diff --git a/test/functional/abc_rpc_avalancheproof.py b/test/functional/abc_rpc_avalancheproof.py index 2a5ac5e03..f8af83e8b 100644 --- a/test/functional/abc_rpc_avalancheproof.py +++ b/test/functional/abc_rpc_avalancheproof.py @@ -1,334 +1,346 @@ #!/usr/bin/env python3 # Copyright (c) 2021 The Bitcoin developers # Distributed under the MIT software license, see the accompanying # file COPYING or http://www.opensource.org/licenses/mit-license.php. """Test building avalanche proofs and using them to add avalanche peers.""" import base64 from decimal import Decimal from test_framework.avatools import ( create_coinbase_stakes, create_stakes, get_proof_ids, ) from test_framework.key import ECKey, bytes_to_wif from test_framework.messages import ( AvalancheDelegation, AvalancheDelegationLevel, AvalancheProof, FromHex, ) from test_framework.p2p import P2PInterface, p2p_lock from test_framework.test_framework import BitcoinTestFramework from test_framework.test_node import ErrorMatch from test_framework.util import ( append_config, assert_equal, wait_until, assert_raises_rpc_error, ) AVALANCHE_MAX_PROOF_STAKES = 1000 PROOF_DUST_THRESHOLD = 1.0 """Minimum amount per UTXO in a proof (in coins, not in satoshis)""" def add_interface_node(test_node) -> str: """Create a mininode, connect it to test_node, return the nodeid of the mininode as registered by test_node. """ n = P2PInterface() test_node.add_p2p_connection(n) n.wait_for_verack() return test_node.getpeerinfo()[-1]['id'] class AvalancheProofTest(BitcoinTestFramework): def set_test_params(self): self.setup_clean_chain = True self.num_nodes = 1 self.extra_args = [['-enableavalanche=1', '-avacooldown=0'], ] self.supports_cli = False self.rpc_timeout = 120 def run_test(self): node = self.nodes[0] addrkey0 = node.get_deterministic_priv_key() blockhashes = node.generatetoaddress(100, addrkey0.address) self.log.info( "Make build a valid proof and restart the node to use it") privkey = ECKey() privkey.set(bytes.fromhex( "12b004fff7f4b69ef8650e767f18f11ede158148b425660723b9f9a66e61f747"), True) def get_hex_pubkey(privkey): return privkey.get_pubkey().get_bytes().hex() proof_master = get_hex_pubkey(privkey) proof_sequence = 11 proof_expiration = 12 stakes = create_coinbase_stakes(node, [blockhashes[0]], addrkey0.key) proof = node.buildavalancheproof( proof_sequence, proof_expiration, proof_master, stakes) self.log.info("Test decodeavalancheproof RPC") proofobj = FromHex(AvalancheProof(), proof) decodedproof = node.decodeavalancheproof(proof) limited_id_hex = f"{proofobj.limited_proofid:0{64}x}" assert_equal(decodedproof["sequence"], proof_sequence) assert_equal(decodedproof["expiration"], proof_expiration) assert_equal(decodedproof["master"], proof_master) assert_equal(decodedproof["proofid"], f"{proofobj.proofid:0{64}x}") assert_equal(decodedproof["limitedid"], limited_id_hex) assert_equal(decodedproof["stakes"][0]["txid"], stakes[0]["txid"]) assert_equal(decodedproof["stakes"][0]["vout"], stakes[0]["vout"]) assert_equal(decodedproof["stakes"][0]["height"], stakes[0]["height"]) assert_equal( decodedproof["stakes"][0]["iscoinbase"], stakes[0]["iscoinbase"]) assert_equal( decodedproof["stakes"][0]["signature"], base64.b64encode(proofobj.stakes[0].sig).decode("ascii")) # Invalid hex (odd number of hex digits) assert_raises_rpc_error(-22, "Proof must be an hexadecimal string", node.decodeavalancheproof, proof[:-1]) # Valid hex but invalid proof assert_raises_rpc_error(-22, "Proof has invalid format", node.decodeavalancheproof, proof[:-2]) # Restart the node, making sure it is initially in IBD mode minchainwork = int(node.getblockchaininfo()["chainwork"], 16) + 1 self.restart_node(0, self.extra_args[0] + [ "-avaproof={}".format(proof), "-avamasterkey=cND2ZvtabDbJ1gucx9GWH6XT9kgTAqfb6cotPt5Q5CyxVDhid2EN", "-minimumchainwork=0x{:x}".format(minchainwork), ]) self.log.info( "The proof verification should be delayed until IBD is complete") assert node.getblockchaininfo()["initialblockdownload"] is True # Our proof cannot be verified during IBD, so we should have no peer assert not node.getavalanchepeerinfo() # Mining a few more blocks should cause us to leave IBD node.generate(2) # Our proof is now verified and our node is added as a peer assert node.getblockchaininfo()["initialblockdownload"] is False wait_until(lambda: len(node.getavalanchepeerinfo()) == 1, timeout=5) if self.is_wallet_compiled(): self.log.info( "A proof using the maximum number of stakes is accepted...") new_blocks = node.generate(AVALANCHE_MAX_PROOF_STAKES // 10 + 1) # confirm the coinbase UTXOs node.generate(101) too_many_stakes = create_stakes( node, new_blocks, AVALANCHE_MAX_PROOF_STAKES + 1) maximum_stakes = too_many_stakes[:-1] good_proof = node.buildavalancheproof( proof_sequence, proof_expiration, proof_master, maximum_stakes) peerid1 = add_interface_node(node) assert node.addavalanchenode(peerid1, proof_master, good_proof) self.log.info( "A proof using too many stakes should be rejected...") too_many_utxos = node.buildavalancheproof( proof_sequence, proof_expiration, proof_master, too_many_stakes) peerid2 = add_interface_node(node) assert not node.addavalanchenode( peerid2, proof_master, too_many_utxos) self.log.info("Generate delegations for the proof") # Stack up a few delegation levels def gen_privkey(): pk = ECKey() pk.generate() return pk delegator_privkey = privkey delegation = None for _ in range(10): delegated_privkey = gen_privkey() delegation = node.delegateavalancheproof( limited_id_hex, bytes_to_wif(delegator_privkey.get_bytes()), get_hex_pubkey(delegated_privkey), delegation, ) delegator_privkey = delegated_privkey random_privkey = gen_privkey() random_pubkey = get_hex_pubkey(random_privkey) # Invalid proof no_stake = node.buildavalancheproof(proof_sequence, proof_expiration, proof_master, []) # Invalid privkey assert_raises_rpc_error(-5, "The private key is invalid", node.delegateavalancheproof, limited_id_hex, bytes_to_wif(bytes(32)), random_pubkey, ) # Invalid delegation bad_dg = AvalancheDelegation() assert_raises_rpc_error(-8, "The supplied delegation does not match the proof", node.delegateavalancheproof, limited_id_hex, bytes_to_wif(privkey.get_bytes()), random_pubkey, bad_dg.serialize().hex(), ) # Still invalid, but with a matching proofid bad_dg.limited_proofid = proofobj.limited_proofid bad_dg.proof_master = proofobj.master bad_dg.levels = [AvalancheDelegationLevel()] assert_raises_rpc_error(-8, "The supplied delegation is not valid", node.delegateavalancheproof, limited_id_hex, bytes_to_wif(privkey.get_bytes()), random_pubkey, bad_dg.serialize().hex(), ) # Wrong privkey, match the proof but does not match the delegation assert_raises_rpc_error(-8, "The supplied private key does not match the delegation", node.delegateavalancheproof, limited_id_hex, bytes_to_wif(privkey.get_bytes()), random_pubkey, delegation, ) # Test invalid proofs dust = node.buildavalancheproof( proof_sequence, proof_expiration, proof_master, create_coinbase_stakes(node, [blockhashes[0]], addrkey0.key, amount="0")) dust_amount = Decimal(f"{PROOF_DUST_THRESHOLD * 0.9999:.4f}") dust2 = node.buildavalancheproof( proof_sequence, proof_expiration, proof_master, create_coinbase_stakes(node, [blockhashes[0]], addrkey0.key, amount=str(dust_amount))) duplicate_stake = node.buildavalancheproof( proof_sequence, proof_expiration, proof_master, create_coinbase_stakes(node, [blockhashes[0]] * 2, addrkey0.key)) + missing_stake = node.buildavalancheproof( + proof_sequence, proof_expiration, proof_master, [{ + 'txid': '0' * 64, + 'vout': 0, + 'amount': 10, + 'height': 42, + 'iscoinbase': False, + 'privatekey': addrkey0.key, + }] + ) + bad_sig = ("0b000000000000000c0000000000000021030b4c866585dd868a9d62348" "a9cd008d6a312937048fff31670e7e920cfc7a7440105c5f72f5d6da3085" "583e75ee79340eb4eff208c89988e7ed0efb30b87298fa30000000000f20" "52a0100000003000000210227d85ba011276cf25b51df6a188b75e604b3" "8770a462b2d0e9fb2fc839ef5d3faf07f001dd38e9b4a43d07d5d449cc0" "f7d2888d96b82962b3ce516d1083c0e031773487fc3c4f2e38acd1db974" "1321b91a79b82d1c2cfd47793261e4ba003cf5") self.log.info( "Check the verifyavalancheproof and sendavalancheproof RPCs") for rpc in [node.verifyavalancheproof, node.sendavalancheproof]: assert_raises_rpc_error(-22, "Proof must be an hexadecimal string", rpc, "f00") assert_raises_rpc_error(-22, "Proof has invalid format", rpc, "f00d") def check_rpc_failure(proof, message): assert_raises_rpc_error(-8, "The proof is invalid: " + message, rpc, proof) check_rpc_failure(no_stake, "no-stake") check_rpc_failure(dust, "amount-below-dust-threshold") check_rpc_failure(duplicate_stake, "duplicated-stake") + check_rpc_failure(missing_stake, "utxo-missing-or-spent") check_rpc_failure(bad_sig, "invalid-signature") if self.is_wallet_compiled(): check_rpc_failure(too_many_utxos, "too-many-utxos") conflicting_utxo = node.buildavalancheproof( proof_sequence + 1, proof_expiration, proof_master, stakes) assert_raises_rpc_error(-8, "The proof has conflicting utxo with an existing proof", node.sendavalancheproof, conflicting_utxo) # Good proof assert node.verifyavalancheproof(proof) peer = node.add_p2p_connection(P2PInterface()) proofid = FromHex(AvalancheProof(), proof).proofid node.sendavalancheproof(proof) assert proofid in get_proof_ids(node) def inv_found(): with p2p_lock: return peer.last_message.get( "inv") and peer.last_message["inv"].inv[-1].hash == proofid wait_until(inv_found) self.log.info("Bad proof should be rejected at startup") self.stop_node(0) node.assert_start_raises_init_error( self.extra_args[0] + [ "-avasessionkey=0", ], expected_msg="Error: the avalanche session key is invalid", ) node.assert_start_raises_init_error( self.extra_args[0] + [ "-avaproof={}".format(proof), ], expected_msg="Error: the avalanche master key is missing for the avalanche proof", ) node.assert_start_raises_init_error( self.extra_args[0] + [ "-avaproof={}".format(proof), "-avamasterkey=0", ], expected_msg="Error: the avalanche master key is invalid", ) def check_proof_init_error(proof, message): node.assert_start_raises_init_error( self.extra_args[0] + [ "-avaproof={}".format(proof), "-avamasterkey=cND2ZvtabDbJ1gucx9GWH6XT9kgTAqfb6cotPt5Q5CyxVDhid2EN", ], expected_msg="Error: " + message, ) check_proof_init_error(no_stake, "the avalanche proof has no stake") check_proof_init_error(dust, "the avalanche proof stake is too low") check_proof_init_error(dust2, "the avalanche proof stake is too low") check_proof_init_error(duplicate_stake, "the avalanche proof has duplicated stake") check_proof_init_error(bad_sig, "the avalanche proof has invalid stake signatures") if self.is_wallet_compiled(): # The too many utxos case creates a proof which is that large that it # cannot fit on the command line append_config(node.datadir, ["avaproof={}".format(too_many_utxos)]) node.assert_start_raises_init_error( self.extra_args[0] + [ "-avamasterkey=cND2ZvtabDbJ1gucx9GWH6XT9kgTAqfb6cotPt5Q5CyxVDhid2EN", ], expected_msg="Error: the avalanche proof has too many utxos", match=ErrorMatch.PARTIAL_REGEX, ) if __name__ == '__main__': AvalancheProofTest().main()