nim-codex/tests/codex/blockexchange/discovery/testdiscoveryengine.nim

238 lines
6.6 KiB
Nim

import std/sequtils
import std/sugar
import std/tables
import pkg/asynctest
import pkg/chronos
import pkg/codex/rng
import pkg/codex/stores
import pkg/codex/blockexchange
import pkg/codex/chunker
import pkg/codex/blocktype as bt
import pkg/codex/blockexchange/engine
import ../../helpers/mockdiscovery
import ../../helpers
import ../../examples
asyncchecksuite "Test Discovery Engine":
let chunker = RandomChunker.new(Rng.instance(), size = 4096, chunkSize = 256)
var
blocks: seq[bt.Block]
switch: Switch
peerStore: PeerCtxStore
blockDiscovery: MockDiscovery
pendingBlocks: PendingBlocksManager
network: BlockExcNetwork
setup:
while true:
let chunk = await chunker.getBytes()
if chunk.len <= 0:
break
blocks.add(bt.Block.new(chunk).tryGet())
switch = newStandardSwitch(transportFlags = {ServerFlags.ReuseAddr})
network = BlockExcNetwork.new(switch)
peerStore = PeerCtxStore.new()
pendingBlocks = PendingBlocksManager.new()
blockDiscovery = MockDiscovery.new()
test "Should Query Wants":
var
localStore = CacheStore.new()
discoveryEngine = DiscoveryEngine.new(
localStore,
peerStore,
network,
blockDiscovery,
pendingBlocks,
discoveryLoopSleep = 100.millis)
wants = blocks.mapIt( pendingBlocks.getWantHandle(it.cid) )
blockDiscovery.findBlockProvidersHandler =
proc(d: MockDiscovery, cid: Cid): Future[seq[SignedPeerRecord]] {.async, gcsafe.} =
pendingBlocks.resolve(blocks.filterIt( it.cid == cid).mapIt(BlockDelivery(blk: it, address: it.address)))
await discoveryEngine.start()
await allFuturesThrowing(allFinished(wants)).wait(1.seconds)
await discoveryEngine.stop()
test "Should Advertise Haves":
var
localStore = CacheStore.new(blocks.mapIt( it ))
discoveryEngine = DiscoveryEngine.new(
localStore,
peerStore,
network,
blockDiscovery,
pendingBlocks,
discoveryLoopSleep = 100.millis)
haves = collect(initTable):
for b in blocks:
{ b.cid: newFuture[void]() }
blockDiscovery.publishBlockProvideHandler =
proc(d: MockDiscovery, cid: Cid) {.async, gcsafe.} =
if not haves[cid].finished:
haves[cid].complete
await discoveryEngine.start()
await allFuturesThrowing(
allFinished(toSeq(haves.values))).wait(5.seconds)
await discoveryEngine.stop()
test "Should queue discovery request":
var
localStore = CacheStore.new()
discoveryEngine = DiscoveryEngine.new(
localStore,
peerStore,
network,
blockDiscovery,
pendingBlocks,
discoveryLoopSleep = 100.millis)
want = newFuture[void]()
blockDiscovery.findBlockProvidersHandler =
proc(d: MockDiscovery, cid: Cid): Future[seq[SignedPeerRecord]] {.async, gcsafe.} =
check cid == blocks[0].cid
if not want.finished:
want.complete()
await discoveryEngine.start()
discoveryEngine.queueFindBlocksReq(@[blocks[0].cid])
await want.wait(1.seconds)
await discoveryEngine.stop()
test "Should queue advertise request":
var
localStore = CacheStore.new(@[blocks[0]])
discoveryEngine = DiscoveryEngine.new(
localStore,
peerStore,
network,
blockDiscovery,
pendingBlocks,
discoveryLoopSleep = 100.millis)
have = newFuture[void]()
blockDiscovery.publishBlockProvideHandler =
proc(d: MockDiscovery, cid: Cid) {.async, gcsafe.} =
check cid == blocks[0].cid
if not have.finished:
have.complete()
await discoveryEngine.start()
await have.wait(1.seconds)
await discoveryEngine.stop()
test "Should not request more than minPeersPerBlock":
var
localStore = CacheStore.new()
minPeers = 2
discoveryEngine = DiscoveryEngine.new(
localStore,
peerStore,
network,
blockDiscovery,
pendingBlocks,
discoveryLoopSleep = 5.minutes,
minPeersPerBlock = minPeers)
want = newAsyncEvent()
blockDiscovery.findBlockProvidersHandler =
proc(d: MockDiscovery, cid: Cid): Future[seq[SignedPeerRecord]] {.async, gcsafe.} =
check cid == blocks[0].cid
check peerStore.len < minPeers
var
peerCtx = BlockExcPeerCtx(id: PeerId.example)
let address = BlockAddress(leaf: false, cid: cid)
peerCtx.blocks[address] = Presence(address: address, price: 0.u256)
peerStore.add(peerCtx)
want.fire()
await discoveryEngine.start()
while peerStore.len < minPeers:
discoveryEngine.queueFindBlocksReq(@[blocks[0].cid])
await want.wait()
want.clear()
check peerStore.len == minPeers
await discoveryEngine.stop()
test "Should not request if there is already an inflight discovery request":
var
localStore = CacheStore.new()
discoveryEngine = DiscoveryEngine.new(
localStore,
peerStore,
network,
blockDiscovery,
pendingBlocks,
discoveryLoopSleep = 100.millis,
concurrentDiscReqs = 2)
reqs = newFuture[void]()
count = 0
blockDiscovery.findBlockProvidersHandler =
proc(d: MockDiscovery, cid: Cid):
Future[seq[SignedPeerRecord]] {.gcsafe, async.} =
check cid == blocks[0].cid
if count > 0:
check false
count.inc
await reqs # queue the request
await discoveryEngine.start()
discoveryEngine.queueFindBlocksReq(@[blocks[0].cid])
await sleepAsync(200.millis)
discoveryEngine.queueFindBlocksReq(@[blocks[0].cid])
await sleepAsync(200.millis)
reqs.complete()
await discoveryEngine.stop()
test "Should not request if there is already an inflight advertise request":
var
localStore = CacheStore.new()
discoveryEngine = DiscoveryEngine.new(
localStore,
peerStore,
network,
blockDiscovery,
pendingBlocks,
discoveryLoopSleep = 100.millis,
concurrentAdvReqs = 2)
reqs = newFuture[void]()
count = 0
blockDiscovery.publishBlockProvideHandler =
proc(d: MockDiscovery, cid: Cid) {.async, gcsafe.} =
check cid == blocks[0].cid
if count > 0:
check false
count.inc
await reqs # queue the request
await discoveryEngine.start()
discoveryEngine.queueProvideBlocksReq(@[blocks[0].cid])
await sleepAsync(200.millis)
discoveryEngine.queueProvideBlocksReq(@[blocks[0].cid])
await sleepAsync(200.millis)
reqs.complete()
await discoveryEngine.stop()