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|
<!DOCTYPE refentry PUBLIC "-//OASIS//DTD DocBook V4.1//EN"
"http://www.oasis-open.org/docbook/xml/4.1.2/docbookx.dtd">
<refentry>
<refentryinfo>
<date>2016-03-14</date>
</refentryinfo>
<refmeta>
<refentrytitle>
<application>radsecproxy.conf</application>
</refentrytitle>
<manvolnum>5</manvolnum>
<refmiscinfo>radsecproxy 1.6.7</refmiscinfo>
</refmeta>
<refnamediv>
<refname>
<application>radsecproxy.conf</application>
</refname>
<refpurpose>Radsec proxy configuration file</refpurpose>
</refnamediv>
<refsect1>
<title>Description</title>
<para>
When the proxy server starts, it will first check the command
line arguments, and then read the configuration file. Normally
radsecproxy will read the configuration file
<filename>/usr/local/etc/radsecproxy.conf</filename>. The command line
<option>-c</option> option can be used to instead read an
alternate file (see
<citerefentry>
<refentrytitle>radsecproxy</refentrytitle><manvolnum>1</manvolnum>
</citerefentry>
for details).
</para>
<para>
If the configuration file can not be found, the proxy will exit
with an error message. Note that there is also an include facility
so that any configuration file may include other configuration
files. The proxy will also exit on configuration errors.
</para>
</refsect1>
<refsect1>
<title>Configuration Syntax</title>
<para>
When the configuration file is processed, whitespace (spaces and
tabs) are generally ignored. For each line, leading and trailing
whitespace are ignored. A line is ignored if it is empty, only
consists of whitespace, or if the first non-whitespace character
is a <literal>#</literal>. The configuration is generally case
insensitive, but in some cases the option values (see below) are
not.
</para>
<para>
There are two types of configuration structures than can be
used. The first and simplest are lines on the format
<emphasis>option value</emphasis>. That is, an option name, see
below for a list of valid options, followed by whitespace (at
least one space or tab character), followed by a value. Note
that if the value contains whitespace, then it must be quoted
using <literal>""</literal> or <literal>''</literal>. Any
whitespace in front of the option or after the value will be
ignored.
</para>
<para>
The other type of structure is a block. A block spans at least
two lines, and has the format:
<blockquote><literallayout>
blocktype name {
option value
option value
...
}
</literallayout></blockquote>
That is, some blocktype, see below for a list of the different
block types, and then enclosed in braces you have zero or more
lines that each have the previously described <emphasis>option
value</emphasis> format. Different block types have different
rules for which options can be specified, they are listed
below. The rules regarding white space, comments and quotes are
as above. Hence you may do things like:
<blockquote><literallayout>
blocktype name {
# option value
option "value with space"
...
}
</literallayout></blockquote>
</para>
<para>
Option value characters can also be written in hex. This is done
by writing the character <literal>%</literal> followed by two
hexadecimal digits. If a <literal>%</literal> is used without
two following hexadecimal digits, the <literal>%</literal> and
the following characters are used as written. If you want to
write a <literal>%</literal> and not use this decoding, you may
of course write <literal>%</literal> in hex; i.e.,
<literal>%25</literal>.
</para>
<para>
There is one special option that can be used both as a basic
option and inside all blocks. That is the option
<literal>Include</literal> where the value specifies files to be
included. The value can be a single file, or it can use normal
shell globbing to specify multiple files, e.g.:
<blockquote>
<para>
include /usr/local/etc/radsecproxy.conf.d/*.conf
</para>
</blockquote>
The files are sorted alphabetically. Included files are read in
the order they are specified, when reaching the end of a file,
the next file is read. When reaching the end of the last
included file, the proxy returns to read the next line following
the <literal>Include</literal> option. Included files may again
include other files.
</para>
</refsect1>
<refsect1>
<title>Basic Options</title>
<para>
The following basic options may be specified in the
configuration file. Note that blocktypes and options inside
blocks are discussed later. Note that none of these options are
required, and indeed in many cases they are not needed. Note
that you should specify each at most once. The behaviour with
multiple occurences is undefined.
</para>
<variablelist>
<varlistentry>
<term><literal>PidFile</literal></term>
<listitem>
<para>
The PidFile option specifies the name of a file to which
the process id (PID) will be written. This is overridden
by the <option>-i</option> command line option. There is
no default value for the PidFile option.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>LogLevel</literal></term>
<listitem>
<para>
This option specifies the debug level. It must be set to
1, 2, 3, 4 or 5, where 1 logs only serious errors, and 5
logs everything. The default is 2 which logs errors,
warnings and a few informational messages. Note that the
command line option <option>-d</option> overrides this.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>LogDestination</literal></term>
<listitem>
<para>
This specifies where the log messages should go. By
default the messages go to syslog with facility
<literal>LOG_DAEMON</literal>. Using this option you can
specify another syslog facility, or you may specify that
logging should be to a particular file, not using
syslog. The value must be either a file or syslog URL. The
file URL is the standard one, specifying a local file that
should be used. For syslog, you must use the syntax:
<literal>x-syslog:///FACILITY</literal> where
<literal>FACILITY</literal> must be one of
<literal>LOG_DAEMON</literal>,
<literal>LOG_MAIL</literal>, <literal>LOG_USER</literal>,
<literal>LOG_LOCAL0</literal>,
<literal>LOG_LOCAL1</literal>,
<literal>LOG_LOCAL2</literal>,
<literal>LOG_LOCAL3</literal>,
<literal>LOG_LOCAL4</literal>,
<literal>LOG_LOCAL5</literal>,
<literal>LOG_LOCAL6</literal> or
<literal>LOG_LOCAL7</literal>. You may omit the facility
from the URL to specify logging to the default facility,
but this is not very useful since this is the default log
destination. Note that this option is ignored if
<option>-f</option> is specified on the command line.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>FTicksReporting</literal></term>
<listitem>
<para>
The FTicksReporting option is used to enable F-Ticks
logging and can be set to <literal>None</literal>,
<literal>Basic</literal> or <literal>Full</literal>. Its
default value is <literal>None</literal>. If
FTicksReporting is set to anything other than
<literal>None</literal>, note that the default value for
FTicksMAC is <literal>VendorKeyHashed</literal> which
needs FTicksKey to be set.
</para>
<para>
See <literal>radsecproxy.conf-example</literal> for
details. Note that radsecproxy has to be configured with
F-Ticks support (<literal>--enable-fticks</literal>) for
this option to have any effect.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>FTicksMAC</literal></term>
<listitem>
<para>
The FTicksMAC option can be used to control if and how
Calling-Station-Id (the users Ethernet MAC address) is
being logged. It can be set to one of
<literal>Static</literal>, <literal>Original</literal>,
<literal>VendorHashed</literal>,
<literal>VendorKeyHashed</literal>,
<literal>FullyHashed</literal> or
<literal>FullyKeyHashed</literal>.
</para>
<para>
The default value for FTicksMAC is
<literal>VendorKeyHashed</literal>. This means that
FTicksKey has to be set.
<para>
Before chosing any of <literal>Original</literal>,
<literal>FullyHashed</literal> or
<literal>VendorHashed</literal>, consider the implications
for user privacy when MAC addresses are collected. How
will the logs be stored, transferred and accessed?
</para>
</para>
<para>
See <literal>radsecproxy.conf-example</literal> for
details. Note that radsecproxy has to be configured with
F-Ticks support (<literal>--enable-fticks</literal>) for
this option to have any effect.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>FTicksKey</literal></term>
<listitem>
<para>
The FTicksKey option is used to specify the key to use
when producing HMAC's as an effect of specifying
VendorKeyHashed or FullyKeyHashed for the FTicksMAC
option.
</para>
<para>
Note that radsecproxy has to be configured with F-Ticks
support (<literal>--enable-fticks</literal>) for this
option to have any effect.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>FTicksSyslogFacility</literal></term>
<listitem>
<para>
The FTicksSyslogFacility option is used to specify a
dedicated syslog facility for F-Ticks messages. This
allows for easier filtering of F-Ticks messages. If no
FTicksSyslogFacility option is given, F-Ticks messages are
written to what the LogDestination option specifies.
</para>
<para>
F-Ticks messages are always logged using the log level
LOG_DEBUG. Note that specifying a file in
FTicksSyslogFacility (using the file:/// prefix) is
not supported.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>ListenUDP</literal></term>
<listitem>
<para>
Normally the proxy will listen to the standard RADIUS UDP
port <literal>1812</literal> if configured to handle UDP
clients. On most systems it will do this for all of the
system's IP addresses (both IPv4 and IPv6). On some
systems however, it may respond to only IPv4 or only
IPv6. To specify an alternate port you may use a value on
the form <literal>*:port</literal> where port is any valid
port number. If you also want to specify a specific
address you can do
e.g. <literal>192.168.1.1:1812</literal> or
<literal>[2001:db8::1]:1812</literal>. The port may be
omitted if you want the default one (like in these
examples). These examples are equivalent to
<literal>192.168.1.1</literal> and
<literal>2001:db8::1</literal>. Note that you must use
brackets around the IPv6 address. This option may be
specified multiple times to listen to multiple addresses
and/or ports.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>ListenTCP</literal></term>
<listitem>
<para>
This option is similar to the <literal>ListenUDP</literal>
option, except that it is used for receiving connections
from TCP clients. The default port number is
<literal>1812</literal>.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>ListenTLS</literal></term>
<listitem>
<para>
This is similar to the <literal>ListenUDP</literal>
option, except that it is used for receiving connections
from TLS clients. The default port number is
<literal>2083</literal>. Note that this option was
previously called <literal>ListenTCP</literal>.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>ListenDTLS</literal></term>
<listitem>
<para>
This is similar to the <literal>ListenUDP</literal>
option, except that it is used for receiving connections
from DTLS clients. The default port number is
<literal>2083</literal>.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>SourceUDP</literal></term>
<listitem>
<para>
This can be used to specify source address and/or source
port that the proxy will use for sending UDP client
messages (e.g. Access Request).
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>SourceTCP</literal></term>
<listitem>
<para>
This can be used to specify source address and/or source
port that the proxy will use for TCP connections.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>SourceTLS</literal></term>
<listitem>
<para>
This can be used to specify source address and/or source
port that the proxy will use for TLS connections.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>SourceDTLS</literal></term>
<listitem>
<para>
This can be used to specify source address and/or source
port that the proxy will use for DTLS connections.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>TTLAttribute</literal></term>
<listitem>
<para>
This can be used to change the default TTL attribute. Only
change this if you know what you are doing. The syntax is
either a numerical value denoting the TTL attribute, or
two numerical values separated by column specifying a
vendor attribute,
i.e. <literal>vendorid:attribute</literal>.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>AddTTL</literal></term>
<listitem>
<para>
If a TTL attribute is present, the proxy will decrement
the value and discard the message if zero. Normally the
proxy does nothing if no TTL attribute is present. If you
use the AddTTL option with a value 1-255, the proxy will
when forwarding a message with no TTL attribute, add one
with the specified value. Note that this option can also
be specified for a client/server. It will then override
this setting when forwarding a message to that
client/server.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>LoopPrevention</literal></term>
<listitem>
<para>
This can be set to <literal>on</literal> or
<literal>off</literal> with <literal>off</literal> being
the default. When this is enabled, a request will never be
sent to a server named the same as the client it was
received from. I.e., the names of the client block and the
server block are compared. Note that this only gives
limited protection against loops. It can be used as a
basic option and inside server blocks where it overrides
the basic setting.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>IPv4Only and IPv6Only</literal></term>
<listitem>
<para>
These can be set to <literal>on</literal> or
<literal>off</literal> with <literal>off</literal> being
the default. At most one of <literal>IPv4Only</literal>
and <literal>IPv6Only</literal> can be enabled. Enabling
<literal>IPv4Only</literal> or <literal>IPv6Only</literal>
makes radsecproxy resolve DNS names to the corresponding
address family only, and not the other. This is done for
both clients and servers. Note that this can be
overridden in <literal>client</literal> and
<literal>server</literal> blocks, see below.
</para>
</listitem>
</varlistentry>
<varlistentry>
<term><literal>Include</literal></term>
<listitem>
<para>
This is not a normal configuration option; it can be
specified multiple times. It can both be used as a basic
option and inside blocks. For the full description, see
the configuration syntax section above.
</para>
</listitem>
</varlistentry>
</variablelist>
</refsect1>
<refsect1>
<title>Blocks</title>
<para>
There are five types of blocks, they are
<literal>client</literal>, <literal>server</literal>,
<literal>realm</literal>, <literal>tls</literal> and
<literal>rewrite</literal>. At least one instance of each of
<literal>client</literal> and <literal>realm</literal> is
required. This is necessary for the proxy to do anything useful,
and it will exit if not. The <literal>tls</literal> block is
required if at least one TLS/DTLS client or server is
configured. Note that there can be multiple blocks for each
type. For each type, the block names should be unique. The
behaviour with multiple occurences of the same name for the same
block type is undefined. Also note that some block option values
may reference a block by name, in which case the block name must
be previously defined. Hence the order of the blocks may be
significant.
</para>
</refsect1>
<refsect1>
<title>Client Block</title>
<para>
The client block is used to configure a client. That is, tell
the proxy about a client, and what parameters should be used for
that client. The name of the client block must (with one
exception, see below) be either the IP address (IPv4 or IPv6) of
the client, an IP prefix (IPv4 or IPv6) on the form
IpAddress/PrefixLength, or a domain name (FQDN). The way an
FQDN is resolved into an IP address may be influenced by the use
of the <literal>IPv4Only</literal> and
<literal>IPv6Only</literal> options. Note that literal IPv6
addresses must be enclosed in brackets.
</para>
<para>
If a domain name is specified, then this will be resolved
immediately to all the addresses associated with the name, and
the proxy will not care about any possible DNS changes that
might occur later. Hence there is no dependency on DNS after
startup.
</para>
<para>
When some client later sends a request to the proxy, the proxy
will look at the IP address the request comes from, and then go
through all the addresses of each of the configured clients (in
the order they are defined), to determine which (if any) of the
clients this is.
</para>
<para>
In the case of TLS/DTLS, the name of the client must match the
FQDN or IP address in the client certificate. Note that this is
not required when the client name is an IP prefix.
</para>
<para>
Alternatively one may use the <literal>host</literal> option
inside a client block. In that case, the value of the
<literal>host</literal> option is used as above, while the name
of the block is only used as a descriptive name for the
administrator. The host option may be used multiple times, and
can be a mix of addresses, FQDNs and prefixes.
</para>
<para>
The allowed options in a client block are
<literal>host</literal>, <literal>IPv4Only</literal>,
<literal>IPv6Only</literal>, <literal>type</literal>,
<literal>secret</literal>, <literal>tls</literal>,
<literal>certificateNameCheck</literal>,
<literal>matchCertificateAttribute</literal>,
<literal>duplicateInterval</literal>, <literal>AddTTL</literal>,
<literal>fticksVISCOUNTRY</literal>,
<literal>fticksVISINST</literal>, <literal>rewrite</literal>,
<literal>rewriteIn</literal>, <literal>rewriteOut</literal>, and
<literal>rewriteAttribute</literal>.
We already discussed the <literal>host</literal> option. To
specify how radsecproxy should resolve a <literal>host</literal>
given as a DNS name, the <literal>IPv4Only</literal> or the
<literal>IPv6Only</literal> can be set to <literal>on</literal>.
At most one of these options can be enabled. Enabling
<literal>IPv4Only</literal> or <literal>IPv6Only</literal> here
overrides any basic settings set at the top level.
The value of <literal>type</literal> must be one of
<literal>udp</literal>, <literal>tcp</literal>,
<literal>tls</literal> or <literal>dtls</literal>. The value of
<literal>secret</literal> is the shared RADIUS key used with
this client. If the secret contains whitespace, the value must
be quoted. This option is optional for TLS/DTLS and if omitted
will default to "radsec". (Note that using a secret other than
"radsec" for TLS is a violation of the standard (RFC 6614) and
that the proposed standard for DTLS stipulates that the secret
must be "radius/dtls".)
</para>
<para>
For a TLS/DTLS client you may also specify the
<literal>tls</literal> option. The option value must be the
name of a previously defined TLS block. If this option is not
specified, the TLS block with the name
<literal>defaultClient</literal> will be used if defined. If not
defined, it will try to use the TLS block named
<literal>default</literal>. If the specified TLS block name does
not exist, or the option is not specified and none of the
defaults exist, the proxy will exit with an error.
NOTE: All versions of radsecproxy up to and including 1.6
erroneously verify client certificate chains using the CA in the
very first matching client block regardless of which block is
used for the final decision. This was changed in version 1.6.1
so that a client block with a different <literal>tls</literal>
option than the first matching client block is no longer
considered for verification of clients.
</para>
<para>
For a TLS/DTLS client, the option
<literal>certificateNameCheck</literal> can be set to
<literal>off</literal>, to disable the default behaviour of
matching CN or SubjectAltName against the specified hostname or
IP address.
</para>
<para>
Additional validation of certificate attributes can be done by
use of the <literal>matchCertificateAttribute</literal>
option. Currently one can only do some matching of CN and
SubjectAltName. For regexp matching on CN, one can use the value
<literal>CN:/regexp/</literal>. For SubjectAltName one can only
do regexp matching of the URI, this is specified as
<literal>SubjectAltName:URI:/regexp/</literal>. Note that
currently this option can only be specified once in a client
block.
</para>
<para>
The <literal>duplicateInterval</literal> option can be used to
specify for how many seconds duplicate checking should be
done. If a proxy receives a new request within a few seconds of
a previous one, it may be treated the same if from the same
client, with the same authenticator etc. The proxy will then
ignore the new request (if it is still processing the previous
one), or returned a copy of the previous reply.
</para>
<para>
The <literal>AddTTL</literal> option is similar to the
<literal>AddTTL</literal> option used in the basic config. See
that for details. Any value configured here overrides the basic
one when sending messages to this client.
</para>
<para>
The <literal>fticksVISCOUNTRY</literal> option configures
clients eligible to F-Ticks logging as defined by the
<literal>FTicksReporting</literal> basic option.
</para>
<para>
The <literal>fticksVISINST</literal> option overwrites
the default <literal>VISINST</literal> value taken from the client
block name.
</para>
<para>
The <literal>rewrite</literal> option is deprecated. Use
<literal>rewriteIn</literal> instead.
</para>
<para>
The <literal>rewriteIn</literal> option can be used to refer to
a rewrite block that specifies certain rewrite operations that
should be performed on incoming messages from the client. The
rewriting is done before other processing. For details, see the
rewrite block text below. Similarly to <literal>tls</literal>
discussed above, if this option is not used, there is a fallback
to using the <literal>rewrite</literal> block named
<literal>defaultClient</literal> if it exists; and if not, a
fallback to a block named <literal>default</literal>.
</para>
<para>
The <literal>rewriteOut</literal> option is used in the same way
as <literal>rewriteIn</literal>, except that it specifies
rewrite operations that should be performed on outgoing messages
to the client. The rewriting is done after other
processing. Also, there is no rewrite fallback if this option is
not used.
</para>
<para>
The <literal>rewriteAttribute</literal> option currently makes
it possible to specify that the User-Name attribute in a client
request shall be rewritten in the request sent by the proxy. The
User-Name attribute is written back to the original value if a
matching response is later sent back to the client. The value
must be on the form User-Name:/regexpmatch/replacement/. Example
usage:
<blockquote>
<para>
rewriteAttribute User-Name:/^(.*)@local$/\1@example.com/
</para>
</blockquote>
</para>
</refsect1>
<refsect1>
<title>Server Block</title>
<para>
The server block is used to configure a server. That is, tell
the proxy about a server, and what parameters should be used
when communicating with that server. The name of the server
block must (with one exception, see below) be either the IP
address (IPv4 or IPv6) of the server, or a domain name
(FQDN). If a domain name is specified, then this will be
resolved immediately to all the addresses associated with the
name, and the proxy will not care about any possible DNS changes
that might occur later. Hence there is no dependency on DNS
after startup. If the domain name resolves to multiple
addresses, then for UDP/DTLS the first address is used. For
TCP/TLS, the proxy will loop through the addresses until it can
connect to one of them. The way an FQDN is resolved into an IP
address may be influenced by the use of the
<literal>IPv4Only</literal> and <literal>IPv6Only</literal>
options. In the case of TLS/DTLS, the name of the server must
match the FQDN or IP address in the server certificate.
</para>
<para>
Alternatively one may use the <literal>host</literal> option
inside a server block. In that case, the value of the
<literal>host</literal> option is used as above, while the name
of the block is only used as a descriptive name for the
administrator. Note that multiple host options may be used. This
will then be treated as multiple names/addresses for the same
server. When initiating a TCP/TLS connection, all addresses of
all names may be attempted, but there is no failover between the
different host values. For failover one must use separate server
blocks.
</para>
<para>
Note that the name of the block, or values of host options may
include a port number (separated with a column). This port
number will then override the default port or a port option in
the server block. Also note that literal IPv6 addresses must be
enclosed in brackets.
</para>
<para>
The allowed options in a server block are
<literal>host</literal>, <literal>port</literal>,
<literal>IPv4Only</literal>, <literal>IPv6Only</literal>,
<literal>type</literal>, <literal>secret</literal>,
<literal>tls</literal>, <literal>certificateNameCheck</literal>,
<literal>matchCertificateAttribute</literal>,
<literal>AddTTL</literal>, <literal>rewrite</literal>,
<literal>rewriteIn</literal>, <literal>rewriteOut</literal>,
<literal>statusServer</literal>, <literal>retryCount</literal>,
<literal>dynamicLookupCommand</literal> and
<literal>retryInterval</literal> and
<literal>LoopPrevention</literal>.
</para>
<para>
We already discussed the <literal>host</literal> option. To
specify how radsecproxy should resolve a <literal>host</literal>
given as a DNS name, the <literal>IPv4Only</literal> or the
<literal>IPv6Only</literal> can be set to <literal>on</literal>.
At most one of these options can be enabled. Enabling
<literal>IPv4Only</literal> or <literal>IPv6Only</literal> here
overrides any basic settings set at the top level.
The <literal>port</literal> option allows you to specify which
port number the server uses. The usage of
<literal>type</literal>, <literal>secret</literal>,
<literal>tls</literal>, <literal>certificateNameCheck</literal>,
<literal>matchCertificateAttribute</literal>,
<literal>AddTTL</literal>, <literal>rewrite</literal>,
<literal>rewriteIn</literal> and <literal>rewriteOut</literal>
are just as specified for the <literal>client block</literal>
above, except that <literal>defaultServer</literal> (and not
<literal>defaultClient</literal>) is the fallback for the
<literal>tls</literal>, <literal>rewrite</literal> and
<literal>rewriteIn</literal> options.
</para>
<para>
<literal>statusServer</literal> can be specified to enable the
use of status-server messages for this server. The value must be
either <literal>on</literal> or <literal>off</literal>. The
default when not specified, is <literal>off</literal>. If
statusserver is enabled, the proxy will during idle periods send
regular status-server messages to the server to verify that it
is alive. This should only be enabled if the server supports it.
</para>
<para>
The options <literal>retryCount</literal> and
<literal>retryInterval</literal> can be used to specify how many
times the proxy should retry sending a request and how long it
should wait between each retry. The defaults are 2 retries and
an interval of 5s.
</para>
<para>
The option <literal>dynamicLookupCommand</literal> can be used
to specify a command that should be executed to dynamically
configure a server. The executable file should be given with
full path and will be invoked with the name of the realm as its
first and only argument. It should either print a valid
<literal>server</literal> option on stdout and exit with a code
of 0 or print nothing and exit with a non-zero exit code. An
example of a shell script resolving the DNS NAPTR records for
the realm and then the SRV records for each NAPTR matching
'x-eduroam:radius.tls' is provided in
<literal>tools/naptr-eduroam.sh</literal>. This option was
added in radsecproxy-1.3 but tends to crash radsecproxy versions
earlier than 1.6.
</para>
<para>
Using the <literal>LoopPrevention</literal> option here
overrides any basic setting of this option. See section
<literal>BASIC OPTIONS</literal> for details on this option.
</para>
</refsect1>
<refsect1>
<title>Realm Block</title>
<para>
When the proxy receives an Access-Request it needs to figure out
to which server it should be forwarded. This is done by looking
at the Username attribute in the request, and matching that
against the names of the defined realm blocks. The proxy will
match against the blocks in the order they are specified, using
the first match if any. If no realm matches, the proxy will
simply ignore the request. Each realm block specifies what the
server should do when a match is found. A realm block may
contain none, one or multiple <literal>server</literal> options,
and similarly <literal>accountingServer</literal> options. There
are also <literal>replyMessage</literal> and
<literal>accountingResponse</literal> options. We will discuss
these later.
</para>
<refsect2>
<title>Realm block names and matching</title>
<para>
In the general case the proxy will look for a
<literal>@</literal> in the username attribute, and try to do
an exact case insensitive match between what comes after the
<literal>@</literal> and the name of the realm block. So if
you get a request with the attribute value
<literal>anonymous@example.com</literal>, the proxy will go
through the realm names in the order they are specified,
looking for a realm block named
<literal>example.com</literal>.
</para>
<para>
There are two exceptions to this, one is the realm name
<literal>*</literal> which means match everything. Hence if
you have a realm block named <literal>*</literal>, then it
will always match. This should then be the last realm block
defined, since any blocks after this would never be
checked. This is useful for having a default.
</para>
<para>
The other exception is regular expression matching. If the
realm name starts with a <literal>/</literal>, the name is
treated as an regular expression. A case insensitive regexp
match will then be done using this regexp on the value of the
entire Username attribute. Optionally you may also have a
trailing <literal>/</literal> after the regexp. So as an
example, if you want to use regexp matching the domain
<literal>example.com</literal> you could have a realm block
named <literal>/@example\\.com$</literal>. Optinally this can
also be written <literal>/@example\\.com$/</literal>. If you
want to match all domains under the <literal>.com</literal>
top domain, you could do <literal>/@.*\\.com$</literal>. Note
that since the matching is done on the entire attribute value,
you can also use rules like
<literal>/^[a-k].*@example\\.com$/</literal> to get some of
the users in this domain to use one server, while other users
could be matched by another realm block and use another
server.
</para>
</refsect2>
<refsect2>
<title>Realm block options</title>
<para>
A realm block may contain none, one or multiple
<literal>server</literal> options. If defined, the values of
the <literal>server</literal> options must be the names of
previously defined server blocks. Normally requests will be
forwarded to the first server option defined. If there are
multiple server options, the proxy will do fail-over and use
the second server if the first is down. If the two first are
down, it will try the third etc. If say the first server comes
back up, it will go back to using that one. Currently
detection of servers being up or down is based on the use of
StatusServer (if enabled), and that TCP/TLS/DTLS connections
are up.
</para>
<para>
A realm block may also contain none, one or multiple
<literal>accountingServer</literal> options. This is used
exactly like the <literal>server</literal> option, except that
it is used for specifying where to send matching accounting
requests. The values must be the names of previously defined
server blocks. When multiple accounting servers are defined,
there is a failover mechanism similar to the one for the
<literal>server</literal> option.
</para>
<para>
If there is no <literal>server</literal> option, the proxy
will if <literal>replyMessage</literal> is specified, reply
back to the client with an Access Reject message. The message
contains a replyMessage attribute with the value as specified
by the <literal>replyMessage</literal> option. Note that this
is different from having no match since then the request is
simply ignored. You may wonder why this is useful. One example
is if you handle say all domains under say
<literal>.bv</literal>. Then you may have several realm blocks
matching the domains that exists, while for other domains
under <literal>.bv</literal> you want to send a reject. At the
same time you might want to send all other requests to some
default server. After the realms for the subdomains, you would
then have two realm definitions. One with the name
<literal>/@.*\\.bv$</literal> with no servers, followed by one
with the name <literal>*</literal> with the default server
defined. This may also be useful for blocking particular
usernames.
</para>
<para>
If there is no <literal>accountingServer</literal> option, the
proxy will normally do nothing, ignoring accounting
requests. There is however an option called
<literal>accountingResponse</literal>. If this is set to
<literal>on</literal>, the proxy will log some of the
accounting information and send an Accounting-Response
back. This is useful if you do not care much about accounting,
but want to stop clients from retransmitting accounting
requests. By default this option is set to
<literal>off</literal>.
</para>
</refsect2>
</refsect1>
<refsect1>
<title>TLS Block</title>
<para>
The TLS block specifies TLS configuration options and you need
at least one of these if you have clients or servers using
TLS/DTLS. As discussed in the client and server block
descriptions, a client or server block may reference a
particular TLS block by name. There are also however the special
TLS block names <literal>default</literal>,
<literal>defaultClient</literal> and
<literal>defaultServer</literal> which are used as defaults if
the client or server block does not reference a TLS block. Also
note that a TLS block must be defined before the client or
server block that would use it. If you want the same TLS
configuration for all TLS/DTLS clients and servers, you need
just a single tls block named <literal>default</literal>, and
the client and servers need not refer to it. If you want all
TLS/DTLS clients to use one config, and all TLS/DTLS servers to
use another, then you would be fine only defining two TLS blocks
named <literal>defaultClient</literal> and
<literal>defaultServer</literal>. If you want different clients
(or different servers) to have different TLS parameters, then
you may need to create other TLS blocks with other names, and
reference those from the client or server definitions. Note that
you could also have say a client block refer to a default, even
<literal>defaultServer</literal> if you really want to.
</para>
<para>
The available TLS block options are
<literal>CACertificateFile</literal>,
<literal>CACertificatePath</literal>,
<literal>certificateFile</literal>,
<literal>certificateKeyFile</literal>,
<literal>certificateKeyPassword</literal>,
<literal>cacheExpiry</literal>, <literal>CRLCheck</literal> and
<literal>policyOID</literal>. When doing RADIUS over TLS/DTLS,
both the client and the server present certificates, and they
are both verified by the peer. Hence you must always specify
<literal>certificateFile</literal> and
<literal>certificateKeyFile</literal> options, as well as
<literal>certificateKeyPassword</literal> if a password is
needed to decrypt the private key. Note that
<literal>CACertificateFile</literal> may be a certificate
chain. In order to verify certificates, or send a chain of
certificates to a peer, you also always need to specify
<literal>CACertificateFile</literal> or
<literal>CACertificatePath</literal>. Note that you may specify
both, in which case the certificates in
<literal>CACertificateFile</literal> are checked first. By
default CRLs are not checked. This can be changed by setting
<literal>CRLCheck</literal> to <literal>on</literal>. One can
require peer certificates to adhere to certain policies by
specifying one or multiple policyOIDs using one or multiple
<literal>policyOID</literal> options.
</para>
<para>
CA certificates and CRLs are normally cached permanently. That
is, once a CA or CRL has been read, the proxy will never attempt
to re-read it. CRLs may change relatively often and the proxy
should ideally always use the latest CRLs. Rather than
restarting the proxy, there is an option
<literal>cacheExpiry</literal> that specifies how many seconds
the CA and CRL information should be cached. Reasonable values
might be say 3600 (1 hour) or 86400 (24 hours), depending on how
frequently CRLs are updated and how critical it is to be up to
date. This option may be set to zero to disable caching.
</para>
</refsect1>
<refsect1>
<title>Rewrite Block</title>
<para>
The rewrite block specifies rules that may rewrite RADIUS
messages. It can be used to add, remove and modify specific
attributes from messages received from and sent to clients and
servers. As discussed in the client and server block
descriptions, a client or server block may reference a
particular rewrite block by name. There are however also the
special rewrite block names <literal>default</literal>,
<literal>defaultClient</literal> and
<literal>defaultServer</literal> which are used as defaults if
the client or server block does not reference a block. Also note
that a rewrite block must be defined before the client or server
block that would use it. If you want the same rewrite rules for
input from all clients and servers, you need just a single
rewrite block named <literal>default</literal>, and the client
and servers need not refer to it. If you want all clients to use
one config, and all servers to use another, then you would be
fine only defining two rewrite blocks named
<literal>defaultClient</literal> and
<literal>defaultServer</literal>. Note that these defaults are
only used for rewrite on input. No rewriting is done on output
unless explicitly specified using the
<literal>rewriteOut</literal> option.
</para>
<para>
The available rewrite block options are
<literal>addAttribute</literal>,
<literal>addVendorAttribute</literal>,
<literal>removeAttribute</literal>,
<literal>removeVendorAttribute</literal> and
<literal>modifyAttribute</literal>. They can all be specified
none, one or multiple times.
</para>
<para>
<literal>addAttribute</literal> is used to add attributes to a
message. The option value must be on the form
<literal>attribute:value</literal> where attribute is a
numerical value specifying the attribute. Simliarly, the
<literal>addVendorAttribute</literal> is used to specify a
vendor attribute to be added. The option value must be on the
form <literal>vendor:subattribute:value</literal>, where vendor
and subattribute are numerical values.
</para>
<para>
The <literal>removeAttribute</literal> option is used to specify
an attribute that should be removed from received messages. The
option value must be a numerical value specifying which
attribute is to be removed. Similarly,
<literal>removeVendorAttribute</literal> is used to specify a
vendor attribute that is to be removed. The value can be a
numerical value for removing all attributes from a given vendor,
or on the form <literal>vendor:subattribute</literal>, where
vendor and subattribute are numerical values, for removing a
specific subattribute for a specific vendor.
</para>
<para>
<literal>modifyAttribute</literal> is used to specify
modification of attributes. The value must be on the form
<literal>attribute:/regexpmatch/replacement/</literal> where
attribute is a numerical attribute type, regexpmatch is regexp
matching rule and replacement specifies how to replace the
matching regexp. Example usage:
<blockquote>
<para>
modifyAttribute 1:/^(.*)@local$/\1@example.com/
</para>
</blockquote>
</para>
</refsect1>
<refsect1>
<title>See Also</title>
<para>
<citerefentry>
<refentrytitle>radsecproxy</refentrytitle><manvolnum>1</manvolnum>
</citerefentry>,
<ulink url="https://tools.ietf.org/html/rfc6614">
<citetitle>Transport Layer Security (TLS) Encryption for RADIUS</citetitle>
</ulink>
</para>
</refsect1>
</refentry>
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