Getting telephony side up and running...

Telephony... Where to start?

Well, it you already got your gateway, you already have to know what kind of telephony link you’ll be working with because the hardware modules are different for analog and digital lines. If you have T1 (or E1) lines coming in, you have two choices for getting voice calls in and out: ISDN PRI and CAS (or Robbed bit signaling).

ISDN is expensive (takes 1 out of 24 channels in T1 for control messages and barely uses it, unless you configure NFAS) and complicated (w.r.t. the implementation) but it’s very simple to bring ISDN trunks up on the Cisco gateway. It's also easier to figure out what's going on in case of a failure.

CAS is cheaper since you get all 24 channels, but even getting the DNIS/ANI information becomes real pain. Another thing to watch out with CAS: those robbed bits are not exactly robbed, they are still in the stream and still have valid signaling information. For some types of signaling the flat silence won’t be "flat" anymore. If your receiving device has some adjusting mechanism for noise reduction, it may detect these periodic signaled bits and adjust accordingly (which may have greater impact on transferred voice than expected).

My personal experience with CAS: it never works the first time I plug it in. I find it much easier to deal with ISDN in the labs: can clearly see when call arrives, how it is handled and the tear down.

 

What should I know from my telephony provider about T1 lines?

Two things: framing and line coding. By default, Cisco has SF (SuperFrame) and AMI (Alternate Mark Inversion) for the T1 controller. However, almost every time the T1 lines we are getting from CO have ESF (Extended SuperFrame) and B8ZS (Bipolar with eight-Zero Substitution).
BTW, found quite interesting Q&A on this frame/line-code stuff, if somebody wants to understand that deeper: “Why B8ZS Isn't The Way To Go in Convergence”.

 

What happens if I make a mistake setting up framing or line-coding?

Well, for framing it’s simple: nothing will work if you try to use one type of framing instead of another. For line-coding it’s a little worse, because you may see line working but with errors. Once you configured the T1 controller, it makes sense to check if there are any errors on the line (use “sh contr t1” command).

 

What should I know from my telephony provider about ISDN line?

First, the type of ISDN switch. Cisco gateway has a variety of supported implementations:

sdn5350u(config)#isdn switch-type ?
primary-4ess Lucent 4ESS switch type for the U.S.
primary-5ess Lucent 5ESS switch type for the U.S.
primary-dms100 Northern Telecom DMS-100 switch type for the U.S.
primary-dpnss DPNSS switch type for Europe
primary-net5 NET5 switch type for UK, Europe, Asia and Australia
primary-ni National ISDN Switch type for the U.S.
primary-ntt NTT switch type for Japan
primary-qsig QSIG switch type
primary-ts014 TS014 switch type for Australia (obsolete)

Usually the “NI” (National ISDN) is used, which I believe is supported by all switch vendors now. But this is definitely what you have to know from your provider.

 

What “B” and “D” channels mean?

It’s an ISDN terminology for marking the logical channels depending on the type of information they carry. A usual T1 ISDN PRI line will carry 24 channels 64 kbps each. 23 of them are “B” (Bearer) channels that carry voice/speech/data for a call, and 1 “D” (Data) channel carries control information about these calls (as well as some status information about these channels).

It's a little more complicated with european E1 PRI which has 30 "B" channels, 1 "D" channel and 1 synchronization channel (that's quite often not mentioned, but it still has a single timeslot allocated).

There is some confusion in the Cisco config related to the names and numbers of the D channel. When configuring the T1 controlled, you will have to specify a PRI group (that tells the gateway which timeslots to use):

controller T1 3/0
framing esf
linecode b8zs
pri-group timeslots 1-24

This division into B and D channels happens in the above layer. Doen here, in the controller, these channels are identical timeslots. You can specify less number of channels (timeslots) to use (tricky, because the other side should be configured correspondingly as well), but you always will have the timeslot 24 (corresponding to D channel) configured. Even if you forgot and specified “1-3”, the gateway will do it for you automatically: “1-3,24”.

The next layer where you’ll refer to the D channel is a serial interface. Watch out, channels here are counted starting from 0, so the corresponding interface description will be “interface Serial3/0:23”.

Dealing with voice calls, the next abstraction layer in the config is voice ports. It still applies to the same D channel, but now it’s being referred this way: “voice-port 3/0:D”.
(I’m sure there must be a reason for this mess, but I think this is a natural way of regulating number of people that pass CCIE exams :-)

 

How to check if telephony side is up?

Well, run the following command: “sh isdn stat”. What you want to see is similar to this:

ISDN Serial3/0:23 interface
dsl 0, interface ISDN Switchtype = primary-5ess
Layer 1 Status:
ACTIVE
Layer 2 Status:
TEI = 0, Ces = 1, SAPI = 0, State = MULTIPLE_FRAME_ESTABLISHED
Layer 3 Status:
0 Active Layer 3 Call(s)
Active dsl 0 CCBs = 0
The Free Channel Mask: 0x807FFFFF
Number of L2 Discards = 0, L2 Session ID = 24

If MULTIPLE_FRAME_ESTABLISHED appears in the L2 state, everything is fine and now you can make calls and see them coming (unless the configuration of your PBX or CO is wrong and those calls are simply not routed via this T1 trunk).

If you see something like this:

ISDN Serial3/2:23 interface
dsl 2, interface ISDN Switchtype = primary-5ess
Layer 1 Status:
DEACTIVATED
Layer 2 Status:
TEI = 0, Ces = 1, SAPI = 0, State = TEI_ASSIGNED
Layer 3 Status:
0 Active Layer 3 Call(s)
Active dsl 2 CCBs = 0
The Free Channel Mask: 0x00000000
Number of L2 Discards = 0, L2 Session ID = 0

then you are likely to have a problem with the physical connection. Though the same result will be if you administratively shutdown this controller (using "shutdown" command):

controller T1 3/0
shutdown
framing esf
linecode b8zs
pri-group timeslots 1-24

or if you specified incorrect framing.

Hint: Gateways like any other hardware may fail and the ports may not come up because of the HW failure. But before blaming the HW, try a little trick, plug the working cable (the one that was ACTIVE on the Layer 1) into the supposedly failed port and wait for about 30 sec. If you see it coming up, then the port is OK. Unfortunately, if you see ACTIVE and TEI_ASSIGNED, then it is a config issue and will require further investigation.

If you want to get into the details of how gateway brings up the ISDN trunk, check the debug commands available under “deb isdn ? ”.

 

I changed the (controller/interface/voice-port) config but nothing happen. What should I do?

Some things don’t get changed immediately. Restarting trunk takes time (somewhere around 30 sec before you see MULTIPLE_FRAME_ESTABLISHED if started successfully). If you turn on debugging, you will see the changes. I usually recommend restarting the particular controller or interface (using “sh”/”no sh” command) and closely monitor the debug output for errors or unexpected messages.

Actually, I’m playing with one of the controllers while writing this and ran into the same problem. The trunk was up and running. After “sh” and ”no sh” on the controller it went down and came back after a while. I did the same in the serial interface, but it went down and never came back. So, after restarting the controller again, everything came up. In other words, shake it here and there and at some point everything will start working... :-)

 

How to know which called/calling numbers are coming from PSTN?

I personally find the “deb isdn q931” command the most useful in cases when configuring the dial plan. Just after the trunks are up, enable “deb isdn q931” and make a call to the number that should be routed to this trunk. If nothing appears, check that you didn’t forget “term mon” command in your telnet window. But if still nothing appears, you may want to talk to your PBX guys because they seem to mess up their routing and calls just don't get here.

Normally, when making a call you would see something like this:

*May 19 03:17:01.222: ISDN Se3/1:23 Q931: RX <- SETUP pd = 8 callref = 0x077C
Bearer Capability i = 0x8090A2
Standard = CCITT
Transer Capability = Speech
Transfer Mode = Circuit
Transfer Rate = 64 kbit/s
Channel ID i = 0xA98395
Exclusive, Channel 21
Calling Party Number i = 0x2183, '4255551310'
Plan:ISDN, Type:National
Called Party Number i = 0xC1, '5553903'
Plan:ISDN, Type:Subscriber(local)

(followed by more messages like CALL_PROC, CONNECT and other Q.931 messages). There are two things you may take from this debug spew: the called party number (or DNIS) and the calling party number (or ANI, or caller ID). Both fields (called information elements in ISDN) are optional and it’s possible that your PBX may give you any of them or none.

Actually, before configuring dial plan I usually check the phone numbers by making test calls and verify the following (don't expect them to be answered yet, just pay attention on SETUP message):

  1. All numbers are routed to the gateway (i.e. each dialing ends up with incoming SETUP message on the gateway).
  2. SETUP message contains correct information about called and calling numbers (keep in mind that both called and calling party number are optional information elements in the Q.931 SETUP message and may be omitted).
  3. Check how many digits the called/calling number has (7 or 10, or something proprietary if it’s in the lab environment) and design the dial plan accordingly.

Note: It may get very tricky in case when your IP endpoint requires some kind of DNIS (for example, when selecting an application to run) and your PBX doesn’t provide one. I remember doing it using translation rules, translating any incoming DNIS (including no DNIS) into some artificial phone number for the app right in the inbound dial-peer. While browsing the available commands in the gateway, I saw several new commands that seem to be helpful in this case. I'll try them when I have a chance.

 

Can I figure out why the call was dropped from the Cause code in the Q.931 DISCONNECT message?

Not really. Though it gives you some ideas, but won’t help you figure out exact reason. Look:

*May 19 03:17:06.330: ISDN Se3/1:23 Q931: TX -> DISCONNECT pd = 8 callref = 0x877C
Cause i = 0x80A6 - Network out of order
*May 19 03:17:06.418: ISDN Se3/1:23 Q931: RX <- RELEASE pd = 8 callref = 0x077C
*May 19 03:17:06.418: ISDN Se3/1:23 Q931: TX -> RELEASE_COMP pd = 8 callref = 0x877C

This call was disconnected because the remote endpoint has IPSec on (while the calling gateway doesn’t) and the attempt to establish a TCP connection failed. The “network out of order” doesn’t really help here. Interestingly enough, even when you see “Normal call clearing”, it doesn’t really mean that the call was successful. Welcome to the ISDN world! :-)

BTW, playing with the Cause codes in general is not very good idea. Since you have no direct control over the device that is responsible for translating this code into a message or a tone, you don’t really know what the caller will hear. The worst scenario in this case is dead silence (systems that don’t respond usually cause frustration and result into bad user experience) and that can happen if the provided code is unknown to that switch. You can redefine the cause code with “isdn network-failure-cause” on the serial interface if you want to ensure that all unexpected network errors will map into some known code (like fast busy, for example). Another command “isdn disconnect-cause” also overrides the cause code in cases when gateway failed to connect the call.

There is a long table with codes and descriptions published here: “ISDN Switch Types, Codes, and Values”.

 

Voice or data?

You have to remember to configure the serial interface so it could deal with the voice calls properly. Now, interestingly enough the command that configures this (under serial interface) has two options:

sdn5350u(config-if)#isdn incoming-voice ?
data Incoming voice calls will be handled as data.
modem Incoming voice calls will be handled as modems.

For voice calls you have to set to the “modem”, otherwise when calling in you’ll hear busy tone and the output from “deb isdn q931” will look similar to this:

*May 27 03:26:52.430: ISDN Se3/0:23 Q931: RX <- SETUP pd = 8 callref = 0x18B8
Bearer Capability i = 0x8090A2
Standard = CCITT
Transer Capability = Speech
Transfer Mode = Circuit
Transfer Rate = 64 kbit/s
Channel ID i = 0xA98391
Exclusive, Channel 17
Calling Party Number i = 0x2183, '4255558080'
Plan:ISDN, Type:National
Called Party Number i = 0xC1, '5552084'
Plan:ISDN, Type:Subscriber(local)
*May 27 03:26:52.434: ISDN Se3/0:23 **ERROR**: call_incoming: call id 0x5AD0 call treated as DOV
*May 27 03:26:52.438: ISDN Se3/0:23 Q931: TX -> CALL_PROC pd = 8 callref = 0x98B8
Channel ID i = 0xA98391
Exclusive, Channel 17
*May 27 03:26:52.442: ISDN Se3/0:23 Q931: TX -> DISCONNECT pd = 8 callref = 0x98B8
Cause i = 0x80AC - Requested circuit/channel not available
*May 27 03:26:52.526: ISDN Se3/0:23 Q931: RX <- RELEASE pd = 8 callref = 0x18B8
*May 27 03:26:52.526: ISDN Se3/0:23 Q931: TX -> RELEASE_COMP pd = 8 callref = 0x98B8

Comments

  • Anonymous
    March 31, 2011
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