Wednesday, December 16, 2009

iptables rules for Anti Social-Net on Linux

List of IP addresses used by most popular social-networking sites:

69.63.181.11, fb1
69.63.181.12, fb2
69.63.181.15, fb3
69.63.181.16, fb4
69.63.187.17, fb5
69.63.187.19, fb6
69.63.184.142, fb7
69.63.186.30, fb8
69.63.184.31, fb9
69.63.184.28, fb10
69.63.184.30, fb11
69.63.184.31, fb12
216.86.150.58, plurk
168.143.162.36, twitter

Pseudo code:
<foreach ip above> do {
       sudo iptables -A OUTBOUND -d <ip>/32 -j DROP
}

For firestarter, DROP is replaced with LSO

The above steps will create outbound firewall.

Tuesday, December 15, 2009

Best PC Hardwares in 2009

Mobo: Gigabyte GA-P55-UD6
Gaming Mouse: Logitech G9x
Liquid cooler: Corsair Cooling Hydro Series H5O
Mid-priced CPU: Intel Core i7-860
Video card: ATI Radeon HD-5870

Friday, December 11, 2009

Firewall made easy on Ubuntu

https://help.ubuntu.com/community/IptablesHowTo



Basic iptables howto

Iptables is a firewall, installed by default on all official Ubuntu distributions (Ubuntu, Kubuntu, Xubuntu). When you install Ubuntu, iptables is there, but it allows all traffic by default. Ubuntu 8.04 Comes with ufw - a program for managing the iptables firewall easily.
There is a wealth of information available about iptables, but much of it is fairly complex, and if you want to do a few basic things, this How To is for you.

Basic Commands

Typing
# iptables -L
lists your current rules in iptables. If you have just set up your server, you will have no rules, and you should see
Chain INPUT (policy ACCEPT)
target     prot opt source               destination

Chain FORWARD (policy ACCEPT)
target     prot opt source               destination

Chain OUTPUT (policy ACCEPT)
target     prot opt source               destination

Basic Iptables Options

Here are explanations for some of the iptables options you will see in this tutorial. Don't worry about understanding everything here now, but remember to come back and look at this list as you encounter new options later on.
  • -A - Append this rule to a rule chain. Valid chains for what we're doing are INPUT, FORWARD and OUTPUT, but we mostly deal with INPUT in this tutorial, which affects only incoming traffic.
  • -L - List the current filter rules.
  • -m conntrack - Allow filter rules to match based on connection state. Permits the use of the --ctstate option.
  • --ctstate - Define the list of states for the rule to match on. Valid states are:
    • NEW - The connection has not yet been seen.
    • RELATED - The connection is new, but is related to another connection already permitted.
    • ESTABLISHED - The connection is already established.
    • INVALID - The traffic couldn't be identified for some reason.
  • -m limit - Require the rule to match only a limited number of times. Allows the use of the --limit option. Useful for limiting logging rules.
    • --limit - The maximum matching rate, given as a number followed by "/second", "/minute", "/hour", or "/day" depending on how often you want the rule to match. If this option is not used and -m limit is used, the default is "3/hour".
  • -p - The connection protocol used.
  • --dport - The destination port(s) required for this rule. A single port may be given, or a range may be given as start:end, which will match all ports from start to end, inclusive.
  • -j - Jump to the specified target. By default, iptables allows four targets:
    • ACCEPT - Accept the packet and stop processing rules in this chain.
    • REJECT - Reject the packet and notify the sender that we did so, and stop processing rules in this chain.
    • DROP - Silently ignore the packet, and stop processing rules in this chain.
    • LOG - Log the packet, and continue processing more rules in this chain. Allows the use of the --log-prefix and --log-level options.
  • --log-prefix - When logging, put this text before the log message. Use double quotes around the text to use.
  • --log-level - Log using the specified syslog level. 7 is a good choice unless you specifically need something else.
  • -i - Only match if the packet is coming in on the specified interface.
  • -I - Inserts a rule. Takes two options, the chain to insert the rule into, and the rule number it should be.
    • -I INPUT 5 would insert the rule into the INPUT chain and make it the 5th rule in the list.
  • -v - Display more information in the output. Useful for if you have rules that look similar without using -v.
  • -s --source - address[/mask] source specification
  • -d --destination - address[/mask] destination specification
  • -o --out-interface - output name[+] network interface name ([+] for wildcard)

Allowing Established Sessions

We can allow established sessions to receive traffic:
# iptables -A INPUT -m conntrack --ctstate ESTABLISHED,RELATED -j ACCEPT
  • The above rule has no spaces either side of the comma in ESTABLISHED,RELATED
If the line above doesn't work, you may be on a VPS that uses OpenVZ or doesn't have some kernel extensions installed. In that case, try this line instead:
# iptables -A INPUT -m state --state ESTABLISHED,RELATED -j ACCEPT

Allowing Incoming Traffic on Specific Ports

You could start by blocking traffic, but you might be working over SSH, where you would need to allow SSH before blocking everything else.
To allow incoming traffic on the default SSH port (22), you could tell iptables to allow all TCP traffic on that port to come in.
# iptables -A INPUT -p tcp --dport ssh -j ACCEPT
Referring back to the list above, you can see that this tells iptables:
  • append this rule to the input chain (-A INPUT) so we look at incoming traffic
  • check to see if it is TCP (-p tcp).
  • if so, check to see if the input goes to the SSH port (--dport ssh).
  • if so, accept the input (-j ACCEPT).
Lets check the rules: (only the first few lines shown, you will see more)
# iptables -L
Chain INPUT (policy ACCEPT)
target     prot opt source               destination
ACCEPT     all  --  anywhere             anywhere            state RELATED,ESTABLISHED
ACCEPT     tcp  --  anywhere             anywhere            tcp dpt:ssh
Now, let's allow all incoming web traffic
# iptables -A INPUT -p tcp --dport 80 -j ACCEPT
Checking our rules, we have
# iptables -L
Chain INPUT (policy ACCEPT)
target     prot opt source               destination
ACCEPT     all  --  anywhere             anywhere            state RELATED,ESTABLISHED
ACCEPT     tcp  --  anywhere             anywhere            tcp dpt:ssh
ACCEPT     tcp  --  anywhere             anywhere            tcp dpt:www
We have specifically allowed tcp traffic to the ssh and web ports, but as we have not blocked anything, all traffic can still come in.

Blocking Traffic

Once a decision is made to accept a packet, no more rules affect it. As our rules allowing ssh and web traffic come first, as long as our rule to block all traffic comes after them, we can still accept the traffic we want. All we need to do is put the rule to block all traffic at the end.

# iptables -A INPUT -j DROP
# iptables -L
Chain INPUT (policy ACCEPT)
target     prot opt source               destination
ACCEPT     all  --  anywhere             anywhere            state RELATED,ESTABLISHED
ACCEPT     tcp  --  anywhere             anywhere            tcp dpt:ssh
ACCEPT     tcp  --  anywhere             anywhere            tcp dpt:www
DROP       all  --  anywhere             anywhere
Because we didn't specify an interface or a protocol, any traffic for any port on any interface is blocked, except for web and ssh.

Editing iptables

The only problem with our setup so far is that even the loopback port is blocked. We could have written the drop rule for just eth0 by specifying -i eth0, but we could also add a rule for the loopback. If we append this rule, it will come too late - after all the traffic has been dropped. We need to insert this rule before that. Since this is a lot of traffic, we'll insert it as the first rule so it's processed first.

# iptables -I INPUT 1 -i lo -j ACCEPT
# iptables -L
Chain INPUT (policy ACCEPT)
target     prot opt source               destination
ACCEPT     all  --  anywhere             anywhere
ACCEPT     all  --  anywhere             anywhere            state RELATED,ESTABLISHED
ACCEPT     tcp  --  anywhere             anywhere            tcp dpt:ssh
ACCEPT     tcp  --  anywhere             anywhere            tcp dpt:www
DROP       all  --  anywhere             anywhere
The first and last lines look nearly the same, so we will list iptables in greater detail.
# iptables -L -v

Chain INPUT (policy ALLOW 0 packets, 0 bytes)
 pkts bytes target     prot opt in     out     source               destination         
    0     0 ACCEPT     all  --  lo     any     anywhere             anywhere
    0     0 ACCEPT     all  --  any    any     anywhere             anywhere            state RELATED,ESTABLISHED
    0     0 ACCEPT     tcp  --  any    any     anywhere             anywhere            tcp dpt:ssh
    0     0 ACCEPT     tcp  --  any    any     anywhere             anywhere            tcp dpt:www
    0     0 DROP       all  --  any    any     anywhere             anywhere
You can now see a lot more information. This rule is actually very important, since many programs use the loopback interface to communicate with each other. If you don't allow them to talk, you could break those programs!

Logging

In the above examples none of the traffic will be logged. If you would like to log dropped packets to syslog, this would be the quickest way:
# iptables -I INPUT 5 -m limit --limit 5/min -j LOG --log-prefix "iptables denied: " --log-level 7
See Tips section for more ideas on logging.

Saving iptables

If you were to reboot your machine right now, your iptables configuration would disappear. Rather than type this each time you reboot, however, you can save the configuration, and have it start up automatically. To save the configuration, you can useiptables-save and iptables-restore.

Configuration on startup

WARNING: Iptables and NetworkManager seem to have a conflict. However NetworkManager is still in Beta. If you are concerned enough about security to install a firewall you might not want to trust NetworkManager to manage it yet. Also noteNetworkManager and iptables have opposite aims. Iptables aims to keep any questionable network traffice out.NetworkManager aims to keep you connected at all times. Therefore if you want security all the time, run iptables at boot time. If you want security some of the time then NetworkManager might be the right choice.
WARNING: If you use NetworkManager (installed by default on Feisty and later) these steps will leave you unable to useNetworkManager for the interfaces you modify. Please follow the steps in the next section instead.
NOTE: It appears on Hardy, NetworkManager has an issue with properly on saving and restoring the iptable rules when using the method in the next section. Using this first method appears to work. If you find otherwise, please update this note.
Save your firewall rules to a file
# iptables-save >/etc/iptables.rules
Then modify the /etc/network/interfaces configuration file to apply the rules automatically. You will need to know the interface that you are using in order to apply the rules - if you do not know, you are probably using the interface eth0, although you should check with the following command first to see if there are any wireless cards:
$ iwconfig
If you get output similiar to the following, then you do not have any wireless cards at all and your best bet is probably eth0.

$ iwconfig

lo        no wireless extensions.

eth0      no wireless extensions.

$
When you have found out the interface you are using, please open your /etc/network/interfaces file depending on what editor you want and/or what distribution you have:
Command line:
# nano /etc/network/interfaces
For Ubuntu and Xubuntu: type ALT+F2, then in the window that pops up, type:
gksudo gedit /etc/network/interfaces
and press Enter.
For Kubuntu: type ALT+F2, then in the window that pops up, type:
kdesu kate /etc/network/interfaces
and press enter.
When in the file, search for the interface you found, and at the end of the network related lines for that interface, add the line:
pre-up iptables-restore < /etc/iptables.rules
You can also prepare a set of down rules, save them into second file /etc/iptables.downrules and apply it automatically using the above steps:
post-down iptables-restore < /etc/iptables.downrules
A fully working example using both from above:

auto eth0
iface eth0 inet dhcp
  pre-up iptables-restore < /etc/iptables.rules
  post-down iptables-restore < /etc/iptables.downrules
You may also want to keep information from byte and packet counters.

iptables-save -c > /etc/iptables.save 
The above command will in other words save the whole rule-set to a file called /etc/iptables.save with byte and packet counters still intact.
Alternatively you could add the iptables-restore and iptables-save to the if-pre-up.d and if-post-down.d directories in the /etc/network directory instead of modifying /etc/network/interface directly.
The script /etc/network/if-pre-up.d/iptaload will contain:

#!/bin/sh
iptables-restore < /etc/iptables.rules
exit 0
and/etc/network/if-post-down.d/iptasave will contain:

#!/bin/sh
if [ -f /etc/iptables.downrules ]; then
   iptables-restore < /etc/iptables.downrules
fi
iptables-save -c > /etc/iptables.save
exit 0
Then be sure to give both scripts execute permissions:
# chmod +x /etc/network/if-post-down.d/iptasave
# chmod +x /etc/network/if-pre-up.d/iptaload

Configuration on Startup for NetworkManager

NetworkManager includes the ability to run scripts when it activates or deactivates an interface. To save iptables rules on shutdown, and to restore them on startup, we are going to create such a script. To begin, press Alt+F2 and enter this command:
For Ubuntu:
$ gksudo gedit /etc/NetworkManager/dispatcher.d/01firewall
For Kubuntu:
kdesu kate /etc/NetworkManager/dispatcher.d/01firewall
Then, paste this script into your editor, save, and exit the editor.
if [ -x /usr/bin/logger ]; then
        LOGGER="/usr/bin/logger -s -p daemon.info -t FirewallHandler"
else
        LOGGER=echo
fi

case "$2" in
        pre-up)
                if [ ! -r /etc/iptables.rules ]; then
                        ${LOGGER} "No iptables rules exist to restore."
                        return
                fi
                if [ ! -x /sbin/iptables-restore ]; then
                        ${LOGGER} "No program exists to restore iptables rules."
                        return
                fi
                ${LOGGER} "Restoring iptables rules"
                /sbin/iptables-restore -c < /etc/iptables.rules
                ;;
        post-down)
                if [ ! -x /sbin/iptables-save ]; then
                        ${LOGGER} "No program exists to save iptables rules."
                        return
                fi
                ${LOGGER} "Saving iptables rules."
                /sbin/iptables-save -c > /etc/iptables.rules
                ;;
        *)
                ;;
esac
Finally, we need to make sure NetworkManager can execute this script. In a terminal window, enter this command:
# chmod +x /etc/NetworkManager/dispatcher.d/01firewall

Tips


If you manually edit iptables on a regular basis

The above steps go over how to setup your firewall rules and presume they will be relatively static (and for most people they should be). But if you do a lot of development work, you may want to have your iptables saved everytime you reboot. You could add a line like this one in /etc/network/interfaces:
pre-up iptables-restore < /etc/iptables.rules
  post-down iptables-save > /etc/iptables.rules
The line "post-down iptables-save > /etc/iptables.rules" will save the rules to be used on the next boot.

Using iptables-save/restore to test rules

If you edit your iptables beyond this tutorial, you may want to use the iptables-save and iptables-restore feature to edit and test your rules. To do this open the rules file in your favorite text editor (in this example gedit).
$ sudo iptables-save > /etc/iptables.rules
$ gksudo gedit /etc/iptables.rules
You will have a file that appears similiar to (following the example above):
# Generated by iptables-save v1.3.1 on Sun Apr 23 06:19:53 2006
*filter
:INPUT ACCEPT [368:102354]
:FORWARD ACCEPT [0:0]
:OUTPUT ACCEPT [92952:20764374]
-A INPUT -i lo -j ACCEPT
-A INPUT -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT
-A INPUT -i eth0 -p tcp -m tcp --dport 22 -j ACCEPT
-A INPUT -i eth0 -p tcp -m tcp --dport 80 -j ACCEPT
-A INPUT -m limit --limit 5/min -j LOG --log-prefix "iptables denied: " --log-level 7
-A INPUT -j DROP
COMMIT
# Completed on Sun Apr 23 06:19:53 2006
Notice that these are iptables commands minus the iptable command. Feel free to edit this to file and save when complete. Then to test simply:
# iptables-restore < /etc/iptables.rules
After testing, if you have not added the iptables-save command above to your /etc/network/interfaces remember not to lose your changes:
# iptables-save > /etc/iptables.rules

More detailed Logging

For further detail in your syslog you may want create an additional Chain. This will be a very brief example of my /etc/iptables.rules showing how I setup my iptables to log to syslog:
# Generated by iptables-save v1.3.1 on Sun Apr 23 05:32:09 2006
*filter
:INPUT ACCEPT [273:55355]
:FORWARD ACCEPT [0:0]
:LOGNDROP - [0:0]
:OUTPUT ACCEPT [92376:20668252]
-A INPUT -m conntrack --ctstate RELATED,ESTABLISHED -j ACCEPT
-A INPUT -i eth0 -p tcp -m tcp --dport 22 -j ACCEPT
-A INPUT -i eth0 -p tcp -m tcp --dport 80 -j ACCEPT
-A INPUT -i lo -j ACCEPT
-A INPUT -j LOGNDROP
-A LOGNDROP -p tcp -m limit --limit 5/min -j LOG --log-prefix "Denied TCP: " --log-level 7
-A LOGNDROP -p udp -m limit --limit 5/min -j LOG --log-prefix "Denied UDP: " --log-level 7
-A LOGNDROP -p icmp -m limit --limit 5/min -j LOG --log-prefix "Denied ICMP: " --log-level 7
-A LOGNDROP -j DROP
COMMIT
# Completed on Sun Apr 23 05:32:09 2006
Note a new CHAIN called LOGNDROP at the top of the file. Also, the standard DROP at the bottom of the INPUT chain is replaceed with LOGNDROP and add protocol descriptions so it makes sense looking at the log. Lastly we drop the traffic at the end of theLOGNDROP chain. The following gives some idea of what is happening:
  • --limit sets the number of times to log the same rule to syslog
  • --log-prefix "Denied..." adds a prefix to make finding in the syslog easier
  • --log-level 7 sets the syslog level to informational (see man syslog for more detail, but you can probably leave this)

Disabling the firewall

If you need to disable the firewall temporarily, you can flush all the rules using
# iptables -F
or create a script using text editor such as nano
# nano -w /root/fw.stop

echo "Stopping firewall and allowing everyone..."
iptables -F
iptables -X
iptables -t nat -F
iptables -t nat -X
iptables -t mangle -F
iptables -t mangle -X
iptables -P INPUT ACCEPT
iptables -P FORWARD ACCEPT
iptables -P OUTPUT ACCEPT
Make sure you can execute the script
$ chmod +x /root/fw.stop
You can run the script
$ /root/fw.stop

Easy configuration via GUI

GUFW - Gufw is a graphical frontend to UFW (Uncomplicated Firewall).
A new user can use Firestarter (a gui), available in repositories (Synaptic or apt-get) to configure her/his iptable rules, without needing the command line knowledge. Please see the tutorial though... Configuration is easy, but may not be enough for the advanced user. However, it should be enough for the most home users... The (read:my) suggested outbound configuration is "restrictive", with whitelisting each connection type whenever you need it (port 80 for http, 443 for secure http -https-, 1863 for msn chat etc) from the "policy" tab within firestarter. You can also use it to see active connections from and to your computer... The firewall stays up once it is configured using the wizard. Dial-up users will have to specify it to start automatically on dial up in the wizard.
Homepage for firestarter: http://www.fs-security.com/ (again, available in repositories, no compiling required) Tutorial:http://www.fs-security.com/docs/tutorial.php

Tuesday, November 24, 2009

LJ1020 on UBuntu Karmic 9.10

HP LJ1020 driver for UBuntu Karmic (9.10):

http://hplipopensource.com/hplip-web/install_wizard/index.html

Friday, November 6, 2009

Netflix on PS3

The Netflix PS3 blue-ray CD arrived today.  The first time it ran on PS3, it gave authentication code to be put on my Netflix account from PC.  After the authentication was done, it came up with nice menu to navigate online videos available from my account's queue.  When I played some of the movies, the quality of the pictures were really beyond my expectation.  I was expecting the quality was about the same as standard TV, but what I got was almost-bluray/HDTV quality!

Bravo to both Sony & Netflix to provide with this excellent access. Now we can watch hundreds, or even thousands of movies available at Netflix on our LCD TV.

Sunday, November 1, 2009

Battery for Toyota Sienna XLE 2005

I was looking for an auto-battery replacement of my Sienna XLE 2005  at Costco.  When I asked the salesperson, he pointed me to a Costco battery for about $70 + tax (and there is no charge for returning the old one to them).  It's number 3 and the group size is 35, but when I tried to install it, it wouldn't fit as the size was smaller and the anode (positive terminal) and the cathode (negative terminal) were at the opposite side, unlike the original one,.  I went back to Costco to exchange, but unfortunately they didn' carry the one I wanted (interestingly, the reference book they had really showed  group size 35 was indeed the only group size for my car, not group size 24 as written on the original battery).

I ended up returning the battery and went to Kragen.  Luckily, they have this type, as well as the 35 (strangely, their computer initially showed group size 35 as well, but the salesperson said they carried also the group size 24).  It costed me about $80 with 84 months limited warranty (but 36 months full warranty).

Went back home in rush to install the battery, and now it works flawlessly, at least for now.