Difference between revisions of "Raspberry Pi IPv6 firewall tester installation"

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   # Allow ping of this host to aid debug - comment out if not required
 
   # Allow ping of this host to aid debug - comment out if not required
 
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type echo-request -j ACCEPT
 
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type echo-request -j ACCEPT
  # Filter ICMPv6 appropriately
 
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type echo-reply -j ACCEPT
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type echo-reply -j ACCEPT
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type destination-unreachable -j ACCEPT
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type destination-unreachable -j ACCEPT
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type packet-too-big -j ACCEPT
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type packet-too-big -j ACCEPT
  -A ICMP6FLTR -p ipv6-icmp --icmpv6-type ttl-zero-during-reassembly -j ACCEPT
 
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type unknown-header-type -j ACCEPT
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type unknown-header-type -j ACCEPT
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type unknown-option -j ACCEPT
 
   -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type unknown-option -j ACCEPT
 +
  -A ICMP6FLTR -p ipv6-icmp --icmpv6-type ttl-zero-during-reassembly -j ACCEPT
 
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type bad-header -j ACCEPT
 
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type bad-header -j ACCEPT
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type redirect -j DROP
+
   #
 
   # Allow router advertisements to support SLAAC address allocation
 
   # Allow router advertisements to support SLAAC address allocation
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type router-advertisement -j ACCEPT
+
  # ensure hop-limit (hl) is 255
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type router-solicitation -j ACCEPT
+
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type router-advertisement --match hl --hl-eq 255 -j ACCEPT
   # Allow neighbour adv/sol so we can talk to our neighbours (IPv6 ARP equivalent)
+
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type router-solicitation --match hl --hl-eq 255 -j ACCEPT
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type neighbour-advertisement -j ACCEPT
+
  #
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type neighbour-solicitation -j ACCEPT
+
   # Allow neighbour adv/sol so we can talk to our neighbouts (IPv6 ARP equivalent)
   # Drop router renumbering messages
+
  # ensure hop-limit (hl) is 255
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 138 -j DROP
+
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type neighbour-advertisement --match hl --hl-eq 255 -j ACCEPT
   # Drop node information queries (139)
+
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type neighbour-solicitation --match hl --hl-eq 255 -j ACCEPT
   -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 139 -j DROP
+
  #
 +
  # Allow inverse neighbour discovery solicitation (141) / advertisement (142)
 +
  # ensure hop-limit (hl) is 255
 +
  -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 141 --match hl --hl-eq 255 -j ACCEPT
 +
  -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 142 --match hl --hl-eq 255 -j ACCEPT
 +
  #
 +
  # Allow certificate path solicitation (148) / advertisement (149)
 +
  # ensure hop-limit (hl) is 255
 +
  -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 148 --match hl --hl-eq 255 -j ACCEPT
 +
  -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 149 --match hl --hl-eq 255 -j ACCEPT
 +
  ##
 +
  ## Allow ICMPv6 with link local addresses for multicast listener query (130), report (131), done (132) and report v2 (143)
 +
  ## Likely unused, but uncomment if required
 +
  #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 130 --source fe80::/10 -j ACCEPT
 +
  #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 131 --source fe80::/10 -j ACCEPT
 +
   #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 132 --source fe80::/10 -j ACCEPT
 +
   #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 143 --source fe80::/10 -j ACCEPT
 +
   ## Allow ICMPv6 with link local addresses and hop limit == 1 for multicast router advertisement (151), solicitation (152) and termination (153)
 +
   #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 151 --source fe80::/10 --match hl --hl-eq 1 -j ACCEPT
 +
  #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 152 --source fe80::/10 --match hl --hl-eq 1 -j ACCEPT
 +
  #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 153 --source fe80::/10 --match hl --hl-eq 1 -j ACCEPT
 +
  #
 
   # Drop everything else
 
   # Drop everything else
 
   -A ICMP6FLTR -j LOGIDROP
 
   -A ICMP6FLTR -j LOGIDROP
Line 99: Line 119:
 
   -A INPUT -m rt --rt-type 1 -j LOGIDROP
 
   -A INPUT -m rt --rt-type 1 -j LOGIDROP
 
   -A INPUT -m rt --rt-type 2 -j LOGIDROP
 
   -A INPUT -m rt --rt-type 2 -j LOGIDROP
 +
  # Call ICMPv6 filter
 +
  -A INPUT -p ipv6-icmp -j ICMP6FLTR
 
   # Allow all traffic related to, or part of an established stream
 
   # Allow all traffic related to, or part of an established stream
 
   -A INPUT -m state --state RELATED,ESTABLISHED -j ACCEPT
 
   -A INPUT -m state --state RELATED,ESTABLISHED -j ACCEPT
  # Call ICMPv6 filter
 
  -A INPUT -p ipv6-icmp -j ICMP6FLTR
 
 
   # Allow SSH and HTTP traffic
 
   # Allow SSH and HTTP traffic
 
   -A INPUT -p tcp --dport 22 -j ACCEPT
 
   -A INPUT -p tcp --dport 22 -j ACCEPT
Line 108: Line 128:
 
   # Drop, but log, everything else
 
   # Drop, but log, everything else
 
   -A INPUT -j LOGIDROP
 
   -A INPUT -j LOGIDROP
   COMMIT
+
   COMMIT
 
 
  
 
Assuming your desired ruleset is stored in a file called simple_firewall6.rules then you can import the firewall rules using:
 
Assuming your desired ruleset is stored in a file called simple_firewall6.rules then you can import the firewall rules using:

Revision as of 14:09, 31 December 2012

Suggested Reading

Before you begin please read the excellent Arch Linux Beginners' Guide.


Arch Linux Download and CF card creation

Fetch the Arch Linux download from RaspberryPi Downloads

If using win32 disk imager then please be aware that the image file needs to be extracted onto a local physical drive (e.g. C: ) rather than a network/remote drive.


Login, Change the root password and Create a plain user

Having logged in as root, then make sure you change the default password:

 # passwd
 

Then add a user, using a non-obvious username, e.g. PlnUsr456 : (follow the prompts)

 # adduser


Update your System and Install the Required Packages

Then update your system:

 # pacman -Syu
 

Which is likely to update pacman itself – just follow the prompts and once this is complete then re-attempt the complete upgrade:

 # pacman -Syu
 :: Synchronizing package databases...
  core is up to date
  extra is up to date
  community is up to date
  alarm is up to date
  aur is up to date
 :: Starting full system upgrade...
 resolving dependencies...
 looking for inter-conflicts...
 
 Proceed with installation? [Y/n]
 :: Retrieving packages from core...


Simplistic IPv6 Firewall

As a general starting point please read the ArchLinux IPtables documentation.

You will need to install the iptables modules and scripts using the following command:

 # pacman -S iptables

The following IPv6 firewall is a very simplistic example, only suitable for use in a trusted environment, where SLAAC IPv6 address allocation is in place. This example is not intended to be used for an internet-facing Raspberry Pi where you may choose to include extra packet checking related to traffic source addresses, packet arrival rates, etc.

 *filter
 :INPUT DROP [0:0]
 :FORWARD DROP [0:0]
 :OUTPUT ACCEPT [0:0]
 :ICMP6FLTR - [0:0]
 :LOGIDROP - [0:0]
 -A LOGIDROP -m limit --limit 20/m --limit-burst 10 -j LOG --log-prefix "IPV6_INPUT_DROP" --log-ip-options --log-tcp-options --log-tcp-sequence
 -A LOGIDROP -j DROP
 #
 # ICMPv6 filter chain
 #
 # Allow ping of this host to aid debug - comment out if not required
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type echo-request -j ACCEPT
 -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type echo-reply -j ACCEPT
 -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type destination-unreachable -j ACCEPT
 -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type packet-too-big -j ACCEPT
 -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type unknown-header-type -j ACCEPT
 -A ICMP6FLTR -m state -p ipv6-icmp --state ESTABLISHED,RELATED --icmpv6-type unknown-option -j ACCEPT
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type ttl-zero-during-reassembly -j ACCEPT
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type bad-header -j ACCEPT
 #
 # Allow router advertisements to support SLAAC address allocation
 # ensure hop-limit (hl) is 255
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type router-advertisement --match hl --hl-eq 255 -j ACCEPT
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type router-solicitation --match hl --hl-eq 255 -j ACCEPT
 #
 # Allow neighbour adv/sol so we can talk to our neighbouts (IPv6 ARP equivalent)
 # ensure hop-limit (hl) is 255
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type neighbour-advertisement --match hl --hl-eq 255 -j ACCEPT
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type neighbour-solicitation  --match hl --hl-eq 255 -j ACCEPT
 #
 # Allow inverse neighbour discovery solicitation (141) / advertisement (142)
 # ensure hop-limit (hl) is 255
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 141 --match hl --hl-eq 255 -j ACCEPT
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 142 --match hl --hl-eq 255 -j ACCEPT
 #
 # Allow certificate path solicitation (148) / advertisement (149)
 # ensure hop-limit (hl) is 255
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 148 --match hl --hl-eq 255 -j ACCEPT
 -A ICMP6FLTR -p ipv6-icmp --icmpv6-type 149 --match hl --hl-eq 255 -j ACCEPT
 ##
 ## Allow ICMPv6 with link local addresses for multicast listener query (130), report (131), done (132) and report v2 (143)
 ## Likely unused, but uncomment if required
 #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 130 --source fe80::/10 -j ACCEPT
 #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 131 --source fe80::/10 -j ACCEPT
 #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 132 --source fe80::/10 -j ACCEPT
 #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 143 --source fe80::/10 -j ACCEPT
 ## Allow ICMPv6 with link local addresses and hop limit == 1 for multicast router advertisement (151), solicitation (152) and termination (153)
 #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 151 --source fe80::/10 --match hl --hl-eq 1 -j ACCEPT
 #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 152 --source fe80::/10 --match hl --hl-eq 1 -j ACCEPT
 #-A ICMP6FLTR -p ipv6-icmp --icmpv6-type 153 --source fe80::/10 --match hl --hl-eq 1 -j ACCEPT
 #
 # Drop everything else
 -A ICMP6FLTR -j LOGIDROP
 #
 # Main INPUT chain
 #
 # Allow all loopback traffic
 -A INPUT -i lo -j ACCEPT
 # Drop all routing header traffic (change if supporting mobile IPv6)
 -A INPUT -m rt --rt-type 0 -j LOGIDROP
 -A INPUT -m rt --rt-type 1 -j LOGIDROP
 -A INPUT -m rt --rt-type 2 -j LOGIDROP
 # Call ICMPv6 filter
 -A INPUT -p ipv6-icmp -j ICMP6FLTR
 # Allow all traffic related to, or part of an established stream
 -A INPUT -m state --state RELATED,ESTABLISHED -j ACCEPT
 # Allow SSH and HTTP traffic
 -A INPUT -p tcp --dport 22 -j ACCEPT
 -A INPUT -p tcp --dport 80 -j ACCEPT
 # Drop, but log, everything else
 -A INPUT -j LOGIDROP
 COMMIT  

Assuming your desired ruleset is stored in a file called simple_firewall6.rules then you can import the firewall rules using:

 # ip6tables-restore < simple_firewall6.rules

You can view the active firewall rules, and determine the number of packets being processed by each rule using:

 # ip6tables -v -n -L
 
 Chain INPUT (policy DROP 0 packets, 0 bytes)
  pkts bytes target     prot opt in     out     source               destination
     0     0 ACCEPT     all      lo     *       ::/0                 ::/0
     0     0 LOGINPUTDROP  all      *      *       ::/0                 ::/0                 rt type:0 segsleft:0
     0     0 LOGINPUTDROP  all      *      *       ::/0                 ::/0                 rt type:1 segsleft:0
     0     0 LOGINPUTDROP  all      *      *       ::/0                 ::/0                 rt type:2 segsleft:0
     2   208 ACCEPT     all      *      *       ::/0                 ::/0                 state RELATED,ESTABLISHED
     1   104 ACCEPT     icmpv6    *      *       ::/0                 ::/0                 ipv6-icmptype 128
   116 19488 ACCEPT     icmpv6    *      *       ::/0                 ::/0                 ipv6-icmptype 134
     0     0 ACCEPT     icmpv6    *      *       ::/0                 ::/0                 ipv6-icmptype 133
     2   128 ACCEPT     icmpv6    *      *       ::/0                 ::/0                 ipv6-icmptype 136
     2   144 ACCEPT     icmpv6    *      *       ::/0                 ::/0                 ipv6-icmptype 135
     0     0 ACCEPT     tcp      *      *       ::/0                 ::/0                 tcp dpt:22
     0     0 ACCEPT     tcp      *      *       ::/0                 ::/0                 tcp dpt:80
     0     0 LOGINPUTDROP  all      *      *       ::/0                 ::/0
 
 Chain FORWARD (policy DROP 0 packets, 0 bytes)
  pkts bytes target     prot opt in     out     source               destination
 
 Chain OUTPUT (policy ACCEPT 7 packets, 592 bytes)
  pkts bytes target     prot opt in     out     source               destination
 
 Chain LOGINPUTDROP (4 references)
  pkts bytes target     prot opt in     out     source               destination
     0     0 LOG        all      *      *       ::/0                 ::/0                 limit: avg 1/sec burst 20 LOG flags 7 level 4 prefix "IPV6_INPUT_DROP"
     0     0 DROP       all      *      *       ::/0                 ::/0
 

Once you're satisfied that the IPv6 firewall rules are performing correctly then they can be saved using the following command:

 # rc.d save ip6tables

Note that if you're also using IPv4 then don't forget to setup a similar IPv4 firewall ruleset. Again this example is only suitable for use in a trusted environment and needs further additions for an internet facing machine.

 *filter
 :INPUT DROP [0:0]
 :FORWARD DROP [0:0]
 :OUTPUT ACCEPT [0:0]
 # Allow all loopback traffic
 -A INPUT -i lo -j ACCEPT
 # Allow all traffic related to, or part of an established session
 -A INPUT -m state --state RELATED,ESTABLISHED -j ACCEPT
 # Allow ping of this host to aid debug
 -A INPUT -p icmp --icmp-type echo-request -j ACCEPT
 # Allow SSH and HTTP traffic
 -A INPUT -p tcp --dport 22 -j ACCEPT
 -A INPUT -p tcp --dport 80 -j ACCEPT
 # Drop all other TCP traffic
 -A INPUT -p tcp -j DROP
 # Allow DHCP related traffic
 -A INPUT -p udp --dport 67:68 -j ACCEPT
 # Drop everything else
 -A INPUT -j DROP
 COMMIT

This time import can be performed using:

 # iptables-restore < simple_firewall.rules

Once you're happy with your IPv4 firewall then you can save the active rules using the following command:

 # rc.d save iptables

Note that it is import to check full functionality still exists with your firewall in place - this particularly applies to address allocation (e.g. DHCP and SLAAC) procedures which may mean that a misconfigured firewall makes your Raspberry Pi unreachable. This is one reason why it is useful to develop the two rulesets (IPv4 and IPv6) separately, since if you misconfigure one firewall and lose connectivity then you can fall back to the working protocol version to correct your mistake. Once you're happy that both firewall sets are correct then you can insert both sets into /etc/rc.conf DAEMONS statement before the network module is called:

 DAEMONS=(!hwclock syslog-ng iptables ip6tables network openntpd @netfs @crond @sshd @mysqld @httpd)

You can check for dropped/logged packets (in the examples above logging is included for the IPv6 packet filter) using the following command:

 # tailf /var/log/iptables.log


Installing LAMP

Install LAMP by following the excellent Arch Linux LAMP guide.

 # pacman -S apache php php-apache mysql
   
 # rc.d start mysqld 
 

Don't forget to add a MySQL password:

 # mysqladmin -u root password ‘password’
 # mysql -u root -p
 

Then Edit /etc/rc.conf (to start MySQL at boot):

  DAEMONS=(... mysqld ...)
 

Read and follow the Apache section - I suggest that you adjust the default DocumentRoot directory by inserting an additional directory level (e.g. htdocs) under /srv/http so that you can place other directories at this same level without them all being under the Document root:

 /srv/http/
           htdocs/ - DocumentRoot directory for storage of your served web pages (e.g. index.php discussed below)
           cgi-bin6/ - directory for the ipscan cgi executables
 

If you follow this suggestion then don't forget to modify the DocumentRoot setting in the apache configuration file! Having followed the php installation guide then you'll also need to update php's base directory to match Apache inside /etc/php/php.ini:

 open_basedir = /srv/http/htdocs:/home/:/tmp/:/usr/share/pear/

And also define the timezone appropriately for your system:

 
  [Date]
  ; Defines the default timezone used by the date functions
  ; http://php.net/date.timezone
  date.timezone = "Europe/London"
  

Once Apache and PHP start successfully:

 # rc.d start httpd

then edit /etc/rc.conf (to start Apache at boot):

 DAEMONS=(... httpd ...)
 

Then install the basic development tools (provides gcc, etc.)

 # pacman -S base-devel


And perl and the associated MySQL interface modules:

 # pacman -S perl-dbi perl-dbd-mysql


You may also wish to include spoken sound support:

 # pacman -S festival festival-english alsa-utils


And update your festivalrc file:

 # cat /root/.festivalrc
   
   (Parameter.set 'Audio_Command "/usr/bin/aplay -R1000 -q -c 1 -t raw -f s16 -r $SR $FILE")
   (Parameter.set 'Audio_Method 'Audio_Command)
 

And add a sound.conf file under /etc/modules-load.d to ensure the Broadcom sound module is loaded at boot. The file needs to contain a single statement shown below:

 # cat /etc/modules-load.d/sound.conf
 snd_bcm2835


Install git, download and build ipscan

Then install git and download the ipscan source:

 # pacman -S git
 

Then clone the ipscan source into a directory under your root user account:

 [[email protected] ~]# git clone https://github.com/timsgit/ipscan ipscan
 Cloning into 'ipscan'...
 remote: Counting objects: 221, done.
 remote: Compressing objects: 100% (200/200), done.
 remote: Total 221 (delta 156), reused 85 (delta 20)
 Receiving objects: 100% (221/221), 102.97 KiB, done.
 Resolving deltas: 100% (156/156), done.
 [[email protected] ~]# ls ipscan
 COPYING  ipscan.c  ipscan_checks.c  ipscan_db.c  ipscan.h  ipscan_portlist.h  ipscan_web.c  Makefile  README  sqltidy.pl
 [[email protected] ~]#
 

Now follow the instructions in the README file within ipscan's github repository.

It's necessary to change the Makefile to reflect your Apache server's cgi-bin directory mapping:

Assuming your Apache configuration file (/etc/httpd/conf/httpd.conf) contains:

 DocumentRoot "/srv/http/htdocs"

and ...

 ScriptAlias /cgi-bin6/ "/srv/http/cgi-bin6/"

and ...

 <Directory "/srv/http/cgi-bin6">
   AllowOverride None
   Options +ExecCGI -Includes
   Order allow,deny
   Allow from all
 </Directory>

then modify your ipscan Makefile to reflect this:

 # Install location for the CGI files
 TARGETDIR=/srv/http/cgi-bin6
 
 # HTTP URI PATH by which external hosts will access the CGI files.
 # This may well be unrelated to the installation path if Apache is configured
 # to provide CGI access via an alias.
 # NB : the path should begin with a / but must NOT end with one ....
 URIPATH=/cgi-bin6

Make sure you have created the /srv/http/cgi-bin6 directory (or whatever you have chosen) before attempting to build ipscan. Also make sure that your MySQL database is created following the instructions in the github repository. You will need to login to mysql using the root password you previously defined (above):

 # mysql -u root -p
 
 mysql> create database ipscan;
      Query OK, 1 row affected (0.00 sec)
      
 mysql> create user 'ipscan-user'@'localhost' identified by 'ipscan-passwd';
      Query OK, 0 rows affected (0.01 sec)
 
 mysql> grant all privileges on ipscan.* to 'ipscan-user'@'localhost' identified by 'ipscan-passwd';
      Query OK, 0 rows affected (0.01 sec)
 
 mysql> exit
 

Modify the ipscan-user and ipscan-passwd entries to use your preferences (different to the ones that you chose for root!) and enter the same credentials into the ipscan.h include file:

 // MySQL database-related globals
 
 #define MYSQL_HOST "localhost"
 #define MYSQL_USER "ipscan-user"
 #define MYSQL_PASSWD "ipscan-passwd"
 #define MYSQL_DBNAME "ipscan"
 #define MYSQL_TBLNAME "results"

Then you should be able to make ipscan as root user and perform the install to transfer the necessary cgi files into your preferred cgi-bin directory:

 # make && make install

Prior to running the ipscan tester it is advisable to add a cron job which will execute the sqltidy.pl script to remove the completed scan results to protect your users' security and minimise the size of your database:

First install the necessary perl mysql data base interface modules:

 # pacman -S perl-dbi-mysql perl-mysql  
 

Then modify the MySQL related entries in the sqltidy.pl script to match your chosen user, password, etc. and then ensure that the script runs standalone without any perl errors:

 # /root/ipscan/sqltidy.pl
 

And finally edit the root cron job to insert the line shown below (modified to reflect your ipscan source directory):

 # crontab -e
 

You may wish to move sqltidy.pl to another location, but ensure its permissions prevent ordinary users from reading or executing the file:

 */5 * * * * /root/ipscan/sqltidy.pl 2>&1

Check your Services and IPv6 address allocation

Now it is suggested that you check your Apache service is running using lsof:

 # pacman -S lsof
 
 # lsof -i -n -P |grep http
 httpd     712     root    4u  IPv6   1457      0t0  TCP *:80 (LISTEN)
 httpd   16107     http    4u  IPv6   1457      0t0  TCP *:80 (LISTEN)
 ...

And for MySQL:

 # ps -ef |grep -i mysql
 root       392     1  0 Aug25 ?        00:00:00 /bin/sh /usr/bin/mysqld_safe --user=mysql
 mysql      688   392  0 Aug25 ?        01:47:48 /usr/bin/mysqld --basedir=/usr --datadir=/var/lib/mysql --plugin-dir=/usr/lib/mysql/plugin 
                                                 --user=mysql --log-error=/var/lib/mysql/alarmpi.err --pid-file=/var/lib/mysql/alarmpi.pid 
                                                 --socket=/var/run/mysqld/mysqld.sock --port=3306
 

It is now worth checking that your Raspberry Pi has been correctly allocated an IPv6 address, using ifconfig:

 # ifconfig eth0
 eth0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST>  mtu 1500
       inet AA.BB.C.DD  netmask 255.255.255.0  broadcast AA.BB.C.255
       inet6 2001:470:971f:3:ba27:ebff:fecc:dc7c  prefixlen 64  scopeid 0x0<global>
       inet6 fe80::ba27:ebff:fecc:dc7c  prefixlen 64  scopeid 0x20<link>
       ether b8:27:eb:cc:dc:7c  txqueuelen 1000  (Ethernet)
       RX packets 721789  bytes 103366589 (98.5 MiB)
       RX errors 0  dropped 48  overruns 0  frame 0
       TX packets 231210  bytes 130480722 (124.4 MiB)
       TX errors 0  dropped 0 overruns 0  carrier 0  collisions 0


Assuming that your Raspberry Pi has a valid IPv6 address and that your Apache and MySQL services are correctly running then you should be able to point a web browser to your cgi file:

e.g. towards http://[2001:470:971f:3:ba27:ebff:fecc:dc7c]/cgi-bin6/ipscan-txt.cgi

Restrict SSH Logins

In general it is recommended that you apply all the standard SSH hardening approaches. You can also restrict logins to your newly created plain user (above) with the addition of the following line to your ssh configuration file (/etc/ssh/sshd_config). I'd also recommend that you choose an username which isn't a simple shortening of your own name:

 AllowUsers PlnUsr456


Example PHP landing page

An example PHP landing page can be found by following the link Raspberry_Pi_IPv6_firewall_tester_landingpage.


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