nim-codex/codex/blockexchange/engine/discovery.nim

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2022-05-19 19:56:03 +00:00
## Nim-Codex
## Copyright (c) 2022 Status Research & Development GmbH
## Licensed under either of
## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
## * MIT license ([LICENSE-MIT](LICENSE-MIT))
## at your option.
## This file may not be copied, modified, or distributed except according to
## those terms.
import std/sequtils
import pkg/chronos
import pkg/chronicles
import pkg/libp2p
import pkg/metrics
import pkg/questionable
import pkg/questionable/results
import ../protobuf/presence
import ../network
import ../peers
import ../../utils
import ../../discovery
import ../../stores/blockstore
import ./pendingblocks
logScope:
topics = "codex discoveryengine"
declareGauge(codexInflightDiscovery, "inflight discovery requests")
const
DefaultConcurrentDiscRequests = 10
DefaultConcurrentAdvertRequests = 10
DefaultDiscoveryTimeout = 1.minutes
DefaultMinPeersPerBlock = 3
DefaultDiscoveryLoopSleep = 3.seconds
DefaultAdvertiseLoopSleep = 30.minutes
type
DiscoveryEngine* = ref object of RootObj
localStore*: BlockStore # Local block store for this instance
peers*: PeerCtxStore # Peer context store
network*: BlockExcNetwork # Network interface
discovery*: Discovery # Discovery interface
pendingBlocks*: PendingBlocksManager # Blocks we're awaiting to be resolved
discEngineRunning*: bool # Indicates if discovery is running
concurrentAdvReqs: int # Concurrent advertise requests
concurrentDiscReqs: int # Concurrent discovery requests
advertiseLoop*: Future[void] # Advertise loop task handle
advertiseQueue*: AsyncQueue[Cid] # Advertise queue
advertiseTasks*: seq[Future[void]] # Advertise tasks
discoveryLoop*: Future[void] # Discovery loop task handle
discoveryQueue*: AsyncQueue[Cid] # Discovery queue
discoveryTasks*: seq[Future[void]] # Discovery tasks
minPeersPerBlock*: int # Max number of peers with block
discoveryLoopSleep: Duration # Discovery loop sleep
advertiseLoopSleep: Duration # Advertise loop sleep
inFlightDiscReqs*: Table[Cid, Future[seq[SignedPeerRecord]]] # Inflight discovery requests
inFlightAdvReqs*: Table[Cid, Future[void]] # Inflight advertise requests
advertiseType*: BlockType # Advertice blocks, manifests or both
proc discoveryQueueLoop(b: DiscoveryEngine) {.async.} =
while b.discEngineRunning:
for cid in toSeq(b.pendingBlocks.wantList):
try:
await b.discoveryQueue.put(cid)
except CatchableError as exc:
trace "Exception in discovery loop", exc = exc.msg
logScope:
sleep = b.discoveryLoopSleep
wanted = b.pendingBlocks.len
trace "About to sleep discovery loop"
await sleepAsync(b.discoveryLoopSleep)
proc advertiseQueueLoop*(b: DiscoveryEngine) {.async.} =
while b.discEngineRunning:
if cids =? await b.localStore.listBlocks(blockType = b.advertiseType):
for c in cids:
if cid =? await c:
await b.advertiseQueue.put(cid)
await sleepAsync(50.millis)
trace "About to sleep advertise loop", sleep = b.advertiseLoopSleep
await sleepAsync(b.advertiseLoopSleep)
trace "Exiting advertise task loop"
proc advertiseTaskLoop(b: DiscoveryEngine) {.async.} =
## Run advertise tasks
##
while b.discEngineRunning:
try:
let
cid = await b.advertiseQueue.get()
if cid in b.inFlightAdvReqs:
trace "Advertise request already in progress", cid
continue
try:
let
request = b.discovery.provide(cid)
b.inFlightAdvReqs[cid] = request
codexInflightDiscovery.set(b.inFlightAdvReqs.len.int64)
trace "Advertising block", cid, inflight = b.inFlightAdvReqs.len
await request
finally:
b.inFlightAdvReqs.del(cid)
codexInflightDiscovery.set(b.inFlightAdvReqs.len.int64)
trace "Advertised block", cid, inflight = b.inFlightAdvReqs.len
except CatchableError as exc:
trace "Exception in advertise task runner", exc = exc.msg
trace "Exiting advertise task runner"
proc discoveryTaskLoop(b: DiscoveryEngine) {.async.} =
## Run discovery tasks
##
while b.discEngineRunning:
try:
let
cid = await b.discoveryQueue.get()
if cid in b.inFlightDiscReqs:
trace "Discovery request already in progress", cid
continue
let
haves = b.peers.peersHave(cid)
trace "Current number of peers for block", cid, count = haves.len
if haves.len < b.minPeersPerBlock:
trace "Discovering block", cid
try:
let
request = b.discovery
.find(cid)
.wait(DefaultDiscoveryTimeout)
b.inFlightDiscReqs[cid] = request
codexInflightDiscovery.set(b.inFlightAdvReqs.len.int64)
let
peers = await request
trace "Discovered peers", peers = peers.len
let
dialed = await allFinished(
peers.mapIt( b.network.dialPeer(it.data) ))
for i, f in dialed:
if f.failed:
await b.discovery.removeProvider(peers[i].data.peerId)
finally:
b.inFlightDiscReqs.del(cid)
codexInflightDiscovery.set(b.inFlightAdvReqs.len.int64)
except CatchableError as exc:
trace "Exception in discovery task runner", exc = exc.msg
trace "Exiting discovery task runner"
proc queueFindBlocksReq*(b: DiscoveryEngine, cids: seq[Cid]) {.inline.} =
for cid in cids:
if cid notin b.discoveryQueue:
try:
trace "Queueing find block", cid, queue = b.discoveryQueue.len
b.discoveryQueue.putNoWait(cid)
except CatchableError as exc:
trace "Exception queueing discovery request", exc = exc.msg
proc queueProvideBlocksReq*(b: DiscoveryEngine, cids: seq[Cid]) {.inline.} =
for cid in cids:
if cid notin b.advertiseQueue:
try:
trace "Queueing provide block", cid, queue = b.discoveryQueue.len
b.advertiseQueue.putNoWait(cid)
except CatchableError as exc:
trace "Exception queueing discovery request", exc = exc.msg
proc start*(b: DiscoveryEngine) {.async.} =
## Start the discengine task
##
trace "Discovery engine start"
if b.discEngineRunning:
warn "Starting discovery engine twice"
return
b.discEngineRunning = true
for i in 0..<b.concurrentAdvReqs:
b.advertiseTasks.add(advertiseTaskLoop(b))
for i in 0..<b.concurrentDiscReqs:
b.discoveryTasks.add(discoveryTaskLoop(b))
b.advertiseLoop = advertiseQueueLoop(b)
b.discoveryLoop = discoveryQueueLoop(b)
proc stop*(b: DiscoveryEngine) {.async.} =
## Stop the discovery engine
##
trace "Discovery engine stop"
if not b.discEngineRunning:
warn "Stopping discovery engine without starting it"
return
b.discEngineRunning = false
for task in b.advertiseTasks:
if not task.finished:
trace "Awaiting advertise task to stop"
await task.cancelAndWait()
trace "Advertise task stopped"
for task in b.discoveryTasks:
if not task.finished:
trace "Awaiting discovery task to stop"
await task.cancelAndWait()
trace "Discovery task stopped"
if not b.advertiseLoop.isNil and not b.advertiseLoop.finished:
trace "Awaiting advertise loop to stop"
await b.advertiseLoop.cancelAndWait()
trace "Advertise loop stopped"
if not b.discoveryLoop.isNil and not b.discoveryLoop.finished:
trace "Awaiting discovery loop to stop"
await b.discoveryLoop.cancelAndWait()
trace "Discovery loop stopped"
trace "Discovery engine stopped"
proc new*(
T: type DiscoveryEngine,
localStore: BlockStore,
peers: PeerCtxStore,
network: BlockExcNetwork,
discovery: Discovery,
pendingBlocks: PendingBlocksManager,
concurrentAdvReqs = DefaultConcurrentAdvertRequests,
concurrentDiscReqs = DefaultConcurrentDiscRequests,
discoveryLoopSleep = DefaultDiscoveryLoopSleep,
advertiseLoopSleep = DefaultAdvertiseLoopSleep,
minPeersPerBlock = DefaultMinPeersPerBlock,
advertiseType = BlockType.Both): DiscoveryEngine =
T(
localStore: localStore,
peers: peers,
network: network,
discovery: discovery,
pendingBlocks: pendingBlocks,
concurrentAdvReqs: concurrentAdvReqs,
concurrentDiscReqs: concurrentDiscReqs,
advertiseQueue: newAsyncQueue[Cid](concurrentAdvReqs),
discoveryQueue: newAsyncQueue[Cid](concurrentDiscReqs),
inFlightDiscReqs: initTable[Cid, Future[seq[SignedPeerRecord]]](),
inFlightAdvReqs: initTable[Cid, Future[void]](),
discoveryLoopSleep: discoveryLoopSleep,
advertiseLoopSleep: advertiseLoopSleep,
minPeersPerBlock: minPeersPerBlock,
advertiseType: advertiseType)