HowTos
HowTo build your own mesh node
You will need the following:
Hardware:
Node:
Either a PC with a wireless card, or a Wireless Router or SBC Single Board Computer
Antennae:
Buy or make your own (see Home-Brew Antennae).
Other:
1. Cables: Rf and UTP cable 2. POE convertors, Buy or make your own (see Home-Brew POE) 3. Pole and brackets
Firmware
1. Download freifunk firmware from Freifunk site or Local
2. Set boot wait on linksys
Web method:
Navigate to web page were you can send pings and type each of these lines one line at a time
;cp${IFS}*/*/nvram${IFS}/tmp/n ;*/n${IFS}set${IFS}boot_wait=on ;*/n${IFS}commit ;*/n${IFS}show>tmp/ping.log
NVRAM method:
telnet into box and type the following
nvram set boot_wait=on nvram commit reboot
3. Upload firmware
Give yourself a fixed IP in the 192.168.1.x range e.g. 192.168.1.100
Use tftp to upload firmware
tftp 192.168.1.1 tftp> binary tftp> rexmt 1 tftp> trace Packet tracing on. tftp> put openwrt-g-freifunk-1.0.2-en.bin
Wait for the power light to stop flashing Power cycle the box
4. Check that the web interface is working. Visit the site http://192.168.1.1 on your web browser - you should see the main freifunk web interface appear
5. Set up the wireless interface
WLAN protocol: Static Ip Address: 192.168.2.5 Netmask: 255.255.255.0 WLAN Mode: Ad Hoc (Peer to Peer) ESSID: mesh Channel: 6 TX Power: 100
6. Set up the LAN interface
LAN protocol: Static LAN IP: 192.168.4.1 LAN Netmask: 255.255.255.0 Disable NAT: yes Disable Firewall: yes
7. Set up the WAN interface
WAN Protocol: DHCP Host name: Lawrence
8. Set up OLSR
HNA4: 192.168.4.1 255.255.255.0
9. Restart the Linksys
You should now be given an IP address in the 192.168.3.x range You should be able to connect to another mesh access point and even get a default gateway to an internet point, if one exists
WRT54G HowTos
HowTo create an ipk package
TOOLS
Get the script rightfully called ipkg-build at, among other places, ftp://ftp.handhelds.org/packages/ipkg-utils, or http://www.mizi.com/download/mz20/ipkg-build.
CREATING THE PACKAGE STRUCTURE
Say you wanna create a package called MyPackage; you further wanna package the project called MyProject. Then do the following:
1. Create a directory called MyPackage. 2. Inside directory MyPackage, create a directory called CONTROL. 3. Copy your project (MyProject) to the MyPackage directory. 4. Inside directory CONTORL creating a file called control.
NOTE:
When the package is installed on the target, the MyPAckage directory will be created with respect to root. So if you wanted your files to be installed in /usr/bin on the target system, then our project would in this case be “/usr/bin”. That is you create inside directory MyPackage a directory called /usr/bin.
FORMAT AND CONTENTS OF /CONTROL/control
Package: MyPackage
Priority: optional // default
Version: 1.0 //package version
Architecture: mipsel
Maintainer: I_maintain@you.com
Source: ftp:ftp:122.122.122.122 //See Note below
Section: misc //See Note below
Description: This is an attempt to create ipkg.
NOTE:
The fields Section and Source seem rather useless to me in this example and I initially left them out; however the ipkg-build script complained requiring them, so I just put them in as a workaround without knowing/”caring” of their need. There are other fields not included here which you might need for your purposes, check the web for more.
Further the comments are mine for this documentation purposes only and the script MIGHT NOT permit comments.
RUNNING THE ipkg-build SCRIPT
Now simply run (of course being outside of the directory MyPackage):
“./ipkg-build –c –o root –g root MyPackage” // as root or non-root, or
“./ipkg-build –c MyPackage” //as root
IF all’s well, a package on the current directory will be created.
NOTE:
Without the “-c” option, I could not get the package installed successfully, you can try with or without and see for yourself.
HowTo run Kismet on a WRT54G
- Install either the kismet or kismet_drone package.
- Edit /etc/kismet_drone.conf and change the source from wrt54g,eth1,wrt45g to wrt54g,prism0,wrt54g.
- Run kismet from your host, pc and off u go!
HowTo check your Linksys WRT54G version
Finally some good info about finding the version number from outside markings and using NVRAM settings - info from www.openwrt.org
Linksys WRT54G
1. Hardware versions 1. Identification by S/N 1. WRT54G v1.0 2. WRT54G v1.1 3. WRT54G v2.0 4. WRT54G v2.2 5. WRT54G v3.0 & WRT54G v3.1 6. WRT54G v4.00 2. Table summary 3. Hardware hacking
1. Hardware versions
There are currently seven versions of the WRT54G (v1.0, v1.1, v2.0, v2.2, v3.0, v3.1, v4.00). With the exception of v4.00 devices (it is currently marked as untested for White Russian RC1), the WRT54G units are supported by OpenWrt 1.0 (White Russian) and later. boot_wait is off by default on these routers, so you should turn it on. The version number is found on the label on the bottom of the front part of the case below the Linksys logo. 1.0.1. Identification by S/N
Useful for identifying shrinkwrapped units. The S/N can be found on the box, below the UPC barcode.
(!) Please contribute to this list. (!)
Model | S/N | CVS | EXP |
WRT54G v1.1 | CDF20xxxxxxx CDF30xxxxxxx | (./) | (./) |
WRT54G v2 | CDF50xxxxxxx | (./) | (./) |
WRT54G v2.2 | CDF70xxxxxxx | {X} | (./) |
WRT54G v3 | CDF80xxxxxxx | {X} | (./) |
WRT54G v3.1 (AU?) | CDF90xxxxxxx | {X} | (./) |
1.1. WRT54G v1.0
The WRT54G v1.0 is based on the Broadcom 4710 board. It has a 125MHz CPU, 4Mb flash and 16Mb SDRAM. The wireless NIC is a mini-PCI card. The switch is an ADM6996. 1.2. WRT54G v1.1
The WRT54G v1.1 is based on the Broadcom 4710 board. It has a 125MHz CPU, 4Mb flash and 16Mb SDRAM. The wireless NIC is soldered to the board. The switch is an ADM6996.
Hardware informations (nvram) :
boardtype=bcm94710dev
1.3. WRT54G v2.0
The WRT54G v2.0 is based on the Broadcom 4712 board. It has a 200MHz CPU, 4Mb flash and 16Mb SDRAM. The wireless NIC is integrated to the board. The switch is an ADM6996.
Hardware informations (nvram) :
boardtype=0x0101 boardflags=0x0188
1.4. WRT54G v2.2
The WRT54G v2.2 is based on the Broadcom 4712 board. It has a 200MHz CPU, 4Mb flash and 16Mb DDR-SDRAM. The wireless NIC is integrated to the board. The switch is a BCM5325.
Hardware informations (nvram) :
boardtype=0x0708 boardflags=0x0118
1.5. WRT54G v3.0 & WRT54G v3.1
This unit is just like the V2.2 Except it has an extra reboot button on the left front panel behind a Cisco logo. 1.6. WRT54G v4.00
Please add information for this revision.
Hardware informations (nvram) :
boardrev=0x10 boardtype=0x0708 boardflags2=0 boardflags=0x0118 boardnum=42
/!\ To take the front cover off of this unit you must first remove the small screws under the rubber covers of the front feet! 2. Table summary
how to get info :
- board info: nvram show | grep board | sort
- cpu model: cat /proc/cpuinfo | grep cpu
Model | boardrev | boardtype | boardflags | boardflags2 | boardnum | wl0_corerev | cpu model |
WRT54G v1.1 | bcm94710dev | 42 | 5 | BCM4710 V0.0 | |||
WRT54G v2.0 | 0x0101 | 0x0188 | BCM3302 V0.7 | ||||
WRT54G v2.2 | 0x0708 | 0x0118 | 7 | ||||
WRT54G v3.0 | 0x10 | 0x0708 | 0x0118 | 0 | 42 | 7 | BCM3302 V0.7 |
WRT54G v3.1 (AU?) | 0x10 | 0x0708 | 0x0118 | 0 | 42 | 7 | BCM3302 V0.7 |
WRT54G v4.0 | 0x10 | 0x0708 | 0x0118 | 0 | 42 | 7 | BCM3302 V0.7 |
WRT54GS v1.0 | 0x10 | 0x0101 | 0x0388 | 0 | 42 | 7 | BCM3302 V0.7 |
WRT54GS v1.1 | 0x10 | 0x0708 | 0x0318 | 0 | 42 | ||
Buffalo WBR-54G | 0x10 | bcm94710ap | 0x0188 | 2 | 42 | ||
Toshiba WRC1000 | bcm94710r4 | 100 | |||||
Buffalo WBR2-G54S | 0x10 | 0x0101 | 0x0188 | 0 | 00 | ||
Asus WL-500G Deluxe | 0x10 | bcm95365r | 45 | 5 | BCM3302 V0.7 |
- other variables (nvram) of interest : boot_ver, pmon_ver, firmware_version, os_version
please complete this table. Look at this thread : [WWW] http://openwrt.org/forum/viewtopic.php?pid=8127#p8127 May be this table should move up to OpenWrtDocs/Hardware. 3. Hardware hacking
There are revision XH units of the WRT54G v2.0. These units have 32Mb of memory, but they are locked to 16Mb. You can unlock the remaining memory with changing some of the variables. Afterburner (aka. Speedbooster) mode can be enabled with some variables, too.
/!\ However, there are no guaranties, that these will work, and changing the memory configuration on a non-XH unit will give You a brick. Check the forums for more info. If you have a look at the WRT54G v2.2 board, you can find on the left corner, near the power LED, an empty place for a 4 pins button. On the board it is printed as SW2. This is the second reset button you can find on WRT54G v3.0, except that it has not been soldered.
HowTo Stabilise a ver 2.2 WRT54G running OpenWRT based firmware
After a lot of tweaking OLSR running on Linksys has had no "ping down" messages for about 5 days now. Some of the tips to getting OLSR on OpenWRT stable.
1. Lock all the nodes to 802.11B don't let it auto sense 2. If there are any v2.2 hardware devices, change the clock speed to 216MHz with the following commands1
- nvram set clkfreq=216
- nvram commit
- reboot
3. Lock the RX and TX antenna to the one you connected your external antenna too, don't use AUTO. TAKE NOTE!!! On Version 2.0 hardware Antenna A is on the left looking from the front of the linksys and and on Version 2.,2 hardware Antenna A is on the right looking from the fron of the linksys. This caught me out a few times.
HowTo configure netmasks on OLSR/Freifunk
I had this problem with the OLSR web interface on the Freifunk openwrt implementation. If entered the following for the HNA4 field
HNA4: 10.3.13.1 255.255.255.0
Which should advertise the whole 10.3.13.x net it would advertise the 10.0.0.0 net. I discovered that it needs the subnet mask in this format instead
HNA4: 10.3.13.1/24
A few other things I learnt
1. NVRAM variable ff_hna4 stores the HNA4 setting 2. /etc/olsr.conf is ignored by freifunk 3. /rom/etc/olsrd.conf stores a permanent copy of the olsrd setup 4. /var/etc/olsrd.conf is a symbolic link to /tmp/etc/olsrd.conf ... this file is copied from /rom/etc/olsrd.conf into RAM (ramfs filesystem) and is the one called by olsrd.
ps -A will reveal that olsrd is called as follows
olsrd -f /var/etc/olsrd.conf -d 0
HowTo Brick and De-Brick a WRT54G
Theres nothing like learning the hard way! As a result of my usual "If it ain't broke, it hasn't been fixed enough" approach to life, I fiddled with the Linksys until it innevitably went into a coma/ vegetative state. How did I manage this you ask? Simple, I started by doing a firmware upgrade using the wrong sveasoft image, which resulted in a moderately upset linksys which refused to talk to me on the web interface. With the help of our trusted Android (Andrew), I managed to do a reset-hold/ ping / tftp recovery and then flashed the poor bugger with OpenWRT, which according to OpenWRT is still not supported by them for the version 2.2 Linksys, which I subsequently found out I was using! So alas, all that remained was a perfectly dead Linksys, not responding to anything. It was time to go in, screwdrivers a blazing. I shorted out pins 15 and 16 and started up the Linksys, this created a crc error which was detected on boot, this then started up an emergency TFTP server which allowed me to ping and finally tftp the original Linksys firmware back onto it!
More details on the recovery processes can be found here: OpenWrtDocs/Troubleshooting - OpenWrt
Whew!
HowTo create/be part of a VPN
Establishing IPsec tunnel/connection between FreeBSD and Linux (openswan IPsec Cisco WRT54G Router)
Establishing IPsec tunnel/connection between FreeBSD and Linux (openswan IPsec Cisco WRT54G Router)
Below is a simple setup demonstrating steps to establish an IPsec connection/tunnel between two machines one running Ipsec/racoon (on FreeBSD) and the other running openswan Ipsec (on WRT54G running Linux) using pre-shared key: This IPsec setup example shows how to control the Private LAN_A (146.64.0.0) network access.
.........(INTERNET)
.........|
.........|
..| FreeBSD | ......10.50.1.3..............................10.50.1.80| Openswan IPsec|
.| Router_A |<========> (“NETWORK”)<=======>| Router_B |
.| 146.64.17.1 |................................................................| 10.1.13.1 |
............ ||.........................................................................||
...Private LAN_A....................................................PPrivate LAN_B
...........|.......................................................................................|........... ....Client_A (146.64.17.12) ..................................Client_B (10.1.13.130)
NOTE: Before running racoon/ipsec and openswan ipsec, ensure that all nodes can successfully reach (ping) each other.
INSTALLING OPENSWAN ON WRT54G
To install, add the following to /etc/ipkg.conf:
src openswan ftp://ftp.openswan.org/openswan/binaries/openwrt/buildroot-20040509/ipkg/
and then run:
ipkg update
ipkg install gmp mawk openswan-module openswan
NOTE: Since /etc/ipkg.conf would normally be a link to the file in /rom directory; You can simple delete the link, and then copy the file over.
CONFIGURATION (Router_A IPsec)
There are three (3) configuration files on Router_A that needs to be edited: ipsec.conf (found in /etc on FreeBSD), psk.conf.(found in /usr/local/etc/racoon/ on FreeBSD) and racoon.conf.(found in /usr/local/etc/racoon/ on FreeBSD).
Add the following two lines in ipsec.conf: (This file defines the ends points of the tunnel to be established. There’d be two lines for each LAN_B client )
spdadd 146.64.0.0/16 10.1.13.0/24 any -P out ipsec esp/tunnel/10.50.1.3-10.50.1.80/require;
spdadd 10.1.13.0/24 146.64.0.0/16 any -P in ipsec esp/tunnel/10.50.1.80-10.50.1.3/require;
Roughly; the first line says “traffic coming from 146.64.0.0 network destined for 10.1.13.0 network must be transported via an IPsec tunnel with local endpoint 10.50.1.3 and far endpoint 10.50.1.80”.
The second line says “traffic coming from 10.1.13.0 network destined for 146.64.0.0 network must/would use an IPsec tunnel with a far endpoint 10.50.1.80 and local endpoint 10.50.1.3”.
Add the following line to psk.conf (This file defines the pre-shared key to be used between Router_A and Router_B).
10.50.1.80 presharedkey
NOTE: Comments must be on a different line to the pre-shared key entry, otherwise the comments are interpreted as part of the pre-shared key.
Add the following lines to racoon.conf
path pre_shared_key "/usr/local/etc/racoon/psk.txt" ;
remote anonymous
{
- exchange_mode aggressive,main ;
exchange_mode main ;
lifetime time 24 hour ;
proposal {
encryption_algorithm 3des ;
hash_algorithm sha1;
authentication_method pre_shared_key ;
dh_group 2 ;
}
}
sainfo anonymous
{
lifetime time 12 hour ;
encryption_algorithm 3des, blowfish, des, rijndael ;
authentication_algorithm hmac_sha1, hmac_md5 ;
compression_algorithm deflate ;
}
IMPORTANT: The IPsec version (2.3.1) used in this example did not seem to support “aggressive” exchange_mode hence “main” is specified. However, it is possible to include more than mode by separating them with comma; i.e.
exchange_mode aggressive, main ;
Both ways (specifying one or more modes) works! Further other lines with more than one values separated by comma may contain only one value as described for exchange_mode above.
CONFIGURATION (Openswan IPsec, Router_B)
There are two (2) files on Router_B that needs editing: ipsec.conf (found in /etc on Linux) and ipsec.secrets (found in /etc on Linux).
Add the following line in ipsec.secrets: (This file defines the ends points of the tunnel to be established and also the pre-shared key to be used)
10.50.1.3 10.50.1.80: PSK “presharedkey”
NOTE: 1. Place the string after PSK in quotes if it does not start with 0x (as in a hexadecimal number), otherwise openswan will complain.
2. The string after PSK must be the same as that specified in psk.conf on Router_A.
Add the following lines in ipsec.conf: (This file defines among other things, the network to be protected, authentication methods, type of connection, etc.)
config setup
interfaces="ipsec0=eth1"
klipsdebug=none
plutodebug=none
uniqueids=yes
conn %default
keyingtries=0
authby=secret #rsasig
conn crypt
left=10.50.1.80
leftid=10.50.1.80
leftsubnet=10.1.13.1/24
right=10.50.1.3
rightid=10.50.1.3
rightsubnet=146.64.8.8/16
auto=start
type=tunnel
NOTE: The name of our connection is called “crypt”. Under “config setup”, the line interfaces=”ipsec0=eth1” must refer to a real interface (ifconfig will show available interfaces) and also must be the interface through which the data to be protected will travel, in case of more than one NIC. The line “auto=start” says, the connection “crypt” must be brought up when openswan ipsec starts up; to bring up the connection manually either comment out the line or specify “auto=ignore”. The explanation given for ipsec.conf on Router_A is pretty much the same as for Router_B.
STARTING UP IPsec and Racoon (FreeBSD).
At this point all machines are able to reach (ping) each other successfully. Next ensure ipsec and racoon are not running. On my machine I do:
verdi2istc#/etc/rc.d/ipsec stop
Clearing ipsec manual keys/policies.
to stop ipsec if it was already running; and do
verdi2istc# setkey -P -D
No SPD entries.
To ensure there are no IPsec SA/SP database entries; and next do
verdi2istc#killall racoon
to stop racoon.
Next issue
verdi2istc# /etc/rc.d/ipsec restart
to start ipsec, and to verify ipsec started successfully then do
verdi2istd# setkey -P -D
10.1.13.0/24[any] 146.64.0.0/16[any] any
in ipsec
esp/tunnel/10.50.1.80-10.50.1.3/require
created: Aug 30 09:27:39 2005 lastused: Aug 30 09:27:39 2005
lifetime: 0(s) validtime: 0(s)
spid=16531 seq=1 pid=583
refcnt=1
146.64.0.0/16[any] 10.1.13.0/24[any] any
out ipsec
esp/tunnel/10.50.1.3-10.50.1.80/require
created: Aug 30 09:27:39 2005 lastused: Aug 30 09:27:39 2005
lifetime: 0(s) validtime: 0(s)
spid=16530 seq=0 pid=583
refcnt=1
From Router_A, type either racoon (to run in the backgroung) or racoon –F
verdi2istd#racoon
or to fun in foreground type
verdi2istd#racoon -F -d
Foreground mode.
2005-08-30 09:51:59: INFO: main.c:172:main(): @(#)package version freebsd-20040818a
2005-08-30 09:51:59: INFO: main.c:174:main(): @(#)internal version 20001216 sakane@kame.net
2005-08-30 09:51:59: INFO: main.c:175:main(): @(#)This product linked OpenSSL 0.9.7d 17 Mar 2004 (http://www.openssl.org/)
2005-08-30 09:51:59: DEBUG: pfkey.c:434:pfkey_init(): call pfkey_send_register for AH
2005-08-30 09:51:59: DEBUG: pfkey.c:434:pfkey_init(): call pfkey_send_register for ESP
2005-08-30 09:51:59: DEBUG: pfkey.c:434:pfkey_init(): call pfkey_send_register for IPCOMP
2005-08-30 09:51:59: DEBUG: cftoken.l:578:yycf_set_buffer(): reading config file /usr/local/etc/racoon/racoon.conf
2005-08-30 09:51:59: DEBUG: pfkey.c:2379:pk_checkalg(): compression algorithm can not be checked because sadb message doesn't support it.
2005-08-30 09:51:59: DEBUG: grabmyaddr.c:206:grab_myaddrs(): my interface: 10.50.1.3 (ath0)
2005-08-30 09:51:59: DEBUG: grabmyaddr.c:206:grab_myaddrs(): my interface: fe80::202:6fff:fe21:2e71%ath0 (ath0)
2005-08-30 09:51:59: DEBUG: grabmyaddr.c:206:grab_myaddrs(): my interface: 146.64.8.1 (sis0)
2005-08-30 09:51:59: DEBUG: grabmyaddr.c:206:grab_myaddrs(): my interface: fe80::200:24ff:fec2:b684%sis0 (sis0)
2005-08-30 09:51:59: DEBUG: grabmyaddr.c:206:grab_myaddrs(): my interface: 127.0.0.1 (lo0)
2005-08-30 09:51:59: DEBUG: grabmyaddr.c:206:grab_myaddrs(): my interface: ::1 (lo0)
2005-08-30 09:51:59: DEBUG: grabmyaddr.c:206:grab_myaddrs(): my interface: fe80::1%lo0 (lo0)
2005-08-30 09:51:59: DEBUG: grabmyaddr.c:474:autoconf_myaddrsport(): configuring default isakmp port.
2005-08-30 09:52:00: DEBUG: grabmyaddr.c:496:autoconf_myaddrsport(): 7 addrs are configured successfully
2005-08-30 09:52:00: INFO: isakmp.c:1368:isakmp_open(): fe80::1%lo0[500] used as isakmp port (fd=5)
2005-08-30 09:52:00: INFO: isakmp.c:1368:isakmp_open(): ::1[500] used as isakmp port (fd=6)
2005-08-30 09:52:00: INFO: isakmp.c:1368:isakmp_open(): 127.0.0.1[500] used as isakmp port (fd=7)
2005-08-30 09:52:00: INFO: isakmp.c:1368:isakmp_open(): fe80::200:24ff:fec2:b684%sis0[500] used as isakmp port (fd=8)
2005-08-30 09:52:00: INFO: isakmp.c:1368:isakmp_open(): 146.64.8.1[500] used as isakmp port (fd=9)
2005-08-30 09:52:00: INFO: isakmp.c:1368:isakmp_open(): fe80::202:6fff:fe21:2e71%ath0[500] used as isakmp port (fd=10)
2005-08-30 09:52:00: INFO: isakmp.c:1368:isakmp_open(): 10.50.1.3[500] used as isakmp port (fd=11)
2005-08-30 09:52:00: DEBUG: pfkey.c:197:pfkey_handler(): get pfkey X_SPDDUMP message
2005-08-30 09:52:00: DEBUG: pfkey.c:197:pfkey_handler(): get pfkey X_SPDDUMP message
2005-08-30 09:52:00: DEBUG: policy.c:184:cmpspidxstrict(): sub:0xbfbfea30: 146.64.0.0/16[0] 10.1.13.0/24[0] proto=any dir=out
2005-08-30 09:52:00: DEBUG: policy.c:185:cmpspidxstrict(): db :0x809dc08: 10.1.13.0/24[0] 146.64.0.0/16[0] proto=any dir=in
The –d option is for debug, to see more output add extra –d.
IMPORTANT: At this point if all went well Client_A should not be reachable (try ping) from Router_B and Client_B; meaning private LAN_A is now protected. However, Router_A and Router_B should be able reach/see each other. Do not continue until this is accomplished.
STARTING UP OPENSWAN IPSEC
Now, on Router_B do:
root@Lawrence:/# ipsec setup restart
ipsec_setup: Stopping Openswan IPsec...
ipsec_setup: Starting Openswan IPsec 2.3.1...
verify that the IPsec tunnel has been established correctly by issuing:
root@Lawrence:/# ipsec whack --status
000 interface ipsec0/eth1 10.50.1.80
000 %myid = (none)
000 debug none
000
000 algorithm ESP encrypt: id=3, name=ESP_3DES, ivlen=64, keysizemin=168, keysizemax=168
000 algorithm ESP encrypt: id=12, name=ESP_AES, ivlen=128, keysizemin=128, keysizemax=256
000 algorithm ESP auth attr: id=1, name=AUTH_ALGORITHM_HMAC_MD5, keysizemin=128, keysizemax=128
000 algorithm ESP auth attr: id=2, name=AUTH_ALGORITHM_HMAC_SHA1, keysizemin=160, keysizemax=160
000
000 algorithm IKE encrypt: id=7, name=OAKLEY_AES_CBC, blocksize=16, keydeflen=128
000 algorithm IKE encrypt: id=5, name=OAKLEY_3DES_CBC, blocksize=8, keydeflen=192
000 algorithm IKE hash: id=2, name=OAKLEY_SHA1, hashsize=20
000 algorithm IKE hash: id=1, name=OAKLEY_MD5, hashsize=16
000 algorithm IKE dh group: id=2, name=OAKLEY_GROUP_MODP1024, bits=1024
000 algorithm IKE dh group: id=5, name=OAKLEY_GROUP_MODP1536, bits=1536
000 algorithm IKE dh group: id=14, name=OAKLEY_GROUP_MODP2048, bits=2048
000 algorithm IKE dh group: id=15, name=OAKLEY_GROUP_MODP3072, bits=3072
000 algorithm IKE dh group: id=16, name=OAKLEY_GROUP_MODP4096, bits=4096
000 algorithm IKE dh group: id=17, name=OAKLEY_GROUP_MODP6144, bits=6144
000 algorithm IKE dh group: id=18, name=OAKLEY_GROUP_MODP8192, bits=8192
000
000 stats db_ops.c: {curr_cnt, total_cnt, maxsz} :context={0,0,0} trans={0,0,0} attrs={0,0,0}
000
000 "crypt": 10.1.13.0/24===10.50.1.80...10.50.1.3===146.64.0.0/16; erouted; eroute owner: #2
000 "crypt": srcip=unset; dstip=unset
000 "crypt": ike_life: 3600s; ipsec_life: 28800s; rekey_margin: 540s; rekey_fuzz: 100%; keyingtries: 0
000 "crypt": policy: PSK+ENCRYPT+TUNNEL+PFS+UP; prio: 24,16; interface: eth1;
000 "crypt": newest ISAKMP SA: #1; newest IPsec SA: #2;
000 "crypt": IKE algorithm newest: 3DES_CBC_192-SHA1-MODP1024
000
000 #2: "crypt":500 STATE_QUICK_I2 (sent QI2, IPsec SA established); EVENT_SA_REPLACE in 27961s; newest IPSEC; eroute owner
000 #2: "crypt" esp.2ec9213@10.50.1.3 esp.aa7dc439@10.50.1.80 tun.1002@10.50.1.3 tun.1001@10.50.1.80
000 #1: "crypt":500 STATE_MAIN_I4 (ISAKMP SA established); EVENT_SA_REPLACE in 2625s; newest ISAKMP; nodpd
000
root@Lawrence:/#
At this point Client_A should be reachable by Client_B. On each/either Router do a tcpdump; and any packets with ESP indicates that the setup tunnel is currently handling data from the clients.
NOTE: ESP packets will only appear if there are packets from either client to the other client.
DEBUGGING (Openswan IPsec)
Earlier I showed how to stop a connection from being started up automatically by openswan. IPsec. So now with ipsec running but our connection “crypt” NOT up, we will debug the starting up of the connection (crypt). To debug the key exchange with racoon, first create a script with following content:
ipsec pluto --debug-all
ipsec whack \
--name crypt \
--tunnel \
--host 10.50.1.80 \
--nexthop 10.50.1.3 \
--client 10.1.13.1/24 \
--updown 'ipsec _updown' --id 10.50.1.80 \
--to \
--host 10.50.1.3 \
--client 146.64.8.1/16 \
--updown 'ipsec _updown' --id 10.50.1.3 \
--psk \
--esp 3des-md5,3des-sha1 \
--ike 3des-md5,3des-sha1 \
--encrypt
ipsec whack --listen
ipsec whack --route --name crypt
ipsec whack --initiate --name crypt
Running this script will show the various key exchange messages. The messages are pretty much clear to see what it’s happening.
HowTo stop DHCP client over-writing resolv.conf
Finally I found out how to do it
Edit the /etc/dhcp3/dhclient.conf file Find the line that says request
Comment out the line that requests for domain-name, domain-name-servers and host-name
request subnet-mask, broadcast-address, time-offset, routers,
- domain-name, domain-name-servers, host-name,
netbios-name-servers, netbios-scope;
HowTo setup DHCP with OLSR
There have been so many misleading postings on this - I will finally set the record straight.
You will need to reserve a block of IP's for non OLSR wireless clients that want to connect onto the mesh network such as a laptop. Here is an example setup:
Wireless router 1: Wireless IP: 10.51.1.13 LAN IP: 10.3.13.1 Subnet for Wireless DHCP clients: 10.51.1.64/28 (This would mean that 16 machines could potentially connect to this wireless router. The IP leases will be in the range from 10.51.1.64 to 10.51.1.79)
Wireless router 2: Wireless IP: 10.51.1.14 LAN IP: 10.3.14.1 Subnet for Wireless DHCP clients : 10.51.1.80/28 (IP leases will be in the range from 10.51.1.80 to 10.51.1.93)
To set this up On Friefunk firmware Wireless Router 1: OLSR: OLSR DHCP: 10.51.1.64/28
Wireless Router 2: OLSR: OLSR DHCP: 10.51.1.80/28
Most people gave strange values for OLSR DHCP in their postings the most common one was:
OLSR DHCP: 10.51.1.80/28, 255.255.255.240
The subnet mask after the comma (255.255.255.240) is an alternative to the slash format /28. Why does everyone have this reduntant subnet mask on their postings???
HowTo setup your own network profiles on a laptop
I have always wanted to write some good scripts that configure my laptop for home and work wireless/ethernet automatically in ubuntu and so I set about building up a set of scripts that I can call.
I have four scenarios: 1. use laptop at home with wireless access point 2. use laptop at home with ethernet 3. use laptop at work with wireless access point 4. use laptop at work with ethernet
I created two files in /etc/network: interfaces.work and interfaces.home with all the ethernet and wireless settings for home and work in this file
/etc/network/interfaces.home
- This file describes the network interfaces available on your system
- and how to activate them. For more information, see interfaces(5).
- The loopback network interface
auto lo iface lo inet loopback
- The primary network interface
iface eth0 inet static address 10.3.13.102 netmask 255.255.255.0 gateway 10.3.13.1
- The wireless network interface
iface eth1 inet dhcp wireless-essid pta-mesh wireless-mode Ad-Hoc wireless-channel 1 wireless-key off
/etc/network/interfaces.work
- This file describes the network interfaces available on your system
- and how to activate them. For more information, see interfaces(5).
- The loopback network interface
auto lo iface lo inet loopback
- The primary network interface
iface eth0 inet dhcp
- The wireless network interface
iface eth1 inet dhcp wireless-essid icomtek wireless_mode Managed wireless-key off
I also created two files with my dns and domain settings for home and work in /etc/ called resolv.home and resolv.work
resolv.home search icomtek.csir.co.za elarduspark.org.za cids.org.za nameserver 146.64.28.1 10.3.13.1
resolv.work search icomtek.csir.co.za cids.org.za nameserver 146.64.28.1
Here are my scripts that configure my interfaces based on the above files
1. Setup for wireless networking at home /usr/local/bin/homenet-wireless
- !/bin/bash
echo Setting up network for home wireless network sudo cp /etc/network/interfaces.home /etc/network/interfaces
eth0_status=`ifconfig | grep eth0` eth1_status=`ifconfig | grep eth1`
if [ -n "$eth0_status" ]; then sudo ifdown eth0 fi
if [ -n "$eth1_status" ]; then sudo ifdown eth1 fi
sudo ifup eth1
sudo cp /etc/resolv.home /etc/resolv.conf
2. Setup for ethernet networking at home /usr/local/bin/homenet-fixed
- !/bin/bash
echo Setting up network for home ethernet sudo cp /etc/network/interfaces.home /etc/network/interfaces sudo cp /etc/resolv.home /etc/resolv.conf
eth0_status=`ifconfig | grep eth0` eth1_status=`ifconfig | grep eth1`
if [ -n "$eth0_status" ]; then sudo ifdown eth0 fi
if [ -n "$eth1_status" ]; then sudo ifdown eth1 fi
sudo ifup eth0
3. Setup for wireless at work /usr/local/bin/worknet-wireless
- !/bin/bash
echo Setting up network for work wireless network sudo cp /etc/network/interfaces.work /etc/network/interfaces sudo cp /etc/resolv.work /etc/resolv.conf
eth0_status=`ifconfig | grep eth0` eth1_status=`ifconfig | grep eth1`
if [ -n "$eth0_status" ]; then sudo ifdown eth0 fi
if [ -n "$eth1_status" ]; then sudo ifdown eth1 fi
sudo ifup eth1
4. Setup for ethernet at work /usr/local/bin/worknet-fixed
- !/bin/bash
echo Setting up network for work ethernet sudo cp /etc/network/interfaces.work /etc/network/interfaces sudo cp /etc/resolv.work /etc/resolv.conf
eth0_status=`ifconfig | grep eth0` eth1_status=`ifconfig | grep eth1`
if [ -n "$eth0_status" ]; then sudo ifdown eth0 fi
if [ -n "$eth1_status" ]; then sudo ifdown eth1 fi
sudo ifup eth0