use of com.jd.blockchain.ledger.core.LedgerConfiguration in project jdchain-core by blockchain-jd-com.
the class LedgerAdminDatasetTest method verifyReadonlyState.
/**
* 验证指定账户是否只读;
*
* @param readonlyAccount
*/
private void verifyReadonlyState(LedgerAdminDataSetEditor readonlyAccount) {
ConsensusParticipantData newParti = new ConsensusParticipantData();
newParti.setId((int) readonlyAccount.getParticipantCount());
newParti.setHostAddress(new NetworkAddress("192.168.10." + (10 + newParti.getId()), 10010 + 10 * newParti.getId()));
newParti.setName("Participant[" + newParti.getAddress() + "]");
BlockchainKeypair newKey = BlockchainKeyGenerator.getInstance().generate();
newParti.setPubKey(newKey.getPubKey());
newParti.setParticipantState(ParticipantNodeState.CONSENSUS);
Throwable ex = null;
try {
readonlyAccount.addParticipant(newParti);
} catch (Exception e) {
ex = e;
}
assertNotNull(ex);
ex = null;
try {
LedgerConfiguration newLedgerSetting = new LedgerConfiguration(readonlyAccount.getSettings());
readonlyAccount.setLedgerSetting(newLedgerSetting);
} catch (Exception e) {
ex = e;
}
assertNotNull(ex);
}
use of com.jd.blockchain.ledger.core.LedgerConfiguration in project jdchain-core by blockchain-jd-com.
the class LedgerMetaDataTest method testSerialize_LedgerSetting.
@Test
public void testSerialize_LedgerSetting() {
// LedgerCodes.METADATA_LEDGER_SETTING
Random rand = new Random();
byte[] csSettingsBytes = new byte[8];
rand.nextBytes(csSettingsBytes);
String consensusProvider = "testprovider";
// ConsensusConfig consensusConfig = new ConsensusConfig();
// consensusConfig.setValue(settingValue);
CryptoProvider[] supportedProviders = new CryptoProvider[SUPPORTED_PROVIDERS.length];
for (int i = 0; i < SUPPORTED_PROVIDERS.length; i++) {
supportedProviders[i] = Crypto.getProvider(SUPPORTED_PROVIDERS[i]);
}
CryptoConfig cryptoConfig = new CryptoConfig();
cryptoConfig.setSupportedProviders(supportedProviders);
cryptoConfig.setAutoVerifyHash(true);
cryptoConfig.setHashAlgorithm(ClassicAlgorithm.SHA256);
LedgerConfiguration ledgerConfiguration = new LedgerConfiguration(consensusProvider, new Bytes(csSettingsBytes), cryptoConfig);
byte[] encodeBytes = BinaryProtocol.encode(ledgerConfiguration, LedgerSettings.class);
LedgerSettings deLedgerConfiguration = BinaryProtocol.decode(encodeBytes);
// verify start
assertTrue(ledgerConfiguration.getConsensusSetting().equals(deLedgerConfiguration.getConsensusSetting()));
assertEquals(ledgerConfiguration.getCryptoSetting().getAutoVerifyHash(), deLedgerConfiguration.getCryptoSetting().getAutoVerifyHash());
assertEquals(ledgerConfiguration.getCryptoSetting().getHashAlgorithm(), deLedgerConfiguration.getCryptoSetting().getHashAlgorithm());
return;
}
use of com.jd.blockchain.ledger.core.LedgerConfiguration in project jdchain-core by blockchain-jd-com.
the class LedgerAdminDatasetTest method testSerialization.
@Test
public void testSerialization() {
String keyPrefix = "";
LedgerInitData initSetting = new LedgerInitData();
ConsensusParticipantData[] parties = new ConsensusParticipantData[5];
BlockchainKeypair[] bckeys = new BlockchainKeypair[parties.length];
for (int i = 0; i < parties.length; i++) {
bckeys[i] = BlockchainKeyGenerator.getInstance().generate();
parties[i] = new ConsensusParticipantData();
parties[i].setId(i);
parties[i].setAddress(AddressEncoding.generateAddress(bckeys[i].getPubKey()));
parties[i].setHostAddress(new NetworkAddress("192.168.10." + (10 + i), 10010 + 10 * i));
parties[i].setName("Participant[" + i + "]");
parties[i].setPubKey(bckeys[i].getPubKey());
parties[i].setParticipantState(ParticipantNodeState.CONSENSUS);
}
ConsensusParticipantData[] parties1 = Arrays.copyOf(parties, 4);
initSetting.setConsensusParticipants(parties1);
byte[] csSysSettingBytes = new byte[64];
rand.nextBytes(csSysSettingBytes);
initSetting.setConsensusSettings(new Bytes(csSysSettingBytes));
initSetting.setConsensusProvider("consensus-provider");
CryptoProvider[] supportedProviders = new CryptoProvider[SUPPORTED_PROVIDERS.length];
for (int i = 0; i < SUPPORTED_PROVIDERS.length; i++) {
supportedProviders[i] = Crypto.getProvider(SUPPORTED_PROVIDERS[i]);
}
CryptoConfig cryptoSetting = new CryptoConfig();
cryptoSetting.setSupportedProviders(supportedProviders);
cryptoSetting.setAutoVerifyHash(true);
cryptoSetting.setHashAlgorithm(ClassicAlgorithm.SHA256);
initSetting.setCryptoSetting(cryptoSetting);
initSetting.setIdentityMode(IdentityMode.KEYPAIR);
byte[] ledgerSeed = new byte[16];
rand.nextBytes(ledgerSeed);
initSetting.setLedgerSeed(ledgerSeed);
MemoryKVStorage testStorage = new MemoryKVStorage();
// Create intance with init setting;
LedgerAdminDataSetEditor ledgerAdminDataset = new LedgerAdminDataSetEditor(initSetting, keyPrefix, testStorage, testStorage);
ledgerAdminDataset.getRolePrivileges().addRolePrivilege("DEFAULT", new LedgerPermission[] { LedgerPermission.CONFIGURE_ROLES, LedgerPermission.REGISTER_USER, LedgerPermission.APPROVE_TX }, new TransactionPermission[] { TransactionPermission.DIRECT_OPERATION, TransactionPermission.CONTRACT_OPERATION });
ledgerAdminDataset.getAuthorizations().addUserRoles(parties[0].getAddress(), RolesPolicy.UNION, "DEFAULT");
// New created instance is updated until being committed;
assertTrue(ledgerAdminDataset.isUpdated());
// Hash of account is null until being committed;
assertNull(ledgerAdminDataset.getHash());
LedgerMetadata_V2 meta = ledgerAdminDataset.getMetadata();
assertNull(meta.getParticipantsHash());
// Commit, and check the storage keys;
ledgerAdminDataset.commit();
// New created instance isn't updated after being committed;
assertFalse(ledgerAdminDataset.isUpdated());
// Hash of account isn't null after being committed;
assertNotNull(ledgerAdminDataset.getHash());
meta = ledgerAdminDataset.getMetadata();
assertNotNull(meta.getParticipantsHash());
assertNotNull(meta.getSettingsHash());
assertNotNull(meta.getRolePrivilegesHash());
assertNotNull(meta.getUserRolesHash());
assertNotNull(ledgerAdminDataset.getRolePrivileges().getRolePrivilege("DEFAULT"));
// ----------------------
// Reload account from storage with readonly mode, and check the integrity of
// data;
HashDigest adminAccHash = ledgerAdminDataset.getHash();
LedgerAdminDataSetEditor reloadAdminAccount1 = new LedgerAdminDataSetEditor(-1, adminAccHash, keyPrefix, testStorage, testStorage, LedgerDataStructure.MERKLE_TREE, true);
LedgerMetadata_V2 meta2 = reloadAdminAccount1.getMetadata();
assertNotNull(meta2.getParticipantsHash());
assertNotNull(meta2.getSettingsHash());
assertNotNull(meta2.getRolePrivilegesHash());
assertNotNull(meta2.getUserRolesHash());
// verify realod settings of admin account;
verifyRealoadingSettings(reloadAdminAccount1, adminAccHash, ledgerAdminDataset.getMetadata(), ledgerAdminDataset.getSettings());
// verify the consensus participant list;
verifyRealoadingParities(reloadAdminAccount1, parties1);
// It will throw exeception because of this account is readonly;
verifyReadonlyState(reloadAdminAccount1);
verifyRealoadingRoleAuthorizations(reloadAdminAccount1, ledgerAdminDataset.getRolePrivileges(), ledgerAdminDataset.getAuthorizations());
// --------------
// 重新加载,并进行修改;
LedgerAdminDataSetEditor reloadAdminAccount2 = new LedgerAdminDataSetEditor(-1, adminAccHash, keyPrefix, testStorage, testStorage, LedgerDataStructure.MERKLE_TREE, false);
LedgerConfiguration newSetting = new LedgerConfiguration(reloadAdminAccount2.getPreviousSetting());
byte[] newCsSettingBytes = new byte[64];
rand.nextBytes(newCsSettingBytes);
newSetting.setConsensusSetting(new Bytes(newCsSettingBytes));
newSetting.getCryptoSetting().setAutoVerifyHash(false);
reloadAdminAccount2.setLedgerSetting(newSetting);
reloadAdminAccount2.addParticipant(parties[4]);
reloadAdminAccount2.getRolePrivileges().addRolePrivilege("ADMIN", new LedgerPermission[] { LedgerPermission.APPROVE_TX }, new TransactionPermission[] { TransactionPermission.DIRECT_OPERATION });
reloadAdminAccount2.getRolePrivileges().disablePermissions("DEFAULT", TransactionPermission.CONTRACT_OPERATION);
reloadAdminAccount2.getAuthorizations().addUserRoles(parties[1].getAddress(), RolesPolicy.UNION, "DEFAULT", "ADMIN");
reloadAdminAccount2.commit();
LedgerSettings newlyLedgerSettings = reloadAdminAccount2.getSettings();
// record the new account hash;
HashDigest newAccHash = reloadAdminAccount2.getHash();
LedgerMetadata_V2 newMeta = reloadAdminAccount2.getMetadata();
// load the last version of account and verify again;
LedgerAdminDataSetEditor previousAdminAccount = new LedgerAdminDataSetEditor(-1, adminAccHash, keyPrefix, testStorage, testStorage, LedgerDataStructure.MERKLE_TREE, true);
verifyRealoadingSettings(previousAdminAccount, adminAccHash, ledgerAdminDataset.getMetadata(), ledgerAdminDataset.getSettings());
verifyRealoadingParities(previousAdminAccount, parties1);
verifyReadonlyState(previousAdminAccount);
// load the hash of new committing;
LedgerAdminDataSetEditor newlyAdminAccount = new LedgerAdminDataSetEditor(-1, newAccHash, keyPrefix, testStorage, testStorage, LedgerDataStructure.MERKLE_TREE, true);
verifyRealoadingSettings(newlyAdminAccount, newAccHash, newMeta, newlyLedgerSettings);
verifyRealoadingParities(newlyAdminAccount, parties);
verifyReadonlyState(newlyAdminAccount);
// System.out.println("========= [LedgerAdminAccount Test] Show generated storage keys... =======");
// testStorage.printStoragedKeys();
}
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