artiq/artiq/protocols/sync_struct.py

259 lines
9.1 KiB
Python

"""This module helps synchronizing a mutable Python structure owned and
modified by one process (the *publisher*) with copies of it (the
*subscribers*) in different processes and possibly different machines.
Synchronization is achieved by sending a full copy of the structure to each
subscriber upon connection (*initialization*), followed by dictionaries
describing each modification made to the structure (*mods*).
Structures must be PYON serializable and contain only lists, dicts, and
immutable types. Lists and dicts can be nested arbitrarily.
"""
import asyncio
from operator import getitem
from functools import partial
from artiq.monkey_patches import *
from artiq.protocols import pyon
from artiq.protocols.asyncio_server import AsyncioServer
_init_string = b"ARTIQ sync_struct\n"
def process_mod(target, mod):
"""Apply a *mod* to the target, mutating it."""
for key in mod["path"]:
target = getitem(target, key)
action = mod["action"]
if action == "append":
target.append(mod["x"])
elif action == "insert":
target.insert(mod["i"], mod["x"])
elif action == "pop":
target.pop(mod["i"])
elif action == "setitem":
target.__setitem__(mod["key"], mod["value"])
elif action == "delitem":
target.__delitem__(mod["key"])
else:
raise ValueError
class Subscriber:
"""An asyncio-based client to connect to a ``Publisher``.
:param notifier_name: Name of the notifier to subscribe to.
:param target_builder: A function called during initialization that takes
the object received from the publisher and returns the corresponding
local structure to use. Can be identity.
:param notify_cb: An optional function called every time a mod is received
from the publisher. The mod is passed as parameter. The function is
called after the mod has been processed.
A list of functions may also be used, and they will be called in turn.
:param disconnect_cb: An optional function called when disconnection happens
from external causes (i.e. not when ``close`` is called).
"""
def __init__(self, notifier_name, target_builder, notify_cb=None, disconnect_cb=None):
self.notifier_name = notifier_name
self.target_builder = target_builder
if notify_cb is None:
notify_cb = []
if not isinstance(notify_cb, list):
notify_cb = [notify_cb]
self.notify_cbs = notify_cb
self.disconnect_cb = disconnect_cb
async def connect(self, host, port, before_receive_cb=None):
self.reader, self.writer = \
await asyncio.open_connection(host, port, limit=100*1024*1024)
try:
if before_receive_cb is not None:
before_receive_cb()
self.writer.write(_init_string)
self.writer.write((self.notifier_name + "\n").encode())
self.receive_task = asyncio.ensure_future(self._receive_cr())
except:
self.writer.close()
del self.reader
del self.writer
raise
async def close(self):
self.disconnect_cb = None
try:
self.receive_task.cancel()
try:
await asyncio.wait_for(self.receive_task, None)
except asyncio.CancelledError:
pass
finally:
self.writer.close()
del self.reader
del self.writer
async def _receive_cr(self):
try:
target = None
while True:
line = await self.reader.readline()
if not line:
return
mod = pyon.decode(line.decode())
if mod["action"] == "init":
target = self.target_builder(mod["struct"])
else:
process_mod(target, mod)
for notify_cb in self.notify_cbs:
notify_cb(mod)
finally:
if self.disconnect_cb is not None:
self.disconnect_cb()
class Notifier:
"""Encapsulates a structure whose changes need to be published.
All mutations to the structure must be made through the ``Notifier``. The
original structure must only be accessed for reads.
In addition to the list methods below, the ``Notifier`` supports the index
syntax for modification and deletion of elements. Modification of nested
structures can be also done using the index syntax, for example:
>>> n = Notifier([])
>>> n.append([])
>>> n[0].append(42)
>>> n.read
[[42]]
This class does not perform any network I/O and is meant to be used with
e.g. the ``Publisher`` for this purpose. Only one publisher at most can be
associated with a ``Notifier``.
:param backing_struct: Structure to encapsulate. For convenience, it
also becomes available as the ``read`` property of the ``Notifier``.
"""
def __init__(self, backing_struct, root=None, path=[]):
self.read = backing_struct
if root is None:
self.root = self
self.publish = None
else:
self.root = root
self._backing_struct = backing_struct
self._path = path
# Backing struct modification methods.
# All modifications must go through them!
def append(self, x):
"""Append to a list."""
self._backing_struct.append(x)
if self.root.publish is not None:
self.root.publish({"action": "append",
"path": self._path,
"x": x})
def insert(self, i, x):
"""Insert an element into a list."""
self._backing_struct.insert(i, x)
if self.root.publish is not None:
self.root.publish({"action": "insert",
"path": self._path,
"i": i, "x": x})
def pop(self, i=-1):
"""Pop an element from a list. The returned element is not
encapsulated in a ``Notifier`` and its mutations are no longer
tracked."""
r = self._backing_struct.pop(i)
if self.root.publish is not None:
self.root.publish({"action": "pop",
"path": self._path,
"i": i})
return r
def __setitem__(self, key, value):
self._backing_struct.__setitem__(key, value)
if self.root.publish is not None:
self.root.publish({"action": "setitem",
"path": self._path,
"key": key,
"value": value})
def __delitem__(self, key):
self._backing_struct.__delitem__(key)
if self.root.publish is not None:
self.root.publish({"action": "delitem",
"path": self._path,
"key": key})
def __getitem__(self, key):
item = getitem(self._backing_struct, key)
return Notifier(item, self.root, self._path + [key])
class Publisher(AsyncioServer):
"""A network server that publish changes to structures encapsulated in
``Notifiers``.
:param notifiers: A dictionary containing the notifiers to associate with
the ``Publisher``. The keys of the dictionary are the names of the
notifiers to be used with ``Subscriber``.
"""
def __init__(self, notifiers):
AsyncioServer.__init__(self)
self.notifiers = notifiers
self._recipients = {k: set() for k in notifiers.keys()}
self._notifier_names = {id(v): k for k, v in notifiers.items()}
for notifier in notifiers.values():
notifier.publish = partial(self.publish, notifier)
async def _handle_connection_cr(self, reader, writer):
try:
line = await reader.readline()
if line != _init_string:
return
line = await reader.readline()
if not line:
return
notifier_name = line.decode()[:-1]
try:
notifier = self.notifiers[notifier_name]
except KeyError:
return
obj = {"action": "init", "struct": notifier.read}
line = pyon.encode(obj) + "\n"
writer.write(line.encode())
queue = asyncio.Queue()
self._recipients[notifier_name].add(queue)
try:
while True:
line = await queue.get()
writer.write(line)
# raise exception on connection error
await writer.drain()
finally:
self._recipients[notifier_name].remove(queue)
except (ConnectionResetError, ConnectionAbortedError, BrokenPipeError):
# subscribers disconnecting are a normal occurence
pass
finally:
writer.close()
def publish(self, notifier, mod):
line = pyon.encode(mod) + "\n"
line = line.encode()
notifier_name = self._notifier_names[id(notifier)]
for recipient in self._recipients[notifier_name]:
recipient.put_nowait(line)