Generic event bus for inter process asyncio communication
Project description
# Lahja
**DISCLAIMER: This is a proof of concept. It's untested, has never been used anywhere in production and is probably full of bugs**
*Lahja is a generic event bus implementation written in Python 3.6+ to enable lightweight inter-process communication, based on non-blocking asyncio.*
## What is this for?
Lahja is tailored around one primary use case: enabling multi process Python applications to communicate through events between processes in a non-blocking
asyncio fashion.
Key facts:
- non-blocking APIs based on asyncio
- lightweight and simple (e.g no IPC pipes etc)
- easy multicasting of events (one event, many independent receivers)
- multiple consuming APIs to adapt to different use cases and styles
## Quickstart
### Install the library
```sh
pip install lahja
```
### Import `EventBus` and `Endpoint`.
```python
from lahja import (
Endpoint,
EventBus,
)
```
### Setup `EventBus` with `Endpoint`s and pass the `Endpoint`s into the different processes.
```python
event_bus = EventBus()
e1 = event_bus.create_endpoint('e1')
e2 = event_bus.create_endpoint('e2')
event_bus.start()
p1 = multiprocessing.Process(target=run_proc1, args=(e1,))
p1.start()
p2 = multiprocessing.Process(target=run_proc2, args=(e2,))
p2.start()
```
### Inside each process, `connect()` the endpoint with the event bus and start receiving and broadcasting events.
```Python
def run_proc1(endpoint):
loop = asyncio.get_event_loop()
endpoint.connect()
endpoint.subscribe(SecondThingHappened, lambda event:
print("Received via SUBSCRIBE API in proc1: ", event.payload)
)
endpoint.subscribe(FirstThingHappened, lambda event:
print("Receiving own event: ", event.payload)
)
loop.run_until_complete(proc1_worker(endpoint))
async def proc1_worker(endpoint):
while True:
print("Hello from proc1")
if is_nth_second(5):
endpoint.broadcast(
FirstThingHappened("Hit from proc1 ({})".format(time.time()))
)
await asyncio.sleep(1)
```
## API
### Broadcasting events
Events can be broadcasted via the `broadcast` API. Notice that events are internally handled via `asyncio`, which means, this is a non-blocking fire and forget API.
**Broadcast API**
`def broadcast(self, item: BaseEvent) -> None:`
*Example:*
```Python
endpoint.broadcast(
FirstThingHappened("Hit from proc1 ({})".format(time.time()))
)
```
### Listening to events
Events can be received in two different fashions. Both APIs are non-blocking.
**Subscribe API**
`def subscribe(self, event_type: Type[BaseEvent], handler: Callable[[BaseEvent], None]) -> Subscription:`
*Example:*
```Python
subscription = endpoint.subscribe(SecondThingHappened, lambda event:
print("Received via SUBSCRIBE API in proc1: ", event.payload)
)
```
The handler will be called every time that a `SecondThingHappened` event is fired. Notice that the returned `Subscription` allows deregistering from the event at any later point in time.
*Example:*
```Python
subscription.unsubscribe()
```
**Stream API**
`async def stream(self, event_type: Type[BaseEvent]) -> AsyncIterable[BaseEvent]:`
*Example:*
```Python
async for event in endpoint.stream(SecondThingHappened):
print(event.payload)
```
## Running the full example
```Python
python3 examples/inter_process_ping_pong.py
```
The output will look like this:
```sh
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc1: Hit from proc2 (1533887068.9261594)
Hello from proc1
Hello from proc2
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc1: Hit from proc2 (1533887070.9296985)
Receiving own event: Hit from proc1 (1533887070.9288142)
Received via SUBSCRIBE API in proc2: Hit from proc1 (1533887070.9288142)
Received via STREAM API in proc2: Hit from proc1 (1533887070.9288142)
Hello from proc1
Hello from proc2
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc1: Hit from proc2 (1533887072.9331954)
Hello from proc1
Hello from proc2
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc1: Hit from proc2 (1533887074.937018)
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc2: Hit from proc1 (1533887075.9378386)
Received via STREAM API in proc2: Hit from proc1 (1533887075.9378386)
Receiving own event: Hit from proc1 (1533887075.9378386)
```
## TODOs
- Filter support (e.g. only subscribe to `EventX` from origin `y`)
- Push boundaries (don't push this into process x)
- Testing
- Performance analysis
## Developer Setup
If you would like to hack on lahja, please check out the
[Ethereum Development Tactical Manual](https://github.com/pipermerriam/ethereum-dev-tactical-manual)
for information on how we do:
- Testing
- Pull Requests
- Code Style
- Documentation
### Development Environment Setup
You can set up your dev environment with:
```sh
git clone https://github.com/cburgdorf/lahja
cd lahja
virtualenv -p python3 venv
. venv/bin/activate
pip install -e .[dev]
```
### Testing Setup
During development, you might like to have tests run on every file save.
Show flake8 errors on file change:
```sh
# Test flake8
when-changed -v -s -r -1 lahja/ tests/ -c "clear; flake8 lahja tests && echo 'flake8 success' || echo 'error'"
```
Run multi-process tests in one command, but without color:
```sh
# in the project root:
pytest --numprocesses=4 --looponfail --maxfail=1
# the same thing, succinctly:
pytest -n 4 -f --maxfail=1
```
Run in one thread, with color and desktop notifications:
```sh
cd venv
ptw --onfail "notify-send -t 5000 'Test failure ⚠⚠⚠⚠⚠' 'python 3 test on lahja failed'" ../tests ../lahja
```
### Release setup
For Debian-like systems:
```
apt install pandoc
```
To release a new version:
```sh
make release bump=$$VERSION_PART_TO_BUMP$$
```
#### How to bumpversion
The version format for this repo is `{major}.{minor}.{patch}` for stable, and
`{major}.{minor}.{patch}-{stage}.{devnum}` for unstable (`stage` can be alpha or beta).
To issue the next version in line, specify which part to bump,
like `make release bump=minor` or `make release bump=devnum`.
If you are in a beta version, `make release bump=stage` will switch to a stable.
To issue an unstable version when the current version is stable, specify the
new version explicitly, like `make release bump="--new-version 4.0.0-alpha.1 devnum"`
**DISCLAIMER: This is a proof of concept. It's untested, has never been used anywhere in production and is probably full of bugs**
*Lahja is a generic event bus implementation written in Python 3.6+ to enable lightweight inter-process communication, based on non-blocking asyncio.*
## What is this for?
Lahja is tailored around one primary use case: enabling multi process Python applications to communicate through events between processes in a non-blocking
asyncio fashion.
Key facts:
- non-blocking APIs based on asyncio
- lightweight and simple (e.g no IPC pipes etc)
- easy multicasting of events (one event, many independent receivers)
- multiple consuming APIs to adapt to different use cases and styles
## Quickstart
### Install the library
```sh
pip install lahja
```
### Import `EventBus` and `Endpoint`.
```python
from lahja import (
Endpoint,
EventBus,
)
```
### Setup `EventBus` with `Endpoint`s and pass the `Endpoint`s into the different processes.
```python
event_bus = EventBus()
e1 = event_bus.create_endpoint('e1')
e2 = event_bus.create_endpoint('e2')
event_bus.start()
p1 = multiprocessing.Process(target=run_proc1, args=(e1,))
p1.start()
p2 = multiprocessing.Process(target=run_proc2, args=(e2,))
p2.start()
```
### Inside each process, `connect()` the endpoint with the event bus and start receiving and broadcasting events.
```Python
def run_proc1(endpoint):
loop = asyncio.get_event_loop()
endpoint.connect()
endpoint.subscribe(SecondThingHappened, lambda event:
print("Received via SUBSCRIBE API in proc1: ", event.payload)
)
endpoint.subscribe(FirstThingHappened, lambda event:
print("Receiving own event: ", event.payload)
)
loop.run_until_complete(proc1_worker(endpoint))
async def proc1_worker(endpoint):
while True:
print("Hello from proc1")
if is_nth_second(5):
endpoint.broadcast(
FirstThingHappened("Hit from proc1 ({})".format(time.time()))
)
await asyncio.sleep(1)
```
## API
### Broadcasting events
Events can be broadcasted via the `broadcast` API. Notice that events are internally handled via `asyncio`, which means, this is a non-blocking fire and forget API.
**Broadcast API**
`def broadcast(self, item: BaseEvent) -> None:`
*Example:*
```Python
endpoint.broadcast(
FirstThingHappened("Hit from proc1 ({})".format(time.time()))
)
```
### Listening to events
Events can be received in two different fashions. Both APIs are non-blocking.
**Subscribe API**
`def subscribe(self, event_type: Type[BaseEvent], handler: Callable[[BaseEvent], None]) -> Subscription:`
*Example:*
```Python
subscription = endpoint.subscribe(SecondThingHappened, lambda event:
print("Received via SUBSCRIBE API in proc1: ", event.payload)
)
```
The handler will be called every time that a `SecondThingHappened` event is fired. Notice that the returned `Subscription` allows deregistering from the event at any later point in time.
*Example:*
```Python
subscription.unsubscribe()
```
**Stream API**
`async def stream(self, event_type: Type[BaseEvent]) -> AsyncIterable[BaseEvent]:`
*Example:*
```Python
async for event in endpoint.stream(SecondThingHappened):
print(event.payload)
```
## Running the full example
```Python
python3 examples/inter_process_ping_pong.py
```
The output will look like this:
```sh
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc1: Hit from proc2 (1533887068.9261594)
Hello from proc1
Hello from proc2
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc1: Hit from proc2 (1533887070.9296985)
Receiving own event: Hit from proc1 (1533887070.9288142)
Received via SUBSCRIBE API in proc2: Hit from proc1 (1533887070.9288142)
Received via STREAM API in proc2: Hit from proc1 (1533887070.9288142)
Hello from proc1
Hello from proc2
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc1: Hit from proc2 (1533887072.9331954)
Hello from proc1
Hello from proc2
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc1: Hit from proc2 (1533887074.937018)
Hello from proc1
Hello from proc2
Received via SUBSCRIBE API in proc2: Hit from proc1 (1533887075.9378386)
Received via STREAM API in proc2: Hit from proc1 (1533887075.9378386)
Receiving own event: Hit from proc1 (1533887075.9378386)
```
## TODOs
- Filter support (e.g. only subscribe to `EventX` from origin `y`)
- Push boundaries (don't push this into process x)
- Testing
- Performance analysis
## Developer Setup
If you would like to hack on lahja, please check out the
[Ethereum Development Tactical Manual](https://github.com/pipermerriam/ethereum-dev-tactical-manual)
for information on how we do:
- Testing
- Pull Requests
- Code Style
- Documentation
### Development Environment Setup
You can set up your dev environment with:
```sh
git clone https://github.com/cburgdorf/lahja
cd lahja
virtualenv -p python3 venv
. venv/bin/activate
pip install -e .[dev]
```
### Testing Setup
During development, you might like to have tests run on every file save.
Show flake8 errors on file change:
```sh
# Test flake8
when-changed -v -s -r -1 lahja/ tests/ -c "clear; flake8 lahja tests && echo 'flake8 success' || echo 'error'"
```
Run multi-process tests in one command, but without color:
```sh
# in the project root:
pytest --numprocesses=4 --looponfail --maxfail=1
# the same thing, succinctly:
pytest -n 4 -f --maxfail=1
```
Run in one thread, with color and desktop notifications:
```sh
cd venv
ptw --onfail "notify-send -t 5000 'Test failure ⚠⚠⚠⚠⚠' 'python 3 test on lahja failed'" ../tests ../lahja
```
### Release setup
For Debian-like systems:
```
apt install pandoc
```
To release a new version:
```sh
make release bump=$$VERSION_PART_TO_BUMP$$
```
#### How to bumpversion
The version format for this repo is `{major}.{minor}.{patch}` for stable, and
`{major}.{minor}.{patch}-{stage}.{devnum}` for unstable (`stage` can be alpha or beta).
To issue the next version in line, specify which part to bump,
like `make release bump=minor` or `make release bump=devnum`.
If you are in a beta version, `make release bump=stage` will switch to a stable.
To issue an unstable version when the current version is stable, specify the
new version explicitly, like `make release bump="--new-version 4.0.0-alpha.1 devnum"`
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
lahja-0.1.0a0.tar.gz
(5.7 kB
view details)
Built Distribution
File details
Details for the file lahja-0.1.0a0.tar.gz.
File metadata
- Download URL: lahja-0.1.0a0.tar.gz
- Upload date:
- Size: 5.7 kB
- Tags: Source
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/1.11.0 pkginfo/1.4.2 requests/2.19.1 setuptools/40.0.0 requests-toolbelt/0.8.0 tqdm/4.24.0 CPython/3.6.5
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | 1e76261d9dff1ebe1ee7cc1a6145dc36d83d4186a600fa488b181c51fe2f3c32 |
|
| MD5 | f4ba23b25e941f0ff45e3d94a11ed7c8 |
|
| BLAKE2b-256 | 0ede8901db54476bead5e72e8b1220332a2b99af656028120ce2ab9e0b7747c7 |
File details
Details for the file lahja-0.1.0a0-py3-none-any.whl.
File metadata
- Download URL: lahja-0.1.0a0-py3-none-any.whl
- Upload date:
- Size: 5.2 kB
- Tags: Python 3
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/1.11.0 pkginfo/1.4.2 requests/2.19.1 setuptools/40.0.0 requests-toolbelt/0.8.0 tqdm/4.24.0 CPython/3.6.5
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | 1560afbf5ba2a38232c10ed93fea6046fa339b899adfc8dc7debd3deea07a86d |
|
| MD5 | 4dc31e234361ea8c2944ca54f2f0fd85 |
|
| BLAKE2b-256 | 7a3ce546240c14e32b938d4fd4b7b227a9268e37673ab620e158e17631a35a4e |
