Terminal manufacturers¶
Overview¶
IvozProvider supports provisioning of terminals via HTTP/HTTPS that fulfill the following requirements:
Assuming a just unboxed terminal, just plugged and connected to the network:
- Ask IP address via DHCP.
- DCHP has enabled the option 66 that points to the platform portal
- The first requested provisioning file is a static file (different for each model) prefixed with the previous step URL.
- The served file can redefine the URL for further requests
Any terminal model that can adapt to this provisioning way can be added into the section Platform Configuration > Terminal manufacturers.
Example Cisco SPA504G
Cisco SPA504G is turned on and requests an IP address to DHCP
Receives “http://provision.example.com/provision” as DHCP option 66
Request HTTP configuration from http://provision.example.com/provision/spa504g.cfg
All 504G request the same file (spa504.cfg), prefixed with the given URL
This file only contain basic configuration settings for the model and the URL for the next request (p.e. https://provision.example.com/provision/$MAC.cfg)
This way, each terminal (MAC should be unique) request a specific file (and different) after the generic one has been served.
This file will contain the specific configuration for the terminal:
- User
- Password
- SIP Domain
Nota
IvozProvider provisioning system, right now, only has one goal: provide credentials and language settings for the terminals.
Configuration of supported models¶
IvozProvider uses a template system that allows global operator (God) to define new models and configure what files will be served.
The help section of Terminal manufacturers has examples for some models that work (in the moment of writting this) with IvozProvider provisioning system.
Consejo
These models will be available after the initial installation, but you must edit them and load the default configuration before you can use the provisioning system (option Restore default template).
Error
UACs firmware changes may cause that given examples stop working. We will try to keep templates updated, but we can’t guarantee this point.
Analyzing the suggested templates you can have a basic idea of the flexibility of the system to configure any existing terminal model in the market and to adapt them to eventual changes in given examples.
Getting technical¶
Imagine an environment with this configuration:
- Provisioning URLs:
- Generic file: http://PROV_IP/provision
- Specific file: https://PROV_IP:PROV_PORT/provision
- TerminalModels.genericUrlPattern: y000000000044.cfg
Which requested URLs will be valid?
For generic file, just one: http://PROV_IP/provision/y000000000044.cfg
For specific file, requests are right as long as this rules are fulfilled:
- All HTTP requests are wrong.
- HTTPS requests to 443 are wrong (PROV_PORT must be used).
- Subpaths after provisioning URL are ignored, both in request and in specificUrlPattern.
- On specific file request, extension must match as long as extension is used in specificUrlPattern.
- On specific file request, the filename must match exactly once {mac} is replaced.
- MAC address is case insensitive and can contain colons or not (‘:’).
Let’s analyze the examples below to understand this rules better:
Example 1 - TerminalModels.specificUrlPattern: {mac}.cfg
Working requests:
https://PROV_IP:PROV_PORT/provision/aabbccddeeff.cfg
https://PROV_IP:PROV_PORT/provision/aa:bb:cc:dd:ee:ff.cfg
https://PROV_IP:PROV_PORT/provision/aabbccdd:ee:ff.cfg
https://PROV_IP:PROV_PORT/provision/aabbccddeeff.cfg
https://PROV_IP:PROV_PORT/provision/AABBCCDDEEFF.cfg
https://PROV_IP:PROV_PORT/provision/subpath1/aabbccddeeff.cfg
https://PROV_IP:PROV_PORT/provision/subpath1/subpath2/aabbccddeeff.cfg
Wrong requests:
https://PROV_IP:PROV_PORT/provision/aabbccddeeff.boot
https://PROV_IP:PROV_PORT/provision/subpath1/subpath2/aabbccddeeff.boot
This example is identical to ‘t23/{mac}.cfg’, as subpaths are ignored.
Example 2 - TerminalModels.specificUrlPattern: {mac}
All previous examples are ok, as extension is ignored if no extension is found in specificUrlPattern.
This example is identical to ‘t23/{mac}’, as subpaths are ignored.
Example 3 - TerminalModels.specificUrlPattern: yea-{mac}.cfg
All previous examples are wrong, as no ‘yea-‘ is found (‘yea’ match is case sensitive).
Working requests:
https://PROV_IP:PROV_PORT/provision/subpath1/yea-aabbccdd:ee:ff.cfg
Wrong requests:
https://PROV_IP:PROV_PORT/provision/subpath1/yea-aabbccdd:ee:ff.boot
https://PROV_IP:PROV_PORT/provision/subpath1/YEA-aabbccdd:ee:ff.cfg
This example is identical to ‘t23/yea-{mac}.cfg’, as subpaths are ignored.
Example 4 - TerminalModels.specificUrlPattern: yea-{mac}
As no extension is given:
https://PROV_IP:PROV_PORT/provision/subpath1/yea-aabbccdd:ee:ff.cfg
https://PROV_IP:PROV_PORT/provision/subpath1/yea-aabbccdd:ee:ff.boot
Wrong requests:
https://PROV_IP:PROV_PORT/provision/subpath1/YEA-aabbccdd:ee:ff.cfg
This example is identical to ‘t23/yea-{mac}’, as subpaths are ignored.