123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176 |
- #!/bin/bash
- # Written by Marco Bonetti & Mike Perry
- # Based on instructions from Dan Singletary's ADSL BW Management HOWTO:
- # http://www.faqs.org/docs/Linux-HOWTO/ADSL-Bandwidth-Management-HOWTO.html
- # This script is Public Domain.
- ############################### README #################################
- # This script provides prioritization of Tor traffic below other
- # traffic on a Linux server. It has two modes of operation: UID based
- # and IP based. The UID based method requires that Tor be launched from
- # a specific user ID. The "User" and "Group" Tor config settings are
- # insufficient, as they set the UID after the socket is created.
- # Here is a three line C wrapper you can use to execute Tor and drop
- # privs to UID 501 before it creates any sockets. Change the UID
- # to the UID for your tor server user, and compile with
- # 'gcc tor_wrap.c -o tor_wrap':
- # #include <unistd.h>
- # int main(int argc, char **argv) {
- # if(setresuid(501, 501, 501) == -1) { perror("setresuid"); return 1; }
- # execl("/bin/tor", "/bin/tor", "-f", "/etc/tor/torrc", NULL);
- # perror("execl"); return 1;
- # }
- # The IP setting requires that a separate IP address be dedicated to Tor.
- # Your Torrc should be set to bind to this IP for "OutboundBindAddress",
- # "ListenAddress", and "Address".
- # You should also tune the individual connection rate parameters below
- # to your individual connection. In particular, you should leave *some*
- # minimum amount of bandwidth for Tor, so that Tor users are not
- # completely choked out when you use your server's bandwidth. 30% is
- # probably a polite choice.
- # To start the shaping, run it as:
- # ./linux-tor-prio.sh
- # To get status information (useful to verify packets are getting marked
- # and prioritized), run:
- # ./linux-tor-prio.sh status
- # And to stop prioritization:
- # ./linux-tor-prio.sh stop
- ########################################################################
- # BEGIN USER TUNABLE PARAMETERS
- DEV=eth0
- # NOTE! You must START Tor under this UID. Using the Tor User/Group
- # config setting is NOT sufficient.
- TOR_UID=$(id -u tor)
- # If the UID mechanism doesn't work for you, you can set this parameter
- # instead. If set, it will take precedence over the UID setting. Note that
- # you need multiple IPs for this to work.
- #TOR_IP="42.42.42.42"
- # Average ping to most places on the net, milliseconds
- RTT_LATENCY=40
- # RATE_UP must be less than your connection's upload capacity. If it is
- # larger, then the bottleneck will be at your router's queue, which you
- # do not control. This will cause congestion and a revert to normal TCP
- # fairness no matter what the queing priority is.
- RATE_UP=5000
- # RATE_UP_TOR is the minimum speed your Tor connections will have.
- # They will have at least this much bandwidth for upload. In general,
- # you probably shouldn't set this too low, or else Tor users who use
- # your node will be completely choked out whenever your machine
- # does any other network activity. That is not very fun.
- RATE_UP_TOR=1500
- # RATE_UP_TOR_CEIL is the maximum rate allowed for all Tor trafic
- RATE_UP_TOR_CEIL=5000
- CHAIN=OUTPUT
- #CHAIN=PREROUTING
- #CHAIN=POSTROUTING
- MTU=1500
- AVG_PKT=900 # should be more like 600 for non-exit nodes
- # END USER TUNABLE PARAMETERS
- # The queue size should be no larger than your bandwidth-delay
- # product. This is RT latency*bandwidth/MTU/2
- BDP=$(expr $RTT_LATENCY \* $RATE_UP / $AVG_PKT)
- # Further research indicates that the BDP calculations should use
- # RTT/sqrt(n) where n is the expected number of active connections..
- BDP=$(expr $BDP / 4)
- if [ "$1" = "status" ]
- then
- echo "[qdisc]"
- tc -s qdisc show dev $DEV
- tc -s qdisc show dev imq0
- echo "[class]"
- tc -s class show dev $DEV
- tc -s class show dev imq0
- echo "[filter]"
- tc -s filter show dev $DEV
- tc -s filter show dev imq0
- echo "[iptables]"
- iptables -t mangle -L TORSHAPER-OUT -v -x 2> /dev/null
- exit
- fi
- # Reset everything to a known state (cleared)
- tc qdisc del dev $DEV root 2> /dev/null > /dev/null
- tc qdisc del dev imq0 root 2> /dev/null > /dev/null
- iptables -t mangle -D POSTROUTING -o $DEV -j TORSHAPER-OUT 2> /dev/null > /dev/null
- iptables -t mangle -D PREROUTING -o $DEV -j TORSHAPER-OUT 2> /dev/null > /dev/null
- iptables -t mangle -D OUTPUT -o $DEV -j TORSHAPER-OUT 2> /dev/null > /dev/null
- iptables -t mangle -F TORSHAPER-OUT 2> /dev/null > /dev/null
- iptables -t mangle -X TORSHAPER-OUT 2> /dev/null > /dev/null
- ip link set imq0 down 2> /dev/null > /dev/null
- rmmod imq 2> /dev/null > /dev/null
- if [ "$1" = "stop" ]
- then
- echo "Shaping removed on $DEV."
- exit
- fi
- # Outbound Shaping (limits total bandwidth to RATE_UP)
- ip link set dev $DEV qlen $BDP
- # Add HTB root qdisc, default is high prio
- tc qdisc add dev $DEV root handle 1: htb default 20
- # Add main rate limit class
- tc class add dev $DEV parent 1: classid 1:1 htb rate ${RATE_UP}kbit
- # Create the two classes, giving Tor at least RATE_UP_TOR kbit and capping
- # total upstream at RATE_UP so the queue is under our control.
- tc class add dev $DEV parent 1:1 classid 1:20 htb rate $(expr $RATE_UP - $RATE_UP_TOR)kbit ceil ${RATE_UP}kbit prio 0
- tc class add dev $DEV parent 1:1 classid 1:21 htb rate $[$RATE_UP_TOR]kbit ceil ${RATE_UP_TOR_CEIL}kbit prio 10
- # Start up pfifo
- tc qdisc add dev $DEV parent 1:20 handle 20: pfifo limit $BDP
- tc qdisc add dev $DEV parent 1:21 handle 21: pfifo limit $BDP
- # filter traffic into classes by fwmark
- tc filter add dev $DEV parent 1:0 prio 0 protocol ip handle 20 fw flowid 1:20
- tc filter add dev $DEV parent 1:0 prio 0 protocol ip handle 21 fw flowid 1:21
- # add TORSHAPER-OUT chain to the mangle table in iptables
- iptables -t mangle -N TORSHAPER-OUT
- iptables -t mangle -I $CHAIN -o $DEV -j TORSHAPER-OUT
- # Set firewall marks
- # Low priority to Tor
- if [ ""$TOR_IP == "" ]
- then
- echo "Using UID-based QoS. UID $TOR_UID marked as low priority."
- iptables -t mangle -A TORSHAPER-OUT -m owner --uid-owner $TOR_UID -j MARK --set-mark 21
- else
- echo "Using IP-based QoS. $TOR_IP marked as low priority."
- iptables -t mangle -A TORSHAPER-OUT -s $TOR_IP -j MARK --set-mark 21
- fi
- # High prio for everything else
- iptables -t mangle -A TORSHAPER-OUT -m mark --mark 0 -j MARK --set-mark 20
- echo "Outbound shaping added to $DEV. Rate for Tor upload at least: ${RATE_UP_TOR}Kbyte/sec."
|