Files
pezkuwi-subxt/polkadot/node/overseer/overseer-gen/proc-macro/src/impl_overseer.rs
T
Bernhard Schuster c57a1e7934 remove AllSubsystems and AllSubsystemsGen types (#3874)
* introduce the OverseerConnector, use it

* introduce is_relay_chain to RelayChainSelection

* Update node/service/src/lib.rs

Co-authored-by: Andronik Ordian <write@reusable.software>

* avoid the deferred setting of `is_relay_chain` in `RelayChainSelection`

* positive assertion is not mandated, only the negative one, to avoid a stall

* cleanup: overseer residue

* spellcheck

* fixin

* groundwork to obsolete Overseer::new and AllSubsystemsGen proc-macro

* Now all malus & tests can be ported to the builder pattern.

Obsoletes `Overseer::new`, `AllSubsystemsGen` derive macro, `AllSubsystems`.

* spellcheck

* adjust tests, minor fixes

* remove derive macro AllSubsystemsGen

* add forgotten file dummy.rs

* remove residue

* good news everyone!

* spellcheck

* address review comments

* fixup imports

* make it conditional

* fixup docs

* reduce import

* chore: fmt

* chore: fmt

* chore: spellcheck / nlprules

* fixup malus variant-a

* fmt

* fix

* fixins

* pfmt

* fixins

* chore: fmt

* remove expanded overseer generation

* tracing version

* Update node/network/statement-distribution/src/lib.rs

Co-authored-by: Robert Habermeier <rphmeier@gmail.com>

* use future::ready instead

* silence warning

* chore: fmt

Co-authored-by: Andronik Ordian <write@reusable.software>
Co-authored-by: Robert Habermeier <rphmeier@gmail.com>
2021-09-29 14:24:56 +00:00

261 lines
7.6 KiB
Rust

// Copyright 2021 Parity Technologies (UK) Ltd.
// This file is part of Polkadot.
// Polkadot is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Polkadot 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 General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Polkadot. If not, see <http://www.gnu.org/licenses/>.
use quote::quote;
use super::*;
pub(crate) fn impl_overseer_struct(info: &OverseerInfo) -> proc_macro2::TokenStream {
let message_wrapper = &info.message_wrapper.clone();
let overseer_name = info.overseer_name.clone();
let subsystem_name = &info.subsystem_names_without_wip();
let support_crate = info.support_crate_name();
let baggage_decl = &info.baggage_decl();
let baggage_generic_ty = &info.baggage_generic_types();
let generics = quote! {
< S, #( #baggage_generic_ty, )* >
};
let where_clause = quote! {
where
S: #support_crate ::SpawnNamed,
};
// TODO add `where ..` clauses for baggage types
// TODO https://github.com/paritytech/polkadot/issues/3427
let consumes = &info.consumes_without_wip();
let consumes_variant = &info.variant_names_without_wip();
let unconsumes_variant = &info.variant_names_only_wip();
let signal_ty = &info.extern_signal_ty;
let error_ty = &info.extern_error_ty;
let event_ty = &info.extern_event_ty;
let message_channel_capacity = info.message_channel_capacity;
let signal_channel_capacity = info.signal_channel_capacity;
let log_target =
syn::LitStr::new(overseer_name.to_string().to_lowercase().as_str(), overseer_name.span());
let ts = quote! {
/// Capacity of a bounded message channel between overseer and subsystem
/// but also for bounded channels between two subsystems.
const CHANNEL_CAPACITY: usize = #message_channel_capacity;
/// Capacity of a signal channel between a subsystem and the overseer.
const SIGNAL_CHANNEL_CAPACITY: usize = #signal_channel_capacity;
/// The log target tag.
const LOG_TARGET: &'static str = #log_target;
/// The overseer.
pub struct #overseer_name #generics {
#(
/// A subsystem instance.
#subsystem_name: OverseenSubsystem< #consumes >,
)*
#(
/// A user specified addendum field.
#baggage_decl ,
)*
/// Responsible for driving the subsystem futures.
spawner: S,
/// The set of running subsystems.
running_subsystems: #support_crate ::FuturesUnordered<
BoxFuture<'static, ::std::result::Result<(), #error_ty>>
>,
/// Gather running subsystems' outbound streams into one.
to_overseer_rx: #support_crate ::stream::Fuse<
#support_crate ::metered::UnboundedMeteredReceiver< #support_crate ::ToOverseer >
>,
/// Events that are sent to the overseer from the outside world.
events_rx: #support_crate ::metered::MeteredReceiver< #event_ty >,
}
impl #generics #overseer_name #generics #where_clause {
/// Send the given signal, a termination signal, to all subsystems
/// and wait for all subsystems to go down.
///
/// The definition of a termination signal is up to the user and
/// implementation specific.
pub async fn wait_terminate(&mut self, signal: #signal_ty, timeout: ::std::time::Duration) -> ::std::result::Result<(), #error_ty > {
#(
::std::mem::drop(self. #subsystem_name .send_signal(signal.clone()).await);
)*
let _ = signal;
let mut timeout_fut = #support_crate ::Delay::new(
timeout
).fuse();
loop {
select! {
_ = self.running_subsystems.next() =>
if self.running_subsystems.is_empty() {
break;
},
_ = timeout_fut => break,
complete => break,
}
}
Ok(())
}
/// Broadcast a signal to all subsystems.
pub async fn broadcast_signal(&mut self, signal: #signal_ty) -> ::std::result::Result<(), #error_ty > {
#(
let _ = self. #subsystem_name .send_signal(signal.clone()).await;
)*
let _ = signal;
Ok(())
}
/// Route a particular message to a subsystem that consumes the message.
pub async fn route_message(&mut self, message: #message_wrapper, origin: &'static str) -> ::std::result::Result<(), #error_ty > {
match message {
#(
#message_wrapper :: #consumes_variant ( inner ) =>
OverseenSubsystem::< #consumes >::send_message2(&mut self. #subsystem_name, inner, origin ).await?,
)*
// subsystems that are still work in progress
#(
#message_wrapper :: #unconsumes_variant ( _ ) => {}
)*
#message_wrapper :: Empty => {}
}
Ok(())
}
/// Extract information from each subsystem.
pub fn map_subsystems<'a, Mapper, Output>(&'a self, mapper: Mapper)
-> Vec<Output>
where
#(
Mapper: MapSubsystem<&'a OverseenSubsystem< #consumes >, Output=Output>,
)*
{
vec![
#(
mapper.map_subsystem( & self. #subsystem_name ),
)*
]
}
/// Get access to internal task spawner.
pub fn spawner<'a> (&'a mut self) -> &'a mut S {
&mut self.spawner
}
}
};
ts
}
pub(crate) fn impl_overseen_subsystem(info: &OverseerInfo) -> proc_macro2::TokenStream {
let signal = &info.extern_signal_ty;
let error_ty = &info.extern_error_ty;
let support_crate = info.support_crate_name();
let ts = quote::quote! {
/// A subsystem that the overseer oversees.
///
/// Ties together the [`Subsystem`] itself and it's running instance
/// (which may be missing if the [`Subsystem`] is not running at the moment
/// for whatever reason).
///
/// [`Subsystem`]: trait.Subsystem.html
pub struct OverseenSubsystem<M> {
/// The instance.
pub instance: std::option::Option<
#support_crate ::SubsystemInstance<M, #signal>
>,
}
impl<M> OverseenSubsystem<M> {
/// Send a message to the wrapped subsystem.
///
/// If the inner `instance` is `None`, nothing is happening.
pub async fn send_message2(&mut self, message: M, origin: &'static str) -> ::std::result::Result<(), #error_ty > {
const MESSAGE_TIMEOUT: Duration = Duration::from_secs(10);
if let Some(ref mut instance) = self.instance {
match instance.tx_bounded.send(MessagePacket {
signals_received: instance.signals_received,
message: message.into(),
}).timeout(MESSAGE_TIMEOUT).await
{
None => {
#support_crate ::tracing::error!(
target: LOG_TARGET,
%origin,
"Subsystem {} appears unresponsive.",
instance.name,
);
Err(#error_ty :: from(
#support_crate ::OverseerError::SubsystemStalled(instance.name)
))
}
Some(res) => res.map_err(Into::into),
}
} else {
Ok(())
}
}
/// Send a signal to the wrapped subsystem.
///
/// If the inner `instance` is `None`, nothing is happening.
pub async fn send_signal(&mut self, signal: #signal) -> ::std::result::Result<(), #error_ty > {
const SIGNAL_TIMEOUT: ::std::time::Duration = ::std::time::Duration::from_secs(10);
if let Some(ref mut instance) = self.instance {
match instance.tx_signal.send(signal).timeout(SIGNAL_TIMEOUT).await {
None => {
Err(#error_ty :: from(
#support_crate ::OverseerError::SubsystemStalled(instance.name)
))
}
Some(res) => {
let res = res.map_err(Into::into);
if res.is_ok() {
instance.signals_received += 1;
}
res
}
}
} else {
Ok(())
}
}
}
};
ts
}