def test_merge_tx_signatures(self): payload = self.mstx.encode_payload() partials = [] for signer in self.multi_sig_board: tx = Transaction.decode_payload(payload) tx.sign(signer) partials.append(tx.encode_partial()) for partial in partials: _, partial_tx = Transaction.decode_partial(partial) self.assertTrue(self.mstx.merge_signatures(partial_tx)) self.assertTrue(self.mstx.is_valid())
def main(): # create the APIs api = LedgerApi(HOST, PORT) # we generate an identity from a known key, which contains funds. multi_sig_identity = Entity.from_hex( "6e8339a0c6d51fc58b4365bf2ce18ff2698d2b8c40bb13fcef7e1ba05df18e4b") # generate a board to control multi-sig account, with variable voting weights board = [ Entity.from_hex( "e833c747ee0aeae29e6823e7c825d3001638bc30ffe50363f8adf2693c3286f8" ), Entity.from_hex( "4083a476c4872f25cb40839ac8d994924bcef12d83e2ba4bd3ed6c9705959860" ), Entity.from_hex( "20293422c4b5faefba3422ed436427f2d37f310673681e98ac8637b04e756de3" ), Entity.from_hex( "d5f10ad865fff147ae7fcfdc98b755452a27a345975c8b9b3433ff16f23495fb" ), ] voting_weights = { board[0]: 1, board[1]: 1, board[2]: 1, board[3]: 2, } # generate another entity as a target for transfers other_identity = Entity.from_hex( "7da0e3fa62a916238decd4f54d43301c809595d66dd469f82f29e076752b155c") # submit deed print("\nCreating deed...") deed = Deed() for sig, weight in voting_weights.items(): deed.set_signee(sig, weight) deed.set_operation(Operation.amend, 4) deed.set_operation(Operation.transfer, 3) api.sync(api.tokens.deed(multi_sig_identity, deed, 500)) # display balance before print("\nBefore remote-multisig transfer") print('Balance 1:', api.tokens.balance(multi_sig_identity)) print('Balance 2:', api.tokens.balance(other_identity)) print() # scatter/gather example print("Generating transaction and distributing to signers...") # add intended signers to transaction ref_tx = TokenTxFactory.transfer(multi_sig_identity, other_identity, 250, 20, signatories=board) api.set_validity_period(ref_tx) # make a reference payload that can be used in this script for validation reference_payload = ref_tx.encode_payload() # have signers individually sign transaction signed_txs = [] for signer in board: # signer builds their own transaction to compare to note that each of the signers will need to agree on all # parts of the message including the validity period and the counter signer_tx = TokenTxFactory.transfer(multi_sig_identity, other_identity, 250, 20, signatories=board) signer_tx.counter = ref_tx.counter signer_tx.valid_until = ref_tx.valid_until signer_tx.valid_from = ref_tx.valid_from # sanity check each of the signers payload should match the reference payload assert signer_tx.encode_payload() == reference_payload # signers locally sign there version of the transaction signer_tx.sign(signer) # simulate distribution of signed partial transactions signed_txs.append(signer_tx.encode_partial()) # gather and encode final transaction - this step in theory can be done by all the signers provided they are # received all the signature shares print("Gathering and combining signed transactions...") partial_txs = [Transaction.decode_partial(s)[1] for s in signed_txs] # merge them together into one fully signed transaction success, tx = Transaction.merge(partial_txs) assert success # this indicates that all the signatures have been merged and that the transaction now validates # submit the transaction api.sync(api.submit_signed_tx(tx)) print("\nAfter remote multisig-transfer") print('Balance 1:', api.tokens.balance(multi_sig_identity)) print('Balance 2:', api.tokens.balance(other_identity)) # round-robin example print("\nGenerating transaction and sending down the line of signers...") # create the basis for the transaction tx = TokenTxFactory.transfer(multi_sig_identity, other_identity, 250, 20, signatories=board) api.set_validity_period(tx) # serialize and send to be signed tx_payload = tx.encode_payload() # have signers individually sign transaction and pass on to next signer for signer in board: # build the target transaction signer_tx = Transaction.decode_payload(tx_payload) # Signer decodes payload to inspect transaction signer_tx.sign(signer) # ensure that when we merge the signers signature into the payload that it is correct assert tx.merge_signatures(signer_tx) # once all the partial signatures have been merged then it makes sense print("Collecting final signed transaction...") assert tx.is_valid() api.sync(api.submit_signed_tx(tx)) print("\nAfter remote multisig-transfer") print('Balance 1:', api.tokens.balance(multi_sig_identity)) print('Balance 2:', api.tokens.balance(other_identity))
def test_payload(self): payload = self.tx.encode_payload() new_tx = Transaction.decode_payload(payload) self.assertEqual(new_tx, self.tx)
def test_from_encoded(self): new_tx = Transaction.decode_payload(self.tx.encode_payload()) self.assertEqual(self.tx, new_tx)