Northbound interface:RESTful
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TelcoBridges HTTP RESTful Northbound Interface
Introduced in version 2.9, the RESTful API allows the provisioning of a Tmedia VoIP gateway or a Tdev development platform. The configuration of the device is seen as collections of resources than can be queried/modified through this interface.
HTTP requests are sent to the web server using standard HTTP methods(e.g., GET, PUT, POST, or DELETE). Data exchanged in requests and responses is in JSON format.
Supported RFCs
TelcoBridges supports the following RFCs for RESTful API:
| Specification | Supported |
|---|---|
| RFC 7159 The JavaScript Object Notation (JSON) Data Interchange Format | Yes |
| Extensible Markup Language (XML) 1.0 (Fifth Edition) | No |
| RFC 2617 HTTP Authentication: Basic and Digest Access Authentication | Basic Scheme Only |
| RFC 2109 HTTP State Management Mechanism | Yes |
REST API overview
| Resource |
GET |
PUT |
POST |
DELETE |
|---|---|---|---|---|
|
Collection URI |
List the resources that are part of the collection. | Not used. | Create a new element in the collection. | Not used. |
|
Element URI |
Retrieve a JSON representation of the specified member of the collection. | Modify the specified member of the collection according to the JSON data in the HTTP request. | Not used. | Delete the specified member of the collection |
|
New Element URI |
Retrieve a JSON representation of a new element of the collection with default values. This new element is not saved until a POST request is sent to create the element in the collection. | N/A | N/A | N/A |
|
Status Element URI |
Retrieve a JSON representation of the status of an element. This is only valid for elements in the active configuration, and it is not available for all element types. | N/A | N/A | N/A |
Supported Methods
GET
List elements of a collection
GET /users
<- Content : {"root":{}}
<- Code : HTTP/1.0 200 OK
Read a specific element
GET /users/root
<- Content : {"name":"root","user_group":"Admin","pass":"Not Shown"}
<- Code : HTTP/1.0 200 OK
PUT
Update a configuration element
PUT /users/root
-> Content : {"pass":"MyNewSecret"}
<- Code : HTTP/1.0 200 OK
Omitted attributes in a PUT are left unchanged on the server.
POST
Create a configuration element into a collection
POST /users
-> Content : { "name" : "RogerFluffy", "user_group" : "nobody" , "pass" : "xyz" }
<- Code : HTTP/1.0 200 OK
Omitted attributes in a POST are being set to the 'default' value.
DELETE
Delete a configuration element from a collection
DELETE /users/RogerFluffy <- Code : HTTP/1.0 200 OK
Elements
Elements are found under collection URIs. A collection is generally composed of multiple elements, with a different name for each element. The element name must be provided during the POST:
POST /users
-> Content : { "name" : "RogerFluffy", ... }
<- Code : HTTP/1.0 200 OK
Elements generally have attributes, and can also include collections. For example, for the configuration element MyCFG, we can find the routes collection using the following URI:
/configurations/MyCFG/routes
Collections
URI with the plural form generally represent a collection of elements. A collection can be composed of mutiple elements, or limited to 1.
For example, configuration are found under the following collection URI
/users
Likewise, the list of routes can be found on
/configurations/MyCFG/routes
When the collection is limited to 1 element, the element name is fixed. For example, only one H.248 stack can be defined, therefore the name is fixed to gateway_h248 The element name must be NOT be provided during the POST:
POST /configurations/MyCFG/h248_stacks
-> Content : { "enabled" : true, "naps" : [ "NAP_TDM", "RTP_NAP"], ... }
<- Code : HTTP/1.0 200 OK
Recursivity
Non-recursive GET requests (default)
By default, requests are non-recursive. This means that when a GET request is made on a URI, only objects on that element will be returned.
GET /configurations/NewCFG
<- Content : {"name":"NewCFG", "notes":"This is a new demo configuration", "routes":{}, ... }
In the response, we see two attribute value pairs : name and notes, along with another object named routes. The later is a collection, and should be queried individually to get its sub-elements.
GET /configurations/NewCFG/routes
<- Content : {"Route1":{}, ...}
GET /configurations/NewCFG/routes/Routes1
<- Content : {"name":"Route1", "called":"5551212","calling":"", ...}
Recursive GET requests
It is possible to get all sub-elements from a GET by using the recursive=yes attribute on the URI.
GET /configurations/NewCFG?recursive=yes
<- Content : {
"name":"NewCFG",
"notes":"This is a new demo configuration",
"routes": {
"Route1": {
"name":"Route1",
"called":"5551212",
"calling":"", ...
},
"Route2": {
"name":"Route2",
"called":"5551314",
"calling":"", ...
}, ...
}
}
This is also true to get the content of all elements of a collection
GET /users?recursive=yes
<- Content : {
"RogerFluffy":{
"name":"RogerFluffy",
"user_group":"nobody",
"pass":"Not Shown"
},
"root":{
"name":"root",
"user_group":"Admin",
"pass":"Not Shown"
}
}
Note : recursive GET does not apply to status elements.
Recursive PUT/POST requests
The recursivity of a PUT/POST depends on the content. It is possible to specify the content of all sub-elements under a URI. For example, to change the complete routing table, we could do something like:
PUT /configurations/NewCFG/routes
-> Content : {
"Route1": {
"name":"Route1",
"called":"5551212",
"calling":"", ...
},
"Route2": {
"name":"Route2",
"called":"5551314",
"calling":"", ...
}, ...
}
}
Or even change a complete configuration in a single PUT
PUT /configurations/NewCFG
-> Content : {
"name":"NewCFG",
"notes":"This is a new demo configuration",
"routes": {
"Route1": {
"name":"Route1",
"called":"6661212",
"calling":"", ...
},
"Route2": {
"name":"Route2",
"called":"6661314",
"calling":"", ...
}, ...
}
}
Documentation
It is possible to get the documentation for the attributes of an element from a GET by using the documentation=true attribute on the URI, either for the collection, an element or a new element.
GET /configurations?documentation=true
GET /configurations/NewCFG?documentation=true
GET /configurations/new?documentation=true
-> Content : {
"name": {
"description" : "Name of this configuration.",
"type" : "text",
},
"notes": {
"description" : "Free text field available to add any system/configuration information (this field is ignored by the system)",
"type" : "text",
}, ...
}
}
Recursive Documentation
It is possible to get documentation recursively by using both the documentation=true and the recursive=yes attributes on the URI.
GET /configurations?documentation=true&recursive=yes
-> Content : {
"name": {
"description" : "Name of this configuration.",
"type" : "text",
},
"notes": {
"description" : "Free text field available to add any system/configuration information (this field is ignored by the system)",
"type" : "text",
},
"routes": {
"called": {
"description" : "Called number to match this route. Leave empty to match any called number.",
"type" : "text",
},
"calling": {
"description" : "Calling number to match this route. Leave empty to match any calling number.",
"type" : "6661314",
}, ...
}, ...
}
Request Status code
The following result class are used to as HTTP status code to indicate the result of request.
* 2XX - success * 3XX - redirection (304 Not Modified) * 4XX - client error * 5XX - server error
In Addition to HTTP status code, every HTTP response also inlcudes a JSON payload with a verbose message.
POST /configurations/MyCFG/h248_stacks
-> Content : { ... }
<- Code : HTTP/1.0 200 OK
<- Content : { "message" : "Tbgw h248 cfg creation failed: Public ip address can't be blank, Public ip address is invalid, Local ip address is invalid, Local ip address When not using virtual ip, an ip address must be entered"}
This message can be used to find the exact reason why a RESTful API call failed.
HTTP headers
The following HTTP header should be used in requests:
| HTTP Header | Description |
|---|---|
| Host | Mandatory |
| Authorization | RFC2617 WWW Authentication, basic mode. Can be used on each requests, or first request only by using Cookie/Set-Cookie headers |
| Cookie | RFC2109 HTTP Session management |
| Content-Type | "application/json" |
| Content-Length | Length of content for PUT and POST requests |
| User-Agent | Optional |
| If-None-Match | Optional (HTTP ETag/If-None-Match caching mechanism) |
| Cache-Control | HTTP Cache control, use is optional |
| Connection | "keep-alive" |
The following HTTP header are to be expected for a server response:
| HTTP Header | Description |
|---|---|
| Authorization | RFC2617 WWW Authentication |
| Set-Cookie | RFC2109 HTTP Session management |
| Content-Type | "application/json; charset=utf-8" |
| Content-Length | Length of content |
| E-Tag | Optional (HTTP ETag/If-None-Match caching mechanism) |
| Cache-Control | Optional |
| Date | Can be ignored |
| X-Runtime | Can be ignored |
| X-Frame-Option | To be ignored |
API Access
HTTP port
The HTTP port for RESTful access is the same as for the Web interface. By default, HTTP port is 12358.
Therefore the RESTful URIs should looks something like:
http://TMG_IP_ADDR:12358/@[collection_name]/@[resource_name]
Credentials
The credentials (user/password) used to authenticate a RESTful client application are the same as for the WebPortal. Users can be managed from the Web interface under /users. The same path is used to manage users by the RESTful interface.
Ruby implementation example
This ruby script is an example of how to use TelcoBridges RESTful Northbound Interface.
- The script can be executed from any computer having access to the management web interface.
- The script can also be copied on the internal host of a Tmedia and executed from a SSH client (as shown in the examples below using 127.0.0.1:12358).
Download script
Usage
./httprestapi.rb <URI> <user> <password> <http request>
With <URI> = http://ip:port
Example: ./httprestapi.rb 'http://127.0.0.1:12358' 'root' 'password' <http request>
With <http request> = <GET|PUT|POST|DELETE> <element path> [json | -i jsonfile | -o jsonfile]
-i jsonfile = input json file used for PUT or POST http request
-o jsonfile = output json file used for GET http request
GET
Get the configuration collection list and display the JSON returned in the body of the HTTP response.
./httprestapi.rb 'http://127.0.0.1:12358' GET '/configurations'
Show the use of "recursive=yes" to get all sub-element of configuration. Put the returned JSON in "test_configuration.json" file.
./httprestapi.rb 'http://127.0.0.1:12358' GET '/configurations/test?recursive=yes' '-o test_configuration.json'
Use "documentation=yes" to return documentation of all attributes of an element. Below example returns documentation for a new route element.
./httprestapi.rb 'http://127.0.0.1:12358' GET '/configurations/test/routes/new?documentation=yes'
Get request can also be used to retrieve the status of some elements of the active configuration.
./httprestapi.rb 'http://127.0.0.1:12358' GET '/configurations/test/naps/xtel/status'
PUT
Modify attributes of an element. Below example renames the route element named "Test" to "NewName".
./httprestapi.rb 'http://127.0.0.1:12358' PUT '/configurations/test/routes/test_route' '{"name":"new_route_name"}'
Modify attributes of an element using a JSON file for the HTTP request.
./httprestapi.rb 'http://127.0.0.1:12358' PUT '/configurations/test/routes/test_route' '-i modified_route.json'
Activate "demo" configuration
./httprestapi.rb 'http://127.0.0.1:12358' PUT '/systems/system_1' '{"target_configuration":"demo"}'
POST
Create a new element. Below example add a new route named "xtel_to_SBC_1".
./httprestapi.rb 'http://127.0.0.1:12358' POST '/configurations/test/routes' '{"name":"xtel_to_SBC_1","nap":"xtel","remapped_nap":"SBC_1"}'
Create a new element using a JSON file for the HTTP request.
./httprestapi.rb 'http://127.0.0.1:12358' POST '/configurations/test/routes' '-i new_route.json'
Create a new configuration using a JSON file for the HTTP request.
./httprestapi.rb 'http://127.0.0.1:12358' POST '/configurations' '-i test_configuration.json'
DELETE
Delete an element. Below example delete the route named "xtel_to_SBC_1".
./httprestapi.rb 'http://127.0.0.1:12358' DELETE '/configurations/test/routes/xtel_to_SBC_1'
Using JSON files
Modify an element
1. Get route configuration in JSON file
./httprestapi.rb 'http://127.0.0.1:12358' GET '/configurations/test/routes/test_route' '-o routes.json'
2. Edit JSON file attributes
vi route.json
3. Modify element from JSON file
./httprestapi.rb 'http://127.0.0.1:12358' PUT '/configurations/test/routes/test_route' '-i routes.json'
Create a new element
1. Get an element default attributes value in a JSON file
./httprestapi.rb 'http://127.0.0.1:12358' GET '/configurations/test/routes/new' '-o routes.json'
2. Edit JSON file attributes
vi route.json
3. Create new element from JSON file
./httprestapi.rb 'http://127.0.0.1:12358' POST '/configurations/test/routes/new_route' '-i routes.json'
Postman tool integration
Postman is an API(application programming interface) development tool provided by third party that helps to test APIs. Almost any functionality that could be needed by any developer is encapsulated in this tool. It has the ability to make various types of HTTP requests(GET, PUT, POST, DELETE).
- Postman tool is another example of how to use TelcoBridges RESTful Northbound Interface.
- The application tool can be run from any computer having access to the management web interface.
Download application
Usage
- When sending HTTP requests to Telcobridges management interface for manipulating with Telcobrigdes configurations' resources, the HTTP request must be following the HTTP headers as listed above.
- Out of these headers, besides Host information and Authorization, Content-Type is important, and must be specified as "application/json" in order to return right result
- Other headers are either already complying or optional, and becoming less important when using default headers values as provided by Postman
GET
Include the authorization with "Basic Auth",
Get the configuration collection list and display the JSON returned in the body of the HTTP response.
PUT
Modify attributes of an element. Below example renames the route element named "Test" to "NewName".
POST
Create a new element. Below example add a new route named "xtel_to_SBC_1".
./httprestapi.rb 'http://127.0.0.1:12358' POST '/configurations/test/routes' '{"name":"xtel_to_SBC_1","nap":"xtel","remapped_nap":"SBC_1"}'
Create a new element using a JSON file for the HTTP request.
./httprestapi.rb 'http://127.0.0.1:12358' POST '/configurations/test/routes' '-i new_route.json'
Create a new configuration using a JSON file for the HTTP request.
./httprestapi.rb 'http://127.0.0.1:12358' POST '/configurations' '-i test_configuration.json'
DELETE
Delete an element. Below example delete the route named "xtel_to_SBC_1".
./httprestapi.rb 'http://127.0.0.1:12358' DELETE '/configurations/test/routes/xtel_to_SBC_1'
Using JSON files
Modify an element
1. Get route configuration in JSON file
./httprestapi.rb 'http://127.0.0.1:12358' GET '/configurations/test/routes/test_route' '-o routes.json'
2. Edit JSON file attributes
vi route.json
3. Modify element from JSON file
./httprestapi.rb 'http://127.0.0.1:12358' PUT '/configurations/test/routes/test_route' '-i routes.json'
Create a new element
1. Get an element default attributes value in a JSON file
./httprestapi.rb 'http://127.0.0.1:12358' GET '/configurations/test/routes/new' '-o routes.json'
2. Edit JSON file attributes
vi route.json
3. Create new element from JSON file
./httprestapi.rb 'http://127.0.0.1:12358' POST '/configurations/test/routes/new_route' '-i routes.json'
