Esempio n. 1
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        async def go():
            nonlocal mock_tip
            work, _ = await miner.get_work(EMPTY_ADDR, now=now)
            self.assertEqual(work.height, 43)
            self.assertEqual(work.difficulty, 5)
            # submitted block doesn't exist
            res = await miner.submit_work(b"lolwut", 0, sha3_256(b""))
            self.assertFalse(res)

            solver = DoubleSHA256(work)
            sol = solver.mine(200, 300).nonce
            self.assertGreater(sol, 200)  # ensure non-solution is tried
            non_sol = sol - 1
            # invalid pow proof
            res = await miner.submit_work(work.hash, non_sol, sha3_256(b""))
            self.assertFalse(res)
            # valid submission, but tip updated so should fail
            mock_tip.height += 1
            res = await miner.submit_work(work.hash, sol, sha3_256(b""))
            self.assertFalse(res)
            self.assertEqual(miner.work_map, {})
            # bring tip back and regenerate the work
            mock_tip.height -= 1
            work, _ = await miner.get_work(EMPTY_ADDR, now=now)
            # valid submission, also check internal state afterwards
            res = await miner.submit_work(work.hash, sol, sha3_256(b""))
            self.assertTrue(res)
            self.assertEqual(miner.work_map, {})
            self.assertEqual(len(self.added_blocks), 1)
Esempio n. 2
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    def test_getWork_and_submitWork(self):
        id1 = Identity.create_random_identity()
        acc1 = Address.create_from_identity(id1, full_shard_key=0)

        with ClusterContext(
                1, acc1, remote_mining=True, shard_size=1,
                small_coinbase=True) as clusters, jrpc_server_context(
                    clusters[0].master):
            master = clusters[0].master
            slaves = clusters[0].slave_list

            tx = create_transfer_transaction(
                shard_state=clusters[0].get_shard_state(1 | 0),
                key=id1.get_key(),
                from_address=acc1,
                to_address=acc1,
                value=0,
                gas_price=12,
            )
            self.assertTrue(slaves[0].add_tx(tx))

            for shard_id in ["0x0", None]:  # shard, then root
                resp = send_request("getWork", [shard_id])
                self.assertEqual(resp[1:], ["0x1", "0xa"])  # height and diff

                header_hash_hex = resp[0]
                if shard_id is not None:  # shard 0
                    miner_address = Address.create_from(
                        master.env.quark_chain_config.shards[1].
                        COINBASE_ADDRESS)
                else:  # root
                    miner_address = Address.create_from(
                        master.env.quark_chain_config.ROOT.COINBASE_ADDRESS)
                block = call_async(
                    master.get_next_block_to_mine(address=miner_address,
                                                  branch_value=shard_id
                                                  and 0b01))
                # solve it and submit
                work = MiningWork(bytes.fromhex(header_hash_hex[2:]), 1, 10)
                solver = DoubleSHA256(work)
                nonce = solver.mine(0, 10000).nonce
                mixhash = "0x" + sha3_256(b"").hex()
                resp = send_request(
                    "submitWork",
                    [
                        shard_id,
                        header_hash_hex,
                        hex(nonce),
                        mixhash,
                        "0x" + bytes(65).hex(),
                    ],
                )
                self.assertTrue(resp)

            # show progress on shard 0
            self.assertEqual(
                clusters[0].get_shard_state(1 | 0).get_tip().header.height, 1)
Esempio n. 3
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    def test_getWork_and_submitWork(self):
        id1 = Identity.create_random_identity()
        acc1 = Address.create_from_identity(id1, full_shard_id=0)

        with ClusterContext(
            1, acc1, remote_mining=True, shard_size=1
        ) as clusters, jrpc_server_context(clusters[0].master):
            master = clusters[0].master
            slaves = clusters[0].slave_list

            branch = Branch.create(1, 0)
            tx = create_transfer_transaction(
                shard_state=slaves[0].shards[branch].state,
                key=id1.get_key(),
                from_address=acc1,
                to_address=acc1,
                value=0,
                gas_price=12,
            )
            self.assertTrue(slaves[0].add_tx(tx))

            for shard_id in ["0x0", None]:  # shard, then root
                resp = send_request("getWork", shard_id)
                self.assertEqual(resp[1:], ["0x1", "0xa"])  # height and diff

                header_hash_hex = resp[0]
                _, block = call_async(
                    master.get_next_block_to_mine(
                        address=master.env.quark_chain_config.miner_address,
                        prefer_root=shard_id is None,
                    )
                )
                self.assertEqual(
                    header_hash_hex[2:], block.header.get_hash_for_mining().hex()
                )
                # solve it and submit
                work = MiningWork(bytes.fromhex(resp[0][2:]), 1, 10)
                solver = DoubleSHA256(work)
                nonce = solver.mine(0, 10000).nonce
                mixhash = "0x" + sha3_256(b"").hex()
                resp = send_request(
                    "submitWork", shard_id, header_hash_hex, hex(nonce), mixhash
                )
                self.assertTrue(resp)

            # show progress
            _, new_block = call_async(master.get_next_block_to_mine(address=acc1))
            self.assertIsInstance(new_block, MinorBlock)
            self.assertEqual(new_block.header.height, 2)
Esempio n. 4
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    def test_getWork_and_submitWork(self):
        id1 = Identity.create_random_identity()
        acc1 = Address.create_from_identity(id1, full_shard_id=0)

        with ClusterContext(1, acc1, remote_mining=True,
                            shard_size=1) as clusters, jrpc_server_context(
                                clusters[0].master):
            master = clusters[0].master
            slaves = clusters[0].slave_list

            branch = Branch.create(1, 0)
            tx = create_transfer_transaction(
                shard_state=slaves[0].shards[branch].state,
                key=id1.get_key(),
                from_address=acc1,
                to_address=acc1,
                value=0,
                gas_price=12,
            )
            self.assertTrue(slaves[0].add_tx(tx))

            for shard_id in ["0x0", None]:  # shard, then root
                resp = send_request("getWork", shard_id)
                self.assertEqual(resp[1:], ["0x1", "0xa"])  # height and diff

                header_hash_hex = resp[0]
                _, block = call_async(
                    master.get_next_block_to_mine(address=acc1))
                self.assertEqual(header_hash_hex[2:],
                                 block.header.get_hash_for_mining().hex())
                # solve it and submit
                solver = DoubleSHA256(block)
                mined = solver.mine(0, 1000)
                self.assertTrue(mined)
                nonce_found = "0x" + solver.nonce_found.hex()
                mixhash = "0x" + sha3_256(b"").hex()
                resp = send_request("submitWork", shard_id, header_hash_hex,
                                    nonce_found, mixhash)
                # FIXME: also verify root chain block addition after fixing https://github.com/QuarkChain/pyquarkchain/issues/130
                if shard_id is not None:
                    self.assertTrue(resp)
Esempio n. 5
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        async def go():
            work, _ = await miner.get_work(now=now)
            self.assertEqual(work.height, 0)
            self.assertEqual(work.difficulty, 5)
            # submitted block doesn't exist
            res = await miner.submit_work(b"lolwut", 0, sha3_256(b""))
            self.assertFalse(res)

            solver = DoubleSHA256(work)
            sol = solver.mine(100, 200).nonce
            self.assertGreater(sol, 100)  # ensure non-solution is tried
            non_sol = sol - 1
            # invalid pow proof
            res = await miner.submit_work(work.hash, non_sol, sha3_256(b""))
            self.assertFalse(res)
            # valid submission, also check internal state afterwards
            res = await miner.submit_work(work.hash, sol, sha3_256(b""))
            self.assertTrue(res)
            self.assertEqual(miner.work_map, {})
            self.assertEqual(len(self.added_blocks), 1)
            self.assertIsNone(miner.current_work)