# 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 # Standard library unittest, # Vendored packages stew/bitops2, # Specs ../../beacon_chain/spec/datatypes, # Test helpers ../mocking/[mock_genesis], ./epoch_utils, ./justification_finalization_helpers, ../testutil # See diagram: eth2-finalization.png # (source) https://github.com/protolambda/eth2-docs#justification-and-finalization # for a visualization of finalization rules proc finalizeOn234(state: var HashedBeaconState, epoch: Epoch, sufficient_support: bool) = ## Check finalization on rule 1 "234" doAssert epoch > 4 state.data.slot = Slot((epoch * SLOTS_PER_EPOCH) - 1) # Skip ahead to just before epoch # 43210 -- epochs ago # 3210x -- justification bitfields indices # 11*0. -- justification bitfield contents. . = this epoch, * is being justified now # checkpoints for epochs ago let (c1, c2, c3, c4, _) = getCheckpoints(epoch) putCheckpointsInBlockRoots(state.data, [c1, c2, c3, c4]) # Save for final checks let old_finalized = state.data.finalized_checkpoint # Mock the state state.data.previous_justified_checkpoint = c4 state.data.current_justified_checkpoint = c3 state.data.justification_bits = 0'u8 # Bitvector of length 4 # mock 3rd and 4th latest epochs as justified # indices are pre-shift state.data.justification_bits.setBit 1 state.data.justification_bits.setBit 2 # mock the 2nd latest epoch as justifiable, with 4th as the source addMockAttestations( state.data, epoch = epoch - 2, source = c4, target = c2, sufficient_support = sufficient_support ) # State transition transitionEpochUntilJustificationFinalization(state) # Checks doAssert state.data.previous_justified_checkpoint == c3 # changed to old current if sufficient_support: doAssert state.data.current_justified_checkpoint == c2 # changed to second latest doAssert state.data.finalized_checkpoint == c4 # finalized old previous justified epoch else: doAssert state.data.current_justified_checkpoint == c3 # still old current doAssert state.data.finalized_checkpoint == old_finalized # no new finalized checkpoint proc finalizeOn23(state: var HashedBeaconState, epoch: Epoch, sufficient_support: bool) = ## Check finalization on rule 2 "23" doAssert epoch > 3 state.data.slot = Slot((epoch * SLOTS_PER_EPOCH) - 1) # Skip ahead to just before epoch # 43210 -- epochs ago # 210xx -- justification bitfields indices preshift # 3210x -- justification bitfield indices postshift # 01*0. -- justification bitfield contents. . = this epoch, * is being justified now # checkpoints for epochs ago let (c1, c2, c3, _, _) = getCheckpoints(epoch) putCheckpointsInBlockRoots(state.data, [c1, c2, c3]) # Save for final checks let old_finalized = state.data.finalized_checkpoint # Mock the state state.data.previous_justified_checkpoint = c3 state.data.current_justified_checkpoint = c3 state.data.justification_bits = 0'u8 # Bitvector of length 4 # mock 3rd as justified # indices are pre-shift state.data.justification_bits.setBit 1 # mock the 2nd latest epoch as justifiable, with 3rd as the source addMockAttestations( state.data, epoch = epoch - 2, source = c3, target = c2, sufficient_support = sufficient_support ) # State transition transitionEpochUntilJustificationFinalization(state) # Checks doAssert state.data.previous_justified_checkpoint == c3 # changed to old current if sufficient_support: doAssert state.data.current_justified_checkpoint == c2 # changed to second latest doAssert state.data.finalized_checkpoint == c3 # finalized old previous justified epoch else: doAssert state.data.current_justified_checkpoint == c3 # still old current doAssert state.data.finalized_checkpoint == old_finalized # no new finalized checkpoint proc finalizeOn123(state: var HashedBeaconState, epoch: Epoch, sufficient_support: bool) = ## Check finalization on rule 3 "123" doAssert epoch > 5 state.data.slot = Slot((epoch * SLOTS_PER_EPOCH) - 1) # Skip ahead to just before epoch # 43210 -- epochs ago # 210xx -- justification bitfields indices preshift # 3210x -- justification bitfield indices postshift # 0110*. -- justification bitfield contents. . = this epoch, * is being justified now # checkpoints for epochs ago let (c1, c2, c3, c4, c5) = getCheckpoints(epoch) putCheckpointsInBlockRoots(state.data, [c1, c2, c3, c4, c5]) # Save for final checks let old_finalized = state.data.finalized_checkpoint # Mock the state state.data.previous_justified_checkpoint = c5 state.data.current_justified_checkpoint = c3 state.data.justification_bits = 0'u8 # Bitvector of length 4 # mock 3rd as justified # indices are pre-shift state.data.justification_bits.setBit 1 # mock the 2nd latest epoch as justifiable, with 5th as the source addMockAttestations( state.data, epoch = epoch - 2, source = c5, target = c2, sufficient_support = sufficient_support ) # mock the 1st latest epoch as justifiable with 3rd as source addMockAttestations( state.data, epoch = epoch - 1, source = c3, target = c1, sufficient_support = sufficient_support ) # State transition transitionEpochUntilJustificationFinalization(state) # Checks doAssert state.data.previous_justified_checkpoint == c3 # changed to old current if sufficient_support: doAssert state.data.current_justified_checkpoint == c1 # changed to second latest doAssert state.data.finalized_checkpoint == c3 # finalized old previous justified epoch else: doAssert state.data.current_justified_checkpoint == c3 # still old current doAssert state.data.finalized_checkpoint == old_finalized # no new finalized checkpoint proc finalizeOn12(state: var HashedBeaconState, epoch: Epoch, sufficient_support: bool) = ## Check finalization on rule 4 "12" doAssert epoch > 2 state.data.slot = Slot((epoch * SLOTS_PER_EPOCH) - 1) # Skip ahead to just before epoch # 43210 -- epochs ago # 210xx -- justification bitfields indices preshift # 3210x -- justification bitfield indices postshift # 01*0. -- justification bitfield contents. . = this epoch, * is being justified now # checkpoints for epochs ago let (c1, c2, _, _, _) = getCheckpoints(epoch) putCheckpointsInBlockRoots(state.data, [c1, c2]) # Save for final checks let old_finalized = state.data.finalized_checkpoint # Mock the state state.data.previous_justified_checkpoint = c2 state.data.current_justified_checkpoint = c2 state.data.justification_bits = 0'u8 # Bitvector of length 4 # mock 3rd as justified # indices are pre-shift state.data.justification_bits.setBit 0 # mock the 2nd latest epoch as justifiable, with 3rd as the source addMockAttestations( state.data, epoch = epoch - 1, source = c2, target = c1, sufficient_support = sufficient_support ) # State transition transitionEpochUntilJustificationFinalization(state) # Checks doAssert state.data.previous_justified_checkpoint == c2 # changed to old current if sufficient_support: doAssert state.data.current_justified_checkpoint == c1 # changed to second latest doAssert state.data.finalized_checkpoint == c2 # finalized old previous justified epoch else: doAssert state.data.current_justified_checkpoint == c2 # still old current doAssert state.data.finalized_checkpoint == old_finalized # no new finalized checkpoint proc payload = suiteReport "[Unit - Spec - Epoch processing] Justification and Finalization " & preset(): echo " Finalization rules are detailed at https://github.com/protolambda/eth2-docs#justification-and-finalization" const NumValidators = uint64(8) * SLOTS_PER_EPOCH let genesisState = initGenesisState(NumValidators) doAssert genesisState.data.validators.len == int NumValidators setup: var state = newClone(genesisState) timedTest " Rule I - 234 finalization with enough support": finalizeOn234(state[], Epoch 5, sufficient_support = true) timedTest " Rule I - 234 finalization without support": finalizeOn234(state[], Epoch 5, sufficient_support = false) timedTest " Rule II - 23 finalization with enough support": finalizeOn23(state[], Epoch 4, sufficient_support = true) timedTest " Rule II - 23 finalization without support": finalizeOn23(state[], Epoch 4, sufficient_support = false) timedTest " Rule III - 123 finalization with enough support": finalizeOn123(state[], Epoch 6, sufficient_support = true) timedTest " Rule III - 123 finalization without support": finalizeOn123(state[], Epoch 6, sufficient_support = false) timedTest " Rule IV - 12 finalization with enough support": finalizeOn12(state[], Epoch 3, sufficient_support = true) timedTest " Rule IV - 12 finalization without support": finalizeOn12(state[], Epoch 3, sufficient_support = false) payload()