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author | Alex Auvolat <alex@adnab.me> | 2021-11-04 16:04:26 +0100 |
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committer | Alex Auvolat <alex@adnab.me> | 2021-11-04 16:19:27 +0100 |
commit | e8811f7c9de5dadd33eed7bc35878369131e1207 (patch) | |
tree | afc21854d328c2d098f74ca37aa18160bd4ec6b3 | |
parent | 2090a6187f7d106e0641bed4cac145ad5184995d (diff) | |
download | garage-e8811f7c9de5dadd33eed7bc35878369131e1207.tar.gz garage-e8811f7c9de5dadd33eed7bc35878369131e1207.zip |
Request strategy: don't launch all 3 requests if not neededv0.4-rc2
-rw-r--r-- | src/rpc/rpc_helper.rs | 195 | ||||
-rw-r--r-- | src/rpc/system.rs | 2 |
2 files changed, 152 insertions, 45 deletions
diff --git a/src/rpc/rpc_helper.rs b/src/rpc/rpc_helper.rs index cdac6f14..df0e94f8 100644 --- a/src/rpc/rpc_helper.rs +++ b/src/rpc/rpc_helper.rs @@ -7,7 +7,7 @@ use futures::stream::futures_unordered::FuturesUnordered; use futures::stream::StreamExt; use futures_util::future::FutureExt; use tokio::select; -use tokio::sync::Semaphore; +use tokio::sync::{watch, Semaphore}; pub use netapp::endpoint::{Endpoint, EndpointHandler, Message as Rpc}; use netapp::peering::fullmesh::FullMeshPeeringStrategy; @@ -18,6 +18,8 @@ use garage_util::background::BackgroundRunner; use garage_util::data::*; use garage_util::error::Error; +use crate::ring::Ring; + const DEFAULT_TIMEOUT: Duration = Duration::from_secs(10); // Try to never have more than 200MB of outgoing requests @@ -67,22 +69,30 @@ impl RequestStrategy { } #[derive(Clone)] -pub struct RpcHelper { - pub(crate) fullmesh: Arc<FullMeshPeeringStrategy>, - pub(crate) background: Arc<BackgroundRunner>, - request_buffer_semaphore: Arc<Semaphore>, +pub struct RpcHelper(Arc<RpcHelperInner>); + +struct RpcHelperInner { + our_node_id: Uuid, + fullmesh: Arc<FullMeshPeeringStrategy>, + background: Arc<BackgroundRunner>, + ring: watch::Receiver<Arc<Ring>>, + request_buffer_semaphore: Semaphore, } impl RpcHelper { pub(crate) fn new( + our_node_id: Uuid, fullmesh: Arc<FullMeshPeeringStrategy>, background: Arc<BackgroundRunner>, + ring: watch::Receiver<Arc<Ring>>, ) -> Self { - Self { + Self(Arc::new(RpcHelperInner { + our_node_id, fullmesh, background, - request_buffer_semaphore: Arc::new(Semaphore::new(REQUEST_BUFFER_SIZE)), - } + ring, + request_buffer_semaphore: Semaphore::new(REQUEST_BUFFER_SIZE), + })) } pub async fn call<M, H, S>( @@ -111,7 +121,11 @@ impl RpcHelper { H: EndpointHandler<M>, { let msg_size = rmp_to_vec_all_named(&msg)?.len() as u32; - let permit = self.request_buffer_semaphore.acquire_many(msg_size).await?; + let permit = self + .0 + .request_buffer_semaphore + .acquire_many(msg_size) + .await?; let node_id = to.into(); select! { @@ -160,6 +174,7 @@ impl RpcHelper { H: EndpointHandler<M>, { let to = self + .0 .fullmesh .get_peer_list() .iter() @@ -168,8 +183,8 @@ impl RpcHelper { self.call_many(endpoint, &to[..], msg, strat).await } - /// Make a RPC call to multiple servers, returning either a Vec of responses, or an error if - /// strategy could not be respected due to too many errors + /// Make a RPC call to multiple servers, returning either a Vec of responses, + /// or an error if quorum could not be reached due to too many errors pub async fn try_call_many<M, H, S>( &self, endpoint: &Arc<Endpoint<M, H>>, @@ -183,54 +198,146 @@ impl RpcHelper { S: Send, { let msg = Arc::new(msg); - let mut resp_stream = to - .to_vec() - .into_iter() - .map(|to| { - let self2 = self.clone(); - let msg = msg.clone(); - let endpoint2 = endpoint.clone(); - async move { self2.call_arc(&endpoint2, to, msg, strategy).await } + + // Build future for each request + // They are not started now: they are added below in a FuturesUnordered + // object that will take care of polling them (see below) + let requests = to.iter().cloned().map(|to| { + let self2 = self.clone(); + let msg = msg.clone(); + let endpoint2 = endpoint.clone(); + (to, async move { + self2.call_arc(&endpoint2, to, msg, strategy).await }) - .collect::<FuturesUnordered<_>>(); + }); + let quorum = strategy.rs_quorum.unwrap_or(to.len()); - let mut results = vec![]; + // Vectors in which success results and errors will be collected + let mut successes = vec![]; let mut errors = vec![]; - let quorum = strategy.rs_quorum.unwrap_or(to.len()); - while let Some(resp) = resp_stream.next().await { - match resp { - Ok(msg) => { - results.push(msg); - if results.len() >= quorum { - break; + if strategy.rs_interrupt_after_quorum { + // Case 1: once quorum is reached, other requests don't matter. + // What we do here is only send the required number of requests + // to reach a quorum, priorizing nodes with the lowest latency. + // When there are errors, we start new requests to compensate. + + // Retrieve some status variables that we will use to sort requests + let peer_list = self.0.fullmesh.get_peer_list(); + let ring: Arc<Ring> = self.0.ring.borrow().clone(); + let our_zone = match ring.config.members.get(&self.0.our_node_id) { + Some(pc) => &pc.zone, + None => "", + }; + + // Augment requests with some information used to sort them. + // The tuples are as follows: + // (is another node?, is another zone?, latency, node ID, request future) + // We store all of these tuples in a vec that we can sort. + // By sorting this vec, we priorize ourself, then nodes in the same zone, + // and within a same zone we priorize nodes with the lowest latency. + let mut requests = requests + .map(|(to, fut)| { + let peer_zone = match ring.config.members.get(&to) { + Some(pc) => &pc.zone, + None => "", + }; + let peer_avg_ping = peer_list + .iter() + .find(|x| x.id.as_ref() == to.as_slice()) + .map(|pi| pi.avg_ping) + .flatten() + .unwrap_or_else(|| Duration::from_secs(1)); + ( + to != self.0.our_node_id, + peer_zone != our_zone, + peer_avg_ping, + to, + fut, + ) + }) + .collect::<Vec<_>>(); + + // Sort requests by (priorize ourself, priorize same zone, priorize low latency) + requests + .sort_by_key(|(diffnode, diffzone, ping, _to, _fut)| (*diffnode, *diffzone, *ping)); + + // Make an iterator to take requests in their sorted order + let mut requests = requests.into_iter(); + + // resp_stream will contain all of the requests that are currently in flight. + // (for the moment none, they will be added in the loop below) + let mut resp_stream = FuturesUnordered::new(); + + // Do some requests and collect results + 'request_loop: while successes.len() < quorum { + // If the current set of requests that are running is not enough to possibly + // reach quorum, start some new requests. + while successes.len() + resp_stream.len() < quorum { + if let Some((_, _, _, _to, fut)) = requests.next() { + resp_stream.push(fut); + } else { + // If we have no request to add, we know that we won't ever + // reach quorum: bail out now. + break 'request_loop; } } - Err(e) => { - errors.push(e); + assert!(!resp_stream.is_empty()); // because of loop invariants + + // Wait for one request to terminate + match resp_stream.next().await.unwrap() { + Ok(msg) => { + successes.push(msg); + } + Err(e) => { + errors.push(e); + } } } - } + } else { + // Case 2: all of the requests need to be sent in all cases, + // and need to terminate. (this is the case for writes that + // must be spread to n nodes) + // Just start all the requests in parallel and return as soon + // as the quorum is reached. + let mut resp_stream = requests + .map(|(_, fut)| fut) + .collect::<FuturesUnordered<_>>(); - if results.len() >= quorum { - // Continue requests in background. - // Continue the remaining requests immediately using tokio::spawn - // but enqueue a task in the background runner - // to ensure that the process won't exit until the requests are done - // (if we had just enqueued the resp_stream.collect directly in the background runner, - // the requests might have been put on hold in the background runner's queue, - // in which case they might timeout or otherwise fail) - if !strategy.rs_interrupt_after_quorum { + while let Some(resp) = resp_stream.next().await { + match resp { + Ok(msg) => { + successes.push(msg); + if successes.len() >= quorum { + break; + } + } + Err(e) => { + errors.push(e); + } + } + } + + if !resp_stream.is_empty() { + // Continue remaining requests in background. + // Continue the remaining requests immediately using tokio::spawn + // but enqueue a task in the background runner + // to ensure that the process won't exit until the requests are done + // (if we had just enqueued the resp_stream.collect directly in the background runner, + // the requests might have been put on hold in the background runner's queue, + // in which case they might timeout or otherwise fail) let wait_finished_fut = tokio::spawn(async move { - resp_stream.collect::<Vec<_>>().await; + resp_stream.collect::<Vec<Result<_, _>>>().await; }); - self.background.spawn(wait_finished_fut.map(|_| Ok(()))); + self.0.background.spawn(wait_finished_fut.map(|_| Ok(()))); } + } - Ok(results) + if successes.len() >= quorum { + Ok(successes) } else { let errors = errors.iter().map(|e| format!("{}", e)).collect::<Vec<_>>(); - Err(Error::Quorum(quorum, results.len(), to.len(), errors)) + Err(Error::Quorum(quorum, successes.len(), to.len(), errors)) } } } diff --git a/src/rpc/system.rs b/src/rpc/system.rs index a518ef21..3f5f7fb1 100644 --- a/src/rpc/system.rs +++ b/src/rpc/system.rs @@ -235,7 +235,7 @@ impl System { node_status: RwLock::new(HashMap::new()), netapp: netapp.clone(), fullmesh: fullmesh.clone(), - rpc: RpcHelper::new(fullmesh, background.clone()), + rpc: RpcHelper::new(netapp.id.into(), fullmesh, background.clone(), ring.clone()), system_endpoint, replication_factor, rpc_listen_addr: config.rpc_bind_addr, |