import std/sequtils import pkg/stew/byteutils import pkg/asynctest import pkg/chronos import pkg/libp2p import pkg/libp2p/errors import pkg/dagger/p2p/rng import pkg/dagger/bitswap import pkg/dagger/bitswap/pendingblocks import pkg/dagger/stores/memorystore import pkg/dagger/chunker import pkg/dagger/blocktype as bt import ../helpers suite "Bitswap engine basic": let rng = Rng.instance() seckey = PrivateKey.random(rng[]).tryGet() peerId = PeerID.init(seckey.getKey().tryGet()).tryGet() chunker = newRandomChunker(Rng.instance(), size = 1024, chunkSize = 256) blocks = chunker.mapIt( bt.Block.new(it) ) var done: Future[void] setup: done = newFuture[void]() test "should send want list to new peers": proc sendWantList( id: PeerID, cids: seq[Cid], priority: int32 = 0, cancel: bool = false, wantType: WantType = WantType.wantHave, full: bool = false, sendDontHave: bool = false) {.gcsafe.} = check cids == blocks.mapIt( it.cid ) done.complete() let request = BitswapRequest( sendWantList: sendWantList, ) let engine = BitswapEngine.new(MemoryStore.new(blocks), request) engine.wantList = blocks.mapIt( it.cid ) engine.setupPeer(peerId) await done suite "Bitswap engine handlers": let rng = Rng.instance() seckey = PrivateKey.random(rng[]).tryGet() peerId = PeerID.init(seckey.getKey().tryGet()).tryGet() chunker = newRandomChunker(Rng.instance(), size = 1024, chunkSize = 256) blocks = chunker.mapIt( bt.Block.new(it) ) var engine: BitswapEngine peerCtx: BitswapPeerCtx done: Future[void] setup: done = newFuture[void]() engine = BitswapEngine.new(MemoryStore.new()) peerCtx = BitswapPeerCtx( id: peerId ) engine.peers.add(peerCtx) test "should handle want list": let wantList = makeWantList(blocks.mapIt( it.cid )) proc taskScheduler(ctx: BitswapPeerCtx): bool = check ctx.id == peerId check ctx.peerWants.mapIt( it.cid ) == blocks.mapIt( it.cid ) done.complete() engine.scheduleTask = taskScheduler engine.wantListHandler(peerId, wantList) await done test "should handle want list - `dont-have`": let wantList = makeWantList(blocks.mapIt( it.cid ), sendDontHave = true) proc sendPresence(peerId: PeerID, presence: seq[BlockPresence]) = check presence.mapIt( it.cid ) == wantList.entries.mapIt( it.`block` ) for p in presence: check: p.`type` == BlockPresenceType.presenceDontHave done.complete() engine.request = BitswapRequest( sendPresence: sendPresence ) engine.wantListHandler(peerId, wantList) await done test "should handle want list - `dont-have` some blocks": let wantList = makeWantList(blocks.mapIt( it.cid ), sendDontHave = true) proc sendPresence(peerId: PeerID, presence: seq[BlockPresence]) = check presence.mapIt( it.cid ) == blocks[2..blocks.high].mapIt( it.cid.data.buffer ) for p in presence: check: p.`type` == BlockPresenceType.presenceDontHave done.complete() engine.request = BitswapRequest(sendPresence: sendPresence) engine.localStore.putBlocks(@[blocks[0], blocks[1]]) engine.wantListHandler(peerId, wantList) await done test "should handle blocks": let pending = blocks.mapIt( engine.pendingBlocks.addOrAwait( it.cid ) ) engine.blocksHandler(peerId, blocks) let resolved = await allFinished(pending) check resolved.mapIt( it.read ) == blocks for b in blocks: check engine.localStore.hasBlock(b.cid) test "should handle block presence": engine.blockPresenceHandler( peerId, blocks.mapIt( BlockPresence( cid: it.cid.data.buffer, `type`: BlockPresenceType.presenceHave ))) check peerCtx.peerHave == blocks.mapIt( it.cid ) suite "Bitswap engine blocks": let rng = Rng.instance() chunker = newRandomChunker(Rng.instance(), size = 2048, chunkSize = 256) blocks = chunker.mapIt( bt.Block.new(it) ) var engine: BitswapEngine peersCtx: seq[BitswapPeerCtx] peers: seq[PeerID] done: Future[void] setup: done = newFuture[void]() engine = BitswapEngine.new(MemoryStore.new()) peersCtx = @[] for i in 0..3: let seckey = PrivateKey.random(rng[]).tryGet() peers.add(PeerID.init(seckey.getKey().tryGet()).tryGet()) peersCtx.add(BitswapPeerCtx( id: peers[i] )) # set debt ratios # ratio > 1 peersCtx[0].bytesSent = 1000 peersCtx[0].bytesRecv = 100 # ratio < 1 peersCtx[1].bytesSent = 100 peersCtx[1].bytesRecv = 1000 # ratio > 1 peersCtx[2].bytesSent = 100 peersCtx[2].bytesRecv = 99 # ratio == 0 peersCtx[3].bytesSent = 100 peersCtx[3].bytesRecv = 100 engine.peers = peersCtx test "should select peer with least debt ratio": proc sendWantList( id: PeerID, cids: seq[Cid], priority: int32 = 0, cancel: bool = false, wantType: WantType = WantType.wantHave, full: bool = false, sendDontHave: bool = false) {.gcsafe.} = check cids == blocks.mapIt( it.cid ) if peersCtx[1].id == id: # second peer has the least debt ratio check wantType == WantType.wantBlock engine.resolveBlocks(blocks) else: check wantType == WantType.wantHave engine.request.sendWantList = sendWantList let pending = engine.requestBlocks(blocks.mapIt( it.cid )) let resolved = await allFinished(pending) check resolved.mapIt( it.read ) == blocks test "should select peer with least debt ratio and have CIDs": proc sendWantList( id: PeerID, cids: seq[Cid], priority: int32 = 0, cancel: bool = false, wantType: WantType = WantType.wantHave, full: bool = false, sendDontHave: bool = false) {.gcsafe.} = check cids == blocks.mapIt( it.cid ) if peersCtx[3].id == id: # 4th peer has the least debt ratio and has cids check wantType == WantType.wantBlock engine.resolveBlocks(blocks) else: check wantType == WantType.wantHave engine.request.sendWantList = sendWantList peersCtx[3].peerHave = blocks.mapIt( it.cid ) let pending = engine.requestBlocks(blocks.mapIt( it.cid )) let resolved = await allFinished(pending) check resolved.mapIt( it.read ) == blocks suite "Task Handler": let rng = Rng.instance() chunker = newRandomChunker(Rng.instance(), size = 2048, chunkSize = 256) blocks = chunker.mapIt( bt.Block.new(it) ) var engine: BitswapEngine peersCtx: seq[BitswapPeerCtx] peers: seq[PeerID] done: Future[void] setup: done = newFuture[void]() engine = BitswapEngine.new(MemoryStore.new()) peersCtx = @[] for i in 0..3: let seckey = PrivateKey.random(rng[]).tryGet() peers.add(PeerID.init(seckey.getKey().tryGet()).tryGet()) peersCtx.add(BitswapPeerCtx( id: peers[i] )) engine.peers = peersCtx test "Should send want-blocks in priority order": proc sendBlocks( id: PeerID, blks: seq[bt.Block]) {.gcsafe.} = check blks.len == 2 check: blks[1].cid == blocks[0].cid blks[0].cid == blocks[1].cid engine.localStore.putBlocks(blocks) engine.request.sendBlocks = sendBlocks # second block to send by priority peersCtx[0].peerWants.add( Entry( `block`: blocks[0].cid.data.buffer, priority: 49, cancel: false, wantType: WantType.wantBlock, sendDontHave: false) ) # first block to send by priority peersCtx[0].peerWants.add( Entry( `block`: blocks[1].cid.data.buffer, priority: 50, cancel: false, wantType: WantType.wantBlock, sendDontHave: false) ) await engine.taskHandler(peersCtx[0]) test "Should send presence": proc sendPresence( id: PeerID, presence: seq[BlockPresence]) {.gcsafe.} = check presence.len == 3 check: presence[0].cid == blocks[0].cid.data.buffer presence[0].`type` == BlockPresenceType.presenceHave presence[1].cid == blocks[1].cid.data.buffer presence[1].`type` == BlockPresenceType.presenceHave presence[2].`type` == BlockPresenceType.presenceDontHave engine.localStore.putBlocks(blocks) engine.request.sendPresence = sendPresence # have block peersCtx[0].peerWants.add( Entry( `block`: blocks[0].cid.data.buffer, priority: 1, cancel: false, wantType: WantType.wantHave, sendDontHave: false) ) # have block peersCtx[0].peerWants.add( Entry( `block`: blocks[1].cid.data.buffer, priority: 1, cancel: false, wantType: WantType.wantHave, sendDontHave: false) ) # don't have block peersCtx[0].peerWants.add( Entry( `block`: bt.Block.new("Block 1".toBytes).cid.data.buffer, priority: 1, cancel: false, wantType: WantType.wantHave, sendDontHave: false) ) await engine.taskHandler(peersCtx[0])