hush3/qa/rpc-tests/cryptoconditions_oracles.py

#!/usr/bin/env python2
# Copyright (c) 2018 SuperNET developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.


from test_framework.test_framework import CryptoconditionsTestFramework
from test_framework.authproxy import JSONRPCException
from test_framework.util import assert_equal, assert_greater_than, \
    initialize_chain_clean, initialize_chain, start_nodes, start_node, connect_nodes_bi, \
    stop_nodes, sync_blocks, sync_mempools, wait_bitcoinds, rpc_port, assert_raises
from cryptoconditions import assert_success, assert_error, generate_random_string


class CryptoconditionsOraclesTest(CryptoconditionsTestFramework):

    def run_oracles_tests(self):
        rpc = self.nodes[0]
        rpc1 = self.nodes[1]

        result = rpc1.oraclesaddress()

        result = rpc.oraclesaddress()
        assert_success(result)
        for x in ['OraclesCCaddress', 'Oraclesmarker', 'myCCaddress', 'myaddress']:
            assert_equal(result[x][0], 'R')

        result = rpc.oraclesaddress(self.pubkey)
        assert_success(result)
        for x in ['OraclesCCaddress', 'Oraclesmarker', 'myCCaddress', 'myaddress']:
            assert_equal(result[x][0], 'R')

        # there are no oracles created yet
        result = rpc.oracleslist()
        assert_equal(result, [])

        # looking up non-existent oracle should return error.
        result = rpc.oraclesinfo("none")
        assert_error(result)

        # attempt to create oracle with not valid data type should return error
        result = rpc.oraclescreate("Test", "Test", "Test")
        assert_error(result)

        # attempt to create oracle with description > 32 symbols should return error
        too_long_name = generate_random_string(33)
        result = rpc.oraclescreate(too_long_name, "Test", "s")

        # attempt to create oracle with description > 4096 symbols should return error
        too_long_description = generate_random_string(4100)
        result = rpc.oraclescreate("Test", too_long_description, "s")
        assert_error(result)
        # valid creating oracles of different types
        # using such naming to re-use it for data publishing / reading (e.g. oracle_s for s type)
        valid_formats = ["s", "S", "d", "D", "c", "C", "t", "T", "i", "I", "l", "L", "h", "Ihh"]
        for f in valid_formats:
            result = rpc.oraclescreate("Test", "Test", f)
            assert_success(result)
            globals()["oracle_{}".format(f)] = self.send_and_mine(result['hex'], rpc)

        # trying to register with negative datafee
        for f in valid_formats:
            result = rpc.oraclesregister(globals()["oracle_{}".format(f)], "-100")
            assert_error(result)

        # trying to register with zero datafee
        for f in valid_formats:
            result = rpc.oraclesregister(globals()["oracle_{}".format(f)], "0")
            assert_error(result)

        # trying to register with datafee less than txfee
        for f in valid_formats:
            result = rpc.oraclesregister(globals()["oracle_{}".format(f)], "500")
            assert_error(result)

        # trying to register valid
        for f in valid_formats:
            result = rpc.oraclesregister(globals()["oracle_{}".format(f)], "10000")
            assert_success(result)
            register_txid = self.send_and_mine(result["hex"], rpc)
            assert register_txid, "got txid"

        # TODO: for most of the non valid oraclesregister and oraclessubscribe transactions generating and broadcasting now
        # so trying only valid oraclessubscribe atm
        for f in valid_formats:
            result = rpc.oraclessubscribe(globals()["oracle_{}".format(f)], self.pubkey, "1")
            assert_success(result)
            subscribe_txid = self.send_and_mine(result["hex"], rpc)
            assert register_txid, "got txid"

        # now lets publish and read valid data for each oracle type

        # s type
        result = rpc.oraclesdata(globals()["oracle_{}".format("s")], "05416e746f6e")
        assert_success(result)
        # baton
        oraclesdata_s = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("s")], oraclesdata_s, "1")
        assert_equal("[u'Anton']", str(result["samples"][0]), "Data match")

        # S type
        result = rpc.oraclesdata(globals()["oracle_{}".format("S")], "000161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161")
        assert_success(result)
        # baton
        oraclesdata_S = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("S")], oraclesdata_S, "1")
        assert_equal("[u'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa']", str(result["samples"][0]), "Data match")

        # d type
        result = rpc.oraclesdata(globals()["oracle_{}".format("d")], "0101")
        assert_success(result)
        # baton
        oraclesdata_d = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("d")], oraclesdata_d, "1")
        # TODO: working not correct now!
        #assert_equal("[u'01']", str(result["samples"][0]), "Data match")

        # D type
        result = rpc.oraclesdata(globals()["oracle_{}".format("D")], "0101")
        assert_success(result)
        # baton
        oraclesdata_D = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("D")], oraclesdata_D, "1")
        # TODO: working not correct now!
        #assert_equal("[u'01']", str(result["samples"][0]), "Data match")

        # c type
        result = rpc.oraclesdata(globals()["oracle_{}".format("c")], "ff")
        assert_success(result)
        # baton
        oraclesdata_c = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("c")], oraclesdata_c, "1")
        assert_equal("[u'-1']", str(result["samples"][0]), "Data match")

        # C type
        result = rpc.oraclesdata(globals()["oracle_{}".format("C")], "ff")
        assert_success(result)
        # baton
        oraclesdata_C = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("C")], oraclesdata_C, "1")
        assert_equal("[u'255']", str(result["samples"][0]), "Data match")

        # t type
        result = rpc.oraclesdata(globals()["oracle_{}".format("t")], "ffff")
        assert_success(result)
        # baton
        oraclesdata_t = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("t")], oraclesdata_t, "1")
        assert_equal("[u'-1']", str(result["samples"][0]), "Data match")

        # T type
        result = rpc.oraclesdata(globals()["oracle_{}".format("T")], "ffff")
        assert_success(result)
        # baton
        oraclesdata_T = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("T")], oraclesdata_T, "1")
        assert_equal("[u'65535']", str(result["samples"][0]), "Data match")

        # i type
        result = rpc.oraclesdata(globals()["oracle_{}".format("i")], "ffffffff")
        assert_success(result)
        # baton
        oraclesdata_i = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("i")], oraclesdata_i, "1")
        assert_equal("[u'-1']", str(result["samples"][0]), "Data match")

        # I type
        result = rpc.oraclesdata(globals()["oracle_{}".format("I")], "ffffffff")
        assert_success(result)
        # baton
        oraclesdata_I = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("I")], oraclesdata_I, "1")
        assert_equal("[u'4294967295']", str(result["samples"][0]), "Data match")

        # l type
        result = rpc.oraclesdata(globals()["oracle_{}".format("l")], "00000000ffffffff")
        assert_success(result)
        # baton
        oraclesdata_l = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("l")], oraclesdata_l, "1")
        # TODO: working not correct now!
        #assert_equal("[u'-4294967296']", str(result["samples"][0]), "Data match")

        # L type
        result = rpc.oraclesdata(globals()["oracle_{}".format("L")], "00000000ffffffff")
        assert_success(result)
        # baton
        oraclesdata_L = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("L")], oraclesdata_L, "1")
        assert_equal("[u'18446744069414584320']", str(result["samples"][0]), "Data match")

        # h type
        result = rpc.oraclesdata(globals()["oracle_{}".format("h")], "00000000ffffffff00000000ffffffff00000000ffffffff00000000ffffffff")
        assert_success(result)
        # baton
        oraclesdata_h = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("h")], oraclesdata_h, "1")
        assert_equal("[u'ffffffff00000000ffffffff00000000ffffffff00000000ffffffff00000000']", str(result["samples"][0]), "Data match")

        # Ihh type
        result = rpc.oraclesdata(globals()["oracle_{}".format("Ihh")], "00000000ffffffff00000000ffffffff00000000ffffffff00000000ffffffff")
        assert_success(result)
        # baton
        oraclesdata_Ihh = self.send_and_mine(result["hex"], rpc)
        result = rpc.oraclessamples(globals()["oracle_{}".format("Ihh")], oraclesdata_Ihh, "1")
        assert_equal("[u'0']", str(result["samples"][0]), "Data match")


    def run_test(self):
        print("Mining blocks...")
        rpc = self.nodes[0]
        rpc1 = self.nodes[1]
        # utxos from block 1 become mature in block 101
        if not self.options.noshutdown:
            rpc.generate(101)
        self.sync_all()
        rpc.getinfo()
        rpc1.getinfo()
        # this corresponds to -pubkey above
        print("Importing privkeys")
        rpc.importprivkey(self.privkey)
        rpc1.importprivkey(self.privkey1)
        self.run_oracles_tests()


if __name__ == '__main__':
    CryptoconditionsOraclesTest().main()
separated tests for different CCs to different files 6 years ago			`#!/usr/bin/env python2`
			`# Copyright (c) 2018 SuperNET developers`
			`# Distributed under the MIT software license, see the accompanying`
			`# file COPYING or http://www.opensource.org/licenses/mit-license.php.`


small CC tests refactor 6 years ago			`from test_framework.test_framework import CryptoconditionsTestFramework`
separated tests for different CCs to different files 6 years ago			`from test_framework.authproxy import JSONRPCException`
			`from test_framework.util import assert_equal, assert_greater_than, \`
			`initialize_chain_clean, initialize_chain, start_nodes, start_node, connect_nodes_bi, \`
			`stop_nodes, sync_blocks, sync_mempools, wait_bitcoinds, rpc_port, assert_raises`
			`from cryptoconditions import assert_success, assert_error, generate_random_string`


small CC tests refactor 6 years ago			`class CryptoconditionsOraclesTest(CryptoconditionsTestFramework):`
separated tests for different CCs to different files 6 years ago
			`def run_oracles_tests(self):`
			`rpc = self.nodes[0]`
			`rpc1 = self.nodes[1]`

			`result = rpc1.oraclesaddress()`

			`result = rpc.oraclesaddress()`
			`assert_success(result)`
			`for x in ['OraclesCCaddress', 'Oraclesmarker', 'myCCaddress', 'myaddress']:`
			`assert_equal(result[x][0], 'R')`

			`result = rpc.oraclesaddress(self.pubkey)`
			`assert_success(result)`
			`for x in ['OraclesCCaddress', 'Oraclesmarker', 'myCCaddress', 'myaddress']:`
			`assert_equal(result[x][0], 'R')`

			`# there are no oracles created yet`
			`result = rpc.oracleslist()`
			`assert_equal(result, [])`

			`# looking up non-existent oracle should return error.`
			`result = rpc.oraclesinfo("none")`
			`assert_error(result)`

			`# attempt to create oracle with not valid data type should return error`
			`result = rpc.oraclescreate("Test", "Test", "Test")`
			`assert_error(result)`

			`# attempt to create oracle with description > 32 symbols should return error`
			`too_long_name = generate_random_string(33)`
			`result = rpc.oraclescreate(too_long_name, "Test", "s")`

			`# attempt to create oracle with description > 4096 symbols should return error`
			`too_long_description = generate_random_string(4100)`
			`result = rpc.oraclescreate("Test", too_long_description, "s")`
			`assert_error(result)`
added tests for oracles data publishing 6 years ago			`# valid creating oracles of different types`
			`# using such naming to re-use it for data publishing / reading (e.g. oracle_s for s type)`
			`valid_formats = ["s", "S", "d", "D", "c", "C", "t", "T", "i", "I", "l", "L", "h", "Ihh"]`
			`for f in valid_formats:`
			`result = rpc.oraclescreate("Test", "Test", f)`
			`assert_success(result)`
			`globals()["oracle_{}".format(f)] = self.send_and_mine(result['hex'], rpc)`

			`# trying to register with negative datafee`
			`for f in valid_formats:`
			`result = rpc.oraclesregister(globals()["oracle_{}".format(f)], "-100")`
			`assert_error(result)`

			`# trying to register with zero datafee`
			`for f in valid_formats:`
			`result = rpc.oraclesregister(globals()["oracle_{}".format(f)], "0")`
			`assert_error(result)`

			`# trying to register with datafee less than txfee`
			`for f in valid_formats:`
			`result = rpc.oraclesregister(globals()["oracle_{}".format(f)], "500")`
			`assert_error(result)`

			`# trying to register valid`
			`for f in valid_formats:`
			`result = rpc.oraclesregister(globals()["oracle_{}".format(f)], "10000")`
			`assert_success(result)`
			`register_txid = self.send_and_mine(result["hex"], rpc)`
			`assert register_txid, "got txid"`

			`# TODO: for most of the non valid oraclesregister and oraclessubscribe transactions generating and broadcasting now`
			`# so trying only valid oraclessubscribe atm`
			`for f in valid_formats:`
			`result = rpc.oraclessubscribe(globals()["oracle_{}".format(f)], self.pubkey, "1")`
			`assert_success(result)`
			`subscribe_txid = self.send_and_mine(result["hex"], rpc)`
			`assert register_txid, "got txid"`

			`# now lets publish and read valid data for each oracle type`

			`# s type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("s")], "05416e746f6e")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_s = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("s")], oraclesdata_s, "1")`
			`assert_equal("[u'Anton']", str(result["samples"][0]), "Data match")`

			`# S type`
			result = rpc.oraclesdata(globals()["oracle_{}".format("S")], "000161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161616161")
			`assert_success(result)`
			`# baton`
			`oraclesdata_S = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("S")], oraclesdata_S, "1")`
			`assert_equal("[u'aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa']", str(result["samples"][0]), "Data match")`

			`# d type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("d")], "0101")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_d = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("d")], oraclesdata_d, "1")`
			`# TODO: working not correct now!`
			`#assert_equal("[u'01']", str(result["samples"][0]), "Data match")`

			`# D type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("D")], "0101")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_D = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("D")], oraclesdata_D, "1")`
			`# TODO: working not correct now!`
			`#assert_equal("[u'01']", str(result["samples"][0]), "Data match")`

			`# c type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("c")], "ff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_c = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("c")], oraclesdata_c, "1")`
			`assert_equal("[u'-1']", str(result["samples"][0]), "Data match")`

			`# C type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("C")], "ff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_C = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("C")], oraclesdata_C, "1")`
			`assert_equal("[u'255']", str(result["samples"][0]), "Data match")`

			`# t type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("t")], "ffff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_t = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("t")], oraclesdata_t, "1")`
			`assert_equal("[u'-1']", str(result["samples"][0]), "Data match")`

			`# T type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("T")], "ffff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_T = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("T")], oraclesdata_T, "1")`
			`assert_equal("[u'65535']", str(result["samples"][0]), "Data match")`

			`# i type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("i")], "ffffffff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_i = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("i")], oraclesdata_i, "1")`
			`assert_equal("[u'-1']", str(result["samples"][0]), "Data match")`

			`# I type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("I")], "ffffffff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_I = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("I")], oraclesdata_I, "1")`
			`assert_equal("[u'4294967295']", str(result["samples"][0]), "Data match")`

			`# l type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("l")], "00000000ffffffff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_l = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("l")], oraclesdata_l, "1")`
			`# TODO: working not correct now!`
			`#assert_equal("[u'-4294967296']", str(result["samples"][0]), "Data match")`

			`# L type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("L")], "00000000ffffffff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_L = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("L")], oraclesdata_L, "1")`
			`assert_equal("[u'18446744069414584320']", str(result["samples"][0]), "Data match")`

			`# h type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("h")], "00000000ffffffff00000000ffffffff00000000ffffffff00000000ffffffff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_h = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("h")], oraclesdata_h, "1")`
			`assert_equal("[u'ffffffff00000000ffffffff00000000ffffffff00000000ffffffff00000000']", str(result["samples"][0]), "Data match")`

			`# Ihh type`
			`result = rpc.oraclesdata(globals()["oracle_{}".format("Ihh")], "00000000ffffffff00000000ffffffff00000000ffffffff00000000ffffffff")`
			`assert_success(result)`
			`# baton`
			`oraclesdata_Ihh = self.send_and_mine(result["hex"], rpc)`
			`result = rpc.oraclessamples(globals()["oracle_{}".format("Ihh")], oraclesdata_Ihh, "1")`
			`assert_equal("[u'0']", str(result["samples"][0]), "Data match")`

separated tests for different CCs to different files 6 years ago
			`def run_test(self):`
			`print("Mining blocks...")`
			`rpc = self.nodes[0]`
			`rpc1 = self.nodes[1]`
			`# utxos from block 1 become mature in block 101`
splitted cryptoconditions tests and made it pass 6 years ago			`if not self.options.noshutdown:`
			`rpc.generate(101)`
separated tests for different CCs to different files 6 years ago			`self.sync_all()`
			`rpc.getinfo()`
			`rpc1.getinfo()`
			`# this corresponds to -pubkey above`
			`print("Importing privkeys")`
			`rpc.importprivkey(self.privkey)`
			`rpc1.importprivkey(self.privkey1)`
			`self.run_oracles_tests()`

added tests for oracles data publishing 6 years ago
separated tests for different CCs to different files 6 years ago			`if __name__ == '__main__':`
			`CryptoconditionsOraclesTest().main()`