# beacon_chain # Copyright (c) 2018-2020 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. {.used.} import options, sequtils, unittest, ./testutil, ./testblockutil, ../beacon_chain/spec/[datatypes, digest, helpers], ../beacon_chain/[beacon_node_types, block_pool, state_transition, ssz] suiteReport "BlockRef and helpers" & preset(): timedTest "isAncestorOf sanity" & preset(): let s0 = BlockRef(slot: Slot(0)) s1 = BlockRef(slot: Slot(1), parent: s0) s2 = BlockRef(slot: Slot(2), parent: s1) check: s0.isAncestorOf(s0) s0.isAncestorOf(s1) s0.isAncestorOf(s2) s1.isAncestorOf(s1) s1.isAncestorOf(s2) not s2.isAncestorOf(s0) not s2.isAncestorOf(s1) not s1.isAncestorOf(s0) timedTest "getAncestorAt sanity" & preset(): let s0 = BlockRef(slot: Slot(0)) s1 = BlockRef(slot: Slot(1), parent: s0) s2 = BlockRef(slot: Slot(2), parent: s1) s4 = BlockRef(slot: Slot(4), parent: s2) check: s0.getAncestorAt(Slot(0)) == s0 s0.getAncestorAt(Slot(1)) == s0 s1.getAncestorAt(Slot(0)) == s0 s1.getAncestorAt(Slot(1)) == s1 s4.getAncestorAt(Slot(0)) == s0 s4.getAncestorAt(Slot(1)) == s1 s4.getAncestorAt(Slot(2)) == s2 s4.getAncestorAt(Slot(3)) == s2 s4.getAncestorAt(Slot(4)) == s4 suiteReport "BlockSlot and helpers" & preset(): timedTest "atSlot sanity" & preset(): let s0 = BlockRef(slot: Slot(0)) s1 = BlockRef(slot: Slot(1), parent: s0) s2 = BlockRef(slot: Slot(2), parent: s1) s4 = BlockRef(slot: Slot(4), parent: s2) check: s0.atSlot(Slot(0)).blck == s0 s0.atSlot(Slot(0)) == s1.atSlot(Slot(0)) s1.atSlot(Slot(1)).blck == s1 s4.atSlot(Slot(0)).blck == s0 timedTest "parent sanity" & preset(): let s0 = BlockRef(slot: Slot(0)) s00 = BlockSlot(blck: s0, slot: Slot(0)) s01 = BlockSlot(blck: s0, slot: Slot(1)) s2 = BlockRef(slot: Slot(2), parent: s0) s22 = BlockSlot(blck: s2, slot: Slot(2)) s24 = BlockSlot(blck: s2, slot: Slot(4)) check: s00.parent == BlockSlot(blck: nil, slot: Slot(0)) s01.parent == s00 s22.parent == s01 s24.parent == BlockSlot(blck: s2, slot: Slot(3)) s24.parent.parent == s22 suiteReport "Block pool processing" & preset(): setup: var db = makeTestDB(SLOTS_PER_EPOCH) pool = BlockPool.init(db) stateData = newClone(pool.loadTailState()) b1 = addTestBlock(stateData.data.data, pool.tail.root) b1Root = hash_tree_root(b1.message) b2 = addTestBlock(stateData.data.data, b1Root) b2Root {.used.} = hash_tree_root(b2.message) # addTestBlock(...) operates on BeaconState, so doesn't update root # TODO fix addTestBlock to work on HashedBeaconState directly stateData.data.root = hash_tree_root(stateData.data.data) timedTest "getRef returns nil for missing blocks": check: pool.getRef(default Eth2Digest) == nil timedTest "loadTailState gets genesis block on first load" & preset(): let b0 = pool.get(pool.tail.root) check: b0.isSome() timedTest "Simple block add&get" & preset(): let b1Add = pool.add(b1Root, b1) b1Get = pool.get(b1Root) check: b1Get.isSome() b1Get.get().refs.root == b1Root b1Add.root == b1Get.get().refs.root pool.heads.len == 1 pool.heads[0].blck == b1Add let b2Add = pool.add(b2Root, b2) b2Get = pool.get(b2Root) check: b2Get.isSome() b2Get.get().refs.root == b2Root b2Add.root == b2Get.get().refs.root pool.heads.len == 1 pool.heads[0].blck == b2Add # Skip one slot to get a gap check: process_slots(stateData.data, stateData.data.data.slot + 1) let b4 = addTestBlock(stateData.data.data, b2Root) b4Root = hash_tree_root(b4.message) b4Add = pool.add(b4Root, b4) # TODO fix addTestBlock to work on HashedBeaconState stateData.data.root = hash_tree_root(stateData.data.data) check: b4Add.parent == b2Add pool.updateHead(b4Add) var blocks: array[3, BlockRef] check: pool.getBlockRange(Slot(0), 1, blocks.toOpenArray(0, 0)) == 0 blocks[0..<1] == [pool.tail] pool.getBlockRange(Slot(0), 1, blocks.toOpenArray(0, 1)) == 0 blocks[0..<2] == [pool.tail, b1Add] pool.getBlockRange(Slot(0), 2, blocks.toOpenArray(0, 1)) == 0 blocks[0..<2] == [pool.tail, b2Add] pool.getBlockRange(Slot(0), 3, blocks.toOpenArray(0, 1)) == 1 blocks[0..<2] == [nil, pool.tail] # block 3 is missing! pool.getBlockRange(Slot(2), 2, blocks.toOpenArray(0, 1)) == 0 blocks[0..<2] == [b2Add, b4Add] # block 3 is missing! # empty length pool.getBlockRange(Slot(2), 2, blocks.toOpenArray(0, -1)) == 0 # No blocks in sight pool.getBlockRange(Slot(5), 1, blocks.toOpenArray(0, 1)) == 2 # No blocks in sight either due to gaps pool.getBlockRange(Slot(3), 2, blocks.toOpenArray(0, 1)) == 2 blocks[0..<2] == [BlockRef nil, nil] # block 3 is missing! timedTest "Reverse order block add & get" & preset(): discard pool.add(b2Root, b2) check: pool.get(b2Root).isNone() # Unresolved, shouldn't show up FetchRecord(root: b1Root, historySlots: 1) in pool.checkMissing() discard pool.add(b1Root, b1) let b1Get = pool.get(b1Root) b2Get = pool.get(b2Root) check: b1Get.isSome() b2Get.isSome() b1Get.get().refs.children[0] == b2Get.get().refs b2Get.get().refs.parent == b1Get.get().refs pool.updateHead(b2Get.get().refs) # The heads structure should have been updated to contain only the new # b2 head check: pool.heads.mapIt(it.blck) == @[b2Get.get().refs] # check that init also reloads block graph var pool2 = BlockPool.init(db) check: # ensure we loaded the correct head state pool2.head.blck.root == b2Root hash_tree_root(pool2.headState.data.data) == b2.message.state_root pool2.get(b1Root).isSome() pool2.get(b2Root).isSome() pool2.heads.len == 1 pool2.heads[0].blck.root == b2Root timedTest "Can add same block twice" & preset(): let b10 = pool.add(b1Root, b1) b11 = pool.add(b1Root, b1) check: b10 == b11 not b10.isNil timedTest "updateHead updates head and headState" & preset(): let b1Add = pool.add(b1Root, b1) pool.updateHead(b1Add) check: pool.head.blck == b1Add pool.headState.data.data.slot == b1Add.slot timedTest "updateStateData sanity" & preset(): let b1Add = pool.add(b1Root, b1) b2Add = pool.add(b2Root, b2) bs1 = BlockSlot(blck: b1Add, slot: b1.message.slot) bs1_3 = b1Add.atSlot(3.Slot) bs2_3 = b2Add.atSlot(3.Slot) var tmpState = newClone(pool.headState) # move to specific block pool.updateStateData(tmpState[], bs1) check: tmpState.blck == b1Add tmpState.data.data.slot == bs1.slot # Skip slots pool.updateStateData(tmpState[], bs1_3) # skip slots check: tmpState.blck == b1Add tmpState.data.data.slot == bs1_3.slot # Move back slots, but not blocks pool.updateStateData(tmpState[], bs1_3.parent()) check: tmpState.blck == b1Add tmpState.data.data.slot == bs1_3.parent().slot # Move to different block and slot pool.updateStateData(tmpState[], bs2_3) check: tmpState.blck == b2Add tmpState.data.data.slot == bs2_3.slot # Move back slot and block pool.updateStateData(tmpState[], bs1) check: tmpState.blck == b1Add tmpState.data.data.slot == bs1.slot # Move back to genesis pool.updateStateData(tmpState[], bs1.parent()) check: tmpState.blck == b1Add.parent tmpState.data.data.slot == bs1.parent.slot when const_preset == "minimal": # These require some minutes in mainnet import ../beacon_chain/spec/validator suiteReport "BlockPool finalization tests" & preset(): setup: var db = makeTestDB(SLOTS_PER_EPOCH) pool = BlockPool.init(db) timedTest "prune heads on finalization" & preset(): block: # Create a fork that will not be taken var blck = makeTestBlock(pool.headState.data.data, pool.head.blck.root) discard pool.add(hash_tree_root(blck.message), blck) for i in 0 ..< (SLOTS_PER_EPOCH * 6): if i == 1: # There are 2 heads now because of the fork at slot 1 check: pool.tail.children.len == 2 pool.heads.len == 2 var cache = get_empty_per_epoch_cache() blck = makeTestBlock( pool.headState.data.data, pool.head.blck.root, attestations = makeFullAttestations( pool.headState.data.data, pool.head.blck.root, pool.headState.data.data.slot, cache, {})) let added = pool.add(hash_tree_root(blck.message), blck) pool.updateHead(added) check: pool.heads.len() == 1 pool.head.justified.slot.compute_epoch_at_slot() == 5 pool.tail.children.len == 1 let pool2 = BlockPool.init(db) # check that the state reloaded from database resembles what we had before check: pool2.tail.root == pool.tail.root pool2.head.blck.root == pool.head.blck.root pool2.finalizedHead.blck.root == pool.finalizedHead.blck.root pool2.finalizedHead.slot == pool.finalizedHead.slot hash_tree_root(pool2.headState.data.data) == hash_tree_root(pool.headState.data.data) hash_tree_root(pool2.justifiedState.data.data) == hash_tree_root(pool.justifiedState.data.data) timedTest "init with gaps" & preset(): var cache = get_empty_per_epoch_cache() for i in 0 ..< (SLOTS_PER_EPOCH * 6 - 2): var blck = makeTestBlock( pool.headState.data.data, pool.head.blck.root, attestations = makeFullAttestations( pool.headState.data.data, pool.head.blck.root, pool.headState.data.data.slot, cache, {})) let added = pool.add(hash_tree_root(blck.message), blck) pool.updateHead(added) # Advance past epoch so that the epoch transition is gapped check: process_slots( pool.headState.data, Slot(SLOTS_PER_EPOCH * 6 + 2) ) var blck = makeTestBlock( pool.headState.data.data, pool.head.blck.root, attestations = makeFullAttestations( pool.headState.data.data, pool.head.blck.root, pool.headState.data.data.slot, cache, {})) let added = pool.add(hash_tree_root(blck.message), blck) pool.updateHead(added) let pool2 = BlockPool.init(db) # check that the state reloaded from database resembles what we had before check: pool2.tail.root == pool.tail.root pool2.head.blck.root == pool.head.blck.root pool2.finalizedHead.blck.root == pool.finalizedHead.blck.root pool2.finalizedHead.slot == pool.finalizedHead.slot hash_tree_root(pool2.headState.data.data) == hash_tree_root(pool.headState.data.data) hash_tree_root(pool2.justifiedState.data.data) == hash_tree_root(pool.justifiedState.data.data)