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Aio application runner

Project description

Application runner for the aio asyncio framework

Build status

https://travis-ci.org/phlax/aio.app.svg?branch=master

Installation

Install with:

pip install aio.app

Running an aio app

You can run an aio app as follows:

aio run

Or with a custom configuration file

aio -c custom.conf run

If you run the command without specifying a configuration file the aio command will look look for one in the following places on your filesystem

  • aio.conf

  • etc/aio.conf

  • /etc/aio/aio.conf

The aio run command

On startup aio run sets up the following

  • Configuration - system-wide configuration

  • Modules - initialization and configuration of modules

  • Logging - system logging policies

  • Schedulers - functions called at set times

  • Servers - listening on tcp/udp or other type of socket

  • Signals - functions called in response to events

Configuration

Configuration is in ini syntax

[aio]
modules = aio.app
        aio.signals

While the app is running the system configuration is importable from aio.app

from aio.app import config

Configuration is parsed using ExtendedInterpolation as follows

  • aio.app defaults read

  • user configuration read to initialize modules

  • “aio.conf” read from initialized modules where present

  • user configuration read again to ensure for precedence

Logging

Logging policies can be placed in the configuration file, following pythons fileConfig format

As the configuration is parsed with ExtendedInterpolation you can use options from other sections

[logger_root]
level=${aio:log_level}
handlers=consoleHandler
qualname=aio

The default aio:log_level is INFO

Modules

You can list any modules that should be imported at runtime in the configuration

Default configuration for each of these modules is read from a file named aio.conf in the module’s path, if it exists.

The system modules can be accessed from aio.app

from aio.app import modules

Schedulers

Any sections in the configuration that start with “schedule/” will create a scheduler.

Specify the frequency and the function to call. The function should be a co-routine.

[schedule/example]
every = 2
func = my.scheduler.example_scheduler

The scheduler function takes 1 argument the name of the scheduler

@asyncio.coroutine
def example_scheduler(name):
    yield from asyncio.sleep(2)
    # do something
    pass

Servers

Any sections in the configuration that start with “server/” will create a server

The server requires either a factory or a protocol to start

Protocol configuration example:

[server/example]
protocol = my.example.ServerProtocol
port = 8888

Protocol example code:

class ServerProtocol(asyncio.Protocol):

    def connection_made(self, transport):
        self.transport = transport

    def data_received(self, data):
        # do stuff
        self.transport.close()

If you need further control over how the protocol is created and attached you can specify a factory method

Factory configuration example:

[server/example]
factory = my.example.server_factory
port = 8080

Factory code example:

@asyncio.coroutine
def server_factory(name, protocol, address, port):
    loop = asyncio.get_event_loop()
    return (
        yield from loop.create_server(
           ServerProtocol, address, port))

Signals

Any section in the configuration that starts with “listen/” will subscribe listed functions to given events

An example listen configuration section

[listen/example]
example-signal = my.example.listener

And an example listener function

@asyncio.coroutine
def listener(signal, message):
    print(message)

Signals are emitted in a coroutine

yield from app.signals.emit(
    'example-signal', "BOOM!")

You can add multiple subscriptions within the section

[listen/example]
example-signal = my.example.listener
example-signal-2 = my.example.listener2

You can also subscribe multiple functions to a signal

[listen/example]
example-signal = my.example.listener
               my.example.listener2

And you can have multiple “listen/” sections

[listen/example]
example-signal = my.example.listener
               my.example.listener2

[listen/example2]
example-signal2 = my.example.listener2

The aio config command

To dump the system configuration you can run

aio config

To dump a configuration section you can use -g or –get with the section name

aio config -g aio

aio config --get aio/commands

To get a configuration option, you can use -g with the section name and option

aio config -g aio:log_level

aio config --get listen/example:example-signal

You can set a configuration option with -s or –set

Multi-line options should be enclosed in “ and separated with “\n”

aio config --set aio:log_level DEBUG

aio config -s listen/example:example-signal "my.listener\nmy.listener2"

When saving configuration options, configuration files are searched for in order from the following locations

  • aio.conf

  • etc/aio.conf

  • /etc/aio/aio.conf

If none are present aio will attempt to save it in “aio.conf” in the current working directory

To get or set an option in a particular file you can use the -f flag

aio config -g aio:modules -f custom.conf

aio config -s aio:log_level DEBUG -f custom.conf

When getting config values with the -f flag, ExtendedInterpolation is not used, and you therefore see the raw values

The aio test command

You can test the installed modules using the aio test command

[aio]
modules = aio.app
         aio.signals
aio test

You can also specify a module

aio test aio.app

Dependencies

aio.app depends on the following packages

aio.app usage

The aio command can be run with any commands listed in the [aio/commands] section of its configuration

There are also 3 builtin commands - run, config and test

Initially aio.app does not have any config, signals, modules or servers

>>> import aio.app
>>> print(aio.app.signals, aio.app.config, aio.app.modules, aio.app.servers)
None None () {}

Lets start the app runner in a test loop with the default configuration and print out the signals and config objects

>>> from aio.testing import aiotest
>>> from aio.app.runner import runner
>>> @aiotest
... def run_app():
...     yield from runner(['run'])
...
...     print(aio.app.signals)
...     print(aio.app.config)
...     print(aio.app.modules)
...     print(aio.app.servers)
>>> run_app()
<aio.signals.Signals object ...>
<configparser.ConfigParser ...>
(<module 'aio.app' from ...>,)
{}

Clear the app

We can clear the app vars.

This will also close any socket servers that are currently running

>>> aio.app.clear()
>>> print(aio.app.signals, aio.app.config, aio.app.modules, aio.app.servers)
None None () {}

Adding a signal listener

We can add a signal listener in the app config

>>> config = """
... [listen/testlistener]
... test-signal = aio.app.tests._example_listener
... """

Lets create a test listener and make it importable

The listener needs to be a coroutine

>>> import asyncio
>>> @asyncio.coroutine
... def listener(signal, message):
...     print("Listener received: %s" % message)
>>> aio.app.tests._example_listener = listener

Running the test…

>>> @aiotest
... def run_app(message):
...     yield from runner(['run'], config_string=config)
...     yield from aio.app.signals.emit('test-signal', message)
>>> run_app('BOOM!')
Listener received: BOOM!
>>> aio.app.clear()

We can also add listeners programatically

>>> @aiotest
... def run_app(message):
...     yield from runner(['run'])
...
...     aio.app.signals.listen('test-signal-2', asyncio.coroutine(listener))
...     yield from aio.app.signals.emit('test-signal-2', message)
>>> run_app('BOOM AGAIN!')
Listener received: BOOM AGAIN!

Adding app modules

When you run the app with the default configuration, the only module listed is aio.app

>>> @aiotest
... def run_app(config_string=None):
...     yield from runner(['run'], config_string=config_string)
...     print(aio.app.modules)
>>> run_app()
(<module 'aio.app' from ...>,)
>>> aio.app.clear()

We can make the app runner aware of any modules that we want to include, these are imported at runtime

>>> config = """
... [aio]
... modules = aio.app
...          aio.core
... """
>>> run_app(config_string=config)
(<module 'aio.app' from ...>, <module 'aio.core' from ...>)
>>> aio.app.clear()

Running a scheduler

A basic configuration for a scheduler

>>> config = """
... [schedule/test-scheduler]
... every: 2
... func: aio.app.tests._example_scheduler
... """

Lets create a scheduler function and make it importable.

The scheduler function should be a coroutine

>>> @asyncio.coroutine
... def scheduler(name):
...      print('HIT: %s' % name)
>>> aio.app.tests._example_scheduler = scheduler

We need to use a aiofuturetest to wait for the scheduled events to occur

>>> from aio.testing import aiofuturetest
>>> @aiofuturetest(timeout=5)
... def run_app():
...     yield from runner(['run'], config_string=config)

Running the test for 5 seconds we get 3 hits

>>> run_app()
HIT: test-scheduler
HIT: test-scheduler
HIT: test-scheduler
>>> aio.app.clear()

Running a server

Lets set up and run an addition server

At a minimum we should provide a protocol and a port to listen on

>>> config_server_protocol = """
... [server/additiontest]
... protocol: aio.app.tests._example_AdditionServerProtocol
... port: 8888
... """

Lets create the server protocol and make it importable

>>> class AdditionServerProtocol(asyncio.Protocol):
...
...     def connection_made(self, transport):
...         self.transport = transport
...
...     def data_received(self, data):
...         nums = [
...            int(x.strip())
...            for x in
...            data.decode("utf-8").split("+")]
...         self.transport.write(str(sum(nums)).encode())
...         self.transport.close()
>>> aio.app.tests._example_AdditionServerProtocol = AdditionServerProtocol

After the server is set up, let’s call it with a simple addition

>>> @aiofuturetest
... def run_addition_server(config_string, addition):
...     yield from runner(['run'], config_string=config_string)
...
...     def call_addition_server():
...          reader, writer = yield from asyncio.open_connection(
...              '127.0.0.1', 8888)
...          writer.write(addition.encode())
...          yield from writer.drain()
...          result = yield from reader.read()
...
...          print(int(result))
...
...     return call_addition_server
>>> run_addition_server(
...     config_server_protocol,
...     '2 + 2 + 3')
7
>>> aio.app.clear()

If you need more control over how the server protocol is created you can specify a factory instead

>>> config_server_factory = """
... [server/additiontest]
... factory = aio.app.tests._example_addition_server_factory
... port: 8888
... """

The factory method must be a coroutine

>>> @asyncio.coroutine
... def addition_server_factory(name, protocol, address, port):
...     loop = asyncio.get_event_loop()
...     return (
...         yield from loop.create_server(
...            AdditionServerProtocol,
...            address, port))
>>> aio.app.tests._example_addition_server_factory = addition_server_factory
>>> run_addition_server(
...     config_server_protocol,
...     '17 + 5 + 1')
23

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