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|
.\" $OpenBSD: ipsec.conf.5,v 1.63 2006/08/30 11:41:45 jmc Exp $
.\"
.\" Copyright (c) 2004 Mathieu Sauve-Frankel All rights reserved.
.\"
.\" Redistribution and use in source and binary forms, with or without
.\" modification, are permitted provided that the following conditions
.\" are met:
.\" 1. Redistributions of source code must retain the above copyright
.\" notice, this list of conditions and the following disclaimer.
.\" 2. Redistributions in binary form must reproduce the above copyright
.\" notice, this list of conditions and the following disclaimer in the
.\" documentation and/or other materials provided with the distribution.
.\"
.\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
.\" IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
.\" OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
.\" IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
.\" INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
.\" NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
.\" DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
.\" THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
.\" (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
.\" THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
.\"
.Dd April 9, 2005
.Dt IPSEC.CONF 5
.Os
.Sh NAME
.Nm ipsec.conf
.Nd IPsec configuration file
.Sh DESCRIPTION
The
.Nm
file specifies rules and definitions for
.Xr ipsec 4
IP security services.
The rulesets themselves can be loaded, viewed, and modified via the
.Xr ipsecctl 8
userland utility.
.Sh MACROS
Much like
.Xr cpp 1
or
.Xr m4 1 ,
macros can be defined that will later be expanded in context.
Macro names must start with a letter, and may contain letters, digits
and underscores.
Macro names may not be reserved words (for example
.Ic flow ,
.Ic from ,
.Ic esp ) .
Macros are not expanded inside quotes.
.Pp
For example,
.Bd -literal -offset indent
remote_gw = \&"192.168.3.12\&"
flow esp from 192.168.7.0/24 to 192.168.8.0/24 peer $remote_gw
.Ed
.Sh AUTOMATIC KEYING
Rules can also specify IPsec flows and SAs to be established automatically by
.Xr isakmpd 8 .
Some examples to set up automatic keying:
.Bd -literal -offset 3n
# Set up two tunnels:
# First between the networks 10.1.1.0/24 and 10.1.2.0/24
# Second between the machines 192.168.3.1 and 192.168.3.2
ike esp from 10.1.1.0/24 to 10.1.2.0/24 peer 192.168.3.2
ike esp from 192.168.3.1 to 192.168.3.2
# Using interface group names and symbolic host names
ike esp from egress to 10.1.2.0/24 peer mygate.home.net
# Protect remote bridges (Ethernet frames over IP)
ike esp proto etherip from 192.168.100.1 to 192.168.200.1
# Use bypass flow to exclude local subnets from larger VPNs
flow in from 192.168.62.0/24 to 192.168.62.0/24 type bypass
ike dynamic esp from 192.168.62.0/24 to 192.168.48.0/20 \e
peer 192.168.3.12
.Ed
.Pp
This is accomplished by the following rules:
.Bl -tag -width xxxx
.It Ic ike esp
Creates an IPsec tunnel using ESP.
.It Ic ike ah
Creates an IPsec tunnel using AH.
.El
.Pp
See
.Xr isakmpd 8
for details on ISAKMP/IKE.
.Pp
Parameters specify the packets that will go through the tunnel and which
cryptographic transforms are used for
.Xr isakmpd 8 .
Some parameters are optional.
Certain parameters can be expressed as lists, in which case
.Xr ipsecctl 8
generates all needed rule combinations.
.Pp
Addresses can be specified in CIDR notation (matching netblocks),
as symbolic host names, interface names or interface group names.
.Bl -tag -width xxxx
.It Xo
.Ic ike
.Aq Ar mode
.Xc
When
.Ar passive
is specified,
.Xr isakmpd 8
will not immediately start negotiation of this tunnel, but wait for an incoming
request from the remote peer.
When
.Ar active
or
.Ar dynamic
is specified, negotiation will be started at once.
The
.Ar dynamic
mode will additionally enable Dead Peer Detection (DPD) and use the
local hostname as the identity of the local peer, if not specified by
the
.Ar srcid
parameter.
.Ar dynamic
mode should be used for hosts with dynamic IP addresses like road
warriors or dialup hosts.
If omitted,
.Ar active
mode will be used.
.It Xo
.Aq Ar encap
.Xc
The encapsulation protocol to be used.
Possible protocols are
.Ar esp
and
.Ar ah .
The default is
.Ar esp .
For details on ESP and AH see
.Xr ipsec 4 .
.It Xo
.Aq Ar tmode
.Xc
The encapsulation mode to be used can be specified.
Possible modes are
.Ar tunnel
and
.Ar transport .
When left out,
.Ar tunnel
is chosen.
For details on modes see
.Xr ipsec 4 .
.It Ic proto Aq Ar protocol
The optional
.Ic proto
parameter restricts the flow to a specific IP protocol.
Common protocols are
.Xr icmp 4 ,
.Xr tcp 4 ,
and
.Xr udp 4 .
For a list of all the protocol name to number mappings used by
.Xr ipsecctl 8 ,
see the file
.Pa /etc/protocols .
.It Xo
.Ic from
.Aq Ar src
.Ic port
.Aq Ar sport
.Ic to
.Aq Ar dst
.Ic port
.Aq Ar dport
.Xc
This rule applies for packets with source address
.Aq Ar src
and destination address
.Aq Ar dst .
The keyword
.Ar any
will match any address (i.e. 0.0.0.0/0).
The optional
.Ic port
modifiers restrict the flows to the specified ports.
They are only valid in conjunction with the
.Xr tcp 4
and
.Xr udp 4
protocols.
Ports can be specified by number or by name.
For a list of all port name to number mappings used by
.Xr ipsecctl 8 ,
see the file
.Pa /etc/services .
.It Ic local Aq Ar localip
The
.Ic local
parameter specifies the local address to be used, if we are multi-homed
or have aliases.
Usually this parameter can be left out.
.It Ic peer Aq Ar remote
The
.Ic peer
parameter specifies the address or FQDN of the remote endpoint of this
particular flow.
For host-to-host connections where
.Aq Ar dst
is identical to
.Aq Ar remote ,
the
.Ic peer
specification can be left out.
.It Xo
.Ic main auth
.Aq Ar algorithm
.Ic enc
.Aq Ar algorithm
.Ic group
.Aq Ar group
.Xc
These parameters define the cryptographic transforms to be used for main mode.
Possible values for
.Ic auth
are
.Ar hmac-md5 ,
.Ar hmac-sha1 ,
.Ar hmac-sha2-256 ,
.Ar hmac-sha2-384 ,
and
.Ar hmac-sha2-512 .
For
.Ic enc
the values
.Ar des ,
.Ar 3des ,
.Ar aes ,
.Ar blowfish ,
and
.Ar cast
are allowed.
For
.Ic group
the values
.Ar modp768 ,
.Ar modp1024 ,
.Ar modp1536 ,
.Ar modp2048 ,
.Ar modp3072 ,
.Ar modp4096 ,
.Ar modp6144 ,
and
.Ar modp8192
are allowed.
When a group is specified perfect forward security (PFS) will be used.
When the value
.Ar none
is used instead, PFS will be disabled.
If omitted,
.Xr ipsecctl 8
will use the default values
.Ar hmac-sha1
and
.Ar aes
and PFS with the group
.Ar modp1024 .
.It Xo
.Ic quick auth
.Aq Ar algorithm
.Ic enc
.Aq Ar algorithm
.Ic group
.Aq Ar group
.Xc
Similar to
.Ic main ,
.Ic quick
defines the transforms to be used for quick mode.
However, the possible values for
.Ic auth
are
.Ar hmac-md5 ,
.Ar hmac-sha1 ,
.Ar hmac-ripemd160 ,
.Ar hmac-sha2-256 ,
.Ar hmac-sha2-384 ,
and
.Ar hmac-sha2-512 .
For
.Ic enc
valid values are
.Ar des ,
.Ar 3des ,
.Ar aes ,
.Ar aesctr ,
.Ar blowfish ,
and
.Ar cast .
For
.Ic group
the values
.Ar modp768 ,
.Ar modp1024 ,
.Ar modp1536 ,
.Ar modp2048 ,
.Ar modp3072 ,
.Ar modp4096 ,
.Ar modp6144 ,
and
.Ar modp8192
are allowed.
If no quick mode transforms are specified,
the default values
.Ar hmac-sha2-256
and
.Ar aes
and no specific group are chosen.
.It Xo
.Ic srcid
.Aq Ar fqdn
.Xc
This optional parameter defines either a UFQDN or an FQDN that will be used by
.Xr isakmpd 8
as the identity of the local peer.
If the argument is an email address (bob@example.com), ipsecctl will use UFQDN as the ID type.
Anything else is considered to be an FQDN.
.It Xo
.Ic dstid
.Aq Ar fqdn
.Xc
Similar to
.Ic srcid ,
this optional parameter defines a FQDN to be used by the remote peer.
.It Ic psk Aq Ar string
Use a pre-shared key
.Ar string
for authentication.
If not specified, RSA authentication will be used.
By default, the system startup script
.Xr rc 8
generates a key-pair for
.Xr isakmpd 8
when starting, if one does not already exist.
.El
.Pp
See also
.Sx ISAKMP EXAMPLES
below.
.Sh MANUAL FLOWS
IPsec uses
.Em flows
to determine whether to apply security services to an IP packet or not.
Some examples to set up flows:
.Bd -literal -offset 3n
# Host-to-host
flow esp from 192.168.3.14 to 192.168.3.100
# Same as above, but explicitly specifying "in" and "out" rules
flow esp out from 192.168.3.14 to 192.168.3.100
flow esp in from 192.168.3.100 to 192.168.3.14
# Net-to-net
flow esp from 192.168.7.0/24 to 192.168.8.0/24 peer 192.168.3.12
# Same as above, but explicitly specifying "in" and "out" rules
flow esp out from 192.168.7.0/24 to 192.168.8.0/24 peer 192.168.3.12
flow esp in from 192.168.8.0/24 to 192.168.7.0/24 peer 192.168.3.12
# Same as above, but explicitly specifying the local gateway IP
flow esp from 192.168.7.0/24 to 192.168.8.0/24 \e
local 192.168.1.1 peer 192.168.3.12
# Protect remote bridges (Ethernet frames over IP)
flow esp proto etherip from 192.168.100.1 to 192.168.200.1
.Ed
.Pp
The following security services are available:
.Bl -tag -width xxxx
.It Ic flow esp
ESP can provide the following properties:
authentication, integrity, replay protection, and confidentiality of the data.
.It Ic flow ah
AH provides authentication, integrity, and replay protection, but no
confidentiality.
.It Ic flow ipip
IPIP provides neither authentication, integrity, replay protection, nor
confidentiality.
However, it allows you to tunnel IP traffic over IP, without setting up
.Xr gif 4
interfaces.
.El
.Pp
For details on ESP and AH see
.Xr ipsec 4 .
When no service is specified,
.Xr ipsecctl 8
will use ESP.
The settings for the security services have to be negotiated by
.Xr isakmpd 8 .
As soon as a packet matches a flow,
.Xr isakmpd 8
automatically starts the negotiation.
See
.Xr isakmpd 8
for details.
.Pp
Parameters specify the packets to which a flow applies.
Some parameters are optional.
Certain parameters can be expressed as lists, in which case
.Xr ipsecctl 8
generates all needed rule combinations.
.Pp
Addresses can be specified in CIDR notation (matching netblocks),
as symbolic host names, interface names or interface group names.
.Bl -tag -width xxxx
.It Ic in No or Ic out
This rule applies to incoming or outgoing packets.
If neither
.Ic in
nor
.Ic out
are specified,
.Xr ipsecctl 8
will assume the direction
.Ic out
for this rule and will construct a proper
.Ic in
rule.
Thus packets in both directions will be matched.
.It Ic proto Aq Ar protocol
The optional
.Ic proto
parameter restricts the flow to a specific IP protocol.
Common protocols are
.Xr icmp 4 ,
.Xr tcp 4 ,
and
.Xr udp 4 .
For a list of all the protocol name to number mappings used by
.Xr ipsecctl 8 ,
see the file
.Pa /etc/protocols .
.It Xo
.Ic from
.Aq Ar src
.Ic port
.Aq Ar sport
.Ic to
.Aq Ar dst
.Ic port
.Aq Ar dport
.Xc
This rule applies for packets with source address
.Aq Ar src
and destination address
.Aq Ar dst .
The keyword
.Ar any
will match any address (i.e. 0.0.0.0/0).
The optional
.Ic port
modifiers restrict the flows to the specified ports.
They are only valid in conjunction with the
.Xr tcp 4
and
.Xr udp 4
protocols.
Ports can be specified by number or by name.
For a list of all port name to number mappings used by
.Xr ipsecctl 8 ,
see the file
.Pa /etc/services .
.It Ic local Aq Ar localip
The
.Ic local
parameter specifies the address or FQDN of the local endpoint of this
flow and can be usually left out.
.It Ic peer Aq Ar remote
The
.Ic peer
parameter specifies the address or FQDN of the remote endpoint of this
flow.
For host-to-host connections where
.Aq Ar dst
is identical to
.Aq Ar remote ,
the
.Ic peer
specification can be left out.
.It Ic type Aq Ar modifier
This optional parameter sets up special flows using the modifiers
.Ar require ,
.Ar use ,
.Ar acquire ,
.Ar dontacq ,
.Ar bypass
or
.Ar deny .
A bypass flow is used to specify a flow for which security processing
will be bypassed: matching packets will not be processed by any other
flows and handled in normal operation.
A deny flow is used to drop any matching packets.
By default,
.Xr ipsecctl 8
will automatically set up normal flows with the corresponding type.
.El
.Sh SECURITY ASSOCIATIONS (SAs)
The security parameters for a
.Ar flow
are stored in the Security Association Database
(SADB).
Some examples to set up SAs:
.Bd -literal -offset 3n
# Set up IPsec SAs for flows between 192.168.3.14 and 192.168.3.12
esp from 192.168.3.14 to 192.168.3.12 spi 0xdeadbeef:0xbeefdead \e
auth hmac-sha2-256 enc aesctr authkey file "auth14:auth12" \e
enckey file "enc14:enc12"
.Ed
.Pp
The following rules enter SAs in the SADB:
.Pp
.Bl -tag -width Ds -offset indent -compact
.It Ic esp
Enter an ESP SA.
.It Ic ah
Enter an AH SA.
.\".It Ic ipcomp
.\"Enter an IPCOMP SA.
.It Ic ipip
Enter an IPIP pseudo SA.
.El
.Pp
Parameters specify the peers, Security Parameter Index (SPI),
cryptographic transforms, and key material to be used.
Certain parameters can be expressed as lists, in which case
.Xr ipsecctl 8
generates all needed rule combinations.
.Pp
Addresses can be specified in CIDR notation (matching netblocks),
as symbolic host names, interface names or interface group names.
.Bl -tag -width xxxx
.It Xo
.Aq Ar mode
.Xc
For
.Ic esp ,
.Ic ah ,
and
.Ic ipcomp
the encapsulation mode to be used can be specified.
Possible modes are
.Ar tunnel
and
.Ar transport .
When left out,
.Ar tunnel
is chosen.
For details on modes see
.Xr ipsec 4 .
.It Xo
.Ic from
.Aq Ar src
.Ic to
.Aq Ar dst
.Xc
This SA is for a
.Ar flow
between the peers
.Aq Ar src
and
.Aq Ar dst .
.It Xo
.Ic spi
.Aq Ar number
.Xc
The SPI identifies a specific SA.
.Ar number
is a 32-bit value and needs to be unique.
.It Xo
.Ic auth
.Aq Ar algorithm
.Xc
For both
.Ic esp
and
.Ic ah
an authentication algorithm can be specified.
Possible algorithms are
.Ar hmac-md5 ,
.Ar hmac-ripemd160 ,
.Ar hmac-sha1 ,
.Ar hmac-sha2-256 ,
.Ar hmac-sha2-384 ,
and
.Ar hmac-sha2-512 .
.Pp
If no algorithm is specified,
.Xr ipsecctl 8
will choose
.Ar hmac-sha2-256
by default.
.It Xo
.Ic comp
.Aq Ar algorithm
.Xc
The compression algorithm to be used.
Possible algorithms are
.Ar deflate
and
.Ar lzs .
Note that
.Ar lzs
is only available with
.Xr hifn 4
because of the patent held by Hifn, Inc.
.It Xo
.Ic enc
.Aq Ar algorithm
.Xc
For
.Ic esp
an encryption algorithm needs to be specified.
Possible algorithms are
.Ar 3des-cbc ,
.Ar des-cbc ,
.Ar aes ,
.Ar aesctr ,
.Ar blowfish ,
.Ar cast128 ,
.Ar null ,
and
.Ar skipjack .
.Pp
If no algorithm is specified,
.Xr ipsecctl 8
will choose
.Ar aes
by default.
.It Xo
.Ic authkey
.Aq Ar keyspec
.Xc
.Ar keyspec
defines the authentication key to be used.
It is either a hexadecimal string or a path to a file containing the key.
The filename may be given as either an absolute path to the file
or a relative pathname,
and is specified as follows:
.Bd -literal -offset -indent
authkey file "filename"
.Ed
.It Xo
.Ic enckey
.Aq Ar keyspec
.Xc
The encryption key is defined similar to
.Ar authkey .
.It Xo
.Ic tcpmd5
.Ic from
.Aq Ar src
.Ic to
.Aq Ar dst
.Ic spi
.Aq Ar number
.Ic authkey
.Aq Ar keyspec
.Xc
.Pp
RFC 2385 describes a mechanism to protect
.Xr tcp 4
sessions using MD5.
Some examples to set up TCP MD5 signatures:
.Bd -literal -offset 3n
# Set up keys for TCP MD5 signatures
tcpmd5 from 192.168.3.14 to 192.168.3.27 spi 0x1000:0x1001 \e
authkey 0xdeadbeef:0xbeefdead
# Set up keys for TCP MD5 signatures; read keys from files
tcpmd5 from 192.168.3.14 to 192.168.3.27 spi 0x1000:0x1001 \e
authkey file "/path/to/key1:/path/to/key2"
.Ed
.Pp
This rule applies for packets with source address
.Aq Ar src
and destination address
.Aq Ar dst .
The parameter
.Ic spi
is a 32-bit value defining the Security Parameter Index (SPI) for this SA.
.Pp
The authentication key to be used is a hexadecimal string of arbitrary length
or a path to a file containing the key.
The filename may be given as either an absolute path to the file
or a relative pathname,
and is specified as follows:
.Bd -literal -offset -indent
authkey file "filename"
.Ed
.Pp
It is very important that the key is not guessable.
One practical way of generating 160-bit (20-byte) keys is as follows:
.Bd -literal -offset indent
$ openssl rand 20 | hexdump -e '20/1 "%02x"'
.Ed
.Pp
For both
.Ic spi
and
.Ic authkey
it is possible to specify two values separated by a colon.
.Xr ipsecctl 8
will then generate the matching incoming SA using the second values for
.Ic spi
and
.Ic authkey .
.Pp
For details on how to enable TCP MD5 signatures see
.Xr tcp 4 .
.El
.Sh CRYPTO KEY SIZE
Different cipher types may require different sized keys:
.Pp
.Bl -column "CipherXX" "Key Length" -offset indent -compact
.It Em Cipher Key Length
.It Li DES Ta "56 bits"
.It Li 3DES Ta "168 bits"
.It Li AES Ta "variable (128 bits recommended)"
.It Li Blowfish Ta "variable (160 bits recommended)"
.It Li CAST Ta "variable (128 bits maximum and recommended)"
.It Li Skipjack Ta "80 bits"
.El
.Pp
Use of DES or Skipjack as an encryption algorithm is not recommended
(except for backwards compatibility) due to their short key length.
Furthermore, attacks on Skipjack have shown severe weaknesses
in its structure.
.Pp
Note that DES requires 8 bytes to form a 56-bit key and 3DES requires 24 bytes
to form its 168-bit key.
This is because the most significant bit of each byte is ignored by both
algorithms.
.Pp
Different authentication types may also require different sized keys:
.Pp
.Bl -column "authenticationXX" "Key Length" -offset indent -compact
.It Em Authentication Key Length
.It Li HMAC-md5 Ta "128 bits"
.It Li HMAC-RIPEMD160 Ta "160 bits"
.It Li HMAC-SHA1 Ta "160 bits"
.It Li HMAC-SHA2-256 Ta "256 bits"
.It Li HMAC-SHA2-384 Ta "384 bits"
.It Li HMAC-SHA2-512 Ta "512 bits"
.El
.Pp
It is very important that keys are not guessable.
One practical way of generating 160-bit (20-byte) keys is a follows:
.Bd -literal -offset indent
$ openssl rand 20 | hexdump -e '20/1 "%02x"'
.Ed
.Pp
For
.Ic spi ,
.Ic authkey ,
and
.Ic enckey ,
it is possible to specify two colon separated values.
.Xr ipsecctl 8
will then generate the matching incoming SA using the second values for
.Ic spi ,
.Ic authkey ,
and
.Ic enckey .
.Sh SEE ALSO
.Xr ipcomp 4 ,
.Xr ipsec 4 ,
.Xr tcp 4 ,
.Xr isakmpd.conf 5 ,
.Xr ipsecctl 8 ,
.Xr isakmpd 8
.Sh HISTORY
The
.Nm
file format first appeared in
.Ox 3.8 .
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