extensions/libip6t_REJECT.man - manifest_repos/iptables - Git at Google

 This is used to send back an error packet in response to the matched
 packet: otherwise it is equivalent to
 .B DROP
 so it is a terminating TARGET, ending rule traversal.
 This target is only valid in the
 .BR INPUT ,
 .B FORWARD
 and
 .B OUTPUT
 chains, and user-defined chains which are only called from those
 chains.  The following option controls the nature of the error packet
 returned:
 .TP
 \fB\-\-reject\-with\fP \fItype\fP
 The type given can be
 \fBicmp6\-no\-route\fP,
 \fBno\-route\fP,
 \fBicmp6\-adm\-prohibited\fP,
 \fBadm\-prohibited\fP,
 \fBicmp6\-addr\-unreachable\fP,
 \fBaddr\-unreach\fP, or
 \fBicmp6\-port\-unreachable\fP,
 which return the appropriate ICMPv6 error message (\fBicmp6\-port\-unreachable\fP is
 the default). Finally, the option
 \fBtcp\-reset\fP
 can be used on rules which only match the TCP protocol: this causes a
 TCP RST packet to be sent back.  This is mainly useful for blocking
 .I ident
 (113/tcp) probes which frequently occur when sending mail to broken mail
 hosts (which won't accept your mail otherwise).
 \fBtcp\-reset\fP
 can only be used with kernel versions 2.6.14 or later.
 .PP
 \fIWarning:\fP You should not indiscriminately apply the REJECT target to
 packets whose connection state is classified as INVALID; instead, you should
 only DROP these.
 .PP
 Consider a source host transmitting a packet P, with P experiencing so much
 delay along its path that the source host issues a retransmission, P_2, with
 P_2 being successful in reaching its destination and advancing the connection
 state normally. It is conceivable that the late-arriving P may be considered
 not to be associated with any connection tracking entry. Generating a reject
 response for a packet so classed would then terminate the healthy connection.
 .PP
 So, instead of:
 .PP
 -A INPUT ... -j REJECT
 .PP
 do consider using:
 .PP
 -A INPUT ... -m conntrack --ctstate INVALID -j DROP
 -A INPUT ... -j REJECT
	This is used to send back an error packet in response to the matched
	packet: otherwise it is equivalent to
	.B DROP
	so it is a terminating TARGET, ending rule traversal.
	This target is only valid in the
	.BR INPUT ,
	.B FORWARD
	and
	.B OUTPUT
	chains, and user-defined chains which are only called from those
	chains. The following option controls the nature of the error packet
	returned:
	.TP
	\fB\-\-reject\-with\fP \fItype\fP
	The type given can be
	\fBicmp6\-no\-route\fP,
	\fBno\-route\fP,
	\fBicmp6\-adm\-prohibited\fP,
	\fBadm\-prohibited\fP,
	\fBicmp6\-addr\-unreachable\fP,
	\fBaddr\-unreach\fP, or
	\fBicmp6\-port\-unreachable\fP,
	which return the appropriate ICMPv6 error message (\fBicmp6\-port\-unreachable\fP is
	the default). Finally, the option
	\fBtcp\-reset\fP
	can be used on rules which only match the TCP protocol: this causes a
	TCP RST packet to be sent back. This is mainly useful for blocking
	.I ident
	(113/tcp) probes which frequently occur when sending mail to broken mail
	hosts (which won't accept your mail otherwise).
	\fBtcp\-reset\fP
	can only be used with kernel versions 2.6.14 or later.
	.PP
	\fIWarning:\fP You should not indiscriminately apply the REJECT target to
	packets whose connection state is classified as INVALID; instead, you should
	only DROP these.
	.PP
	Consider a source host transmitting a packet P, with P experiencing so much
	delay along its path that the source host issues a retransmission, P_2, with
	P_2 being successful in reaching its destination and advancing the connection
	state normally. It is conceivable that the late-arriving P may be considered
	not to be associated with any connection tracking entry. Generating a reject
	response for a packet so classed would then terminate the healthy connection.
	.PP
	So, instead of:
	.PP
	-A INPUT ... -j REJECT
	.PP
	do consider using:
	.PP
	-A INPUT ... -m conntrack --ctstate INVALID -j DROP
	-A INPUT ... -j REJECT