rm full sync (#2324)
* rm full sync Syncing forwards no longer suported * one more
This commit is contained in:
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5008b89185
commit
0524fe8fd1
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@ -131,7 +131,6 @@ type
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SyncMode* {.pure.} = enum
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Default
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Full ## Beware, experimental
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#Snap ## Beware, experimental
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NimbusConf* = object of RootObj
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@ -172,7 +171,6 @@ type
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desc: "Specify particular blockchain sync mode."
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longDesc:
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"- default -- beacon sync mode\n" &
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"- full -- full blockchain archive\n" &
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# "- snap -- experimental snap mode (development only)\n" &
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""
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defaultValue: SyncMode.Default
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@ -138,10 +138,6 @@ proc setupP2P(nimbus: NimbusNode, conf: NimbusConf,
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tickerOK = conf.logLevel in {
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LogLevel.INFO, LogLevel.DEBUG, LogLevel.TRACE}
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case conf.syncMode:
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of SyncMode.Full:
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nimbus.fullSyncRef = FullSyncRef.init(
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nimbus.ethNode, nimbus.chainRef, nimbus.ctx.rng, conf.maxPeers,
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tickerOK, exCtrlFile)
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#of SyncMode.Snap:
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# # Minimal capability needed for sync only
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# if ProtocolFlag.Snap notin protocols:
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@ -151,14 +147,9 @@ proc setupP2P(nimbus: NimbusNode, conf: NimbusConf,
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# nimbus.ethNode, nimbus.chainRef, nimbus.ctx.rng, conf.maxPeers,
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# tickerOK, exCtrlFile)
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of SyncMode.Default:
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if com.forkGTE(MergeFork):
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nimbus.beaconSyncRef = BeaconSyncRef.init(
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nimbus.ethNode, nimbus.chainRef, nimbus.ctx.rng, conf.maxPeers,
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)
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else:
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nimbus.fullSyncRef = FullSyncRef.init(
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nimbus.ethNode, nimbus.chainRef, nimbus.ctx.rng, conf.maxPeers,
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tickerOK, exCtrlFile)
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nimbus.beaconSyncRef = BeaconSyncRef.init(
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nimbus.ethNode, nimbus.chainRef, nimbus.ctx.rng, conf.maxPeers,
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)
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# Connect directly to the static nodes
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let staticPeers = conf.getStaticPeers()
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@ -177,7 +168,7 @@ proc setupP2P(nimbus: NimbusNode, conf: NimbusConf,
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case conf.syncMode:
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#of SyncMode.Snap:
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# waitForPeers = false
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of SyncMode.Full, SyncMode.Default:
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of SyncMode.Default:
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discard
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nimbus.networkLoop = nimbus.ethNode.connectToNetwork(
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enableDiscovery = conf.discovery != DiscoveryType.None,
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@ -266,12 +257,7 @@ proc run(nimbus: NimbusNode, conf: NimbusConf) =
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if conf.maxPeers > 0:
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case conf.syncMode:
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of SyncMode.Default:
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if com.forkGTE(MergeFork):
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nimbus.beaconSyncRef.start
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else:
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nimbus.fullSyncRef.start
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of SyncMode.Full:
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nimbus.fullSyncRef.start
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nimbus.beaconSyncRef.start
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#of SyncMode.Snap:
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# nimbus.snapSyncRef.start
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@ -17,7 +17,6 @@ import
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./sync/peers,
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./sync/beacon,
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# ./sync/snap, # -- todo
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./sync/full,
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./beacon/beacon_engine,
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./common,
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./config
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@ -52,7 +51,6 @@ type
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networkLoop*: Future[void]
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peerManager*: PeerManagerRef
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# snapSyncRef*: SnapSyncRef # -- todo
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fullSyncRef*: FullSyncRef
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beaconSyncRef*: BeaconSyncRef
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beaconEngine*: BeaconEngineRef
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metricsServer*: MetricsHttpServerRef
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@ -71,8 +69,6 @@ proc stop*(nimbus: NimbusNode, conf: NimbusConf) {.async, gcsafe.} =
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await nimbus.peerManager.stop()
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#if nimbus.snapSyncRef.isNil.not:
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# nimbus.snapSyncRef.stop()
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if nimbus.fullSyncRef.isNil.not:
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nimbus.fullSyncRef.stop()
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if nimbus.beaconSyncRef.isNil.not:
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nimbus.beaconSyncRef.stop()
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if nimbus.metricsServer.isNil.not:
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@ -1,130 +0,0 @@
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# Nimbus
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# Copyright (c) 2021-2024 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
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# http://www.apache.org/licenses/LICENSE-2.0)
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# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
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# http://opensource.org/licenses/MIT)
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# at your option. This file may not be copied, modified, or distributed
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# except according to those terms.
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{.push raises: [].}
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import
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eth/p2p,
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chronicles,
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chronos,
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stew/[interval_set, sorted_set],
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./full/[worker, worker_desc],
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"."/[sync_desc, sync_sched, protocol]
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logScope:
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topics = "full-sync"
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type
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FullSyncRef* = RunnerSyncRef[FullCtxData,FullBuddyData]
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const
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extraTraceMessages = false # or true
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## Enable additional logging noise
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# ------------------------------------------------------------------------------
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# Private logging helpers
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# ------------------------------------------------------------------------------
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template traceMsg(f, info: static[string]; args: varargs[untyped]) =
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trace "Snap scheduler " & f & "() " & info, args
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template traceMsgCtx(f, info: static[string]; c: FullCtxRef) =
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when extraTraceMessages:
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block:
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let
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poolMode {.inject.} = c.poolMode
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daemon {.inject.} = c.daemon
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f.traceMsg info, poolMode, daemon
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template traceMsgBuddy(f, info: static[string]; b: FullBuddyRef) =
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when extraTraceMessages:
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block:
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let
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peer {.inject.} = b.peer
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runState {.inject.} = b.ctrl.state
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multiOk {.inject.} = b.ctrl.multiOk
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poolMode {.inject.} = b.ctx.poolMode
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daemon {.inject.} = b.ctx.daemon
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f.traceMsg info, peer, runState, multiOk, poolMode, daemon
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template tracerFrameCtx(f: static[string]; c: FullCtxRef; code: untyped) =
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f.traceMsgCtx "begin", c
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code
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f.traceMsgCtx "end", c
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template tracerFrameBuddy(f: static[string]; b: FullBuddyRef; code: untyped) =
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f.traceMsgBuddy "begin", b
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code
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f.traceMsgBuddy "end", b
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# ------------------------------------------------------------------------------
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# Virtual methods/interface, `mixin` functions
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# ------------------------------------------------------------------------------
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proc runSetup(ctx: FullCtxRef): bool =
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tracerFrameCtx("runSetup", ctx):
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result = worker.setup(ctx)
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proc runRelease(ctx: FullCtxRef) =
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tracerFrameCtx("runRelease", ctx):
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worker.release(ctx)
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proc runDaemon(ctx: FullCtxRef) {.async.} =
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tracerFrameCtx("runDaemon", ctx):
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await worker.runDaemon(ctx)
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proc runStart(buddy: FullBuddyRef): bool =
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tracerFrameBuddy("runStart", buddy):
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result = worker.start(buddy)
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proc runStop(buddy: FullBuddyRef) =
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tracerFrameBuddy("runStop", buddy):
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worker.stop(buddy)
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proc runPool(buddy: FullBuddyRef; last: bool; laps: int): bool =
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tracerFrameBuddy("runPool", buddy):
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result = worker.runPool(buddy, last, laps)
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proc runSingle(buddy: FullBuddyRef) {.async.} =
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tracerFrameBuddy("runSingle", buddy):
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await worker.runSingle(buddy)
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proc runMulti(buddy: FullBuddyRef) {.async.} =
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tracerFrameBuddy("runMulti", buddy):
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await worker.runMulti(buddy)
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# ------------------------------------------------------------------------------
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# Public functions
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# ------------------------------------------------------------------------------
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proc init*(
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T: type FullSyncRef;
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ethNode: EthereumNode;
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chain: ChainRef;
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rng: ref HmacDrbgContext;
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maxPeers: int;
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enableTicker = false;
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exCtrlFile = Opt.none(string);
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): T =
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new result
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result.initSync(ethNode, chain, maxPeers, exCtrlFile)
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result.ctx.pool.rng = rng
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result.ctx.pool.enableTicker = enableTicker
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proc start*(ctx: FullSyncRef) =
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doAssert ctx.startSync()
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proc stop*(ctx: FullSyncRef) =
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ctx.stopSync()
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# ------------------------------------------------------------------------------
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# End
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# ------------------------------------------------------------------------------
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@ -1,434 +0,0 @@
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# Nimbus
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# Copyright (c) 2021-2024 Status Research & Development GmbH
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at
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# https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at
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# https://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed
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# except according to those terms.
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{.push raises:[].}
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import
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chronicles,
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chronos,
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eth/p2p,
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".."/[protocol, sync_desc],
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../handlers/eth,
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../misc/[best_pivot, block_queue, sync_ctrl, ticker],
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./worker_desc
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logScope:
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topics = "full-buddy"
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const
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extraTraceMessages = false # or true
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## Enabled additional logging noise
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FirstPivotSeenTimeout = 3.minutes
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## Turn on relaxed pivot negotiation after some waiting time when there
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## was a `peer` seen but was rejected. This covers a rare event. Typically
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## useless peers do not appear ready for negotiation.
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FirstPivotAcceptedTimeout = 50.seconds
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## Turn on relaxed pivot negotiation after some waiting time when there
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## was a `peer` accepted but no second one yet.
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# ------------------------------------------------------------------------------
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# Private helpers
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# ------------------------------------------------------------------------------
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proc pp(n: BlockNumber): string =
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## Dedicated pretty printer (`$` is defined elsewhere using `UInt256`)
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if n == high(BlockNumber): "high" else:"#" & $n
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# --------------
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proc disableWireServices(ctx: FullCtxRef) =
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## Helper for `setup()`: Temporarily stop useless wire protocol services.
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ctx.ethWireCtx.txPoolEnabled = false
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proc enableWireServices(ctx: FullCtxRef) =
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## Enable services again
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ctx.ethWireCtx.txPoolEnabled = true
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# ------------------------------------------------------------------------------
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# Private functions
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# ------------------------------------------------------------------------------
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proc topUsedNumber(
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ctx: FullCtxRef;
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backBlocks = maxHeadersFetch;
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): Result[BlockNumber,void] =
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var
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top = 0.toBlockNumber
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try:
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let
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bestNumber = ctx.chain.db.getCanonicalHead().blockNumber
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nBackBlocks = backBlocks.toBlockNumber
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# Initialise before best block number
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if nBackBlocks < bestNumber:
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top = bestNumber - nBackBlocks
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except CatchableError as e:
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error "Best block header problem", backBlocks, error=($e.name), msg=e.msg
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return err()
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ok(top)
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proc tickerUpdater(ctx: FullCtxRef): TickerFullStatsUpdater =
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result = proc: auto =
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var stats: BlockQueueStats
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ctx.pool.bCtx.blockQueueStats(stats)
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let suspended =
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0 < ctx.pool.suspendAt and ctx.pool.suspendAt < stats.topAccepted
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TickerFullStats(
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topPersistent: stats.topAccepted,
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nextStaged: stats.nextStaged,
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nextUnprocessed: stats.nextUnprocessed,
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nStagedQueue: stats.nStagedQueue,
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suspended: suspended,
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reOrg: stats.reOrg)
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proc processStaged(buddy: FullBuddyRef): bool =
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## Fetch a work item from the `staged` queue an process it to be
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## stored on the persistent block chain.
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let
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ctx {.used.} = buddy.ctx
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peer = buddy.peer
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chainDb = buddy.ctx.chain.db
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chain = buddy.ctx.chain
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bq = buddy.only.bQueue
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# Get a work item, a list of headers + bodies
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wi = block:
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let rc = bq.blockQueueFetchStaged()
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if rc.isErr:
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return false
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rc.value
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#startNumber = wi.headers[0].blockNumber -- unused
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# Store in persistent database
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try:
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if chain.persistBlocks(wi.headers, wi.bodies).isOk():
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bq.blockQueueAccept(wi)
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return true
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except CatchableError as e:
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error "Storing persistent blocks failed", peer, range=($wi.blocks),
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error = $e.name, msg = e.msg
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# Something went wrong. Recycle work item (needs to be re-fetched, anyway)
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let
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parentHash = wi.headers[0].parentHash
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try:
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# Check whether hash of the first block is consistent
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var parent: BlockHeader
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if chainDb.getBlockHeader(parentHash, parent):
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# First block parent is ok, so there might be other problems. Re-fetch
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# the blocks from another peer.
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trace "Storing persistent blocks failed", peer, range=($wi.blocks)
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bq.blockQueueRecycle(wi)
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buddy.ctrl.zombie = true
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return false
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except CatchableError as e:
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error "Failed to access parent blocks", peer,
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blockNumber=wi.headers[0].blockNumber.pp, error=($e.name), msg=e.msg
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# Parent block header problem, so we might be in the middle of a re-org.
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# Set single mode backtrack following the offending parent hash.
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bq.blockQueueBacktrackFrom(wi)
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buddy.ctrl.multiOk = false
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if wi.topHash.isNone:
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# Assuming that currently staged entries are on the wrong branch
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bq.blockQueueRecycleStaged()
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notice "Starting chain re-org backtrack work item", peer, range=($wi.blocks)
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else:
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# Leave that block range in the staged list
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trace "Resuming chain re-org backtrack work item", peer, range=($wi.blocks)
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discard
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return false
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proc suspendDownload(buddy: FullBuddyRef): bool =
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## Check whether downloading should be suspended
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let ctx = buddy.ctx
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if ctx.exCtrlFile.isSome:
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let rc = ctx.exCtrlFile.syncCtrlBlockNumberFromFile
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if rc.isOk:
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ctx.pool.suspendAt = rc.value
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if 0 < ctx.pool.suspendAt:
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return ctx.pool.suspendAt < buddy.only.bQueue.topAccepted
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# ------------------------------------------------------------------------------
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# Public start/stop and admin functions
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# ------------------------------------------------------------------------------
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proc setup*(ctx: FullCtxRef): bool =
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## Global set up
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ctx.pool.pivot = BestPivotCtxRef.init(ctx.pool.rng)
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let rc = ctx.topUsedNumber(backBlocks = 0)
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if rc.isErr:
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ctx.pool.bCtx = BlockQueueCtxRef.init()
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return false
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ctx.pool.bCtx = BlockQueueCtxRef.init(rc.value + 1)
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if ctx.pool.enableTicker:
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ctx.pool.ticker = TickerRef.init(ctx.tickerUpdater)
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else:
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debug "Ticker is disabled"
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if ctx.exCtrlFile.isSome:
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warn "Full sync accepts suspension request block number",
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syncCtrlFile=ctx.exCtrlFile.get
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ctx.disableWireServices()
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true
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proc release*(ctx: FullCtxRef) =
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## Global clean up
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ctx.pool.pivot = nil
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if not ctx.pool.ticker.isNil:
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ctx.pool.ticker.stop()
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ctx.enableWireServices() # restore to default
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proc start*(buddy: FullBuddyRef): bool =
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## Initialise worker peer
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let
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ctx = buddy.ctx
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peer = buddy.peer
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if peer.supports(protocol.eth) and
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peer.state(protocol.eth).initialized:
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if not ctx.pool.ticker.isNil:
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ctx.pool.ticker.startBuddy()
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buddy.only.pivot =
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BestPivotWorkerRef.init(ctx.pool.pivot, buddy.ctrl, buddy.peer)
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buddy.only.bQueue = BlockQueueWorkerRef.init(
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ctx.pool.bCtx, buddy.ctrl, peer)
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return true
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proc stop*(buddy: FullBuddyRef) =
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## Clean up this peer
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let ctx = buddy.ctx
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buddy.ctrl.stopped = true
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buddy.only.pivot.clear()
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if not ctx.pool.ticker.isNil:
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ctx.pool.ticker.stopBuddy()
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# ------------------------------------------------------------------------------
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# Public functions
|
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# ------------------------------------------------------------------------------
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proc runDaemon*(ctx: FullCtxRef) {.async.} =
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## Global background job that will be re-started as long as the variable
|
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## `ctx.daemon` is set `true`. If that job was stopped due to re-setting
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## `ctx.daemon` to `false`, it will be restarted next after it was reset
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## as `true` not before there is some activity on the `runPool()`,
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## `runSingle()`, or `runMulti()` functions.
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##
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case ctx.pool.pivotState:
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of FirstPivotSeen:
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let elapsed = Moment.now() - ctx.pool.pivotStamp
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if FirstPivotSeenTimeout < elapsed:
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# Switch to single peer pivot negotiation
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ctx.pool.pivot.pivotRelaxedMode(enable = true)
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# Currently no need for other monitor tasks
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ctx.daemon = false
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when extraTraceMessages:
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trace "First seen pivot timeout", elapsed,
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pivotState=ctx.pool.pivotState
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return
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# Otherwise delay for some time
|
||||
|
||||
of FirstPivotAccepted:
|
||||
let elapsed = Moment.now() - ctx.pool.pivotStamp
|
||||
if FirstPivotAcceptedTimeout < elapsed:
|
||||
# Switch to single peer pivot negotiation
|
||||
ctx.pool.pivot.pivotRelaxedMode(enable = true)
|
||||
|
||||
# Use currents pivot next time `runSingle()` is visited. This bent is
|
||||
# necessary as there must be a peer initialising and syncing blocks. But
|
||||
# this daemon has no peer assigned.
|
||||
ctx.pool.pivotState = FirstPivotUseRegardless
|
||||
|
||||
# Currently no need for other monitor tasks
|
||||
ctx.daemon = false
|
||||
|
||||
when extraTraceMessages:
|
||||
trace "First accepted pivot timeout", elapsed,
|
||||
pivotState=ctx.pool.pivotState
|
||||
return
|
||||
# Otherwise delay for some time
|
||||
|
||||
else:
|
||||
# Currently no need for other monitior tasks
|
||||
ctx.daemon = false
|
||||
return
|
||||
|
||||
# Without waiting, this function repeats every 50ms (as set with the constant
|
||||
# `sync_sched.execLoopTimeElapsedMin`.) Larger waiting time cleans up logging.
|
||||
await sleepAsync 300.milliseconds
|
||||
|
||||
|
||||
proc runSingle*(buddy: FullBuddyRef) {.async.} =
|
||||
## This peer worker is invoked if the peer-local flag `buddy.ctrl.multiOk`
|
||||
## is set `false` which is the default mode. This flag is updated by the
|
||||
## worker when deemed appropriate.
|
||||
## * For all workers, there can be only one `runSingle()` function active
|
||||
## simultaneously for all worker peers.
|
||||
## * There will be no `runMulti()` function active for the same worker peer
|
||||
## simultaneously
|
||||
## * There will be no `runPool()` iterator active simultaneously.
|
||||
##
|
||||
## Note that this function runs in `async` mode.
|
||||
##
|
||||
let
|
||||
ctx = buddy.ctx
|
||||
peer {.used.} = buddy.peer
|
||||
bq = buddy.only.bQueue
|
||||
pv = buddy.only.pivot
|
||||
|
||||
when extraTraceMessages:
|
||||
trace "Single mode begin", peer, pivotState=ctx.pool.pivotState
|
||||
|
||||
case ctx.pool.pivotState:
|
||||
of PivotStateInitial:
|
||||
# Set initial state on first encounter
|
||||
ctx.pool.pivotState = FirstPivotSeen
|
||||
ctx.pool.pivotStamp = Moment.now()
|
||||
ctx.daemon = true # Start monitor
|
||||
|
||||
of FirstPivotSeen, FirstPivotAccepted:
|
||||
discard
|
||||
|
||||
of FirstPivotUseRegardless:
|
||||
# Magic case when we accept anything under the sun
|
||||
let rc = pv.pivotHeader(relaxedMode=true)
|
||||
if rc.isOK:
|
||||
# Update/activate `bestNumber` from the pivot header
|
||||
bq.bestNumber = Opt.some(rc.value.blockNumber)
|
||||
ctx.pool.pivotState = PivotRunMode
|
||||
buddy.ctrl.multiOk = true
|
||||
trace "Single pivot accepted", peer, pivot=('#' & $bq.bestNumber.get)
|
||||
return # stop logging, otherwise unconditional return for this case
|
||||
|
||||
when extraTraceMessages:
|
||||
trace "Single mode stopped", peer, pivotState=ctx.pool.pivotState
|
||||
return # unconditional return for this case
|
||||
|
||||
of PivotRunMode:
|
||||
# Sync backtrack runs in single mode
|
||||
if bq.blockQueueBacktrackOk:
|
||||
let rc = await bq.blockQueueBacktrackWorker()
|
||||
if rc.isOk:
|
||||
# Update persistent database (may reset `multiOk`)
|
||||
buddy.ctrl.multiOk = true
|
||||
while buddy.processStaged() and not buddy.ctrl.stopped:
|
||||
# Allow thread switch as `persistBlocks()` might be slow
|
||||
await sleepAsync(10.milliseconds)
|
||||
when extraTraceMessages:
|
||||
trace "Single backtrack mode done", peer
|
||||
return
|
||||
|
||||
buddy.ctrl.zombie = true
|
||||
|
||||
when extraTraceMessages:
|
||||
trace "Single backtrack mode stopped", peer
|
||||
return
|
||||
# End case()
|
||||
|
||||
# Negotiate in order to derive the pivot header from this `peer`. This code
|
||||
# location here is reached when there was no compelling reason for the
|
||||
# `case()` handler to process and `return`.
|
||||
if await pv.pivotNegotiate(buddy.only.bQueue.bestNumber):
|
||||
# Update/activate `bestNumber` from the pivot header
|
||||
bq.bestNumber = Opt.some(pv.pivotHeader.value.blockNumber)
|
||||
ctx.pool.pivotState = PivotRunMode
|
||||
buddy.ctrl.multiOk = true
|
||||
trace "Pivot accepted", peer, pivot=('#' & $bq.bestNumber.get)
|
||||
return
|
||||
|
||||
if buddy.ctrl.stopped:
|
||||
when extraTraceMessages:
|
||||
trace "Single mode stopped", peer, pivotState=ctx.pool.pivotState
|
||||
return # done with this buddy
|
||||
|
||||
var napping = 2.seconds
|
||||
case ctx.pool.pivotState:
|
||||
of FirstPivotSeen:
|
||||
# Possible state transition
|
||||
if pv.pivotHeader(relaxedMode=true).isOk:
|
||||
ctx.pool.pivotState = FirstPivotAccepted
|
||||
ctx.pool.pivotStamp = Moment.now()
|
||||
napping = 300.milliseconds
|
||||
of FirstPivotAccepted:
|
||||
napping = 300.milliseconds
|
||||
else:
|
||||
discard
|
||||
|
||||
when extraTraceMessages:
|
||||
trace "Single mode end", peer, pivotState=ctx.pool.pivotState, napping
|
||||
|
||||
# Without waiting, this function repeats every 50ms (as set with the constant
|
||||
# `sync_sched.execLoopTimeElapsedMin`.)
|
||||
await sleepAsync napping
|
||||
|
||||
|
||||
proc runPool*(buddy: FullBuddyRef; last: bool; laps: int): bool =
|
||||
## Once started, the function `runPool()` is called for all worker peers in
|
||||
## sequence as the body of an iteration as long as the function returns
|
||||
## `false`. There will be no other worker peer functions activated
|
||||
## simultaneously.
|
||||
##
|
||||
## This procedure is started if the global flag `buddy.ctx.poolMode` is set
|
||||
## `true` (default is `false`.) It will be automatically reset before the
|
||||
## the loop starts. Re-setting it again results in repeating the loop. The
|
||||
## argument `lap` (starting with `0`) indicated the currend lap of the
|
||||
## repeated loops.
|
||||
##
|
||||
## The argument `last` is set `true` if the last entry is reached.
|
||||
##
|
||||
## Note that this function does not run in `async` mode.
|
||||
##
|
||||
# Mind the gap, fill in if necessary (function is peer independent)
|
||||
buddy.only.bQueue.blockQueueGrout()
|
||||
true # Stop after running once regardless of peer
|
||||
|
||||
proc runMulti*(buddy: FullBuddyRef) {.async.} =
|
||||
## This peer worker is invoked if the `buddy.ctrl.multiOk` flag is set
|
||||
## `true` which is typically done after finishing `runSingle()`. This
|
||||
## instance can be simultaneously active for all peer workers.
|
||||
##
|
||||
let
|
||||
ctx = buddy.ctx
|
||||
bq = buddy.only.bQueue
|
||||
|
||||
if buddy.suspendDownload:
|
||||
# Sleep for a while, then leave
|
||||
await sleepAsync(10.seconds)
|
||||
return
|
||||
|
||||
# Fetch work item
|
||||
let rc = await bq.blockQueueWorker()
|
||||
if rc.isErr:
|
||||
if rc.error == StagedQueueOverflow:
|
||||
# Mind the gap: Turn on pool mode if there are too may staged items.
|
||||
ctx.poolMode = true
|
||||
else:
|
||||
return
|
||||
|
||||
# Update persistent database
|
||||
while buddy.processStaged() and not buddy.ctrl.stopped:
|
||||
# Allow thread switch as `persistBlocks()` might be slow
|
||||
await sleepAsync(10.milliseconds)
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# End
|
||||
# ------------------------------------------------------------------------------
|
|
@ -1,50 +0,0 @@
|
|||
# Nimbus
|
||||
# Copyright (c) 2021-2024 Status Research & Development GmbH
|
||||
# Licensed and distributed under either of
|
||||
# * MIT license (license terms in the root directory or at
|
||||
# https://opensource.org/licenses/MIT).
|
||||
# * Apache v2 license (license terms in the root directory or at
|
||||
# https://www.apache.org/licenses/LICENSE-2.0).
|
||||
# at your option. This file may not be copied, modified, or distributed
|
||||
# except according to those terms.
|
||||
|
||||
{.push raises:[].}
|
||||
|
||||
import
|
||||
eth/p2p,
|
||||
chronos,
|
||||
../sync_desc,
|
||||
../misc/[best_pivot, block_queue, ticker]
|
||||
|
||||
type
|
||||
PivotState* = enum
|
||||
PivotStateInitial, ## Initial state
|
||||
FirstPivotSeen, ## Starting, first pivot seen
|
||||
FirstPivotAccepted, ## Accepted, waiting for second
|
||||
FirstPivotUseRegardless ## Force pivot if available
|
||||
PivotRunMode ## SNAFU after some magic
|
||||
|
||||
FullBuddyData* = object
|
||||
## Local descriptor data extension
|
||||
pivot*: BestPivotWorkerRef ## Local pivot worker descriptor
|
||||
bQueue*: BlockQueueWorkerRef ## Block queue worker
|
||||
|
||||
FullCtxData* = object
|
||||
## Globally shared data extension
|
||||
rng*: ref HmacDrbgContext ## Random generator, pre-initialised
|
||||
pivot*: BestPivotCtxRef ## Global pivot descriptor
|
||||
pivotState*: PivotState ## For initial pivot control
|
||||
pivotStamp*: Moment ## `PivotState` driven timing control
|
||||
bCtx*: BlockQueueCtxRef ## Global block queue descriptor
|
||||
suspendAt*: BlockNumber ## Suspend if persistent head is larger
|
||||
|
||||
enableTicker*: bool ## Advisary, extra level of gossip
|
||||
ticker*: TickerRef ## Logger ticker
|
||||
|
||||
FullBuddyRef* = BuddyRef[FullCtxData,FullBuddyData]
|
||||
## Extended worker peer descriptor
|
||||
|
||||
FullCtxRef* = CtxRef[FullCtxData]
|
||||
## Extended global descriptor
|
||||
|
||||
# End
|
|
@ -1,474 +0,0 @@
|
|||
# Nimbus
|
||||
# Copyright (c) 2018-2024 Status Research & Development GmbH
|
||||
# Licensed and distributed under either of
|
||||
# * MIT license (license terms in the root directory or at
|
||||
# https://opensource.org/licenses/MIT).
|
||||
# * Apache v2 license (license terms in the root directory or at
|
||||
# https://www.apache.org/licenses/LICENSE-2.0).
|
||||
# at your option. This file may not be copied, modified, or distributed
|
||||
# except according to those terms.
|
||||
|
||||
## Negotiate a pivot header base on the *best header* values. Buddies that
|
||||
## cannot provide a minimal block number will be disconnected.
|
||||
##
|
||||
## Ackn: nim-eth/eth/p2p/blockchain_sync.nim: `startSyncWithPeer()`
|
||||
|
||||
import
|
||||
std/[hashes, options, sets],
|
||||
chronicles,
|
||||
chronos,
|
||||
eth/[common, p2p],
|
||||
stew/byteutils,
|
||||
".."/[protocol, sync_desc, types]
|
||||
|
||||
{.push raises:[].}
|
||||
|
||||
logScope:
|
||||
topics = "best-pivot"
|
||||
|
||||
const
|
||||
extraTraceMessages = false or true
|
||||
## Additional trace commands
|
||||
|
||||
minPeersToStartSync = 2
|
||||
## Wait for consensus of at least this number of peers before syncing.
|
||||
|
||||
failCountMax = 3
|
||||
## Stop after a peer fails too often while negotiating. This happens if
|
||||
## a peer responses repeatedly with useless data.
|
||||
|
||||
type
|
||||
BestPivotCtxRef* = ref object of RootRef
|
||||
## Data shared by all peers.
|
||||
rng: ref HmacDrbgContext ## Random generator
|
||||
untrusted: HashSet[Peer] ## Clean up list
|
||||
trusted: HashSet[Peer] ## Peers ready for delivery
|
||||
relaxed: HashSet[Peer] ## Peers accepted in relaxed mode
|
||||
relaxedMode: bool ## Not using strictly `trusted` set
|
||||
minPeers: int ## Minimum peers needed in non-relaxed mode
|
||||
comFailMax: int ## Stop peer after too many communication errors
|
||||
|
||||
BestPivotWorkerRef* = ref object of RootRef
|
||||
## Data for this peer only
|
||||
global: BestPivotCtxRef ## Common data
|
||||
header: Option[BlockHeader] ## Pivot header (if any)
|
||||
ctrl: BuddyCtrlRef ## Control and state settings
|
||||
peer: Peer ## network peer
|
||||
comFailCount: int ## Beware of repeated network errors
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private helpers
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
#proc hash(peer: Peer): Hash =
|
||||
# ## Mixin `HashSet[Peer]` handler
|
||||
# hash(cast[pointer](peer))
|
||||
|
||||
template safeTransport(
|
||||
bp: BestPivotWorkerRef;
|
||||
info: static[string];
|
||||
code: untyped) =
|
||||
try:
|
||||
code
|
||||
except TransportError as e:
|
||||
error info & ", stop", peer=bp.peer, error=($e.name), msg=e.msg
|
||||
bp.ctrl.stopped = true
|
||||
|
||||
|
||||
proc rand(r: ref HmacDrbgContext; maxVal: uint64): uint64 =
|
||||
# github.com/nim-lang/Nim/tree/version-1-6/lib/pure/random.nim#L216
|
||||
const
|
||||
randMax = high(uint64)
|
||||
if 0 < maxVal:
|
||||
if maxVal == randMax:
|
||||
var x: uint64
|
||||
r[].generate(x)
|
||||
return x
|
||||
while true:
|
||||
var x: uint64
|
||||
r[].generate(x)
|
||||
# avoid `mod` bias, so `x <= n*maxVal <= randMax` for some integer `n`
|
||||
if x <= randMax - (randMax mod maxVal):
|
||||
# uint -> int
|
||||
return x mod (maxVal + 1)
|
||||
|
||||
proc rand(r: ref HmacDrbgContext; maxVal: int): int =
|
||||
if 0 < maxVal: # somehow making sense of `maxVal = -1`
|
||||
return cast[int](r.rand(maxVal.uint64))
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private functions
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc getRandomTrustedPeer(bp: BestPivotWorkerRef): Result[Peer,void] =
|
||||
## Return random entry from `trusted` peer different from this peer set if
|
||||
## there are enough
|
||||
##
|
||||
## Ackn: nim-eth/eth/p2p/blockchain_sync.nim: `randomTrustedPeer()`
|
||||
let
|
||||
nPeers = bp.global.trusted.len
|
||||
offInx = if bp.peer in bp.global.trusted: 2 else: 1
|
||||
if 0 < nPeers:
|
||||
var (walkInx, stopInx) = (0, bp.global.rng.rand(nPeers - offInx))
|
||||
for p in bp.global.trusted:
|
||||
if p == bp.peer:
|
||||
continue
|
||||
if walkInx == stopInx:
|
||||
return ok(p)
|
||||
walkInx.inc
|
||||
err()
|
||||
|
||||
proc getBestHeader(
|
||||
bp: BestPivotWorkerRef;
|
||||
): Future[Result[BlockHeader,void]]
|
||||
{.async.} =
|
||||
## Get best block number from best block hash.
|
||||
##
|
||||
## Ackn: nim-eth/eth/p2p/blockchain_sync.nim: `getBestBlockNumber()`
|
||||
let
|
||||
peer = bp.peer
|
||||
startHash = peer.state(eth).bestBlockHash
|
||||
reqLen = 1u
|
||||
hdrReq = BlocksRequest(
|
||||
startBlock: HashOrNum(
|
||||
isHash: true,
|
||||
hash: startHash),
|
||||
maxResults: reqLen,
|
||||
skip: 0,
|
||||
reverse: true)
|
||||
|
||||
trace trEthSendSendingGetBlockHeaders, peer,
|
||||
startBlock=startHash.data.toHex, reqLen
|
||||
|
||||
var hdrResp: Option[blockHeadersObj]
|
||||
bp.safeTransport("Error fetching block header"):
|
||||
hdrResp = await peer.getBlockHeaders(hdrReq)
|
||||
if bp.ctrl.stopped:
|
||||
return err()
|
||||
|
||||
if hdrResp.isNone:
|
||||
bp.comFailCount.inc
|
||||
trace trEthRecvReceivedBlockHeaders, peer, reqLen,
|
||||
hdrRespLen="n/a", comFailCount=bp.comFailCount
|
||||
if bp.global.comFailMax < bp.comFailCount:
|
||||
bp.ctrl.zombie = true
|
||||
return err()
|
||||
|
||||
let hdrRespLen = hdrResp.get.headers.len
|
||||
if hdrRespLen == 1:
|
||||
let
|
||||
header = hdrResp.get.headers[0]
|
||||
blockNumber {.used.} = header.blockNumber
|
||||
trace trEthRecvReceivedBlockHeaders, peer, hdrRespLen, blockNumber
|
||||
bp.comFailCount = 0 # reset fail count
|
||||
return ok(header)
|
||||
|
||||
bp.comFailCount.inc
|
||||
trace trEthRecvReceivedBlockHeaders, peer, reqLen,
|
||||
hdrRespLen, comFailCount=bp.comFailCount
|
||||
if bp.global.comFailMax < bp.comFailCount:
|
||||
bp.ctrl.zombie = true
|
||||
return err()
|
||||
|
||||
proc agreesOnChain(
|
||||
bp: BestPivotWorkerRef;
|
||||
other: Peer;
|
||||
): Future[Result[void,bool]]
|
||||
{.async.} =
|
||||
## Returns `true` if one of the peers `bp.peer` or `other` acknowledges
|
||||
## existence of the best block of the other peer. The values returned mean
|
||||
## * ok() -- `peer` is trusted
|
||||
## * err(true) -- `peer` is untrusted
|
||||
## * err(false) -- `other` is dead
|
||||
##
|
||||
## Ackn: nim-eth/eth/p2p/blockchain_sync.nim: `peersAgreeOnChain()`
|
||||
let
|
||||
peer = bp.peer
|
||||
var
|
||||
start = peer
|
||||
fetch = other
|
||||
swapped = false
|
||||
# Make sure that `fetch` has not the smaller difficulty.
|
||||
if fetch.state(eth).bestDifficulty < start.state(eth).bestDifficulty:
|
||||
swap(fetch, start)
|
||||
swapped = true
|
||||
|
||||
let
|
||||
startHash = start.state(eth).bestBlockHash
|
||||
hdrReq = BlocksRequest(
|
||||
startBlock: HashOrNum(
|
||||
isHash: true,
|
||||
hash: startHash),
|
||||
maxResults: 1,
|
||||
skip: 0,
|
||||
reverse: true)
|
||||
|
||||
trace trEthSendSendingGetBlockHeaders, peer, start, fetch,
|
||||
startBlock=startHash.data.toHex, hdrReqLen=1, swapped
|
||||
|
||||
var hdrResp: Option[blockHeadersObj]
|
||||
bp.safeTransport("Error fetching block header"):
|
||||
hdrResp = await fetch.getBlockHeaders(hdrReq)
|
||||
if bp.ctrl.stopped:
|
||||
if swapped:
|
||||
return err(true)
|
||||
# No need to terminate `peer` if it was the `other`, failing nevertheless
|
||||
bp.ctrl.stopped = false
|
||||
return err(false)
|
||||
|
||||
if hdrResp.isSome:
|
||||
let hdrRespLen = hdrResp.get.headers.len
|
||||
if 0 < hdrRespLen:
|
||||
let blockNumber {.used.} = hdrResp.get.headers[0].blockNumber
|
||||
trace trEthRecvReceivedBlockHeaders, peer, start, fetch,
|
||||
hdrRespLen, blockNumber
|
||||
return ok()
|
||||
|
||||
trace trEthRecvReceivedBlockHeaders, peer, start, fetch,
|
||||
blockNumber="n/a", swapped
|
||||
return err(true)
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public functions, constructor
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc init*(
|
||||
T: type BestPivotCtxRef; ## Global data descriptor type
|
||||
rng: ref HmacDrbgContext; ## Random generator
|
||||
minPeers = minPeersToStartSync; ## Consensus of at least this #of peers
|
||||
failMax = failCountMax; ## Stop peer after too many com. errors
|
||||
): T =
|
||||
## Global constructor, shared data. If `minPeers` is smaller that `2`,
|
||||
## relaxed mode will be enabled (see also `pivotRelaxedMode()`.)
|
||||
result = T(rng: rng,
|
||||
minPeers: minPeers,
|
||||
comFailMax: failCountMax)
|
||||
if minPeers < 2:
|
||||
result.minPeers = minPeersToStartSync
|
||||
result.relaxedMode = true
|
||||
|
||||
|
||||
proc init*(
|
||||
T: type BestPivotWorkerRef; ## Global data descriptor type
|
||||
ctx: BestPivotCtxRef; ## Global data descriptor
|
||||
ctrl: BuddyCtrlRef; ## Control and state settings
|
||||
peer: Peer; ## For fetching data from network
|
||||
): T =
|
||||
## Buddy/local constructor
|
||||
T(global: ctx,
|
||||
header: none(BlockHeader),
|
||||
ctrl: ctrl,
|
||||
peer: peer)
|
||||
|
||||
proc clear*(bp: BestPivotWorkerRef) =
|
||||
## Reset descriptor
|
||||
bp.global.untrusted.incl bp.peer
|
||||
bp.header = none(BlockHeader)
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public functions
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc nPivotApproved*(ctx: BestPivotCtxRef): int =
|
||||
## Number of trusted or relax mode approved pivots
|
||||
(ctx.trusted + ctx.relaxed - ctx.untrusted).len
|
||||
|
||||
proc pivotRelaxedMode*(ctx: BestPivotCtxRef; enable = false) =
|
||||
## Controls relaxed mode. In relaxed mode, the *best header* is fetched
|
||||
## from the network and used as pivot if its block number is large enough.
|
||||
## Otherwise, the default is to find at least `pivotMinPeersToStartSync`
|
||||
## peers (this one included) that agree on a minimum pivot.
|
||||
ctx.relaxedMode = enable
|
||||
|
||||
proc pivotHeader*(bp: BestPivotWorkerRef): Result[BlockHeader,void] =
|
||||
## Returns cached block header if available and the buddy `peer` is trusted.
|
||||
## In relaxed mode (see `pivotRelaxedMode()`), also lesser trusted pivots
|
||||
## are returned.
|
||||
if bp.header.isSome and
|
||||
bp.peer notin bp.global.untrusted:
|
||||
|
||||
if bp.global.minPeers <= bp.global.trusted.len and
|
||||
bp.peer in bp.global.trusted:
|
||||
return ok(bp.header.unsafeGet)
|
||||
|
||||
if bp.global.relaxedMode:
|
||||
when extraTraceMessages:
|
||||
trace "Returning not fully trusted pivot", peer=bp.peer,
|
||||
trusted=bp.global.trusted.len, untrusted=bp.global.untrusted.len
|
||||
return ok(bp.header.unsafeGet)
|
||||
|
||||
err()
|
||||
|
||||
proc pivotHeader*(
|
||||
bp: BestPivotWorkerRef; ## Worker peer
|
||||
relaxedMode: bool; ## One time relaxed mode flag
|
||||
): Result[BlockHeader,void] =
|
||||
## Variant of `pivotHeader()` with `relaxedMode` flag as function argument.
|
||||
if bp.header.isSome and
|
||||
bp.peer notin bp.global.untrusted:
|
||||
|
||||
if bp.global.minPeers <= bp.global.trusted.len and
|
||||
bp.peer in bp.global.trusted:
|
||||
return ok(bp.header.unsafeGet)
|
||||
|
||||
if relaxedMode:
|
||||
when extraTraceMessages:
|
||||
trace "Returning not fully trusted pivot", peer=bp.peer,
|
||||
trusted=bp.global.trusted.len, untrusted=bp.global.untrusted.len
|
||||
return ok(bp.header.unsafeGet)
|
||||
|
||||
err()
|
||||
|
||||
proc pivotNegotiate*(
|
||||
bp: BestPivotWorkerRef; ## Worker peer
|
||||
minBlockNumber: Opt[BlockNumber]; ## Minimum block number to expect
|
||||
): Future[bool]
|
||||
{.async.} =
|
||||
## Negotiate best header pivot. This function must be run in *single mode* at
|
||||
## the beginning of a running worker peer. If the function returns `true`,
|
||||
## the current `buddy` can be used for syncing and the function
|
||||
## `bestPivotHeader()` will succeed returning a `BlockHeader`.
|
||||
##
|
||||
## In relaxed mode (see `pivotRelaxedMode()`), negotiation stopps when there
|
||||
## is a *best header*. It caches the best header and returns `true` it the
|
||||
## block number is large enough.
|
||||
##
|
||||
## Ackn: nim-eth/eth/p2p/blockchain_sync.nim: `startSyncWithPeer()`
|
||||
##
|
||||
let peer = bp.peer
|
||||
|
||||
# Delayed clean up batch list
|
||||
if 0 < bp.global.untrusted.len:
|
||||
when extraTraceMessages:
|
||||
trace "Removing untrusted peers", peer, trusted=bp.global.trusted.len,
|
||||
untrusted=bp.global.untrusted.len, runState=bp.ctrl.state
|
||||
bp.global.trusted = bp.global.trusted - bp.global.untrusted
|
||||
bp.global.relaxed = bp.global.relaxed - bp.global.untrusted
|
||||
bp.global.untrusted.clear()
|
||||
|
||||
if bp.header.isNone:
|
||||
when extraTraceMessages:
|
||||
# Only log for the first time (if any)
|
||||
trace "Pivot initialisation", peer,
|
||||
trusted=bp.global.trusted.len, runState=bp.ctrl.state
|
||||
|
||||
let rc = await bp.getBestHeader()
|
||||
# Beware of peer terminating the session right after communicating
|
||||
if rc.isErr or bp.ctrl.stopped:
|
||||
return false
|
||||
let
|
||||
bestNumber = rc.value.blockNumber
|
||||
minNumber = minBlockNumber.get(otherwise = 0.toBlockNumber)
|
||||
if bestNumber < minNumber:
|
||||
bp.ctrl.zombie = true
|
||||
trace "Useless peer, best number too low", peer,
|
||||
trusted=bp.global.trusted.len, runState=bp.ctrl.state,
|
||||
minNumber, bestNumber
|
||||
return false
|
||||
bp.header = some(rc.value)
|
||||
|
||||
# No further negotiation if in relaxed mode
|
||||
if bp.global.relaxedMode:
|
||||
bp.global.relaxed.incl bp.peer
|
||||
return true
|
||||
|
||||
if bp.global.minPeers <= bp.global.trusted.len:
|
||||
# We have enough trusted peers. Validate new peer against trusted
|
||||
let rc = bp.getRandomTrustedPeer()
|
||||
if rc.isOK:
|
||||
let rx = await bp.agreesOnChain(rc.value)
|
||||
if rx.isOk:
|
||||
bp.global.trusted.incl peer
|
||||
when extraTraceMessages:
|
||||
let bestHeader {.used.} = if bp.header.isNone: "n/a"
|
||||
else: bp.header.unsafeGet.blockNumber.toStr
|
||||
trace "Accepting peer", peer, trusted=bp.global.trusted.len,
|
||||
untrusted=bp.global.untrusted.len, runState=bp.ctrl.state,
|
||||
bestHeader
|
||||
return true
|
||||
if not rx.error:
|
||||
# Other peer is dead
|
||||
bp.global.trusted.excl rc.value
|
||||
return false
|
||||
|
||||
# If there are no trusted peers yet, assume this very peer is trusted,
|
||||
# but do not finish initialisation until there are more peers.
|
||||
if bp.global.trusted.len == 0:
|
||||
bp.global.trusted.incl peer
|
||||
when extraTraceMessages:
|
||||
let bestHeader {.used.} = if bp.header.isNone: "n/a"
|
||||
else: bp.header.unsafeGet.blockNumber.toStr
|
||||
trace "Assume initial trusted peer", peer,
|
||||
trusted=bp.global.trusted.len, runState=bp.ctrl.state, bestHeader
|
||||
return false
|
||||
|
||||
if bp.global.trusted.len == 1 and bp.peer in bp.global.trusted:
|
||||
# Ignore degenerate case, note that `trusted.len < minPeersToStartSync`
|
||||
return false
|
||||
|
||||
# At this point we have some "trusted" candidates, but they are not
|
||||
# "trusted" enough. We evaluate `peer` against all other candidates. If
|
||||
# one of the candidates disagrees, we swap it for `peer`. If all candidates
|
||||
# agree, we add `peer` to trusted set. The peers in the set will become
|
||||
# "fully trusted" (and sync will start) when the set is big enough
|
||||
var
|
||||
agreeScore = 0
|
||||
otherPeer: Peer
|
||||
deadPeers: HashSet[Peer]
|
||||
when extraTraceMessages:
|
||||
trace "Trust scoring peer", peer,
|
||||
trusted=bp.global.trusted.len, runState=bp.ctrl.state
|
||||
for p in bp.global.trusted:
|
||||
if peer == p:
|
||||
inc agreeScore
|
||||
else:
|
||||
let rc = await bp.agreesOnChain(p)
|
||||
if rc.isOk:
|
||||
inc agreeScore
|
||||
elif bp.ctrl.stopped:
|
||||
# Beware of terminated session
|
||||
return false
|
||||
elif rc.error:
|
||||
otherPeer = p
|
||||
else:
|
||||
# `Other` peer is dead
|
||||
deadPeers.incl p
|
||||
|
||||
# Normalise
|
||||
if 0 < deadPeers.len:
|
||||
bp.global.trusted = bp.global.trusted - deadPeers
|
||||
if bp.global.trusted.len == 0 or
|
||||
bp.global.trusted.len == 1 and bp.peer in bp.global.trusted:
|
||||
return false
|
||||
|
||||
# Check for the number of peers that disagree
|
||||
case bp.global.trusted.len - agreeScore:
|
||||
of 0:
|
||||
bp.global.trusted.incl peer # best possible outcome
|
||||
when extraTraceMessages:
|
||||
trace "Agreeable trust score for peer", peer,
|
||||
trusted=bp.global.trusted.len, runState=bp.ctrl.state
|
||||
of 1:
|
||||
bp.global.trusted.excl otherPeer
|
||||
bp.global.trusted.incl peer
|
||||
when extraTraceMessages:
|
||||
trace "Other peer no longer trusted", peer,
|
||||
otherPeer, trusted=bp.global.trusted.len, runState=bp.ctrl.state
|
||||
else:
|
||||
when extraTraceMessages:
|
||||
trace "Peer not trusted", peer,
|
||||
trusted=bp.global.trusted.len, runState=bp.ctrl.state
|
||||
discard
|
||||
|
||||
# Evaluate status, finally
|
||||
if bp.global.minPeers <= bp.global.trusted.len:
|
||||
when extraTraceMessages:
|
||||
let bestHeader {.used.} = if bp.header.isNone: "n/a"
|
||||
else: bp.header.unsafeGet.blockNumber.toStr
|
||||
trace "Peer trusted now", peer,
|
||||
trusted=bp.global.trusted.len, runState=bp.ctrl.state, bestHeader
|
||||
return true
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# End
|
||||
# ------------------------------------------------------------------------------
|
|
@ -1,688 +0,0 @@
|
|||
# Nimbus
|
||||
# Copyright (c) 2018-2024 Status Research & Development GmbH
|
||||
# Licensed and distributed under either of
|
||||
# * MIT license (license terms in the root directory or at
|
||||
# https://opensource.org/licenses/MIT).
|
||||
# * Apache v2 license (license terms in the root directory or at
|
||||
# https://www.apache.org/licenses/LICENSE-2.0).
|
||||
# at your option. This file may not be copied, modified, or distributed
|
||||
# except according to those terms.
|
||||
|
||||
## Fetch and queue blocks
|
||||
## ======================
|
||||
##
|
||||
## Worker items state diagram and sketch of sync algorithm:
|
||||
## ::
|
||||
## unprocessed | | ready for | store into
|
||||
## block ranges | peer workers | persistent database | database
|
||||
## =======================================================================
|
||||
##
|
||||
## +------------------------------------------+
|
||||
## | |
|
||||
## | +----------------------------+ |
|
||||
## | | | |
|
||||
## V v | |
|
||||
## <unprocessed> ---+---> <worker-0> ---+-----> <staged> -------> OUTPUT
|
||||
## | |
|
||||
## +---> <worker-1> ---+
|
||||
## | |
|
||||
## +---> <worker-2> ---+
|
||||
## : :
|
||||
##
|
||||
## A work item is created from a range of block numbers extracted from the
|
||||
## `<unprocessed>` set of block ranges.
|
||||
##
|
||||
## A work item consists of a
|
||||
## * current state `<worker-#>` or `<staged>`
|
||||
## * given range of consecutive block numbers `[from..to]`
|
||||
## * sequence of block headers relating to `[from..to]` (to be completed)
|
||||
## * sequence of block buddies relating to `[from..to]` (to be completed)
|
||||
##
|
||||
## Block ranges *may* be recycled back into the `<unprocessed>` set when a
|
||||
## work item is destroyed. This is supposed to be an exceptional case.
|
||||
## Typically, a `<staged>` work item is added to the persistent block chain
|
||||
## database and destroyed without block range recycling.
|
||||
##
|
||||
## Beware of `<staged>` overflow
|
||||
## -----------------------------
|
||||
## When the `<staged>` queue gets too long in non-backtrack/re-org mode, this
|
||||
## may be caused by a gap between the least `<unprocessed>` block number and
|
||||
## the least `<staged>` block number. Then a mechanism is invoked where
|
||||
## `<unprocessed>` block range is updated.
|
||||
##
|
||||
## For backtrack/re-org the system runs in single instance mode tracing
|
||||
## backvards parent hash references. So updating `<unprocessed>` block numbers
|
||||
## would have no effect. In that case, the record with the largest block
|
||||
## numbers are deleted from the `<staged>` list.
|
||||
##
|
||||
{.push raises:[].}
|
||||
|
||||
import
|
||||
std/[algorithm, options, sequtils, strutils],
|
||||
chronicles,
|
||||
chronos,
|
||||
eth/p2p,
|
||||
stew/[byteutils, interval_set, sorted_set],
|
||||
../../utils/utils,
|
||||
".."/[protocol, sync_desc, types]
|
||||
|
||||
logScope:
|
||||
topics = "block-queue"
|
||||
|
||||
const
|
||||
maxStagedWorkItems = 70
|
||||
## Maximal items in the `staged` list.
|
||||
|
||||
stagedWorkItemsTrigger = 50
|
||||
## Turn on the global `poolMode` if there are more than this many items
|
||||
## staged.
|
||||
|
||||
type
|
||||
BlockQueueRC* = enum
|
||||
## Return & error codes
|
||||
AllSmileOk
|
||||
EmptyQueue
|
||||
StagedQueueOverflow
|
||||
BlockNumberGap
|
||||
BacktrackDisabled
|
||||
FetchHeadersError
|
||||
FetchBodiesError
|
||||
NoMoreUnprocessed
|
||||
NoMorePeerBlocks
|
||||
|
||||
BlockRangeSetRef = IntervalSetRef[BlockNumber,UInt256]
|
||||
## Disjunct sets of block number intervals
|
||||
|
||||
BlockRange = Interval[BlockNumber,UInt256]
|
||||
## Block number interval
|
||||
|
||||
BlockItemQueue = SortedSet[BlockNumber,BlockItemRef]
|
||||
## Block intervals sorted by least block number
|
||||
|
||||
BlockItemWalkRef = SortedSetWalkRef[BlockNumber,BlockItemRef]
|
||||
## Fast traversal descriptor for `BlockItemQueue`
|
||||
|
||||
BlockItemRef* = ref object
|
||||
## Public block items, OUTPUT
|
||||
blocks*: BlockRange ## Block numbers ranvge covered
|
||||
topHash*: Option[Hash256] ## Fetched by top hash rather than block
|
||||
headers*: seq[BlockHeader] ## Block headers received
|
||||
hashes*: seq[Hash256] ## Hashed from `headers[]` for convenience
|
||||
bodies*: seq[BlockBody] ## Block bodies received
|
||||
|
||||
BlockQueueCtxRef* = ref object
|
||||
## Globally shared data among `block` instances
|
||||
backtrack: Option[Hash256] ## Find reverse block after re-org
|
||||
unprocessed: BlockRangeSetRef ## Block ranges to fetch
|
||||
staged: BlockItemQueue ## Blocks fetched but not stored yet
|
||||
topAccepted: BlockNumber ## Up to this block number processed OK
|
||||
|
||||
BlockQueueWorkerRef* = ref object
|
||||
## Local descriptor data extension
|
||||
global: BlockQueueCtxRef ## Common data
|
||||
bestNumber: Opt[BlockNumber] ## Largest block number reported
|
||||
ctrl: BuddyCtrlRef ## Control and state settings
|
||||
peer: Peer ## network peer
|
||||
|
||||
BlockQueueStats* = object
|
||||
## Statistics
|
||||
topAccepted*: BlockNumber
|
||||
nextUnprocessed*: Opt[BlockNumber]
|
||||
nextStaged*: Opt[BlockNumber]
|
||||
nStagedQueue*: int
|
||||
reOrg*: bool
|
||||
|
||||
const
|
||||
extraTraceMessages = false or true
|
||||
## Enabled additional logging noise
|
||||
|
||||
highBlockNumber = high(BlockNumber)
|
||||
highBlockRange = BlockRange.new(highBlockNumber,highBlockNumber)
|
||||
|
||||
static:
|
||||
doAssert stagedWorkItemsTrigger < maxStagedWorkItems
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private helpers
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc `+`(n: BlockNumber; delta: static[int]): BlockNumber =
|
||||
## Syntactic sugar for expressions like `xxx.toBlockNumber + 1`
|
||||
n + delta.toBlockNumber
|
||||
|
||||
proc `-`(n: BlockNumber; delta: static[int]): BlockNumber =
|
||||
## Syntactic sugar for expressions like `xxx.toBlockNumber - 1`
|
||||
n - delta.toBlockNumber
|
||||
|
||||
proc merge(ivSet: BlockRangeSetRef; wi: BlockItemRef): Uint256 =
|
||||
## Syntactic sugar
|
||||
ivSet.merge(wi.blocks)
|
||||
|
||||
proc reduce(ivSet: BlockRangeSetRef; wi: BlockItemRef): Uint256 =
|
||||
## Syntactic sugar
|
||||
ivSet.reduce(wi.blocks)
|
||||
|
||||
# ---------------
|
||||
|
||||
proc `$`(iv: BlockRange): string =
|
||||
## Needed for macro generated DSL files like `snap.nim` because the
|
||||
## `distinct` flavour of `NodeTag` is discarded there.
|
||||
result = "[" & iv.minPt.toStr
|
||||
if iv.minPt != iv.maxPt:
|
||||
result &= "," & iv.maxPt.toStr
|
||||
result &= "]"
|
||||
|
||||
proc `$`(n: Option[BlockRange]): string =
|
||||
if n.isNone: "n/a" else: $n.get
|
||||
|
||||
proc `$`(n: Opt[BlockNumber]): string =
|
||||
n.toStr
|
||||
|
||||
proc `$`(brs: BlockRangeSetRef): string =
|
||||
"{" & toSeq(brs.increasing).mapIt($it).join(",") & "}"
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private helpers
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc nextUnprocessed(ctx: BlockQueueCtxRef): Opt[BlockNumber] =
|
||||
## Pseudo getter
|
||||
let rc = ctx.unprocessed.ge()
|
||||
if rc.isOK:
|
||||
result = Opt.some(rc.value.minPt)
|
||||
|
||||
proc nextStaged(ctx: BlockQueueCtxRef): Opt[BlockRange] =
|
||||
## Pseudo getter
|
||||
let rc = ctx.staged.ge(low(BlockNumber))
|
||||
if rc.isOK:
|
||||
result = Opt.some(rc.value.data.blocks)
|
||||
|
||||
template safeTransport(
|
||||
qd: BlockQueueWorkerRef;
|
||||
info: static[string];
|
||||
code: untyped) =
|
||||
try:
|
||||
code
|
||||
except TransportError as e:
|
||||
error info & ", stop", error=($e.name), msg=e.msg
|
||||
qd.ctrl.stopped = true
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private functions
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc newWorkItem(qd: BlockQueueWorkerRef): Result[BlockItemRef,BlockQueueRC] =
|
||||
## Fetch the next unprocessed block range and register it as work item.
|
||||
##
|
||||
## This function will grab a block range from the `unprocessed` range set,
|
||||
## ove it and return it as a `BlockItemRef`. The returned range is registered
|
||||
## in the `pending` list.
|
||||
let rc = qd.global.unprocessed.ge()
|
||||
if rc.isErr:
|
||||
return err(NoMoreUnprocessed) # no more data for this peer
|
||||
|
||||
# Check whether there is somthing to do at all
|
||||
if qd.bestNumber.isNone or
|
||||
qd.bestNumber.unsafeGet < rc.value.minPt:
|
||||
when extraTraceMessages:
|
||||
trace "no new work item", bestNumer=qd.bestNumber.toStr, range=rc.value
|
||||
return err(NoMorePeerBlocks) # no more data for this peer
|
||||
|
||||
# Compute interval
|
||||
let iv = BlockRange.new(
|
||||
rc.value.minPt,
|
||||
min(rc.value.maxPt,
|
||||
min(rc.value.minPt + maxHeadersFetch - 1, qd.bestNumber.unsafeGet)))
|
||||
|
||||
discard qd.global.unprocessed.reduce(iv)
|
||||
ok(BlockItemRef(blocks: iv))
|
||||
|
||||
|
||||
proc stageItem(
|
||||
qd: BlockQueueWorkerRef;
|
||||
wi: BlockItemRef;
|
||||
): Result[void,BlockQueueRC] =
|
||||
## Add work item to the list of staged items
|
||||
##
|
||||
## Typically, the function returns `AllSmileOk` unless there is a queue
|
||||
## oberflow (with return code`StagedQueueOverflow`) which needs to be handled
|
||||
## in *pool mode* by running `blockQueueGrout()`.
|
||||
var
|
||||
error = AllSmileOk
|
||||
let
|
||||
peer = qd.peer
|
||||
rc = qd.global.staged.insert(wi.blocks.minPt)
|
||||
if rc.isOk:
|
||||
rc.value.data = wi
|
||||
|
||||
# Return `true` if staged queue oberflows (unless backtracking.)
|
||||
if stagedWorkItemsTrigger < qd.global.staged.len and
|
||||
qd.global.backtrack.isNone and
|
||||
wi.topHash.isNone:
|
||||
debug "Staged queue too long", peer,
|
||||
staged=qd.global.staged.len, max=stagedWorkItemsTrigger
|
||||
error = StagedQueueOverflow
|
||||
|
||||
# The list size is limited. So cut if necessary and recycle back the block
|
||||
# range of the discarded item (tough luck if the current work item is the
|
||||
# one removed from top.)
|
||||
while maxStagedWorkItems < qd.global.staged.len:
|
||||
let topValue = qd.global.staged.le(highBlockNumber).value
|
||||
discard qd.global.unprocessed.merge(topValue.data)
|
||||
discard qd.global.staged.delete(topValue.key)
|
||||
else:
|
||||
# Ooops, duplicates should not exist (but anyway ...)
|
||||
let wj = block:
|
||||
let rc = qd.global.staged.eq(wi.blocks.minPt)
|
||||
doAssert rc.isOk
|
||||
# Store `wi` and return offending entry
|
||||
let rcData = rc.value.data
|
||||
rc.value.data = wi
|
||||
rcData
|
||||
|
||||
# Update `staged` list and `unprocessed` ranges
|
||||
block:
|
||||
debug "Replacing dup item in staged list", peer,
|
||||
range=($wi.blocks), discarded=($wj.blocks)
|
||||
let rc = wi.blocks - wj.blocks
|
||||
if rc.isOk:
|
||||
discard qd.global.unprocessed.merge(rc.value)
|
||||
|
||||
if error != AllSmileOk:
|
||||
return err(error)
|
||||
ok()
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private functions, asynchroneous data network activity
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc fetchHeaders(
|
||||
qd: BlockQueueWorkerRef;
|
||||
wi: BlockItemRef;
|
||||
): Future[bool]
|
||||
{.async.} =
|
||||
## Get the work item with the least interval and complete it. The function
|
||||
## returns `true` if bodies were fetched and there were no inconsistencies.
|
||||
if 0 < wi.hashes.len:
|
||||
return true
|
||||
|
||||
let peer = qd.peer
|
||||
var hdrReq: BlocksRequest
|
||||
if wi.topHash.isNone:
|
||||
hdrReq = BlocksRequest(
|
||||
startBlock: HashOrNum(
|
||||
isHash: false,
|
||||
number: wi.blocks.minPt),
|
||||
maxResults: wi.blocks.len.truncate(uint),
|
||||
skip: 0,
|
||||
reverse: false)
|
||||
trace trEthSendSendingGetBlockHeaders, peer,
|
||||
blocks=($wi.blocks)
|
||||
|
||||
else:
|
||||
hdrReq = BlocksRequest(
|
||||
startBlock: HashOrNum(
|
||||
isHash: true,
|
||||
hash: wi.topHash.get),
|
||||
maxResults: maxHeadersFetch,
|
||||
skip: 0,
|
||||
reverse: true)
|
||||
trace trEthSendSendingGetBlockHeaders & " reverse", peer,
|
||||
topHash=hdrReq.startBlock.hash, reqLen=hdrReq.maxResults
|
||||
|
||||
# Fetch headers from peer
|
||||
var hdrResp: Option[blockHeadersObj]
|
||||
block:
|
||||
let reqLen {.used.} = hdrReq.maxResults
|
||||
qd.safeTransport("Error fetching block headers"):
|
||||
hdrResp = await peer.getBlockHeaders(hdrReq)
|
||||
# Beware of peer terminating the session
|
||||
if qd.ctrl.stopped:
|
||||
return false
|
||||
|
||||
if hdrResp.isNone:
|
||||
trace trEthRecvReceivedBlockHeaders, peer, reqLen, respose="n/a"
|
||||
return false
|
||||
|
||||
let hdrRespLen = hdrResp.get.headers.len
|
||||
trace trEthRecvReceivedBlockHeaders, peer, reqLen, hdrRespLen
|
||||
|
||||
if hdrRespLen == 0:
|
||||
qd.ctrl.stopped = true
|
||||
return false
|
||||
|
||||
# Update block range for reverse search
|
||||
if wi.topHash.isSome:
|
||||
# Headers are in reversed order
|
||||
wi.headers = hdrResp.get.headers.reversed
|
||||
wi.blocks = BlockRange.new(
|
||||
wi.headers[0].blockNumber, wi.headers[^1].blockNumber)
|
||||
discard qd.global.unprocessed.reduce(wi)
|
||||
trace "Updated reverse header range", peer, range=($wi.blocks)
|
||||
|
||||
# Verify start block number
|
||||
elif hdrResp.get.headers[0].blockNumber != wi.blocks.minPt:
|
||||
trace "Header range starts with wrong block number", peer,
|
||||
startBlock=hdrResp.get.headers[0].blockNumber,
|
||||
requestedBlock=wi.blocks.minPt
|
||||
qd.ctrl.zombie = true
|
||||
return false
|
||||
|
||||
# Import into `wi.headers`
|
||||
else:
|
||||
wi.headers = system.move(hdrResp.get.headers)
|
||||
|
||||
# Calculate block header hashes and verify it against parent links. If
|
||||
# necessary, cut off some offending block headers tail.
|
||||
wi.hashes.setLen(wi.headers.len)
|
||||
wi.hashes[0] = wi.headers[0].hash
|
||||
for n in 1 ..< wi.headers.len:
|
||||
if wi.headers[n-1].blockNumber + 1 != wi.headers[n].blockNumber:
|
||||
trace "Non-consecutive block numbers in header list response", peer
|
||||
qd.ctrl.zombie = true
|
||||
return false
|
||||
if wi.hashes[n-1] != wi.headers[n].parentHash:
|
||||
# Oops, cul-de-sac after block chain re-org?
|
||||
trace "Dangling parent link in header list response. Re-org?", peer
|
||||
wi.headers.setLen(n)
|
||||
wi.hashes.setLen(n)
|
||||
break
|
||||
wi.hashes[n] = wi.headers[n].hash
|
||||
|
||||
# Adjust range length if necessary
|
||||
if wi.headers[^1].blockNumber < wi.blocks.maxPt:
|
||||
let redRng = BlockRange.new(
|
||||
wi.headers[0].blockNumber, wi.headers[^1].blockNumber)
|
||||
trace "Adjusting block range", peer, range=($wi.blocks), reduced=($redRng)
|
||||
discard qd.global.unprocessed.merge(redRng.maxPt + 1, wi.blocks.maxPt)
|
||||
wi.blocks = redRng
|
||||
|
||||
return true
|
||||
|
||||
|
||||
proc fetchBodies(
|
||||
qd: BlockQueueWorkerRef;
|
||||
wi: BlockItemRef
|
||||
): Future[bool]
|
||||
{.async.} =
|
||||
## Get the work item with the least interval and complete it. The function
|
||||
## returns `true` if bodies were fetched and there were no inconsistencies.
|
||||
let peer = qd.peer
|
||||
|
||||
# Complete group of bodies
|
||||
qd.safeTransport("Error fetching block bodies"):
|
||||
while wi.bodies.len < wi.hashes.len:
|
||||
let
|
||||
start = wi.bodies.len
|
||||
reqLen = min(wi.hashes.len - wi.bodies.len, maxBodiesFetch)
|
||||
top = start + reqLen
|
||||
hashes = wi.hashes[start ..< top]
|
||||
|
||||
trace trEthSendSendingGetBlockBodies, peer, reqLen
|
||||
|
||||
# Append bodies from peer to `wi.bodies`
|
||||
block:
|
||||
let bdyResp = await peer.getBlockBodies(hashes)
|
||||
# Beware of peer terminating the session
|
||||
if qd.ctrl.stopped:
|
||||
return false
|
||||
|
||||
if bdyResp.isNone:
|
||||
trace trEthRecvReceivedBlockBodies, peer, reqLen, respose="n/a"
|
||||
qd.ctrl.zombie = true
|
||||
return false
|
||||
|
||||
let bdyRespLen = bdyResp.get.blocks.len
|
||||
trace trEthRecvReceivedBlockBodies, peer, reqLen, bdyRespLen
|
||||
|
||||
if bdyRespLen == 0 or reqLen < bdyRespLen:
|
||||
qd.ctrl.zombie = true
|
||||
return false
|
||||
|
||||
wi.bodies.add bdyResp.get.blocks
|
||||
|
||||
return true
|
||||
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public functions, constructor
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc init*(
|
||||
T: type BlockQueueCtxRef; ## Global data descriptor type
|
||||
firstBlockNumber = 0.toBlockNumber; ## Of first block to fetch from network
|
||||
): T =
|
||||
## Global constructor, shared data
|
||||
result = T(
|
||||
unprocessed: BlockRangeSetRef.init())
|
||||
result.staged.init()
|
||||
result.topAccepted = max(firstBlockNumber,1.toBlockNumber) - 1
|
||||
discard result.unprocessed.merge(result.topAccepted + 1, highBlockNumber)
|
||||
|
||||
proc init*(
|
||||
T: type BlockQueueWorkerRef; ## Global data descriptor type
|
||||
ctx: BlockQueueCtxRef; ## Global data descriptor
|
||||
ctrl: BuddyCtrlRef; ## Control and state settings
|
||||
peer: Peer; ## For fetching data from network
|
||||
): T =
|
||||
## Buddy/local constructor
|
||||
T(global: ctx,
|
||||
peer: peer,
|
||||
ctrl: ctrl)
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public functions -- getter/setter
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc bestNumber*(qd: BlockQueueWorkerRef): Opt[BlockNumber] =
|
||||
## Getter
|
||||
qd.bestNumber
|
||||
|
||||
proc `bestNumber=`*(qd: BlockQueueWorkerRef; val: Opt[BlockNumber]) =
|
||||
## Setter, needs to be set to something valid so that `blockQueueWorker()`
|
||||
## does something useful.
|
||||
qd.bestNumber = val
|
||||
|
||||
proc topAccepted*(qd: BlockQueueWorkerRef): BlockNumber =
|
||||
## Getter
|
||||
qd.global.topAccepted
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public functions -- synchronous
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc blockQueueFetchStaged*(
|
||||
qd: BlockQueueWorkerRef;
|
||||
): Result[BlockItemRef,BlockQueueRC]=
|
||||
## Fetch the next item from the staged block queue. This item will be removed
|
||||
## from the staged queue and must be recycled if it cannot be processed.
|
||||
##
|
||||
## On error, the function returns `EmptyQueue` if the queue was empty and
|
||||
## `BlockNumberGap` if processing this item would result in a gap between the
|
||||
## last accepted block number and the fitsr block number of the next queue
|
||||
## item.
|
||||
##
|
||||
## This gap might appear if another function processes the in-beween block
|
||||
## in paralell or if something went wrong, see `blockQueueGrout()`, below.
|
||||
let rc = qd.global.staged.ge(low(BlockNumber))
|
||||
if rc.isErr:
|
||||
# No more items in the database
|
||||
return err(EmptyQueue)
|
||||
|
||||
let
|
||||
peer {.used.} = qd.peer
|
||||
wi = rc.value.data
|
||||
topAccepted = qd.global.topAccepted
|
||||
startNumber = wi.headers[0].blockNumber
|
||||
|
||||
# Check whether this record of blocks can be stored, at all
|
||||
if topAccepted + 1 < startNumber:
|
||||
trace "Staged work item postponed", peer, topAccepted,
|
||||
range=($wi.blocks), staged=qd.global.staged.len
|
||||
return err(BlockNumberGap)
|
||||
|
||||
# Ok, store into the block chain database
|
||||
trace "Staged work item", peer,
|
||||
topAccepted, range=($wi.blocks)
|
||||
|
||||
# Remove from staged DB
|
||||
discard qd.global.staged.delete(wi.blocks.minPt)
|
||||
|
||||
ok(wi)
|
||||
|
||||
|
||||
proc blockQueueAccept*(qd: BlockQueueWorkerRef; wi: BlockItemRef) =
|
||||
## Mark this argument item `wi` to be the item with the topmost block number
|
||||
## accepted. This statement comes tyipcally after the successful processing
|
||||
## and storage of the work item fetched by `blockQueueFetchStaged()`.
|
||||
qd.global.topAccepted = wi.blocks.maxPt
|
||||
|
||||
|
||||
proc blockQueueGrout*(qd: BlockQueueWorkerRef) =
|
||||
## Fill the gap unprocessed and staged block numbers. If there is such a gap
|
||||
## (which should not at all), the `blockQueueFetchStaged()` will always fail
|
||||
## with a `true` error code because there is no next work item.
|
||||
##
|
||||
## To close the gap and avoid double processing, all other workers should
|
||||
## have finished their tasks while this function is run. A way to achive that
|
||||
## is to run this function in *pool mode* once.
|
||||
# Mind the gap, fill in if necessary
|
||||
let covered = min(
|
||||
qd.global.nextUnprocessed.get(otherwise = highBlockNumber),
|
||||
qd.global.nextStaged.get(otherwise = highBlockRange).minPt)
|
||||
if qd.global.topAccepted + 1 < covered:
|
||||
discard qd.global.unprocessed.merge(qd.global.topAccepted + 1, covered - 1)
|
||||
|
||||
|
||||
proc blockQueueRecycle*(qd: BlockQueueWorkerRef; wi: BlockItemRef) =
|
||||
## Put back and destroy the `wi` argument item. The covered block range needs
|
||||
## to be re-fetched from the network. This statement is typically used instead
|
||||
## of `blockQueueAccept()` after a failure tpo process and store the work item
|
||||
## fetched by `blockQueueFetchStaged()`.
|
||||
discard qd.global.unprocessed.merge(wi.blocks)
|
||||
|
||||
|
||||
proc blockQueueRecycleStaged*(qd: BlockQueueWorkerRef) =
|
||||
## Similar to `blockQueueRecycle()`, recycle all items from the staged queue.
|
||||
# using fast traversal
|
||||
let
|
||||
walk = BlockItemWalkRef.init(qd.global.staged)
|
||||
var
|
||||
rc = walk.first()
|
||||
while rc.isOk:
|
||||
# Store back into `unprocessed` ranges set
|
||||
discard qd.global.unprocessed.merge(rc.value.data)
|
||||
rc = walk.next()
|
||||
# optional clean up, see comments on the destroy() directive
|
||||
walk.destroy()
|
||||
qd.global.staged.clear()
|
||||
|
||||
|
||||
proc blockQueueBacktrackFrom*(qd: BlockQueueWorkerRef; wi: BlockItemRef) =
|
||||
## Set backtrack mode starting with the blocks before the argument work
|
||||
## item `wi`.
|
||||
qd.global.backtrack = some(wi.headers[0].parentHash)
|
||||
|
||||
|
||||
proc blockQueueBacktrackOk*(qd: BlockQueueWorkerRef): bool =
|
||||
## Returns `true` if the queue is in backtrack mode.
|
||||
qd.global.backtrack.isSome
|
||||
|
||||
|
||||
proc blockQueueStats*(ctx: BlockQueueCtxRef; stats: var BlockQueueStats) =
|
||||
## Collect global statistics
|
||||
stats.topAccepted = ctx.topAccepted
|
||||
stats.nextUnprocessed = ctx.nextUnprocessed
|
||||
stats.nStagedQueue = ctx.staged.len
|
||||
stats.reOrg = ctx.backtrack.isSome
|
||||
stats.nextStaged =
|
||||
if ctx.nextStaged.isSome: Opt.some(ctx.nextStaged.unsafeGet.minPt)
|
||||
else: Opt.none(BlockNumber)
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public functions -- asynchronous
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc blockQueueBacktrackWorker*(
|
||||
qd: BlockQueueWorkerRef;
|
||||
): Future[Result[void,BlockQueueRC]]
|
||||
{.async.} =
|
||||
## This function does some backtrack processing on the queue. Backtracking
|
||||
## is single threaded due to the fact that the next block is identified by
|
||||
## the hash of the parent header. So this function needs to run in *single
|
||||
## mode*.
|
||||
##
|
||||
## If backtracking is enabled, this function fetches the next parent work
|
||||
## item from the network and makes it available on the staged queue to be
|
||||
## retrieved with `blockQueueFetchStaged()`. In that case, the function
|
||||
## succeeds and `blockQueueBacktrackOk()` will return `false`.
|
||||
##
|
||||
## In all other cases, the function returns an error code.
|
||||
var error = BacktrackDisabled
|
||||
if qd.global.backtrack.isSome:
|
||||
let
|
||||
peer {.used.} = qd.peer
|
||||
wi = BlockItemRef(
|
||||
# This dummy interval can savely merged back without any effect
|
||||
blocks: highBlockRange,
|
||||
# Enable backtrack
|
||||
topHash: some(qd.global.backtrack.unsafeGet))
|
||||
|
||||
# Fetch headers and bodies for the current work item
|
||||
trace "Single mode worker, re-org backtracking", peer
|
||||
if not await qd.fetchHeaders(wi):
|
||||
error = FetchHeadersError
|
||||
elif not await qd.fetchBodies(wi):
|
||||
error = FetchBodiesError
|
||||
else:
|
||||
qd.global.backtrack = none(Hash256)
|
||||
discard qd.stageItem(wi)
|
||||
return ok()
|
||||
|
||||
# This work item failed, nothing to do anymore.
|
||||
discard qd.global.unprocessed.merge(wi)
|
||||
|
||||
return err(error)
|
||||
|
||||
|
||||
proc blockQueueWorker*(
|
||||
qd: BlockQueueWorkerRef;
|
||||
): Future[Result[void,BlockQueueRC]]
|
||||
{.async.} =
|
||||
## Normal worker function used to stage another work item be retrieved by
|
||||
## `blockQueueFetchStaged()`. This function may run in *multi mode*. Not
|
||||
## until retrieving work items the queue will be synchronised in a way that
|
||||
## after the next item can be retrieved the queue will be blocked by a
|
||||
## *gap* until the item is commited by `blockQueueAccept()`.
|
||||
##
|
||||
## On error, with most error codes there is not much that can be done. The
|
||||
## one remarcable error code is `StagedQueueOverflow` which pops up if there
|
||||
## is a gap between unprocessed and staged block numbers. One of the actions
|
||||
## to be considered here is to run `blockQueueGrout()` in *pool mode*.
|
||||
## Otherwise, the `StagedQueueOverflow` can be treated as a success would be.
|
||||
##
|
||||
# Fetch work item
|
||||
let wi = block:
|
||||
let rc = qd.newWorkItem()
|
||||
if rc.isErr:
|
||||
# No way, end of capacity for this peer => re-calibrate
|
||||
qd.bestNumber = Opt.none(BlockNumber)
|
||||
return err(rc.error)
|
||||
rc.value
|
||||
|
||||
# Fetch headers and bodies for the current work item
|
||||
var error = AllSmileOk
|
||||
if not await qd.fetchHeaders(wi):
|
||||
error = FetchHeadersError
|
||||
elif not await qd.fetchBodies(wi):
|
||||
error = FetchBodiesError
|
||||
else:
|
||||
return qd.stageItem(wi)
|
||||
|
||||
# This work item failed
|
||||
discard qd.global.unprocessed.merge(wi)
|
||||
return err(error)
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# End
|
||||
# ------------------------------------------------------------------------------
|
|
@ -1,62 +0,0 @@
|
|||
# Nimbus
|
||||
# Copyright (c) 2021-2024 Status Research & Development GmbH
|
||||
# Licensed under either of
|
||||
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
|
||||
# http://www.apache.org/licenses/LICENSE-2.0)
|
||||
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
|
||||
# http://opensource.org/licenses/MIT)
|
||||
# at your option. This file may not be copied, modified, or distributed
|
||||
# except according to those terms.
|
||||
|
||||
{.push raises: [].}
|
||||
|
||||
import
|
||||
std/[os, strutils],
|
||||
chronicles,
|
||||
eth/[common, p2p]
|
||||
|
||||
logScope:
|
||||
topics = "sync-ctrl"
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private functions
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc getDataLine(
|
||||
name: string;
|
||||
lineNum: int;
|
||||
): string {.gcsafe, raises: [IOError].} =
|
||||
if name.fileExists:
|
||||
let file = name.open
|
||||
defer: file.close
|
||||
let linesRead = file.readAll.splitLines
|
||||
if lineNum < linesRead.len:
|
||||
return linesRead[lineNum].strip
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public functions
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc syncCtrlBlockNumberFromFile*(
|
||||
fileName: Opt[string]; # Optional file name
|
||||
lineNum = 0; # Read line from file
|
||||
): Result[BlockNumber,void] =
|
||||
## Returns a block number from the file name argument `fileName`. The first
|
||||
## line of the file is parsed as a decimal encoded block number.
|
||||
if fileName.isSome:
|
||||
let file = fileName.get
|
||||
try:
|
||||
let data = file.getDataLine(lineNum)
|
||||
if 0 < data.len:
|
||||
let num = parse(data,UInt256)
|
||||
return ok(num.toBlockNumber)
|
||||
except CatchableError as e:
|
||||
let
|
||||
name {.used.} = $e.name
|
||||
msg {.used.} = e.msg
|
||||
debug "Exception while parsing block number", file, name, msg
|
||||
err()
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# End
|
||||
# ------------------------------------------------------------------------------
|
|
@ -1,324 +0,0 @@
|
|||
# Nimbus - Fetch account and storage states from peers efficiently
|
||||
#
|
||||
# Copyright (c) 2021-2024 Status Research & Development GmbH
|
||||
# Licensed under either of
|
||||
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
|
||||
# http://www.apache.org/licenses/LICENSE-2.0)
|
||||
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
|
||||
# http://opensource.org/licenses/MIT)
|
||||
# at your option. This file may not be copied, modified, or distributed
|
||||
# except according to those terms.
|
||||
|
||||
{.push raises: [].}
|
||||
|
||||
import
|
||||
std/[strformat, strutils],
|
||||
chronos,
|
||||
chronicles,
|
||||
eth/[common, p2p],
|
||||
stint,
|
||||
../../utils/prettify,
|
||||
../types,
|
||||
./timer_helper
|
||||
|
||||
logScope:
|
||||
topics = "tick"
|
||||
|
||||
type
|
||||
TickerSnapStatsUpdater* = proc: TickerSnapStats {.gcsafe, raises: [].}
|
||||
## Snap sync state update function
|
||||
|
||||
TickerFullStatsUpdater* = proc: TickerFullStats {.gcsafe, raises: [].}
|
||||
## Full sync state update function
|
||||
|
||||
SnapDescDetails = object
|
||||
## Private state descriptor
|
||||
snapCb: TickerSnapStatsUpdater
|
||||
recovery: bool
|
||||
lastRecov: bool
|
||||
lastStats: TickerSnapStats
|
||||
|
||||
FullDescDetails = object
|
||||
## Private state descriptor
|
||||
fullCb: TickerFullStatsUpdater
|
||||
lastStats: TickerFullStats
|
||||
|
||||
TickerSnapStats* = object
|
||||
## Snap sync state (see `TickerSnapStatsUpdater`)
|
||||
beaconBlock*: Opt[BlockNumber]
|
||||
pivotBlock*: Opt[BlockNumber]
|
||||
nAccounts*: (float,float) ## Mean and standard deviation
|
||||
accountsFill*: (float,float,float) ## Mean, standard deviation, merged total
|
||||
nAccountStats*: int ## #chunks
|
||||
nSlotLists*: (float,float) ## Mean and standard deviation
|
||||
nContracts*: (float,float) ## Mean and standard deviation
|
||||
nStorageQueue*: Opt[int]
|
||||
nContractQueue*: Opt[int]
|
||||
nQueues*: int
|
||||
|
||||
TickerFullStats* = object
|
||||
## Full sync state (see `TickerFullStatsUpdater`)
|
||||
pivotBlock*: Opt[BlockNumber]
|
||||
topPersistent*: BlockNumber
|
||||
nextUnprocessed*: Opt[BlockNumber]
|
||||
nextStaged*: Opt[BlockNumber]
|
||||
nStagedQueue*: int
|
||||
suspended*: bool
|
||||
reOrg*: bool
|
||||
|
||||
TickerRef* = ref object
|
||||
## Ticker descriptor object
|
||||
nBuddies: int
|
||||
logTicker: TimerCallback
|
||||
started: Moment
|
||||
visited: Moment
|
||||
prettyPrint: proc(t: TickerRef) {.gcsafe, raises: [].}
|
||||
case fullMode: bool
|
||||
of false:
|
||||
snap: SnapDescDetails
|
||||
of true:
|
||||
full: FullDescDetails
|
||||
|
||||
const
|
||||
extraTraceMessages = false # or true
|
||||
## Enabled additional logging noise
|
||||
|
||||
tickerStartDelay = chronos.milliseconds(100)
|
||||
tickerLogInterval = chronos.seconds(1)
|
||||
tickerLogSuppressMax = chronos.seconds(100)
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private functions: pretty printing
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc pc99(val: float): string =
|
||||
if 0.99 <= val and val < 1.0: "99%"
|
||||
elif 0.0 < val and val <= 0.01: "1%"
|
||||
else: val.toPC(0)
|
||||
|
||||
proc toStr(a: Opt[int]): string =
|
||||
if a.isNone: "n/a"
|
||||
else: $a.unsafeGet
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private functions: printing ticker messages
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
when false:
|
||||
template logTxt(info: static[string]): static[string] =
|
||||
"Ticker " & info
|
||||
|
||||
template noFmtError(info: static[string]; code: untyped) =
|
||||
try:
|
||||
code
|
||||
except ValueError as e:
|
||||
raiseAssert "Inconveivable (" & info & "): " & e.msg
|
||||
|
||||
proc snapTicker(t: TickerRef) {.gcsafe.} =
|
||||
let
|
||||
data = t.snap.snapCb()
|
||||
now = Moment.now()
|
||||
|
||||
if data != t.snap.lastStats or
|
||||
t.snap.recovery != t.snap.lastRecov or
|
||||
tickerLogSuppressMax < (now - t.visited):
|
||||
var
|
||||
nAcc, nSto, nCon: string
|
||||
pv = "n/a"
|
||||
let
|
||||
nStoQ = data.nStorageQueue.toStr
|
||||
nConQ = data.nContractQueue.toStr
|
||||
bc = data.beaconBlock.toStr
|
||||
recoveryDone = t.snap.lastRecov
|
||||
accCov = data.accountsFill[0].pc99 &
|
||||
"(" & data.accountsFill[1].pc99 & ")" &
|
||||
"/" & data.accountsFill[2].pc99 &
|
||||
"~" & data.nAccountStats.uint.toSI
|
||||
nInst = t.nBuddies
|
||||
|
||||
# With `int64`, there are more than 29*10^10 years range for seconds
|
||||
up = (now - t.started).seconds.uint64.toSI
|
||||
mem = getTotalMem().uint.toSI
|
||||
|
||||
t.snap.lastStats = data
|
||||
t.visited = now
|
||||
t.snap.lastRecov = t.snap.recovery
|
||||
|
||||
if data.pivotBlock.isSome:
|
||||
pv = data.pivotBlock.toStr & "/" & $data.nQueues
|
||||
|
||||
noFmtError("runLogTicker"):
|
||||
nAcc = (&"{(data.nAccounts[0]+0.5).int64}" &
|
||||
&"({(data.nAccounts[1]+0.5).int64})")
|
||||
nSto = (&"{(data.nSlotLists[0]+0.5).int64}" &
|
||||
&"({(data.nSlotLists[1]+0.5).int64})")
|
||||
nCon = (&"{(data.nContracts[0]+0.5).int64}" &
|
||||
&"({(data.nContracts[1]+0.5).int64})")
|
||||
|
||||
if t.snap.recovery:
|
||||
info "Snap sync ticker (recovery)",
|
||||
up, nInst, bc, pv, nAcc, accCov, nSto, nStoQ, nCon, nConQ, mem
|
||||
elif recoveryDone:
|
||||
info "Snap sync ticker (recovery done)",
|
||||
up, nInst, bc, pv, nAcc, accCov, nSto, nStoQ, nCon, nConQ, mem
|
||||
else:
|
||||
info "Snap sync ticker",
|
||||
up, nInst, bc, pv, nAcc, accCov, nSto, nStoQ, nCon, nConQ, mem
|
||||
|
||||
|
||||
proc fullTicker(t: TickerRef) {.gcsafe.} =
|
||||
let
|
||||
data = t.full.fullCb()
|
||||
now = Moment.now()
|
||||
|
||||
if data != t.full.lastStats or
|
||||
tickerLogSuppressMax < (now - t.visited):
|
||||
let
|
||||
persistent = data.topPersistent.toStr
|
||||
staged = data.nextStaged.toStr
|
||||
unprocessed = data.nextUnprocessed.toStr
|
||||
queued = data.nStagedQueue
|
||||
reOrg = if data.reOrg: "t" else: "f"
|
||||
pv = data.pivotBlock.toStr
|
||||
|
||||
nInst = t.nBuddies
|
||||
|
||||
# With `int64`, there are more than 29*10^10 years range for seconds
|
||||
up = (now - t.started).seconds.uint64.toSI
|
||||
mem = getTotalMem().uint.toSI
|
||||
|
||||
t.full.lastStats = data
|
||||
t.visited = now
|
||||
|
||||
if data.suspended:
|
||||
info "Full sync ticker (suspended)", up, nInst, pv,
|
||||
persistent, staged, unprocessed, queued, reOrg, mem
|
||||
else:
|
||||
info "Full sync ticker", up, nInst, pv,
|
||||
persistent, staged, unprocessed, queued, reOrg, mem
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Private functions: ticking log messages
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc setLogTicker(t: TickerRef; at: Moment) {.gcsafe.}
|
||||
|
||||
proc runLogTicker(t: TickerRef) {.gcsafe.} =
|
||||
t.prettyPrint(t)
|
||||
t.setLogTicker(Moment.fromNow(tickerLogInterval))
|
||||
|
||||
proc setLogTicker(t: TickerRef; at: Moment) =
|
||||
if t.logTicker.isNil:
|
||||
when extraTraceMessages:
|
||||
debug logTxt "was stopped", fullMode=t.fullMode, nBuddies=t.nBuddies
|
||||
else:
|
||||
t.logTicker = safeSetTimer(at, runLogTicker, t)
|
||||
|
||||
proc initImpl(t: TickerRef; cb: TickerSnapStatsUpdater) =
|
||||
t.fullMode = false
|
||||
t.prettyPrint = snapTicker
|
||||
t.snap = SnapDescDetails(snapCb: cb)
|
||||
|
||||
proc initImpl(t: TickerRef; cb: TickerFullStatsUpdater) =
|
||||
t.fullMode = true
|
||||
t.prettyPrint = fullTicker
|
||||
t.full = FullDescDetails(fullCb: cb)
|
||||
|
||||
proc startImpl(t: TickerRef) =
|
||||
t.logTicker = safeSetTimer(Moment.fromNow(tickerStartDelay),runLogTicker,t)
|
||||
if t.started == Moment.default:
|
||||
t.started = Moment.now()
|
||||
|
||||
proc stopImpl(t: TickerRef) =
|
||||
## Stop ticker unconditionally
|
||||
t.logTicker = nil
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public constructor and start/stop functions
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc init*(
|
||||
T: type TickerRef;
|
||||
cb: TickerSnapStatsUpdater|TickerFullStatsUpdater;
|
||||
): T =
|
||||
## Constructor
|
||||
new result
|
||||
result.initImpl(cb)
|
||||
|
||||
proc init*(t: TickerRef; cb: TickerSnapStatsUpdater) =
|
||||
## Re-initialise ticket
|
||||
if not t.isNil:
|
||||
t.visited.reset
|
||||
if t.fullMode:
|
||||
t.prettyPrint(t) # print final state for full sync
|
||||
t.initImpl(cb)
|
||||
|
||||
proc init*(t: TickerRef; cb: TickerFullStatsUpdater) =
|
||||
## Re-initialise ticket
|
||||
if not t.isNil:
|
||||
t.visited.reset
|
||||
if not t.fullMode:
|
||||
t.prettyPrint(t) # print final state for snap sync
|
||||
t.initImpl(cb)
|
||||
|
||||
proc start*(t: TickerRef) =
|
||||
## Re/start ticker unconditionally
|
||||
if not t.isNil:
|
||||
when extraTraceMessages:
|
||||
debug logTxt "start", fullMode=t.fullMode, nBuddies=t.nBuddies
|
||||
t.startImpl()
|
||||
|
||||
proc stop*(t: TickerRef) =
|
||||
## Stop ticker unconditionally
|
||||
if not t.isNil:
|
||||
t.stopImpl()
|
||||
when extraTraceMessages:
|
||||
debug logTxt "stop", fullMode=t.fullMode, nBuddies=t.nBuddies
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# Public functions
|
||||
# ------------------------------------------------------------------------------
|
||||
|
||||
proc startBuddy*(t: TickerRef) =
|
||||
## Increment buddies counter and start ticker unless running.
|
||||
if not t.isNil:
|
||||
if t.nBuddies <= 0:
|
||||
t.nBuddies = 1
|
||||
if t.fullMode or not t.snap.recovery:
|
||||
t.startImpl()
|
||||
when extraTraceMessages:
|
||||
debug logTxt "start buddy", fullMode=t.fullMode, nBuddies=t.nBuddies
|
||||
else:
|
||||
t.nBuddies.inc
|
||||
|
||||
proc startRecovery*(t: TickerRef) =
|
||||
## Ditto for recovery mode
|
||||
if not t.isNil and not t.fullMode and not t.snap.recovery:
|
||||
t.snap.recovery = true
|
||||
if t.nBuddies <= 0:
|
||||
t.startImpl()
|
||||
when extraTraceMessages:
|
||||
debug logTxt "start recovery", fullMode=t.fullMode, nBuddies=t.nBuddies
|
||||
|
||||
proc stopBuddy*(t: TickerRef) =
|
||||
## Decrement buddies counter and stop ticker if there are no more registered
|
||||
## buddies.
|
||||
if not t.isNil:
|
||||
t.nBuddies.dec
|
||||
if t.nBuddies <= 0 and not t.fullMode and not t.snap.recovery:
|
||||
t.nBuddies = 0
|
||||
t.stopImpl()
|
||||
when extraTraceMessages:
|
||||
debug logTxt "stop (buddy)", fullMode=t.fullMode, nBuddies=t.nBuddies
|
||||
|
||||
proc stopRecovery*(t: TickerRef) =
|
||||
## Ditto for recovery mode
|
||||
if not t.isNil and not t.fullMode and t.snap.recovery:
|
||||
t.snap.recovery = false
|
||||
t.stopImpl()
|
||||
when extraTraceMessages:
|
||||
debug logTxt "stop (recovery)", fullMode=t.fullMode, nBuddies=t.nBuddies
|
||||
|
||||
# ------------------------------------------------------------------------------
|
||||
# End
|
||||
# ------------------------------------------------------------------------------
|
|
@ -1,45 +0,0 @@
|
|||
# Nimbus
|
||||
# Copyright (c) 2018-2023 Status Research & Development GmbH
|
||||
# Licensed under either of
|
||||
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
|
||||
# http://www.apache.org/licenses/LICENSE-2.0)
|
||||
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
|
||||
# http://opensource.org/licenses/MIT)
|
||||
# at your option. This file may not be copied, modified, or
|
||||
# distributed except according to those terms.
|
||||
|
||||
import
|
||||
chronos
|
||||
|
||||
{.push raises: [].}
|
||||
|
||||
# Use `safeSetTimer` consistently, with a `ref T` argument if including one.
|
||||
type
|
||||
SafeCallbackFunc*[T] = proc (objectRef: ref T) {.gcsafe, raises: [].}
|
||||
SafeCallbackFuncVoid* = proc () {.gcsafe, raises: [].}
|
||||
|
||||
proc safeSetTimer*[T](at: Moment, cb: SafeCallbackFunc[T],
|
||||
objectRef: ref T = nil): TimerCallback =
|
||||
## Like `setTimer` but takes a typed `ref T` argument, which is passed to the
|
||||
## callback function correctly typed. Stores the `ref` in a closure to avoid
|
||||
## garbage collection memory corruption issues that occur when the `setTimer`
|
||||
## pointer argument is used.
|
||||
proc chronosTimerSafeCb(udata: pointer) = cb(objectRef)
|
||||
return setTimer(at, chronosTimerSafeCb)
|
||||
|
||||
proc safeSetTimer*[T](at: Moment, cb: SafeCallbackFuncVoid): TimerCallback =
|
||||
## Like `setTimer` but takes no pointer argument. The callback function
|
||||
## takes no arguments.
|
||||
proc chronosTimerSafeCb(udata: pointer) = cb()
|
||||
return setTimer(at, chronosTimerSafeCb)
|
||||
|
||||
proc setTimer*(at: Moment, cb: CallbackFunc, udata: pointer): TimerCallback
|
||||
{.error: "Do not use setTimer with a `pointer` type argument".}
|
||||
## `setTimer` with a non-nil pointer argument is dangerous because
|
||||
## the pointed-to object is often freed or garbage collected before the
|
||||
## timer callback runs. Call `setTimer` with a `ref` argument instead.
|
||||
|
||||
proc setTimer*(at: Moment, cb: CallbackFunc): TimerCallback =
|
||||
chronos.setTimer(at, cb, nil)
|
||||
|
||||
# End
|
Loading…
Reference in New Issue