Creating a new Providerbackend for Iro
======================================
See also class documentation :class:`iro.offer.provider.Provider`.
A very simple provider
----------------------
For testing purpose it is nice to create a small provider.
.. code-block:: python
:linenos:
from iro.offer import providers, Provider
class TestProvider(Provider):
def __init__(self,name):
Provider.__init__(self, name, {"sms" : ["a",]})
providers["myveryspecialProvider"] = TestProvider
- *line 3* -- a Provider that supports message type **sms**, and has one route named **a**.
- *line 5* -- register the provider type **TestProvider** in the global **providers** dict. Following section in configuraton file will create a new TestProvider object, with ``name="blablub"``::
[blablub]
#see line 5
typ = myveryspecialProvider
Normally a new Provider wants to have extra options for configuration file:
.. code-block:: python
:linenos:
from iro.offer import providers, Provider
from iro.config import Option
def validater(value, field):
return value
class TestProvider(Provider):
def __init__(self,name):
options =[("key", Option(validater,long="My Option explanation", must=True)),]
Provider.__init__(self, name, {"sms" : ["a",]}, options)
providers["myveryspecialProvider"] = TestProvider
in *line 9* we create a item list ( ``[(name,Option),...]`` -- more information about :class:`iro.config.Option`). **validater** have to be a function that returns value, if the value is valid. With this following section in configuration file is possible::
[balblub]
typ = myveryspecialProvider
#My Option explanation
key = mykey
Ok, now we know to get settings into the provider. But we have to do anything, when user want to send anything. So we have to create a send function.
Creating sipgate provider
-------------------------
Sipgate supports sending sms and faxes via XML-RPC. so it is easy to create a new providerbackend for iro via sipgate. First we get the XML-RPC Api documention for sipgate (http://www.sipgate.de/beta/public/static/downloads/basic/api/sipgate_api_documentation.pdf). Sipgate uses HTTP Basic Authentification, that's we he create to options for our sipgate provider:
.. code-block:: python
:linenos:
from iro.offer import providers, Provider
from iro.config import Option
class Sipgate(Provider):
def __init__(self,name):
options =[("username", Option(lambda x,y: x,long="Loginname for sipgate", must=True)),
("password", Option(lambda x,y: x,long="Password for sipgate", must=True)),]
Provider.__init__(self, name, {"sms" : [None], "fax":[None]}, options)
providers["sipgate"] = Sipgate
- *line 6/7* -- we don't have any ideas what is allowed as username/password, so we create a validator that accepts everything.
- *line 8* -- sipgate supports fax and sms, but now diffrent routes, that's we use ``None``.
Now we have to possible options to implement the send function. either we implement a blocking interface or use the recommended solution: twisted non blocking solution. We show here the recommended version.
The Twisted Way (recommended solution)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
First we start to implement the ``fax`` and ``sms`` methods:
.. code-block:: python
:linenos:
def proxy(self):
return Proxy("https://%s:%s@samurai.sipgate.net/RPC2"%(self.username, self.password))
def sms(self, recipient, sms):
args={
"TOS" : "text",
"Content" : sms.getContent(),
"RemoteUri" : "sip:%s%s@sipgate.net"%(recipient.land, recipient.number),
}
return self.proxy().callRemote("samurai.SessionInitiate",args)
def fax(self, recipient, fax):
args={
"TOS" : "fax",
"Content" : xmlrpclib.Binary(fax.getAttachment(0)),
"RemoteUri" : "sip:%s%s@sipgate.net"%(recipient.land, recipient.number),
}
return self.proxy().callRemote("samurai.SessionInitiate",args)
The code is straight forward with the API documentation from sipgate. Now we have to implement the heat of the provider the ``send`` method:
.. code-block:: python
:linenos:
def _status(self,value,typ):
if typ not in self.typs.keys():
raise NoTyp(typ)
return Status(self, None, Decimal("1.00"), 1, value["SessionID"])
def send(self, typ, recipient, msg):
if typ not in self.typs.keys():
raise NoTyp(typ)
d = getattr(self,typ)(recipient, msg)
d.addCallback(self._status, typ)
return d
def getSendFunc(self, typ, route):
"""returns :meth:`send` method, if typ and route is valid."""
Provider.getSendFunc(self, typ, route)
return partial(self.send, typ)
Because sipgate doesn't support different routes, we implement a send function without route argument.
That's why we have to rewrite the ``getSendFunc`` method. It now returns a partial function with only a binded ``typ``.
The ``send`` method first test the for a valid typ (*line 7/8*), than it execute the ``sms`` or ``fax`` method.
For a valid provider we have to return a :class:`~iro.model.status.Status` object.
There for we add a callback that returns a :class:`~iro.model.status.Status` object (see ``_status`` method).
Unfortunatelly sipgate doesn't support methods to get the price for one action.
So we have to set set a fixed price here ``Decimal('1.00')``.
In the wild we implement new configuration parameters for priceing.
Now the provider is ready to use. For complete source of this tutorial see :class:`iro.offer.sipgate`.