Examples with InternalTransaction org.aion.types.InternalTransaction used on opensource projects

Example 6 with InternalTransaction

use of org.aion.types.InternalTransaction in project aion by aionnetwork.

the class InvokableTransactionTest method encodeDecodeTest.

@Test
public void encodeDecodeTest() {
    Transaction tx = Transaction.contractCallTransaction(new AionAddress(key.getAddress()), AddressUtils.ZERO_ADDRESS, new byte[0], BigInteger.ZERO, BigInteger.ZERO, new byte[0], 1L, 1L);
    AionAddress executor = AddressUtils.ZERO_ADDRESS;
    byte[] invokable = InvokableTxUtil.encodeInvokableTransaction(key, tx.nonce, tx.destinationAddress, tx.value, tx.copyOfTransactionData(), executor);
    InternalTransaction tx2 = InvokableTxUtil.decode(invokable, AddressUtils.ZERO_ADDRESS, 21000, 1);
    assertNotNull(tx2);
    assertEquals(tx.destinationAddress, tx2.destination);
    assertEquals(tx.nonce, tx2.senderNonce);
    assertEquals(tx.value, tx2.value);
    assertArrayEquals(tx.copyOfTransactionData(), tx2.copyOfData());
}

Example 7 with InternalTransaction

use of org.aion.types.InternalTransaction in project aion by aionnetwork.

the class InvokableTransactionTest method nullExecutorTest.

@Test
public void nullExecutorTest() {
    Transaction tx = Transaction.contractCallTransaction(new AionAddress(key.getAddress()), AddressUtils.ZERO_ADDRESS, new byte[0], BigInteger.ZERO, BigInteger.ZERO, new byte[0], 1L, 1L);
    byte[] invokable = InvokableTxUtil.encodeInvokableTransaction(key, tx.nonce, tx.destinationAddress, tx.value, tx.copyOfTransactionData(), null);
    InternalTransaction tx2 = InvokableTxUtil.decode(invokable, getRandomAddress(), 21000, 1);
    assertNotNull(tx2);
    assertEquals(tx.destinationAddress, tx2.destination);
    assertEquals(tx.nonce, tx2.senderNonce);
    assertEquals(tx.value, tx2.value);
    assertArrayEquals(tx.copyOfTransactionData(), tx2.copyOfData());
}

Example 8 with InternalTransaction

use of org.aion.types.InternalTransaction in project aion by aionnetwork.

the class TokenBridgeContractTest method testNonA0AddressTransfer.

@Test
public void testNonA0AddressTransfer() {
    // override defaults
    PrecompiledTransactionContext initializationContext = context(OWNER_ADDR, CONTRACT_ADDR);
    this.contract = new TokenBridgeContract(initializationContext, ExternalStateForTests.usingRepository(this.repository), OWNER_ADDR, CONTRACT_ADDR);
    this.connector = this.contract.getConnector();
    ListFVM encodingList = new ListFVM();
    for (ECKey k : members) {
        encodingList.add(new AddressFVM(k.getAddress()));
    }
    byte[] payload = new AbiEncoder(BridgeFuncSig.SIG_RING_INITIALIZE.getSignature(), encodingList).encodeBytes();
    PrecompiledTransactionResult result = this.contract.execute(payload, DEFAULT_NRG);
    assertTrue(result.getStatus().isSuccess());
    // set relayer
    byte[] callPayload = new AbiEncoder(BridgeFuncSig.SIG_SET_RELAYER.getSignature(), new AddressFVM(members[0].getAddress())).encodeBytes();
    PrecompiledTransactionResult transferResult = this.contract.execute(callPayload, DEFAULT_NRG);
    assertTrue(transferResult.getStatus().isSuccess());
    // override defaults
    this.repository.addBalance(CONTRACT_ADDR, BigInteger.TEN);
    // we create a new token bridge contract here because we
    // need to change the execution context
    PrecompiledTransactionContext submitBundleContext = context(new AionAddress(members[0].getAddress()), CONTRACT_ADDR);
    this.contract = new TokenBridgeContract(submitBundleContext, ExternalStateForTests.usingRepository(this.repository), OWNER_ADDR, CONTRACT_ADDR);
    this.connector = this.contract.getConnector();
    // assemble the payload
    byte[] blockHash = HashUtil.h256("blockHash".getBytes());
    BridgeTransfer[] transfers = new BridgeTransfer[10];
    for (int i = 0; i < 10; i++) {
        // generate a unique sourceTransactionHash for each transfer
        byte[] sourceTransactionHash = HashUtil.h256(Integer.toString(i).getBytes());
        transfers[i] = BridgeTransfer.getInstance(BigInteger.ONE, HashUtil.h256(Integer.toHexString(i).getBytes()), sourceTransactionHash);
    }
    byte[] payloadHash = BridgeUtilities.computeBundleHash(blockHash, transfers);
    // ATB-4, do one assert here to check that transactionHash is not set
    assertThat(this.contract.execute(ByteUtil.merge(BridgeFuncSig.PURE_ACTION_MAP.getBytes(), payloadHash), 21000L).getReturnData()).isEqualTo(ByteUtil.EMPTY_WORD);
    byte[][] signatures = new byte[members.length][];
    int i = 0;
    for (ECKey k : members) {
        signatures[i] = k.sign(payloadHash).toBytes();
        i++;
    }
    ListFVM sourceTransactionList = new ListFVM();
    ListFVM addressList = new ListFVM();
    ListFVM uintList = new ListFVM();
    for (BridgeTransfer b : transfers) {
        sourceTransactionList.add(new AddressFVM(b.getSourceTransactionHash()));
        addressList.add(new AddressFVM(b.getRecipient()));
        uintList.add(new Uint128FVM(PrecompiledUtilities.pad(b.getTransferValue().toByteArray(), 16)));
    }
    ListFVM sigChunk1 = new ListFVM();
    ListFVM sigChunk2 = new ListFVM();
    ListFVM sigChunk3 = new ListFVM();
    for (byte[] sig : signatures) {
        sigChunk1.add(new AddressFVM(Arrays.copyOfRange(sig, 0, 32)));
        sigChunk2.add(new AddressFVM(Arrays.copyOfRange(sig, 32, 64)));
        sigChunk3.add(new AddressFVM(Arrays.copyOfRange(sig, 64, 96)));
    }
    callPayload = new AbiEncoder(BridgeFuncSig.SIG_SUBMIT_BUNDLE.getSignature(), new AddressFVM(blockHash), sourceTransactionList, addressList, uintList, sigChunk1, sigChunk2, sigChunk3).encodeBytes();
    transferResult = this.contract.execute(callPayload, DEFAULT_NRG);
    // / VERIFICATION
    // ATB-4 assert that transactionHash is now properly set
    // ATB-4, do one assert here to check that transactionHash is not set
    assertThat(this.contract.execute(ByteUtil.merge(BridgeFuncSig.PURE_ACTION_MAP.getBytes(), payloadHash), 21000L).getReturnData()).isEqualTo(submitBundleContext.copyOfTransactionHash());
    assertTrue(transferResult.getStatus().isSuccess());
    for (BridgeTransfer b : transfers) {
        assertThat(this.repository.getBalance(new AionAddress(b.getRecipient()))).isEqualTo(BigInteger.ONE);
    }
    assertThat(this.repository.getBalance(CONTRACT_ADDR)).isEqualTo(BigInteger.ZERO);
    // context verification
    // we expect on successful output:
    // 10 internal transactions (that all succeed)
    // 10 Distributed events
    // 1  ProcessedBundle Event
    assertThat(submitBundleContext.getInternalTransactions().size()).isEqualTo(10);
    i = 0;
    for (InternalTransaction tx : submitBundleContext.getInternalTransactions()) {
        // verify the internal transaction is not rejected
        assertThat(tx.isRejected).isFalse();
        // verify the from is the contract address
        assertThat(tx.sender).isEqualTo(CONTRACT_ADDR);
        // verify that we sent the correct amount
        assertThat(tx.value.intValueExact()).isEqualTo(1);
        // verify that the recipient is what we intended (in the order we submitted)
        assertThat(tx.destination).isEqualTo(new AionAddress(transfers[i].getRecipient()));
        i++;
    }
    // check that proper events are emit
    assertThat(submitBundleContext.getLogs().size()).isEqualTo(11);
    i = 0;
    for (Log l : submitBundleContext.getLogs()) {
        // verify address is correct
        assertThat(l.copyOfAddress()).isEqualTo(CONTRACT_ADDR.toByteArray());
        List<byte[]> topics = l.copyOfTopics();
        // on the 11th log, it should be the processed bundle event
        if (i == 10) {
            assertThat(topics.get(0)).isEqualTo(BridgeEventSig.PROCESSED_BUNDLE.getHashed());
            assertThat(topics.get(1)).isEqualTo(blockHash);
            assertThat(topics.get(2)).isEqualTo(payloadHash);
            continue;
        }
        // otherwise we expect a Distributed event
        assertThat(topics.get(0)).isEqualTo(BridgeEventSig.DISTRIBUTED.getHashed());
        assertThat(topics.get(1)).isEqualTo(transfers[i].getSourceTransactionHash());
        assertThat(topics.get(2)).isEqualTo(transfers[i].getRecipient());
        assertThat(new BigInteger(1, topics.get(3))).isEqualTo(transfers[i].getTransferValue());
        i++;
    }
}

Example 9 with InternalTransaction

use of org.aion.types.InternalTransaction in project aion by aionnetwork.

the class TransactionCreateSpecificationTests method deployInternalAvmContractOnTopOfAddressWithStorageUsingAvmVersion1.

@Test
public void deployInternalAvmContractOnTopOfAddressWithStorageUsingAvmVersion1() throws VmFatalException {
    AvmTestConfig.clearConfigurations();
    AvmTestConfig.supportOnlyAvmVersion1();
    // Deploy AVM contract.
    AionTransaction deployTxAvm = BlockchainTestUtils.deployAvmContractTransaction(AvmContract.DEPLOY_INTERNAL, resourceProvider.factoryForVersion1, SENDER_KEY, BigInteger.ZERO);
    AionAddress contract = TxUtil.calculateContractAddress(deployTxAvm);
    Pair<Block, ImportResult> resultImport = BlockchainTestUtils.addMiningBlock(blockchain, blockchain.getBestBlock(), List.of(deployTxAvm));
    assertThat(resultImport.getRight()).isEqualTo(ImportResult.IMPORTED_BEST);
    // Call AVM contract to deploy new internal AVM contract (version without required success).
    long internalLimit = 1_000_000;
    AionTransaction deployInternal = BlockchainTestUtils.callSimpleAvmContractTransaction(resourceProvider.factoryForVersion1, SENDER_KEY, BigInteger.ONE, contract, "deploy", deployTxAvm.getData(), internalLimit);
    AionAddress internalContract = new AionAddress(Hex.decode("a0268090998a99666b72cc452b9307438a34341047d9e0d7b92c9207bf413655"));
    assertThat(blockchain.getRepository().hasAccountState(internalContract)).isFalse();
    // Manipulate the repository to have a non-default storage value.
    RepositoryCache cache = blockchain.getRepository().startTracking();
    cache.addStorageRow(internalContract, ByteArrayWrapper.wrap(RandomUtils.nextBytes(16)), ByteArrayWrapper.wrap(RandomUtils.nextBytes(16)));
    cache.saveVmType(internalContract, InternalVmType.AVM);
    cache.flushTo(cache.getParent(), true);
    // Check assumptions about contract state.
    AccountState contractState = (AccountState) blockchain.getRepository().startTracking().getAccountState(internalContract);
    assertThat(contractState.getBalance()).isEqualTo(BigInteger.ZERO);
    assertThat(contractState.getNonce()).isEqualTo(BigInteger.ZERO);
    assertThat(contractState.getStateRoot()).isNotEqualTo(EMPTY_TRIE_HASH);
    assertThat(contractState.getCodeHash()).isEqualTo(EMPTY_DATA_HASH);
    byte[] oldRoot = contractState.getStateRoot();
    // Next, process the deploy transaction with fork040 enabled.
    AionTxExecSummary result = executeTransaction(deployInternal, true);
    assertThat(result.isFailed()).isFalse();
    assertThat(result.isRejected()).isFalse();
    assertThat(result.getReceipt().getError()).isEmpty();
    assertThat(result.getNrgUsed()).isLessThan(BigInteger.valueOf(deployInternal.getEnergyLimit()));
    assertThat(result.getLogs()).isEmpty();
    InternalTransaction itx = result.getInternalTransactions().get(0);
    assertThat(itx.isCreate).isTrue();
    assertThat(TxUtil.calculateContractAddress(itx)).isEqualTo(internalContract);
    assertThat(itx.isRejected).isFalse();
    assertThat(itx.energyLimit).isEqualTo(internalLimit);
    assertThat(result.getNrgUsed()).isLessThan(BigInteger.valueOf(itx.energyLimit));
    contractState = (AccountState) blockchain.getRepository().startTracking().getAccountState(internalContract);
    assertThat(contractState.getBalance()).isEqualTo(BigInteger.ZERO);
    assertThat(contractState.getNonce()).isEqualTo(BigInteger.ZERO);
    assertThat(contractState.getStateRoot()).isNotEqualTo(EMPTY_TRIE_HASH);
    assertThat(contractState.getStateRoot()).isNotEqualTo(oldRoot);
    assertThat(contractState.getCodeHash()).isNotEqualTo(EMPTY_DATA_HASH);
}

Example 10 with InternalTransaction

use of org.aion.types.InternalTransaction in project aion by aionnetwork.

the class TransactionCreateSpecificationTests method deployInternalAvmContractOnTopOfAddressWithStorageUsingAvmVersion1_DeployAndRequireSuccess.

@Test
public void deployInternalAvmContractOnTopOfAddressWithStorageUsingAvmVersion1_DeployAndRequireSuccess() throws VmFatalException {
    AvmTestConfig.clearConfigurations();
    AvmTestConfig.supportOnlyAvmVersion1();
    // Deploy AVM contract.
    AionTransaction deployTxAvm = BlockchainTestUtils.deployAvmContractTransaction(AvmContract.DEPLOY_INTERNAL, resourceProvider.factoryForVersion1, SENDER_KEY, BigInteger.ZERO);
    AionAddress contract = TxUtil.calculateContractAddress(deployTxAvm);
    Pair<Block, ImportResult> resultImport = BlockchainTestUtils.addMiningBlock(blockchain, blockchain.getBestBlock(), List.of(deployTxAvm));
    assertThat(resultImport.getRight()).isEqualTo(ImportResult.IMPORTED_BEST);
    // Call AVM contract to deploy new internal AVM contract (version with required success).
    long internalLimit = 1_000_000;
    AionTransaction deployInternal = BlockchainTestUtils.callSimpleAvmContractTransaction(resourceProvider.factoryForVersion1, SENDER_KEY, BigInteger.ONE, contract, "deployAndRequireSuccess", deployTxAvm.getData(), internalLimit);
    AionAddress internalContract = new AionAddress(Hex.decode("a0268090998a99666b72cc452b9307438a34341047d9e0d7b92c9207bf413655"));
    assertThat(blockchain.getRepository().hasAccountState(internalContract)).isFalse();
    // Manipulate the repository to have a non-default storage value.
    RepositoryCache cache = blockchain.getRepository().startTracking();
    cache.addStorageRow(internalContract, ByteArrayWrapper.wrap(RandomUtils.nextBytes(16)), ByteArrayWrapper.wrap(RandomUtils.nextBytes(16)));
    cache.saveVmType(internalContract, InternalVmType.AVM);
    cache.flushTo(cache.getParent(), true);
    // Check assumptions about contract state.
    AccountState contractState = (AccountState) blockchain.getRepository().startTracking().getAccountState(internalContract);
    assertThat(contractState.getBalance()).isEqualTo(BigInteger.ZERO);
    assertThat(contractState.getNonce()).isEqualTo(BigInteger.ZERO);
    assertThat(contractState.getStateRoot()).isNotEqualTo(EMPTY_TRIE_HASH);
    assertThat(contractState.getCodeHash()).isEqualTo(EMPTY_DATA_HASH);
    byte[] oldRoot = contractState.getStateRoot();
    // Next, process the deploy transaction with fork040 enabled.
    AionTxExecSummary result = executeTransaction(deployInternal, true);
    assertThat(result.isFailed()).isFalse();
    assertThat(result.isRejected()).isFalse();
    assertThat(result.getReceipt().getError()).isEmpty();
    assertThat(result.getNrgUsed()).isLessThan(BigInteger.valueOf(deployInternal.getEnergyLimit()));
    assertThat(result.getLogs()).isEmpty();
    InternalTransaction itx = result.getInternalTransactions().get(0);
    assertThat(itx.isCreate).isTrue();
    assertThat(TxUtil.calculateContractAddress(itx)).isEqualTo(internalContract);
    assertThat(itx.isRejected).isFalse();
    assertThat(itx.energyLimit).isEqualTo(internalLimit);
    assertThat(result.getNrgUsed()).isLessThan(BigInteger.valueOf(itx.energyLimit));
    contractState = (AccountState) blockchain.getRepository().startTracking().getAccountState(internalContract);
    assertThat(contractState.getBalance()).isEqualTo(BigInteger.ZERO);
    assertThat(contractState.getNonce()).isEqualTo(BigInteger.ZERO);
    assertThat(contractState.getStateRoot()).isNotEqualTo(EMPTY_TRIE_HASH);
    assertThat(contractState.getStateRoot()).isNotEqualTo(oldRoot);
    assertThat(contractState.getCodeHash()).isNotEqualTo(EMPTY_DATA_HASH);
}