C Parameter Problem [1]_
1424		D Timestamp Request
1425		E Timestamp Reply
1426		F Info Request
1427		G Info Reply
1428		H Address Mask Request
1429		I Address Mask Reply
1430		= =========================
1431
1432	.. [1] These are rate limited by default (see default mask above)
1433
1434icmp_ignore_bogus_error_responses - BOOLEAN
1435	Some routers violate RFC1122 by sending bogus responses to broadcast
1436	frames.  Such violations are normally logged via a kernel warning.
1437	If this is set to TRUE, the kernel will not give such warnings, which
1438	will avoid log file clutter.
1439
1440	Default: 1
1441
1442icmp_errors_use_inbound_ifaddr - BOOLEAN
1443
1444	If zero, icmp error messages are sent with the primary address of
1445	the exiting interface.
1446
1447	If non-zero, the message will be sent with the primary address of
1448	the interface that received the packet that caused the icmp error.
1449	This is the behaviour many network administrators will expect from
1450	a router. And it can make debugging complicated network layouts
1451	much easier.
1452
1453	Note that if no primary address exists for the interface selected,
1454	then the primary address of the first non-loopback interface that
1455	has one will be used regardless of this setting.
1456
1457	Default: 0
1458
1459igmp_max_memberships - INTEGER
1460	Change the maximum number of multicast groups we can subscribe to.
1461	Default: 20
1462
1463	Theoretical maximum value is bounded by having to send a membership
1464	report in a single datagram (i.e. the report can't span multiple
1465	datagrams, or risk confusing the switch and leaving groups you don't
1466	intend to).
1467
1468	The number of supported groups 'M' is bounded by the number of group
1469	report entries you can fit into a single datagram of 65535 bytes.
1470
1471	M = 65536-sizeof (ip header)/(sizeof(Group record))
1472
1473	Group records are variable length, with a minimum of 12 bytes.
1474	So net.ipv4.igmp_max_memberships should not be set higher than:
1475
1476	(65536-24) / 12 = 5459
1477
1478	The value 5459 assumes no IP header options, so in practice
1479	this number may be lower.
1480
1481igmp_max_msf - INTEGER
1482	Maximum number of addresses allowed in the source filter list for a
1483	multicast group.
1484
1485	Default: 10
1486
1487igmp_qrv - INTEGER
1488	Controls the IGMP query robustness variable (see RFC2236 8.1).
1489
1490	Default: 2 (as specified by RFC2236 8.1)
1491
1492	Minimum: 1 (as specified by RFC6636 4.5)
1493
1494force_igmp_version - INTEGER
1495	- 0 - (default) No enforcement of a IGMP version, IGMPv1/v2 fallback
1496	  allowed. Will back to IGMPv3 mode again if all IGMPv1/v2 Querier
1497	  Present timer expires.
1498	- 1 - Enforce to use IGMP version 1. Will also reply IGMPv1 report if
1499	  receive IGMPv2/v3 query.
1500	- 2 - Enforce to use IGMP version 2. Will fallback to IGMPv1 if receive
1501	  IGMPv1 query message. Will reply report if receive IGMPv3 query.
1502	- 3 - Enforce to use IGMP version 3. The same react with default 0.
1503
1504	.. note::
1505
1506	   this is not the same with force_mld_version because IGMPv3 RFC3376
1507	   Security Considerations does not have clear description that we could
1508	   ignore other version messages completely as MLDv2 RFC3810. So make
1509	   this value as default 0 is recommended.
1510
1511``conf/interface/*``
1512	changes special settings per interface (where
1513	interface" is the name of your network interface)
1514
1515``conf/all/*``
1516	  is special, changes the settings for all interfaces
1517
1518log_martians - BOOLEAN
1519	Log packets with impossible addresses to kernel log.
1520	log_martians for the interface will be enabled if at least one of
1521	conf/{all,interface}/log_martians is set to TRUE,
1522	it will be disabled otherwise
1523
1524accept_redirects - BOOLEAN
1525	Accept ICMP redirect messages.
1526	accept_redirects for the interface will be enabled if:
1527
1528	- both conf/{all,interface}/accept_redirects are TRUE in the case
1529	  forwarding for the interface is enabled
1530
1531	or
1532
1533	- at least one of conf/{all,interface}/accept_redirects is TRUE in the
1534	  case forwarding for the interface is disabled
1535
1536	accept_redirects for the interface will be disabled otherwise
1537
1538	default:
1539
1540		- TRUE (host)
1541		- FALSE (router)
1542
1543forwarding - BOOLEAN
1544	Enable IP forwarding on this interface.  This controls whether packets
1545	received _on_ this interface can be forwarded.
1546
1547mc_forwarding - BOOLEAN
1548	Do multicast routing. The kernel needs to be compiled with CONFIG_MROUTE
1549	and a multicast routing daemon is required.
1550	conf/all/mc_forwarding must also be set to TRUE to enable multicast
1551	routing	for the interface
1552
1553medium_id - INTEGER
1554	Integer value used to differentiate the devices by the medium they
1555	are attached to. Two devices can have different id values when
1556	the broadcast packets are received only on one of them.
1557	The default value 0 means that the device is the only interface
1558	to its medium, value of -1 means that medium is not known.
1559
1560	Currently, it is used to change the proxy_arp behavior:
1561	the proxy_arp feature is enabled for packets forwarded between
1562	two devices attached to different media.
1563
1564proxy_arp - BOOLEAN
1565	Do proxy arp.
1566
1567	proxy_arp for the interface will be enabled if at least one of
1568	conf/{all,interface}/proxy_arp is set to TRUE,
1569	it will be disabled otherwise
1570
1571proxy_arp_pvlan - BOOLEAN
1572	Private VLAN proxy arp.
1573
1574	Basically allow proxy arp replies back to the same interface
1575	(from which the ARP request/solicitation was received).
1576
1577	This is done to support (ethernet) switch features, like RFC
1578	3069, where the individual ports are NOT allowed to
1579	communicate with each other, but they are allowed to talk to
1580	the upstream router.  As described in RFC 3069, it is possible
1581	to allow these hosts to communicate through the upstream
1582	router by proxy_arp'ing. Don't need to be used together with
1583	proxy_arp.
1584
1585	This technology is known by different names:
1586
1587	  In RFC 3069 it is called VLAN Aggregation.
1588	  Cisco and Allied Telesyn call it Private VLAN.
1589	  Hewlett-Packard call it Source-Port filtering or port-isolation.
1590	  Ericsson call it MAC-Forced Forwarding (RFC Draft).
1591
1592shared_media - BOOLEAN
1593	Send(router) or accept(host) RFC1620 shared media redirects.
1594	Overrides secure_redirects.
1595
1596	shared_media for the interface will be enabled if at least one of
1597	conf/{all,interface}/shared_media is set to TRUE,
1598	it will be disabled otherwise
1599
1600	default TRUE
1601
1602secure_redirects - BOOLEAN
1603	Accept ICMP redirect messages only to gateways listed in the
1604	interface's current gateway list. Even if disabled, RFC1122 redirect
1605	rules still apply.
1606
1607	Overridden by shared_media.
1608
1609	secure_redirects for the interface will be enabled if at least one of
1610	conf/{all,interface}/secure_redirects is set to TRUE,
1611	it will be disabled otherwise
1612
1613	default TRUE
1614
1615send_redirects - BOOLEAN
1616	Send redirects, if router.
1617
1618	send_redirects for the interface will be enabled if at least one of
1619	conf/{all,interface}/send_redirects is set to TRUE,
1620	it will be disabled otherwise
1621
1622	Default: TRUE
1623
1624bootp_relay - BOOLEAN
1625	Accept packets with source address 0.b.c.d destined
1626	not to this host as local ones. It is supposed, that
1627	BOOTP relay daemon will catch and forward such packets.
1628	conf/all/bootp_relay must also be set to TRUE to enable BOOTP relay
1629	for the interface
1630
1631	default FALSE
1632
1633	Not Implemented Yet.
1634
1635accept_source_route - BOOLEAN
1636	Accept packets with SRR option.
1637	conf/all/accept_source_route must also be set to TRUE to accept packets
1638	with SRR option on the interface
1639
1640	default
1641
1642		- TRUE (router)
1643		- FALSE (host)
1644
1645accept_local - BOOLEAN
1646	Accept packets with local source addresses. In combination with
1647	suitable routing, this can be used to direct packets between two
1648	local interfaces over the wire and have them accepted properly.
1649	default FALSE
1650
1651route_localnet - BOOLEAN
1652	Do not consider loopback addresses as martian source or destination
1653	while routing. This enables the use of 127/8 for local routing purposes.
1654
1655	default FALSE
1656
1657rp_filter - INTEGER
1658	- 0 - No source validation.
1659	- 1 - Strict mode as defined in RFC3704 Strict Reverse Path
1660	  Each incoming packet is tested against the FIB and if the interface
1661	  is not the best reverse path the packet check will fail.
1662	  By default failed packets are discarded.
1663	- 2 - Loose mode as defined in RFC3704 Loose Reverse Path
1664	  Each incoming packet's source address is also tested against the FIB
1665	  and if the source address is not reachable via any interface
1666	  the packet check will fail.
1667
1668	Current recommended practice in RFC3704 is to enable strict mode
1669	to prevent IP spoofing from DDos attacks. If using asymmetric routing
1670	or other complicated routing, then loose mode is recommended.
1671
1672	The max value from conf/{all,interface}/rp_filter is used
1673	when doing source validation on the {interface}.
1674
1675	Default value is 0. Note that some distributions enable it
1676	in startup scripts.
1677
1678src_valid_mark - BOOLEAN
1679	- 0 - The fwmark of the packet is not included in reverse path
1680	  route lookup.  This allows for asymmetric routing configurations
1681	  utilizing the fwmark in only one direction, e.g., transparent
1682	  proxying.
1683
1684	- 1 - The fwmark of the packet is included in reverse path route
1685	  lookup.  This permits rp_filter to function when the fwmark is
1686	  used for routing traffic in both directions.
1687
1688	This setting also affects the utilization of fmwark when
1689	performing source address selection for ICMP replies, or
1690	determining addresses stored for the IPOPT_TS_TSANDADDR and
1691	IPOPT_RR IP options.
1692
1693	The max value from conf/{all,interface}/src_valid_mark is used.
1694
1695	Default value is 0.
1696
1697arp_filter - BOOLEAN
1698	- 1 - Allows you to have multiple network interfaces on the same
1699	  subnet, and have the ARPs for each interface be answered
1700	  based on whether or not the kernel would route a packet from
1701	  the ARP'd IP out that interface (therefore you must use source
1702	  based routing for this to work). In other words it allows control
1703	  of which cards (usually 1) will respond to an arp request.
1704
1705	- 0 - (default) The kernel can respond to arp requests with addresses
1706	  from other interfaces. This may seem wrong but it usually makes
1707	  sense, because it increases the chance of successful communication.
1708	  IP addresses are owned by the complete host on Linux, not by
1709	  particular interfaces. Only for more complex setups like load-
1710	  balancing, does this behaviour cause problems.
1711
1712	arp_filter for the interface will be enabled if at least one of
1713	conf/{all,interface}/arp_filter is set to TRUE,
1714	it will be disabled otherwise
1715
1716arp_announce - INTEGER
1717	Define different restriction levels for announcing the local
1718	source IP address from IP packets in ARP requests sent on
1719	interface:
1720
1721	- 0 - (default) Use any local address, configured on any interface
1722	- 1 - Try to avoid local addresses that are not in the target's
1723	  subnet for this interface. This mode is useful when target
1724	  hosts reachable via this interface require the source IP
1725	  address in ARP requests to be part of their logical network
1726	  configured on the receiving interface. When we generate the
1727	  request we will check all our subnets that include the
1728	  target IP and will preserve the source address if it is from
1729	  such subnet. If there is no such subnet we select source
1730	  address according to the rules for level 2.
1731	- 2 - Always use the best local address for this target.
1732	  In this mode we ignore the source address in the IP packet
1733	  and try to select local address that we prefer for talks with
1734	  the target host. Such local address is selected by looking
1735	  for primary IP addresses on all our subnets on the outgoing
1736	  interface that include the target IP address. If no suitable
1737	  local address is found we select the first local address
1738	  we have on the outgoing interface or on all other interfaces,
1739	  with the hope we will receive reply for our request and
1740	  even sometimes no matter the source IP address we announce.
1741
1742	The max value from conf/{all,interface}/arp_announce is used.
1743
1744	Increasing the restriction level gives more chance for
1745	receiving answer from the resolved target while decreasing
1746	the level announces more valid sender's information.
1747
1748arp_ignore - INTEGER
1749	Define different modes for sending replies in response to
1750	received ARP requests that resolve local target IP addresses:
1751
1752	- 0 - (default): reply for any local target IP address, configured
1753	  on any interface
1754	- 1 - reply only if the target IP address is local address
1755	  configured on the incoming interface
1756	- 2 - reply only if the target IP address is local address
1757	  configured on the incoming interface and both with the
1758	  sender's IP address are part from same subnet on this interface
1759	- 3 - do not reply for local addresses configured with scope host,
1760	  only resolutions for global and link addresses are replied
1761	- 4-7 - reserved
1762	- 8 - do not reply for all local addresses
1763
1764	The max value from conf/{all,interface}/arp_ignore is used
1765	when ARP request is received on the {interface}
1766
1767arp_notify - BOOLEAN
1768	Define mode for notification of address and device changes.
1769
1770	 ==  ==========================================================
1771	  0  (default): do nothing
1772	  1  Generate gratuitous arp requests when device is brought up
1773	     or hardware address changes.
1774	 ==  ==========================================================
1775
1776arp_accept - INTEGER
1777	Define behavior for accepting gratuitous ARP (garp) frames from devices
1778	that are not already present in the ARP table:
1779
1780	- 0 - don't create new entries in the ARP table
1781	- 1 - create new entries in the ARP table
1782	- 2 - create new entries only if the source IP address is in the same
1783	  subnet as an address configured on the interface that received the
1784	  garp message.
1785
1786	Both replies and requests type gratuitous arp will trigger the
1787	ARP table to be updated, if this setting is on.
1788
1789	If the ARP table already contains the IP address of the
1790	gratuitous arp frame, the arp table will be updated regardless
1791	if this setting is on or off.
1792
1793arp_evict_nocarrier - BOOLEAN
1794	Clears the ARP cache on NOCARRIER events. This option is important for
1795	wireless devices where the ARP cache should not be cleared when roaming
1796	between access points on the same network. In most cases this should
1797	remain as the default (1).
1798
1799	- 1 - (default): Clear the ARP cache on NOCARRIER events
1800	- 0 - Do not clear ARP cache on NOCARRIER events
1801
1802mcast_solicit - INTEGER
1803	The maximum number of multicast probes in INCOMPLETE state,
1804	when the associated hardware address is unknown.  Defaults
1805	to 3.
1806
1807ucast_solicit - INTEGER
1808	The maximum number of unicast probes in PROBE state, when
1809	the hardware address is being reconfirmed.  Defaults to 3.
1810
1811app_solicit - INTEGER
1812	The maximum number of probes to send to the user space ARP daemon
1813	via netlink before dropping back to multicast probes (see
1814	mcast_resolicit).  Defaults to 0.
1815
1816mcast_resolicit - INTEGER
1817	The maximum number of multicast probes after unicast and
1818	app probes in PROBE state.  Defaults to 0.
1819
1820disable_policy - BOOLEAN
1821	Disable IPSEC policy (SPD) for this interface
1822
1823disable_xfrm - BOOLEAN
1824	Disable IPSEC encryption on this interface, whatever the policy
1825
1826igmpv2_unsolicited_report_interval - INTEGER
1827	The interval in milliseconds in which the next unsolicited
1828	IGMPv1 or IGMPv2 report retransmit will take place.
1829
1830	Default: 10000 (10 seconds)
1831
1832igmpv3_unsolicited_report_interval - INTEGER
1833	The interval in milliseconds in which the next unsolicited
1834	IGMPv3 report retransmit will take place.
1835
1836	Default: 1000 (1 seconds)
1837
1838ignore_routes_with_linkdown - BOOLEAN
1839        Ignore routes whose link is down when performing a FIB lookup.
1840
1841promote_secondaries - BOOLEAN
1842	When a primary IP address is removed from this interface
1843	promote a corresponding secondary IP address instead of
1844	removing all the corresponding secondary IP addresses.
1845
1846drop_unicast_in_l2_multicast - BOOLEAN
1847	Drop any unicast IP packets that are received in link-layer
1848	multicast (or broadcast) frames.
1849
1850	This behavior (for multicast) is actually a SHOULD in RFC
1851	1122, but is disabled by default for compatibility reasons.
1852
1853	Default: off (0)
1854
1855drop_gratuitous_arp - BOOLEAN
1856	Drop all gratuitous ARP frames, for example if there's a known
1857	good ARP proxy on the network and such frames need not be used
1858	(or in the case of 802.11, must not be used to prevent attacks.)
1859
1860	Default: off (0)
1861
1862
1863tag - INTEGER
1864	Allows you to write a number, which can be used as required.
1865
1866	Default value is 0.
1867
1868xfrm4_gc_thresh - INTEGER
1869	(Obsolete since linux-4.14)
1870	The threshold at which we will start garbage collecting for IPv4
1871	destination cache entries.  At twice this value the system will
1872	refuse new allocations.
1873
1874igmp_link_local_mcast_reports - BOOLEAN
1875	Enable IGMP reports for link local multicast groups in the
1876	224.0.0.X range.
1877
1878	Default TRUE
1879
1880Alexey Kuznetsov.
1881kuznet@ms2.inr.ac.ru
1882
1883Updated by:
1884
1885- Andi Kleen
1886  ak@muc.de
1887- Nicolas Delon
1888  delon.nicolas@wanadoo.fr
1889
1890
1891
1892
1893/proc/sys/net/ipv6/* Variables
1894==============================
1895
1896IPv6 has no global variables such as tcp_*.  tcp_* settings under ipv4/ also
1897apply to IPv6 [XXX?].
1898
1899bindv6only - BOOLEAN
1900	Default value for IPV6_V6ONLY socket option,
1901	which restricts use of the IPv6 socket to IPv6 communication
1902	only.
1903
1904		- TRUE: disable IPv4-mapped address feature
1905		- FALSE: enable IPv4-mapped address feature
1906
1907	Default: FALSE (as specified in RFC3493)
1908
1909flowlabel_consistency - BOOLEAN
1910	Protect the consistency (and unicity) of flow label.
1911	You have to disable it to use IPV6_FL_F_REFLECT flag on the
1912	flow label manager.
1913
1914	- TRUE: enabled
1915	- FALSE: disabled
1916
1917	Default: TRUE
1918
1919auto_flowlabels - INTEGER
1920	Automatically generate flow labels based on a flow hash of the
1921	packet. This allows intermediate devices, such as routers, to
1922	identify packet flows for mechanisms like Equal Cost Multipath
1923	Routing (see RFC 6438).
1924
1925	=  ===========================================================
1926	0  automatic flow labels are completely disabled
1927	1  automatic flow labels are enabled by default, they can be
1928	   disabled on a per socket basis using the IPV6_AUTOFLOWLABEL
1929	   socket option
1930	2  automatic flow labels are allowed, they may be enabled on a
1931	   per socket basis using the IPV6_AUTOFLOWLABEL socket option
1932	3  automatic flow labels are enabled and enforced, they cannot
1933	   be disabled by the socket option
1934	=  ===========================================================
1935
1936	Default: 1
1937
1938flowlabel_state_ranges - BOOLEAN
1939	Split the flow label number space into two ranges. 0-0x7FFFF is
1940	reserved for the IPv6 flow manager facility, 0x80000-0xFFFFF
1941	is reserved for stateless flow labels as described in RFC6437.
1942
1943	- TRUE: enabled
1944	- FALSE: disabled
1945
1946	Default: true
1947
1948flowlabel_reflect - INTEGER
1949	Control flow label reflection. Needed for Path MTU
1950	Discovery to work with Equal Cost Multipath Routing in anycast
1951	environments. See RFC 7690 and:
1952	https://tools.ietf.org/html/draft-wang-6man-flow-label-reflection-01
1953
1954	This is a bitmask.
1955
1956	- 1: enabled for established flows
1957
1958	  Note that this prevents automatic flowlabel changes, as done
1959	  in "tcp: change IPv6 flow-label upon receiving spurious retransmission"
1960	  and "tcp: Change txhash on every SYN and RTO retransmit"
1961
1962	- 2: enabled for TCP RESET packets (no active listener)
1963	  If set, a RST packet sent in response to a SYN packet on a closed
1964	  port will reflect the incoming flow label.
1965
1966	- 4: enabled for ICMPv6 echo reply messages.
1967
1968	Default: 0
1969
1970fib_multipath_hash_policy - INTEGER
1971	Controls which hash policy to use for multipath routes.
1972
1973	Default: 0 (Layer 3)
1974
1975	Possible values:
1976
1977	- 0 - Layer 3 (source and destination addresses plus flow label)
1978	- 1 - Layer 4 (standard 5-tuple)
1979	- 2 - Layer 3 or inner Layer 3 if present
1980	- 3 - Custom multipath hash. Fields used for multipath hash calculation
1981	  are determined by fib_multipath_hash_fields sysctl
1982
1983fib_multipath_hash_fields - UNSIGNED INTEGER
1984	When fib_multipath_hash_policy is set to 3 (custom multipath hash), the
1985	fields used for multipath hash calculation are determined by this
1986	sysctl.
1987
1988	This value is a bitmask which enables various fields for multipath hash
1989	calculation.
1990
1991	Possible fields are:
1992
1993	====== ============================
1994	0x0001 Source IP address
1995	0x0002 Destination IP address
1996	0x0004 IP protocol
1997	0x0008 Flow Label
1998	0x0010 Source port
1999	0x0020 Destination port
2000	0x0040 Inner source IP address
2001	0x0080 Inner destination IP address
2002	0x0100 Inner IP protocol
2003	0x0200 Inner Flow Label
2004	0x0400 Inner source port
2005	0x0800 Inner destination port
2006	====== ============================
2007
2008	Default: 0x0007 (source IP, destination IP and IP protocol)
2009
2010anycast_src_echo_reply - BOOLEAN
2011	Controls the use of anycast addresses as source addresses for ICMPv6
2012	echo reply
2013
2014	- TRUE:  enabled
2015	- FALSE: disabled
2016
2017	Default: FALSE
2018
2019idgen_delay - INTEGER
2020	Controls the delay in seconds after which time to retry
2021	privacy stable address generation if a DAD conflict is
2022	detected.
2023
2024	Default: 1 (as specified in RFC7217)
2025
2026idgen_retries - INTEGER
2027	Controls the number of retries to generate a stable privacy
2028	address if a DAD conflict is detected.
2029
2030	Default: 3 (as specified in RFC7217)
2031
2032mld_qrv - INTEGER
2033	Controls the MLD query robustness variable (see RFC3810 9.1).
2034
2035	Default: 2 (as specified by RFC3810 9.1)
2036
2037	Minimum: 1 (as specified by RFC6636 4.5)
2038
2039max_dst_opts_number - INTEGER
2040	Maximum number of non-padding TLVs allowed in a Destination
2041	options extension header. If this value is less than zero
2042	then unknown options are disallowed and the number of known
2043	TLVs allowed is the absolute value of this number.
2044
2045	Default: 8
2046
2047max_hbh_opts_number - INTEGER
2048	Maximum number of non-padding TLVs allowed in a Hop-by-Hop
2049	options extension header. If this value is less than zero
2050	then unknown options are disallowed and the number of known
2051	TLVs allowed is the absolute value of this number.
2052
2053	Default: 8
2054
2055max_dst_opts_length - INTEGER
2056	Maximum length allowed for a Destination options extension
2057	header.
2058
2059	Default: INT_MAX (unlimited)
2060
2061max_hbh_length - INTEGER
2062	Maximum length allowed for a Hop-by-Hop options extension
2063	header.
2064
2065	Default: INT_MAX (unlimited)
2066
2067skip_notify_on_dev_down - BOOLEAN
2068	Controls whether an RTM_DELROUTE message is generated for routes
2069	removed when a device is taken down or deleted. IPv4 does not
2070	generate this message; IPv6 does by default. Setting this sysctl
2071	to true skips the message, making IPv4 and IPv6 on par in relying
2072	on userspace caches to track link events and evict routes.
2073
2074	Default: false (generate message)
2075
2076nexthop_compat_mode - BOOLEAN
2077	New nexthop API provides a means for managing nexthops independent of
2078	prefixes. Backwards compatibilty with old route format is enabled by
2079	default which means route dumps and notifications contain the new
2080	nexthop attribute but also the full, expanded nexthop definition.
2081	Further, updates or deletes of a nexthop configuration generate route
2082	notifications for each fib entry using the nexthop. Once a system
2083	understands the new API, this sysctl can be disabled to achieve full
2084	performance benefits of the new API by disabling the nexthop expansion
2085	and extraneous notifications.
2086	Default: true (backward compat mode)
2087
2088fib_notify_on_flag_change - INTEGER
2089        Whether to emit RTM_NEWROUTE notifications whenever RTM_F_OFFLOAD/
2090        RTM_F_TRAP/RTM_F_OFFLOAD_FAILED flags are changed.
2091
2092        After installing a route to the kernel, user space receives an
2093        acknowledgment, which means the route was installed in the kernel,
2094        but not necessarily in hardware.
2095        It is also possible for a route already installed in hardware to change
2096        its action and therefore its flags. For example, a host route that is
2097        trapping packets can be "promoted" to perform decapsulation following
2098        the installation of an IPinIP/VXLAN tunnel.
2099        The notifications will indicate to user-space the state of the route.
2100
2101        Default: 0 (Do not emit notifications.)
2102
2103        Possible values:
2104
2105        - 0 - Do not emit notifications.
2106        - 1 - Emit notifications.
2107        - 2 - Emit notifications only for RTM_F_OFFLOAD_FAILED flag change.
2108
2109ioam6_id - INTEGER
2110        Define the IOAM id of this node. Uses only 24 bits out of 32 in total.
2111
2112        Min: 0
2113        Max: 0xFFFFFF
2114
2115        Default: 0xFFFFFF
2116
2117ioam6_id_wide - LONG INTEGER
2118        Define the wide IOAM id of this node. Uses only 56 bits out of 64 in
2119        total. Can be different from ioam6_id.
2120
2121        Min: 0
2122        Max: 0xFFFFFFFFFFFFFF
2123
2124        Default: 0xFFFFFFFFFFFFFF
2125
2126IPv6 Fragmentation:
2127
2128ip6frag_high_thresh - INTEGER
2129	Maximum memory used to reassemble IPv6 fragments. When
2130	ip6frag_high_thresh bytes of memory is allocated for this purpose,
2131	the fragment handler will toss packets until ip6frag_low_thresh
2132	is reached.
2133
2134ip6frag_low_thresh - INTEGER
2135	See ip6frag_high_thresh
2136
2137ip6frag_time - INTEGER
2138	Time in seconds to keep an IPv6 fragment in memory.
2139
2140``conf/default/*``:
2141	Change the interface-specific default settings.
2142
2143	These settings would be used during creating new interfaces.
2144
2145
2146``conf/all/*``:
2147	Change all the interface-specific settings.
2148
2149	[XXX:  Other special features than forwarding?]
2150
2151conf/all/disable_ipv6 - BOOLEAN
2152	Changing this value is same as changing ``conf/default/disable_ipv6``
2153	setting and also all per-interface ``disable_ipv6`` settings to the same
2154	value.
2155
2156	Reading this value does not have any particular meaning. It does not say
2157	whether IPv6 support is enabled or disabled. Returned value can be 1
2158	also in the case when some interface has ``disable_ipv6`` set to 0 and
2159	has configured IPv6 addresses.
2160
2161conf/all/forwarding - BOOLEAN
2162	Enable global IPv6 forwarding between all interfaces.
2163
2164	IPv4 and IPv6 work differently here; e.g. netfilter must be used
2165	to control which interfaces may forward packets and which not.
2166
2167	This also sets all interfaces' Host/Router setting
2168	'forwarding' to the specified value.  See below for details.
2169
2170	This referred to as global forwarding.
2171
2172proxy_ndp - BOOLEAN
2173	Do proxy ndp.
2174
2175fwmark_reflect - BOOLEAN
2176	Controls the fwmark of kernel-generated IPv6 reply packets that are not
2177	associated with a socket for example, TCP RSTs or ICMPv6 echo replies).
2178	If unset, these packets have a fwmark of zero. If set, they have the
2179	fwmark of the packet they are replying to.
2180
2181	Default: 0
2182
2183``conf/interface/*``:
2184	Change special settings per interface.
2185
2186	The functional behaviour for certain settings is different
2187	depending on whether local forwarding is enabled or not.
2188
2189accept_ra - INTEGER
2190	Accept Router Advertisements; autoconfigure using them.
2191
2192	It also determines whether or not to transmit Router
2193	Solicitations. If and only if the functional setting is to
2194	accept Router Advertisements, Router Solicitations will be
2195	transmitted.
2196
2197	Possible values are:
2198
2199		==  ===========================================================
2200		 0  Do not accept Router Advertisements.
2201		 1  Accept Router Advertisements if forwarding is disabled.
2202		 2  Overrule forwarding behaviour. Accept Router Advertisements
2203		    even if forwarding is enabled.
2204		==  ===========================================================
2205
2206	Functional default:
2207
2208		- enabled if local forwarding is disabled.
2209		- disabled if local forwarding is enabled.
2210
2211accept_ra_defrtr - BOOLEAN
2212	Learn default router in Router Advertisement.
2213
2214	Functional default:
2215
2216		- enabled if accept_ra is enabled.
2217		- disabled if accept_ra is disabled.
2218
2219ra_defrtr_metric - UNSIGNED INTEGER
2220	Route metric for default route learned in Router Advertisement. This value
2221	will be assigned as metric for the default route learned via IPv6 Router
2222	Advertisement. Takes affect only if accept_ra_defrtr is enabled.
2223
2224	Possible values:
2225		1 to 0xFFFFFFFF
2226
2227		Default: IP6_RT_PRIO_USER i.e. 1024.
2228
2229accept_ra_from_local - BOOLEAN
2230	Accept RA with source-address that is found on local machine
2231	if the RA is otherwise proper and able to be accepted.
2232
2233	Default is to NOT accept these as it may be an un-intended
2234	network loop.
2235
2236	Functional default:
2237
2238	   - enabled if accept_ra_from_local is enabled
2239	     on a specific interface.
2240	   - disabled if accept_ra_from_local is disabled
2241	     on a specific interface.
2242
2243accept_ra_min_hop_limit - INTEGER
2244	Minimum hop limit Information in Router Advertisement.
2245
2246	Hop limit Information in Router Advertisement less than this
2247	variable shall be ignored.
2248
2249	Default: 1
2250
2251accept_ra_pinfo - BOOLEAN
2252	Learn Prefix Information in Router Advertisement.
2253
2254	Functional default:
2255
2256		- enabled if accept_ra is enabled.
2257		- disabled if accept_ra is disabled.
2258
2259accept_ra_rt_info_min_plen - INTEGER
2260	Minimum prefix length of Route Information in RA.
2261
2262	Route Information w/ prefix smaller than this variable shall
2263	be ignored.
2264
2265	Functional default:
2266
2267		* 0 if accept_ra_rtr_pref is enabled.
2268		* -1 if accept_ra_rtr_pref is disabled.
2269
2270accept_ra_rt_info_max_plen - INTEGER
2271	Maximum prefix length of Route Information in RA.
2272
2273	Route Information w/ prefix larger than this variable shall
2274	be ignored.
2275
2276	Functional default:
2277
2278		* 0 if accept_ra_rtr_pref is enabled.
2279		* -1 if accept_ra_rtr_pref is disabled.
2280
2281accept_ra_rtr_pref - BOOLEAN
2282	Accept Router Preference in RA.
2283
2284	Functional default:
2285
2286		- enabled if accept_ra is enabled.
2287		- disabled if accept_ra is disabled.
2288
2289accept_ra_mtu - BOOLEAN
2290	Apply the MTU value specified in RA option 5 (RFC4861). If
2291	disabled, the MTU specified in the RA will be ignored.
2292
2293	Functional default:
2294
2295		- enabled if accept_ra is enabled.
2296		- disabled if accept_ra is disabled.
2297
2298accept_redirects - BOOLEAN
2299	Accept Redirects.
2300
2301	Functional default:
2302
2303		- enabled if local forwarding is disabled.
2304		- disabled if local forwarding is enabled.
2305
2306accept_source_route - INTEGER
2307	Accept source routing (routing extension header).
2308
2309	- >= 0: Accept only routing header type 2.
2310	- < 0: Do not accept routing header.
2311
2312	Default: 0
2313
2314autoconf - BOOLEAN
2315	Autoconfigure addresses using Prefix Information in Router
2316	Advertisements.
2317
2318	Functional default:
2319
2320		- enabled if accept_ra_pinfo is enabled.
2321		- disabled if accept_ra_pinfo is disabled.
2322
2323dad_transmits - INTEGER
2324	The amount of Duplicate Address Detection probes to send.
2325
2326	Default: 1
2327
2328forwarding - INTEGER
2329	Configure interface-specific Host/Router behaviour.
2330
2331	.. note::
2332
2333	   It is recommended to have the same setting on all
2334	   interfaces; mixed router/host scenarios are rather uncommon.
2335
2336	Possible values are:
2337
2338		- 0 Forwarding disabled
2339		- 1 Forwarding enabled
2340
2341	**FALSE (0)**:
2342
2343	By default, Host behaviour is assumed.  This means:
2344
2345	1. IsRouter flag is not set in Neighbour Advertisements.
2346	2. If accept_ra is TRUE (default), transmit Router
2347	   Solicitations.
2348	3. If accept_ra is TRUE (default), accept Router
2349	   Advertisements (and do autoconfiguration).
2350	4. If accept_redirects is TRUE (default), accept Redirects.
2351
2352	**TRUE (1)**:
2353
2354	If local forwarding is enabled, Router behaviour is assumed.
2355	This means exactly the reverse from the above:
2356
2357	1. IsRouter flag is set in Neighbour Advertisements.
2358	2. Router Solicitations are not sent unless accept_ra is 2.
2359	3. Router Advertisements are ignored unless accept_ra is 2.
2360	4. Redirects are ignored.
2361
2362	Default: 0 (disabled) if global forwarding is disabled (default),
2363	otherwise 1 (enabled).
2364
2365hop_limit - INTEGER
2366	Default Hop Limit to set.
2367
2368	Default: 64
2369
2370mtu - INTEGER
2371	Default Maximum Transfer Unit
2372
2373	Default: 1280 (IPv6 required minimum)
2374
2375ip_nonlocal_bind - BOOLEAN
2376	If set, allows processes to bind() to non-local IPv6 addresses,
2377	which can be quite useful - but may break some applications.
2378
2379	Default: 0
2380
2381router_probe_interval - INTEGER
2382	Minimum interval (in seconds) between Router Probing described
2383	in RFC4191.
2384
2385	Default: 60
2386
2387router_solicitation_delay - INTEGER
2388	Number of seconds to wait after interface is brought up
2389	before sending Router Solicitations.
2390
2391	Default: 1
2392
2393router_solicitation_interval - INTEGER
2394	Number of seconds to wait between Router Solicitations.
2395
2396	Default: 4
2397
2398router_solicitations - INTEGER
2399	Number of Router Solicitations to send until assuming no
2400	routers are present.
2401
2402	Default: 3
2403
2404use_oif_addrs_only - BOOLEAN
2405	When enabled, the candidate source addresses for destinations
2406	routed via this interface are restricted to the set of addresses
2407	configured on this interface (vis. RFC 6724, section 4).
2408
2409	Default: false
2410
2411use_tempaddr - INTEGER
2412	Preference for Privacy Extensions (RFC3041).
2413
2414	  * <= 0 : disable Privacy Extensions
2415	  * == 1 : enable Privacy Extensions, but prefer public
2416	    addresses over temporary addresses.
2417	  * >  1 : enable Privacy Extensions and prefer temporary
2418	    addresses over public addresses.
2419
2420	Default:
2421
2422		* 0 (for most devices)
2423		* -1 (for point-to-point devices and loopback devices)
2424
2425temp_valid_lft - INTEGER
2426	valid lifetime (in seconds) for temporary addresses.
2427
2428	Default: 172800 (2 days)
2429
2430temp_prefered_lft - INTEGER
2431	Preferred lifetime (in seconds) for temporary addresses.
2432
2433	Default: 86400 (1 day)
2434
2435keep_addr_on_down - INTEGER
2436	Keep all IPv6 addresses on an interface down event. If set static
2437	global addresses with no expiration time are not flushed.
2438
2439	*   >0 : enabled
2440	*    0 : system default
2441	*   <0 : disabled
2442
2443	Default: 0 (addresses are removed)
2444
2445max_desync_factor - INTEGER
2446	Maximum value for DESYNC_FACTOR, which is a random value
2447	that ensures that clients don't synchronize with each
2448	other and generate new addresses at exactly the same time.
2449	value is in seconds.
2450
2451	Default: 600
2452
2453regen_max_retry - INTEGER
2454	Number of attempts before give up attempting to generate
2455	valid temporary addresses.
2456
2457	Default: 5
2458
2459max_addresses - INTEGER
2460	Maximum number of autoconfigured addresses per interface.  Setting
2461	to zero disables the limitation.  It is not recommended to set this
2462	value too large (or to zero) because it would be an easy way to
2463	crash the kernel by allowing too many addresses to be created.
2464
2465	Default: 16
2466
2467disable_ipv6 - BOOLEAN
2468	Disable IPv6 operation.  If accept_dad is set to 2, this value
2469	will be dynamically set to TRUE if DAD fails for the link-local
2470	address.
2471
2472	Default: FALSE (enable IPv6 operation)
2473
2474	When this value is changed from 1 to 0 (IPv6 is being enabled),
2475	it will dynamically create a link-local address on the given
2476	interface and start Duplicate Address Detection, if necessary.
2477
2478	When this value is changed from 0 to 1 (IPv6 is being disabled),
2479	it will dynamically delete all addresses and routes on the given
2480	interface. From now on it will not possible to add addresses/routes
2481	to the selected interface.
2482
2483accept_dad - INTEGER
2484	Whether to accept DAD (Duplicate Address Detection).
2485
2486	 == ==============================================================
2487	  0  Disable DAD
2488	  1  Enable DAD (default)
2489	  2  Enable DAD, and disable IPv6 operation if MAC-based duplicate
2490	     link-local address has been found.
2491	 == ==============================================================
2492
2493	DAD operation and mode on a given interface will be selected according
2494	to the maximum value of conf/{all,interface}/accept_dad.
2495
2496force_tllao - BOOLEAN
2497	Enable sending the target link-layer address option even when
2498	responding to a unicast neighbor solicitation.
2499
2500	Default: FALSE
2501
2502	Quoting from RFC 2461, section 4.4, Target link-layer address:
2503
2504	"The option MUST be included for multicast solicitations in order to
2505	avoid infinite Neighbor Solicitation "recursion" when the peer node
2506	does not have a cache entry to return a Neighbor Advertisements
2507	message.  When responding to unicast solicitations, the option can be
2508	omitted since the sender of the solicitation has the correct link-
2509	layer address; otherwise it would not have be able to send the unicast
2510	solicitation in the first place. However, including the link-layer
2511	address in this case adds little overhead and eliminates a potential
2512	race condition where the sender deletes the cached link-layer address
2513	prior to receiving a response to a previous solicitation."
2514
2515ndisc_notify - BOOLEAN
2516	Define mode for notification of address and device changes.
2517
2518	* 0 - (default): do nothing
2519	* 1 - Generate unsolicited neighbour advertisements when device is brought
2520	  up or hardware address changes.
2521
2522ndisc_tclass - INTEGER
2523	The IPv6 Traffic Class to use by default when sending IPv6 Neighbor
2524	Discovery (Router Solicitation, Router Advertisement, Neighbor
2525	Solicitation, Neighbor Advertisement, Redirect) messages.
2526	These 8 bits can be interpreted as 6 high order bits holding the DSCP
2527	value and 2 low order bits representing ECN (which you probably want
2528	to leave cleared).
2529
2530	* 0 - (default)
2531
2532ndisc_evict_nocarrier - BOOLEAN
2533	Clears the neighbor discovery table on NOCARRIER events. This option is
2534	important for wireless devices where the neighbor discovery cache should
2535	not be cleared when roaming between access points on the same network.
2536	In most cases this should remain as the default (1).
2537
2538	- 1 - (default): Clear neighbor discover cache on NOCARRIER events.
2539	- 0 - Do not clear neighbor discovery cache on NOCARRIER events.
2540
2541mldv1_unsolicited_report_interval - INTEGER
2542	The interval in milliseconds in which the next unsolicited
2543	MLDv1 report retransmit will take place.
2544
2545	Default: 10000 (10 seconds)
2546
2547mldv2_unsolicited_report_interval - INTEGER
2548	The interval in milliseconds in which the next unsolicited
2549	MLDv2 report retransmit will take place.
2550
2551	Default: 1000 (1 second)
2552
2553force_mld_version - INTEGER
2554	* 0 - (default) No enforcement of a MLD version, MLDv1 fallback allowed
2555	* 1 - Enforce to use MLD version 1
2556	* 2 - Enforce to use MLD version 2
2557
2558suppress_frag_ndisc - INTEGER
2559	Control RFC 6980 (Security Implications of IPv6 Fragmentation
2560	with IPv6 Neighbor Discovery) behavior:
2561
2562	* 1 - (default) discard fragmented neighbor discovery packets
2563	* 0 - allow fragmented neighbor discovery packets
2564
2565optimistic_dad - BOOLEAN
2566	Whether to perform Optimistic Duplicate Address Detection (RFC 4429).
2567
2568	* 0: disabled (default)
2569	* 1: enabled
2570
2571	Optimistic Duplicate Address Detection for the interface will be enabled
2572	if at least one of conf/{all,interface}/optimistic_dad is set to 1,
2573	it will be disabled otherwise.
2574
2575use_optimistic - BOOLEAN
2576	If enabled, do not classify optimistic addresses as deprecated during
2577	source address selection.  Preferred addresses will still be chosen
2578	before optimistic addresses, subject to other ranking in the source
2579	address selection algorithm.
2580
2581	* 0: disabled (default)
2582	* 1: enabled
2583
2584	This will be enabled if at least one of
2585	conf/{all,interface}/use_optimistic is set to 1, disabled otherwise.
2586
2587stable_secret - IPv6 address
2588	This IPv6 address will be used as a secret to generate IPv6
2589	addresses for link-local addresses and autoconfigured
2590	ones. All addresses generated after setting this secret will
2591	be stable privacy ones by default. This can be changed via the
2592	addrgenmode ip-link. conf/default/stable_secret is used as the
2593	secret for the namespace, the interface specific ones can
2594	overwrite that. Writes to conf/all/stable_secret are refused.
2595
2596	It is recommended to generate this secret during installation
2597	of a system and keep it stable after that.
2598
2599	By default the stable secret is unset.
2600
2601addr_gen_mode - INTEGER
2602	Defines how link-local and autoconf addresses are generated.
2603
2604	=  =================================================================
2605	0  generate address based on EUI64 (default)
2606	1  do no generate a link-local address, use EUI64 for addresses
2607	   generated from autoconf
2608	2  generate stable privacy addresses, using the secret from
2609	   stable_secret (RFC7217)
2610	3  generate stable privacy addresses, using a random secret if unset
2611	=  =================================================================
2612
2613drop_unicast_in_l2_multicast - BOOLEAN
2614	Drop any unicast IPv6 packets that are received in link-layer
2615	multicast (or broadcast) frames.
2616
2617	By default this is turned off.
2618
2619drop_unsolicited_na - BOOLEAN
2620	Drop all unsolicited neighbor advertisements, for example if there's
2621	a known good NA proxy on the network and such frames need not be used
2622	(or in the case of 802.11, must not be used to prevent attacks.)
2623
2624	By default this is turned off.
2625
2626accept_untracked_na - INTEGER
2627	Define behavior for accepting neighbor advertisements from devices that
2628	are absent in the neighbor cache:
2629
2630	- 0 - (default) Do not accept unsolicited and untracked neighbor
2631	  advertisements.
2632
2633	- 1 - Add a new neighbor cache entry in STALE state for routers on
2634	  receiving a neighbor advertisement (either solicited or unsolicited)
2635	  with target link-layer address option specified if no neighbor entry
2636	  is already present for the advertised IPv6 address. Without this knob,
2637	  NAs received for untracked addresses (absent in neighbor cache) are
2638	  silently ignored.
2639
2640	  This is as per router-side behavior documented in RFC9131.
2641
2642	  This has lower precedence than drop_unsolicited_na.
2643
2644	  This will optimize the return path for the initial off-link
2645	  communication that is initiated by a directly connected host, by
2646	  ensuring that the first-hop router which turns on this setting doesn't
2647	  have to buffer the initial return packets to do neighbor-solicitation.
2648	  The prerequisite is that the host is configured to send unsolicited
2649	  neighbor advertisements on interface bringup. This setting should be
2650	  used in conjunction with the ndisc_notify setting on the host to
2651	  satisfy this prerequisite.
2652
2653	- 2 - Extend option (1) to add a new neighbor cache entry only if the
2654	  source IP address is in the same subnet as an address configured on
2655	  the interface that received the neighbor advertisement.
2656
2657enhanced_dad - BOOLEAN
2658	Include a nonce option in the IPv6 neighbor solicitation messages used for
2659	duplicate address detection per RFC7527. A received DAD NS will only signal
2660	a duplicate address if the nonce is different. This avoids any false
2661	detection of duplicates due to loopback of the NS messages that we send.
2662	The nonce option will be sent on an interface unless both of
2663	conf/{all,interface}/enhanced_dad are set to FALSE.
2664
2665	Default: TRUE
2666
2667``icmp/*``:
2668===========
2669
2670ratelimit - INTEGER
2671	Limit the maximal rates for sending ICMPv6 messages.
2672
2673	0 to disable any limiting,
2674	otherwise the minimal space between responses in milliseconds.
2675
2676	Default: 1000
2677
2678ratemask - list of comma separated ranges
2679	For ICMPv6 message types matching the ranges in the ratemask, limit
2680	the sending of the message according to ratelimit parameter.
2681
2682	The format used for both input and output is a comma separated
2683	list of ranges (e.g. "0-127,129" for ICMPv6 message type 0 to 127 and
2684	129). Writing to the file will clear all previous ranges of ICMPv6
2685	message types and update the current list with the input.
2686
2687	Refer to: https://www.iana.org/assignments/icmpv6-parameters/icmpv6-parameters.xhtml
2688	for numerical values of ICMPv6 message types, e.g. echo request is 128
2689	and echo reply is 129.
2690
2691	Default: 0-1,3-127 (rate limit ICMPv6 errors except Packet Too Big)
2692
2693echo_ignore_all - BOOLEAN
2694	If set non-zero, then the kernel will ignore all ICMP ECHO
2695	requests sent to it over the IPv6 protocol.
2696
2697	Default: 0
2698
2699echo_ignore_multicast - BOOLEAN
2700	If set non-zero, then the kernel will ignore all ICMP ECHO
2701	requests sent to it over the IPv6 protocol via multicast.
2702
2703	Default: 0
2704
2705echo_ignore_anycast - BOOLEAN
2706	If set non-zero, then the kernel will ignore all ICMP ECHO
2707	requests sent to it over the IPv6 protocol destined to anycast address.
2708
2709	Default: 0
2710
2711xfrm6_gc_thresh - INTEGER
2712	(Obsolete since linux-4.14)
2713	The threshold at which we will start garbage collecting for IPv6
2714	destination cache entries.  At twice this value the system will
2715	refuse new allocations.
2716
2717
2718IPv6 Update by:
2719Pekka Savola <pekkas@netcore.fi>
2720YOSHIFUJI Hideaki / USAGI Project <yoshfuji@linux-ipv6.org>
2721
2722
2723/proc/sys/net/bridge/* Variables:
2724=================================
2725
2726bridge-nf-call-arptables - BOOLEAN
2727	- 1 : pass bridged ARP traffic to arptables' FORWARD chain.
2728	- 0 : disable this.
2729
2730	Default: 1
2731
2732bridge-nf-call-iptables - BOOLEAN
2733	- 1 : pass bridged IPv4 traffic to iptables' chains.
2734	- 0 : disable this.
2735
2736	Default: 1
2737
2738bridge-nf-call-ip6tables - BOOLEAN
2739	- 1 : pass bridged IPv6 traffic to ip6tables' chains.
2740	- 0 : disable this.
2741
2742	Default: 1
2743
2744bridge-nf-filter-vlan-tagged - BOOLEAN
2745	- 1 : pass bridged vlan-tagged ARP/IP/IPv6 traffic to {arp,ip,ip6}tables.
2746	- 0 : disable this.
2747
2748	Default: 0
2749
2750bridge-nf-filter-pppoe-tagged - BOOLEAN
2751	- 1 : pass bridged pppoe-tagged IP/IPv6 traffic to {ip,ip6}tables.
2752	- 0 : disable this.
2753
2754	Default: 0
2755
2756bridge-nf-pass-vlan-input-dev - BOOLEAN
2757	- 1: if bridge-nf-filter-vlan-tagged is enabled, try to find a vlan
2758	  interface on the bridge and set the netfilter input device to the
2759	  vlan. This allows use of e.g. "iptables -i br0.1" and makes the
2760	  REDIRECT target work with vlan-on-top-of-bridge interfaces.  When no
2761	  matching vlan interface is found, or this switch is off, the input
2762	  device is set to the bridge interface.
2763
2764	- 0: disable bridge netfilter vlan interface lookup.
2765
2766	Default: 0
2767
2768``proc/sys/net/sctp/*`` Variables:
2769==================================
2770
2771addip_enable - BOOLEAN
2772	Enable or disable extension of  Dynamic Address Reconfiguration
2773	(ADD-IP) functionality specified in RFC5061.  This extension provides
2774	the ability to dynamically add and remove new addresses for the SCTP
2775	associations.
2776
2777	1: Enable extension.
2778
2779	0: Disable extension.
2780
2781	Default: 0
2782
2783pf_enable - INTEGER
2784	Enable or disable pf (pf is short for potentially failed) state. A value
2785	of pf_retrans > path_max_retrans also disables pf state. That is, one of
2786	both pf_enable and pf_retrans > path_max_retrans can disable pf state.
2787	Since pf_retrans and path_max_retrans can be changed by userspace
2788	application, sometimes user expects to disable pf state by the value of
2789	pf_retrans > path_max_retrans, but occasionally the value of pf_retrans
2790	or path_max_retrans is changed by the user application, this pf state is
2791	enabled. As such, it is necessary to add this to dynamically enable
2792	and disable pf state. See:
2793	https://datatracker.ietf.org/doc/draft-ietf-tsvwg-sctp-failover for
2794	details.
2795
2796	1: Enable pf.
2797
2798	0: Disable pf.
2799
2800	Default: 1
2801
2802pf_expose - INTEGER
2803	Unset or enable/disable pf (pf is short for potentially failed) state
2804	exposure.  Applications can control the exposure of the PF path state
2805	in the SCTP_PEER_ADDR_CHANGE event and the SCTP_GET_PEER_ADDR_INFO
2806	sockopt.   When it's unset, no SCTP_PEER_ADDR_CHANGE event with
2807	SCTP_ADDR_PF state will be sent and a SCTP_PF-state transport info
2808	can be got via SCTP_GET_PEER_ADDR_INFO sockopt;  When it's enabled,
2809	a SCTP_PEER_ADDR_CHANGE event will be sent for a transport becoming
2810	SCTP_PF state and a SCTP_PF-state transport info can be got via
2811	SCTP_GET_PEER_ADDR_INFO sockopt;  When it's diabled, no
2812	SCTP_PEER_ADDR_CHANGE event will be sent and it returns -EACCES when
2813	trying to get a SCTP_PF-state transport info via SCTP_GET_PEER_ADDR_INFO
2814	sockopt.
2815
2816	0: Unset pf state exposure, Compatible with old applications.
2817
2818	1: Disable pf state exposure.
2819
2820	2: Enable pf state exposure.
2821
2822	Default: 0
2823
2824addip_noauth_enable - BOOLEAN
2825	Dynamic Address Reconfiguration (ADD-IP) requires the use of
2826	authentication to protect the operations of adding or removing new
2827	addresses.  This requirement is mandated so that unauthorized hosts
2828	would not be able to hijack associations.  However, older
2829	implementations may not have implemented this requirement while
2830	allowing the ADD-IP extension.  For reasons of interoperability,
2831	we provide this variable to control the enforcement of the
2832	authentication requirement.
2833
2834	== ===============================================================
2835	1  Allow ADD-IP extension to be used without authentication.  This
2836	   should only be set in a closed environment for interoperability
2837	   with older implementations.
2838
2839	0  Enforce the authentication requirement
2840	== ===============================================================
2841
2842	Default: 0
2843
2844auth_enable - BOOLEAN
2845	Enable or disable Authenticated Chunks extension.  This extension
2846	provides the ability to send and receive authenticated chunks and is
2847	required for secure operation of Dynamic Address Reconfiguration
2848	(ADD-IP) extension.
2849
2850	- 1: Enable this extension.
2851	- 0: Disable this extension.
2852
2853	Default: 0
2854
2855prsctp_enable - BOOLEAN
2856	Enable or disable the Partial Reliability extension (RFC3758) which
2857	is used to notify peers that a given DATA should no longer be expected.
2858
2859	- 1: Enable extension
2860	- 0: Disable
2861
2862	Default: 1
2863
2864max_burst - INTEGER
2865	The limit of the number of new packets that can be initially sent.  It
2866	controls how bursty the generated traffic can be.
2867
2868	Default: 4
2869
2870association_max_retrans - INTEGER
2871	Set the maximum number for retransmissions that an association can
2872	attempt deciding that the remote end is unreachable.  If this value
2873	is exceeded, the association is terminated.
2874
2875	Default: 10
2876
2877max_init_retransmits - INTEGER
2878	The maximum number of retransmissions of INIT and COOKIE-ECHO chunks
2879	that an association will attempt before declaring the destination
2880	unreachable and terminating.
2881
2882	Default: 8
2883
2884path_max_retrans - INTEGER
2885	The maximum number of retransmissions that will be attempted on a given
2886	path.  Once this threshold is exceeded, the path is considered
2887	unreachable, and new traffic will use a different path when the
2888	association is multihomed.
2889
2890	Default: 5
2891
2892pf_retrans - INTEGER
2893	The number of retransmissions that will be attempted on a given path
2894	before traffic is redirected to an alternate transport (should one
2895	exist).  Note this is distinct from path_max_retrans, as a path that
2896	passes the pf_retrans threshold can still be used.  Its only
2897	deprioritized when a transmission path is selected by the stack.  This
2898	setting is primarily used to enable fast failover mechanisms without
2899	having to reduce path_max_retrans to a very low value.  See:
2900	http://www.ietf.org/id/draft-nishida-tsvwg-sctp-failover-05.txt
2901	for details.  Note also that a value of pf_retrans > path_max_retrans
2902	disables this feature. Since both pf_retrans and path_max_retrans can
2903	be changed by userspace application, a variable pf_enable is used to
2904	disable pf state.
2905
2906	Default: 0
2907
2908ps_retrans - INTEGER
2909	Primary.Switchover.Max.Retrans (PSMR), it's a tunable parameter coming
2910	from section-5 "Primary Path Switchover" in rfc7829.  The primary path
2911	will be changed to another active path when the path error counter on
2912	the old primary path exceeds PSMR, so that "the SCTP sender is allowed
2913	to continue data transmission on a new working path even when the old
2914	primary destination address becomes active again".   Note this feature
2915	is disabled by initializing 'ps_retrans' per netns as 0xffff by default,
2916	and its value can't be less than 'pf_retrans' when changing by sysctl.
2917
2918	Default: 0xffff
2919
2920rto_initial - INTEGER
2921	The initial round trip timeout value in milliseconds that will be used
2922	in calculating round trip times.  This is the initial time interval
2923	for retransmissions.
2924
2925	Default: 3000
2926
2927rto_max - INTEGER
2928	The maximum value (in milliseconds) of the round trip timeout.  This
2929	is the largest time interval that can elapse between retransmissions.
2930
2931	Default: 60000
2932
2933rto_min - INTEGER
2934	The minimum value (in milliseconds) of the round trip timeout.  This
2935	is the smallest time interval the can elapse between retransmissions.
2936
2937	Default: 1000
2938
2939hb_interval - INTEGER
2940	The interval (in milliseconds) between HEARTBEAT chunks.  These chunks
2941	are sent at the specified interval on idle paths to probe the state of
2942	a given path between 2 associations.
2943
2944	Default: 30000
2945
2946sack_timeout - INTEGER
2947	The amount of time (in milliseconds) that the implementation will wait
2948	to send a SACK.
2949
2950	Default: 200
2951
2952valid_cookie_life - INTEGER
2953	The default lifetime of the SCTP cookie (in milliseconds).  The cookie
2954	is used during association establishment.
2955
2956	Default: 60000
2957
2958cookie_preserve_enable - BOOLEAN
2959	Enable or disable the ability to extend the lifetime of the SCTP cookie
2960	that is used during the establishment phase of SCTP association
2961
2962	- 1: Enable cookie lifetime extension.
2963	- 0: Disable
2964
2965	Default: 1
2966
2967cookie_hmac_alg - STRING
2968	Select the hmac algorithm used when generating the cookie value sent by
2969	a listening sctp socket to a connecting client in the INIT-ACK chunk.
2970	Valid values are:
2971
2972	* md5
2973	* sha1
2974	* none
2975
2976	Ability to assign md5 or sha1 as the selected alg is predicated on the
2977	configuration of those algorithms at build time (CONFIG_CRYPTO_MD5 and
2978	CONFIG_CRYPTO_SHA1).
2979
2980	Default: Dependent on configuration.  MD5 if available, else SHA1 if
2981	available, else none.
2982
2983rcvbuf_policy - INTEGER
2984	Determines if the receive buffer is attributed to the socket or to
2985	association.   SCTP supports the capability to create multiple
2986	associations on a single socket.  When using this capability, it is
2987	possible that a single stalled association that's buffering a lot
2988	of data may block other associations from delivering their data by
2989	consuming all of the receive buffer space.  To work around this,
2990	the rcvbuf_policy could be set to attribute the receiver buffer space
2991	to each association instead of the socket.  This prevents the described
2992	blocking.
2993
2994	- 1: rcvbuf space is per association
2995	- 0: rcvbuf space is per socket
2996
2997	Default: 0
2998
2999sndbuf_policy - INTEGER
3000	Similar to rcvbuf_policy above, this applies to send buffer space.
3001
3002	- 1: Send buffer is tracked per association
3003	- 0: Send buffer is tracked per socket.
3004
3005	Default: 0
3006
3007sctp_mem - vector of 3 INTEGERs: min, pressure, max
3008	Number of pages allowed for queueing by all SCTP sockets.
3009
3010	min: Below this number of pages SCTP is not bothered about its
3011	memory appetite. When amount of memory allocated by SCTP exceeds
3012	this number, SCTP starts to moderate memory usage.
3013
3014	pressure: This value was introduced to follow format of tcp_mem.
3015
3016	max: Number of pages allowed for queueing by all SCTP sockets.
3017
3018	Default is calculated at boot time from amount of available memory.
3019
3020sctp_rmem - vector of 3 INTEGERs: min, default, max
3021	Only the first value ("min") is used, "default" and "max" are
3022	ignored.
3023
3024	min: Minimal size of receive buffer used by SCTP socket.
3025	It is guaranteed to each SCTP socket (but not association) even
3026	under moderate memory pressure.
3027
3028	Default: 4K
3029
3030sctp_wmem  - vector of 3 INTEGERs: min, default, max
3031	Only the first value ("min") is used, "default" and "max" are
3032	ignored.
3033
3034	min: Minimum size of send buffer that can be used by SCTP sockets.
3035	It is guaranteed to each SCTP socket (but not association) even
3036	under moderate memory pressure.
3037
3038	Default: 4K
3039
3040addr_scope_policy - INTEGER
3041	Control IPv4 address scoping - draft-stewart-tsvwg-sctp-ipv4-00
3042
3043	- 0   - Disable IPv4 address scoping
3044	- 1   - Enable IPv4 address scoping
3045	- 2   - Follow draft but allow IPv4 private addresses
3046	- 3   - Follow draft but allow IPv4 link local addresses
3047
3048	Default: 1
3049
3050udp_port - INTEGER
3051	The listening port for the local UDP tunneling sock. Normally it's
3052	using the IANA-assigned UDP port number 9899 (sctp-tunneling).
3053
3054	This UDP sock is used for processing the incoming UDP-encapsulated
3055	SCTP packets (from RFC6951), and shared by all applications in the
3056	same net namespace. This UDP sock will be closed when the value is
3057	set to 0.
3058
3059	The value will also be used to set the src port of the UDP header
3060	for the outgoing UDP-encapsulated SCTP packets. For the dest port,
3061	please refer to 'encap_port' below.
3062
3063	Default: 0
3064
3065encap_port - INTEGER
3066	The default remote UDP encapsulation port.
3067
3068	This value is used to set the dest port of the UDP header for the
3069	outgoing UDP-encapsulated SCTP packets by default. Users can also
3070	change the value for each sock/asoc/transport by using setsockopt.
3071	For further information, please refer to RFC6951.
3072
3073	Note that when connecting to a remote server, the client should set
3074	this to the port that the UDP tunneling sock on the peer server is
3075	listening to and the local UDP tunneling sock on the client also
3076	must be started. On the server, it would get the encap_port from
3077	the incoming packet's source port.
3078
3079	Default: 0
3080
3081plpmtud_probe_interval - INTEGER
3082        The time interval (in milliseconds) for the PLPMTUD probe timer,
3083        which is configured to expire after this period to receive an
3084        acknowledgment to a probe packet. This is also the time interval
3085        between the probes for the current pmtu when the probe search
3086        is done.
3087
3088        PLPMTUD will be disabled when 0 is set, and other values for it
3089        must be >= 5000.
3090
3091	Default: 0
3092
3093reconf_enable - BOOLEAN
3094        Enable or disable extension of Stream Reconfiguration functionality
3095        specified in RFC6525. This extension provides the ability to "reset"
3096        a stream, and it includes the Parameters of "Outgoing/Incoming SSN
3097        Reset", "SSN/TSN Reset" and "Add Outgoing/Incoming Streams".
3098
3099	- 1: Enable extension.
3100	- 0: Disable extension.
3101
3102	Default: 0
3103
3104intl_enable - BOOLEAN
3105        Enable or disable extension of User Message Interleaving functionality
3106        specified in RFC8260. This extension allows the interleaving of user
3107        messages sent on different streams. With this feature enabled, I-DATA
3108        chunk will replace DATA chunk to carry user messages if also supported
3109        by the peer. Note that to use this feature, one needs to set this option
3110        to 1 and also needs to set socket options SCTP_FRAGMENT_INTERLEAVE to 2
3111        and SCTP_INTERLEAVING_SUPPORTED to 1.
3112
3113	- 1: Enable extension.
3114	- 0: Disable extension.
3115
3116	Default: 0
3117
3118ecn_enable - BOOLEAN
3119        Control use of Explicit Congestion Notification (ECN) by SCTP.
3120        Like in TCP, ECN is used only when both ends of the SCTP connection
3121        indicate support for it. This feature is useful in avoiding losses
3122        due to congestion by allowing supporting routers to signal congestion
3123        before having to drop packets.
3124
3125        1: Enable ecn.
3126        0: Disable ecn.
3127
3128        Default: 1
3129
3130l3mdev_accept - BOOLEAN
3131	Enabling this option allows a "global" bound socket to work
3132	across L3 master domains (e.g., VRFs) with packets capable of
3133	being received regardless of the L3 domain in which they
3134	originated. Only valid when the kernel was compiled with
3135	CONFIG_NET_L3_MASTER_DEV.
3136
3137	Default: 1 (enabled)
3138
3139
3140``/proc/sys/net/core/*``
3141========================
3142
3143	Please see: Documentation/admin-guide/sysctl/net.rst for descriptions of these entries.
3144
3145
3146``/proc/sys/net/unix/*``
3147========================
3148
3149max_dgram_qlen - INTEGER
3150	The maximum length of dgram socket receive queue
3151
3152	Default: 10
3153
3154