- 1 The berofix card overview
- 2 Install
- 3 Configuring berofix via Web-interface
- 3.1 Activating changes
- 3.2 Dialplan
- 3.2.1 Adding new Dialplan entry
- 3.2.2 Dialplan entry examples
- 3.3 SIP
- 3.4 ISDN
- 3.5 GSM
- 3.6 Hardware
- 3.7 Preferences
- 3.8 Update Tool
- 3.9 Management
- 3.10 Logout
- 4 The Telnet Interface
- 5 Examples with Asterisk
- 6 Support
The berofix card overview
The following picture show you the schema of the berofix-baseboards.
Each Lineinterface socket has access to 2 slots. Slot 1 & 2 are applied to Lineinterface 0, while slot 3 & 4 applies to Lineinterface 1. Depending on the Lineinterface you are using, different slots with different Pin Out's are used.
The bf4S0 4 Port BRI module
The bf4S0 Lineinterface is a 4 Port BRI module. The bf4S0 Lineinterface can be configured individually for each port to NT (Network Termination) or TE (Terminal Equipment) mode. In either modes the module supports Point-To-Multi-Point (PMP) or Point-To-Point (PTP). The TE/NT mode as well as the Line termination of 100 ohms are selectable via software (Jumperfree). If you use a bf4S0 connected on Lineinterface socket 0 and use a bf4S0Bridge on Lineinterface socket 1, the 4 BRI Ports are lead through Slot 1-4 according to picture 2.
If you want to use two bf4S0 modules to get a 8 Port BRI card, you have to plug the first bf4S0module on Lineinterface socket 0 and the second one on Lineinterface socket 1, then the 8 BRI are lead through Slot 1,2,3,4 on a different way as described in picture 3.
As you can see, on each slot two ports are connected. To help you connect your ISDN Lines in this special scenario we have the optional available external dongles “, the BNTAdapters” which can be used. If you use a bf4S0 modules without the above mentioned BF4S0Bridge (picture2) the Pin-Out is similar according to picture 3.
The bfXE1 1-2 Port PRI module
The bfXE1 PRI module are available as 1 Port BF1E1 or as 2 Port BF2E1 LineInterfaces. The bfXE1 module can be configured individually for each port to NT (Network Termination) or TE (Terminal Equipment) mode. The default Pin-Out of this module is always TE mode with PINS 1,2,4,5. If you want to use NT-mode you may need a cross cable which is optional available (the bnE1Crosscable). Line termination (120/75 ohms) is selectable for each port by DIP switches on the Lineinterface. The following example will show you the Slot and Pin-Out's when you plug a BN2E1 module on Lineinterface socket 0 and a BF1E1 module on Lineinterface socket 1.
As you can see, the bf2E1 connected on Lineinterface socket 0, lead out through Slot 1 and 2, while the bf1E1 connected on Lineinterface socket 1 uses Slot3. The next example will show you the Slot usage as well as the Pin-Out's, when you use a bf1E1 mixed with a bf4S0 Lineinterface.
In any combination of PRI LineInterfaces with BRI LineInterfaces, please always plug the PRI LineInterfaces on Lineinterface socket 0.
The bfXGSM 1-2 Port GSM module
The BFXGSM GSM module will be available as 1 Port BF1GSM or as 2 Port BF2GSM. Digital Audio quality with noise suppression and echo canceling is granted by the use of Quadband Siemens GSM Modules (850/900/1800/1900 Mhz). These LineInterfaces will be available during Q4 2009.
The next chapters will describe you the basic steps to bring your new berofix card into your network, and how to configure it, that you can make SIP to ISDN calls and vice versa.
Identifying berofix cards
As mentioned in chapter 1. berofix uses a Realtek PCI/PCIe Network Chip to communicate with the Host PC. Which means that the berofix looks like a network card, when you put it into a PC.
berofix uses MAC addresses beginning with 00:50:C2.
It looks like a network card and you don't have to compile or load any additional driver except of the network card driver (8139too for berofix PCI and R8169 for PCIexpress on Linux based systems). This should normally be done automatic from your Operating System. To make it more clear the network environment looks like:
LAN <-> NIC_LAN (eth0) <-> PC <-> NIC_BEROFIX (eth1) <-> BEROFIX
The following examples will show you how you can identify your berofix card in your system.
Output from lspci for berofix PCI card:
0000:03:01.0 Ethernet controller: Realtek Semiconductor Co., Ltd. RTL-8139/8139C/8139C+ (rev 10)
Output from ifconfig:
berofix#ifconfig eth1 Link encap:Ethernet HWaddr 00:50:C2:83:D0:04 inet addr:10.0.0.1 Bcast:10.255.255.255 Mask:255.255.255.0 UP BROADCAST RUNNING MULTICAST MTU:1500 Metric:1 RX packets:12920014 errors:0 dropped:0 overruns:0 frame:0 TX packets:11879494 errors:0 dropped:0 overruns:24 carrier:0 collisions:0 txqueuelen:1000 RX bytes:2864269597 (2731.5 Mb) TX bytes:2590970576 (2470.9 Mb) Interrupt:18 Base address:0x2000
If you plugged in berofix and Windows has booted, please open the device manager and go to the network adapter secion:
If you can see one or more Realtek RTL-8139-Family (or RTL-8136-Family (RTL8101E) for PCI express) NIC's your OS has installed drivers automaticly. If you don't see a Realtek 8139 NIC please refer to Realtek's driver site
To identify berofix card please open a Windows console (cmd.exe) and type:
C:\Dokumente und Einstellungen\Administrator>ipconfig -all Windows-IP-Konfiguration Hostname . . . . . . . . . . . . : test-li3hfoglbs Primäres DNS-Suffix . . . . . . . : Knotentyp . . . . . . . . . . . . : Hybrid IP-Routing aktiviert . . . . . . : Nein WINS-Proxy aktiviert . . . . . . : Nein DNS-Suffixsuchliste . . . . . . . : beronetoffice.local Ethernet-Adapter LAN-Verbindung 2: Verbindungsspezifisches DNS-Suffix: Beschreibung . . . . . . . . . . : Realtek RTL8139-Familie-PCI-Fast Ethernet-NIC #2 Physikalische Adresse . . . . . . : 00-50-C2-83-D0-00 DHCP aktiviert . . . . . . . . . : Nein IP-Adresse. . . . . . . . . . . . : 172.20.70.10 Subnetzmaske . . . . . . . . . . : 255.255.255.0 Standardgateway . . . . . . . . . : Ethernet-Adapter LAN-Verbindung: Verbindungsspezifisches DNS-Suffix: beronetoffice.local Beschreibung . . . . . . . . . . : Realtek RTL8139-Familie-PCI-Fast Ethernet-NIC Physikalische Adresse . . . . . . : 00-0B-6A-EE-E7-4F DHCP aktiviert . . . . . . . . . : Ja Autokonfiguration aktiviert . . . : Ja IP-Adresse. . . . . . . . . . . . : 172.20.5.75 Subnetzmaske . . . . . . . . . . : 255.255.0.0 Standardgateway . . . . . . . . . : 172.20.0.1 DHCP-Server . . . . . . . . . . . : 172.20.0.1 DNS-Server . . . . . . . . . . . : 172.20.0.11 172.20.0.1 Primärer WINS-Server . . . . . . : 172.20.0.11 Lease erhalten . . . . . . . . . : Montag, 15. Juni 2009 11:58:46 Lease läuft ab . . . . . . . . . : Montag, 15. Juni 2009 23:58:46
To bring the system up and running the only thing you have to do, is to give berofix an ip-address. That is almost all you have to do before you can work with the berofix card. For several reasons, especially for SIP re-invites, which is a must for T.38, it might make sense to advance your network settings so that berofix is reachable from the network too.
There are 2 common ways how to handle this.
- Ethernet Bridge (the recommended way)
- IP-Forwarding with a Static Route
These methods will be described in the next chapters more detailed. We recommend to use a the bridge setup, since this makes the easiest setup and allows the most flexibility. It is also possible to use bridges on other operating systems than Linux.
Attention!: If you want using another IP-Adresses for berofix as 10.0.0.1 and 10.0.0.2, please change the berofix internal address (10.0.0.2) first through Webgui or bfDetect-Tool. Otherwise you will not have access anymore to the internal device if you change the NIC address first.
Setup Network using ip-forwarding
Before we will explain how to setup ip-forwarding we have to give our berofix card an ip-address. As described above we will use ifconfig to check our network settings.
eth0 Link encap:Ethernet HWaddr 00:0C:6E:D3:86:C6 UP BROADCAST RUNNING MULTICAST MTU:1500 Metric:1 RX packets:797562 errors:0 dropped:0 overruns:0 frame:0 TX packets:35206 errors:20 dropped:0 overruns:0 carrier:20 collisions:7447 txqueuelen:1000 RX bytes:141351732 (134.8 MiB) TX bytes:19431622 (18.5 MiB) Interrupt:11 Base address:0xc000 eth1 Link encap:Ethernet HWaddr 00:50:C2:83:D0:01 UP BROADCAST RUNNING MULTICAST MTU:1500 Metric:1 RX packets:35124 errors:0 dropped:0 overruns:0 frame:0 TX packets:276362 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:1000 RX bytes:20636164 (19.6 MiB) TX bytes:28931756 (27.5 MiB) Interrupt:11 Base address:0xa000 lo Link encap:Local Loopback inet addr:127.0.0.1 Mask:255.0.0.0 UP LOOPBACK RUNNING MTU:16436 Metric:1 RX packets:9 errors:0 dropped:0 overruns:0 frame:0 TX packets:9 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:0 RX bytes:720 (720.0 b) TX bytes:720 (720.0 b)
In this example eth0 is our NIC from our PC and eth1 is the NIC from the berofix. The internal default IP-address of berofix is 10.0.0.2. So if we give eth1 an ip-address like 10.0.0.1 we will have access to the berofix. This can be done i.e. via ifconfig like described in the following example:
berofix:#ifconfig eth1 10.0.0.1 up
To check if this is working try to ping 10.0.0.2
berofix:#ping 10.0.0.2 PING 10.0.0.2 (10.0.0.2) 56(84) bytes of data. 64 bytes from 10.0.0.2: icmp_seq=1 ttl=63 time=12.2 ms
By default any modern Linux distributions will have ip-forwarding disabled. This is normally a good idea, as most peoples will not need ip-forwarding, but we will need to enable ip-forwarding to support SIP reinvites.
Check if IP Forwarding is enabled: We have to query the sysctl kernel value net.ipv4.ip_forward to see if ip-forwarding is enabled or not. Using sysctl:
sysctl net.ipv4.ip_forward net.ipv4.ip_forward = 0
or just checking out the value in the /proc system:
As we can see in both the above examples this was disabled (as show by the value 0). Enable IP-Forwarding on the fly As with any sysctl kernel parameters we can change the value of net.ipv4.ip_forward on the fly (without rebooting the system):
sysctl -w net.ipv4.ip_forward=1
echo 1 > /proc/sys/net/ipv4/ip_forward
the setting is changed instantly; the result will not be preserved after rebooting the system.
Permanent setting using /etc/sysctl.conf If we want to make this configuration permanent the best way to do it is using the file /etc/sysctl.conf where we can add the following Line in /etc/sysctl.conf.
net.ipv4.ip_forward = 1
If you already have an entry net.ipv4.ip_forward with the value 0 you can change that to "1". To enable the changes it is necessary to run the command:
sysctl -p /etc/sysctl.conf
On Red Hat based systems this is also enabled when restarting the network service:
service network restart
And on Debian/Ubuntu systems this can be also done restarting the procps service:
To make berofix accessable for other devices in your LAN you have to setup a route either by adding a static route in your router or just change the standard gateway of the device from where you want to reach berofix:
route add 10.0.0.2 <ip-eth0-of-berofix-host>
or change standard gateway
route add default gw <ip-eth0-of-berofix-host>
If everything was successfully setup you can try to login to the berofix using your favorite Web browser by typing the following URL with default username=admin and password admin:
Before we will explain how to setup ip-forwarding we have to give our berofix card an ip-address. As described above we will use ipconfig to check our network settings:
C:\Dokumente und Einstellungen\Administrator>ipconfig -all Windows-IP-Konfiguration Hostname . . . . . . . . . . . . : test-li3hfoglbs Primäres DNS-Suffix . . . . . . . : Knotentyp . . . . . . . . . . . . : Hybrid IP-Routing aktiviert . . . . . . : Nein WINS-Proxy aktiviert . . . . . . : Nein DNS-Suffixsuchliste . . . . . . . : beronetoffice.local Ethernet-Adapter LAN-Verbindung 2: Verbindungsspezifisches DNS-Suffix: Beschreibung . . . . . . . . . . : Realtek RTL8139-Familie-PCI-Fast Ethernet-NIC #2 Physikalische Adresse . . . . . . : 00-50-C2-83-D0-00 DHCP aktiviert . . . . . . . . . : Nein IP-Adresse. . . . . . . . . . . . : 10.0.0.1 Subnetzmaske . . . . . . . . . . : 255.0.0.0 Standardgateway . . . . . . . . . : Ethernet-Adapter LAN-Verbindung: Verbindungsspezifisches DNS-Suffix: beronetoffice.local Beschreibung . . . . . . . . . . : Realtek RTL8139-Familie-PCI-Fast Ethernet-NIC Physikalische Adresse . . . . . . : 00-0B-6A-EE-E7-4F DHCP aktiviert . . . . . . . . . : Ja Autokonfiguration aktiviert . . . : Ja IP-Adresse. . . . . . . . . . . . : 172.20.5.75 Subnetzmaske . . . . . . . . . . : 255.255.0.0 Standardgateway . . . . . . . . . : 172.20.0.1 DHCP-Server . . . . . . . . . . . : 172.20.0.1 DNS-Server . . . . . . . . . . . : 172.20.0.11 172.20.0.1 Primärer WINS-Server . . . . . . : 172.20.0.11 Lease erhalten . . . . . . . . . : Montag, 15. Juni 2009 11:58:46 Lease läuft ab . . . . . . . . . : Montag, 15. Juni 2009 23:58:46
To give berofix an ip-adress go to "Control Panel" and open the "Network connectinos". Double klick the icon for the berofix networkadapter "LAN-Verbindung 2" (Realtek RTL8139-Familie-PCI-Fast Ethernet-NIC #2). Now press the "Preferences" button:
The Preferences window appears:
Double klick to "Internetprotocol" and the IP-Konfiguration dialog will apear:
Now you can give berofix an IP-Adresse like "10.0.0.1" and klick "OK". After the network has been restarted you can open a cmd and enter:
The RegEdit32-Tool apears.
To enable IP-Forwarding please go to "HKEY_LOCAL_MACHINE\System\CurrentControlSet\Services\Tcpip\ Parameters" and change the entry "IPEnableRouter" (Type REG_DWORD) and change it to "1".
After that you can reach berofix if your origin system has a corresponding route. For example if you want to reach berofix from a second Windows System in your Network you have to set a static route:
route add 10.0.0.2 <ip-eth0-of-berofix-host>
Or you can set the standard gateway to the berofix-host:
route add 0.0.0.0 mask 0.0.0.0 <ip-eth0-of-berofix-host>
If you want to make setting persistent please give the "-p" parameter to the route tool.
Now you can login to berofix via:
Setup Network bridge
You can setup the bridge under Linux with the "brctl" utility. This utility is provided by the "bridge-utils" package on debian based systems (like Ubuntu). As mentioned above the berofix cards have MAC Addresses beginning with "00:50:c2", so you can identify these cards with "ifconfig -a" as described in the next example:
beropbx:#ifconfig -a eth0 Link encap:Ethernet HWaddr 00:0C:6E:D3:86:C6 UP BROADCAST RUNNING MULTICAST MTU:1500 Metric:1 RX packets:797562 errors:0 dropped:0 overruns:0 frame:0 TX packets:35206 errors:20 dropped:0 overruns:0 carrier:20 collisions:7447 txqueuelen:1000 RX bytes:141351732 (134.8 MiB) TX bytes:19431622 (18.5 MiB) Interrupt:11 Base address:0xc000 eth1 Link encap:Ethernet HWaddr 00:50:C2:83:D0:01 UP BROADCAST RUNNING MULTICAST MTU:1500 Metric:1 RX packets:35124 errors:0 dropped:0 overruns:0 frame:0 TX packets:276362 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:1000 RX bytes:20636164 (19.6 MiB) TX bytes:28931756 (27.5 MiB) Interrupt:11 Base address:0xa000 lo Link encap:Local Loopback inet addr:127.0.0.1 Mask:255.0.0.0 UP LOOPBACK RUNNING MTU:16436 Metric:1 RX packets:9 errors:0 dropped:0 overruns:0 frame:0 TX packets:9 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:0 RX bytes:720 (720.0 b) TX bytes:720 (720.0 b)
In this example eth1 is the berofix card and eth0 is our interface to the LAN. We want to apply our LAN interface the ip-address 192.168.0.2 and our berofix device the ip-address 192.168.0.3. After we setup the Bridge we want to access the berofix device from all devices in our LAN which are all in the network 192.168.0.1-254. To setup this bridge, you need to enter a few commands like in the following example:
berofix:# ifconfig eth0 0.0.0.0 up berofix:# ifconfig eth1 0.0.0.0 up berofix:# brctl addbr br0 berofix:# brctl addif br0 eth0 berofix:# brctl addif br0 eth1 berofix:#ifconfig br0 192.168..0.2 up
These commands will first remove the ip-addresses from your network cards, then will create the bridge and add your network card and the berofix card to this bridge. In this case the bridge gets the IP-address 192.168.0.2. The default IP of the berofix is 10.0.0.2 with the subnet 255.0.0.0 and we have to change this with the bfdetect tool to 192.168.0.3 with 255.255.255.
To setup this bridge in a persistent way, you can modify your "/etc/network/interfaces" file on debian based systems (like ubuntu):
auto lo iface lo inet loopback
auto br0 iface br0 inet static address 192.168.0.2 netmask 255.255.255.0 gateway 192.168.0.1 bridge_ports eth0 eth1
Then you can restart your networking with:
Now you should be able to communicate with the berofix using the bridge. Your PC with the ip-address 192.168.0.2 and the berofix with the ip-address 192.168.0.3 should be reachable from all device of your LAN. That means the berofix can directly accessed from any device of your LAN to make sure that SIP reinvites works like expected. Try to check this by simply using a web browser and browse to the IP of the berofix, is this example just simply enter:
You will be prompted to enter a username and password, which is by default user:"admin" password:"admin".
To bridge your Host NIC with berofix please opne "network connections". You will see two Connections, your Host NIC ("LAN-Verbindung 1") and berofix ("LAN-Verbindung 2"). To bridge these both connection please mark them and klick the right mouse button. The Context menu apears:
Klick on "Bridge connections" and a third connection apears: The network bridge
Now both connections don't have an IP-Adress anymore. By default the Bridge try to get an IP-Adress by DHCP. If you don't have DHCP-Server, please mark the Bridge klick the right mouse button, choose "Preferences" and configure an IP-Adress of your choice. In the moment the bridge is reachable through the LAN you can also reach the internal berofix device. For example:
Let's assume your LAN is 172.20.0.0/255.255.0.0, your bridge got an IP 172.20.5.194 and you configured berofix internal IP address to 172.20.70.11. Through the configured bridge, berofix is reachable from the whole network now, except your firewall is blocking it!
Detecting berofix with bfdetect tool
With bfetect tool you can detect any berofix device in your network and modfiy several settings like changing the ip-address, change the password or reset the device to factory settings. It is also a recommended tool if you forgot the ip address of the internal network device.
The bfdetect tool can be downloaded from our Website:
Simply untar/unzip the file somewhere and if you are ruinning Linux, you have to compile it like in the next example:
beropbx:#tar xzf bfdetect.tar.gz beropbx:#cd bfdetect beropbx:#make install (In case don't forget to change permission of the file to be executable)
In case you are using Windows, you got already a compiled version for Windows, and you can just follow the next steps.
The bfdetect sends out broadcast UDP Packets to the default network adapter, with this method it is possible to detect and configure berofix cards which have different IP Addresses than the IP Address of the host. If you don't set up a network bridge, berofix is normally not your standard nic to your network. For sending broadcast to a internal berofix device you have to tell bfdetect tool trough which nic this have to be done. For that you can give the ip address of berofix host device as parameter (For example 10.0.0.1)
beropbx:#bfdetect 10.0.0.1 Scanning network for bero*fix devices...  mac:00:00:24:CA:D8:98 ip:10.0.0.2
If you have more then one device select the one you want to configure by typing the number. You'll get a menu with all the options you can set like shown in the following output:
Select a device: 1 Configuration of selected device: mac: 00:50:C2:83:D0:56 ip: 10.0.0.2 netmask: 255.0.0.0 gateway: 10.0.0.1 dhcp: no [i] change ip [n] change netmask [g] change gateway [d] switch dhcp on [s] save and quit [q] quit What would you like to do?
If you want to change the ip address, don't forget to set even the ip mask and the default gw. If you have finished the configuration chosse "s" for "save and quit". After that berofix will be reachable through the new setting immediately.
Configuring berofix via Web-interface
If you have successfully setup the network like described in chapter 1 you can completely configure the berofix card via the web interface. Simply enter the IP-address of the berofix in your favorite browser, for instance:
The default login username and password for the berofix is:
username: admin password: admin
After you have successfully logged in to the system you will see the following major menu-points
- Dialplan (to manage the Dialplan)
- SIP (to manage SIP related stuff like registrations and proxy's)
- ISDN (to manage ISDN related stuff like ISDN-groups and ISDN-settings)
- Hardware (to modify hardware related settings like NT/TE, PTP/PMP)
- Preferences (to manage Network Setting, Firmware updates and Logging)
- Management (to check the state of the system or enabled Debugging)
After you have change some values through the web-interface a small button in the top of the web-interface will appear. To activate this changes you have to press the “activate” button. The button will appear in three colors which have the following meanings:
- Yellow means only a reload of the system. You can press the “activate” button every time it appears. No influence to the current calls on the system.
- Orange means that the ISGW (ISDN-SIP-Gateway a peace of software) has to be restartet. That means that all current calls are going to be dropped when you press the “activate” button.
- Red means that the ISGW and all LineInterfaces has to be restarted. That means that all current calls are going to be dropped when you press the “activate” button. This restart can take up to 30sec..
The Dialplan is one of the most important things during the configuration of the berofix. Here you can define rules from where and to where a call should go as well as the configuration of special features like enabling T.38 or deactivating EC for a particular call.
The berofix dialplan engine is based on Regular Expressions and will read the dialplan entries from the top to the button and will exit, when it finds the first match. So be aware, if you have two possible matches, only the first one will be taken into account. That fore you have the position arrows on the right of the following picture, to change the priority. As shown in picture 9 you see the Dialplan entries grid, where you can add, modify, copy and delete a Dialplan entry as well as changing its position as mentioned above.
The columns in the grid have the following meaning:
- Column Direction: Shows you the direction from where the “Call” is originated and to where it is routed. For instance in the first row you see that the “Call” is originated from SIP and will be routed to ISDN. In the the second row it is vice versa.
- Column FromID: Shows you from which ID the “Call” is originated. This could be the name of a SIP proxy, a SIP Registrar or just an IP-Address, if the “Call” is originated from SIP. If the “Call originated from ISDN the From ID could be a single ISDNPort or an ISDNPort-Group.
- Column ToID: Shows you to which ID the “Call” is routed. This could be a single ISDNPort or a ISDNPort-Group, if the “Call” will be routed to ISDN. If the “Call” is routed to SIP the To ID is could be the name of a SIP proxy, a SIP Registrar or just an IP-Address.
- Column Destination: shows you the original destination (CalledID or DAD) .
- Column New Destination: show you the new modified destination (CalledID or DAD).
- Column Source: show you the original CallerID (OAD)
- Column New Source: show you the new modified CallerID (OAD)
Adding new Dialplan entry
You can add a new Dialplan entry by pressing the “add” button in the Dialplan overview. The following screen will appear:
As mentioned above the Dialplan entries are based on Regular Expressions. In the next Chapter we will show you how to use Regular Expression with some examples. In the Direction field you have to choose the direction from where the call is originated and to where the call is routed. Possible values are SIP->ISDN or ISDN->SIP. After you choose the direction, the form will change its style. The meaning of From-ID and To-ID are depending on the direction you choose. In Direction SIP->ISDN the From-ID is a configured SIP-Proxy, a SIP Registrar or just an IP-Address, from where the call is originated. In this case the To-ID is a configured ISDNPort Group or just a single ISDN Port. If you choose the Direction ISDN->SIP the From-ID is the a configured ISDNPort Group or just a single ISDN Port, while the To-ID is just a SIP-Proxy, a SIP Registrar or just an IP-Address. The other values are already described in the previous Chapter. Behind the “more “ button you will find a bunch of values you could use for this specific Dialplan entry like disable/enable Echocanceler and much more like described in picture 11.
This settings has the highest priority and will overwrite all settings that have been set in the SIP- or in the ISDN-Group sections.
Dialplan entry examples
The best way to explain how to handle berofix dialpans is to make some examples.
Example1: Incoming call from SIP with the following settings
SourceIP: 172.20.0.1 CallerID: 2593890 CalledID: 025938912.
Dialplan entry values:
Direction: “SIP->ISDN” FromID: “(.*)” will match any IP-Address from where the call is coming ToID: “(g:te)” will go to ISDNPort-Group g:te Destination: “0(.*)” will match all numbers starting with 0 New Destination: “\1 “ \1 is the parameter 1 (\1 the value in the first parenthesizes of Destination Source: “(.*)” will match any CallerID New Source: “\1 “ \1 is the value in the first parenthesizes of Source
With this settings the the “Call” will be routed to ISDNPort Group “g:te”. The CalledID will be changed to 25938912, that means the first 0 will be stripped and the CallerID is still 2593890.
Example2: Incoming call from SIP with the following settings
SourceIP: 172.20.0.1 CallerID: 12 CalledID: 0176242XXXXX.
Dialplan entry values:
Direction: “SIP->ISDN” FromID: “172.20.0.1” will match only this source IP-Address ToID: “1” will go to ISDNPort 1 Destination: “0176(.*)” will match all numbers starting with 0176 New Destination: “0049176\1” will cut 0176 from CalledID and add 0049176 to the CalledID followed by add the parameter 1 (\1 the value of the first parenthesizes in Destination Source: “(..)” will match Caller IDs with 2 Characters New Source: “25938912” will overwrite the CallerID with this value
With this settings the the “Call” will be routed to ISDNPort 1”. The CalledID will be modified to 0049176XXXXX. The CallerID will be changed to 25938912.
Example3: Incoming call from ISDN with the following settings
ISDNPort: g:teports CallerID: 25938912 CalledID: 0176242XXXX
Dialplan entry values:
Direction: “ISDN->SIP” FromID: ”g:teports” will match only this ISDNPort-Group ToID: “p:mysipserver” will go to SIP Proxy mysipservedr Destination: ”259389([0-9][0-9])” will match all numbers starting with 259389 followed by 2 digits in the range from [0-9] New Destination: “\1” will cut 259389 from CalledID and add the 2 digits (\1 the value in the first parenthesizes) Source “(.*)” will match any CallerID New Source: “\1 “ \1 is the value in the first parenthesizes of Source
With this settings the the “Call” will be routed to SIP Proxy p:mysipserver. The CalledID will be changed to 12. The CallerID is untouched
Example4: Incoming call from ISDN with the following settings
ISDNPort: 1 CallerID: 12 CalledID: 02593890
Dialplan entry values:
Direction: “ISDN->SIP” FromID: ”1” will match only this ISDNPort-Group ToID: “p:mysipserver” will go to SIP Proxy mysipservedr Destination: ”0([2-9])(.*))” will match all numbers starting with 0. The second digit has to be in range[2-9] followed by the any characters New Destination: “\1\2” will cut 0 from CalledID and add the parameter 1 (\1 the value in the first parenthesizes) followed by parameter 2 (\2 the value in the second parenthesizes) Source “(.*)” will match any CallerID New Source: “\1 “ \1 is the value in the first parenthesizes of Source
With this settings the the “Call” will be routed to SIP Proxy p:mysipserver. The CalledID will be changed to 2593890. The CallerID is untouched. With the above examples you should be able to handle almost every situation in the real world. If this is not enough and you need some special things, feel free to implement more complex Regular Expressions. For each Dialplan entry you can also set the special features like enable Echocanceler or turn on T.38. More informations about this can be found in section 3.3.2 SIP-Options and 3.4.1 ISDN Options.
By selecting the menu-point SIP, you could set all options regarding SIP like adding Registrars or Proxy's as well as change the RTP-Port-Range. There are 2 menu-point, SIP and SIP General which will be explained in detail in the next chapters.
SIP Settings Overview
By selecting the menu-point SIP, you could set all options regarding SIP like adding Registrars or Proxy's as well as change the RTP-Port-Range. There are 2 menu-point, SIP and SIP General which will be explained in detail in the next chapters.
Under the menu point SIP you will get the SIP overview. As you can see in picture 12, you have a overview about all SIP Proxy's and Registrars you have setuped. You can add, modify and delete these settings in this overview.
The next screen will pop up if you press either add or modify (picture 13).
You can choose a name for this SIP entry and enter it under the label “Name”. The “Server Address” is the IP-Address or the DNS name of the Registrar or Proxy. Optional you can also set the Port where your Proxy or Registrar is listening. For instance “sip.beronet.com:5061” when you want to use Port 5061.“User” and “Secret” are necessary if your Registrar or Proxy requires authentication. “Type” describes, if this settings are for a Registrar a Proxy or maybe both which means a Registrar and a Proxy. The default checkbox is to mark this entry as default. This means if we get a “Call” from ISDN or GSM and no Dialplan entry matches, then the call will be routed to the default SIP entry. Behind the more button you will find a lot of special options like enable T.38 or DTMF transmission, which you can set for this SIP entry. Special options you set here can be overwritten by the dialplan. The dialplan has always the highest priority. For example you set T.38 on under SIP settings and turn T.38 off in the dialplan, T.38 will be disabled if the dialplan matches.
As mentioned above behind the more button are a bunch of special feature that can be set. The feature are:
- Early_Audio: 0=off,1=on (default is 1=on) also called (Early) Media-Stream in onhook. With this option set to yes you can have Audio without a connect. This is often used by carriers if for you dial for instance a wrong number and the carrier uses this feature to stream you a Voice prompt like “number you have dialed is not correct,” without charging you anything.
- T.38 support: 0=off,1=on (default is 1 on) To activate or deactivate T.38 support if fax is detected or we receive a T.38 invite.
- DTMF: info,inband or rfc2833 default is rfc2833)This is the way how to transport DTMF Information through SIP).
- Codecs: pcma, pcmu, gsm, g729a or g723(def 'pcma')
SIP General Settings
Under SIP General settings you can set the Bind Port, that is the port where berofix is listening for SIP messages and the RTP port range, as you can see in picture 14.
In further releases of the berofix firmware options like SIP over TCP or SRTP and TLS settings will be also added here.
If you have any ISDN Hardware in the system like a bf4S0 or a bfXE1 you can put the physical ISDN ports into groups and modify ISDN specific features for these groups. An ISDNPort-Group is a bunch of ISDN Ports. If you Dial out on an ISDNPort-Group the system will find automatically the next free channel in this Group, regardless if it is a BRI-Port or PRI-Port and wether it is set to PTP or PMP. The next picture shows you an overview about the configured ISDN Ports.
Again you can add,modify and delete ISDNPort Groups in this overview. The next screen will pop up if you press either add or modify (picture 16).
You can create a new or modify an ISDNPort-Group give him a name and add or remove the possible ports in this group. Only available Ports are can be added into a Group. A port which is already assigned to a Group will be displayed grey. Behind the more option you can set a lot of values regarding ISDN, these options will be explained in the next chapter.
- Echocancel: 0=off,1=on (default value is 1=on) this will activate or deactivate the Echocanceler
- EC tail length: 0=8ms,1=16ms,...,15=128ms (default value is 15=128ms)
- Overlap dial timeout: (default is 3=3sec.)For an incoming setup coming from ISDN-Lines a interdigit collect timer will be started. And the interdigit timer is called Overlap Dial Timeout which you can set with this option. After the specified timeout the setup will be signaled to the routing site.
- Dialplans: Dialplan means the type of Number in ISDN Terms( this only make sense for outgoing calls.) This options defines the number format for an outgoing call. Be aware that the remote end have to support this feature There are different types of dialplans:
- dnumplan: (default is 0)=unknown) destination number(DAD). For lines with "Clip-No-Screening” this has to be set to 4=”subscriber”.
- rnumplan: (default is 0)=unknown) redirected number dialplan
- onumplan: (default is 0)=unknown) originated number(OAD) Dialplan
- cpnnumplan: (default is 0=unknown) connected party number Dialplan
- Prefixes: Prefixes will be automatically prefixed to the OAD depending of the Dialplan we receive. For instance if we get a Setup with Dialplan set to “unkown”, we will append the unknown prefix to the OAD. The same will happen to international and national calls. If Dialplan is set to “subscriber” the privateprefix will be appended.
- unknownprefix: (default is empty)
- internationalprefix: (default is 00) If a call is coming from outside and it is an international call, the prefix (in this case 00) will be put in front of the OAD
- nationalprefix: (default is 0) If a call is coming from outside and it is an national call, the prefix (in this case 0) will be put in front of the OAD.
- privateprefix: (def is empty)
- screening: (default is 0) these are the exact ISDN screening and presentation indicators Screening=0 and presentation=0 means callerID presented but not screened(the remote end does see the callerID). Screening=1 and presentation=1 means callerID presented but screened(the remote end does not see the callerID)
- presentation: (default is 0)
The BFxXGSM Module will be available Q4 2009.
By selecting the menu point “Hardware”, you will see all LineInterfaces which are plugged to your berofix card. The next picture will show you this:
As you can see one bf1E1 and one bf4S0 LineInterface is plugged on this card. Every time you reset the berofix to factory defaults, the system will automatically detect all Lineinterface plugged on the berofix board and show them in this above mentioned overview. If you want to expand your card with a new LineInterface, for instance you have already a berofix with one bf1E1 and want to add a new bf4S0 Lineinterface, you have to reset the berofix to “factory defaults” to start the detection process.
Modify Hardware Settings
Each Lineinterface has its own specific settings. For instance on the bf4S0 Lineinterface you can set line-termination on/off in software. This option does not exist in the bfXE1 or bfXGSM. That means by selecting the button modify you will get different outputs depending on the Lineinterface you have selected. If you select a bf4S0 Lineinterface by clicking the modify button in the propper row you will get the following screenshot:
As you can see in the above picture you will see all 4 ports of the bf4S0 Lineinterface counted from 2-5. In this case port 1 is the E1 Port from the first LineInterface (bf1E1). In this Form you can set the LineType (TE/NT mode) or the protocol (PTP / PMP) as well as the 100Ohm LineTermination. Cardtype describes the Lineinterface which is detected while Line Interface show you the Slot where it is plugged. All features like NT/TE as well as the Linetermination can be set in software, that means you don't have to set any Jumper on the board. Selectting TE or NT Mode will also change the hardware PinOut of the Ports by changing the rx with the tx pins. This means you can use an one to one cable to connect the ports with a foreign system. The last option is the Clocksource. You can define a port where the system should get its clocksource from. For instance if you select clocksource on port 2 the system will try to get its clock from this port.
If you choose the bf1E1 Lineinterface and press the modify button you will get the following screenshot:
As described previously the output is different depending on the Lineinterface you choose. In this case you see the one E1 port from our bf1E1 Lineinterface plugged on Lineinterface slot 0. As you can see you can also set the Type and the Protocol. The Protocol for E1 is always PTP, because PMP Mode is not supported on E1 Lines. Further on you can set the LineType TE or NT Mode. This option will only set the Type in software which means on this LineInterface type the hardware PinOut is not switched compared with the bf4S0 Lineinterface. For instance if you select TE Mode you can use a one to one cable to connect this port to a foreign NT port. If you select NT-Mode and want to connect it to a TE port, you have to use a propper cross E1 cable where the rx and the tx pins are crossed. A propper cable the BNE1Crosscable is optional available.
By select the menu point preferences, you can set and manage some general features of the berofix like Logging, Firmware Update and much more. All these Features will be described in the following chapters.
Berofix has the capability to send logging information through udp Packets to a remote server, like syslog. By selecting the menupoint logging you will reach the following screenshot:
everal settings regarding Logging can be set here like:
Logging Server: is the IP-address where the log should sent to, Logging Server Port: is the UDP Port where the log should sent to Logging Active: to activate or deactivate the logging Log Level: Log Level 1 is very low while Log Level 9 is very high.
Under Linux based systems you can use netcat to see the log. Just type “nc -ulp 54323” on the desired destination to see the output of the logging.
By selecting the menupoint “Change Password” you can, as already decribed by the name, change the password for the Web Login. By default the username and password is "admin" and "admin".
By selecting the menu point “Update Tool” you can update the firmware of berofix. Under the following URL
You can always find the newest available firmwares. On berofix there are two memory slots reserved for firmware images. The reason for this is that if you update the firmware and you see something is not working as expected you can just reactivate the previous one. To make it more clear have a look to the next screenshot.
The rest should be straight forward.
Backup and Restore
You can backup the configuration of berofix to an external file by just downloading it. These backup files could be used to restore the settings of berofix. Be aware that this could be depending on the berofix firmware version. So if you try to restore a backup file from an older version of the firmware, the restore process could fail.
Under the menu point manage you can reach the state view, activate debugging as well as reboot and reset berofix to its factory defaults. In the next chapters these points will be described more detailed.
By selecting the menu point “State” you will get an overview about all configured ports and the current channels that are going through the berofix card. The next picture show you how the state form looks like.
As you can see in the section ISDN Status, that ports 1-3 are configured and the state for Layer 1 and Layer 2 is up. Under “Active Channels” you see that there is currently 1 Active call originated by SIP and terminated via ISDN.
The menu point “Debug” will give you the opportunity to report us problems with the berofix card on a defined way. This will help us to reproduce, analyse and fix your Problem quite fast. On all ISDN Ports you can start a so called “Debug” by pressing the Button “Start ISDN and TCP Trace”. By starting the debug process the system will start tracing all ISDN and SIP protocol elements. After you have finished your tests you can press “Stop ISDN and TCP Trace” and download the trace file. All relevant informations about the callflow are stored in this debug file. Send this debug file to email@example.com with a small description about your test and we will be able to reproduce your problem.
Another goodie on this page is the so called Dialplan debugging. By pressing this “button” you can debug if your Dialplan is working as expected. The next picture will show you a screenshot of the Dialplan debugging.
This Info page give you some general Informations about the System as you can see in the following picture.