def test_challenge_exit(t, u, root_chain, assert_tx_failed):
owner, value_1, key = t.a1, 100, t.k1
tx1 = Transaction(0, 0, 0, 0, 0, 0, NULL_ADDRESS, owner, value_1,
NULL_ADDRESS, 0)
deposit_tx_hash = get_deposit_hash(owner, NULL_ADDRESS, value_1)
utxo_pos1 = root_chain.getDepositBlock() * 1000000000 + 1
root_chain.deposit(value=value_1, sender=key)
utxo_pos2 = root_chain.getDepositBlock() * 1000000000
root_chain.deposit(value=value_1, sender=key)
merkle = FixedMerkle(16, [deposit_tx_hash], True)
proof = merkle.create_membership_proof(deposit_tx_hash)
confirmSig1 = tx1.confirm(root_chain.getChildChain(utxo_pos1)[0], key)
sigs = tx1.sig1 + tx1.sig2 + confirmSig1
root_chain.startDepositExit(utxo_pos1,
NULL_ADDRESS,
tx1.amount1,
sender=key)
tx3 = Transaction(utxo_pos2, 0, 0, 0, 0, 0, NULL_ADDRESS, owner, value_1,
NULL_ADDRESS, 0)
tx3.sign1(key)
tx_bytes3 = rlp.encode(tx3, UnsignedTransaction)
merkle = FixedMerkle(16, [tx3.merkle_hash], True)
proof = merkle.create_membership_proof(tx3.merkle_hash)
child_blknum = root_chain.currentChildBlock()
root_chain.submitBlock(merkle.root)
confirmSig = tx3.confirm(root_chain.getChildChain(child_blknum)[0], key)
sigs = tx3.sig1 + tx3.sig2
utxo_pos3 = child_blknum * 1000000000 + 10000 * 0 + 0
tx4 = Transaction(utxo_pos1, 0, 0, 0, 0, 0, NULL_ADDRESS, owner, value_1,
NULL_ADDRESS, 0)
tx4.sign1(key)
tx_bytes4 = rlp.encode(tx4, UnsignedTransaction)
merkle = FixedMerkle(16, [tx4.merkle_hash], True)
proof = merkle.create_membership_proof(tx4.merkle_hash)
child_blknum = root_chain.currentChildBlock()
root_chain.submitBlock(merkle.root)
confirmSig = tx4.confirm(root_chain.getChildChain(child_blknum)[0], key)
sigs = tx4.sig1 + tx4.sig2
utxo_pos4 = child_blknum * 1000000000 + 10000 * 0 + 0
oindex1 = 0
assert root_chain.exits(utxo_pos1) == [
address_to_hex(owner), NULL_ADDRESS_HEX, 100
]
# Fails if transaction after exit doesn't reference the utxo being exited
assert_tx_failed(lambda: root_chain.challengeExit(
utxo_pos3, utxo_pos1, tx_bytes3, proof, sigs, confirmSig))
# Fails if transaction proof is incorrect
assert_tx_failed(lambda: root_chain.challengeExit(
utxo_pos4, utxo_pos1, tx_bytes4, proof[::-1], sigs, confirmSig))
# Fails if transaction confirmation is incorrect
assert_tx_failed(lambda: root_chain.challengeExit(
utxo_pos4, utxo_pos1, tx_bytes4, proof, sigs, confirmSig[::-1]))
root_chain.challengeExit(utxo_pos4, oindex1, tx_bytes4, proof, sigs,
confirmSig)
assert root_chain.exits(utxo_pos1) == [
NULL_ADDRESS_HEX, NULL_ADDRESS_HEX, value_1
]
def test_start_exit(t, root_chain, assert_tx_failed):
week_and_a_half = 60 * 60 * 24 * 13
owner, value_1, key = t.a1, 100, t.k1
tx1 = Transaction(0, 0, 0, 0, 0, 0, NULL_ADDRESS, owner, value_1,
NULL_ADDRESS, 0)
deposit_tx_hash = get_deposit_hash(owner, NULL_ADDRESS, value_1)
dep_blknum = root_chain.getDepositBlock()
assert dep_blknum == 1
root_chain.deposit(value=value_1, sender=key)
merkle = FixedMerkle(16, [deposit_tx_hash], True)
proof = merkle.create_membership_proof(deposit_tx_hash)
confirmSig1 = tx1.confirm(root_chain.getChildChain(dep_blknum)[0], key)
priority1 = dep_blknum * 1000000000 + 10000 * 0 + 1
snapshot = t.chain.snapshot()
sigs = tx1.sig1 + tx1.sig2 + confirmSig1
utxoId = dep_blknum * 1000000000 + 10000 * 0 + 1
# Deposit exit
root_chain.startDepositExit(utxoId, NULL_ADDRESS, tx1.amount1, sender=key)
t.chain.head_state.timestamp += week_and_a_half
# Cannot exit twice off of the same utxo
utxo_pos1 = dep_blknum * 1000000000 + 10000 * 0 + 1
assert_tx_failed(lambda: root_chain.startExit(
utxo_pos1, deposit_tx_hash, proof, sigs, sender=key))
assert root_chain.getExit(priority1) == [
address_to_hex(owner), NULL_ADDRESS_HEX, 100
]
t.chain.revert(snapshot)
tx2 = Transaction(dep_blknum, 0, 0, 0, 0, 0, NULL_ADDRESS, owner, value_1,
NULL_ADDRESS, 0)
tx2.sign1(key)
tx_bytes2 = rlp.encode(tx2, UnsignedTransaction)
merkle = FixedMerkle(16, [tx2.merkle_hash], True)
proof = merkle.create_membership_proof(tx2.merkle_hash)
child_blknum = root_chain.currentChildBlock()
assert child_blknum == 1000
root_chain.submitBlock(merkle.root)
confirmSig1 = tx2.confirm(root_chain.getChildChain(child_blknum)[0], key)
priority2 = child_blknum * 1000000000 + 10000 * 0 + 0
sigs = tx2.sig1 + tx2.sig2 + confirmSig1
snapshot = t.chain.snapshot()
# # Single input exit
utxo_pos2 = child_blknum * 1000000000 + 10000 * 0 + 0
root_chain.startExit(utxo_pos2, tx_bytes2, proof, sigs, sender=key)
assert root_chain.getExit(priority2) == [
address_to_hex(owner), NULL_ADDRESS_HEX, 100
]
t.chain.revert(snapshot)
dep2_blknum = root_chain.getDepositBlock()
assert dep2_blknum == 1001
root_chain.deposit(value=value_1, sender=key)
tx3 = Transaction(child_blknum, 0, 0, dep2_blknum, 0, 0, NULL_ADDRESS,
owner, value_1, NULL_ADDRESS, 0, 0)
tx3.sign1(key)
tx3.sign2(key)
tx_bytes3 = rlp.encode(tx3, UnsignedTransaction)
merkle = FixedMerkle(16, [tx3.merkle_hash], True)
proof = merkle.create_membership_proof(tx3.merkle_hash)
child2_blknum = root_chain.currentChildBlock()
assert child2_blknum == 2000
root_chain.submitBlock(merkle.root)
confirmSig1 = tx3.confirm(root_chain.getChildChain(child2_blknum)[0], key)
confirmSig2 = tx3.confirm(root_chain.getChildChain(child2_blknum)[0], key)
priority3 = child2_blknum * 1000000000 + 10000 * 0 + 0
sigs = tx3.sig1 + tx3.sig2 + confirmSig1 + confirmSig2
# Double input exit
utxoPos3 = child2_blknum * 1000000000 + 10000 * 0 + 0
root_chain.startExit(utxoPos3, tx_bytes3, proof, sigs, sender=key)
assert root_chain.getExit(priority3) == [
address_to_hex(owner), NULL_ADDRESS_HEX, 100
]