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17.2. TCP Wrappers Configuration Files
To determine if a client machine is allowed to connect to a service, TCP wrappers reference the following two files, which are commonly referred to as hosts access files:
/etc/hosts.allow
/etc/hosts.deny
When a client request is received by a TCP wrapped service, it takes the following basic steps:
- References
/etc/hosts.allow
. — The TCP wrapped service sequentially parses the/etc/hosts.allow
file and applies the first rule specified for that service. If it finds a matching rule, it allows the connection. If not, it moves on to the next step. - References
/etc/hosts.deny
. — The TCP wrapped service sequentially parses the/etc/hosts.deny
file. If it finds a matching rule, it denies the connection. If not, access to the service is granted.
The following are important points to consider when using TCP wrappers to protect network services:
- Because access rules in
hosts.allow
are applied first, they take precedence over rules specified inhosts.deny
. Therefore, if access to a service is allowed inhosts.allow
, a rule denying access to that same service inhosts.deny
is ignored. - The rules in each file are read from the top down and the first matching rule for a given service is the only one applied. The order of the rules is extremely important.
- If no rules for the service are found in either file, or if neither file exists, access to the service is granted.
- TCP wrapped services do not cache the rules from the hosts access files, so any changes to
hosts.allow
orhosts.deny
take effect immediately without restarting network services.
Warning
If the last line of a hosts access file is not a newline character (created by pressing the Enter key), the last rule in the file fails and an error is logged to either
/var/log/messages
or /var/log/secure
. This is also the case for a rule that spans multiple lines without using the backslash. The following example illustrates the relevant portion of a log message for a rule failure due to either of these circumstances:
warning: /etc/hosts.allow, line 20: missing newline or line too long
17.2.1. Formatting Access Rules
The format for both
/etc/hosts.allow
and /etc/hosts.deny
are identical. Any blank lines or lines that start with a hash mark (#
) are ignored, and each rule must be on its own line.
Each rule uses the following basic format to control access to network services:
<daemon list>: <client list> [: <option>: <option>: ...]
- <daemon list> — A comma separated list of process names (not service names) or the
ALL
wildcard (refer to Section 17.2.1.1, “Wildcards”). The daemon list also accepts operators (refer to Section 17.2.1.4, “Operators”) to allow greater flexibility. - <client list> — A comma separated list of hostnames, host IP addresses, special patterns (refer to Section 17.2.1.2, “Patterns”), or special wildcards (refer to Section 17.2.1.1, “Wildcards”) which identify the hosts effected by the rule. The client list also accepts operators listed in Section 17.2.1.4, “Operators” to allow greater flexibility.
- <option> — An optional action or colon separated list of actions performed when the rule is triggered. Option fields support expansions (refer to Section 17.2.2.4, “Expansions”), launch shell commands, allow or deny access, and alter logging behavior (refer to Section 17.2.2, “Option Fields”).
The following is a basic sample hosts access rule:
vsftpd : .example.com
This rule instructs TCP wrappers to watch for connections to the FTP daemon (
vsftpd
) from any host in the example.com
domain. If this rule appears in hosts.allow
, the connection is accepted. If this rule appears in hosts.deny
, the connection is rejected.
The next sample hosts access rule is more complex and uses two option fields:
sshd : .example.com \ : spawn /bin/echo `/bin/date` access denied>>/var/log/sshd.log \ : deny
Note that each option field is preceded by the backslash (
\
). Use of the backslash prevents failure of the rule due to length.
This sample rule states that if a connection to the SSH daemon (
sshd
) is attempted from a host in the example.com
domain, execute the echo
command (which logs the attempt to a special file), and deny the connection. Because the optional deny
directive is used, this line denies access even if it appears in the hosts.allow
file. For a more detailed look at available options, refer to Section 17.2.2, “Option Fields”.
17.2.1.1. Wildcards
Wildcards allow TCP wrappers to more easily match groups of daemons or hosts. They are used most frequently in the client list field of access rules.
The following wildcards may be used:
ALL
— Matches everything. It can be used for both the daemon list and the client list.LOCAL
— Matches any host that does not contain a period (.
), such as localhost.KNOWN
— Matches any host where the hostname and host address are known or where the user is known.UNKNOWN
— Matches any host where the hostname or host address are unknown or where the user is unknown.PARANOID
— Matches any host where the hostname does not match the host address.
Warning
The
KNOWN
, UNKNOWN
, and PARANOID
wildcards should be used with care as a disruption in name resolution may prevent legitimate users from gaining access to a service.
17.2.1.2. Patterns
Patterns can be used in the client list field of access rules to more precisely specify groups of client hosts.
The following is a list of the most common accepted patterns for a client list entry:
- Hostname beginning with a period (
.
) — Placing a period at the beginning of a hostname matches all hosts sharing the listed components of the name. The following example applies to any host within theexample.com
domain:ALL : .example.com
- IP address ending with a period (
.
) — Placing a period at the end of an IP address matches all hosts sharing the initial numeric groups of an IP address. The following example applies to any host within the192.168.x.x
network:ALL : 192.168.
- IP address/netmask pair — Netmask expressions can also be used as a pattern to control access to a particular group of IP addresses. The following example applies to any host with an address range of
192.168.0.0
through192.168.1.255
:ALL : 192.168.0.0/255.255.254.0
Important
When working in the IPv4 address space, the address/prefix length (prefixlen) pair declarations are not supported. Only IPv6 rules can use this format. - [IPv6 address]/prefixlen pair — [net]/prefixlen pairs can also be used as a pattern to control access to a particular group of IPv6 addresses. The following example would apply to any host with an address range of
3ffe:505:2:1::
through3ffe:505:2:1:ffff:ffff:ffff:ffff
:ALL : [3ffe:505:2:1::]/64
- The asterisk (
*
) — Asterisks can be used to match entire groups of hostnames or IP addresses, as long as they are not mixed in a client list containing other types of patterns. The following example would apply to any host within theexample.com
domain:ALL : *.example.com
- The slash (
/
) — If a client list begins with a slash, it is treated as a file name. This is useful if rules specifying large numbers of hosts are necessary. The following example refers TCP wrappers to the/etc/telnet.hosts
file for all Telnet connections:in.telnetd : /etc/telnet.hosts
Other, lesser used, patterns are also accepted by TCP wrappers. Refer to the
hosts_access
man 5 page for more information.
Warning
Be very careful when using hostnames and domain names. Attackers can use a variety of tricks to circumvent accurate name resolution. In addition, disruption in DNS service prevents even authorized users from using network services.
It is, therefore, best to use IP addresses whenever possible.
17.2.1.3. Portmap and TCP Wrappers
When creating access control rules for
portmap
, do not use hostnames as portmap
's implementation of TCP wrappers does not support host look ups. For this reason, only use IP addresses or the keyword ALL
when specifying hosts in hosts.allow
or hosts.deny
.
In addition, changes to
portmap
access control rules may not take affect immediately without restarting the portmap
service.
Widely used services, such as NIS and NFS, depend on
portmap
to operate, so be aware of these limitations.
17.2.1.4. Operators
At present, access control rules accept one operator,
EXCEPT
. It can be used in both the daemon list and the client list of a rule.
The
EXCEPT
operator allows specific exceptions to broader matches within the same rule.
In the following example from a
hosts.allow
file, all example.com
hosts are allowed to connect to all services except cracker.example.com
:
ALL: .example.com EXCEPT cracker.example.com
In the another example from a
hosts.allow
file, clients from the 192.168.0.x network can use all services except for FTP:
ALL EXCEPT vsftpd: 192.168.0.
Note
Organizationally, it is often easier to avoid using
EXCEPT
operators. This allows other administrators to quickly scan the appropriate files to see what hosts are allowed or denied access to services, without having to sort through EXCEPT
operators.