Documentation ¶
Overview ¶
Package transition implements the whole state transition function which consists of per slot, per-epoch transitions. It also bootstraps the genesis beacon state for slot 0.
Index ¶
- Variables
- func CalculateStateRoot(ctx context.Context, state state.BeaconState, ...) ([32]byte, error)
- func EmptyGenesisState() (state.BeaconState, error)
- func ExecuteStateTransition(ctx context.Context, state state.BeaconState, ...) (state.BeaconState, error)
- func ExecuteStateTransitionNoVerifyAnySig(ctx context.Context, st state.BeaconState, signed interfaces.SignedBeaconBlock, ...) (*bls.SignatureBatch, state.BeaconState, error)
- func GenesisBeaconState(ctx context.Context, deposits []*ethpb.Deposit, genesisTime uint64, ...) (state.BeaconState, error)
- func IsValidGenesisState(chainStartDepositCount, currentTime uint64) bool
- func NextSlotState(_ context.Context, root []byte) (state.BeaconState, error)
- func OptimizedGenesisBeaconState(genesisTime uint64, preState state.BeaconState, eth1Data *ethpb.Eth1Data) (state.BeaconState, error)
- func ProcessBlockForStateRoot(ctx context.Context, state state.BeaconState, ...) (state.BeaconState, error)
- func ProcessBlockNoVerifyAnySig(ctx context.Context, st state.BeaconState, signed interfaces.SignedBeaconBlock, ...) (*bls.SignatureBatch, state.BeaconState, error)
- func ProcessEpochPrecompute(ctx context.Context, state state.BeaconState) (state.BeaconState, error)
- func ProcessOperationsNoVerifyAttsSigs(ctx context.Context, state state.BeaconState, ...) (state.BeaconState, error)
- func ProcessSlot(ctx context.Context, state state.BeaconState) (state.BeaconState, error)
- func ProcessSlots(ctx context.Context, state state.BeaconState, slot types.Slot, ...) (state.BeaconState, error)
- func ProcessSlotsIfPossible(ctx context.Context, state state.BeaconState, targetSlot types.Slot, ...) (state.BeaconState, error)
- func ProcessSlotsUsingNextSlotCache(ctx context.Context, parentState state.BeaconState, parentRoot []byte, ...) (state.BeaconState, error)
- func UpdateNextSlotCache(ctx context.Context, root []byte, state state.BeaconState, ...) error
- func VerifyOperationLengths(_ context.Context, state state.BeaconState, b interfaces.SignedBeaconBlock) (state.BeaconState, error)
Constants ¶
This section is empty.
Variables ¶
var SkipSlotCache = cache.NewSkipSlotCache()
SkipSlotCache exists for the unlikely scenario that is a large gap between the head state and the current slot. If the beacon chain were ever to be stalled for several epochs, it may be difficult or impossible to compute the appropriate beacon state for assignments within a reasonable amount of time.
Functions ¶
func CalculateStateRoot ¶
func CalculateStateRoot( ctx context.Context, state state.BeaconState, signed interfaces.SignedBeaconBlock, income map[uint64]*itypes.ValidatorEpochIncome, ) ([32]byte, error)
CalculateStateRoot defines the procedure for a state transition function. This does not validate any BLS signatures in a block, it is used for calculating the state root of the state for the block proposer to use. This does not modify state.
WARNING: This method does not validate any BLS signatures (i.e. calling `state_transition()` with `validate_result=False`). This is used for proposer to compute state root before proposing a new block, and this does not modify state.
Spec pseudocode definition:
def state_transition(state: BeaconState, signed_block: SignedBeaconBlock, validate_result: bool=True) -> None: block = signed_block.message # Process slots (including those with no blocks) since block process_slots(state, block.slot) # Verify signature if validate_result: assert verify_block_signature(state, signed_block) # Process block process_block(state, block) # Verify state root if validate_result: assert block.state_root == hash_tree_root(state)
func EmptyGenesisState ¶
func EmptyGenesisState() (state.BeaconState, error)
EmptyGenesisState returns an empty beacon state object.
func ExecuteStateTransition ¶
func ExecuteStateTransition( ctx context.Context, state state.BeaconState, signed interfaces.SignedBeaconBlock, income map[uint64]*itypes.ValidatorEpochIncome, ) (state.BeaconState, error)
ExecuteStateTransition defines the procedure for a state transition function.
Note: This method differs from the spec pseudocode as it uses a batch signature verification. See: ExecuteStateTransitionNoVerifyAnySig
Spec pseudocode definition:
def state_transition(state: BeaconState, signed_block: SignedBeaconBlock, validate_result: bool=True) -> None: block = signed_block.message # Process slots (including those with no blocks) since block process_slots(state, block.slot) # Verify signature if validate_result: assert verify_block_signature(state, signed_block) # Process block process_block(state, block) # Verify state root if validate_result: assert block.state_root == hash_tree_root(state)
func ExecuteStateTransitionNoVerifyAnySig ¶
func ExecuteStateTransitionNoVerifyAnySig( ctx context.Context, st state.BeaconState, signed interfaces.SignedBeaconBlock, income map[uint64]*types.ValidatorEpochIncome, ) (*bls.SignatureBatch, state.BeaconState, error)
ExecuteStateTransitionNoVerifyAnySig defines the procedure for a state transition function. This does not validate any BLS signatures of attestations, block proposer signature, randao signature, it is used for performing a state transition as quickly as possible. This function also returns a signature set of all signatures not verified, so that they can be stored and verified later.
WARNING: This method does not validate any signatures (i.e. calling `state_transition()` with `validate_result=False`). This method also modifies the passed in state.
Spec pseudocode definition:
def state_transition(state: BeaconState, signed_block: SignedBeaconBlock, validate_result: bool=True) -> None: block = signed_block.message # Process slots (including those with no blocks) since block process_slots(state, block.slot) # Verify signature if validate_result: assert verify_block_signature(state, signed_block) # Process block process_block(state, block) # Verify state root if validate_result: assert block.state_root == hash_tree_root(state)
func GenesisBeaconState ¶
func GenesisBeaconState(ctx context.Context, deposits []*ethpb.Deposit, genesisTime uint64, eth1Data *ethpb.Eth1Data) (state.BeaconState, error)
GenesisBeaconState gets called when MinGenesisActiveValidatorCount count of full deposits were made to the deposit contract and the ChainStart log gets emitted.
Spec pseudocode definition:
def initialize_beacon_state_from_eth1(eth1_block_hash: Bytes32, eth1_timestamp: uint64, deposits: Sequence[Deposit]) -> BeaconState: fork = Fork( previous_version=GENESIS_FORK_VERSION, current_version=GENESIS_FORK_VERSION, epoch=GENESIS_EPOCH, ) state = BeaconState( genesis_time=eth1_timestamp + GENESIS_DELAY, fork=fork, eth1_data=Eth1Data(block_hash=eth1_block_hash, deposit_count=uint64(len(deposits))), latest_block_header=BeaconBlockHeader(body_root=hash_tree_root(BeaconBlockBody())), randao_mixes=[eth1_block_hash] * EPOCHS_PER_HISTORICAL_VECTOR, # Seed RANDAO with Eth1 entropy ) # Process deposits leaves = list(map(lambda deposit: deposit.data, deposits)) for index, deposit in enumerate(deposits): deposit_data_list = List[DepositData, 2**DEPOSIT_CONTRACT_TREE_DEPTH](*leaves[:index + 1]) state.eth1_data.deposit_root = hash_tree_root(deposit_data_list) process_deposit(state, deposit) # Process activations for index, validator in enumerate(state.validators): balance = state.balances[index] validator.effective_balance = min(balance - balance % EFFECTIVE_BALANCE_INCREMENT, MAX_EFFECTIVE_BALANCE) if validator.effective_balance == MAX_EFFECTIVE_BALANCE: validator.activation_eligibility_epoch = GENESIS_EPOCH validator.activation_epoch = GENESIS_EPOCH # Set genesis validators root for domain separation and chain versioning state.genesis_validators_root = hash_tree_root(state.validators) return state
This method differs from the spec so as to process deposits beforehand instead of the end of the function.
func IsValidGenesisState ¶
IsValidGenesisState gets called whenever there's a deposit event, it checks whether there's enough effective balance to trigger and if the minimum genesis time arrived already.
Spec pseudocode definition:
def is_valid_genesis_state(state: BeaconState) -> bool: if state.genesis_time < MIN_GENESIS_TIME: return False if len(get_active_validator_indices(state, GENESIS_EPOCH)) < MIN_GENESIS_ACTIVE_VALIDATOR_COUNT: return False return True
This method has been modified from the spec to allow whole states not to be saved but instead only cache the relevant information.
func NextSlotState ¶
NextSlotState returns the saved state if the input root matches the root in `nextSlotCache`. Returns nil otherwise. This is useful to check before processing slots. With a cache hit, it will return last processed state with slot plus one advancement.
func OptimizedGenesisBeaconState ¶
func OptimizedGenesisBeaconState(genesisTime uint64, preState state.BeaconState, eth1Data *ethpb.Eth1Data) (state.BeaconState, error)
OptimizedGenesisBeaconState is used to create a state that has already processed deposits. This is to efficiently create a mainnet state at chainstart.
func ProcessBlockForStateRoot ¶
func ProcessBlockForStateRoot( ctx context.Context, state state.BeaconState, signed interfaces.SignedBeaconBlock, income map[uint64]*itypes.ValidatorEpochIncome, ) (state.BeaconState, error)
ProcessBlockForStateRoot processes the state for state root computation. It skips proposer signature and randao signature verifications.
Spec pseudocode definition: def process_block(state: BeaconState, block: BeaconBlock) -> None:
process_block_header(state, block) if is_execution_enabled(state, block.body): process_execution_payload(state, block.body.execution_payload, EXECUTION_ENGINE) # [New in Bellatrix] process_randao(state, block.body) process_eth1_data(state, block.body) process_operations(state, block.body) process_sync_aggregate(state, block.body.sync_aggregate)
func ProcessBlockNoVerifyAnySig ¶
func ProcessBlockNoVerifyAnySig( ctx context.Context, st state.BeaconState, signed interfaces.SignedBeaconBlock, income map[uint64]*itypes.ValidatorEpochIncome, ) (*bls.SignatureBatch, state.BeaconState, error)
ProcessBlockNoVerifyAnySig creates a new, modified beacon state by applying block operation transformations as defined in the Ethereum Serenity specification. It does not validate any block signature except for deposit and slashing signatures. It also returns the relevant signature set from all the respective methods.
Spec pseudocode definition:
def process_block(state: BeaconState, block: BeaconBlock) -> None: process_block_header(state, block) process_randao(state, block.body) process_eth1_data(state, block.body) process_operations(state, block.body)
func ProcessEpochPrecompute ¶
func ProcessEpochPrecompute(ctx context.Context, state state.BeaconState) (state.BeaconState, error)
ProcessEpochPrecompute describes the per epoch operations that are performed on the beacon state. It's optimized by pre computing validator attested info and epoch total/attested balances upfront.
func ProcessOperationsNoVerifyAttsSigs ¶
func ProcessOperationsNoVerifyAttsSigs( ctx context.Context, state state.BeaconState, signedBeaconBlock interfaces.SignedBeaconBlock, income map[uint64]*itypes.ValidatorEpochIncome) (state.BeaconState, error)
ProcessOperationsNoVerifyAttsSigs processes the operations in the beacon block and updates beacon state with the operations in block. It does not verify attestation signatures.
WARNING: This method does not verify attestation signatures. This is used to perform the block operations as fast as possible.
Spec pseudocode definition:
def process_operations(state: BeaconState, body: BeaconBlockBody) -> None: # Verify that outstanding deposits are processed up to the maximum number of deposits assert len(body.deposits) == min(MAX_DEPOSITS, state.eth1_data.deposit_count - state.eth1_deposit_index) def for_ops(operations: Sequence[Any], fn: Callable[[BeaconState, Any], None]) -> None: for operation in operations: fn(state, operation) for_ops(body.proposer_slashings, process_proposer_slashing) for_ops(body.attester_slashings, process_attester_slashing) for_ops(body.attestations, process_attestation) for_ops(body.deposits, process_deposit) for_ops(body.voluntary_exits, process_voluntary_exit)
func ProcessSlot ¶
func ProcessSlot(ctx context.Context, state state.BeaconState) (state.BeaconState, error)
ProcessSlot happens every slot and focuses on the slot counter and block roots record updates. It happens regardless if there's an incoming block or not. Spec pseudocode definition:
def process_slot(state: BeaconState) -> None: # Cache state root previous_state_root = hash_tree_root(state) state.state_roots[state.slot % SLOTS_PER_HISTORICAL_ROOT] = previous_state_root # Cache latest block header state root if state.latest_block_header.state_root == Bytes32(): state.latest_block_header.state_root = previous_state_root # Cache block root previous_block_root = hash_tree_root(state.latest_block_header) state.block_roots[state.slot % SLOTS_PER_HISTORICAL_ROOT] = previous_block_root
func ProcessSlots ¶
func ProcessSlots(ctx context.Context, state state.BeaconState, slot types.Slot, income map[uint64]*itypes.ValidatorEpochIncome) (state.BeaconState, error)
ProcessSlots process through skip slots and apply epoch transition when it's needed
Spec pseudocode definition:
def process_slots(state: BeaconState, slot: Slot) -> None: assert state.slot < slot while state.slot < slot: process_slot(state) # Process epoch on the start slot of the next epoch if (state.slot + 1) % SLOTS_PER_EPOCH == 0: process_epoch(state) state.slot = Slot(state.slot + 1)
func ProcessSlotsIfPossible ¶
func ProcessSlotsIfPossible(ctx context.Context, state state.BeaconState, targetSlot types.Slot, income map[uint64]*itypes.ValidatorEpochIncome) (state.BeaconState, error)
ProcessSlotsIfPossible executes ProcessSlots on the input state when target slot is above the state's slot. Otherwise, it returns the input state unchanged.
func ProcessSlotsUsingNextSlotCache ¶
func ProcessSlotsUsingNextSlotCache( ctx context.Context, parentState state.BeaconState, parentRoot []byte, slot types.Slot, income map[uint64]*itypes.ValidatorEpochIncome) (state.BeaconState, error)
ProcessSlotsUsingNextSlotCache processes slots by using next slot cache for higher efficiency.
func UpdateNextSlotCache ¶
func UpdateNextSlotCache(ctx context.Context, root []byte, state state.BeaconState, income map[uint64]*itypes.ValidatorEpochIncome) error
UpdateNextSlotCache updates the `nextSlotCache`. It saves the input state after advancing the state slot by 1 by calling `ProcessSlots`, it also saves the input root for later look up. This is useful to call after successfully processing a block.
func VerifyOperationLengths ¶
func VerifyOperationLengths(_ context.Context, state state.BeaconState, b interfaces.SignedBeaconBlock) (state.BeaconState, error)
VerifyOperationLengths verifies that block operation lengths are valid.
Types ¶
This section is empty.