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/*-
 *
 * Hedera Java SDK
 *
 * Copyright (C) 2020 - 2024 Hedera Hashgraph, LLC
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *
 */
package com.hedera.hashgraph.sdk;

import static com.hedera.hashgraph.sdk.BaseNodeAddress.PORT_NODE_PLAIN;
import static com.hedera.hashgraph.sdk.BaseNodeAddress.PORT_NODE_TLS;

import com.google.common.annotations.VisibleForTesting;
import com.google.common.util.concurrent.ThreadFactoryBuilder;
import com.google.gson.Gson;
import com.google.gson.JsonElement;
import com.google.gson.JsonParseException;
import com.hedera.hashgraph.sdk.logger.LogLevel;
import com.hedera.hashgraph.sdk.logger.Logger;
import edu.umd.cs.findbugs.annotations.SuppressFBWarnings;
import java.io.File;
import java.io.IOException;
import java.io.Reader;
import java.io.StringReader;
import java.nio.charset.StandardCharsets;
import java.nio.file.Files;
import java.time.Duration;
import java.time.Instant;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.Set;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionStage;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.LinkedBlockingQueue;
import java.util.concurrent.ThreadPoolExecutor;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.atomic.AtomicReference;
import java.util.function.BiConsumer;
import java.util.function.Consumer;
import java.util.function.Supplier;
import java.util.function.UnaryOperator;
import javax.annotation.Nullable;

/**
 * Managed client for use on the Hedera Hashgraph network.
 */
public final class Client implements AutoCloseable {
    static final int DEFAULT_MAX_ATTEMPTS = 10;
    static final Duration DEFAULT_MAX_BACKOFF = Duration.ofSeconds(8L);
    static final Duration DEFAULT_MIN_BACKOFF = Duration.ofMillis(250L);
    static final Duration DEFAULT_MAX_NODE_BACKOFF = Duration.ofHours(1L);
    static final Duration DEFAULT_MIN_NODE_BACKOFF = Duration.ofSeconds(8L);
    static final Duration DEFAULT_CLOSE_TIMEOUT = Duration.ofSeconds(30L);
    static final Duration DEFAULT_REQUEST_TIMEOUT = Duration.ofMinutes(2L);
    static final Duration DEFAULT_GRPC_DEADLINE = Duration.ofSeconds(10L);
    static final Duration DEFAULT_NETWORK_UPDATE_PERIOD = Duration.ofHours(24);
    // Initial delay of 10 seconds before we update the network for the first time,
    // so that this doesn't happen in unit tests.
    static final Duration NETWORK_UPDATE_INITIAL_DELAY = Duration.ofSeconds(10);
    private static final Hbar DEFAULT_MAX_QUERY_PAYMENT = new Hbar(1);
    private static final String MAINNET = "mainnet";
    private static final String TESTNET = "testnet";
    private static final String PREVIEWNET = "previewnet";
    final ExecutorService executor;
    private final AtomicReference grpcDeadline = new AtomicReference(DEFAULT_GRPC_DEADLINE);
    private final Set subscriptions = ConcurrentHashMap.newKeySet();
    @Nullable
    Hbar defaultMaxTransactionFee = null;
    Hbar defaultMaxQueryPayment = DEFAULT_MAX_QUERY_PAYMENT;
    Network network;
    MirrorNetwork mirrorNetwork;
    @Nullable
    private Operator operator;
    private Duration requestTimeout = DEFAULT_REQUEST_TIMEOUT;
    private Duration closeTimeout = DEFAULT_CLOSE_TIMEOUT;
    private int maxAttempts = DEFAULT_MAX_ATTEMPTS;
    private volatile Duration maxBackoff = DEFAULT_MAX_BACKOFF;
    private volatile Duration minBackoff = DEFAULT_MIN_BACKOFF;
    private boolean autoValidateChecksums = false;
    private boolean defaultRegenerateTransactionId = true;
    // If networkUpdatePeriod is null, any network updates in progress will not complete
    @Nullable
    private Duration networkUpdatePeriod;
    @Nullable
    private CompletableFuture networkUpdateFuture;
    private Logger logger = new Logger(LogLevel.SILENT);

    /**
     * Constructor.
     *
     * @param executor      the executor
     * @param network       the network
     * @param mirrorNetwork the mirror network
     */
    @VisibleForTesting
    Client(
        ExecutorService executor,
        Network network,
        MirrorNetwork mirrorNetwork,
        @Nullable Duration networkUpdateInitialDelay,
        @Nullable Duration networkUpdatePeriod
    ) {
        this.executor = executor;
        this.network = network;
        this.mirrorNetwork = mirrorNetwork;
        this.networkUpdatePeriod = networkUpdatePeriod;
        scheduleNetworkUpdate(networkUpdateInitialDelay);
    }

    /**
     * Extract the executor.
     *
     * @return the executor service
     */
    static ExecutorService createExecutor() {
        var threadFactory = new ThreadFactoryBuilder()
            .setNameFormat("hedera-sdk-%d")
            .setDaemon(true)
            .build();

        int nThreads = Runtime.getRuntime().availableProcessors();
        return new ThreadPoolExecutor(nThreads, nThreads,
            0L, TimeUnit.MILLISECONDS,
            new LinkedBlockingQueue<>(),
            threadFactory, new ThreadPoolExecutor.CallerRunsPolicy());
    }

    /**
     *
     * Construct a client given a set of nodes.
     * It is the responsibility of the caller to ensure that all nodes in the map are part of the
     * same Hedera network. Failure to do so will result in undefined behavior.
     * The client will load balance all requests to Hedera using a simple round-robin scheme to
     * chose nodes to send transactions to. For one transaction, at most 1/3 of the nodes will be tried.
     *
     * @param networkMap the map of node IDs to node addresses that make up the network.
     * @param executor runs the grpc requests asynchronously. Note that calling `close()` method on one of the
     *                 clients will close the executor for all the other clients sharing this executor
     * @return {@link com.hedera.hashgraph.sdk.Client}
     */
    public static Client forNetwork(Map networkMap, ExecutorService executor) {
        var network = Network.forNetwork(executor, networkMap);
        var mirrorNetwork = MirrorNetwork.forNetwork(executor, new ArrayList<>());

        return new Client(executor, network, mirrorNetwork, null, null);
    }


    /**
     * Construct a client given a set of nodes.
     *
     * 

It is the responsibility of the caller to ensure that all nodes in the map are part of the * same Hedera network. Failure to do so will result in undefined behavior. * *

The client will load balance all requests to Hedera using a simple round-robin scheme to * chose nodes to send transactions to. For one transaction, at most 1/3 of the nodes will be tried. * * @param networkMap the map of node IDs to node addresses that make up the network. * @return {@link com.hedera.hashgraph.sdk.Client} */ public static Client forNetwork(Map networkMap) { var executor = createExecutor(); return forNetwork(networkMap, executor); } /** * Set up the client for the selected network. * * @param name the selected network * @return the configured client */ public static Client forName(String name) { return switch (name) { case MAINNET -> Client.forMainnet(); case TESTNET -> Client.forTestnet(); case PREVIEWNET -> Client.forPreviewnet(); default -> throw new IllegalArgumentException("Name must be one-of `mainnet`, `testnet`, or `previewnet`"); }; } /** * Construct a Hedera client pre-configured for Mainnet access. * * @param executor runs the grpc requests asynchronously. Note that calling `close()` method on one of the * clients will close the executor for all the other clients sharing this executor * @return {@link com.hedera.hashgraph.sdk.Client} */ public static Client forMainnet(ExecutorService executor) { var network = Network.forMainnet(executor); var mirrorNetwork = MirrorNetwork.forMainnet(executor); return new Client(executor, network, mirrorNetwork, NETWORK_UPDATE_INITIAL_DELAY, DEFAULT_NETWORK_UPDATE_PERIOD); } /** * Construct a Hedera client pre-configured for Testnet * access. * * @param executor runs the grpc requests asynchronously. Note that calling `close()` method on one of the * clients will close the executor for all the other clients sharing this executor * @return {@link com.hedera.hashgraph.sdk.Client} */ public static Client forTestnet(ExecutorService executor) { var network = Network.forTestnet(executor); var mirrorNetwork = MirrorNetwork.forTestnet(executor); return new Client(executor, network, mirrorNetwork, NETWORK_UPDATE_INITIAL_DELAY, DEFAULT_NETWORK_UPDATE_PERIOD); } /** * Construct a Hedera client pre-configured for Preview Testnet * nodes. * * @param executor runs the grpc requests asynchronously. Note that calling `close()` method on one of the * clients will close the executor for all the other clients sharing this executor * @return {@link com.hedera.hashgraph.sdk.Client} */ public static Client forPreviewnet(ExecutorService executor) { var network = Network.forPreviewnet(executor); var mirrorNetwork = MirrorNetwork.forPreviewnet(executor); return new Client(executor, network, mirrorNetwork, NETWORK_UPDATE_INITIAL_DELAY, DEFAULT_NETWORK_UPDATE_PERIOD); } /** * Construct a Hedera client pre-configured for Mainnet access. * * @return {@link com.hedera.hashgraph.sdk.Client} */ public static Client forMainnet() { var executor = createExecutor(); return forMainnet(executor); } /** * Construct a Hedera client pre-configured for Testnet * access. * * @return {@link com.hedera.hashgraph.sdk.Client} */ public static Client forTestnet() { var executor = createExecutor(); return forTestnet(executor); } /** * Construct a Hedera client pre-configured for Preview Testnet * nodes. * * @return {@link com.hedera.hashgraph.sdk.Client} */ public static Client forPreviewnet() { var executor = createExecutor(); return forPreviewnet(executor); } /** * Configure a client based off the given JSON string. * * @param json The json string containing the client configuration * @return {@link com.hedera.hashgraph.sdk.Client} * @throws Exception if the config is incorrect */ public static Client fromConfig(String json) throws Exception { return fromConfig(new StringReader(json)); } /** * Configure a client based off the given JSON reader. * * @param json The Reader containing the client configuration * @return {@link com.hedera.hashgraph.sdk.Client} * @throws Exception if the config is incorrect */ public static Client fromConfig(Reader json) throws Exception { Config config = new Gson().fromJson(json, Config.class); Client client; if (config.network == null) { throw new Exception("Network is not set in provided json object"); } else if (config.network.isJsonObject()) { var networks = config.network.getAsJsonObject(); Map nodes = new HashMap<>(networks.size()); for (Map.Entry entry : networks.entrySet()) { nodes.put(entry.getValue().toString().replace("\"", ""), AccountId.fromString(entry.getKey().replace("\"", ""))); } client = Client.forNetwork(nodes); if (config.networkName != null) { var networkNameString = config.networkName.getAsString(); try { client.setNetworkName(NetworkName.fromString(networkNameString)); } catch (Exception ignored) { throw new IllegalArgumentException("networkName in config was \"" + networkNameString + "\", expected either \"mainnet\", \"testnet\" or \"previewnet\""); } } } else { String networks = config.network.getAsString(); client = switch (networks) { case MAINNET -> Client.forMainnet(); case TESTNET -> Client.forTestnet(); case PREVIEWNET -> Client.forPreviewnet(); default -> throw new JsonParseException("Illegal argument for network."); }; } if (config.operator != null) { AccountId operatorAccount = AccountId.fromString(config.operator.accountId); PrivateKey privateKey = PrivateKey.fromString(config.operator.privateKey); client.setOperator(operatorAccount, privateKey); } //already set in previous set network if? if (config.mirrorNetwork != null) { if (config.mirrorNetwork.isJsonArray()) { var mirrors = config.mirrorNetwork.getAsJsonArray(); List listMirrors = new ArrayList<>(mirrors.size()); for (var i = 0; i < mirrors.size(); i++) { listMirrors.add(mirrors.get(i).getAsString().replace("\"", "")); } client.setMirrorNetwork(listMirrors); } else { String mirror = config.mirrorNetwork.getAsString(); switch (mirror) { case MAINNET -> client.mirrorNetwork = MirrorNetwork.forMainnet(client.executor); case TESTNET -> client.mirrorNetwork = MirrorNetwork.forTestnet(client.executor); case PREVIEWNET -> client.mirrorNetwork = MirrorNetwork.forPreviewnet(client.executor); default -> throw new JsonParseException("Illegal argument for mirrorNetwork."); } } } return client; } /** * Configure a client based on a JSON file at the given path. * * @param fileName The string containing the file path * @return {@link com.hedera.hashgraph.sdk.Client} * @throws IOException if IO operations fail */ public static Client fromConfigFile(String fileName) throws Exception { return fromConfigFile(new File(fileName)); } /** * Configure a client based on a JSON file. * * @param file The file containing the client configuration * @return {@link com.hedera.hashgraph.sdk.Client} * @throws IOException if IO operations fail */ public static Client fromConfigFile(File file) throws Exception { return fromConfig(Files.newBufferedReader(file.toPath(), StandardCharsets.UTF_8)); } /** * Extract the mirror network node list. * * @return the list of mirror nodes */ synchronized public List getMirrorNetwork() { return mirrorNetwork.getNetwork(); } /** * Set the mirror network nodes. * * @param network list of network nodes * @return {@code this} * @throws InterruptedException when a thread is interrupted while it's waiting, sleeping, or otherwise occupied */ public synchronized Client setMirrorNetwork(List network) throws InterruptedException { try { this.mirrorNetwork.setNetwork(network); } catch (TimeoutException e) { throw new RuntimeException(e); } return this; } private synchronized void scheduleNetworkUpdate(@Nullable Duration delay) { if (delay == null) { networkUpdateFuture = null; return; } networkUpdateFuture = Delayer.delayFor(delay.toMillis(), executor); networkUpdateFuture.thenRun(() -> { // Checking networkUpdatePeriod != null must be synchronized, so I've put it in a synchronized method. requireNetworkUpdatePeriodNotNull(() -> { new AddressBookQuery().setFileId(FileId.ADDRESS_BOOK).executeAsync(this) .thenCompose(addressBook -> requireNetworkUpdatePeriodNotNull(() -> { try { this.setNetworkFromAddressBook(addressBook); } catch (Throwable error) { return CompletableFuture.failedFuture(error); } return CompletableFuture.completedFuture(null); })).exceptionally(error -> { logger.warn("Failed to update address book via mirror node query ", error); return null; }); scheduleNetworkUpdate(networkUpdatePeriod); return null; }); }); } private synchronized CompletionStage requireNetworkUpdatePeriodNotNull(Supplier> task) { return networkUpdatePeriod != null ? task.get() : CompletableFuture.completedFuture(null); } private void cancelScheduledNetworkUpdate() { if (networkUpdateFuture != null) { networkUpdateFuture.cancel(true); } } private void cancelAllSubscriptions() { subscriptions.forEach(SubscriptionHandle::unsubscribe); } void trackSubscription(SubscriptionHandle subscriptionHandle) { subscriptions.add(subscriptionHandle); } void untrackSubscription(SubscriptionHandle subscriptionHandle) { subscriptions.remove(subscriptionHandle); } /** * Replace all nodes in this Client with the nodes in the Address Book * and update the address book if necessary. * * @param addressBook A list of nodes and their metadata * @param updateAddressBook whether to update the address book of the network * @return {@code this} */ public synchronized Client setNetworkFromAddressBook(NodeAddressBook addressBook, boolean updateAddressBook) throws InterruptedException, TimeoutException { network.setNetwork(Network.addressBookToNetwork( addressBook.nodeAddresses, isTransportSecurity() ? PORT_NODE_TLS : PORT_NODE_PLAIN )); if (updateAddressBook) { network.setAddressBook(addressBook); } return this; } /** * Replace all nodes in this Client with the nodes in the Address Book * * @param addressBook A list of nodes and their metadata * @return {@code this} * @throws InterruptedException when a thread is interrupted while it's waiting, sleeping, or otherwise occupied * @throws TimeoutException when shutting down nodes */ public synchronized Client setNetworkFromAddressBook(NodeAddressBook addressBook) throws InterruptedException, TimeoutException { return setNetworkFromAddressBook(addressBook, false); } /** * Extract the network. * * @return the client's network */ synchronized public Map getNetwork() { return network.getNetwork(); } /** * Replace all nodes in this Client with a new set of nodes (e.g. for an Address Book update). * * @param network a map of node account ID to node URL. * @return {@code this} for fluent API usage. * @throws TimeoutException when shutting down nodes * @throws InterruptedException when a thread is interrupted while it's waiting, sleeping, or otherwise occupied */ public synchronized Client setNetwork(Map network) throws InterruptedException, TimeoutException { this.network.setNetwork(network); return this; } /** * Set if transport security should be used to connect to mirror nodes. *
* If transport security is enabled all connections to mirror nodes will use TLS. * * @param transportSecurity - enable or disable transport security for mirror nodes * @return {@code this} for fluent API usage. * @deprecated Mirror nodes can only be accessed using TLS */ @Deprecated public Client setMirrorTransportSecurity(boolean transportSecurity) { return this; } /** * Is tls enabled for consensus nodes. * * @return is tls enabled */ public boolean isTransportSecurity() { return network.isTransportSecurity(); } /** * Set if transport security should be used to connect to consensus nodes. *
* If transport security is enabled all connections to consensus nodes will use TLS, and the server's certificate * hash will be compared to the hash stored in the {@link NodeAddressBook} for the given network. *
* *Note*: If transport security is enabled, but {@link Client#isVerifyCertificates()} is disabled then server * certificates will not be verified. * * @param transportSecurity enable or disable transport security for consensus nodes * @return {@code this} for fluent API usage. * @throws InterruptedException when a thread is interrupted while it's waiting, sleeping, or otherwise occupied */ public Client setTransportSecurity(boolean transportSecurity) throws InterruptedException { network.setTransportSecurity(transportSecurity); return this; } /** * Is tls enabled for mirror nodes. * * @return is tls enabled */ public boolean mirrorIsTransportSecurity() { return mirrorNetwork.isTransportSecurity(); } /** * Is certificate verification enabled. * * @return is certificate verification enabled */ public boolean isVerifyCertificates() { return network.isVerifyCertificates(); } /** * Set if server certificates should be verified against an existing address book * * @param verifyCertificates - enable or disable certificate verification * @return {@code this} */ public Client setVerifyCertificates(boolean verifyCertificates) { network.setVerifyCertificates(verifyCertificates); return this; } /** * Send a ping to the given node. * * @param nodeAccountId Account ID of the node to ping * @throws TimeoutException when the transaction times out * @throws PrecheckStatusException when the precheck fails */ public Void ping(AccountId nodeAccountId) throws PrecheckStatusException, TimeoutException { return ping(nodeAccountId, getRequestTimeout()); } /** * Send a ping to the given node. * * @param nodeAccountId Account ID of the node to ping * @param timeout The timeout after which the execution attempt will be cancelled. * @throws TimeoutException when the transaction times out * @throws PrecheckStatusException when the precheck fails */ public Void ping(AccountId nodeAccountId, Duration timeout) throws PrecheckStatusException, TimeoutException { new AccountBalanceQuery() .setAccountId(nodeAccountId) .setNodeAccountIds(Collections.singletonList(nodeAccountId)) .execute(this, timeout); return null; } /** * Send a ping to the given node asynchronously. * * @param nodeAccountId Account ID of the node to ping * @return an empty future that throws exception if there was an error */ public CompletableFuture pingAsync(AccountId nodeAccountId) { return pingAsync(nodeAccountId, getRequestTimeout()); } /** * Send a ping to the given node asynchronously. * * @param nodeAccountId Account ID of the node to ping * @param timeout The timeout after which the execution attempt will be cancelled. * @return an empty future that throws exception if there was an error */ public CompletableFuture pingAsync(AccountId nodeAccountId, Duration timeout) { var result = new CompletableFuture(); new AccountBalanceQuery() .setAccountId(nodeAccountId) .setNodeAccountIds(Collections.singletonList(nodeAccountId)) .executeAsync(this, timeout) .whenComplete((balance, error) -> { if (error == null) { result.complete(null); } else { result.completeExceptionally(error); } }); return result; } /** * Send a ping to the given node asynchronously. * * @param nodeAccountId Account ID of the node to ping * @param callback a BiConsumer which handles the result or error. */ public void pingAsync(AccountId nodeAccountId, BiConsumer callback) { ConsumerHelper.biConsumer(pingAsync(nodeAccountId), callback); } /** * Send a ping to the given node asynchronously. * * @param nodeAccountId Account ID of the node to ping * @param timeout The timeout after which the execution attempt will be cancelled. * @param callback a BiConsumer which handles the result or error. */ public void pingAsync(AccountId nodeAccountId, Duration timeout, BiConsumer callback) { ConsumerHelper.biConsumer(pingAsync(nodeAccountId, timeout), callback); } /** * Send a ping to the given node asynchronously. * * @param nodeAccountId Account ID of the node to ping * @param onSuccess a Consumer which consumes the result on success. * @param onFailure a Consumer which consumes the error on failure. */ public void pingAsync(AccountId nodeAccountId, Consumer onSuccess, Consumer onFailure) { ConsumerHelper.twoConsumers(pingAsync(nodeAccountId), onSuccess, onFailure); } /** * Send a ping to the given node asynchronously. * * @param nodeAccountId Account ID of the node to ping * @param timeout The timeout after which the execution attempt will be cancelled. * @param onSuccess a Consumer which consumes the result on success. * @param onFailure a Consumer which consumes the error on failure. */ public void pingAsync(AccountId nodeAccountId, Duration timeout, Consumer onSuccess, Consumer onFailure) { ConsumerHelper.twoConsumers(pingAsync(nodeAccountId, timeout), onSuccess, onFailure); } /** * Sends pings to all nodes in the client's network. Combines well with setMaxAttempts(1) to remove all dead nodes * from the network. * * @throws TimeoutException when the transaction times out * @throws PrecheckStatusException when the precheck fails */ public synchronized Void pingAll() throws PrecheckStatusException, TimeoutException { return pingAll(getRequestTimeout()); } /** * Sends pings to all nodes in the client's network. Combines well with setMaxAttempts(1) to remove all dead nodes * from the network. * * @param timeoutPerPing The timeout after which each execution attempt will be cancelled. * @throws TimeoutException when the transaction times out * @throws PrecheckStatusException when the precheck fails */ public synchronized Void pingAll(Duration timeoutPerPing) throws PrecheckStatusException, TimeoutException { for (var nodeAccountId : network.getNetwork().values()) { ping(nodeAccountId, timeoutPerPing); } return null; } /** * Sends pings to all nodes in the client's network asynchronously. Combines well with setMaxAttempts(1) to remove * all dead nodes from the network. * * @return an empty future that throws exception if there was an error */ public synchronized CompletableFuture pingAllAsync() { return pingAllAsync(getRequestTimeout()); } /** * Sends pings to all nodes in the client's network asynchronously. Combines well with setMaxAttempts(1) to remove * all dead nodes from the network. * * @param timeoutPerPing The timeout after which each execution attempt will be cancelled. * @return an empty future that throws exception if there was an error */ public synchronized CompletableFuture pingAllAsync(Duration timeoutPerPing) { var network = this.network.getNetwork(); var list = new ArrayList>(network.size()); for (var nodeAccountId : network.values()) { list.add(pingAsync(nodeAccountId, timeoutPerPing)); } return CompletableFuture.allOf(list.toArray(new CompletableFuture[0])).thenApply((v) -> null); } /** * Sends pings to all nodes in the client's network asynchronously. Combines well with setMaxAttempts(1) to remove * all dead nodes from the network. * * @param callback a BiConsumer which handles the result or error. */ public void pingAllAsync(BiConsumer callback) { ConsumerHelper.biConsumer(pingAllAsync(), callback); } /** * Sends pings to all nodes in the client's network asynchronously. Combines well with setMaxAttempts(1) to remove * all dead nodes from the network. * * @param timeoutPerPing The timeout after which each execution attempt will be cancelled. * @param callback a BiConsumer which handles the result or error. */ public void pingAllAsync(Duration timeoutPerPing, BiConsumer callback) { ConsumerHelper.biConsumer(pingAllAsync(timeoutPerPing), callback); } /** * Sends pings to all nodes in the client's network asynchronously. Combines well with setMaxAttempts(1) to remove * all dead nodes from the network. * * @param onSuccess a Consumer which consumes the result on success. * @param onFailure a Consumer which consumes the error on failure. */ public void pingAllAsync(Consumer onSuccess, Consumer onFailure) { ConsumerHelper.twoConsumers(pingAllAsync(), onSuccess, onFailure); } /** * Sends pings to all nodes in the client's network asynchronously. Combines well with setMaxAttempts(1) to remove * all dead nodes from the network. * * @param timeoutPerPing The timeout after which each execution attempt will be cancelled. * @param onSuccess a Consumer which consumes the result on success. * @param onFailure a Consumer which consumes the error on failure. */ public void pingAllAsync(Duration timeoutPerPing, Consumer onSuccess, Consumer onFailure) { ConsumerHelper.twoConsumers(pingAllAsync(timeoutPerPing), onSuccess, onFailure); } /** * Set the account that will, by default, be paying for transactions and queries built with this client. *

* The operator account ID is used to generate the default transaction ID for all transactions executed with this * client. *

* The operator private key is used to sign all transactions executed by this client. * * @param accountId The AccountId of the operator * @param privateKey The PrivateKey of the operator * @return {@code this} */ public synchronized Client setOperator(AccountId accountId, PrivateKey privateKey) { return setOperatorWith(accountId, privateKey.getPublicKey(), privateKey::sign); } /** * Sets the account that will, by default, by paying for transactions and queries built with this client. *

* The operator account ID is used to generate a default transaction ID for all transactions executed with this * client. *

* The `transactionSigner` is invoked to sign all transactions executed by this client. * * @param accountId The AccountId of the operator * @param publicKey The PrivateKey of the operator * @param transactionSigner The signer for the operator * @return {@code this} */ public synchronized Client setOperatorWith(AccountId accountId, PublicKey publicKey, UnaryOperator transactionSigner) { if (getNetworkName() != null) { try { accountId.validateChecksum(this); } catch (BadEntityIdException exc) { throw new IllegalArgumentException( "Tried to set the client operator account ID to an account ID with an invalid checksum: " + exc.getMessage() ); } } this.operator = new Operator(accountId, publicKey, transactionSigner); return this; } /** * Current name of the network; corresponds to ledger ID in entity ID checksum calculations. * * @return the network name * @deprecated use {@link #getLedgerId()} instead */ @Nullable @Deprecated public synchronized NetworkName getNetworkName() { var ledgerId = network.getLedgerId(); return ledgerId == null ? null : ledgerId.toNetworkName(); } /** * Set the network name to a particular value. Useful when constructing a network which is a subset of an existing * known network. * * @param networkName the desired network * @return {@code this} * @deprecated use {@link #setLedgerId(LedgerId)} instead */ @Deprecated public synchronized Client setNetworkName(@Nullable NetworkName networkName) { this.network.setLedgerId(networkName == null ? null : LedgerId.fromNetworkName(networkName)); return this; } /** * Current LedgerId of the network; corresponds to ledger ID in entity ID checksum calculations. * * @return the ledger id */ @Nullable public synchronized LedgerId getLedgerId() { return network.getLedgerId(); } /** * Set the LedgerId to a particular value. Useful when constructing a network which is a subset of an existing known * network. * * @param ledgerId the desired ledger id * @return {@code this} */ public synchronized Client setLedgerId(@Nullable LedgerId ledgerId) { this.network.setLedgerId(ledgerId); return this; } /** * Max number of attempts a request executed with this client will do. * * @return the maximus attempts */ public synchronized int getMaxAttempts() { return maxAttempts; } /** * Set the max number of attempts a request executed with this client will do. * * @param maxAttempts the desired max attempts * @return {@code this} */ public synchronized Client setMaxAttempts(int maxAttempts) { if (maxAttempts <= 0) { throw new IllegalArgumentException("maxAttempts must be greater than zero"); } this.maxAttempts = maxAttempts; return this; } /** * The maximum amount of time to wait between retries * * @return maxBackoff */ @SuppressFBWarnings( value = "EI_EXPOSE_REP", justification = "A Duration can't actually be mutated" ) public Duration getMaxBackoff() { return maxBackoff; } /** * The maximum amount of time to wait between retries. Every retry attempt will increase the wait time exponentially * until it reaches this time. * * @param maxBackoff The maximum amount of time to wait between retries * @return {@code this} */ @SuppressFBWarnings( value = "EI_EXPOSE_REP2", justification = "A Duration can't actually be mutated" ) public Client setMaxBackoff(Duration maxBackoff) { if (maxBackoff == null || maxBackoff.toNanos() < 0) { throw new IllegalArgumentException("maxBackoff must be a positive duration"); } else if (maxBackoff.compareTo(minBackoff) < 0) { throw new IllegalArgumentException("maxBackoff must be greater than or equal to minBackoff"); } this.maxBackoff = maxBackoff; return this; } /** * The minimum amount of time to wait between retries * * @return minBackoff */ @SuppressFBWarnings( value = "EI_EXPOSE_REP", justification = "A Duration can't actually be mutated" ) public Duration getMinBackoff() { return minBackoff; } /** * The minimum amount of time to wait between retries. When retrying, the delay will start at this time and increase * exponentially until it reaches the maxBackoff. * * @param minBackoff The minimum amount of time to wait between retries * @return {@code this} */ @SuppressFBWarnings( value = "EI_EXPOSE_REP2", justification = "A Duration can't actually be mutated" ) public Client setMinBackoff(Duration minBackoff) { if (minBackoff == null || minBackoff.toNanos() < 0) { throw new IllegalArgumentException("minBackoff must be a positive duration"); } else if (minBackoff.compareTo(maxBackoff) > 0) { throw new IllegalArgumentException("minBackoff must be less than or equal to maxBackoff"); } this.minBackoff = minBackoff; return this; } /** * Max number of times any node in the network can receive a bad gRPC status before being removed from the network. * * @return the maximum node attempts */ public synchronized int getMaxNodeAttempts() { return network.getMaxNodeAttempts(); } /** * Set the max number of times any node in the network can receive a bad gRPC status before being removed from the * network. * * @param maxNodeAttempts the desired minimum attempts * @return {@code this} */ public synchronized Client setMaxNodeAttempts(int maxNodeAttempts) { this.network.setMaxNodeAttempts(maxNodeAttempts); return this; } /** * The minimum backoff time for any node in the network. * * @return the wait time * @deprecated - Use {@link Client#getNodeMaxBackoff()} instead */ @Deprecated public synchronized Duration getNodeWaitTime() { return getNodeMinBackoff(); } /** * Set the minimum backoff time for any node in the network. * * @param nodeWaitTime the wait time * @return the updated client * @deprecated - Use {@link Client#setNodeMinBackoff(Duration)} ()} instead */ @Deprecated public synchronized Client setNodeWaitTime(Duration nodeWaitTime) { return setNodeMinBackoff(nodeWaitTime); } /** * The minimum backoff time for any node in the network. * * @return the minimum backoff time */ public synchronized Duration getNodeMinBackoff() { return network.getMinNodeBackoff(); } /** * Set the minimum backoff time for any node in the network. * * @param minBackoff the desired minimum backoff time * @return {@code this} */ public synchronized Client setNodeMinBackoff(Duration minBackoff) { network.setMinNodeBackoff(minBackoff); return this; } /** * The maximum backoff time for any node in the network. * * @return the maximum node backoff time */ public synchronized Duration getNodeMaxBackoff() { return network.getMaxNodeBackoff(); } /** * Set the maximum backoff time for any node in the network. * * @param maxBackoff the desired max backoff time * @return {@code this} */ public synchronized Client setNodeMaxBackoff(Duration maxBackoff) { network.setMaxNodeBackoff(maxBackoff); return this; } /** * Extract the minimum node readmit time. * * @return the minimum node readmit time */ public Duration getMinNodeReadmitTime() { return network.getMinNodeReadmitTime(); } /** * Assign the minimum node readmit time. * * @param minNodeReadmitTime the requested duration * @return {@code this} */ public Client setMinNodeReadmitTime(Duration minNodeReadmitTime) { network.setMinNodeReadmitTime(minNodeReadmitTime); return this; } /** * Extract the node readmit time. * * @return the maximum node readmit time */ public Duration getMaxNodeReadmitTime() { return network.getMaxNodeReadmitTime(); } /** * Assign the maximum node readmit time. * * @param maxNodeReadmitTime the maximum node readmit time * @return {@code this} */ public Client setMaxNodeReadmitTime(Duration maxNodeReadmitTime) { network.setMaxNodeReadmitTime(maxNodeReadmitTime); return this; } /** * Set the max amount of nodes that will be chosen per request. By default, the request will use 1/3rd the network * nodes per request. * * @param maxNodesPerTransaction the desired number of nodes * @return {@code this} */ public synchronized Client setMaxNodesPerTransaction(int maxNodesPerTransaction) { this.network.setMaxNodesPerRequest(maxNodesPerTransaction); return this; } /** * Enable or disable automatic entity ID checksum validation. * * @param value the desired value * @return {@code this} */ public synchronized Client setAutoValidateChecksums(boolean value) { autoValidateChecksums = value; return this; } /** * Is automatic entity ID checksum validation enabled. * * @return is validation enabled */ public synchronized boolean isAutoValidateChecksumsEnabled() { return autoValidateChecksums; } /** * Get the ID of the operator. Useful when the client was constructed from file. * * @return {AccountId} */ @Nullable public synchronized AccountId getOperatorAccountId() { if (operator == null) { return null; } return operator.accountId; } /** * Get the key of the operator. Useful when the client was constructed from file. * * @return {PublicKey} */ @Nullable public synchronized PublicKey getOperatorPublicKey() { if (operator == null) { return null; } return operator.publicKey; } /** * The default maximum fee used for transactions. * * @return the max transaction fee */ @Nullable public synchronized Hbar getDefaultMaxTransactionFee() { return defaultMaxTransactionFee; } /** * Set the maximum fee to be paid for transactions executed by this client. *

* Because transaction fees are always maximums, this will simply add a call to * {@link Transaction#setMaxTransactionFee(Hbar)} on every new transaction. The actual fee assessed for a given * transaction may be less than this value, but never greater. * * @param defaultMaxTransactionFee The Hbar to be set * @return {@code this} */ public synchronized Client setDefaultMaxTransactionFee(Hbar defaultMaxTransactionFee) { Objects.requireNonNull(defaultMaxTransactionFee); if (defaultMaxTransactionFee.toTinybars() < 0) { throw new IllegalArgumentException("maxTransactionFee must be non-negative"); } this.defaultMaxTransactionFee = defaultMaxTransactionFee; return this; } /** * Set the maximum fee to be paid for transactions executed by this client. *

* Because transaction fees are always maximums, this will simply add a call to * {@link Transaction#setMaxTransactionFee(Hbar)} on every new transaction. The actual fee assessed for a given * transaction may be less than this value, but never greater. * * @param maxTransactionFee The Hbar to be set * @return {@code this} * @deprecated Use {@link #setDefaultMaxTransactionFee(Hbar)} instead. */ @Deprecated public synchronized Client setMaxTransactionFee(Hbar maxTransactionFee) { return setDefaultMaxTransactionFee(maxTransactionFee); } /** * Extract the maximum query payment. * * @return the default maximum query payment */ public synchronized Hbar getDefaultMaxQueryPayment() { return defaultMaxQueryPayment; } /** * Set the maximum default payment allowable for queries. *

* When a query is executed without an explicit {@link Query#setQueryPayment(Hbar)} call, the client will first * request the cost of the given query from the node it will be submitted to and attach a payment for that amount * from the operator account on the client. *

* If the returned value is greater than this value, a {@link MaxQueryPaymentExceededException} will be thrown from * {@link Query#execute(Client)} or returned in the second callback of * {@link Query#executeAsync(Client, Consumer, Consumer)}. *

* Set to 0 to disable automatic implicit payments. * * @param defaultMaxQueryPayment The Hbar to be set * @return {@code this} */ public synchronized Client setDefaultMaxQueryPayment(Hbar defaultMaxQueryPayment) { Objects.requireNonNull(defaultMaxQueryPayment); if (defaultMaxQueryPayment.toTinybars() < 0) { throw new IllegalArgumentException("defaultMaxQueryPayment must be non-negative"); } this.defaultMaxQueryPayment = defaultMaxQueryPayment; return this; } /** * @param maxQueryPayment The Hbar to be set * @return {@code this} * @deprecated Use {@link #setDefaultMaxQueryPayment(Hbar)} instead. */ @Deprecated public synchronized Client setMaxQueryPayment(Hbar maxQueryPayment) { return setDefaultMaxQueryPayment(maxQueryPayment); } /** * Should the transaction id be regenerated? * * @return the default regenerate transaction id */ public synchronized boolean getDefaultRegenerateTransactionId() { return defaultRegenerateTransactionId; } /** * Assign the default regenerate transaction id. * * @param regenerateTransactionId should there be a regenerated transaction id * @return {@code this} */ public synchronized Client setDefaultRegenerateTransactionId(boolean regenerateTransactionId) { this.defaultRegenerateTransactionId = regenerateTransactionId; return this; } /** * Maximum amount of time a request can run * * @return the timeout value */ @SuppressFBWarnings( value = "EI_EXPOSE_REP", justification = "A Duration can't actually be mutated" ) public synchronized Duration getRequestTimeout() { return requestTimeout; } /** * Set the maximum amount of time a request can run. Used only in async variants of methods. * * @param requestTimeout the timeout value * @return {@code this} */ @SuppressFBWarnings( value = "EI_EXPOSE_REP2", justification = "A Duration can't actually be mutated" ) public synchronized Client setRequestTimeout(Duration requestTimeout) { this.requestTimeout = Objects.requireNonNull(requestTimeout); return this; } /** * Maximum amount of time closing a network can take. * * @return the timeout value */ @SuppressFBWarnings( value = "EI_EXPOSE_REP", justification = "A Duration can't actually be mutated" ) public Duration getCloseTimeout() { return closeTimeout; } /** * Set the maximum amount of time closing a network can take. * * @param closeTimeout the timeout value * @return {@code this} */ @SuppressFBWarnings( value = "EI_EXPOSE_REP2", justification = "A Duration can't actually be mutated" ) public Client setCloseTimeout(Duration closeTimeout) { this.closeTimeout = Objects.requireNonNull(closeTimeout); network.setCloseTimeout(closeTimeout); mirrorNetwork.setCloseTimeout(closeTimeout); return this; } /** * Maximum amount of time a gRPC request can run * * @return the gRPC deadline value */ @SuppressFBWarnings( value = "EI_EXPOSE_REP", justification = "A Duration can't actually be mutated" ) public Duration getGrpcDeadline() { return grpcDeadline.get(); } /** * Set the maximum amount of time a gRPC request can run. * * @param grpcDeadline the gRPC deadline value * @return {@code this} */ @SuppressFBWarnings( value = "EI_EXPOSE_REP2", justification = "A Duration can't actually be mutated" ) public Client setGrpcDeadline(Duration grpcDeadline) { this.grpcDeadline.set(Objects.requireNonNull(grpcDeadline)); return this; } /** * Extract the operator. * * @return the operator */ @Nullable synchronized Operator getOperator() { return this.operator; } /** * Get the period for updating the Address Book * * @return the networkUpdatePeriod */ @SuppressFBWarnings( value = "EI_EXPOSE_REP", justification = "A Duration can't actually be mutated" ) @Nullable public synchronized Duration getNetworkUpdatePeriod() { return this.networkUpdatePeriod; } /** * Set the period for updating the Address Book * * @param networkUpdatePeriod the period for updating the Address Book * @return {@code this} */ @SuppressFBWarnings( value = "EI_EXPOSE_REP2", justification = "A Duration can't actually be mutated" ) public synchronized Client setNetworkUpdatePeriod(Duration networkUpdatePeriod) { cancelScheduledNetworkUpdate(); this.networkUpdatePeriod = networkUpdatePeriod; scheduleNetworkUpdate(networkUpdatePeriod); return this; } public Logger getLogger() { return this.logger; } public Client setLogger(Logger logger) { this.logger = logger; return this; } /** * Initiates an orderly shutdown of all channels (to the Hedera network) in which preexisting transactions or * queries continue but more would be immediately cancelled. * *

After this method returns, this client can be re-used. Channels will be re-established as * needed. * * @throws TimeoutException if the mirror network doesn't close in time */ @Override public synchronized void close() throws TimeoutException { close(closeTimeout); } /** * Initiates an orderly shutdown of all channels (to the Hedera network), * without closing the ExecutorService {@link #executor} * * @throws TimeoutException if the network doesn't close in time */ public synchronized void closeChannels() throws TimeoutException { var closeDeadline = Instant.now().plus(closeTimeout); networkUpdatePeriod = null; cancelScheduledNetworkUpdate(); cancelAllSubscriptions(); network.beginClose(); mirrorNetwork.beginClose(); var networkError = network.awaitClose(closeDeadline, null); var mirrorNetworkError = mirrorNetwork.awaitClose(closeDeadline, networkError); if (mirrorNetworkError != null) { if (mirrorNetworkError instanceof TimeoutException ex) { throw ex; } else { throw new RuntimeException(mirrorNetworkError); } } } /** * Initiates an orderly shutdown of all channels (to the Hedera network) in which preexisting transactions or * queries continue but more would be immediately cancelled. * *

After this method returns, this client can be re-used. Channels will be re-established as * needed. * * @param timeout The Duration to be set * @throws TimeoutException if the mirror network doesn't close in time */ public synchronized void close(Duration timeout) throws TimeoutException { var closeDeadline = Instant.now().plus(timeout); networkUpdatePeriod = null; cancelScheduledNetworkUpdate(); cancelAllSubscriptions(); network.beginClose(); mirrorNetwork.beginClose(); var networkError = network.awaitClose(closeDeadline, null); var mirrorNetworkError = mirrorNetwork.awaitClose(closeDeadline, networkError); // https://docs.oracle.com/javase/8/docs/api/java/util/concurrent/ExecutorService.html try { executor.shutdown(); if (!executor.awaitTermination(timeout.getSeconds() / 2, TimeUnit.SECONDS)) { executor.shutdownNow(); if (!executor.awaitTermination(timeout.getSeconds() / 2, TimeUnit.SECONDS)) { logger.warn("Pool did not terminate"); } } } catch (InterruptedException ex) { executor.shutdownNow(); Thread.currentThread().interrupt(); } if (mirrorNetworkError != null) { if (mirrorNetworkError instanceof TimeoutException ex) { throw ex; } else { throw new RuntimeException(mirrorNetworkError); } } } static class Operator { final AccountId accountId; final PublicKey publicKey; final UnaryOperator transactionSigner; Operator(AccountId accountId, PublicKey publicKey, UnaryOperator transactionSigner) { this.accountId = accountId; this.publicKey = publicKey; this.transactionSigner = transactionSigner; } } private static class Config { @Nullable private JsonElement network; @Nullable private JsonElement networkName; @Nullable private ConfigOperator operator; @Nullable private JsonElement mirrorNetwork; private static class ConfigOperator { @Nullable private String accountId; @Nullable private String privateKey; } } }





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