shorewall6.conf5shorewall6.confShorewall6 global configuration file/etc/shorewall6/shorewall6.confDescriptionThis file sets options that apply to Shorewall6 as a whole.The file consists of Shell comments (lines beginning with '#'),
blank lines and assignment statements
(variable=value).OPTIONSMany options have as their value a log-level.
Log levels are a method of describing to syslog (8) the importance of a
message and a number of parameters in this file have log levels as their
value.These levels are defined by syslog and are used to determine the
destination of the messages through entries in /etc/syslog.conf (5). The
syslog documentation refers to these as "priorities"; Netfilter calls them
"levels" and Shorewall6 also uses that term.Valid levels are: 7 debug
6 info
5 notice
4 warning
3 err
2 crit
1 alert
0 emergFor most Shorewall6 logging, a level of 6 (info) is appropriate.
Shorewall6 log messages are generated by NetFilter and are logged using
facility 'kern' and the level that you specifify. If you are unsure of the
level to choose, 6 (info) is a safe bet. You may specify levels by name or
by number.If you have built your kernel with NFLOG target support, you may
also specify a log level of NFLOG (must be all caps). Rather than log its
messages to syslogd, Shorewall6 will direct netfilter to log the messages
via the NFLOG target which will send them to a process called 'ulogd'.
ulogd is available with most Linux distributions (although it probably
isn't installed by default). Ulogd is also available from http://www.netfilter.org/projects/ulogd/index.html
and can be configured to log all Shorewall6 message to their own log
fileThe following options may be set in shorewall6.conf.ACCEPT_DEFAULT={action|macro|none}DROP_DEFAULT={action|macro|none}REJECT_DEFAULT={action|macro|none}QUEUE_DEFAULT={action|macro|none}NFQUEUE_DEFAULT={action|macro|none}In earlier Shorewall6 versions, a "default action" for DROP
and REJECT policies was specified in the file
/usr/share/shorewall6/actions.std.To allow for default rules to be applied when USE_ACTIONS=No,
the DROP_DEFAULT, REJECT_DEFAULT, ACCEPT_DEFAULT, QUEUE_DEFAULT and
NFQUEUE_DEFAULT options have been added.DROP_DEFAULT describes the rules to be applied before a
connection request is dropped by a DROP policy; REJECT_DEFAULT
describes the rules to be applied if a connection request is
rejected by a REJECT policy. The other three are similar for ACCEPT,
QUEUE and NFQUEUE policies.The value applied to these may be:a) The name of an
action.b) The name of a macro
(Shorewall6-shell only)c) None or noneThe default values are:DROP_DEFAULT="Drop"REJECT_DEFAULT="Reject"ACCEPT_DEFAULT="none"QUEUE_DEFAULT="none"NFQUEUE_DEFAULT="None"If USE_ACTIONS=Yes, then these values refer to action.Drop and
action.Reject respectively. If USE_ACTIONS=No, then these values
refer to macro.Drop and macro.Reject.If you set the value of either option to "None" then no
default action will be used and the default action or macro must be
specified in shorewall6-policy(5).ADMINISABSENTMINDED=[Yes|No]The value of this variable affects Shorewall6's stopped state.
When ADMINISABSENTMINDED=No, only traffic to/from those addresses
listed in shorewall6-routestopped(5)
is accepted when Shorewall6 is stopped. When
ADMINISABSENTMINDED=Yes, in addition to traffic to/from addresses in
shorewall6-routestopped(5),
connections that were active when Shorewall6 stopped continue to
work and all new connections from the firewall system itself are
allowed. If this variable is not set or is given the empty value
then ADMINISABSENTMINDED=No is assumed.AUTO_COMMENT=[Yes|No]If set, if there is not a current comment when a macro is
invoked, the behavior is as if the first line of the macro file was
"COMMENT <macro name>". The AUTO_COMMENT option has a default
value of 'Yes'.BLACKLIST_DISPOSITION=[DROP|REJECT]This parameter determines the disposition of packets from
blacklisted hosts. It may have the value DROP if the packets are to
be dropped or REJECT if the packets are to be replied with an ICMP
port unreachable reply or a TCP RST (tcp only). If you do not assign
a value or if you assign an empty value then DROP is assumed.BLACKLIST_LOGLEVEL=[log-level]This parameter determines if packets from blacklisted hosts
are logged and it determines the syslog level that they are to be
logged at. Its value is a syslog level (Example:
BLACKLIST_LOGLEVEL=debug). If you do not assign a value or if you
assign an empty value then packets from blacklisted hosts are not
logged.BLACKLISTNEWONLY={Yes|No}When set to Yes or yes, blacklists are only consulted for new
connections. When set to No or
no, blacklists are consulted for
every packet (will slow down your firewall noticably if you have
large blacklists). If the BLACKLISTNEWONLY option is not set or is
set to the empty value then BLACKLISTNEWONLY=No is assumed.BLACKLISTNEWONLY=No is incompatible with
FASTACCEPT=Yes.CLAMPMSS=[Yes|No|value]This parameter enables the TCP Clamp MSS to PMTU feature of
Netfilter and is usually required when your internet connection is
through PPPoE or PPTP. If set to Yes or yes,
the feature is enabled. If left blank or set to No or no,
the feature is not enabled.Important: This option
requires CONFIG_IP_NF_TARGET_TCPMSS in your kernel.You may also set CLAMPMSS to a numeric
value (e.g., CLAMPMSS=1400). This will set the
MSS field in TCP SYN packets going through the firewall to the
value that you specify.CLEAR_TC=[Yes|No]If this option is set to No
then Shorewall6 won't clear the current traffic control rules during
[re]start. This setting is intended for use by people that prefer to
configure traffic shaping when the network interfaces come up rather
than when the firewall is started. If that is what you want to do,
set TC_ENABLED=Yes and CLEAR_TC=No and do not supply an
/etc/shorewall6/tcstart file. That way, your traffic shaping rules
can still use the “fwmark” classifier based on packet marking
defined in shorewall6-tcrules(5). If not
specified, CLEAR_TC=No is assumed.CONFIG_PATH=[directory[:directory]...]Specifies where configuration files other than shorewall6.conf
may be found. CONFIG_PATH is specifies as a list of directory names
separated by colons (":"). When looking for a configuration file
other than shorewall6.conf:If the command is "try" or a "<configuration
directory>" was specified in the command (e.g.,
shorewall6 check ./gateway) then the
directory given in the command is searched first.Next, each directory in the CONFIG_PATH setting is
searched in sequence.
If CONFIG_PATH is not given or if it is set to the empty
value then the contents of /usr/share/shorewall6/configpath are
used. As released from shorewall.net, that file sets the
CONFIG_PATH to
/etc/shorewall6:/usr/share/shorewall6:/usr/share/shorewall but
your particular distribution may set it differently. See the
output of shorewall6 show config for the default on your
system.Note that the setting in /usr/share/shorewall6/configpath is
always used to locate shorewall6.conf.
DELETE_THEN_ADD={Yes|No}If set to Yes (the default value), entries in the
/etc/shorewall6/route_stopped files cause an 'ip rule del' command
to be generated in addition to an 'ip rule add' command. Setting
this option to No, causes the 'ip rule del' command to be
omitted.DONT_LOAD=[module[,module]...]Causes Shorewall6 to not load the listed kernel
modules.EXPAND_POLICIES={Yes|No}Normally, when the SOURCE or DEST columns in
shorewall6-policy(5) contains 'all', a single policy chain is
created and the policy is enforced in that chain. For example, if
the policy entry is#SOURCE DEST POLICY LOG
# LEVEL
net all DROP infothen the chain name is 'net2all'
which is also the chain named in Shorewall6 log messages generated
as a result of the policy. If EXPAND_POLICIES=Yes, then Shorewall6
will create a separate chain for each pair of zones covered by the
policy. This makes the resulting log messages easier to interpret
since the chain in the messages will have a name of the form 'a2b'
where 'a' is the SOURCE zone and 'b' is the DEST zone.EXPORTPARAMS={Yes|No}It is quite difficult to code a 'params' file that assigns
other than constant values such that it works correctly with
Shorewall6 Lite. The EXPORTPARAMS option works around this problem.
When EXPORTPARAMS=No, the 'params' file is not copied to the
compiler output.With EXPORTPARAMS=No, if you need to set environmental
variables on the firewall system for use by your extension scripts,
then do so in the init extension script.The default is EXPORTPARAMS=YesFASTACCEPT={Yes|No}Normally, Shorewall6 defers accepting ESTABLISHED/RELATED
packets until these packets reach the chain in which the original
connection was accepted. So for packets going from the 'loc' zone to
the 'net' zone, ESTABLISHED/RELATED packets are ACCEPTED in the
'loc2net' chain.If you set FASTACCEPT=Yes, then ESTABLISHED/RELEATED packets
are accepted early in the INPUT, FORWARD and OUTPUT chains. If you
set FASTACCEPT=Yes then you may not include rules in the ESTABLISHED
or RELATED sections of shorewall6-rules(5).FASTACCEPT=Yes is incompatible with
BLACKLISTNEWONLY=No.HIGH_ROUTE_MARKS={Yes|No}You may set HIGH_ROUTE_MARKS=Yes in to effectively divide the
packet mark and connection mark into two 8-byte mark fields.When you do this:The MARK field in the providers file must have a value
that is less than 65536 and that is a multiple of 256 (using hex
representation, the values are 0x0100-0xFF00 with the low-order
8 bits being zero).You may only set those mark values in the PREROUTING
chain.Marks used for traffic shaping must still be in the range
of 1-255 and may still not be set in the PREROUTING
chain.When you SAVE or RESTORE in tcrules, only the TC mark
value is saved or restored. Shorewall6 handles saving and
restoring the routing (provider) marks.IMPLICIT_CONTINUE={Yes|No}When this option is set to Yes, it causes subzones to be treated
differently with respect to policies.Subzones are defined by following their name with ":" and a
list of parent zones (in shorewall6-zones(5)). Normally,
you want to have a set of special rules for the subzone and if a
connection doesn't match any of those subzone-specific rules then
you want the parent zone rules and policies to be applied; see
shorewall6-nesting(5).
With IMPLICIT_CONTINUE=Yes, that happens automatically.If IMPLICIT_CONTINUE=No or if IMPLICIT_CONTINUE is not set,
then subzones are not subject to this special treatment. With
IMPLICIT_CONTINUE=Yes, an implicit CONTINUE policy may be overridden
by including an explicit policy (one that does not specify "all" in
either the SOURCE or the DEST columns).IP_FORWARDING=[On|Off|Keep]This parameter determines whether Shorewall6 enables or
disables IPV4 Packet Forwarding (/proc/sys/net/ipv4/ip_forward).
Possible values are:On or onpacket forwarding will be enabled.Off or offpacket forwarding will be disabled.Keep or keepShorewall6 will neither enable nor disable packet
forwarding.
If this variable is not set or is given an empty value
(IP_FORWARD="") then IP_FORWARD=On is assumed.
IP6TABLES=[pathname]This parameter names the ip6tables executable to be used by
Shorewall6. If not specified or if specified as a null value, then
the ip6tables executable located using the PATH option is
used.Regardless of how the ip6tables utility is located (specified
via IP6TABLES= or located via PATH), Shorewall6 uses the
ip6tables-restore and ip6tables-save utilities from that same
directory.KEEP_RT_TABLES={Yes|No}When set to , this option prevents scripts
generated by Shorewall6 from altering the /etc/iproute2/rt_tables
database when there are entries in
/etc/shorewall6/providers. If you set this
option to while Shorewall6 (Shorewall6-lite) is
running, you should remove the file
/var/lib/shorewall6/rt_tables
(/var/lib/shorewall6-lite/rt_tables) before
your next stop, refresh,
restore on restart
command.The default is KEEP_RT_TABLES=No.LOG_VERBOSITY=[number]This option controls the amount of information logged to the
file specified in the STARTUP_LOG option.Values are:-1 - Logging is disabled0 - Silent. Only error messages are logged.1 - Major progress messages logged.2 - All progress messages loggedIf not specified, then -1 is assumed.LOGALLNEW=[log-level]This option is intended for use as a debugging aid. When set
to a log level, this option causes Shorewall6 to generate a logging
rule as the first rule in each builtin chain.The table name is used as the chain name in the log
prefix.The chain name is used as the target in the log
prefix.
For example, using the default LOGFORMAT, the log prefix for
logging from the nat table's PREROUTING chain is: Shorewall:nat:PREROUTING
To help insure that all packets in the NEW state are
logged, rate limiting (LOGBURST and LOGRATE) should be disabled
when using LOGALLNEW. Use LOGALLNEW at your own risk; it may
cause high CPU and disk utilization and you may not be able to
control your firewall after you enable this option.Do not use this option if the resulting log messages will
be sent to another system.
LOGFILE=[pathname]This parameter tells the /sbin/shorewall6 program where to
look for Shorewall6 messages when processing the dump, logwatch, show
log, and hits commands.
If not assigned or if assigned an empty value, /var/log/messages is
assumed.LOGFORMAT=["formattemplate"]The value of this variable generate the --log-prefix setting
for Shorewall6 logging rules. It contains a “printf” formatting
template which accepts three arguments (the chain name, logging rule
number (optional) and the disposition). To use LOGFORMAT with
fireparse, set it as: LOGFORMAT="fp=%s:%d a=%s "If the LOGFORMAT value contains the substring “%d” then the
logging rule number is calculated and formatted in that position; if
that substring is not included then the rule number is not included.
If not supplied or supplied as empty (LOGFORMAT="") then
“Shorewall6:%s:%s:” is assumed.LOGBURST=[burst]LOGRATE=[rate/{minute|second}]These parameters set the match rate and initial burst size for
logged packets. Please see ip6tables(8) for a description of the
behavior of these parameters (the ip6tables option --limit is set by
LOGRATE and --limit-burst is set by LOGBURST). If both parameters
are set empty, no rate-limiting will occur.Example: LOGRATE=10/minute
LOGBURST=5For each logging rule, the first time the rule is reached, the
packet will be logged; in fact, since the burst is 5, the first five
packets will be logged. After this, it will be 6 seconds (1 minute
divided by the rate of 10) before a message will be logged from the
rule, regardless of how many packets reach it. Also, every 6 seconds
which passes without matching a packet, one of the bursts will be
regained; if no packets hit the rule for 30 seconds, the burst will
be fully recharged; back where we started.LOGTAGONLY=[Yes|No]Using the default LOGFORMAT, chain names may not exceed 11
characters or truncation of the log prefix may occur. Longer chain
names may be used with log tags if you set LOGTAGONLY=Yes. With
LOGTAGONLY=Yes, if a log tag is specified then the tag is included
in the log prefix in place of the chain name.MACLIST_DISPOSITION=[ACCEPT|DROP|REJECT]Determines the disposition of connections requests that fail
MAC Verification and must have the value ACCEPT (accept the
connection request anyway), REJECT (reject the connection request)
or DROP (ignore the connection request). If not set or if set to the
empty value (e.g., MACLIST_DISPOSITION="") then
MACLIST_DISPOSITION=REJECT is assumed.MACLIST_LOG_LEVEL=[log-level]Determines the syslog level for logging connection requests
that fail MAC Verification. The value must be a valid syslogd log
level. If you don't want to log these connection requests, set to
the empty value (e.g., MACLIST_LOG_LEVEL="").MACLIST_TABLE=[filter|mangle]Normally, MAC verification occurs in the filter table (INPUT
and FORWARD) chains. When forwarding a packet from an interface with
MAC verification to a bridge interface, that doesn't work.This problem can be worked around by setting
MACLIST_TABLE=mangle which will cause Mac verification to occur out
of the PREROUTING chain. Because REJECT isn't available in that
environment, you may not specify MACLIST_DISPOSITION=REJECT with
MACLIST_TABLE=mangle.MARK_IN_FORWARD_CHAIN=[Yes|No]If your kernel has a FORWARD chain in the mangle table, you
may set MARK_IN_FORWARD_CHAIN=Yes to cause the marking specified in
the tcrules file to occur in that chain rather than in the
PREROUTING chain. This permits you to mark inbound traffic based on
its destination address when DNAT is in use. To determine if your
kernel has a FORWARD chain in the mangle table, use the /sbin/shorewall6 show mangle command; if a
FORWARD chain is displayed then your kernel will support this
option. If this option is not specified or if it is given the empty
value (e.g., MARK_IN_FORWARD_CHAIN="") then MARK_IN_FORWARD_CHAIN=No
is assumed.MODULE_SUFFIX=["extension ..."]The value of this option determines the possible file
extensions of kernel modules. The default value is "o gz ko
o.gz".MODULESDIR=[pathname[:pathname]...]This parameter specifies the directory/directories where your
kernel netfilter modules may be found. If you leave the variable
empty, Shorewall6 will supply the value "/lib/modules/`uname
-r`/kernel/net/ipv4/netfilter" in versions of Shorewall6 prior to
3.2.4 and "/lib/modules/`uname
-r`/kernel/net/ipv4/netfilter:/lib/modules/`uname
-r`/kernel/net/ipv4/netfilter" in later versions.MUTEX_TIMEOUT=[seconds]The value of this variable determines the number of seconds
that programs will wait for exclusive access to the Shorewall6 lock
file. After the number of seconds corresponding to the value of this
variable, programs will assume that the last program to hold the
lock died without releasing the lock.If not set or set to the empty value, a value of 60 (60
seconds) is assumed.An appropriate value for this parameter would be twice the
length of time that it takes your firewall system to process a
shorewall6 restart command.OPTIMIZE=[0|1]Traditionally, Shorewall6 has created rules for the complete matrix of host
groups defined by the zones, interfaces and hosts files. Any
traffic that didn't correspond to an element of that matrix was
rejected in one of the built-in chains. When the matrix is sparse,
this results in lots of largely useless rules.These extra rules can be eliminated by setting
OPTIMIZE=1.The OPTIMIZE setting also controls the suppression of
redundant wildcard rules (those specifying "all" in the SOURCE or
DEST column). A wildcard rule is considered to be redundant when it
has the same ACTION and Log Level as the applicable policy.PATH=pathname[:pathname]...Determines the order in which Shorewall6 searches directories
for executable files.RCP_COMMAND="command"RSH_COMMAND="command"Eariler generations of Shorewall6 Lite required that remote
root login via ssh be enabled in order to use the
load and reload commands.
Beginning with release 3.9.5, you may define an alternative means
for accessing the remote firewall system. In that release, two new
options were added to shorewall6.conf:RSH_COMMANDRCP_COMMANDThe default values for these are as
follows:RSH_COMMAND: ssh ${root}@${system} ${command}RCP_COMMAND: scp ${files}
${root}@${system}:${destination}Shell variables that will be set when the commands
are envoked are as follows:root - root user. Normally
but may be overridden using the '-r'
option.system - The name/IP address
of the remote firewall system.command - For RSH_COMMAND,
the command to be executed on the firewall system.files - For RCP_COMMAND, a
space-separated list of files to be copied to the remote
firewall system.destination - The directory
on the remote system that the files are to be copied
into.RESTOREFILE=filenameSpecifies the simple name of a file in /var/lib/shorewall6 to
be used as the default restore script in the shorewall6 save, shorewall6 restore, shorewall6 forget and shorewall6 -f start commands.SAVE_IPSETS={Yes|No}If SAVE_IPSETS=Yes, then the current contents of your ipsets
will be saved by the shorewall6
save command. Regardless of the setting of SAVE_IPSETS,
if saved ipset contents are available then they will be restored by
shorewall6 restore.SHOREWALL_SHELL=[pathname]This option is used to specify the shell program to be used to
interpret the compiled script. If not specified or specified as a
null value, /bin/sh is assumed. Using a light-weight shell such as
ash or dash can significantly improve performance.SMURF_LOG_LEVEL=[log-level]Specifies the logging level for smurf packets (see the
nosmurfs option in shorewall6-interfaces(5)).
If set to the empty value ( SMURF_LOG_LEVEL="" ) then smurfs are not
logged.STARTUP_ENABLED={Yes|No}Determines if Shorewall6 is allowed to start. As released from
shorewall.net, this option is set to No. When set to Yes or yes,
Shorewall6 may be started. Used as a guard against Shorewall6 being
accidentally started before it has been configured.STARTUP_LOG=[pathname]If specified, determines where Shorewall6 will log the details
of each start, restart and refresh command. Logging verbosity is
determined by the setting of LOG_VERBOSITY above.SUBSYSLOCK=[pathname]This parameter should be set to the name of a file that the
firewall should create if it starts successfully and remove when it
stops. Creating and removing this file allows Shorewall6 to work
with your distribution's initscripts. For RedHat, this should be set
to /var/lock/subsys/shorewall6. For Debian, the value is
/var/state/shorewall6 and in LEAF it is /var/run/shorwall.TC_ENABLED=[Yes|No|Internal]If you say Yes or yes here, Shorewall6 will use a script that
you supply to configure traffic shaping. The script must be named
'tcstart' and must be placed in a directory on your
CONFIG_PATH.If you say No or no then traffic shaping is not
enabled.If you set TC_ENABLED=Internal or internal or leave the option
empty then Shorewall6 will use its builtin traffic shaper
(tc4shorewall6 written by Arne Bernin.TC_EXPERT={Yes|No}Normally, Shorewall6 tries to protect users from themselves by
preventing PREROUTING and OUTPUT tcrules from being applied to
packets that have been marked by the 'track' option in shorewall6-providers(5).If you know what you are doing, you can set TC_EXPERT=Yes and
Shorewall6 will not include these cautionary checks.TCP_FLAGS_DISPOSITION=[ACCEPT|DROP|REJECT]Determines the disposition of TCP packets that fail the checks
enabled by the tcpflags interface
option (see shorewall6-interfaces(5))
and must have a value of ACCEPT (accept the packet), REJECT (send an
RST response) or DROP (ignore the packet). If not set or if set to
the empty value (e.g., TCP_FLAGS_DISPOSITION="") then
TCP_FLAGS_DISPOSITION=DROP is assumed.TCP_FLAGS_LOG_LEVEL=[log-level]Determines the syslog level for logging packets that fail the
checks enabled by the tcpflags interface option. The value must be a
valid syslogd log level. If you don't want to log these packets, set
to the empty value (e.g., TCP_FLAGS_LOG_LEVEL="").VERBOSITY=[number]Shorewall6 has traditionally been very noisy (produced lots of
output). You may set the default level of verbosity using the
VERBOSITY OPTION.Values are:0 - Silent. You may make it more verbose using the -v
option1 - Major progress messages displayed2 - All progress messages displayed (pre Shorewall6-3.2.0
behavior)If not specified, then 2 is assumed.FILES/etc/shorewall6/shorewall6.confSee ALSOshorewall6(8), shorewall6-accounting(5), shorewall6-actions(5),
shorewall6-blacklist(5), shorewall6-hosts(5), shorewall6-interfaces(5),
shorewall6-ipsec(5), shorewall6-maclist(5), shorewall6-masq(5),
shorewall6-nat(5), shorewall6-netmap(5), shorewall6-params(5),
shorewall6-policy(5), shorewall6-providers(5), shorewall6-proxyarp(5),
shorewall6-route_rules(5), shorewall6-routestopped(5),
shorewall6-rules(5), shorewall6-tcclasses(5), shorewall6-tcdevices(5),
shorewall6-tcrules(5), shorewall6-tos(5), shorewall6-tunnels(5),
shorewall6-zones(5)