Asyncio plugins, components, dependency injection and configs
Project description
This is heavily inspired by Pyramid and my daily needs to fastly create and maintain microservice like applications.
a plugin mechanic
plugin may depend on other plugins
plugins yield tasks to run
a context registry serves as a store for application components created by plugins
a dependency injection creates intermediate components
a config source is mapped to plugin specific configuration and may be fully overridden by environment vars
structlog boilerplate for json/tty logging
You bootstrap like following:
from buvar import plugin
plugin.stage("some.module.with.prepare")
# some.module.with.prepare
from buvar import context, plugin
class Foo:
...
async def task():
asyncio.sleep(1)
async def server():
my_component = context.get(Foo)
await asyncio.Future()
# there is also plugin.Teardown and plugin.Cancel
async def prepare(load: plugin.Loader):
await load('.another.plugin')
# create some long lasting components
my_component = context.add(Foo())
# you may run simple tasks
yield task()
# you may run server tasks
yield server()
a components and dependency injection solution
Dependency injection relies on registered adapters, which may be a function, a method, a class, a classmethod or a generic classmthod.
Dependencies are looked up in components or may be provided via kwargs.
from buvar import di
class Bar:
pass
class Foo:
def __init__(self, bar: Bar = None):
self.bar = bar
@classmethod
async def adapt(cls, baz: str) -> Foo:
return Foo()
async def adapt(bar: Bar) -> Foo
foo = Foo(bar)
return foo
async def task():
foo = await di.nject(Foo, baz="baz")
assert foo.bar is None
bar = Bar()
foo = await di.nject(Foo, bar=bar)
assert foo.bar is bar
async def prepare():
di.register(Foo.adapt)
di.register(adapt)
yield task()
a config source
buvar.config.ConfigSource is just a dict, which merges arbitrary dicts into one. It serves as the single source of truth for application variability.
You can load a section of config values into your custom attrs class instance. ConfigSource will override values by environment variables if present.
config.toml
log_level = "DEBUG"
show_warnings = "yes"
[foobar]
some = "value"
export APP_FOOBAR_SOME=thing
import attr
import toml
from buvar import config
@attr.s(auto_attribs=True)
class GeneralConfig:
log_level: str = "INFO"
show_warnings: bool = config.bool_var(False)
@attr.s(auto_attribs=True)
class FoobarConfig:
some: str
source = config.ConfigSource(toml.load('config.toml'), env_prefix="APP")
general_config = source.load(GeneralConfig)
assert general_config == GeneralConfig(log_level="DEBUG", show_warnings=True)
foobar_config = source.load(FoobarConfig, 'foobar')
assert foobar_config.some == "thing"
There is a shortcut to the above approach provided by buvar.config.Config, which requires to be subclassed from it with a distinct section attribute. If one adds a buvar.config.ConfigSource component, he will receive the mapped config in one call.
from buvar import config, plugin
@attr.s(auto_attribs=True)
class GeneralConfig(config.Config):
log_level: str = "INFO"
show_warnings: bool = config.bool_var(False)
@attr.s(auto_attribs=True)
class FoobarConfig(config.Config, section="foobar"):
some: str
async def prepare(load: plugin.Loader):
# this would by typically placed in the main CLI entry point
source = context.add(config.ConfigSource(toml.load('config.toml'), env_prefix="APP"))
# to provide the adapter to di, which could also be done in the main entry point
await load(config)
foobar_config = await di.nject(FoobarConfig)
a structlog
Just structlog boilerplate.
import sys
from buvar import log
log_config = log.LogConfig(tty=sys.stdout.isatty(), level="DEBUG")
log_config.setup()
Project details
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distributions
Hashes for buvar-0.41.6-cp39-cp39-manylinux2014_x86_64.whl
Algorithm | Hash digest | |
---|---|---|
SHA256 | c60bd336fb4e449dab1766d6bf9affc6b9873a4932c30d3dd4de561fca245fdb |
|
MD5 | e0ad177c7a06297211e2c1671136d3b8 |
|
BLAKE2b-256 | 8d77890e7fa0554bc82b24faa137d6e0e7ab3bdb12458096c32eaa564aab7ec1 |
Hashes for buvar-0.41.6-cp38-cp38-manylinux2014_x86_64.whl
Algorithm | Hash digest | |
---|---|---|
SHA256 | 19ece5b026389dce9b9696ae733356687ed78c4a47f105cce3538896964fb228 |
|
MD5 | a962596db5a0546367a3651dd72cde9b |
|
BLAKE2b-256 | 91c40ddef7ab61c7ff773c60ae841cdf992042aa7f175a6354e5ad148b6cda78 |
Hashes for buvar-0.41.6-cp37-cp37m-manylinux2014_x86_64.whl
Algorithm | Hash digest | |
---|---|---|
SHA256 | e76986d69e54e16ba2fddd1a7654af51f9b0a0d090cb97cf9b12960ff117a267 |
|
MD5 | 4191580f3c1b5b4355867662ec9e971b |
|
BLAKE2b-256 | ce47cf9006b94eddf8513b3cfbc1894418c368d46364e5b79f7533dcec33038d |