nim-codex/codex/blockexchange/engine/pendingblocks.nim

158 lines
4.2 KiB
Nim

## Nim-Codex
## Copyright (c) 2021 Status Research & Development GmbH
## Licensed under either of
## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
## * MIT license ([LICENSE-MIT](LICENSE-MIT))
## at your option.
## This file may not be copied, modified, or distributed except according to
## those terms.
import std/tables
import std/monotimes
import pkg/upraises
push: {.upraises: [].}
import pkg/chronos
import pkg/libp2p
import pkg/metrics
import ../protobuf/blockexc
import ../../blocktype
import ../../logutils
logScope:
topics = "codex pendingblocks"
declareGauge(codex_block_exchange_pending_block_requests, "codex blockexchange pending block requests")
declareGauge(codex_block_exchange_retrieval_time_us, "codex blockexchange block retrieval time us")
const
DefaultBlockTimeout* = 10.minutes
type
BlockReq* = object
handle*: Future[Block]
inFlight*: bool
startTime*: int64
PendingBlocksManager* = ref object of RootObj
blocks*: Table[BlockAddress, BlockReq] # pending Block requests
proc updatePendingBlockGauge(p: PendingBlocksManager) =
codex_block_exchange_pending_block_requests.set(p.blocks.len.int64)
proc getWantHandle*(
p: PendingBlocksManager,
address: BlockAddress,
timeout = DefaultBlockTimeout,
inFlight = false): Future[Block] {.async.} =
## Add an event for a block
##
try:
if address notin p.blocks:
p.blocks[address] = BlockReq(
handle: newFuture[Block]("pendingBlocks.getWantHandle"),
inFlight: inFlight,
startTime: getMonoTime().ticks)
p.updatePendingBlockGauge()
return await p.blocks[address].handle.wait(timeout)
except CancelledError as exc:
trace "Blocks cancelled", exc = exc.msg, address
raise exc
except CatchableError as exc:
error "Pending WANT failed or expired", exc = exc.msg
# no need to cancel, it is already cancelled by wait()
raise exc
finally:
p.blocks.del(address)
p.updatePendingBlockGauge()
proc getWantHandle*(
p: PendingBlocksManager,
cid: Cid,
timeout = DefaultBlockTimeout,
inFlight = false): Future[Block] =
p.getWantHandle(BlockAddress.init(cid), timeout, inFlight)
proc resolve*(
p: PendingBlocksManager,
blocksDelivery: seq[BlockDelivery]) {.gcsafe, raises: [].} =
## Resolve pending blocks
##
for bd in blocksDelivery:
p.blocks.withValue(bd.address, blockReq):
if not blockReq.handle.finished:
let
startTime = blockReq.startTime
stopTime = getMonoTime().ticks
retrievalDurationUs = (stopTime - startTime) div 1000
blockReq.handle.complete(bd.blk)
codex_block_exchange_retrieval_time_us.set(retrievalDurationUs)
if retrievalDurationUs > 500000:
warn "High block retrieval time", retrievalDurationUs, address = bd.address
else:
trace "Block handle already finished", address = bd.address
proc setInFlight*(
p: PendingBlocksManager,
address: BlockAddress,
inFlight = true) =
## Set inflight status for a block
##
p.blocks.withValue(address, pending):
pending[].inFlight = inFlight
proc isInFlight*(
p: PendingBlocksManager,
address: BlockAddress): bool =
## Check if a block is in flight
##
p.blocks.withValue(address, pending):
result = pending[].inFlight
proc contains*(p: PendingBlocksManager, cid: Cid): bool =
BlockAddress.init(cid) in p.blocks
proc contains*(p: PendingBlocksManager, address: BlockAddress): bool =
address in p.blocks
iterator wantList*(p: PendingBlocksManager): BlockAddress =
for a in p.blocks.keys:
yield a
iterator wantListBlockCids*(p: PendingBlocksManager): Cid =
for a in p.blocks.keys:
if not a.leaf:
yield a.cid
iterator wantListCids*(p: PendingBlocksManager): Cid =
var yieldedCids = initHashSet[Cid]()
for a in p.blocks.keys:
let cid = a.cidOrTreeCid
if cid notin yieldedCids:
yieldedCids.incl(cid)
yield cid
iterator wantHandles*(p: PendingBlocksManager): Future[Block] =
for v in p.blocks.values:
yield v.handle
proc wantListLen*(p: PendingBlocksManager): int =
p.blocks.len
func len*(p: PendingBlocksManager): int =
p.blocks.len
func new*(T: type PendingBlocksManager): PendingBlocksManager =
PendingBlocksManager()