nimbus-eth2/tests/test_beacon_chain_db.nim

993 lines
34 KiB
Nim

# beacon_chain
# Copyright (c) 2018-2024 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or https://www.apache.org/licenses/LICENSE-2.0)
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or https://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or distributed except according to those terms.
{.push raises: [].}
{.used.}
import
unittest2,
../beacon_chain/beacon_chain_db,
../beacon_chain/spec/[beaconstate, forks, state_transition],
../beacon_chain/consensus_object_pools/blockchain_dag,
eth/db/kvstore,
# test utilies
./mocking/mock_genesis,
./testutil, ./testdbutil, ./testblockutil, ./teststateutil
from std/algorithm import sort
from std/sequtils import toSeq
from snappy import encodeFramed, uncompressedLenFramed
when isMainModule:
import chronicles # or some random compile error happens...
proc getPhase0StateRef(db: BeaconChainDB, root: Eth2Digest):
phase0.NilableBeaconStateRef =
# load beaconstate the way the block pool does it - into an existing instance
let res = (phase0.BeaconStateRef)()
if db.getState(root, res[], noRollback):
return res
proc getAltairStateRef(db: BeaconChainDB, root: Eth2Digest):
altair.NilableBeaconStateRef =
# load beaconstate the way the block pool does it - into an existing instance
let res = (altair.BeaconStateRef)()
if db.getState(root, res[], noRollback):
return res
proc getBellatrixStateRef(db: BeaconChainDB, root: Eth2Digest):
bellatrix.NilableBeaconStateRef =
# load beaconstate the way the block pool does it - into an existing instance
let res = (bellatrix.BeaconStateRef)()
if db.getState(root, res[], noRollback):
return res
from ../beacon_chain/spec/datatypes/capella import
BeaconStateRef, NilableBeaconStateRef
proc getCapellaStateRef(db: BeaconChainDB, root: Eth2Digest):
capella.NilableBeaconStateRef =
# load beaconstate the way the block pool does it - into an existing instance
let res = (capella.BeaconStateRef)()
if db.getState(root, res[], noRollback):
return res
from ../beacon_chain/spec/datatypes/deneb import TrustedSignedBeaconBlock
proc getDenebStateRef(db: BeaconChainDB, root: Eth2Digest):
deneb.NilableBeaconStateRef =
# load beaconstate the way the block pool does it - into an existing instance
let res = (deneb.BeaconStateRef)()
if db.getState(root, res[], noRollback):
return res
func withDigest(blck: phase0.TrustedBeaconBlock):
phase0.TrustedSignedBeaconBlock =
phase0.TrustedSignedBeaconBlock(
message: blck,
root: hash_tree_root(blck)
)
func withDigest(blck: altair.TrustedBeaconBlock):
altair.TrustedSignedBeaconBlock =
altair.TrustedSignedBeaconBlock(
message: blck,
root: hash_tree_root(blck)
)
func withDigest(blck: bellatrix.TrustedBeaconBlock):
bellatrix.TrustedSignedBeaconBlock =
bellatrix.TrustedSignedBeaconBlock(
message: blck,
root: hash_tree_root(blck)
)
func withDigest(blck: capella.TrustedBeaconBlock):
capella.TrustedSignedBeaconBlock =
capella.TrustedSignedBeaconBlock(
message: blck,
root: hash_tree_root(blck)
)
func withDigest(blck: deneb.TrustedBeaconBlock):
deneb.TrustedSignedBeaconBlock =
deneb.TrustedSignedBeaconBlock(
message: blck,
root: hash_tree_root(blck)
)
proc getTestStates(consensusFork: ConsensusFork): auto =
let
db = makeTestDB(SLOTS_PER_EPOCH)
validatorMonitor = newClone(ValidatorMonitor.init())
dag = init(ChainDAGRef, defaultRuntimeConfig, db, validatorMonitor, {})
var testStates = getTestStates(dag.headState, consensusFork)
# Ensure transitions beyond just adding validators and increasing slots
sort(testStates) do (x, y: ref ForkedHashedBeaconState) -> int:
cmp($getStateRoot(x[]), $getStateRoot(y[]))
testStates
debugComment "add some electra states, and test electra state/block loading/etc"
# Each set of states gets used twice, so scope them to module
let
testStatesPhase0 = getTestStates(ConsensusFork.Phase0)
testStatesAltair = getTestStates(ConsensusFork.Altair)
testStatesBellatrix = getTestStates(ConsensusFork.Bellatrix)
testStatesCapella = getTestStates(ConsensusFork.Capella)
testStatesDeneb = getTestStates(ConsensusFork.Deneb)
doAssert len(testStatesPhase0) > 8
doAssert len(testStatesAltair) > 8
doAssert len(testStatesBellatrix) > 8
doAssert len(testStatesCapella) > 8
doAssert len(testStatesDeneb) > 8
suite "Beacon chain DB" & preset():
test "empty database" & preset():
var
db = BeaconChainDB.new("", inMemory = true)
check:
db.getPhase0StateRef(ZERO_HASH).isNil
db.getBlock(ZERO_HASH, phase0.TrustedSignedBeaconBlock).isNone
test "sanity check phase 0 blocks" & preset():
let db = BeaconChainDB.new("", inMemory = true)
let
signedBlock = withDigest((phase0.TrustedBeaconBlock)())
root = hash_tree_root(signedBlock.message)
db.putBlock(signedBlock)
var tmp, tmp2: seq[byte]
check:
db.containsBlock(root)
db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, phase0.TrustedSignedBeaconBlock).get() == signedBlock
db.getBlockSSZ(root, tmp, phase0.TrustedSignedBeaconBlock)
db.getBlockSZ(root, tmp2, phase0.TrustedSignedBeaconBlock)
tmp == SSZ.encode(signedBlock)
tmp2 == encodeFramed(tmp)
uncompressedLenFramed(tmp2).isSome
check:
db.delBlock(ConsensusFork.Phase0, root)
not db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, phase0.TrustedSignedBeaconBlock).isErr()
not db.getBlockSSZ(root, tmp, phase0.TrustedSignedBeaconBlock)
not db.getBlockSZ(root, tmp2, phase0.TrustedSignedBeaconBlock)
db.putStateRoot(root, signedBlock.message.slot, root)
var root2 = root
root2.data[0] = root.data[0] + 1
db.putStateRoot(root, signedBlock.message.slot + 1, root2)
check:
db.getStateRoot(root, signedBlock.message.slot).get() == root
db.getStateRoot(root, signedBlock.message.slot + 1).get() == root2
db.close()
test "sanity check Altair blocks" & preset():
let db = BeaconChainDB.new("", inMemory = true)
let
signedBlock = withDigest((altair.TrustedBeaconBlock)())
root = hash_tree_root(signedBlock.message)
db.putBlock(signedBlock)
var tmp, tmp2: seq[byte]
check:
db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, altair.TrustedSignedBeaconBlock).get() == signedBlock
db.getBlockSSZ(root, tmp, altair.TrustedSignedBeaconBlock)
db.getBlockSZ(root, tmp2, altair.TrustedSignedBeaconBlock)
tmp == SSZ.encode(signedBlock)
tmp2 == encodeFramed(tmp)
uncompressedLenFramed(tmp2).isSome
check:
db.delBlock(ConsensusFork.Altair, root)
not db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, altair.TrustedSignedBeaconBlock).isErr()
not db.getBlockSSZ(root, tmp, altair.TrustedSignedBeaconBlock)
not db.getBlockSZ(root, tmp2, altair.TrustedSignedBeaconBlock)
db.putStateRoot(root, signedBlock.message.slot, root)
var root2 = root
root2.data[0] = root.data[0] + 1
db.putStateRoot(root, signedBlock.message.slot + 1, root2)
check:
db.getStateRoot(root, signedBlock.message.slot).get() == root
db.getStateRoot(root, signedBlock.message.slot + 1).get() == root2
db.close()
test "sanity check Bellatrix blocks" & preset():
let db = BeaconChainDB.new("", inMemory = true)
let
signedBlock = withDigest((bellatrix.TrustedBeaconBlock)())
root = hash_tree_root(signedBlock.message)
db.putBlock(signedBlock)
var tmp, tmp2: seq[byte]
check:
db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, bellatrix.TrustedSignedBeaconBlock).get() == signedBlock
db.getBlockSSZ(root, tmp, bellatrix.TrustedSignedBeaconBlock)
db.getBlockSZ(root, tmp2, bellatrix.TrustedSignedBeaconBlock)
tmp == SSZ.encode(signedBlock)
tmp2 == encodeFramed(tmp)
uncompressedLenFramed(tmp2).isSome
check:
db.delBlock(ConsensusFork.Bellatrix, root)
not db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, bellatrix.TrustedSignedBeaconBlock).isErr()
not db.getBlockSSZ(root, tmp, bellatrix.TrustedSignedBeaconBlock)
not db.getBlockSZ(root, tmp2, bellatrix.TrustedSignedBeaconBlock)
db.putStateRoot(root, signedBlock.message.slot, root)
var root2 = root
root2.data[0] = root.data[0] + 1
db.putStateRoot(root, signedBlock.message.slot + 1, root2)
check:
db.getStateRoot(root, signedBlock.message.slot).get() == root
db.getStateRoot(root, signedBlock.message.slot + 1).get() == root2
db.close()
test "sanity check Capella blocks" & preset():
let db = BeaconChainDB.new("", inMemory = true)
let
signedBlock = withDigest((capella.TrustedBeaconBlock)())
root = hash_tree_root(signedBlock.message)
db.putBlock(signedBlock)
var tmp, tmp2: seq[byte]
check:
db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.containsBlock(root, capella.TrustedSignedBeaconBlock)
db.getBlock(root, capella.TrustedSignedBeaconBlock).get() == signedBlock
db.getBlockSSZ(root, tmp, capella.TrustedSignedBeaconBlock)
db.getBlockSZ(root, tmp2, capella.TrustedSignedBeaconBlock)
tmp == SSZ.encode(signedBlock)
tmp2 == encodeFramed(tmp)
uncompressedLenFramed(tmp2).isSome
check:
db.delBlock(ConsensusFork.Capella, root)
not db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, capella.TrustedSignedBeaconBlock).isErr()
not db.getBlockSSZ(root, tmp, capella.TrustedSignedBeaconBlock)
not db.getBlockSZ(root, tmp2, capella.TrustedSignedBeaconBlock)
db.putStateRoot(root, signedBlock.message.slot, root)
var root2 = root
root2.data[0] = root.data[0] + 1
db.putStateRoot(root, signedBlock.message.slot + 1, root2)
check:
db.getStateRoot(root, signedBlock.message.slot).get() == root
db.getStateRoot(root, signedBlock.message.slot + 1).get() == root2
db.close()
test "sanity check Deneb blocks" & preset():
let db = BeaconChainDB.new("", inMemory = true)
let
signedBlock = withDigest((deneb.TrustedBeaconBlock)())
root = hash_tree_root(signedBlock.message)
db.putBlock(signedBlock)
var tmp, tmp2: seq[byte]
check:
db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, deneb.TrustedSignedBeaconBlock).get() == signedBlock
db.getBlockSSZ(root, tmp, deneb.TrustedSignedBeaconBlock)
db.getBlockSZ(root, tmp2, deneb.TrustedSignedBeaconBlock)
tmp == SSZ.encode(signedBlock)
tmp2 == encodeFramed(tmp)
uncompressedLenFramed(tmp2).isSome
check:
db.delBlock(ConsensusFork.Deneb, root)
not db.containsBlock(root)
not db.containsBlock(root, phase0.TrustedSignedBeaconBlock)
not db.containsBlock(root, altair.TrustedSignedBeaconBlock)
not db.containsBlock(root, bellatrix.TrustedSignedBeaconBlock)
not db.containsBlock(root, capella.TrustedSignedBeaconBlock)
not db.containsBlock(root, deneb.TrustedSignedBeaconBlock)
db.getBlock(root, deneb.TrustedSignedBeaconBlock).isErr()
not db.getBlockSSZ(root, tmp, deneb.TrustedSignedBeaconBlock)
not db.getBlockSZ(root, tmp2, deneb.TrustedSignedBeaconBlock)
db.putStateRoot(root, signedBlock.message.slot, root)
var root2 = root
root2.data[0] = root.data[0] + 1
db.putStateRoot(root, signedBlock.message.slot + 1, root2)
check:
db.getStateRoot(root, signedBlock.message.slot).get() == root
db.getStateRoot(root, signedBlock.message.slot + 1).get() == root2
db.close()
test "sanity check phase 0 states" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
for state in testStatesPhase0:
let root = state[].phase0Data.root
db.putState(root, state[].phase0Data.data)
check:
db.containsState(root)
hash_tree_root(db.getPhase0StateRef(root)[]) == root
db.delState(ConsensusFork.Phase0, root)
check:
not db.containsState(root)
db.getPhase0StateRef(root).isNil
db.close()
test "sanity check Altair states" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
for state in testStatesAltair:
let root = state[].altairData.root
db.putState(root, state[].altairData.data)
check:
db.containsState(root)
hash_tree_root(db.getAltairStateRef(root)[]) == root
db.delState(ConsensusFork.Altair, root)
check:
not db.containsState(root)
db.getAltairStateRef(root).isNil
db.close()
test "sanity check Bellatrix states" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
for state in testStatesBellatrix:
let root = state[].bellatrixData.root
db.putState(root, state[].bellatrixData.data)
check:
db.containsState(root)
hash_tree_root(db.getBellatrixStateRef(root)[]) == root
db.delState(ConsensusFork.Bellatrix, root)
check:
not db.containsState(root)
db.getBellatrixStateRef(root).isNil
db.close()
test "sanity check Capella states" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
for state in testStatesCapella:
let root = state[].capellaData.root
db.putState(root, state[].capellaData.data)
check:
db.containsState(root)
hash_tree_root(db.getCapellaStateRef(root)[]) == root
db.delState(ConsensusFork.Capella, root)
check:
not db.containsState(root)
db.getCapellaStateRef(root).isNil
db.close()
test "sanity check Deneb states" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
for state in testStatesDeneb:
let root = state[].denebData.root
db.putState(root, state[].denebData.data)
check:
db.containsState(root)
hash_tree_root(db.getDenebStateRef(root)[]) == root
db.delState(ConsensusFork.Deneb, root)
check:
not db.containsState(root)
db.getDenebStateRef(root).isNil
db.close()
test "sanity check phase 0 states, reusing buffers" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
let stateBuffer = (phase0.BeaconStateRef)()
for state in testStatesPhase0:
let root = state[].phase0Data.root
db.putState(root, state[].phase0Data.data)
check:
db.getState(root, stateBuffer[], noRollback)
db.containsState(root)
hash_tree_root(stateBuffer[]) == root
db.delState(ConsensusFork.Phase0, root)
check:
not db.containsState(root)
not db.getState(root, stateBuffer[], noRollback)
db.close()
test "sanity check Altair states, reusing buffers" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
let stateBuffer = (altair.BeaconStateRef)()
for state in testStatesAltair:
let root = state[].altairData.root
db.putState(root, state[].altairData.data)
check:
db.getState(root, stateBuffer[], noRollback)
db.containsState(root)
hash_tree_root(stateBuffer[]) == root
db.delState(ConsensusFork.Altair, root)
check:
not db.containsState(root)
not db.getState(root, stateBuffer[], noRollback)
db.close()
test "sanity check Bellatrix states, reusing buffers" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
let stateBuffer = (bellatrix.BeaconStateRef)()
for state in testStatesBellatrix:
let root = state[].bellatrixData.root
db.putState(root, state[].bellatrixData.data)
check:
db.getState(root, stateBuffer[], noRollback)
db.containsState(root)
hash_tree_root(stateBuffer[]) == root
db.delState(ConsensusFork.Bellatrix, root)
check:
not db.containsState(root)
not db.getState(root, stateBuffer[], noRollback)
db.close()
test "sanity check Capella states, reusing buffers" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
let stateBuffer = (capella.BeaconStateRef)()
for state in testStatesCapella:
let root = state[].capellaData.root
db.putState(root, state[].capellaData.data)
check:
db.getState(root, stateBuffer[], noRollback)
db.containsState(root)
hash_tree_root(stateBuffer[]) == root
db.delState(ConsensusFork.Capella, root)
check:
not db.containsState(root)
not db.getState(root, stateBuffer[], noRollback)
db.close()
test "sanity check Deneb states, reusing buffers" & preset():
let db = makeTestDB(SLOTS_PER_EPOCH)
let stateBuffer = (deneb.BeaconStateRef)()
for state in testStatesDeneb:
let root = state[].denebData.root
db.putState(root, state[].denebData.data)
check:
db.getState(root, stateBuffer[], noRollback)
db.containsState(root)
hash_tree_root(stateBuffer[]) == root
db.delState(ConsensusFork.Deneb, root)
check:
not db.containsState(root)
not db.getState(root, stateBuffer[], noRollback)
db.close()
test "sanity check phase 0 getState rollback" & preset():
var
db = makeTestDB(SLOTS_PER_EPOCH)
validatorMonitor = newClone(ValidatorMonitor.init())
dag = init(ChainDAGRef, defaultRuntimeConfig, db, validatorMonitor, {})
state = (ref ForkedHashedBeaconState)(
kind: ConsensusFork.Phase0,
phase0Data: phase0.HashedBeaconState(data: phase0.BeaconState(
slot: 10.Slot)))
root = Eth2Digest()
db.putCorruptState(ConsensusFork.Phase0, root)
let restoreAddr = addr dag.headState
func restore() =
assign(state[], restoreAddr[])
check:
state[].phase0Data.data.slot == 10.Slot
not db.getState(root, state[].phase0Data.data, restore)
state[].phase0Data.data.slot != 10.Slot
test "sanity check Altair and cross-fork getState rollback" & preset():
var
db = makeTestDB(SLOTS_PER_EPOCH)
validatorMonitor = newClone(ValidatorMonitor.init())
dag = init(ChainDAGRef, defaultRuntimeConfig, db, validatorMonitor, {})
state = (ref ForkedHashedBeaconState)(
kind: ConsensusFork.Altair,
altairData: altair.HashedBeaconState(data: altair.BeaconState(
slot: 10.Slot)))
root = Eth2Digest()
db.putCorruptState(ConsensusFork.Altair, root)
let restoreAddr = addr dag.headState
func restore() =
assign(state[], restoreAddr[])
check:
state[].altairData.data.slot == 10.Slot
not db.getState(root, state[].altairData.data, restore)
# assign() has switched the case object fork
state[].kind == ConsensusFork.Phase0
state[].phase0Data.data.slot != 10.Slot
test "sanity check Bellatrix and cross-fork getState rollback" & preset():
var
db = makeTestDB(SLOTS_PER_EPOCH)
validatorMonitor = newClone(ValidatorMonitor.init())
dag = init(ChainDAGRef, defaultRuntimeConfig, db, validatorMonitor, {})
state = (ref ForkedHashedBeaconState)(
kind: ConsensusFork.Bellatrix,
bellatrixData: bellatrix.HashedBeaconState(data: bellatrix.BeaconState(
slot: 10.Slot)))
root = Eth2Digest()
db.putCorruptState(ConsensusFork.Bellatrix, root)
let restoreAddr = addr dag.headState
func restore() =
assign(state[], restoreAddr[])
check:
state[].bellatrixData.data.slot == 10.Slot
not db.getState(root, state[].bellatrixData.data, restore)
# assign() has switched the case object fork
state[].kind == ConsensusFork.Phase0
state[].phase0Data.data.slot != 10.Slot
test "sanity check Capella and cross-fork getState rollback" & preset():
var
db = makeTestDB(SLOTS_PER_EPOCH)
validatorMonitor = newClone(ValidatorMonitor.init())
dag = init(ChainDAGRef, defaultRuntimeConfig, db, validatorMonitor, {})
state = (ref ForkedHashedBeaconState)(
kind: ConsensusFork.Capella,
capellaData: capella.HashedBeaconState(data: capella.BeaconState(
slot: 10.Slot)))
root = Eth2Digest()
db.putCorruptState(ConsensusFork.Capella, root)
let restoreAddr = addr dag.headState
func restore() =
assign(state[], restoreAddr[])
check:
state[].capellaData.data.slot == 10.Slot
not db.getState(root, state[].capellaData.data, restore)
# assign() has switched the case object fork
state[].kind == ConsensusFork.Phase0
state[].phase0Data.data.slot != 10.Slot
test "sanity check Deneb and cross-fork getState rollback" & preset():
var
db = makeTestDB(SLOTS_PER_EPOCH)
validatorMonitor = newClone(ValidatorMonitor.init())
dag = init(ChainDAGRef, defaultRuntimeConfig, db, validatorMonitor, {})
state = (ref ForkedHashedBeaconState)(
kind: ConsensusFork.Deneb,
denebData: deneb.HashedBeaconState(data: deneb.BeaconState(
slot: 10.Slot)))
root = Eth2Digest()
db.putCorruptState(ConsensusFork.Deneb, root)
let restoreAddr = addr dag.headState
func restore() =
assign(state[], restoreAddr[])
check:
state[].denebData.data.slot == 10.Slot
not db.getState(root, state[].denebData.data, restore)
# assign() has switched the case object fork
state[].kind == ConsensusFork.Phase0
state[].phase0Data.data.slot != 10.Slot
test "find ancestors" & preset():
var
db = BeaconChainDB.new("", inMemory = true)
let
a0 = withDigest(
(phase0.TrustedBeaconBlock)(slot: GENESIS_SLOT + 0))
a1 = withDigest(
(phase0.TrustedBeaconBlock)(slot: GENESIS_SLOT + 1, parent_root: a0.root))
a2 = withDigest(
(phase0.TrustedBeaconBlock)(slot: GENESIS_SLOT + 2, parent_root: a1.root))
doAssert toSeq(db.getAncestorSummaries(a0.root)).len == 0
doAssert toSeq(db.getAncestorSummaries(a2.root)).len == 0
doAssert db.getBeaconBlockSummary(a2.root).isNone()
db.putBlock(a2)
doAssert toSeq(db.getAncestorSummaries(a0.root)).len == 0
doAssert toSeq(db.getAncestorSummaries(a2.root)).len == 1
doAssert db.getBeaconBlockSummary(a2.root).get().slot == a2.message.slot
db.putBlock(a1)
doAssert toSeq(db.getAncestorSummaries(a0.root)).len == 0
doAssert toSeq(db.getAncestorSummaries(a2.root)).len == 2
db.putBlock(a0)
doAssert toSeq(db.getAncestorSummaries(a0.root)).len == 1
doAssert toSeq(db.getAncestorSummaries(a2.root)).len == 3
test "sanity check genesis roundtrip" & preset():
# This is a really dumb way of checking that we can roundtrip a genesis
# state. We've been bit by this because we've had a bug in the BLS
# serialization where an all-zero default-initialized bls signature could
# not be deserialized because the deserialization was too strict.
var
db = BeaconChainDB.new("", inMemory = true)
let
state = newClone(initialize_hashed_beacon_state_from_eth1(
defaultRuntimeConfig, mockEth1BlockHash, 0,
makeInitialDeposits(SLOTS_PER_EPOCH), {skipBlsValidation}))
db.putState(state[].root, state[].data)
check db.containsState(state[].root)
let state2 = db.getPhase0StateRef(state[].root)
db.delState(ConsensusFork.Phase0, state[].root)
check not db.containsState(state[].root)
db.close()
check:
hash_tree_root(state2[]) == state[].root
test "sanity check state diff roundtrip" & preset():
var
db = BeaconChainDB.new("", inMemory = true)
# TODO htr(diff) probably not interesting/useful, but stand-in
let
stateDiff = BeaconStateDiff()
root = hash_tree_root(stateDiff)
db.putStateDiff(root, stateDiff)
let state2 = db.getStateDiff(root)
db.delStateDiff(root)
check db.getStateDiff(root).isNone()
db.close()
check:
hash_tree_root(state2[]) == root
test "sanity check blobs" & preset():
const
blockHeader0 = SignedBeaconBlockHeader(
message: BeaconBlockHeader(slot: Slot(0)))
blockHeader1 = SignedBeaconBlockHeader(
message: BeaconBlockHeader(slot: Slot(1)))
let
blockRoot0 = hash_tree_root(blockHeader0.message)
blockRoot1 = hash_tree_root(blockHeader1.message)
# Ensure minimal-difference pairs on both block root and blob index to
# verify that blobkey uses both
blobSidecar0 = BlobSidecar(signed_block_header: blockHeader0, index: 3)
blobSidecar1 = BlobSidecar(signed_block_header: blockHeader0, index: 2)
blobSidecar2 = BlobSidecar(signed_block_header: blockHeader1, index: 2)
db = makeTestDB(SLOTS_PER_EPOCH)
var
buf: seq[byte]
blobSidecar: BlobSidecar
check:
not db.getBlobSidecar(blockRoot0, 3, blobSidecar)
not db.getBlobSidecar(blockRoot0, 2, blobSidecar)
not db.getBlobSidecar(blockRoot1, 2, blobSidecar)
not db.getBlobSidecarSZ(blockRoot0, 3, buf)
not db.getBlobSidecarSZ(blockRoot0, 2, buf)
not db.getBlobSidecarSZ(blockRoot1, 2, buf)
db.putBlobSidecar(blobSidecar0)
check:
db.getBlobSidecar(blockRoot0, 3, blobSidecar)
blobSidecar == blobSidecar0
not db.getBlobSidecar(blockRoot0, 2, blobSidecar)
not db.getBlobSidecar(blockRoot1, 2, blobSidecar)
db.getBlobSidecarSZ(blockRoot0, 3, buf)
not db.getBlobSidecarSZ(blockRoot0, 2, buf)
not db.getBlobSidecarSZ(blockRoot1, 2, buf)
db.putBlobSidecar(blobSidecar1)
check:
db.getBlobSidecar(blockRoot0, 3, blobSidecar)
blobSidecar == blobSidecar0
db.getBlobSidecar(blockRoot0, 2, blobSidecar)
blobSidecar == blobSidecar1
not db.getBlobSidecar(blockRoot1, 2, blobSidecar)
db.getBlobSidecarSZ(blockRoot0, 3, buf)
db.getBlobSidecarSZ(blockRoot0, 2, buf)
not db.getBlobSidecarSZ(blockRoot1, 2, buf)
check db.delBlobSidecar(blockRoot0, 3)
check:
not db.getBlobSidecar(blockRoot0, 3, blobSidecar)
db.getBlobSidecar(blockRoot0, 2, blobSidecar)
blobSidecar == blobSidecar1
not db.getBlobSidecar(blockRoot1, 2, blobSidecar)
not db.getBlobSidecarSZ(blockRoot0, 3, buf)
db.getBlobSidecarSZ(blockRoot0, 2, buf)
not db.getBlobSidecarSZ(blockRoot1, 2, buf)
db.putBlobSidecar(blobSidecar2)
check:
not db.getBlobSidecar(blockRoot0, 3, blobSidecar)
db.getBlobSidecar(blockRoot0, 2, blobSidecar)
blobSidecar == blobSidecar1
db.getBlobSidecar(blockRoot1, 2, blobSidecar)
blobSidecar == blobSidecar2
not db.getBlobSidecarSZ(blockRoot0, 3, buf)
db.getBlobSidecarSZ(blockRoot0, 2, buf)
db.getBlobSidecarSZ(blockRoot1, 2, buf)
check db.delBlobSidecar(blockRoot0, 2)
check:
not db.getBlobSidecar(blockRoot0, 3, blobSidecar)
not db.getBlobSidecar(blockRoot0, 2, blobSidecar)
db.getBlobSidecar(blockRoot1, 2, blobSidecar)
blobSidecar == blobSidecar2
not db.getBlobSidecarSZ(blockRoot0, 3, buf)
not db.getBlobSidecarSZ(blockRoot0, 2, buf)
db.getBlobSidecarSZ(blockRoot1, 2, buf)
check db.delBlobSidecar(blockRoot1, 2)
check:
not db.getBlobSidecar(blockRoot0, 3, blobSidecar)
not db.getBlobSidecar(blockRoot0, 2, blobSidecar)
not db.getBlobSidecar(blockRoot1, 2, blobSidecar)
not db.getBlobSidecarSZ(blockRoot0, 3, buf)
not db.getBlobSidecarSZ(blockRoot0, 2, buf)
not db.getBlobSidecarSZ(blockRoot1, 2, buf)
db.close()
test "sanity check data columns" & preset():
const
blockHeader0 = SignedBeaconBlockHeader(
message: BeaconBlockHeader(slot: Slot(0)))
blockHeader1 = SignedBeaconBlockHeader(
message: BeaconBlockHeader(slot: Slot(1)))
let
blockRoot0 = hash_tree_root(blockHeader0.message)
blockRoot1 = hash_tree_root(blockHeader1.message)
# Ensure minimal-difference pairs on both block root and
# data column index to verify that the columnkey uses both
dataColumnSidecar0 = DataColumnSidecar(signed_block_header: blockHeader0, index: 3)
dataColumnSidecar1 = DataColumnSidecar(signed_block_header: blockHeader0, index: 2)
dataColumnSidecar2 = DataColumnSidecar(signed_block_header: blockHeader1, index: 2)
db = makeTestDB(SLOTS_PER_EPOCH)
var
buf: seq[byte]
dataColumnSidecar: DataColumnSidecar
check:
not db.getDataColumnSidecar(blockRoot0, 3, dataColumnSidecar)
not db.getDataColumnSidecar(blockRoot0, 2, dataColumnSidecar)
not db.getDataColumnSidecar(blockRoot1, 2, dataColumnSidecar)
not db.getDataColumnSidecarSZ(blockRoot0, 3, buf)
not db.getDataColumnSidecarSZ(blockRoot0, 3, buf)
not db.getDataColumnSidecarSZ(blockRoot1, 2, buf)
db.putDataColumnSidecar(dataColumnSidecar0)
check:
db.getDataColumnSidecar(blockRoot0, 3, dataColumnSidecar)
dataColumnSidecar == dataColumnSidecar0
not db.getDataColumnSidecar(blockRoot0, 2, dataColumnSidecar)
not db.getDataColumnSidecar(blockRoot1, 2, dataColumnSidecar)
db.getDataColumnSidecarSZ(blockRoot0, 3, buf)
not db.getDataColumnSidecarSZ(blockRoot0, 2, buf)
not db.getDataColumnSidecarSZ(blockRoot1, 2, buf)
db.putDataColumnSidecar(dataColumnSidecar1)
check:
db.getDataColumnSidecar(blockRoot0, 3, dataColumnSidecar)
dataColumnSidecar == dataColumnSidecar0
db.getDataColumnSidecar(blockRoot0, 2, dataColumnSidecar)
dataColumnSidecar == dataColumnSidecar1
not db.getDataColumnSidecar(blockRoot1, 2, dataColumnSidecar)
db.getDataColumnSidecarSZ(blockRoot0, 3, buf)
db.getDataColumnSidecarSZ(blockRoot0, 2, buf)
not db.getDataColumnSidecarSZ(blockRoot1, 2, buf)
check db.delDataColumnSidecar(blockRoot0, 3)
check:
not db.getDataColumnSidecar(blockRoot0, 3, dataColumnSidecar)
db.getDataColumnSidecar(blockRoot0, 2, dataColumnSidecar)
dataColumnSidecar == dataColumnSidecar1
not db.getDataColumnSidecar(blockRoot1, 2, dataColumnSidecar)
not db.getDataColumnSidecarSZ(blockRoot0, 3, buf)
db.getDataColumnSidecarSZ(blockRoot0, 2, buf)
not db.getDataColumnSidecarSZ(blockRoot1, 2, buf)
db.putDataColumnSidecar(dataColumnSidecar2)
check:
not db.getDataColumnSidecar(blockRoot0, 3, dataColumnSidecar)
db.getDataColumnSidecar(blockRoot0, 2, dataColumnSidecar)
dataColumnSidecar == dataColumnSidecar1
db.getDataColumnSidecar(blockRoot1, 2, dataColumnSidecar)
dataColumnSidecar == dataColumnSidecar2
not db.getDataColumnSidecarSZ(blockRoot0, 3, buf)
db.getDataColumnSidecarSZ(blockRoot0, 2, buf)
db.getDataColumnSidecarSZ(blockRoot1, 2, buf)
check db.delDataColumnSidecar(blockRoot0, 2)
check:
not db.getDataColumnSidecar(blockRoot0, 3, dataColumnSidecar)
not db.getDataColumnSidecar(blockRoot0, 2, dataColumnSidecar)
db.getDataColumnSidecar(blockRoot1, 2, dataColumnSidecar)
dataColumnSidecar == dataColumnSidecar2
not db.getDataColumnSidecarSZ(blockRoot0, 3, buf)
not db.getDataColumnSidecarSZ(blockRoot0, 2, buf)
db.getDataColumnSidecarSZ(blockRoot1, 2, buf)
check db.delDataColumnSidecar(blockRoot1, 2)
check:
not db.getDataColumnSidecar(blockRoot0, 3, dataColumnSidecar)
not db.getDataColumnSidecar(blockRoot0, 2, dataColumnSidecar)
not db.getDataColumnSidecar(blockRoot1, 2, dataColumnSidecar)
not db.getDataColumnSidecarSZ(blockRoot0, 3, buf)
not db.getDataColumnSidecarSZ(blockRoot0, 2, buf)
not db.getDataColumnSidecarSZ(blockRoot1, 2, buf)
db.close()
suite "FinalizedBlocks" & preset():
test "Basic ops" & preset():
var
db = SqStoreRef.init("", "test", inMemory = true).expect(
"working database (out of memory?)")
var s = FinalizedBlocks.init(db, "finalized_blocks").get()
check:
s.low.isNone
s.high.isNone
s.insert(Slot 0, ZERO_HASH)
check:
s.low.get() == Slot 0
s.high.get() == Slot 0
s.insert(Slot 5, ZERO_HASH)
check:
s.low.get() == Slot 0
s.high.get() == Slot 5
var items = 0
for k, v in s:
check: k in [Slot 0, Slot 5]
items += 1
check: items == 2