Current Path : /usr/share/examples/pf/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/share/examples/pf/faq-example3 |
# $FreeBSD: release/9.1.0/share/examples/pf/faq-example3 173536 2007-11-11 01:16:51Z mlaier $ # $OpenBSD: faq-example3,v 1.4 2006/10/07 04:48:01 mcbride Exp $ # # Company Network # http://www.openbsd.org/faq/pf/queueing.html#example2 # # enable queueing on the external interface to queue packets going out # to the Internet. use the cbq scheduler so that the bandwidth use of # each queue can be controlled. the max outgoing bandwidth is 1.5Mbps. altq on fxp0 cbq bandwidth 1.5Mb queue { std_ext, www_ext, boss_ext } # define the parameters for the child queues. # std_ext - the standard queue. also the default queue for # outgoing traffic on fxp0. # www_ext - container queue for WWW server queues. limit to # 500Kbps. # www_ext_http - http traffic from the WWW server; higher priority. # www_ext_misc - all non-http traffic from the WWW server. # boss_ext - traffic coming from the boss's computer. queue std_ext bandwidth 500Kb cbq(default borrow) queue www_ext bandwidth 500Kb { www_ext_http, www_ext_misc } queue www_ext_http bandwidth 50% priority 3 cbq(red borrow) queue www_ext_misc bandwidth 50% priority 1 cbq(borrow) queue boss_ext bandwidth 500Kb priority 3 cbq(borrow) # enable queueing on the internal interface to control traffic coming # from the Internet or the DMZ. use the cbq scheduler to control the # bandwidth of each queue. bandwidth on this interface is set to the # maximum. traffic coming from the DMZ will be able to use all of this # bandwidth while traffic coming from the Internet will be limited to # 1.0Mbps (because 0.5Mbps (500Kbps) is being allocated to fxp1). altq on dc0 cbq bandwidth 100% queue { net_int, www_int } # define the parameters for the child queues. # net_int - container queue for traffic from the Internet. bandwidth # is 1.0Mbps. # std_int - the standard queue. also the default queue for outgoing # traffic on dc0. # it_int - traffic to the IT Dept network; reserve them 500Kbps. # boss_int - traffic to the boss's PC; assign a higher priority. # www_int - traffic from the WWW server in the DMZ; full speed. queue net_int bandwidth 1.0Mb { std_int, it_int, boss_int } queue std_int bandwidth 250Kb cbq(default borrow) queue it_int bandwidth 500Kb cbq(borrow) queue boss_int bandwidth 250Kb priority 3 cbq(borrow) queue www_int bandwidth 99Mb cbq(red borrow) # enable queueing on the DMZ interface to control traffic destined for # the WWW server. cbq will be used on this interface since detailed # control of bandwidth is necessary. bandwidth on this interface is set # to the maximum. traffic from the internal network will be able to use # all of this bandwidth while traffic from the Internet will be limited # to 500Kbps. altq on fxp1 cbq bandwidth 100% queue { internal_dmz, net_dmz } # define the parameters for the child queues. # internal_dmz - traffic from the internal network. # net_dmz - container queue for traffic from the Internet. # net_dmz_http - http traffic; higher priority. # net_dmz_misc - all non-http traffic. this is also the default queue. queue internal_dmz bandwidth 99Mb cbq(borrow) queue net_dmz bandwidth 500Kb { net_dmz_http, net_dmz_misc } queue net_dmz_http bandwidth 50% priority 3 cbq(red borrow) queue net_dmz_misc bandwidth 50% priority 1 cbq(default borrow) # ... in the filtering section of pf.conf ... main_net = "192.168.0.0/24" it_net = "192.168.1.0/24" int_nets = "{ 192.168.0.0/24, 192.168.1.0/24 }" dmz_net = "10.0.0.0/24" boss = "192.168.0.200" wwwserv = "10.0.0.100" # default deny block on { fxp0, fxp1, dc0 } all # filter rules for fxp0 inbound pass in on fxp0 proto tcp from any to $wwwserv port { 21, \ > 49151 } queue www_ext_misc pass in on fxp0 proto tcp from any to $wwwserv port 80 \ queue www_ext_http # filter rules for fxp0 outbound pass out on fxp0 from $int_nets to any pass out on fxp0 from $boss to any queue boss_ext # filter rules for dc0 inbound pass in on dc0 from $int_nets to any pass in on dc0 from $it_net to any queue it_int pass in on dc0 from $boss to any queue boss_int pass in on dc0 proto tcp from $int_nets to $wwwserv port { 21, 80, \ > 49151 } queue www_int # filter rules for dc0 outbound pass out on dc0 from dc0 to $int_nets # filter rules for fxp1 inbound pass in on fxp1 proto { tcp, udp } from $wwwserv to any port 53 # filter rules for fxp1 outbound pass out on fxp1 proto tcp from any to $wwwserv port { 21, \ > 49151 } queue net_dmz_misc pass out on fxp1 proto tcp from any to $wwwserv port 80 queue net_dmz_http pass out on fxp1 proto tcp from $int_nets to $wwwserv port { 80, \ 21, > 49151 } queue internal_dmz