This peer option in sip.conf is used to tell the Asterisk server to not issue a reinvite to the client unless really necessary. This is used to interoperate with some (buggy) hardware that crashes if we reinvite, such as the common Cisco ATA 186.
When SIP initiates the call, the INVITE message contains the information on where to send the media streams. Asterisk uses itself as the end-points of media streams when setting up the call. Once the call has been accepted, Asterisk sends another (re)INVITE message to the clients with the information necessary to have the two clients send the media streams directly to each other.
'canreinvite=no' stops the sending of the (re)INVITEs once the call is established. From messages in the archives and the Asterisk handbook one finds out that the Cisco ATA-186 does not handle the (re)INVITE well. This is necessary if the client and the Asterisk server is on opposite sides of a NAT gateway or firewall.
Note: In spite of its name 'canreinvite' being set to 'no' does *NOT* disable all reINVITE operations. It *only* controls Asterisk generating reINVITEs for the specific purpose of setting up a direct media path. If a reINVITE is needed to switch a media stream to inactive (when placed on hold) or to T.38, it will still be done, regardless of this setting!
Migration from Asterisk 1.2 to 1.4: The "canreinvite" option has changed. canreinvite=yes used to disable re-invites if you had NAT=yes. In 1.4, you need to set canreinvite=nonat to disable re-invites when NAT=yes. This is propably what you want. The settings are now: "yes", "no", "nonat", "update". Please consult sip.conf.sample for detailed information.
[Based on a posting to asterisk-users mailing list]
> I've set canreinvite=no on the channel to the SIP provider and it
> immediately worked. O.k., I'm happy about that but I want to
> *understand* what's going on here.
> .
> My setup is:
>
> Asterisk is connected on one side via eth1 to the "outside world" (IP
> adress 81.223.xxx.xxx) and on the other side via eth0 to the internal
> LAN (eth0 has IP 192.168.1.200, SNOM phone has 192.168.1.201, ...).
A good question, for which it's hard to give a short answer :-)
Firstly, you need to understand how SIP itself was designed to set up calls between handsets.
The SIP 'INVITE' message says "I want to set up a call". In the body of this message is a block of SDP (Session Description Protocol) which says "my audio endpoint is IP x.x.x.x port x, and I can use codecs A, B and C".
In the intended architecture of SIP, the INVITE is forwarded via a series of proxies until it reaches the requested destination. The remote end responds with a 200 saying "OK, my audio stream is on IP y.y.y.y port y, and I choose codec B", which is sent back to the first phone. At this point, the first phone starts sending RTP audio packets from x.x.x.x:x to y.y.y.y:y, and the second phone sends them from y.y.y.y:y to x.x.x.x:x. That is, the audio path is direct, whereas the SIP messages went via intervening proxies.
[This is horrendously over-simplified, but it's enough to make the point]
Now, the second thing to understand is that Asterisk is not a SIP proxy, and its default behaviour is to set up the two legs as two separate audio streams: phone X to Asterisk and Asterisk to phone Y. The way this works is:
So now the first phone is sending packets between x.x.x.x:x and z.z.z.z:z2, and the second phone is sending packets between y.y.y.y:y and z.z.z.z:z1
This means that Asterisk is in the media path - each RTP packet has to be received and resent, in both directions. On the minus side, this means more workload on the Asterisk server. On the plus side, being in the media stream means that Asterisk can perform a whole bunch of useful voice services - recording, conferencing, call parking, music on hold, even codec conversion (i.e. the stream from phone X to Asterisk can be using one codec, and phone Y to Asterisk a different one)
With me so far?
The third thing to realise is that Asterisk can optimise this out so that the media path is set up directly between the endpoints. This is what it means by "native bridging" - connecting two compatible endpoints directly together, instead of relaying the audio via Asterisk.
So, under the right conditions, the SIP message Asterisk sends to the second phone will contain the IP address of the first phone, and vice versa. This means it looks and smells almost like a SIP proxy.
What do I mean by "the right conditions"? Well I'm not sure what the complete set is, but one of those conditions is that both SIP channels must be marked "canreinvite=yes". If either has "canreinvite=no", then Asterisk falls back to the default behaviour of setting up two separate legs.
In your case, you need the default behaviour when calling the provider, because the SIP phone is on a private IP 192.168.1.201, whilst the provider is on a public IP P.P.P.P. If the SIP messages were to try to set up a direct media path between the two it wouldn't work [*]; in particular, there's no point the public SIP provider trying to send an RTP packet to 192.168.1.201, because it won't be able to route to it.
The last thing, which took me a while to figure out, is why the option which means "I prefer to use a direct RTP media path" is called "canreinvite=yes".
Even if the normal audio path for a call can be set up with native bridging, Asterisk sometimes needs to be able to re-insert itself into the media path in the middle of a call - to provide services such as music on hold, transfer, parking and so on when they are requested.
The SIP mechanism for this is called re-INVITE. Two phones which are happily talking to each other can have the media stream changed mid-call using this mechanism, so Asterisk can unstitch the direct link and re-connect the two legs to itself.
However, not all phones support this mechanism. If you set canreinvite=no on a SIP channel, it's saying "this phone doesn't support the re-INVITE mechanism for reconnecting the audio mid-call". Asterisk therefore decides that it must insert itself into the media stream for the whole duration of the call, so that it is already there if later on one of the parties requests one of these in-call features.
Hopefully that's enough to answer your question :-) The best way to see what's going on is to look at the SIP/SDP packets themselves, which you can do either using 'sip debug' in Asterisk, or using tcpdump:
#tcpdump-ieth0-n-s0-vudpport5060
#tcpdump-ieth1-n-s0-vudpport5060
With a recent version of tcpdump, the -v option will show you the SIP/SDP payload. If it doesn't, use -X instead (capital X) which will show you hex and ASCII. -s0 means capture the whole packet, and -n means don't try to do reverse DNS lookups on every packet's IP address.