# beacon_chain # Copyright (c) 2018-2019 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at http://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at http://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. import options, sequtils, eth/trie/[db], ../beacon_chain/[beacon_chain_db, extras, ssz, state_transition, validator_pool], ../beacon_chain/spec/[beaconstate, bitfield, crypto, datatypes, digest, helpers, validator] func makeFakeValidatorPrivKey*(i: int): ValidatorPrivKey = var i = i + 1 # 0 does not work, as private key... copyMem(result.x[0].addr, i.addr, min(sizeof(result.x), sizeof(i))) func makeFakeHash*(i: int): Eth2Digest = copyMem(result.data[0].addr, i.unsafeAddr, min(sizeof(result.data), sizeof(i))) func hackPrivKey(v: Validator): ValidatorPrivKey = ## Extract private key, per above hack var i: int copyMem( i.addr, v.withdrawal_credentials.data[0].unsafeAddr, min(sizeof(v.withdrawal_credentials.data), sizeof(i))) makeFakeValidatorPrivKey(i) func makeDeposit(i: int, flags: UpdateFlags): Deposit = ## Ugly hack for now: we stick the private key in withdrawal_credentials ## which means we can repro private key and randao reveal from this data, ## for testing :) let privkey = makeFakeValidatorPrivKey(i) pubkey = privkey.pubKey() withdrawal_credentials = makeFakeHash(i) let pop = if skipValidation in flags: ValidatorSig() else: let proof_of_possession_data = DepositInput( pubkey: pubkey, withdrawal_credentials: withdrawal_credentials, ) let domain = 0'u64 bls_sign(privkey, hash_tree_root(proof_of_possession_data).data, domain) Deposit( index: i.uint64, deposit_data: DepositData( deposit_input: DepositInput( pubkey: pubkey, proof_of_possession: pop, withdrawal_credentials: withdrawal_credentials, ), amount: MAX_DEPOSIT_AMOUNT, ) ) func makeInitialDeposits*( n = SLOTS_PER_EPOCH, flags: UpdateFlags = {}): seq[Deposit] = for i in 0..= GENESIS_EPOCH) let # Index from the new state, but registry from the old state.. hmm... proposer = state.validator_registry[proposer_index] privKey = hackPrivKey(proposer) # TODO ugly hack; API needs rethinking var new_body = body new_body.randao_reveal = privKey.genRandaoReveal(state, state.slot + 1) new_body.eth1_data = Eth1Data() var # In order to reuse the state transition function, we first create a dummy # block that has some fields set, and use that to generate the state as it # would look with the new block applied. new_block = BeaconBlock( slot: state.slot + 1, previous_block_root: previous_block_root, state_root: Eth2Digest(), # we need the new state first body: new_body, signature: ValidatorSig(), # we need the rest of the block first! ) let block_ok = updateState(state, new_block, {skipValidation}) doAssert block_ok # Ok, we have the new state as it would look with the block applied - now we # can set the state root in order to be able to create a valid signature new_block.state_root = hash_tree_root(state) let proposerPrivkey = hackPrivKey(proposer) doAssert proposerPrivkey.pubKey() == proposer.pubkey, "signature key should be derived from private key! - wrong privkey?" if skipValidation notin flags: let block_root = signed_root(new_block) # We have a signature - put it in the block and we should be done! new_block.signature = bls_sign(proposerPrivkey, block_root.data, get_domain(state.fork, slot_to_epoch(new_block.slot), DOMAIN_BEACON_BLOCK)) doAssert bls_verify( proposer.pubkey, block_root.data, new_block.signature, get_domain(state.fork, slot_to_epoch(new_block.slot), DOMAIN_BEACON_BLOCK)), "we just signed this message - it should pass verification!" new_block proc makeBlock*( state: BeaconState, previous_block_root: Eth2Digest, body: BeaconBlockBody): BeaconBlock = # Create a block for `state.slot + 1` - like a block proposer would do! # It's a bit awkward - in order to produce a block for N+1, we need to # calculate what the state will look like after that block has been applied, # because the block includes the state root. var next_state = state addBlock(next_state, previous_block_root, body) proc find_shard_committee( sacs: openArray[CrosslinkCommittee], validator_index: ValidatorIndex): CrosslinkCommittee = for sac in sacs: if validator_index in sac.committee: return sac doAssert false proc makeAttestation*( state: BeaconState, beacon_block_root: Eth2Digest, validator_index: ValidatorIndex, flags: UpdateFlags = {}): Attestation = let sac = find_shard_committee( get_crosslink_committees_at_slot(state, state.slot), validator_index) validator = state.validator_registry[validator_index] sac_index = sac.committee.find(validator_index) data = makeAttestationData(state, sac.shard, beacon_block_root) doAssert sac_index != -1, "find_shard_committe should guarantee this" var aggregation_bitfield = BitField.init(sac.committee.len) set_bitfield_bit(aggregation_bitfield, sac_index) let msg = hash_tree_root( AttestationDataAndCustodyBit(data: data, custody_bit: false)) sig = if skipValidation notin flags: bls_sign( hackPrivKey(validator), @(msg.data), get_domain( state.fork, slot_to_epoch(state.slot), DOMAIN_ATTESTATION)) else: ValidatorSig() Attestation( data: data, aggregation_bitfield: aggregation_bitfield, aggregate_signature: sig, custody_bitfield: BitField.init(sac.committee.len) ) proc makeTestDB*(tailState: BeaconState, tailBlock: BeaconBlock): BeaconChainDB = let tailRoot = signed_root(tailBlock) result = init(BeaconChainDB, newMemoryDB()) result.putState(tailState) result.putBlock(tailBlock) result.putTailBlock(tailRoot) result.putHeadBlock(tailRoot)