tractor/tractor/_portal.py

639 lines
20 KiB
Python

# tractor: structured concurrent "actors".
# Copyright 2018-eternity Tyler Goodlet.
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
'''
Memory boundary "Portals": an API for structured
concurrency linked tasks running in disparate memory domains.
'''
from __future__ import annotations
import importlib
import inspect
from typing import (
Any, Optional,
Callable, AsyncGenerator,
Type,
)
from functools import partial
from dataclasses import dataclass
from pprint import pformat
import warnings
import trio
from async_generator import asynccontextmanager
from ._state import current_actor
from ._ipc import Channel
from .log import get_logger
from .msg import NamespacePath
from ._exceptions import (
unpack_error,
NoResult,
ContextCancelled,
)
from ._streaming import Context, ReceiveMsgStream
log = get_logger(__name__)
@asynccontextmanager
async def maybe_open_nursery(
nursery: trio.Nursery = None,
shield: bool = False,
) -> AsyncGenerator[trio.Nursery, Any]:
'''
Create a new nursery if None provided.
Blocks on exit as expected if no input nursery is provided.
'''
if nursery is not None:
yield nursery
else:
async with trio.open_nursery() as nursery:
nursery.cancel_scope.shield = shield
yield nursery
def _unwrap_msg(
msg: dict[str, Any],
channel: Channel
) -> Any:
try:
return msg['return']
except KeyError:
# internal error should never get here
assert msg.get('cid'), "Received internal error at portal?"
raise unpack_error(msg, channel)
class MessagingError(Exception):
'Some kind of unexpected SC messaging dialog issue'
class Portal:
'''
A 'portal' to a(n) (remote) ``Actor``.
A portal is "opened" (and eventually closed) by one side of an
inter-actor communication context. The side which opens the portal
is equivalent to a "caller" in function parlance and usually is
either the called actor's parent (in process tree hierarchy terms)
or a client interested in scheduling work to be done remotely in a
far process.
The portal api allows the "caller" actor to invoke remote routines
and receive results through an underlying ``tractor.Channel`` as
though the remote (async) function / generator was called locally.
It may be thought of loosely as an RPC api where native Python
function calling semantics are supported transparently; hence it is
like having a "portal" between the seperate actor memory spaces.
'''
# the timeout for a remote cancel request sent to
# a(n) (peer) actor.
cancel_timeout = 0.5
def __init__(self, channel: Channel) -> None:
self.channel = channel
# during the portal's lifetime
self._result_msg: Optional[dict] = None
# When set to a ``Context`` (when _submit_for_result is called)
# it is expected that ``result()`` will be awaited at some
# point.
self._expect_result: Optional[Context] = None
self._streams: set[ReceiveMsgStream] = set()
self.actor = current_actor()
async def _submit_for_result(
self,
ns: str,
func: str,
**kwargs
) -> None:
assert self._expect_result is None, \
"A pending main result has already been submitted"
self._expect_result = await self.actor.start_remote_task(
self.channel,
ns,
func,
kwargs
)
async def _return_once(
self,
ctx: Context,
) -> dict[str, Any]:
assert ctx._remote_func_type == 'asyncfunc' # single response
msg = await ctx._recv_chan.receive()
return msg
async def result(self) -> Any:
'''
Return the result(s) from the remote actor's "main" task.
'''
# Check for non-rpc errors slapped on the
# channel for which we always raise
exc = self.channel._exc
if exc:
raise exc
# not expecting a "main" result
if self._expect_result is None:
log.warning(
f"Portal for {self.channel.uid} not expecting a final"
" result?\nresult() should only be called if subactor"
" was spawned with `ActorNursery.run_in_actor()`")
return NoResult
# expecting a "main" result
assert self._expect_result
if self._result_msg is None:
self._result_msg = await self._return_once(
self._expect_result
)
return _unwrap_msg(self._result_msg, self.channel)
async def _cancel_streams(self):
# terminate all locally running async generator
# IPC calls
if self._streams:
log.cancel(
f"Cancelling all streams with {self.channel.uid}")
for stream in self._streams.copy():
try:
await stream.aclose()
except trio.ClosedResourceError:
# don't error the stream having already been closed
# (unless of course at some point down the road we
# won't expect this to always be the case or need to
# detect it for respawning purposes?)
log.debug(f"{stream} was already closed.")
async def aclose(self):
log.debug(f"Closing {self}")
# TODO: once we move to implementing our own `ReceiveChannel`
# (including remote task cancellation inside its `.aclose()`)
# we'll need to .aclose all those channels here
await self._cancel_streams()
async def cancel_actor(
self,
timeout: float = None,
) -> bool:
'''
Cancel the actor on the other end of this portal.
'''
if not self.channel.connected():
log.cancel("This channel is already closed can't cancel")
return False
log.cancel(
f"Sending actor cancel request to {self.channel.uid} on "
f"{self.channel}")
self.channel._cancel_called = True
try:
# send cancel cmd - might not get response
# XXX: sure would be nice to make this work with a proper shield
with trio.move_on_after(timeout or self.cancel_timeout) as cs:
cs.shield = True
await self.run_from_ns('self', 'cancel')
return True
if cs.cancelled_caught:
log.cancel(f"May have failed to cancel {self.channel.uid}")
# if we get here some weird cancellation case happened
return False
except (
trio.ClosedResourceError,
trio.BrokenResourceError,
):
log.cancel(
f"{self.channel} for {self.channel.uid} was already "
"closed or broken?")
return False
async def run_from_ns(
self,
namespace_path: str,
function_name: str,
**kwargs,
) -> Any:
'''
Run a function from a (remote) namespace in a new task on the
far-end actor.
This is a more explitcit way to run tasks in a remote-process
actor using explicit object-path syntax. Hint: this is how
`.run()` works underneath.
Note::
A special namespace `self` can be used to invoke `Actor`
instance methods in the remote runtime. Currently this
should only be used solely for ``tractor`` runtime
internals.
'''
ctx = await self.actor.start_remote_task(
self.channel,
namespace_path,
function_name,
kwargs,
)
ctx._portal = self
msg = await self._return_once(ctx)
return _unwrap_msg(msg, self.channel)
async def run(
self,
func: str,
fn_name: Optional[str] = None,
**kwargs
) -> Any:
'''
Submit a remote function to be scheduled and run by actor, in
a new task, wrap and return its (stream of) result(s).
This is a blocking call and returns either a value from the
remote rpc task or a local async generator instance.
'''
if isinstance(func, str):
warnings.warn(
"`Portal.run(namespace: str, funcname: str)` is now"
"deprecated, pass a function reference directly instead\n"
"If you still want to run a remote function by name use"
"`Portal.run_from_ns()`",
DeprecationWarning,
stacklevel=2,
)
fn_mod_path = func
assert isinstance(fn_name, str)
else: # function reference was passed directly
if (
not inspect.iscoroutinefunction(func) or
(
inspect.iscoroutinefunction(func) and
getattr(func, '_tractor_stream_function', False)
)
):
raise TypeError(
f'{func} must be a non-streaming async function!')
fn_mod_path, fn_name = NamespacePath.from_ref(func).to_tuple()
ctx = await self.actor.start_remote_task(
self.channel,
fn_mod_path,
fn_name,
kwargs,
)
ctx._portal = self
return _unwrap_msg(
await self._return_once(ctx),
self.channel,
)
@asynccontextmanager
async def open_stream_from(
self,
async_gen_func: Callable, # typing: ignore
**kwargs,
) -> AsyncGenerator[ReceiveMsgStream, None]:
if not inspect.isasyncgenfunction(async_gen_func):
if not (
inspect.iscoroutinefunction(async_gen_func) and
getattr(async_gen_func, '_tractor_stream_function', False)
):
raise TypeError(
f'{async_gen_func} must be an async generator function!')
fn_mod_path, fn_name = NamespacePath.from_ref(
async_gen_func).to_tuple()
ctx = await self.actor.start_remote_task(
self.channel,
fn_mod_path,
fn_name,
kwargs
)
ctx._portal = self
# ensure receive-only stream entrypoint
assert ctx._remote_func_type == 'asyncgen'
try:
# deliver receive only stream
async with ReceiveMsgStream(
ctx, ctx._recv_chan,
) as rchan:
self._streams.add(rchan)
yield rchan
finally:
# cancel the far end task on consumer close
# NOTE: this is a special case since we assume that if using
# this ``.open_fream_from()`` api, the stream is one a one
# time use and we couple the far end tasks's lifetime to
# the consumer's scope; we don't ever send a `'stop'`
# message right now since there shouldn't be a reason to
# stop and restart the stream, right?
try:
with trio.CancelScope(shield=True):
await ctx.cancel()
except trio.ClosedResourceError:
# if the far end terminates before we send a cancel the
# underlying transport-channel may already be closed.
log.cancel(f'Context {ctx} was already closed?')
# XXX: should this always be done?
# await recv_chan.aclose()
self._streams.remove(rchan)
@asynccontextmanager
async def open_context(
self,
func: Callable,
**kwargs,
) -> AsyncGenerator[tuple[Context, Any], None]:
'''
Open an inter-actor task context.
This is a synchronous API which allows for deterministic
setup/teardown of a remote task. The yielded ``Context`` further
allows for opening bidirectional streams, explicit cancellation
and synchronized final result collection. See ``tractor.Context``.
'''
# conduct target func method structural checks
if not inspect.iscoroutinefunction(func) and (
getattr(func, '_tractor_contex_function', False)
):
raise TypeError(
f'{func} must be an async generator function!')
fn_mod_path, fn_name = NamespacePath.from_ref(func).to_tuple()
ctx = await self.actor.start_remote_task(
self.channel,
fn_mod_path,
fn_name,
kwargs
)
assert ctx._remote_func_type == 'context'
msg = await ctx._recv_chan.receive()
try:
# the "first" value here is delivered by the callee's
# ``Context.started()`` call.
first = msg['started']
ctx._started_called = True
except KeyError:
assert msg.get('cid'), ("Received internal error at context?")
if msg.get('error'):
# raise kerr from unpack_error(msg, self.channel)
raise unpack_error(msg, self.channel) from None
else:
raise MessagingError(
f'Context for {ctx.cid} was expecting a `started` message'
f' but received a non-error msg:\n{pformat(msg)}'
)
_err: Optional[BaseException] = None
ctx._portal = self
uid = self.channel.uid
cid = ctx.cid
etype: Optional[Type[BaseException]] = None
# deliver context instance and .started() msg value in open tuple.
try:
async with trio.open_nursery() as scope_nursery:
ctx._scope_nursery = scope_nursery
# do we need this?
# await trio.lowlevel.checkpoint()
yield ctx, first
except ContextCancelled as err:
_err = err
if not ctx._cancel_called:
# context was cancelled at the far end but was
# not part of this end requesting that cancel
# so raise for the local task to respond and handle.
raise
# if the context was cancelled by client code
# then we don't need to raise since user code
# is expecting this and the block should exit.
else:
log.debug(f'Context {ctx} cancelled gracefully')
except (
BaseException,
# more specifically, we need to handle these but not
# sure it's worth being pedantic:
# Exception,
# trio.Cancelled,
# trio.MultiError,
# KeyboardInterrupt,
) as err:
etype = type(err)
# the context cancels itself on any cancel
# causing error.
if ctx.chan.connected():
log.cancel(
'Context cancelled for task, sending cancel request..\n'
f'task:{cid}\n'
f'actor:{uid}'
)
await ctx.cancel()
else:
log.warning(
'IPC connection for context is broken?\n'
f'task:{cid}\n'
f'actor:{uid}'
)
raise
finally:
# in the case where a runtime nursery (due to internal bug)
# or a remote actor transmits an error we want to be
# sure we get the error the underlying feeder mem chan.
# if it's not raised here it *should* be raised from the
# msg loop nursery right?
if ctx.chan.connected():
log.info(
'Waiting on final context-task result for\n'
f'task: {cid}\n'
f'actor: {uid}'
)
result = await ctx.result()
# though it should be impossible for any tasks
# operating *in* this scope to have survived
# we tear down the runtime feeder chan last
# to avoid premature stream clobbers.
if ctx._recv_chan is not None:
# should we encapsulate this in the context api?
await ctx._recv_chan.aclose()
if etype:
if ctx._cancel_called:
log.cancel(
f'Context {fn_name} cancelled by caller with\n{etype}'
)
elif _err is not None:
log.cancel(
f'Context for task cancelled by callee with {etype}\n'
f'target: `{fn_name}`\n'
f'task:{cid}\n'
f'actor:{uid}'
)
else:
log.runtime(
f'Context {fn_name} returned '
f'value from callee `{result}`'
)
# XXX: (MEGA IMPORTANT) if this is a root opened process we
# wait for any immediate child in debug before popping the
# context from the runtime msg loop otherwise inside
# ``Actor._push_result()`` the msg will be discarded and in
# the case where that msg is global debugger unlock (via
# a "stop" msg for a stream), this can result in a deadlock
# where the root is waiting on the lock to clear but the
# child has already cleared it and clobbered IPC.
from ._debug import maybe_wait_for_debugger
await maybe_wait_for_debugger()
# remove the context from runtime tracking
self.actor._contexts.pop((self.channel.uid, ctx.cid))
@dataclass
class LocalPortal:
'''
A 'portal' to a local ``Actor``.
A compatibility shim for normal portals but for invoking functions
using an in process actor instance.
'''
actor: 'Actor' # type: ignore # noqa
channel: Channel
async def run_from_ns(self, ns: str, func_name: str, **kwargs) -> Any:
'''
Run a requested local function from a namespace path and
return it's result.
'''
obj = self.actor if ns == 'self' else importlib.import_module(ns)
func = getattr(obj, func_name)
return await func(**kwargs)
@asynccontextmanager
async def open_portal(
channel: Channel,
nursery: Optional[trio.Nursery] = None,
start_msg_loop: bool = True,
shield: bool = False,
) -> AsyncGenerator[Portal, None]:
'''
Open a ``Portal`` through the provided ``channel``.
Spawns a background task to handle message processing (normally
done by the actor-runtime implicitly).
'''
actor = current_actor()
assert actor
was_connected = False
async with maybe_open_nursery(nursery, shield=shield) as nursery:
if not channel.connected():
await channel.connect()
was_connected = True
if channel.uid is None:
await actor._do_handshake(channel)
msg_loop_cs: Optional[trio.CancelScope] = None
if start_msg_loop:
msg_loop_cs = await nursery.start(
partial(
actor._process_messages,
channel,
# if the local task is cancelled we want to keep
# the msg loop running until our block ends
shield=True,
)
)
portal = Portal(channel)
try:
yield portal
finally:
await portal.aclose()
if was_connected:
# gracefully signal remote channel-msg loop
await channel.send(None)
# await channel.aclose()
# cancel background msg loop task
if msg_loop_cs:
msg_loop_cs.cancel()
nursery.cancel_scope.cancel()