From the squid website:
- Squid is a caching proxy for the Web supporting HTTP, HTTPS, FTP, and more. It reduces bandwidth and improves response times by caching and reusing frequently-requested web pages. Squid has extensive access controls and makes a great server accelerator. It runs on Unix and Windows and is licensed under the GNU GPL.
While squid works wonderfully in large corporations and schools, it can also benefit the home user too. However, if you're looking for a more lightweight single-user proxy, you should try Polipo.
By default, the cache directories will be created in
/var/cache/squid, and the appropriate permissions set up for those directories. However, for greater control, we need to delve into
Everything is well commented, but if you want to strip the comments out you should run:
sed -i "/^#/d;/^ *$/d" /etc/squid/squid.conf
The following options might be of some use to you. If you do not have the option present in your configuration file, add it!
http_port- Sets the port that Squid binds to on your local machine. You can have Squid bind to multiple ports by specifying multiple http_port lines. By default, Squid binds to port 3128.
http_port 3128 http_port 3129
http_access- This is an access control list for who is allowed to use the proxy. By default only localhost is allowed to access the proxy. For testing purposes, you may want to change the option
http_access deny allto
http_access allow all, which will allow anyone to connect to your proxy. If you wanted to just allow access to your subnet, you can do:
acl ip_acl src 192.168.1.0/24 http_access allow ip_acl http_access deny all
cache_mgr- This is the email address of the cache manager.
shutdown_lifetime- Specifies how long Squid should wait when its rc.d script is asked to stop. If you're running squid on your desktop PC, you may want to set this to something short.
shutdown_lifetime 10 seconds
cache_mem- This is how much memory you want Squid to use to keep objects in memory rather than writing them to disk. Squid's total memory usage will exceed this! By default this is 8MB, so you might want to increase it if you have lots of RAM available.
cache_mem 64 MB
visible_hostname- hostname that will be shown in status/error messages
cache_peer- If you want your Squid to go through another proxy server, rather than directly out to the Internet, you need to specify it here.
login- Use this option if the parent proxy requires authentication.
never_direct- Tells the cache to never go direct to the internet to retrieve a page. You will want this if you have set the option above.
cache_peer 10.1.1.100 parent 8080 0 no-query default login=user:password never_direct allow all
maximum_object_size- The largest size of a cached object. By default this is small (256KB I think), so if you have a lot of disk space you will want to increase the size of it to something reasonable.
maximum_object_size 10 MB
cache_dir- This is your cache directory, where all the cached files are stored. There are many options here, but the format should generally go like:
cache_dir diskd <directory> <size in MB> 16 256
So, in the case of a school's internet proxy:
cache_dir diskd /cache0 200000 16 256
If you change the cache directory from defaults, you must set the correct permissions on the cache directory before starting Squid, else it won't be able to create its cache directories and will fail to start.
Once you have finished your configuration, you should check that your configuration file is correct:
squid -k check
Then create your cache directories:
Then you can start Squid!
Don't forget to add
squid to the
DAEMONS=() section of rc.conf if you want it to start on boot.
If you're looking for a content filtering solution to work with Squid, you should check out the very powerful DansGuardian.
If you'd like a web-based frontend for managing Squid, Webmin is your best bet.
Ad blocking with adzapper
Adzapper is a plugin for Squid. It catches ads of all sorts (even Flash animations) and replaces them with an image of your choice, so the layout of the page isn't altered very much.
Adzapper is no longer in the community repository, but it can be found in the AUR.
echo "redirect_program /usr/bin/adzapper.wrapper" >> /etc/squid/squid.conf
echo "url_rewrite_program /usr/bin/adzapper.wrapper" >> /etc/squid/squid.conf echo "url_rewrite_children 10" >> /etc/squid/squid.conf
If you want, you can configure adzapper to your liking. The configuration out of the box works wonderfully well though.
Adding Anti-virus capabilities to Squid is done using the HAVP program to interface it with ClamAV.
Follow this link to install ClamAV on your system.
Once HAVP is installed, create a user group for the HAVP instance:
Change the owner of the antivirus logs and temporary file-testing directories to havp :
chown -R havp:havp /var/run/havp chown -R havp:havp /var/log/havp
Add the mandatory lock option to your filesystem (needed by HAVP) : In your /etc/fstab, modify :
[...] / ext3 defaults 1 1
[...] / ext3 defaults,mand 1 1
Then reload your filesystem :
mount -o remount /
Add this info in your /etc/squid/squid.conf :
cache_peer 127.0.0.1 parent 8080 0 no-query no-digest no-netdb-exchange default cache_peer_access 127.0.0.1 allow all
Make sure your port in your /etc/havp/havp.config matches the cache_peer port in /etc/squid/squid.conf.
Reload your squid and start HAVP :
/etc/rc.d/squid restart /etc/rc.d/havp start
Don't forget to add HAVP to your rc.conf if your want it to launch on boot :
DAEMONS=([...] squid havp [...]_
You can try the antivirus capabilities with a test virus (not a real virus) available here.
Transparent web proxy
Transparency happens by redirecting all www requests eth0 picks up, to Squid. You'll need to indicate Squid that it is running like a transparent web proxy by adding the
transparent parameter to the
http_port 3128 transparent
Edit /etc/shorewall/rules and add
REDIRECT loc 3128 tcp www # redirect to Squid on port 3128 ACCEPT $FW net tcp www # allow Squid to fetch the www content