Guerrilla VoIP
Project: Guerrilla VoIP | |
---|---|
Featured: | No |
State | Planned |
Members | xopr |
GitHub | No GitHub project defined. Add your project here. |
Description | low cost communication node |
Picture | |
Contents
synopsis
Create a low cost communication node (with VoIP as a base), trying to connect as many as possible types of links, for example:
- copper/fibre/WiFi network
- DECT/POTS telephony
- SIP/SCCP
- HAM radio (or preferrably, CB radio: 27MC/PMR)
- copper/WiFi/USB uplink
It also could need some of the following functionality:
- PoE service (to drive phones, remote switches/accesspoints)
- battery supported/powered (in case of power failures/lack of power)
- Efficient power converter(s) when running on battery
- sturdy compact waterproof casing
prototyping
So to make the first prototype, I chose the following:
- ammo box
- 7Ah battery
- step-down converter 12->5V
- step-up converter 12v->48V
- Fritz!Box 7270 (NAT, FxS, FxO, DECT)
- two Raspberry Pis running FreeSWITCH (external queue, internal SCCP server), DHCP and TFTP
- Netgear GS110TP (8xPoE + 2xSFP)
hardware
connectivity/infra
HW | price range | voltage | power consumption | copper/Gbit | PoE | fibre | VLAN | 2.4GHz | 5GHz | DSL | ISDN | POTS | DECT | USB |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Fritz!Box 7270 | € 50-213 | 5.5-15v | 4.3W - 5.3W | 4/0 | ? | ✓ | ✓ | ✓ | ✓ | 2×FXS / 1×FXO | 5 (6?)hs | 1×2.0 | ||
GL-Inet | €22-30 | 5v | 1W | 2/0 | ✓ | ✓ | 1×2.0 | |||||||
TP WR-703n | €17-25 | 5v | 1W | 1/0 | ✓ | ✓ | 1×2.0 | |||||||
Netgear GS110TP | €126-140 (€99.64) | 48v | 4W | 8/8 | 8 | 2 | ✓ | |||||||
TP Link TL-SG108PE | €65 | 48v | 5.2w | 8/8 | 4 | ✓ | ||||||||
Siemens Gigaset N510 IP PRO | £53.94 (€65.39) | 6.5v | 1.2-1.3W | 1/? | ✓ | ✓ | 6hs,4sc |
hard phones / ATAs
HW | price range | voltage | power consumption | copper/Gbit | PoE | VLAN | SIP | lines | extensible | tested on FreeSWITCH |
---|---|---|---|---|---|---|---|---|---|---|
Cisco 7905 | € 10-50 | 48v | 1/0 | ✓ | ✓ | 1(?) | ✓ | |||
Cisco 7910 | 48v | 1/0 | ✓ | ✓ | 6(?) | ✓ | ||||
Cisco 7940/7960 | € 10-50 | 48v | 5W | 2/0 | ✓ | ✓ | ✓ | 2/6 | ✓ | ✓ |
Cisco 7941/7961 | 48v | 2/2(?) | ✓ | ✓ | ✓(?) | 2/6 | ✓ | |||
Avaya 4620SW | 48v | 2/0? | ✓ | ✓(?) | ✓(?) | ? | ✓ | |||
Linksys PAP2T | 5v | 10W | 1/0 | ✓ | ✓ | 2×FXS | ✓ | |||
Sipura SPA3000 | 5v | 7.5W | 1/0 | ✓ | ✓ | 1×FXS 1×FXO | ✓ |
some power tests
hardware | power source | U | I | Papproximated |
---|---|---|---|---|
two Raspberry Pis, step down | drill battery pack | 12.6V[1] | 330mA | 2×2W |
Cisco CP7940, step up | drill battery pack | 12.6V[1] | 360mA - 450mA | 5W |
Fritz!box (wifi off), direct | lab power supply | 12V | 360mA (idle) - 440mA (42% - 52%, top ~880mA) |
4.3W - 5.3W |
15V | 250mA (idle) | 3.8W | ||
Netgear GS110TP PoE, step up | lab power supply | 12V | 330mA | 4W |
Netgear GS110TP PoE + Cisco CP7940, step up |
lab power supply | 12V | 740mA | 9W |
Complete set: 2 RasPis, Fritz!box, switch, phone + cellphone charging |
lab power supply | 12V | 2000mA | 24W |
13.8V | 1600mA | 22W | ||
cellphone charging | lab power supply | 5W[2] | ||
Minimal setup: (router+switch+Pi+phone) |
16W[3] |
- [1] Approximated by calculating deviation from the lab power supply combined values, which was about 5% off 12V
- [2] Approximated by subtracting all calculated items from the complete setup
- [3] Approximated by just adding up individual items
interesting facts
- Fritz!box has a switching regulator to 5V tested between 5.5V and 15V (drops off at 5.3V idle and elco at power supply segment is rated 16V)
- PoE hack adapter connected pin 1 (white-orange) and pin 3 (white-green) with 22K resistor.
- if the pre-standard CP-79x0 is connected using the PoE adapter hack, the Netgear GS110TP doesn't power, when you unplug it, it will enable power within 5 seconds; plug in, and the phone boots.
- if you configure the administrative VLAN, the phone will fetch a DHCP lease on that VLAN, allowing you to seperately set up dnsmasq on a Raspberry Pi
inventory
- Fritz!Boxes
- 7270 (ADSL2+, 1×USB 2.0, a/b, S0 [FXO], 2×FXS, S0-bus, n×DECT, 4×100Mbit, 2.4GHz or 5GHz, 64MB RAM)
- 7340 (ADSL2+, VDSL, 2×USB 2.0, a/b, S0 [FXO], 2×FXS, n×DECT, 2×Gbit, 2.4GHz or 5GHz, 128MB RAM)
- 7340 (ADSL2+, VDSL, 2×USB 2.0, a/b, S0 [FXO], 2×FXS, S0-bus, n×DECT, 4×100Mbit, 2.4GHz and 5GHz, 512MB RAM)
- DECT phones
- 2×Siemens AL28H
- 2×Siemens A420 (PsychiC has one)
- 2×Philips CD6552B
- 2×Philips CD1302S
- 1×Philips DECT1221S
- 1×Profoon PDX2900
- + what's not yet inventoried at the space
done
- the first version works, but still needs some manual labor
- Telephone system:Cisco PoE hack cable
- Cisco NL dialplan
- tested with battery; float charging device still has to be made (haven't measured how long it would run on a single charge though, but enough time to do some important phone calling)
Also, I've been playing with the Banana Pi, since the Raspberry Pi sometimes chokes on input digits. Here is a log/some steps to reproduce
get the basics
apt-get install vlan dnsmasq make curl
create and install FreeSWITCH
see https://freeswitch.org/confluence/display/FREESWITCH/Debian#Debian-BuildingFromSource
cd /usr/src curl https://freeswitch.org/stash/projects/FS/repos/freeswitch/browse/build/Makefile.centos6?raw > Makefile
If you want to compile and install STABLE branch, edit the above Makefile and add " -b v1.4 " just after the word "clone".
make && make install
- (you can kill time by doing the other chapters)
create user 'freeswitch', add it to group 'daemon' and change owner and group of the freeswitch installation
cd /usr/local adduser --disabled-password --quiet --system --home /usr/local/freeswitch --gecos "FreeSWITCH Voice Platform" --ingroup daemon freeswitch chown -R freeswitch:daemon /usr/local/freeswitch/ chmod -R ug=rwX,o= /usr/local/freeswitch/ chmod -R u=rwx,g=rx /usr/local/freeswitch/bin/*
prepare VLAN
modprobe 8021q lsmod | grep 8021q echo 8021q >> /etc/modules vconfig set_name_type DEV_PLUS_VID_NO_PAD
set-up network and VLAN
vi /etc/network/interfaces
auto lo iface lo inet loopback auto eth0 # dhcp configuration, used in normal operation (this connects to your internet) iface eth0 inet dhcp # static ip configuration, used for stand-alone preconfiguring factory-reset phones #iface eth0 inet static # address 192.168.6.1 # netmask 255.255.255.0 # gateway 192.168.6.1 # operational VLAN 11 (pick any), for usage with VoIP auto eth0.11 iface eth0.11 inet static address 192.168.11.1 netmask 255.255.255.0 vlan-raw-device eth0
dnsmasq
vi /etc/dnsmasq.conf
# uncomment to enable dhcp server on eth0, used for stand-alone preconfiguring factory-reset phones #interface=eth0 # operational VLAN 11 (pick any), for usage with VoIP interface=eth0.11 # Choose different ranges for each (V)LAN dhcp-range=eth0,192.168.6.50,192.168.6.150,12h dhcp-range=eth0.11,192.168.11.50,192.168.11.150,12h # Most likeley not needed #option:tftp-server #dhcp-option=66,192.168.6.1 #option: #dhcp-option=150,192.168.178.16 # Enable dnsmasq's built-in TFTP server to serve config files enable-tftp # Set the root directory for files available via FTP. tftp-root=/srv/tftp
Create the /srv/tftp directory and put the configs and firmwares in it. Here is a config generator you can put in there (sorry, can't provide the firmwares since "I don't have them").
service dnsmasq restart
or
/etc/init.d/dnsmasq restart
toggleconfig script
#!/bin/bash restart_services() { trap -- SIGHUP SIGINT SIGTERM service dnsmasq stop > /dev/null #nohup sh -c "invoke-rc.d networking stop; sleep 2; invoke-rc.d networking start" invoke-rc.d networking stop > /dev/null sleep 2 invoke-rc.d networking start > /dev/null service dnsmasq start > /dev/null trap clean_up SIGHUP SIGINT SIGTERM } clean_up() { # reset gpio pin and led echo "11" > /sys/class/gpio/unexport echo 0 > /sys/class/leds/led0/brightness echo none > /sys/class/leds/led0/trigger echo done exit } if [ ! -f /etc/dnsmasq.conf.regular ]; then echo "/etc/dnsmasq.conf.regular does not exist"; exit; fi if [ ! -f /etc/dnsmasq.conf.config ]; then echo "/etc/dnsmasq.conf.config does not exist"; exit; fi if [ ! -f /etc/network/interfaces.regular ]; then echo "/etc/network/interfaces.regular does not exist"; exit; fi if [ ! -f /etc/network/interfaces.config ]; then echo "/etc/network/interfaces.config does not exist"; exit; fi trap clean_up SIGHUP SIGINT SIGTERM echo "11" > /sys/class/gpio/export echo "in" > /sys/class/gpio/gpio11/direction while true; do echo "regular mode" echo none > /sys/class/leds/led0/trigger # regular config files cp /etc/dnsmasq.conf.regular /etc/dnsmasq.conf cp /etc/network/interfaces.regular /etc/network/interfaces restart_services while [ `cat /sys/class/gpio/gpio11/value` -gt 0 ]; do echo 1 > /sys/class/leds/led0/brightness sleep 0.05 echo 0 > /sys/class/leds/led0/brightness sleep 3 done echo "config mode" echo "heartbeat" > /sys/class/leds/led0/trigger # regular config files cp /etc/dnsmasq.conf.config /etc/dnsmasq.conf cp /etc/network/interfaces.config /etc/network/interfaces restart_services while [ `cat /sys/class/gpio/gpio11/value` -le 0 ]; do sleep 3; done done
preconfigure phone
- Connect the phone directly using a (optionally crosslink) ethernet cable.
- Power the phone, and hold # until the red (mute) light is off and the phone states: "Reset sequence detected"
- type 123456789*0#, and when asked to keep network config, choose 2=no
- once the new firmware is loaded (Freeswitch is not running, so it won't connect), press 'settings' (checkbox button at the bottom right)
- go to Admin. VLAN ID
- type **# to unlock the setting, and press 'edit'
- type in your voice VLAN (11 like the configs say)
- press validate, and save
- dnsmasq and interfaces configs can now be restored (no dhcp on eth0, only eth0.11)
- nohup sh -c "invoke-rc.d networking stop; sleep 2; invoke-rc.d networking start"
todo
- work out 'modus operandi': multiple config files switchable by phone
- work on dual linux config with GPIO hardware switch
- test the fibre ports
- add homeplug as a proof of concept
- design and create (or buy) small-sized float charger (13.8V 2A) with overcurrent protection, if needed
links
Some random links: