Better documentation for the Redis server + LINT fixes.

1. Added documentation to the README on the possible options to run the
   Redis service.

2. Show a relevant message to the user if the application is run with
   `--start-redis` and Redis couldn't start.

3. Some LINT/black chores on some files that hadn't been touched in a
   while.
This commit is contained in:
Fabio Manganiello 2023-08-02 22:17:11 +02:00
parent 99018598a5
commit 53aeb0b3b1
Signed by: blacklight
GPG key ID: D90FBA7F76362774
5 changed files with 172 additions and 65 deletions

View file

@ -15,16 +15,19 @@ Platypush
- [Introduction](#introduction)
+ [What it can do](#what-it-can-do)
- [Installation](#installation)
* [System installation](#system-installation)
+ [Install through `pip`](#install-through-pip)
+ [Install through a system package manager](#install-through-a-system-package-manager)
+ [Install from sources](#install-from-sources)
* [Prerequisites](#prerequisites)
+ [Docker installation](#docker-installation)
+ [Use an external service](#use-an-external-service)
+ [Manual installation](#manual-installation)
* [Install through `pip`](#install-through-pip)
* [Install through a system package manager](#install-through-a-system-package-manager)
* [Install from sources](#install-from-sources)
* [Installing the dependencies for your extensions](#installing-the-dependencies-for-your-extensions)
+ [Install via `extras` name](#install-via-extras-name)
+ [Install via `manifest.yaml`](#install-via-manifestyaml)
+ [Check the instructions reported in the documentation](#check-the-instructions-reported-in-the-documentation)
* [Virtual environment installation](#virtual-environment-installation)
* [Docker installation](#docker-installation)
* [Docker installation](#docker-installation-1)
- [Architecture](#architecture)
* [Plugins](#plugins)
* [Actions](#actions)
@ -127,26 +130,82 @@ You can use Platypush to do things like:
## Installation
### System installation
### Prerequisites
Platypush uses Redis to deliver and store requests and temporary messages:
Platypush uses [Redis](https://redis.io/) to dispatch requests, responses,
events and custom messages across several processes and integrations.
#### Docker installation
You can run Redis on the fly on your local machine using a Docker image:
```bash
# Expose a Redis server on port 6379 (default)
docker run --rm -p 6379:6379 --name redis redis
```
#### Use an external service
You can let Platypush use an external Redis service, if you wish to avoid
running one on the same machine.
In such scenario, simply start the application by passing custom values for
`--redis-host` and `--redis-port`, or configure these values in its
configuration file:
```yaml
# Example for Debian-based distributions
[sudo] apt-get install redis-server
redis:
host: some-ip
port: some-port
```
If you wish to run multiple instances that use the same Redis server, you may
also want to customize the name of the default queue that they use
(`--redis-queue` command-line option) in order to avoid conflicts.
#### Manual installation
Unless you are running Platypush in a Docker container, or you are running
Redis in a Docker container, or you want to use a remote Redis service, the
Redis server should be installed on the same machine where Platypush runs:
```bash
# On Debian-based distributions
sudo apt install redis-server
# On Arch-based distributions
# The hiredis package is also advised
sudo pacman -S redis
# On MacOS
brew install redis
```
Once Redis is installed, you have two options:
1. Run it a separate service. This depends on your operating system and
supervisor/service controller. For example, on systemd:
```bash
# Enable and start the service
[sudo] systemctl enable redis
[sudo] systemctl start redis
sudo systemctl enable redis
sudo systemctl start redis
```
#### Install through `pip`
2. Let Platypush run and control the Redis service. This is a good option if
you want Platypush to run its own service, separate from any other one
running on the same machine, and terminate it as soon as the application
ends. In this case, simply launch the application with the `--start-redis`
option (and optionally `--redis-port <any-num>` to customize the listen
port).
```shell
[sudo] pip3 install platypush
### Install through `pip`
```bash
[sudo] pip install platypush
```
#### Install through a system package manager
### Install through a system package manager
Note: currently only Arch Linux and derived distributions are supported.
@ -157,7 +216,7 @@ latest stable version) or the
(for the latest git version) through your favourite AUR package manager. For
example, using `yay`:
```shell
```bash
yay platypush
# Or
yay platypush-git
@ -166,14 +225,12 @@ yay platypush-git
The Arch Linux packages on AUR are automatically updated upon new git commits
or tags.
#### Install from sources
### Install from sources
```shell
git clone https://git.platypush.tech/platypush/platypush.git
cd platypush
[sudo] pip install .
# Or
[sudo] python3 setup.py install
```
### Installing the dependencies for your extensions
@ -227,6 +284,8 @@ You can then start the service by simply running:
platypush
```
See `platypush --help` for a full list of options.
It's advised to run it as a systemd service though - simply copy the provided
[`.service`
file](https://git.platypush.tech/platypush/platypush/src/branch/master/examples/systemd/platypush.service)

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@ -153,16 +153,27 @@ class Application:
port = self._redis_conf['port']
log.info('Starting local Redis instance on %s', port)
self._redis_proc = subprocess.Popen( # pylint: disable=consider-using-with
[
redis_cmd_args = [
'redis-server',
'--bind',
'localhost',
'--port',
str(port),
],
]
try:
self._redis_proc = subprocess.Popen( # pylint: disable=consider-using-with
redis_cmd_args,
stdout=subprocess.PIPE,
)
except Exception as e:
log.error(
'Failed to start local Redis instance: "%s": %s',
' '.join(redis_cmd_args),
e,
)
sys.exit(1)
log.info('Waiting for Redis to start')
for line in self._redis_proc.stdout: # type: ignore

View file

@ -10,8 +10,10 @@ from platypush.message.event import Event
logger = logging.getLogger('platypush:bus')
class Bus(object):
""" Main local bus where the daemon will listen for new messages """
class Bus:
"""
Main local bus where the daemon will listen for new messages.
"""
_MSG_EXPIRY_TIMEOUT = 60.0 # Consider a message on the bus as expired after one minute without being picked up
@ -31,31 +33,37 @@ class Bus(object):
try:
return self.bus.get(timeout=0.1)
except Empty:
return
return None
def stop(self):
self._should_stop.set()
def _msg_executor(self, msg):
def event_handler(event: Event, handler: Callable[[Event], None]):
logger.info('Triggering event handler {}'.format(handler.__name__))
logger.info('Triggering event handler %s', handler.__name__)
handler(event)
def executor():
if isinstance(msg, Event):
if type(msg) in self.event_handlers:
handlers = self.event_handlers[type(msg)]
else:
handlers = {*[hndl for event_type, hndl in self.event_handlers.items()
if isinstance(msg, event_type)]}
handlers = self.event_handlers.get(
type(msg),
{
*[
hndl
for event_type, hndl in self.event_handlers.items()
if isinstance(msg, event_type)
]
},
)
for hndl in handlers:
threading.Thread(target=event_handler, args=(msg, hndl))
try:
if self.on_message:
self.on_message(msg)
except Exception as e:
logger.error('Error on processing message {}'.format(msg))
logger.error('Error on processing message %s', msg)
logger.exception(e)
return executor
@ -76,17 +84,24 @@ class Bus(object):
if msg is None:
continue
timestamp = msg.timestamp if hasattr(msg, 'timestamp') else msg.get('timestamp')
timestamp = (
msg.timestamp if hasattr(msg, 'timestamp') else msg.get('timestamp')
)
if timestamp and time.time() - timestamp > self._MSG_EXPIRY_TIMEOUT:
logger.debug('{} seconds old message on the bus expired, ignoring it: {}'.
format(int(time.time()-msg.timestamp), msg))
logger.debug(
'%f seconds old message on the bus expired, ignoring it: %s',
time.time() - msg.timestamp,
msg,
)
continue
threading.Thread(target=self._msg_executor(msg)).start()
logger.info('Bus service stopped')
def register_handler(self, event_type: Type[Event], handler: Callable[[Event], None]) -> Callable[[], None]:
def register_handler(
self, event_type: Type[Event], handler: Callable[[Event], None]
) -> Callable[[], None]:
"""
Register an event handler to the bus.
@ -104,7 +119,9 @@ class Bus(object):
return unregister
def unregister_handler(self, event_type: Type[Event], handler: Callable[[Event], None]) -> None:
def unregister_handler(
self, event_type: Type[Event], handler: Callable[[Event], None]
) -> None:
"""
Remove an event handler.

View file

@ -1,6 +1,7 @@
import inspect
import logging
import os
from typing import Any, Callable
from platypush.utils.manifest import Manifest
@ -9,7 +10,11 @@ from ._types import StoppableThread
logger = logging.getLogger('platypush')
def exec_wrapper(f, *args, **kwargs):
def exec_wrapper(f: Callable[..., Any], *args, **kwargs):
"""
Utility function that runs a callable with its arguments, wraps its
response into a ``Response`` object and handles errors/exceptions.
"""
from platypush import Response
try:
@ -23,7 +28,13 @@ def exec_wrapper(f, *args, **kwargs):
return Response(errors=[str(e)])
# pylint: disable=too-few-public-methods
class ExtensionWithManifest:
"""
This class models an extension with an associated manifest.yaml in the same
folder.
"""
def __init__(self, *_, **__):
self._manifest = self.get_manifest()
@ -33,9 +44,7 @@ class ExtensionWithManifest:
)
assert os.path.isfile(
manifest_file
), 'The extension {} has no associated manifest.yaml'.format(
self.__class__.__name__
)
), f'The extension {self.__class__.__name__} has no associated manifest.yaml'
return Manifest.from_file(manifest_file)

View file

@ -3,18 +3,22 @@ import threading
from typing import Optional
# noinspection PyPackageRequirements
import gi
gi.require_version('Gst', '1.0')
gi.require_version('GstApp', '1.0')
# noinspection PyPackageRequirements,PyUnresolvedReferences
# flake8: noqa
from gi.repository import GLib, Gst, GstApp
Gst.init(None)
class Pipeline:
"""
A GStreamer pipeline.
"""
def __init__(self):
self.logger = logging.getLogger('gst-pipeline')
self.pipeline = Gst.Pipeline()
@ -66,6 +70,7 @@ class Pipeline:
def play(self):
self.pipeline.set_state(Gst.State.PLAYING)
assert self.loop, 'No GLib loop is running'
self.loop.start()
def pause(self):
@ -92,7 +97,7 @@ class Pipeline:
def on_buffer(self, sink):
sample = GstApp.AppSink.pull_sample(sink)
buffer = sample.get_buffer()
size, offset, maxsize = buffer.get_sizes()
size, offset, _ = buffer.get_sizes()
self.data = buffer.extract_dup(offset, size)
self.data_ready.set()
return False
@ -101,9 +106,8 @@ class Pipeline:
self.logger.info('End of stream event received')
self.stop()
# noinspection PyUnusedLocal
def on_error(self, bus, msg):
self.logger.warning('GStreamer pipeline error: {}'.format(msg.parse_error()))
def on_error(self, _, msg):
self.logger.warning('GStreamer pipeline error: %s', msg.parse_error())
self.stop()
def get_source(self):
@ -113,12 +117,11 @@ class Pipeline:
return self.sink
def get_state(self) -> Gst.State:
state = self.source.current_state
if not state:
if not (self.source and self.source.current_state):
self.logger.warning('Unable to get pipeline state')
return Gst.State.NULL
return state
return self.source.current_state
def is_playing(self) -> bool:
return self.get_state() == Gst.State.PLAYING
@ -127,6 +130,10 @@ class Pipeline:
return self.get_state() == Gst.State.PAUSED
def get_position(self) -> Optional[float]:
if not self.source:
self.logger.warning('Unable to get pipeline state')
return Gst.State.NULL
pos = self.source.query_position(Gst.Format(Gst.Format.TIME))
if not pos[0]:
return None
@ -134,6 +141,7 @@ class Pipeline:
return pos[1] / 1e9
def get_duration(self) -> Optional[float]:
assert self.source, 'No active source found'
pos = self.source.query_duration(Gst.Format(Gst.Format.TIME))
if not pos[0]:
return None
@ -157,9 +165,7 @@ class Pipeline:
def seek(self, position: float):
assert self.source, 'No source specified'
if position < 0:
position = 0
position = max(0, position)
duration = self.get_duration()
if duration and position > duration:
position = duration
@ -169,11 +175,16 @@ class Pipeline:
class Loop(threading.Thread):
"""
Wraps the execution of a GLib main loop into its own thread.
"""
def __init__(self):
super().__init__()
self._loop = GLib.MainLoop()
def run(self):
assert self._loop, 'No GLib loop is running'
self._loop.run()
def is_running(self) -> bool: