def do_batch(dat): """ Make a batch of transfers :param dat: :return: """ import config snap_info = pickle.loads(Redisdb.get("snapshot_info")) try: Bitshares = config.BitShares(node=config.WSS_NODE, wif=dat['form']['key']) oaccount = Bitshares.wallet.getAccounts()[0] except Exception as err: print(err.__repr__()) Redisdb.rpush("messages", "*|launch_error|key not found") print(0) return False for job in dat['job']: try: wif = dat['key'] pub = format(account.PrivateKey(wif).pubkey, config.PREFIX) to_account_id = job[0].decode('utf8') amount = 10 asset_id = dat['asset']['id'] message = "abcdefgABCDEFG0123456789" nonce = "5862723643998573708" fee = objects.Asset(amount=0, asset_id="1.3.0") amount = objects.Asset(amount=int(amount), asset_id=asset_id) encrypted_memo = memo.encode_memo( account.PrivateKey(wif), account.PublicKey(pub, prefix=config.PREFIX), nonce, message) memoStruct = { "from": pub, "to": pub, "nonce": nonce, "message": encrypted_memo, } memoObj = objects.Memo(**memoStruct) tmp = operations.Transfer( **{ "fee": fee, "from": dat['from'], "to": to_account_id, "amount": amount, "memo": memoObj, "prefix": config.PREFIX }) print() #test = Bitshares.transfer(job[0].decode('utf8'), float(job[1]), dat['asset'], "", dat['from']) except Exception as err: print(err.__repr__()) print(0) Redisdb.decr("batch_jobs", int(1)) Redisdb.rpush( "messages", datetime.datetime.now().isoformat() + " Jobs queue: {}".format(int(Redisdb.get("batch_jobs"))))
def test_pricefeed(self): feed = objects.PriceFeed( **{ "settlement_price": objects.Price( base=objects.Asset(amount=214211, asset_id="1.3.0"), quote=objects.Asset(amount=1241, asset_id="1.3.14"), ), "core_exchange_rate": objects.Price( base=objects.Asset(amount=1241, asset_id="1.3.0"), quote=objects.Asset(amount=6231, asset_id="1.3.14"), ), "maximum_short_squeeze_ratio": 1100, "maintenance_collateral_ratio": 1750, }) self.op = operations.Asset_publish_feed( fee=objects.Asset(amount=100, asset_id="1.3.0"), publisher="1.2.0", asset_id="1.3.3", feed=feed, ) self.cm = ("f68585abf4dce7c8045701136400000000000000000003c344030" "00000000000d9040000000000000ed6064c04d904000000000000" "0057180000000000000e0000012009e13f9066fedc3c8c1eb2ac3" "3b15dc67ecebf708890d0f8ab62ec8283d1636002315a189f1f5a" "a8497b41b8e6bb7c4dc66044510fae25d8f6aebb02c7cdef10") self.doit()
def test_Transfer(self): pub = format(account.PrivateKey(wif).pubkey, prefix) from_account_id = "1.2.0" to_account_id = "1.2.1" amount = 1000000 asset_id = "1.3.4" message = "abcdefgABCDEFG0123456789" nonce = "5862723643998573708" fee = objects.Asset(amount=0, asset_id="1.3.0") amount = objects.Asset(amount=int(amount), asset_id=asset_id) encrypted_memo = memo.encode_memo( account.PrivateKey(wif), account.PublicKey(pub, prefix=prefix), nonce, message) memoStruct = { "from": pub, "to": pub, "nonce": nonce, "message": encrypted_memo, "chain": prefix } memoObj = objects.Memo(**memoStruct) op = operations.Transfer( **{ "fee": fee, "from": from_account_id, "to": to_account_id, "amount": amount, "memo": memoObj }) ops = [Operation(op)] tx = Signed_Transaction(ref_block_num=ref_block_num, ref_block_prefix=ref_block_prefix, expiration=expiration, operations=ops) tx = tx.sign([wif], chain=prefix) tx.verify([PrivateKey(wif).pubkey], "BTS") txWire = hexlify(bytes(tx)).decode("ascii") compare = ("f68585abf4dce7c804570100000000000000000000000140420" "f0000000000040102c0ded2bc1f1305fb0faac5e6c03ee3a192" "4234985427b6167ca569d13df435cf02c0ded2bc1f1305fb0fa" "ac5e6c03ee3a1924234985427b6167ca569d13df435cf8c94d1" "9817945c5120fa5b6e83079a878e499e2e52a76a7739e9de409" "86a8e3bd8a68ce316cee50b210000011f39e3fa7071b795491e" "3b6851d61e7c959be92cc7deb5d8491cf1c3c8c99a1eb44553c" "348fb8f5001a78b18233ac66727e32fc776d48e92d9639d64f6" "8e641948") self.assertEqual(compare[:-130], txWire[:-130])
def test_transfer(self): pub = format(account.PrivateKey(wif).pubkey, prefix) from_account_id = "1.2.0" to_account_id = "1.2.1" amount = 1000000 asset_id = "1.3.4" message = "abcdefgABCDEFG0123456789" nonce = "5862723643998573708" fee = objects.Asset(amount=0, asset_id="1.3.0") amount = objects.Asset(amount=int(amount), asset_id=asset_id) self.op = operations.Transfer( **{ "fee": fee, "from": from_account_id, "to": to_account_id, "amount": amount, "memo": { "from": pub, "to": pub, "nonce": nonce, "message": memo.encode_memo( account.PrivateKey(wif), account.PublicKey(pub, prefix=prefix), nonce, message, ), }, "prefix": prefix, }) self.cm = ("f68585abf4dce7c804570100000000000000000000000140420" "f0000000000040102c0ded2bc1f1305fb0faac5e6c03ee3a192" "4234985427b6167ca569d13df435cf02c0ded2bc1f1305fb0fa" "ac5e6c03ee3a1924234985427b6167ca569d13df435cf8c94d1" "9817945c5120fa5b6e83079a878e499e2e52a76a7739e9de409" "86a8e3bd8a68ce316cee50b210000011f39e3fa7071b795491e" "3b6851d61e7c959be92cc7deb5d8491cf1c3c8c99a1eb44553c" "348fb8f5001a78b18233ac66727e32fc776d48e92d9639d64f6" "8e641948") self.doit()
def test_proposal_update(self): self.op = operations.Proposal_update(**{ 'fee_paying_account': "1.2.1", 'proposal': "1.10.90", 'active_approvals_to_add': ["1.2.5"], "fee": objects.Asset(amount=12512, asset_id="1.3.0"), }) self.cm = ("f68585abf4dce7c804570117e03000000000000000015a01050000000" "000000001203255378db6dc19443e74421c954ad7fdcf23f4ea45fe4f" "e5a1b078a0f94fb529594819c9799d68efa5cfb5b271a9333a2f516ca" "4fb5093226275f48a42d9e8cf") self.doit()
def test_pricefeed(self): feed = objects.PriceFeed( **{ "settlement_price": objects.Price( base=objects.Asset(amount=214211, asset_id="1.3.0"), quote=objects.Asset(amount=1241, asset_id="1.3.14"), ), "core_exchange_rate": objects.Price( base=objects.Asset(amount=1241, asset_id="1.3.0"), quote=objects.Asset(amount=6231, asset_id="1.3.14"), ), "maximum_short_squeeze_ratio": 1100, "maintenance_collateral_ratio": 1750, }) op = operations.Asset_publish_feed(fee=objects.Asset(amount=100, asset_id="1.3.0"), publisher="1.2.0", asset_id="1.3.3", feed=feed) ops = [Operation(op)] tx = Signed_Transaction(ref_block_num=ref_block_num, ref_block_prefix=ref_block_prefix, expiration=expiration, operations=ops) tx = tx.sign([wif], chain=prefix) tx.verify([PrivateKey(wif).pubkey], "BTS") txWire = hexlify(bytes(tx)).decode("ascii") compare = ("f68585abf4dce7c8045701136400000000000000000003c344030" "00000000000d9040000000000000ed6064c04d904000000000000" "0057180000000000000e0000012009e13f9066fedc3c8c1eb2ac3" "3b15dc67ecebf708890d0f8ab62ec8283d1636002315a189f1f5a" "a8497b41b8e6bb7c4dc66044510fae25d8f6aebb02c7cdef10") self.assertEqual(compare[:-130], txWire[:-130])
def test_proposal_update(self): op = operations.Proposal_update( **{ 'fee_paying_account': "1.2.1", 'proposal': "1.10.90", 'active_approvals_to_add': ["1.2.5"], "fee": objects.Asset(amount=12512, asset_id="1.3.0"), }) ops = [Operation(op)] tx = Signed_Transaction(ref_block_num=ref_block_num, ref_block_prefix=ref_block_prefix, expiration=expiration, operations=ops) tx = tx.sign([wif], chain=prefix) tx.verify([PrivateKey(wif).pubkey], "BTS") txWire = hexlify(bytes(tx)).decode("ascii") compare = ("f68585abf4dce7c804570117e03000000000000000015a01050000000" "000000001203255378db6dc19443e74421c954ad7fdcf23f4ea45fe4f" "e5a1b078a0f94fb529594819c9799d68efa5cfb5b271a9333a2f516ca" "4fb5093226275f48a42d9e8cf") self.assertEqual(compare[:-130], txWire[:-130])