eth2.0-specs/deposit_contract/contracts/validator_registration.v.py

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# Vyper target 0.1.0b13
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MIN_DEPOSIT_AMOUNT: constant(uint256) = 1000000000 # Gwei
DEPOSIT_CONTRACT_TREE_DEPTH: constant(uint256) = 32
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MAX_DEPOSIT_COUNT: constant(uint256) = 4294967295 # 2**DEPOSIT_CONTRACT_TREE_DEPTH - 1
PUBKEY_LENGTH: constant(uint256) = 48 # bytes
WITHDRAWAL_CREDENTIALS_LENGTH: constant(uint256) = 32 # bytes
SIGNATURE_LENGTH: constant(uint256) = 96 # bytes
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AMOUNT_LENGTH: constant(uint256) = 8 # bytes
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DepositEvent: event({
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pubkey: bytes[48],
withdrawal_credentials: bytes[32],
amount: bytes[8],
signature: bytes[96],
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index: bytes[8],
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})
branch: bytes32[DEPOSIT_CONTRACT_TREE_DEPTH]
deposit_count: uint256
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# Compute hashes in empty sparse Merkle tree
zero_hashes: bytes32[DEPOSIT_CONTRACT_TREE_DEPTH]
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@public
def __init__():
for i in range(DEPOSIT_CONTRACT_TREE_DEPTH - 1):
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self.zero_hashes[i + 1] = sha256(concat(self.zero_hashes[i], self.zero_hashes[i]))
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@private
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@constant
def to_little_endian_64(value: uint256) -> bytes[8]:
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# Reversing bytes using bitwise uint256 manipulations
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# Note: array accesses of bytes[] are not currently supported in Vyper
# Note: this function is only called when `value < 2**64`
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y: uint256 = 0
x: uint256 = value
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for _ in range(8):
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y = shift(y, 8)
y = y + bitwise_and(x, 255)
x = shift(x, -8)
return slice(convert(y, bytes32), start=24, len=8)
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@public
@constant
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def get_deposit_root() -> bytes32:
zero_bytes32: bytes32 = 0x0000000000000000000000000000000000000000000000000000000000000000
node: bytes32 = zero_bytes32
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size: uint256 = self.deposit_count
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for height in range(DEPOSIT_CONTRACT_TREE_DEPTH):
if bitwise_and(size, 1) == 1: # More gas efficient than `size % 2 == 1`
node = sha256(concat(self.branch[height], node))
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else:
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node = sha256(concat(node, self.zero_hashes[height]))
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size /= 2
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return sha256(concat(node, self.to_little_endian_64(self.deposit_count), slice(zero_bytes32, start=0, len=24)))
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@public
@constant
def get_deposit_count() -> bytes[8]:
return self.to_little_endian_64(self.deposit_count)
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@payable
@public
def deposit(pubkey: bytes[PUBKEY_LENGTH],
withdrawal_credentials: bytes[WITHDRAWAL_CREDENTIALS_LENGTH],
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signature: bytes[SIGNATURE_LENGTH],
deposit_data_root: bytes32):
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# Avoid overflowing the Merkle tree (and prevent edge case in computing `self.branch`)
assert self.deposit_count < MAX_DEPOSIT_COUNT
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# Check deposit amount
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deposit_amount: uint256 = msg.value / as_wei_value(1, "gwei")
assert deposit_amount >= MIN_DEPOSIT_AMOUNT
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# Length checks for safety
assert len(pubkey) == PUBKEY_LENGTH
assert len(withdrawal_credentials) == WITHDRAWAL_CREDENTIALS_LENGTH
assert len(signature) == SIGNATURE_LENGTH
# Emit `DepositEvent` log
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amount: bytes[8] = self.to_little_endian_64(deposit_amount)
log.DepositEvent(pubkey, withdrawal_credentials, amount, signature, self.to_little_endian_64(self.deposit_count))
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# Compute deposit data root (`DepositData` hash tree root)
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zero_bytes32: bytes32 = 0x0000000000000000000000000000000000000000000000000000000000000000
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pubkey_root: bytes32 = sha256(concat(pubkey, slice(zero_bytes32, start=0, len=64 - PUBKEY_LENGTH)))
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signature_root: bytes32 = sha256(concat(
sha256(slice(signature, start=0, len=64)),
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sha256(concat(slice(signature, start=64, len=SIGNATURE_LENGTH - 64), zero_bytes32)),
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))
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node: bytes32 = sha256(concat(
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sha256(concat(pubkey_root, withdrawal_credentials)),
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sha256(concat(amount, slice(zero_bytes32, start=0, len=32 - AMOUNT_LENGTH), signature_root)),
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))
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# Verify computed and expected deposit data roots match
assert node == deposit_data_root
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# Add deposit data root to Merkle tree (update a single `branch` node)
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self.deposit_count += 1
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size: uint256 = self.deposit_count
for height in range(DEPOSIT_CONTRACT_TREE_DEPTH):
if bitwise_and(size, 1) == 1: # More gas efficient than `size % 2 == 1`
self.branch[height] = node
break
node = sha256(concat(self.branch[height], node))
size /= 2
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