11 Inet Configuration
11.1 Introduction
This section describes how the Erlang runtime system is configured for IP communication. It also explains how you can configure it for your needs by a configuration file. The information is primarily intended for users with special configuration needs or problems. There is normally no need for specific settings for Erlang to function properly on a correctly IP-configured platform.
When Erlang starts up it reads the Kernel variable inetrc
, which, if defined, is to specify the location and name of a user configuration file. Example:
% erl -kernel inetrc '"./cfg_files/erl_inetrc"'
Notice that the use of an .inetrc
file, which was supported in earlier Erlang/OTP versions, is now obsolete.
A second way to specify the configuration file is to set environment variable ERL_INETRC
to the full name of the file. Example (bash):
% export ERL_INETRC=./cfg_files/erl_inetrc
Notice that the Kernel variable inetrc
overrides this environment variable.
If no user configuration file is specified and Erlang is started in non-distributed or short name distributed mode, Erlang uses default configuration settings and a native lookup method that works correctly under most circumstances. Erlang reads no information from system inet
configuration files (such as /etc/host.conf
and /etc/nsswitch.conf
) in these modes, except for /etc/resolv.conf
and /etc/hosts
that is read and monitored for changes on Unix platforms for the internal DNS client inet_res(3)
.
If Erlang is started in long name distributed mode, it needs to get the domain name from somewhere and reads system inet
configuration files for this information. Any hosts and resolver information found is also recorded, but not used as long as Erlang is configured for native lookups. The information becomes useful if the lookup method is changed to 'file'
or 'dns'
, see below.
Native lookup (system calls) is always the default resolver method. This is true for all platforms, except VxWorks and OSE Delta where 'file'
or 'dns'
is used (in that priority order).
On Windows platforms, Erlang searches the system registry rather than looks for configuration files when started in long name distributed mode.
11.2 Configuration Data
Erlang records the following data in a local database if found in system inet
configuration files (or system registry):
- Hostnames and host addresses
- Domain name
- Nameservers
- Search domains
- Lookup method
This data can also be specified explicitly in the user configuration file. This file is to contain lines of configuration parameters (each terminated with a full stop). Some parameters add data to the configuration (such as host and nameserver), others overwrite any previous settings (such as domain and lookup). The user configuration file is always examined last in the configuration process, making it possible for the user to override any default values or previously made settings. Call inet:get_rc()
to view the state of the inet
configuration database.
The valid configuration parameters are as follows:
{file, Format, File}.
-
Format = atom()
File = string()
Specify a system file that Erlang is to read configuration data from.
Format
tells the parser how the file is to be interpreted:-
resolv
(Unix resolv.conf) -
host_conf_freebsd
(FreeBSD host.conf) -
host_conf_bsdos
(BSDOS host.conf) -
host_conf_linux
(Linux host.conf) -
nsswitch_conf
(Unix nsswitch.conf) -
hosts
(Unix hosts)
File
is to specify the filename with full path. -
{resolv_conf, File}.
-
File = string()
Specify a system file that Erlang is to read resolver configuration from for the internal DNS client
inet_res(3)
, and monitor for changes, even if it does not exist. The path must be absolute.This can override the configuration parameters
nameserver
andsearch
depending on the contents of the specified file. They can also change any time in the future reflecting the file contents.If the file is specified as an empty string
""
, no file is read or monitored in the future. This emulates the old behavior of not configuring the DNS client when the node is started in short name distributed mode.If this parameter is not specified, it defaults to
/etc/resolv.conf
unless environment variableERL_INET_ETC_DIR
is set, which defines the directory for this file to some maybe other than/etc
. {hosts_file, File}.
-
File = string()
Specify a system file that Erlang is to read resolver configuration from for the internal hosts file resolver, and monitor for changes, even if it does not exist. The path must be absolute.
These host entries are searched after all added with
{file, hosts, File}
above or{host, IP, Aliases}
below when lookup optionfile
is used.If the file is specified as an empty string
""
, no file is read or monitored in the future. This emulates the old behavior of not configuring the DNS client when the node is started in short name distributed mode.If this parameter is not specified, it defaults to
/etc/hosts
unless environment variableERL_INET_ETC_DIR
is set, which defines the directory for this file to some maybe other than/etc
. {registry, Type}.
-
Type = atom()
Specify a system registry that Erlang is to read configuration data from.
win32
is the only valid option. {host, IP, Aliases}.
-
IP = tuple()
Aliases = [string()]
Add host entry to the hosts table.
{domain, Domain}.
-
Domain = string()
Set domain name.
{nameserver, IP [,Port]}.
-
IP = tuple()
Port = integer()
Add address (and port, if other than default) of the primary nameserver to use for
inet_res(3)
. {alt_nameserver, IP [,Port]}.
-
IP = tuple()
Port = integer()
Add address (and port, if other than default) of the secondary nameserver for
inet_res(3)
. {search, Domains}.
-
Domains = [string()]
Add search domains for
inet_res(3)
. {lookup, Methods}.
-
Methods = [atom()]
Specify lookup methods and in which order to try them. The valid methods are as follows:
-
native
(use system calls) -
file
(use host data retrieved from system configuration files and/or the user configuration file) -
dns
(use the Erlang DNS clientinet_res(3)
for nameserver queries)
The lookup method
string
tries to parse the hostname as an IPv4 or IPv6 string and return the resulting IP address. It is automatically tried first whennative
is not in theMethods
list. To skip it in this case, the pseudo lookup methodnostring
can be inserted anywhere in theMethods
list. -
{cache_size, Size}.
-
Size = integer()
Set the resolver cache size for
dns
lookups.native
lookups are not cached. Defaults to 100 DNS records. {cache_refresh, Time}.
-
Time = integer()
Set how often (in milliseconds) the resolver cache for
inet_res(3)
is refreshed (that is, expired DNS records are deleted). Defaults to 1 hour. {timeout, Time}.
-
Time = integer()
Set the time to wait until retry (in milliseconds) for DNS queries made by
inet_res(3)
. Defaults to 2 seconds. {retry, N}.
-
N = integer()
Set the number of DNS queries
inet_res(3)
will try before giving up. Defaults to 3. {servfail_retry_timeout, Time}.
-
Time = non_neg_integer()
After all name servers have been tried, there is a timeout before the name servers are tried again. This is to prevent the server from answering the query with what's in the servfail cache,
inet_res(3)
. Defaults to 1500 milli seconds . {inet6, Bool}.
-
Bool = true | false
Tells the DNS client
inet_res(3)
to look up IPv6 addresses. Defaults tofalse
. {usevc, Bool}.
-
Bool = true | false
Tells the DNS client
inet_res(3)
to use TCP (Virtual Circuit) instead of UDP. Defaults tofalse
. {edns, Version}.
-
Version = false | 0
Sets the EDNS version that
inet_res(3)
will use. The only allowed version is zero. Defaults tofalse
, which means not to use EDNS. {udp_payload_size, Size}.
-
N = integer()
Sets the allowed UDP payload size
inet_res(3)
will advertise in EDNS queries. Also sets the limit when the DNS query will be deemed too large for UDP forcing a TCP query instead; this is not entirely correct, as the advertised UDP payload size of the individual nameserver is what is to be used, but this simple strategy will do until a more intelligent (probing, caching) algorithm needs to be implemented. Default to 1280, which stems from the standard Ethernet MTU size. {udp, Module}.
-
Module = atom()
Tell Erlang to use another primitive UDP module than
inet_udp
. {tcp, Module}.
-
Module = atom()
Tell Erlang to use another primitive TCP module than
inet_tcp
. clear_hosts.
-
Clear the hosts table.
clear_ns.
-
Clear the list of recorded nameservers (primary and secondary).
clear_search.
-
Clear the list of search domains.
11.3 User Configuration Example
Assume that a user does not want Erlang to use the native lookup method, but wants Erlang to read all information necessary from start and use that for resolving names and addresses. If lookup fails, Erlang is to request the data from a nameserver (using the Erlang DNS client, set to use EDNS allowing larger responses). The resolver configuration is updated when its configuration file changes. Also, DNS records are never to be cached. The user configuration file (in this example named erl_inetrc
, stored in directory ./cfg_files
) can then look as follows (Unix):
%% -- ERLANG INET CONFIGURATION FILE -- %% read the hosts file {file, hosts, "/etc/hosts"}. %% add a particular host {host, {134,138,177,105}, ["finwe"]}. %% do not monitor the hosts file {hosts_file, ""}. %% read and monitor nameserver config from here {resolv_conf, "/usr/local/etc/resolv.conf"}. %% enable EDNS {edns,0}. %% disable caching {cache_size, 0}. %% specify lookup method {lookup, [file, dns]}.
And Erlang can, for example, be started as follows:
% erl -sname my_node -kernel inetrc '"./cfg_files/erl_inetrc"'
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