Set `trio-run-in-process` as the default on *nix systems and
`multiprocessing`'s spawn method on Windows. Enable overriding the
default choice using `tractor._spawn.try_set_start_method()`. Allows
for easy runs of the test suite using a user chosen backend.
This took a ton of tinkering and a rework of the actor nursery tear down
logic. The main changes include:
- each subprocess is now spawned from inside a trio task
from one of two containing nurseries created in the body of
`tractor.open_nursery()`: one for `run_in_actor()` processes and one for
`start_actor()` "daemons". This is to address the need for
`trio-run-in_process.open_in_process()` opening a nursery which must
be closed from the same task that opened it. Using this same approach
for `multiprocessing` seems to work well. The nurseries are waited in
order (rip actors then daemon actors) during tear down which allows
for avoiding the recursive re-entry of `ActorNursery.wait()` handled
prior.
- pull out all the nested functions / closures that were in
`ActorNursery.wait()` and move into the `_spawn` module such that
that process shutdown logic takes place in each containing task's
code path. This allows for vastly simplifying `.wait()` to just contain an
event trigger which initiates process waiting / result collection.
Likely `.wait()` should just be removed since it can no longer be used
to synchronously wait on the actor nursery.
- drop `ActorNursery.__aenter__()` / `.__atexit__()` and move this
"supervisor" tear down logic into the closing block of `open_nursery()`.
This not only cleans makes the code more comprehensible it also
makes our nursery implementation look more like the one in `trio`.
Resolves#93
Get a few more things working:
- fail reliably when remote module loading goes awry
- do a real hacky job of module loading using `sys.path` stuffsies
- we're still totally borked when trying to spin up and quickly cancel
a bunch of subactors...
It's a small move forward I guess.
Prepend the actor and task names in each log emission. This makes
debugging much more sane since you can see from which process and
running task the log message originates from!
Resolves#13
If a nursery fails to cancel (some sub-actors presumably) then hard kill
the whole process tree to avoid hangs during a catastrophic failure.
This logic may get factored out (and changed) as we introduce custom
supervisor strategies.
`trio.MultiError` isn't an `Exception` (derived instead from
`BaseException`) so we have to specially catch it in the task
invocation machinery and ship it upwards (like regular errors)
since nurseries running in sub-actors can raise them.
Add `@tractor.stream` which must be used to denote non async generator
streaming functions which use the `tractor.Context` API to push values.
This enforces a more explicit denotation as well as allows enforcing the
declaration of the `ctx` argument in definitions.
This begins moving toward explicitly decorated "streaming functions"
instead of checking for a `ctx` arg in the signature.
- provide each context with its task's top level `trio.CancelScope`
such that tasks can cancel themselves explictly if needed via calling
`Context.cancel_scope()`
- make `Actor.cancel_task()` a private method (`_cancel_task()`) and
handle remote rpc calls specially such that the caller does not need
to provide the `chan` argument; non-primitive types can't be passed on
the wire and we don't want the client actor be require knowledge of
the channel instance the request is associated with. This also ties into
how we're tracking tasks right now (`Actor._rpc_tasks` is keyed by the
call id, a UUID, *plus* the channel).
- make `_do_handshake` a private actor method
- use UUID version 4
Add full support for using the "spawn" process starting method as per:
https://docs.python.org/3/library/multiprocessing.html#contexts-and-start-methods
Add a `spawn_method` argument to `tractor.run()` for specifying the
desired method explicitly. By default use the "fastest" method available.
On *nix systems this is the original "forkserver" method.
This should be the solution to getting windows support!
Resolves#60
As mentioned in prior commits there's currently a bug in Python that
make async gens **not** task safe. Since this is the core cause of almost
all recent problems, instead implement our own async iterator derivative of
`trio.abc.ReceiveChannel` by wrapping a `trio._channel.MemoryReceiveChannel`.
This fits more natively with the memory channel API in ``trio`` and adds
potentially more flexibility for possible bidirectional inter-actor streaming
in the future.
Huge thanks to @oremanj and of course @njsmith for guidance on this one!
For now stop `.aclose()`-ing all async gens on portal close since it can
cause hangs and other weird behaviour if another task operates on the
same instance.
See https://bugs.python.org/issue32526.
Use an inner function / closure to properly process required arguments
at call time as is recommended in the `wrap` docs. Do async gen and
arg introspection at decorate time and raise appropriate type errors.
Turns out you get a bad situation if the target actor who's task you're
trying to cancel has already died (eg. from an external
`KeyboardInterrupt` or other error) and so we need to eventually bail on
the RPC request. Also don't bother closing the channel created in
`open_portal()` manually since the cancel scope should take care of all
that.
- when calling the async gen func provided by the user wrap it in
`@async_generator.aclosing` to ensure correct teardown at cancel time
- expect the gen to yield a dict with topic keys and data values
- add a `packetizer` function argument to the api allowing a user
to format the data to be published in whatever way desired
- support using the decorator without the parentheses (using default
arguments)
- use a `wrapt` "adapter" to override the signature presented to the
`_actor._invoke` inspection machinery
- handle the default case where `tasks` isn't provided; allow only one
concurrent publisher task
- store task locks in an actor local variable
- add a comprehensive doc string
Use the new `Actor.cancel_task()` api to remotely cancel streaming
tasks spawned by a portal. This guarantees that if an actor is
cancelled all its (remote) portal spawned tasks will be as well.
On portal teardown only cancel all async
generator calls (though we should cancel all RPC requests in general
eventually) and don't close the channel since it may have been passed
in from some other context that wishes to keep it connected. In
`open_portal()` run the message loop shielded so that if the local
task is cancelled, messaging will continue until the internal scope
is cancelled at end of block.
Enable cancelling specific tasks from a peer actor such that when
a actor task or the actor itself is cancelled, remotely spawned tasks
can also be cancelled. In much that same way that you'd expect a node
(task) in the `trio` task tree to cancel any subtasks, actors should
be able to cancel any tasks they spawn in separate processes.
To enable this:
- track rpc tasks in a flat dict keyed by (chan, cid)
- store a `is_complete` event to enable waiting on specific
tasks to complete
- allow for shielding the msg loop inside an internal cancel scope
if requested by the caller; there was an issue with `open_portal()`
where the channel would be torn down because the current task was
cancelled but we still need messaging to continue until the portal
block is exited
- throw an error if the arbiter tries to find itself for now
Add a draft pub-sub API `@tractor.msg.pub` which allows
for decorating an asyn generator which can stream topic keyed
dictionaries for delivery to multiple calling / consuming tasks.
Instead of chan/cid, whenever a remote function defines a `ctx` argument
name deliver a `Context` instance to the function. This allows remote
funcs to provide async generator like streaming replies (and maybe more
later).
Additionally,
- load actor modules *after* establishing a connection to the spawning
parent to avoid crashing before the error can be reported upwards
- fix a bug to do with unpacking and raising local internal actor errors
from received messages
RPC module/function lookups should not cause the target actor to crash.
This change instead ships the error back to the calling actor allowing
for the remote actor to continue running depending on the caller's
error handling logic. Adds a new `ModuleNotExposed` error to accommodate.
I'm not sure how this ever worked but when a "fake" async gen
(i.e. function with special `chan`, `cid` kwargs) is completed
we need to signal the end of the stream just like with normal
async gens. Also don't fail when trying to remove tasks that were
never tracked.
Fixes#46
At the expense of a bit more complexity in `ActorNursery.wait()`
(which I commented the heck out of fwiw) this adds far superior and
correct cancellation semantics for when a nursery is cancelled due
to (remote) errors in subactors.
This includes:
- `wait()` will now raise a `trio.MultiError` if multiple subactors
error with the same semantics as in `trio`.
- in `wait()` portals which are paired with `run_in_actor()`
spawned subactors (versus `start_actor()`) are waited on separately
and if the nursery **hasn't** been cancelled but there are errors
those are raised immediately before waiting on `start_actor()`
subactors which will block indefinitely if they haven't been
explicitly cancelled.
- if `wait()` does raise when the nursery hasn't yet been cancelled
it's expected that it will be called again depending on the actor
supervision strategy (i.e. right now we operate with a one-cancels-all
strategy, the same as `trio`, so `ActorNursery.__aexit__() calls
`cancel()` if any error is raised by `wait()`).
Oh and I added `is_main_process()` helper; can't remember why..
Use the new custom error types throughout the actor and portal
primitives and set a few new rules:
- internal errors are any error not raised by an rpc task and are
**not** forwarded to portals but instead are raised directly in
the msg loop.
- portals always re-raise a "main task" error for every call to
``Portal.result()``.
When an actor has already been registered with the arbiter it should
exist in the registry and thus the wait event should have been removed.
Check that the registry indeed holds an event before clearing it.
This is purely for documentation purposes for now as it should be
obvious a bunch of the signatures aren't using the correct "generics"
syntax (i.e. the use of `(str, int)` instead of `typing.Tuple[str, int])`)
in a bunch of places. We're also not using a type checker yet and besides,
`trio` doesn't really expose a lot of its internal types very well.
2SQASH
Something changed in 3.7 (likely to do with changes to the core
import system) that requires explicitly importing our version
of `forkserver.main()` in order to guarantee the server runs our
module code. Override `forkserver.ensure_running()`; specifically,
modify the python launch command.
This ensures that internal errors received from a remote actor are
indeed raised even in the `MainProcess` **before** comms tasks are
cancelled. Internal error in this case means any error packet received
on a channel that doesn't have a `cid` header. RPC errors (which **do**
have a `cid` header) are still forwarded to the consuming caller as usual.
If an internal error is bubbled up from some sub-actor throw that error
into the `MainProcess` "main" async function / coro in order to trigger
nursery teardowns (i.e. cancellations) that need to be done.
I'll likely change this shortly back to where we run a "main task"
inside `actor._async_main()`...
Allows for waiting on another actor (by name) to register with the
arbiter. This makes synchronized actor spawning and consecutive task
coordination easier to accomplish from within sub-actors.
Resolves#31
This allows for registering more then one actor with the same "name"
when you have multiple actors fulfilling the same role. Eventually
we'll need support for looking up all actors registered under a given
"service name" (or whatever we decide to call it).
Also, a fix to the arbiter such that each new instance refers to a
separate `_registry` dict (found an issue with duplicate names during
testing).
Resolves#7
Start a forkserver once in the main (parent-most) process
and pass ipc info (fds) to subprocesses manually such that embedded
calls to `multiprocessing.Process.start()` just work. Note that this
relies on our overridden version of the stdlib's
`multiprocessing.forkserver` module.
Resolves#6
The stdlib insists on creating multiple forkservers and semaphore trackers
for each sub-sub-process launched. This isn't ideal since it costs each
`tractor` sub-actor an additional 2 more processes then necessary and is
confusing when viewed as a process tree (eg. via `pstree`).
The majority of the change is simply avoiding the call to
`forkserver.ensure_running()` and `semaphore_tracker.ensure_running()`
in `ForkServer.connect_new_process()` and instead treating the user like
an adult and expecting those calls to be made *once* in the parent most
process (i.e. what `multiprocessing` calls the `MainProcess`).
Really a proper patch should be made against cpython which allows for
similar manual management of the server along with a mechanism to communicate
forkserver and semaphore tracker fd info to sub-processes such that
further calls to `Process.start()` work as expected.
Relates to #6
Stop worrying about a "main task" in each actor and instead add an
additional `ActorNursery.run_in_actor()` method which wraps calls
to create an actor and run a lone RPC task inside it. Note this
adjusts the public API of `ActorNursery.start_actor()` to drop
its `main` kwarg.
The dirty deats of making this possible:
- each spawned RPC task is now tracked with a specific cancel scope such
that when the actor is cancelled all ongoing responders are cancelled
before any IPC/channel machinery is closed (turns out that spawning
new actors from `outlive_main=True` actors was probably borked before
finally getting this working).
- make each initial RPC response be a packet which describes the
`functype` (eg. `{'functype': 'asyncfunction'}`) allowing for async
calls/submissions by client actors (this was required to make
`run_in_actor()` work - `Portal._submit()` is the new async method).
- hooray we can stop faking "main task" results for daemon actors
- add better handling/raising of internal errors caught in the bowels of
the `Actor` itself.
- drop the rpc spawning nursery; just use the `Actor._root_nursery`
- only wait on `_no_more_peers` if there are existing peer channels that
are actually still connected.
- an `ActorNursery.__aexit__()` now implicitly waits on `Portal.result()` on close
for each `run_in_actor()` spawned actor.
- handle cancelling partial started actors which haven't yet connected
back to the parent
Resolves#24
Take @njsmith's advice and properly close actor invoked async generators
using `async_generator.aclosing()` instead of hacking it (as previous)
with a shielded cancel scope.
Cancellation requires that each actor cancel it's spawned subactors
before cancelling its own root (nursery's) cancel scope to avoid breaking
channel connections before kill commands (`Actor.cancel()`) have been sent
off to peers. To solve this, ensure each main task is cancelled to
completion first (which will guarantee that all actor nurseries have
completed their cancellation steps) before cancelling the actor's "core"
tasks under the "root" scope.
Here is a bunch of code tightening to make sure cancellation works even
if recently spawned actors haven't fully started up and the parent is
cancelled.
The fixes include:
- passing the arbiter socket address to each actor
- ensure all spawned actors respect the spawner's log level
- handle process versus final `portal.result()` teardown in multiple
tasks such that if a proc dies before shipping a result we don't wait
- more detailed debug logging in teardown code paths
- don't store peer connected events in the same `dict` as the peer channels
- if necessary fake main task results on peer channel disconnect
- warn when a `trio.Cancelled` is what causes a nursery to bail
otherwise error
- store the subactor portal in the nursery for teardown purposes
- add dedicated `Portal.cancel_actor()` which acts as a "hard cancel"
and never blocks (indefinitely)
- add `Arbiter.unregister_actor()` it's more explicit what's being
requested
- Allow passing in a program-wide `loglevel`
- Add detailed debug logging particularly to do with channel msg processing
and connection handling
- Don't daemonize subprocesses for now as it prevents use of
sub-sub-actors (need to solve #6 first)
- Add a `Portal.close()` which just tells the remote actor to tear down
the channel (for now)
- Add a message to signal the remote `StopAsyncIteration` from an async
gen such that the client side terminates properly as well
- Make `Actor.cancel()` cancel the channel server first
- Actors *must* complete the arbiter registeration steps before moving
on with their main taks and rpc handling
- When delivering rpc responses (using the local per caller queue) use
the blocking interface (`trio.Queue.put()`) to get backpressure
- Properly detect an `partial` wrapped async generators in `_invoke`
Fix quite a few little bugs:
- async gen func detection in `_invoke()`
- always cancel channel server on main task exit
- wait for remaining channel peers after unsub from arbiter
- return result from main task(s) all the way up to `tractor.run()`
Also add a `Portal.result()` for getting the final result(s) from the
actor's main task and fix up a bunch of docs.