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- .TH IP 3
- .SH NAME
- ip, esp, gre, icmp, icmpv6, ipmux, rudp, tcp, udp \- network protocols over IP
- .SH SYNOPSIS
- .nf
- .2C
- .B bind -a #I\fIspec\fP /net
- .sp 0.3v
- .B /net/ipifc
- .B /net/ipifc/clone
- .B /net/ipifc/stats
- .BI /net/ipifc/ n
- .BI /net/ipifc/ n /status
- .BI /net/ipifc/ n /ctl
- \&...
- .sp 0.3v
- .B /net/arp
- .B /net/bootp
- .B /net/iproute
- .B /net/ipselftab
- .B /net/log
- .B /net/ndb
- .sp 0.3v
- .B /net/esp
- .B /net/gre
- .B /net/icmp
- .B /net/icmpv6
- .B /net/ipmux
- .B /net/rudp
- .B /net/tcp
- .B /net/udp
- .sp 0.3v
- .B /net/tcp/clone
- .B /net/tcp/stats
- .BI /net/tcp/ n
- .BI /net/tcp/ n /data
- .BI /net/tcp/ n /ctl
- .BI /net/tcp/ n /local
- .BI /net/tcp/ n /remote
- .BI /net/tcp/ n /status
- .BI /net/tcp/ n /listen
- \&...
- .1C
- .fi
- .SH DESCRIPTION
- The
- .I ip
- device provides the interface to Internet Protocol stacks.
- .I Spec
- is an integer from 0 to 15 identifying a stack.
- Each stack implements IPv4 and IPv6.
- Each stack is independent of all others:
- the only information transfer between them is via programs that
- mount multiple stacks.
- Normally a system uses only one stack.
- However multiple stacks can be used for debugging
- new IP networks or implementing firewalls or proxy
- services.
- .PP
- All addresses used are 16-byte IPv6 addresses.
- IPv4 addresses are a subset of the IPv6 addresses and both standard
- .SM ASCII
- formats are accepted.
- In binary representation, all v4 addresses start with the 12 bytes, in hex:
- .IP
- .EX
- 00 00 00 00 00 00 00 00 00 00 ff ff
- .EE
- .
- .SS "Configuring interfaces
- Each stack may have multiple interfaces and each interface
- may have multiple addresses.
- The
- .B /net/ipifc
- directory contains a
- .B clone
- file, a
- .B stats
- file, and numbered subdirectories for each physical interface.
- .PP
- Opening the
- .B clone
- file reserves an interface.
- The file descriptor returned from the
- .IR open (2)
- will point to the control file,
- .BR ctl ,
- of the newly allocated interface.
- Reading
- .B ctl
- returns a text string representing the number of the interface.
- Writing
- .B ctl
- alters aspects of the interface.
- The possible
- .I ctl
- messages are those described under
- .B "Protocol directories"
- below and these:
- .TF "\fLbind loopback\fR"
- .PD
- .
- .\" from devip.c
- .
- .TP
- .BI "bind ether " path
- Treat the device mounted at
- .I path
- as an Ethernet medium carrying IP and ARP packets
- and associate it with this interface.
- The kernel will
- .IR dial (2)
- .IR path !0x800,
- .IR path !0x806
- and
- .IR path !0x86dd
- and use the connections for IPv4, ARP and IPv6 respectively.
- .TP
- .B "bind pkt
- Treat this interface as a packet interface. Assume
- a user program will read and write the
- .I data
- file to receive and transmit IP packets to the kernel.
- This is used by programs such as
- .IR ppp (8)
- to mediate IP packet transfer between the kernel and
- a PPP encoded device.
- .TP
- .BI "bind netdev " path
- Treat this interface as a packet interface.
- The kernel will open
- .I path
- and read and write the resulting file descriptor
- to receive and transmit IP packets.
- .TP
- .BI "bind loopback "
- Treat this interface as a local loopback. Anything
- written to it will be looped back.
- .
- .\" from ipifc.c
- .
- .TP
- .B "unbind
- Disassociate the physical device from an IP interface.
- .TP
- .BI add\ "local [ mask remote mtu " proxy " ]
- .PD 0
- .TP
- .BI try\ "local [ mask remote mtu " proxy " ]
- .PD
- Add a local IP address to the interface.
- .I Try
- adds the
- .I local
- address as a tentative address
- if it's an IPv6 address.
- The
- .IR mask ,
- .IR remote ,
- .IR mtu ,
- and
- .B proxy
- arguments are all optional.
- The default
- .I mask
- is the class mask for the local address.
- The default
- .I remote
- address is
- .I local
- ANDed with
- .IR mask .
- The default
- .I mtu
- (maximum transmission unit)
- is 1514 for Ethernet and 4096 for packet media.
- The
- .I mtu
- is the size in bytes of the largest packet that this interface can send.
- .IR Proxy ,
- if specified, means that this machine should answer
- ARP requests for the remote address.
- .IR Ppp (8)
- does this to make remote machines appear
- to be connected to the local Ethernet.
- .TP
- .BI remove\ "local mask"
- Remove a local IP address from an interface.
- .TP
- .BI mtu\ n
- Set the maximum transfer unit for this device to
- .IR n .
- The mtu is the maximum size of the packet including any
- medium-specific headers.
- .TP
- .BI reassemble
- Reassemble IP fragments before forwarding to this interface
- .TP
- .BI iprouting\ n
- Allow
- .RI ( n
- is missing or non-zero) or disallow
- .RI ( n
- is 0) forwarding packets between this interface and
- others.
- .
- .\" remainder from netif.c (thus called from devether.c),
- .\" except add6 and ra6 from ipifc.c
- .
- .TP
- .B bridge
- Enable bridging (see
- .IR bridge (3)).
- .TP
- .B promiscuous
- Set the interface into promiscuous mode,
- which makes it accept all incoming packets,
- whether addressed to it or not.
- .TP
- .BI "connect " type
- marks the Ethernet packet
- .I type
- as being in use, if not already in use
- on this interface.
- A
- .I type
- of -1 means `all' but appears to be a no-op.
- .TP
- .BI addmulti\ Media-addr
- Treat the multicast
- .I Media-addr
- on this interface as a local address.
- .TP
- .BI remmulti\ Media-addr
- Remove the multicast address
- .I Media-addr
- from this interface.
- .TP
- .B scanbs
- Make the wireless interface scan for base stations.
- .TP
- .B headersonly
- Set the interface to pass only packet headers, not data too.
- .
- .\" remainder from ipifc.c; tedious, so put them last
- .
- .TP
- .BI "add6 " "v6addr pfx-len [onlink auto validlt preflt]"
- Add the local IPv6 address
- .I v6addr
- with prefix length
- .I pfx-len
- to this interface.
- See RFC 2461 §6.2.1 for more detail.
- The remaining arguments are optional:
- .RS
- .TF "\fIonlink\fR"
- .TP
- .I onlink
- flag: address is `on-link'
- .TP
- .I auto
- flag: autonomous
- .TP
- .I validlt
- valid life-time in seconds
- .TP
- .I preflt
- preferred life-time in seconds
- .RE
- .PD
- .TP
- .BI "ra6 " "keyword value ..."
- Set IPv6 router advertisement (RA) parameter
- .IR keyword 's
- .IR value .
- Known
- .IR keyword s
- and the meanings of their values follow.
- See RFC 2461 §6.2.1 for more detail.
- Flags are true iff non-zero.
- .RS
- .TF "\fLreachtime\fR"
- .TP
- .B recvra
- flag: receive and process RAs.
- .TP
- .B sendra
- flag: generate and send RAs.
- .TP
- .B mflag
- flag: ``Managed address configuration'',
- goes into RAs.
- .TP
- .B oflag
- flag: ``Other stateful configuration'',
- goes into RAs.
- .TP
- .B maxraint
- ``maximum time allowed between sending unsolicited multicast''
- RAs from the interface, in ms.
- .TP
- .B minraint
- ``minimum time allowed between sending unsolicited multicast''
- RAs from the interface, in ms.
- .TP
- .B linkmtu
- ``value to be placed in MTU options sent by the router.''
- Zero indicates none.
- .TP
- .B reachtime
- sets the Reachable Time field in RAs sent by the router.
- ``Zero means unspecified (by this router).''
- .TP
- .B rxmitra
- sets the Retrans Timer field in RAs sent by the router.
- ``Zero means unspecified (by this router).''
- .TP
- .B ttl
- default value of the Cur Hop Limit field in RAs sent by the router.
- Should be set to the ``current diameter of the Internet.''
- ``Zero means unspecified (by this router).''
- .TP
- .B routerlt
- sets the Router Lifetime field of RAs sent from the interface, in ms.
- Zero means the router is not to be used as a default router.
- .PD
- .RE
- .PP
- Reading the interface's
- .I status
- file returns information about the interface, one line for each
- local address on that interface. The first line
- has 9 white-space-separated fields: device, mtu, local address,
- mask, remote or network address, packets in, packets out, input errors,
- output errors. Each subsequent line contains all but the device and mtu.
- See
- .I readipifc
- in
- .IR ip (2).
- .
- .SS "Routing
- The file
- .I iproute
- controls information about IP routing.
- When read, it returns one line per routing entry.
- Each line contains six white-space-separated fields:
- target address, target mask, address of next hop, flags,
- tag, and interface number.
- The entry used for routing an IP packet is the one with
- the longest mask for which destination address ANDed with
- target mask equals the target address.
- The one-character flags are:
- .TF m
- .TP
- .B 4
- IPv4 route
- .TP
- .B 6
- IPv6 route
- .TP
- .B i
- local interface
- .TP
- .B b
- broadcast address
- .TP
- .B u
- local unicast address
- .TP
- .B m
- multicast route
- .TP
- .B p
- point-to-point route
- .PD
- .PP
- The tag is an arbitrary, up to 4 character, string. It is normally used to
- indicate what routing protocol originated the route.
- .PP
- Writing to
- .B /net/iproute
- changes the route table. The messages are:
- .TF "\fLroute \fItarget\fR"
- .PD
- .TP
- .B flush
- Remove all routes.
- .TP
- .BI tag\ string
- Associate the tag,
- .IR string ,
- with all subsequent routes added via this file descriptor.
- .TP
- .BI add\ "target mask nexthop"
- Add the route to the table. If one already exists with the
- same target and mask, replace it.
- .TP
- .BI remove\ "target mask"
- Remove a route with a matching target and mask.
- .
- .TP
- .BI route\ target
- Print on the console the route to address
- .IR target ,
- if any.
- Primarily a debugging aid.
- .
- .SS "Address resolution
- The file
- .B /net/arp
- controls information about address resolution.
- The kernel automatically updates the v4 ARP and v6 Neighbour Discovery
- information for Ethernet interfaces.
- When read, the file returns one line per address containing the
- type of medium, the status of the entry (OK, WAIT), the IP
- address, and the medium address.
- Writing to
- .B /net/arp
- administers the ARP information.
- The control messages are:
- .TF "\fLdel \fIIP-addr\fR"
- .PD
- .TP
- .B flush
- Remove all entries.
- .TP
- .BI add\ "type IP-addr Media-addr"
- Add an entry or replace an existing one for the
- same IP address.
- .TP
- .BI del\ "IP-addr"
- Delete an individual entry.
- .PP
- ARP entries do not time out. The ARP table is a
- cache with an LRU replacement policy. The IP stack
- listens for all ARP requests and, if the requester is in
- the table, the entry is updated.
- Also, whenever a new address is configured onto an
- Ethernet, an ARP request is sent to help
- update the table on other systems.
- .PP
- Currently, the only medium type is
- .BR ether .
- .br
- .ne 3
- .
- .SS "Debugging and stack information
- If any process is holding
- .B /net/log
- open, the IP stack queues debugging information to it.
- This is intended primarily for debugging the IP stack.
- The information provided is implementation-defined;
- see the source for details. Generally, what is returned is error messages
- about bad packets.
- .PP
- Writing to
- .B /net/log
- controls debugging. The control messages are:
- .TF "\fLclear \fIarglist\fR"
- .PD
- .TP
- .BI set\ arglist
- .I Arglist
- is a space-separated list of items for which to enable debugging.
- The possible items are:
- .BR ppp ,
- .BR ip ,
- .BR fs ,
- .BR tcp ,
- .BR icmp ,
- .BR udp ,
- .BR compress ,
- .BR gre ,
- .BR tcpwin ,
- .BR tcprxmt ,
- .BR udpmsg ,
- .BR ipmsg ,
- and
- .BR esp .
- .TP
- .BI clear\ arglist
- .I Arglist
- is a space-separated list of items for which to disable debugging.
- .TP
- .BI only\ addr
- If
- .I addr
- is non-zero, restrict debugging to only those
- packets whose source or destination is that
- address.
- .PP
- The file
- .B /net/ndb
- can be read or written by
- programs. It is normally used by
- .IR ipconfig (8)
- to leave configuration information for other programs
- such as
- .B dns
- and
- .B cs
- (see
- .IR ndb (8)).
- .B /net/ndb
- may contain up to 1024 bytes.
- .PP
- The file
- .B /net/ipselftab
- is a read-only file containing all the IP addresses
- considered local. Each line in the file contains
- three white-space-separated fields: IP address, usage count,
- and flags. The usage count is the number of interfaces to which
- the address applies. The flags are the same as for routing
- entries.
- Note that the `IPv4 route' flag will never be set.
- .br
- .ne 3
- .
- .SS "Protocol directories
- The
- .I ip
- device
- supports IP as well as several protocols that run over it:
- TCP, UDP, RUDP, ICMP, GRE, and ESP.
- TCP and UDP provide the standard Internet
- protocols for reliable stream and unreliable datagram
- communication.
- RUDP is a locally-developed reliable datagram protocol based on UDP.
- ICMP is IP's catch-all control protocol used to send
- low level error messages and to implement
- .IR ping (8).
- GRE is a general encapsulation protocol.
- ESP is the encapsulation protocol for IPsec.
- IL provided a reliable datagram service for communication
- between Plan 9 machines over IPv4, but is no longer part of the system.
- .PP
- Each protocol is a subdirectory of the IP stack.
- The top level directory of each protocol contains a
- .B clone
- file, a
- .B stats
- file, and subdirectories numbered from zero to the number of connections
- opened for this protocol.
- .PP
- Opening the
- .B clone
- file reserves a connection. The file descriptor returned from the
- .IR open (2)
- will point to the control file,
- .BR ctl ,
- of the newly allocated connection.
- Reading
- .B ctl
- returns a text
- string representing the number of the
- connection.
- Connections may be used either to listen for incoming calls
- or to initiate calls to other machines.
- .PP
- A connection is controlled by writing text strings to the associated
- .B ctl
- file.
- After a connection has been established data may be read from
- and written to
- .BR data .
- A connection can be actively established using the
- .B connect
- message (see also
- .IR dial (2)).
- A connection can be established passively by first
- using an
- .B announce
- message (see
- .IR dial (2))
- to bind to a local port and then
- opening the
- .B listen
- file (see
- .IR dial (2))
- to receive incoming calls.
- .PP
- The following control messages are supported:
- .TF "\fLremmulti \fIip\fR"
- .PD
- .TP
- .BI connect\ ip-address ! port "!r " local
- Establish a connection to the remote
- .I ip-address
- and
- .IR port .
- If
- .I local
- is specified, it is used as the local port number.
- If
- .I local
- is not specified but
- .B !r
- is, the system will allocate
- a restricted port number (less than 1024) for the connection to allow communication
- with Unix
- .B login
- and
- .B exec
- services.
- Otherwise a free port number starting at 5000 is chosen.
- The connect fails if the combination of local and remote address/port pairs
- are already assigned to another port.
- .TP
- .BI announce\ X
- .I X
- is a decimal port number or
- .LR * .
- Set the local port
- number to
- .I X
- and accept calls to
- .IR X .
- If
- .I X
- is
- .LR * ,
- accept
- calls for any port that no process has explicitly announced.
- The local IP address cannot be set.
- .B Announce
- fails if the connection is already announced or connected.
- .TP
- .BI bind\ X
- .I X
- is a decimal port number or
- .LR * .
- Set the local port number to
- .IR X .
- This exists to support emulation
- of BSD sockets by the APE libraries (see
- .IR pcc (1))
- and is not otherwise used.
- .\" this is gone
- .\" .TP
- .\" .BI backlog\ n
- .\" Set the maximum number of unanswered (queued) incoming
- .\" connections to an announced port to
- .\" .IR n .
- .\" By default
- .\" .I n
- .\" is set to five. If more than
- .\" .I n
- .\" connections are pending,
- .\" further requests for a service will be rejected.
- .TP
- .BI ttl\ n
- Set the time to live IP field in outgoing packets to
- .IR n .
- .TP
- .BI tos\ n
- Set the service type IP field in outgoing packets to
- .IR n .
- .TP
- .B ignoreadvice
- Don't break (UDP) connections because of ICMP errors.
- .TP
- .BI addmulti\ "ifc-ip [ mcast-ip ]"
- Treat
- .I ifc-ip
- on this multicast interface as a local address.
- If
- .I mcast-ip
- is present,
- use it as the interface's multicast address.
- .TP
- .BI remmulti\ ip
- Remove the address
- .I ip
- from this multicast interface.
- .PP
- Port numbers must be in the range 1 to 32767.
- .PP
- Several files report the status of a
- connection.
- The
- .B remote
- and
- .B local
- files contain the IP address and port number for the remote and local side of the
- connection. The
- .B status
- file contains protocol-dependent information to help debug network connections.
- On receiving and error or EOF reading or writing the
- .B data
- file, the
- .B err
- file contains the reason for error.
- .PP
- A process may accept incoming connections by
- .IR open (2)ing
- the
- .B listen
- file.
- The
- .B open
- will block until a new connection request arrives.
- Then
- .B open
- will return an open file descriptor which points to the control file of the
- newly accepted connection.
- This procedure will accept all calls for the
- given protocol.
- See
- .IR dial (2).
- .
- .SS TCP
- TCP connections are reliable point-to-point byte streams; there are no
- message delimiters.
- A connection is determined by the address and port numbers of the two
- ends.
- TCP
- .B ctl
- files support the following additional messages:
- .TF "\fLkeepalive\fI n\fR"
- .PD
- .TP
- .B hangup
- close down this TCP connection
- .TP
- .BI keepalive \ n
- turn on keep alive messages.
- .IR N ,
- if given, is the milliseconds between keepalives
- (default 30000).
- .TP
- .BI checksum \ n
- emit TCP checksums of zero if
- .I n
- is zero; otherwise, and by default,
- TCP checksums are computed and sent normally.
- .TP
- .BI tcpporthogdefense \ onoff
- .I onoff
- of
- .L on
- enables the TCP port-hog defense for all TCP connections;
- .I onoff
- of
- .L off
- disables it.
- The defense is a solution to hijacked systems staking out ports
- as a form of denial-of-service attack.
- To avoid stateless TCP conversation hogs,
- .I ip
- picks a TCP sequence number at random for keepalives.
- If that number gets acked by the other end,
- .I ip
- shuts down the connection.
- Some firewalls,
- notably ones that perform stateful inspection,
- discard such out-of-specification keepalives,
- so connections through such firewalls
- will be killed after five minutes
- by the lack of keepalives.
- .
- .SS UDP
- UDP connections carry unreliable and unordered datagrams. A read from
- .B data
- will return the next datagram, discarding anything
- that doesn't fit in the read buffer.
- A write is sent as a single datagram.
- .PP
- By default, a UDP connection is a point-to-point link.
- Either a
- .B connect
- establishes a local and remote address/port pair or
- after an
- .BR announce ,
- each datagram coming from a different remote address/port pair
- establishes a new incoming connection.
- However, many-to-one semantics is also possible.
- .PP
- If, after an
- .BR announce ,
- the message
- .L headers
- is written to
- .BR ctl ,
- then all messages sent to the announced port
- are received on the announced connection prefixed
- with the corresponding structure,
- declared in
- .BR <ip.h> :
- .IP
- .EX
- typedef struct Udphdr Udphdr;
- struct Udphdr
- {
- uchar raddr[16]; /* V6 remote address and port */
- uchar laddr[16]; /* V6 local address and port */
- uchar ifcaddr[16]; /* V6 interface address (receive only) */
- uchar rport[2]; /* remote port */
- uchar lport[2]; /* local port */
- };
- .EE
- .PP
- Before a write, a user must prefix a similar structure to each message.
- The system overrides the user specified local port with the announced
- one. If the user specifies an address that isn't a unicast address in
- .BR /net/ipselftab ,
- that too is overridden.
- Since the prefixed structure is the same in read and write, it is relatively
- easy to write a server that responds to client requests by just copying new
- data into the message body and then writing back the same buffer that was
- read.
- .PP
- In this case (writing
- .L headers
- to the
- .I ctl
- file),
- no
- .I listen
- nor
- .I accept
- is needed;
- otherwise,
- the usual sequence of
- .IR announce ,
- .IR listen ,
- .I accept
- must be executed before performing I/O on the corresponding
- .I data
- file.
- .
- .SS RUDP
- RUDP is a reliable datagram protocol based on UDP,
- currently only for IPv4.
- Packets are delivered in order.
- RUDP does not support
- .BR listen .
- One must write either
- .L connect
- or
- .L announce
- followed immediately by
- .L headers
- to
- .BR ctl .
- .PP
- Unlike TCP, the reboot of one end of a connection does
- not force a closing of the connection. Communications will
- resume when the rebooted machine resumes talking. Any unacknowledged
- packets queued before the reboot will be lost. A reboot can
- be detected by reading the
- .B err
- file. It will contain the message
- .IP
- .BI hangup\ address ! port
- .PP
- where
- .I address
- and
- .I port
- are of the far side of the connection.
- Retransmitting a datagram more than 10 times
- is treated like a reboot:
- all queued messages are dropped, an error is queued to the
- .B err
- file, and the conversation resumes.
- .PP
- RUDP
- .I ctl
- files accept the following messages:
- .TF "\fLranddrop \fI[ percent ]\fR"
- .TP
- .B headers
- Corresponds to the
- .L headers
- format of UDP.
- .TP
- .BI "hangup " "IP port"
- Drop the connection to address
- .I IP
- and
- .IR port .
- .TP
- .BI "randdrop " "[ percent ]"
- Randomly drop
- .I percent
- of outgoing packets.
- Default is 10%.
- .
- .SS ICMP
- ICMP is a datagram protocol for IPv4 used to exchange control requests and
- their responses with other machines' IP implementations.
- ICMP is primarily a kernel-to-kernel protocol, but it is possible
- to generate `echo request' and read `echo reply' packets from user programs.
- .
- .SS ICMPV6
- ICMPv6 is the IPv6 equivalent of ICMP.
- If, after an
- .BR announce ,
- the message
- .L headers
- is written to
- .BR ctl ,
- then before a write,
- a user must prefix each message with a corresponding structure,
- declared in
- .BR <ip.h> :
- .IP
- .EX
- /*
- * user level icmpv6 with control message "headers"
- */
- typedef struct Icmp6hdr Icmp6hdr;
- struct Icmp6hdr {
- uchar unused[8];
- uchar laddr[IPaddrlen]; /* local address */
- uchar raddr[IPaddrlen]; /* remote address */
- };
- .EE
- .PP
- In this case (writing
- .L headers
- to the
- .I ctl
- file),
- no
- .I listen
- nor
- .I accept
- is needed;
- otherwise,
- the usual sequence of
- .IR announce ,
- .IR listen ,
- .I accept
- must be executed before performing I/O on the corresponding
- .I data
- file.
- .
- .SS GRE
- GRE is the encapsulation protocol used by PPTP.
- The kernel implements just enough of the protocol
- to multiplex it.
- Our implementation encapsulates in IPv4, per RFC 1702.
- .B Announce
- is not allowed in GRE, only
- .BR connect .
- Since GRE has no port numbers, the port number in the connect
- is actually the 16 bit
- .B eproto
- field in the GRE header.
- .PP
- Reads and writes transfer a
- GRE datagram starting at the GRE header.
- On write, the kernel fills in the
- .B eproto
- field with the port number specified
- in the connect message.
- .br
- .ne 3
- .
- .SS ESP
- ESP is the Encapsulating Security Payload (RFC 1827, obsoleted by RFC 4303)
- for IPsec (RFC 4301).
- We currently implement only tunnel mode, not transport mode.
- It is used to set up an encrypted tunnel between machines.
- Like GRE, ESP has no port numbers. Instead, the
- port number in the
- .B connect
- message is the SPI (Security Association Identifier (sic)).
- IP packets are written to and read from
- .BR data .
- The kernel encrypts any packets written to
- .BR data ,
- appends a MAC, and prefixes an ESP header before
- sending to the other end of the tunnel.
- Received packets are checked against their MAC's,
- decrypted, and queued for reading from
- .BR data .
- In the following,
- .I secret
- is the hexadecimal encoding of a key,
- without a leading
- .LR 0x .
- The control messages are:
- .TF "\fLesp \fIalg secret\fR"
- .PD
- .TP
- .BI esp\ "alg secret
- Encrypt with the algorithm,
- .IR alg ,
- using
- .I secret
- as the key.
- Possible algorithms are:
- .BR null ,
- .BR des_56_cbc ,
- .BR des3_cbc ,
- and eventually
- .BR aes_128_cbc ,
- and
- .BR aes_ctr .
- .TP
- .BI ah\ "alg secret
- Use the hash algorithm,
- .IR alg ,
- with
- .I secret
- as the key for generating the MAC.
- Possible algorithms are:
- .BR null ,
- .BR hmac_sha1_96 ,
- .BR hmac_md5_96 ,
- and eventually
- .BR aes_xcbc_mac_96 .
- .TP
- .B header
- Turn on header mode. Every buffer read from
- .B data
- starts with 4 unused bytes, and the first 4 bytes
- of every buffer written to
- .B data
- are ignored.
- .TP
- .B noheader
- Turn off header mode.
- .
- .SS "IP packet filter
- The directory
- .B /net/ipmux
- looks like another protocol directory.
- It is a packet filter built on top of IP.
- Each numbered
- subdirectory represents a different filter.
- The connect messages written to the
- .I ctl
- file describe the filter. Packets matching the filter can be read on the
- .B data
- file. Packets written to the
- .B data
- file are routed to an interface and transmitted.
- .PP
- A filter is a semicolon-separated list of
- relations. Each relation describes a portion
- of a packet to match. The possible relations are:
- .TF "\fLdata[\fIn\fL:\fIm\fL]=\fIexpr\fR "
- .PD
- .TP
- .BI proto= n
- the IP protocol number must be
- .IR n .
- .TP
- .BI data[ n : m ]= expr
- bytes
- .I n
- through
- .I m
- following the IP packet must match
- .IR expr .
- .TP
- .BI iph[ n : m ]= expr
- bytes
- .I n
- through
- .I m
- of the IP packet header must match
- .IR expr .
- .TP
- .BI ifc= expr
- the packet must have been received on an interface whose address
- matches
- .IR expr .
- .TP
- .BI src= expr
- The source address in the packet must match
- .IR expr .
- .TP
- .BI dst= expr
- The destination address in the packet must match
- .IR expr .
- .PP
- .I Expr
- is of the form:
- .TP
- .I \ value
- .TP
- .IB \ value | value | ...
- .TP
- .IB \ value & mask
- .TP
- .IB \ value | value & mask
- .PP
- If a mask is given, the relevant field is first ANDed with
- the mask. The result is compared against the value or list
- of values for a match. In the case of
- .BR ifc ,
- .BR dst ,
- and
- .B src
- the value is a dot-formatted IP address and the mask is a dot-formatted
- IP mask. In the case of
- .BR data ,
- .B iph
- and
- .BR proto ,
- both value and mask are strings of 2 hexadecimal digits representing
- 8-bit values.
- .PP
- A packet is delivered to only one filter.
- The filters are merged into a single comparison tree.
- If two filters match the same packet, the following
- rules apply in order (here '>' means is preferred to):
- .IP 1)
- protocol > data > source > destination > interface
- .IP 2)
- lower data offsets > higher data offsets
- .IP 3)
- longer matches > shorter matches
- .IP 4)
- older > younger
- .PP
- So far this has just been used to implement a version of
- OSPF in Inferno
- and 6to4 tunnelling.
- .br
- .ne 5
- .
- .SS Statistics
- The
- .B stats
- files are read only and contain statistics useful to network monitoring.
- .br
- .ne 12
- .PP
- Reading
- .B /net/ipifc/stats
- returns a list of 19 tagged and newline-separated fields representing:
- .EX
- .ft 1
- .2C
- .in +0.25i
- forwarding status (0 and 2 mean forwarding off,
- 1 means on)
- default TTL
- input packets
- input header errors
- input address errors
- packets forwarded
- input packets for unknown protocols
- input packets discarded
- input packets delivered to higher level protocols
- output packets
- output packets discarded
- output packets with no route
- timed out fragments in reassembly queue
- requested reassemblies
- successful reassemblies
- failed reassemblies
- successful fragmentations
- unsuccessful fragmentations
- fragments created
- .in -0.25i
- .1C
- .ft
- .EE
- .br
- .ne 16
- .PP
- Reading
- .B /net/icmp/stats
- returns a list of 26 tagged and newline-separated fields representing:
- .EX
- .ft 1
- .2C
- .in +0.25i
- messages received
- bad received messages
- unreachables received
- time exceededs received
- input parameter problems received
- source quenches received
- redirects received
- echo requests received
- echo replies received
- timestamps received
- timestamp replies received
- address mask requests received
- address mask replies received
- messages sent
- transmission errors
- unreachables sent
- time exceededs sent
- input parameter problems sent
- source quenches sent
- redirects sent
- echo requests sent
- echo replies sent
- timestamps sent
- timestamp replies sent
- address mask requests sent
- address mask replies sent
- .in -0.25i
- .1C
- .EE
- .PP
- Reading
- .B /net/tcp/stats
- returns a list of 11 tagged and newline-separated fields representing:
- .EX
- .ft 1
- .2C
- .in +0.25i
- maximum number of connections
- total outgoing calls
- total incoming calls
- number of established connections to be reset
- number of currently established connections
- segments received
- segments sent
- segments retransmitted
- retransmit timeouts
- bad received segments
- transmission failures
- .in -0.25i
- .1C
- .EE
- .PP
- Reading
- .B /net/udp/stats
- returns a list of 4 tagged and newline-separated fields representing:
- .EX
- .ft 1
- .2C
- .in +0.25i
- datagrams received
- datagrams received for bad ports
- malformed datagrams received
- datagrams sent
- .in -0.25i
- .1C
- .EE
- .PP
- Reading
- .B /net/gre/stats
- returns a list of 1 tagged number representing:
- .EX
- .ft 1
- .in +0.25i
- header length errors
- .in -0.25i
- .EE
- .SH "SEE ALSO"
- .IR dial (2),
- .IR ip (2),
- .IR bridge (3),
- .\" .IR ike (4),
- .IR ndb (6),
- .IR listen (8)
- .br
- .PD 0
- .TF "\fL/lib/rfc/rfc2822"
- .TP
- .B /lib/rfc/rfc2460
- IPv6
- .TP
- .B /lib/rfc/rfc4291
- IPv6 address architecture
- .TP
- .B /lib/rfc/rfc4443
- ICMPv6
- .SH SOURCE
- .B /sys/src/9/ip
- .SH BUGS
- .I Ipmux
- has not been heavily used and should be considered experimental.
- It may disappear in favor of a more traditional packet filter in the future.
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