haveno-ts/dist/HavenoClient.js
2024-04-30 16:34:04 -04:00

1396 lines
55 KiB
JavaScript

"use strict";
/*
* Copyright Haveno
*
* 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.
*/
var __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", { value: true });
const console_1 = __importDefault(require("console"));
const HavenoError_1 = __importDefault(require("./types/HavenoError"));
const HavenoUtils_1 = __importDefault(require("./utils/HavenoUtils"));
const TaskLooper_1 = __importDefault(require("./utils/TaskLooper"));
const GrpcServiceClientPb_1 = require("./protobuf/GrpcServiceClientPb");
const grpc_pb_1 = require("./protobuf/grpc_pb");
const pb_pb_1 = require("./protobuf/pb_pb");
/**
* Haveno daemon client.
*/
class HavenoClient {
/**
* Construct a client connected to a Haveno daemon.
*
* @param {string} url - Haveno daemon url
* @param {string} password - Haveno daemon password
*/
constructor(url, password) {
/** @private */ this._processLogging = false;
/** @private */ this._notificationListeners = [];
/** @private */ this._registerNotificationListenerCalled = false;
/** @private */ this._keepAlivePeriodMs = 60000;
/**
* Callback for grpc notifications.
*
* @private
*/
this._onNotification = (data) => {
if (data instanceof grpc_pb_1.NotificationMessage) {
for (const listener of this._notificationListeners)
listener(data);
}
};
if (!url)
throw new HavenoError_1.default("Must provide URL of Haveno daemon");
if (!password)
throw new HavenoError_1.default("Must provide password of Haveno daemon");
HavenoUtils_1.default.log(2, "Creating Haveno client connected to " + url);
this._url = url;
this._password = password;
this._getVersionClient = new GrpcServiceClientPb_1.GetVersionClient(this._url);
this._accountClient = new GrpcServiceClientPb_1.AccountClient(this._url);
this._xmrConnectionsClient = new GrpcServiceClientPb_1.XmrConnectionsClient(this._url);
this._xmrNodeClient = new GrpcServiceClientPb_1.XmrNodeClient(this._url);
this._disputeAgentsClient = new GrpcServiceClientPb_1.DisputeAgentsClient(this._url);
this._disputesClient = new GrpcServiceClientPb_1.DisputesClient(this._url);
this._walletsClient = new GrpcServiceClientPb_1.WalletsClient(this._url);
this._priceClient = new GrpcServiceClientPb_1.PriceClient(this._url);
this._paymentAccountsClient = new GrpcServiceClientPb_1.PaymentAccountsClient(this._url);
this._offersClient = new GrpcServiceClientPb_1.OffersClient(this._url);
this._tradesClient = new GrpcServiceClientPb_1.TradesClient(this._url);
this._notificationsClient = new GrpcServiceClientPb_1.NotificationsClient(this._url);
this._shutdownServerClient = new GrpcServiceClientPb_1.ShutdownServerClient(this._url);
}
/**
* Start a new Haveno process.
*
* @param {string} havenoPath - path to Haveno binaries
* @param {string[]} cmd - command to start the process
* @param {string} url - Haveno daemon url (must proxy to api port)
* @param {boolean} enableLogging - specifies if logging is enabled or disabled at log level 3
* @return {HavenoClient} a client connected to the newly started Haveno process
*/
static async startProcess(havenoPath, cmd, url, enableLogging) {
try {
return await new Promise((resolve, reject) => {
HavenoUtils_1.default.log(2, "Starting Haveno process: " + cmd + " on proxy url: " + url);
// state variables
let output = "";
let isStarted = false;
let daemon = undefined;
// start process
const childProcess = require('child_process').spawn(cmd[0], cmd.slice(1), { cwd: havenoPath });
childProcess.stdout.setEncoding('utf8');
childProcess.stderr.setEncoding('utf8');
// handle stdout
childProcess.stdout.on('data', async function (data) {
const line = data.toString();
if (loggingEnabled())
process.stdout.write(line);
output += line + '\n'; // capture output in case of error
// initialize daemon on success or login required message
if (!daemon && (line.indexOf(HavenoClient._fullyInitializedMessage) >= 0 || line.indexOf(HavenoClient._loginRequiredMessage) >= 0)) {
// get api password
const passwordIdx = cmd.indexOf("--apiPassword");
if (passwordIdx < 0) {
reject("Must provide API password to start Haveno daemon");
return;
}
const password = cmd[passwordIdx + 1];
// create client connected to internal process
daemon = new HavenoClient(url, password);
daemon._process = childProcess;
daemon._processLogging = enableLogging;
daemon._appName = cmd[cmd.indexOf("--appName") + 1];
// get wallet rpc port
const walletRpcPortIdx = cmd.indexOf("--walletRpcBindPort");
if (walletRpcPortIdx >= 0)
daemon._walletRpcPort = parseInt(cmd[walletRpcPortIdx + 1]);
// resolve promise with client connected to internal process
isStarted = true;
resolve(daemon);
}
// read error message
if (line.indexOf("[HavenoDaemonMain] ERROR") >= 0) {
if (!isStarted)
await rejectStartup(new Error(line));
}
});
// handle stderr
childProcess.stderr.on('data', function (data) {
if (loggingEnabled())
process.stderr.write(data);
});
// handle exit
childProcess.on("exit", async function (code) {
if (!isStarted)
await rejectStartup(new Error("Haveno process terminated with exit code " + code + (output ? ":\n\n" + output : "")));
});
// handle error
childProcess.on("error", async function (err) {
if (err.message.indexOf("ENOENT") >= 0)
reject(new Error("haveno-daemon does not exist at path '" + cmd[0] + "'"));
if (!isStarted)
await rejectStartup(err);
});
// handle uncaught exception
childProcess.on("uncaughtException", async function (err, origin) {
console_1.default.error("Uncaught exception in Haveno process: " + err.message);
console_1.default.error(origin);
await rejectStartup(err);
});
async function rejectStartup(err) {
await HavenoUtils_1.default.kill(childProcess);
reject(err);
}
function loggingEnabled() {
return (daemon && daemon._processLogging) || (!daemon && enableLogging);
}
});
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Return the process running the haveno daemon.
*
* @return the process running the haveno daemon
*/
getProcess() {
return this._process;
}
/**
* Enable or disable process logging.
*
* @param {boolean} enabled - specifies if logging is enabled or disabled
*/
setProcessLogging(enabled) {
if (this._process === undefined)
throw new HavenoError_1.default("haveno instance not created from new process");
this._processLogging = enabled;
}
/**
* Get the URL of the Haveno daemon.
*
* @return {string} the URL of the Haveno daemon
*/
getUrl() {
return this._url;
}
/**
* Get the port of the primary wallet rpc instance if known.
*
* @return {number|undefined} the port of the primary wallet rpc instance if known
*/
getWalletRpcPort() {
return this._walletRpcPort;
}
/**
* Get the name of the Haveno application folder.
*/
getAppName() {
return this._appName;
}
/**
* Get the Haveno version.
*
* @return {string} the Haveno daemon version
*/
async getVersion() {
try {
return (await this._getVersionClient.getVersion(new grpc_pb_1.GetVersionRequest(), { password: this._password })).getVersion();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Indicates if connected and authenticated with the Haveno daemon.
*
* @return {boolean} true if connected with the Haveno daemon, false otherwise
*/
async isConnectedToDaemon() {
try {
await this.getVersion();
return true;
}
catch (err) {
return false;
}
}
/**
* Indicates if the Haveno account is created.
*
* @return {boolean} true if the account is created, false otherwise
*/
async accountExists() {
try {
return (await this._accountClient.accountExists(new grpc_pb_1.AccountExistsRequest(), { password: this._password })).getAccountExists();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Indicates if the Haveno account is open and authenticated with the correct password.
*
* @return {boolean} true if the account is open and authenticated, false otherwise
*/
async isAccountOpen() {
try {
return (await this._accountClient.isAccountOpen(new grpc_pb_1.IsAccountOpenRequest(), { password: this._password })).getIsAccountOpen();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Create and open a new Haveno account.
*
* @param {string} password - the password to encrypt the account
*/
async createAccount(password) {
try {
await this._accountClient.createAccount(new grpc_pb_1.CreateAccountRequest().setPassword(password), { password: this._password });
await this._awaitAppInitialized(); // TODO: grpc should not return before setup is complete
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Open existing Haveno account.
*
* @param {string} password - the account password
*/
async openAccount(password) {
try {
await this._accountClient.openAccount(new grpc_pb_1.OpenAccountRequest().setPassword(password), { password: this._password });
return this._awaitAppInitialized(); // TODO: grpc should not return before setup is complete
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Change the Haveno account password.
*
* @param {string} password - the new account password
*/
async changePassword(oldPassword, newPassword) {
try {
const request = new grpc_pb_1.ChangePasswordRequest()
.setOldPassword(oldPassword)
.setNewPassword(newPassword);
await this._accountClient.changePassword(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Close the currently open account.
*/
async closeAccount() {
try {
await this._accountClient.closeAccount(new grpc_pb_1.CloseAccountRequest(), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Permanently delete the Haveno account.
*/
async deleteAccount() {
try {
await this._accountClient.deleteAccount(new grpc_pb_1.DeleteAccountRequest(), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Backup the account to the given stream. TODO: stream type?
*/
async backupAccount(stream) {
try {
return await new Promise((resolve, reject) => {
let total = 0;
const response = this._accountClient.backupAccount(new grpc_pb_1.BackupAccountRequest(), { password: this._password });
response.on('data', (chunk) => {
const bytes = chunk.getZipBytes(); // TODO: right api?
total += bytes.length;
stream.write(bytes);
});
response.on('error', function (err) {
if (err)
reject(err);
});
response.on('end', function () {
resolve(total);
});
});
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Restore the account from zip bytes.
*
* Sends chunked requests if size over max grpc envelope size (41943404 bytes).
*
* @param {Uint8Array} zipBytes - the bytes of the zipped account to restore
*/
async restoreAccount(zipBytes) {
if (zipBytes.length === 0)
throw new HavenoError_1.default("Zip bytes must not be empty");
const totalLength = zipBytes.byteLength;
let offset = 0;
let chunkSize = 4000000; // the max frame size is 4194304 but leave room for http headers
let hasMore = true;
// eslint-disable-next-line no-constant-condition
while (true) {
if (zipBytes.byteLength <= offset + 1)
return;
if (zipBytes.byteLength <= offset + chunkSize) {
chunkSize = zipBytes.byteLength - offset - 1;
hasMore = false;
}
const subArray = zipBytes.subarray(offset, offset + chunkSize);
await this._restoreAccountChunk(subArray, offset, totalLength, hasMore);
offset += chunkSize;
}
}
/**
* Add a listener to receive notifications from the Haveno daemon.
*
* @param {(notification: NotificationMessage) => void} listener - the notification listener to add
*/
async addNotificationListener(listener) {
this._notificationListeners.push(listener);
await this._updateNotificationListenerRegistration();
}
/**
* Remove a notification listener.
*
* @param {(notification: NotificationMessage) => void} listener - the notification listener to remove
*/
async removeNotificationListener(listener) {
const idx = this._notificationListeners.indexOf(listener);
if (idx > -1)
this._notificationListeners.splice(idx, 1);
else
throw new HavenoError_1.default("Notification listener is not registered");
await this._updateNotificationListenerRegistration();
}
/**
* Indicates if connected to the Monero network based on last connection check.
*
* @return {boolean} true if connected to the Monero network, false otherwise
*/
async isConnectedToMonero() {
const connection = await this.getMoneroConnection();
return connection !== undefined &&
connection.getOnlineStatus() === grpc_pb_1.UrlConnection.OnlineStatus.ONLINE &&
connection.getAuthenticationStatus() !== grpc_pb_1.UrlConnection.AuthenticationStatus.NOT_AUTHENTICATED;
}
/**
* Add a Monero daemon connection.
*
* @param {string | UrlConnection} connection - daemon url or connection to add
*/
async addMoneroConnection(connection) {
try {
await this._xmrConnectionsClient.addConnection(new grpc_pb_1.AddConnectionRequest().setConnection(typeof connection === "string" ? new grpc_pb_1.UrlConnection().setUrl(connection) : connection), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Remove a Monero daemon connection.
*
* @param {string} url - url of the daemon connection to remove
*/
async removeMoneroConnection(url) {
try {
await this._xmrConnectionsClient.removeConnection(new grpc_pb_1.RemoveConnectionRequest().setUrl(url), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get the current Monero daemon connection.
*
* @return {UrlConnection | undefined} the current daemon connection, undefined if no current connection
*/
async getMoneroConnection() {
try {
return await (await this._xmrConnectionsClient.getConnection(new grpc_pb_1.GetConnectionRequest(), { password: this._password })).getConnection();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get all Monero daemon connections.
*
* @return {UrlConnection[]} all daemon connections
*/
async getMoneroConnections() {
try {
return (await this._xmrConnectionsClient.getConnections(new grpc_pb_1.GetConnectionsRequest(), { password: this._password })).getConnectionsList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Set the current Monero daemon connection.
*
* Add the connection if not previously seen.
* If the connection is provided as string, connect to the URI with any previously set credentials and priority.
* If the connection is provided as UrlConnection, overwrite any previously set credentials and priority.
* If undefined connection provided, disconnect the client.
*
* @param {string | UrlConnection} connection - connection to set as current
*/
async setMoneroConnection(connection) {
const request = new grpc_pb_1.SetConnectionRequest();
if (typeof connection === "string")
request.setUrl(connection);
else
request.setConnection(connection);
try {
await this._xmrConnectionsClient.setConnection(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Check the current Monero daemon connection.
*
* If disconnected and auto switch enabled, switch to the best available connection and return its status.
*
* @return {UrlConnection | undefined} the current daemon connection status, undefined if no current connection
*/
async checkMoneroConnection() {
try {
return (await this._xmrConnectionsClient.checkConnection(new grpc_pb_1.CheckConnectionRequest(), { password: this._password })).getConnection();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Check all Monero daemon connections.
*
* @return {UrlConnection[]} status of all managed connections.
*/
async checkMoneroConnections() {
try {
return (await this._xmrConnectionsClient.checkConnections(new grpc_pb_1.CheckConnectionsRequest(), { password: this._password })).getConnectionsList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Check the connection and start checking the connection periodically.
*
* @param {number} refreshPeriod - time between checks in milliseconds (default 15000 ms or 15 seconds)
*/
async startCheckingConnection(refreshPeriod) {
try {
await this._xmrConnectionsClient.startCheckingConnection(new grpc_pb_1.StartCheckingConnectionRequest().setRefreshPeriod(refreshPeriod), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Stop checking the connection status periodically.
*/
async stopCheckingConnection() {
try {
await this._xmrConnectionsClient.stopCheckingConnection(new grpc_pb_1.StopCheckingConnectionRequest(), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get the best available connection in order of priority then response time.
*
* @return {UrlConnection | undefined} the best available connection in order of priority then response time, undefined if no connections available
*/
async getBestAvailableConnection() {
try {
return (await this._xmrConnectionsClient.getBestAvailableConnection(new grpc_pb_1.GetBestAvailableConnectionRequest(), { password: this._password })).getConnection();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Automatically switch to the best available connection if current connection is disconnected after being checked.
*
* @param {boolean} autoSwitch - whether auto switch is enabled or disabled
*/
async setAutoSwitch(autoSwitch) {
try {
await this._xmrConnectionsClient.setAutoSwitch(new grpc_pb_1.SetAutoSwitchRequest().setAutoSwitch(autoSwitch), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Returns whether daemon is running a local monero node.
*/
async isMoneroNodeOnline() {
try {
return (await this._xmrNodeClient.isXmrNodeOnline(new grpc_pb_1.IsXmrNodeOnlineRequest(), { password: this._password })).getIsRunning();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Gets the current local monero node settings.
*/
async getMoneroNodeSettings() {
try {
const request = new grpc_pb_1.GetXmrNodeSettingsRequest();
return (await this._xmrNodeClient.getXmrNodeSettings(request, { password: this._password })).getSettings();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Starts the local monero node.
*
* @param {MoneroNodeSettings} settings - the settings to start the local node with
*/
async startMoneroNode(settings) {
try {
const request = new grpc_pb_1.StartXmrNodeRequest().setSettings(settings);
await this._xmrNodeClient.startXmrNode(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Stops the local monero node.
*/
async stopMoneroNode() {
try {
await this._xmrNodeClient.stopXmrNode(new grpc_pb_1.StopXmrNodeRequest(), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Register as a dispute agent.
*
* @param {string} disputeAgentType - type of dispute agent to register, e.g. mediator, refundagent
* @param {string} registrationKey - registration key
*/
async registerDisputeAgent(disputeAgentType, registrationKey) {
try {
const request = new grpc_pb_1.RegisterDisputeAgentRequest()
.setDisputeAgentType(disputeAgentType)
.setRegistrationKey(registrationKey);
await this._disputeAgentsClient.registerDisputeAgent(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Unregister as a dispute agent.
*
* @param {string} disputeAgentType - type of dispute agent to register, e.g. mediator, refundagent
*/
async unregisterDisputeAgent(disputeAgentType) {
try {
await this._disputeAgentsClient.unregisterDisputeAgent(new grpc_pb_1.UnregisterDisputeAgentRequest().setDisputeAgentType(disputeAgentType), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get the user's balances.
*
* @return {XmrBalanceInfo} the user's balances
*/
async getBalances() {
try {
return (await this._walletsClient.getBalances(new grpc_pb_1.GetBalancesRequest().setCurrencyCode("XMR"), { password: this._password })).getBalances().getXmr();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get the mnemonic seed phrase of the Monero wallet.
*
* @return {string} the mnemonic seed phrase of the Monero wallet
*/
async getXmrSeed() {
try {
return (await this._walletsClient.getXmrSeed(new grpc_pb_1.GetXmrSeedRequest(), { password: this._password })).getSeed();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get the primary address of the Monero wallet.
*
* @return {string} the primary address of the Monero wallet
*/
async getXmrPrimaryAddress() {
try {
return (await this._walletsClient.getXmrPrimaryAddress(new grpc_pb_1.GetXmrPrimaryAddressRequest(), { password: this._password })).getPrimaryAddress();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get a new subaddress in the Monero wallet to receive deposits.
*
* @return {string} the deposit address (a subaddress in the Haveno wallet)
*/
async getXmrNewSubaddress() {
try {
return (await this._walletsClient.getXmrNewSubaddress(new grpc_pb_1.GetXmrNewSubaddressRequest(), { password: this._password })).getSubaddress();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get all transactions in the Monero wallet.
*
* @return {XmrTx[]} the transactions
*/
async getXmrTxs() {
try {
return (await this._walletsClient.getXmrTxs(new grpc_pb_1.GetXmrTxsRequest(), { password: this._password })).getTxsList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get a transaction by hash in the Monero wallet.
*
* @param {String} txHash - hash of the transaction to get
* @return {XmrTx} the transaction with the hash
*/
async getXmrTx(txHash) {
const txs = await this.getXmrTxs(); // TODO (woodser): implement getXmrTx(hash) grpc call
for (const tx of txs) {
if (tx.getHash() === txHash)
return tx;
}
return undefined;
}
/**
* Create but do not relay a transaction to send funds from the Monero wallet.
*
* @return {XmrTx} the created transaction
*/
async createXmrTx(destinations) {
try {
return (await this._walletsClient.createXmrTx(new grpc_pb_1.CreateXmrTxRequest().setDestinationsList(destinations), { password: this._password })).getTx();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Relay a previously created transaction to send funds from the Monero wallet.
*
* @return {string} the hash of the relayed transaction
*/
async relayXmrTx(metadata) {
try {
return (await this._walletsClient.relayXmrTx(new grpc_pb_1.RelayXmrTxRequest().setMetadata(metadata), { password: this._password })).getHash();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get all asset codes with price information.
*
* TODO: replace this with getSupportedAssetCodes(): Promise<TradeCurrency[]>)
*
* @return {Promise<string[]>} all supported trade assets
*/
async getPricedAssetCodes() {
const assetCodes = [];
for (const price of await this.getPrices())
assetCodes.push(price.getCurrencyCode());
return assetCodes;
}
/**
* Get the current market price per 1 XMR in the given currency.
*
* @param {string} assetCode - asset code to get the price of
* @return {number} the price of the asset per 1 XMR
*/
async getPrice(assetCode) {
try {
return (await this._priceClient.getMarketPrice(new grpc_pb_1.MarketPriceRequest().setCurrencyCode(assetCode), { password: this._password })).getPrice();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get the current market prices of all a.
*
* @return {MarketPrice[]} prices of the assets per 1 XMR
*/
async getPrices() {
try {
return (await this._priceClient.getMarketPrices(new grpc_pb_1.MarketPricesRequest(), { password: this._password })).getMarketPriceList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get the market depth of a currency.
*
* @param {string} assetCode - asset to get the market depth of
* @return {MarketDepthInfo} market depth of the given currency
*/
async getMarketDepth(assetCode) {
try {
return (await this._priceClient.getMarketDepth(new grpc_pb_1.MarketDepthRequest().setCurrencyCode(assetCode), { password: this._password })).getMarketDepth();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get payment methods.
*
* @param {string} assetCode - get payment methods supporting this asset code (optional)
* @return {PaymentMethod[]} the payment methods
*/
async getPaymentMethods(assetCode) {
try {
if (!this._paymentMethods) {
this._paymentMethods = (await this._paymentAccountsClient.getPaymentMethods(new grpc_pb_1.GetPaymentMethodsRequest(), { password: this._password })).getPaymentMethodsList();
}
if (!assetCode)
return this._paymentMethods;
const assetPaymentMethods = [];
for (const paymentMethod of this._paymentMethods) {
if (paymentMethod.getSupportedAssetCodesList().includes(assetCode))
assetPaymentMethods.push(paymentMethod);
}
return assetPaymentMethods;
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get payment accounts.
*
* @return {PaymentAccount[]} the payment accounts
*/
async getPaymentAccounts() {
try {
return (await this._paymentAccountsClient.getPaymentAccounts(new grpc_pb_1.GetPaymentAccountsRequest(), { password: this._password })).getPaymentAccountsList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get a payment account by id.
*
* @param {string} paymentAccountId - the payment account id to get
* @return {PaymentAccount} the payment account
*/
async getPaymentAccount(paymentAccountId) {
// TODO (woodser): implement this on the backend
const paymentAccounts = await this.getPaymentAccounts();
for (const paymentAccount of paymentAccounts) {
if (paymentAccount.getId() === paymentAccountId)
return paymentAccount;
}
throw new HavenoError_1.default("No payment account with id " + paymentAccountId);
}
/**
* Get a form for the given payment method to complete and create a new payment account.
*
* @param {string | PaymentAccountForm.FormId} paymentMethodId - the id of the payment method
* @return {PaymentAccountForm} the payment account form
*/
async getPaymentAccountForm(paymentMethodId) {
try {
paymentMethodId = HavenoUtils_1.default.getPaymentMethodId(paymentMethodId); // validate and normalize
return (await this._paymentAccountsClient.getPaymentAccountForm(new grpc_pb_1.GetPaymentAccountFormRequest().setPaymentMethodId(paymentMethodId), { password: this._password })).getPaymentAccountForm();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get a form from the given payment account payload.
*
* @param {PaymentAccountPayload} paymentAccountPayload - payload to get as a form
* @return {PaymentAccountForm} the payment account form
*/
async getPaymentAccountPayloadForm(paymentAccountPayload) {
try {
return (await this._paymentAccountsClient.getPaymentAccountForm(new grpc_pb_1.GetPaymentAccountFormRequest().setPaymentAccountPayload(paymentAccountPayload), { password: this._password })).getPaymentAccountForm();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/*
* Validate a form field.
*
* @param {object} form - form context to validate the given value
* @param {PaymentAccountFormField.FieldId} fieldId - id of the field to validate
* @param {string} value - input value to validate
*/
async validateFormField(form, fieldId, value) {
const request = new grpc_pb_1.ValidateFormFieldRequest()
.setForm(form)
.setFieldId(fieldId)
.setValue(value);
try {
await this._paymentAccountsClient.validateFormField(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Create a payment account.
*
* @param {PaymentAccountForm} paymentAccountForm - the completed form to create the payment account
* @return {PaymentAccount} the created payment account
*/
async createPaymentAccount(paymentAccountForm) {
try {
return (await this._paymentAccountsClient.createPaymentAccount(new grpc_pb_1.CreatePaymentAccountRequest().setPaymentAccountForm(paymentAccountForm), { password: this._password })).getPaymentAccount();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Create a crypto payment account.
*
* @param {string} accountName - description of the account
* @param {string} assetCode - traded asset code
* @param {string} address - payment address of the account
* @return {PaymentAccount} the created payment account
*/
async createCryptoPaymentAccount(accountName, assetCode, address) {
try {
const request = new grpc_pb_1.CreateCryptoCurrencyPaymentAccountRequest()
.setAccountName(accountName)
.setCurrencyCode(assetCode)
.setAddress(address)
.setTradeInstant(false); // not using instant trades
return (await this._paymentAccountsClient.createCryptoCurrencyPaymentAccount(request, { password: this._password })).getPaymentAccount();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get available offers to buy or sell XMR.
*
* @param {string} assetCode - traded asset code
* @param {OfferDirection|undefined} direction - "buy" or "sell" (default all)
* @return {OfferInfo[]} the available offers
*/
async getOffers(assetCode, direction) {
try {
if (direction === undefined)
return (await this.getOffers(assetCode, pb_pb_1.OfferDirection.BUY)).concat(await this.getOffers(assetCode, pb_pb_1.OfferDirection.SELL)); // TODO: implement in backend
return (await this._offersClient.getOffers(new grpc_pb_1.GetOffersRequest().setDirection(direction === pb_pb_1.OfferDirection.BUY ? "buy" : "sell").setCurrencyCode(assetCode), { password: this._password })).getOffersList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get the user's posted offers to buy or sell XMR.
*
* @param {string|undefined} assetCode - traded asset code
* @param {OfferDirection|undefined} direction - get offers to buy or sell XMR (default all)
* @return {OfferInfo[]} the user's created offers
*/
async getMyOffers(assetCode, direction) {
try {
const req = new grpc_pb_1.GetOffersRequest();
if (assetCode)
req.setCurrencyCode(assetCode);
if (direction !== undefined)
req.setDirection(direction === pb_pb_1.OfferDirection.BUY ? "buy" : "sell"); // TODO: request should use OfferDirection too?
return (await this._offersClient.getMyOffers(req, { password: this._password })).getOffersList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get my offer by id.
*
* @param {string} offerId - id of the user's created offer
* @return {OfferInfo} the user's created offer
*/
async getMyOffer(offerId) {
try {
return (await this._offersClient.getMyOffer(new grpc_pb_1.GetMyOfferRequest().setId(offerId), { password: this._password })).getOffer();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Post an offer.
*
* @param {OfferDirection} direction - "buy" or "sell" XMR
* @param {bigint} amount - amount of XMR to trade
* @param {string} assetCode - asset code to trade for XMR
* @param {string} paymentAccountId - payment account id
* @param {number} securityDepositPct - security deposit as % of trade amount for buyer and seller
* @param {number} price - trade price (optional, default to market price)
* @param {number} marketPriceMarginPct - if using market price, % from market price to accept (optional, default 0%)
* @param {number} triggerPrice - price to remove offer (optional)
* @param {bigint} minAmount - minimum amount to trade (optional, default to fixed amount)
* @param {number} reserveExactAmount - reserve exact amount needed for offer, incurring on-chain transaction and 10 confirmations before the offer goes live (default = false)
* @return {OfferInfo} the posted offer
*/
async postOffer(direction, amount, assetCode, paymentAccountId, securityDepositPct, price, marketPriceMarginPct, triggerPrice, minAmount, reserveExactAmount) {
console_1.default.log("Posting offer with security deposit %: " + securityDepositPct);
try {
const request = new grpc_pb_1.PostOfferRequest()
.setDirection(direction === pb_pb_1.OfferDirection.BUY ? "buy" : "sell")
.setAmount(amount.toString())
.setCurrencyCode(assetCode)
.setPaymentAccountId(paymentAccountId)
.setBuyerSecurityDepositPct(securityDepositPct)
.setUseMarketBasedPrice(price === undefined)
.setMinAmount(minAmount ? minAmount.toString() : amount.toString());
if (price)
request.setPrice(price.toString());
if (marketPriceMarginPct)
request.setMarketPriceMarginPct(marketPriceMarginPct);
if (triggerPrice)
request.setTriggerPrice(triggerPrice.toString());
if (reserveExactAmount)
request.setReserveExactAmount(reserveExactAmount);
return (await this._offersClient.postOffer(request, { password: this._password })).getOffer();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Remove a posted offer, releasing its reserved funds.
*
* @param {string} offerId - the offer id to cancel
*/
async removeOffer(offerId) {
try {
await this._offersClient.cancelOffer(new grpc_pb_1.CancelOfferRequest().setId(offerId), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Take an offer.
*
* @param {string} offerId - id of the offer to take
* @param {string} paymentAccountId - id of the payment account
* @param {bigint|undefined} amount - amount the taker chooses to buy or sell within the offer range (default is max offer amount)
* @return {TradeInfo} the initialized trade
*/
async takeOffer(offerId, paymentAccountId, amount) {
try {
const request = new grpc_pb_1.TakeOfferRequest()
.setOfferId(offerId)
.setPaymentAccountId(paymentAccountId);
if (amount)
request.setAmount(amount.toString());
const resp = await this._tradesClient.takeOffer(request, { password: this._password });
if (resp.getTrade())
return resp.getTrade();
throw new HavenoError_1.default(resp.getFailureReason()?.getDescription(), resp.getFailureReason()?.getAvailabilityResult());
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get a trade by id.
*
* @param {string} tradeId - the id of the trade and its offer
* @return {TradeInfo} the trade with the given id
*/
async getTrade(tradeId) {
try {
return (await this._tradesClient.getTrade(new grpc_pb_1.GetTradeRequest().setTradeId(tradeId), { password: this._password })).getTrade();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get all trades.
*
* @return {TradeInfo[]} all user trades
*/
async getTrades() {
try {
return (await this._tradesClient.getTrades(new grpc_pb_1.GetTradesRequest(), { password: this._password })).getTradesList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Confirm a payment is sent.
*
* @param {string} tradeId - the id of the trade
*/
async confirmPaymentSent(tradeId) {
try {
await this._tradesClient.confirmPaymentSent(new grpc_pb_1.ConfirmPaymentSentRequest().setTradeId(tradeId), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Confirm a payment is received.
*
* @param {string} tradeId - the id of the trade
*/
async confirmPaymentReceived(tradeId) {
try {
await this._tradesClient.confirmPaymentReceived(new grpc_pb_1.ConfirmPaymentReceivedRequest().setTradeId(tradeId), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Acknowledge that a trade has completed.
*
* @param {string} tradeId - the id of the trade
*/
async completeTrade(tradeId) {
try {
await this._tradesClient.completeTrade(new grpc_pb_1.CompleteTradeRequest().setTradeId(tradeId), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get all chat messages for a trade.
*
* @param {string} tradeId - the id of the trade
*/
async getChatMessages(tradeId) {
try {
const request = new grpc_pb_1.GetChatMessagesRequest().setTradeId(tradeId);
return (await this._tradesClient.getChatMessages(request, { password: this._password })).getMessageList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Send a trade chat message.
*
* @param {string} tradeId - the id of the trade
* @param {string} message - the message
*/
async sendChatMessage(tradeId, message) {
try {
const request = new grpc_pb_1.SendChatMessageRequest()
.setTradeId(tradeId)
.setMessage(message);
await this._tradesClient.sendChatMessage(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get a dispute by trade id.
*
* @param {string} tradeId - the id of the trade
*/
async getDispute(tradeId) {
try {
return (await this._disputesClient.getDispute(new grpc_pb_1.GetDisputeRequest().setTradeId(tradeId), { password: this._password })).getDispute();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Get all disputes.
*/
async getDisputes() {
try {
return (await this._disputesClient.getDisputes(new grpc_pb_1.GetDisputesRequest(), { password: this._password })).getDisputesList();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Open a dispute for a trade.
*
* @param {string} tradeId - the id of the trade
*/
async openDispute(tradeId) {
try {
await this._disputesClient.openDispute(new grpc_pb_1.OpenDisputeRequest().setTradeId(tradeId), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Resolve a dispute. By default, the winner receives the trade amount and the security deposits are returned,
* but the arbitrator may award a custom amount to the winner and the loser will get the rest.
*
* @param {string} tradeId - the id of the trade
* @param {DisputeResult.Winner} winner - the winner of the dispute
* @param {DisputeResult.Reason} reason - the reason for the dispute
* @param {string} summaryNotes - summary of the dispute
* @param {bigint} customWinnerAmount - custom amount to award the winner (optional)
*/
async resolveDispute(tradeId, winner, reason, summaryNotes, customWinnerAmount) {
try {
const request = new grpc_pb_1.ResolveDisputeRequest()
.setTradeId(tradeId)
.setWinner(winner)
.setReason(reason)
.setSummaryNotes(summaryNotes)
.setCustomPayoutAmount(customWinnerAmount ? customWinnerAmount.toString() : "0");
await this._disputesClient.resolveDispute(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Send a dispute chat message.
*
* @param {string} disputeId - the id of the dispute
* @param {string} message - the message
* @param {Attachment[]} attachments - attachments
*/
async sendDisputeChatMessage(disputeId, message, attachments) {
try {
const request = new grpc_pb_1.SendDisputeChatMessageRequest()
.setDisputeId(disputeId)
.setMessage(message)
.setAttachmentsList(attachments);
await this._disputesClient.sendDisputeChatMessage(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Disconnect this client from the server.
*/
async disconnect() {
while (this._notificationListeners.length)
await this.removeNotificationListener(this._notificationListeners[0]);
}
/**
* Shutdown the Haveno daemon server and stop the process if applicable.
*/
async shutdownServer() {
try {
await this.disconnect();
await this._shutdownServerClient.stop(new grpc_pb_1.StopRequest(), { password: this._password }); // process receives 'exit' event
if (this._process)
return HavenoUtils_1.default.kill(this._process);
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
// ------------------------------- HELPERS ----------------------------------
/**
* Wait for the application to be fully initialized with an account and a
* connection to the Haveno network.
*
* TODO:
*
* Currently when the application starts, the account is first initialized with createAccount()
* or openAccount() which return immediately. A notification is sent after all setup is complete and
* the application is connected to the Haveno network.
*
* Ideally when the application starts, the system checks the Haveno network connection, supporting
* havenod.isHavenoConnectionInitialized() and havenod.awaitHavenoConnectionInitialized().
* Independently, gRPC createAccount() and openAccount() return after all account setup and reading from disk.
*
* @private
*/
async _awaitAppInitialized() {
try {
// eslint-disable-next-line no-async-promise-executor
await new Promise(async (resolve) => {
let isResolved = false;
const resolveOnce = async () => {
if (isResolved)
return;
isResolved = true;
await this.removeNotificationListener(listener);
resolve();
};
const listener = async function (notification) {
if (notification.getType() === grpc_pb_1.NotificationMessage.NotificationType.APP_INITIALIZED)
await resolveOnce();
};
await this.addNotificationListener(listener);
if (await this._isAppInitialized())
await resolveOnce();
});
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/** @private */
async _isAppInitialized() {
try {
return (await this._accountClient.isAppInitialized(new grpc_pb_1.IsAppInitializedRequest(), { password: this._password })).getIsAppInitialized();
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Update notification listener registration.
* Due to the nature of grpc streaming, this method returns a promise
* which may be resolved before the listener is actually registered.
*
* @private
*/
async _updateNotificationListenerRegistration() {
try {
const listening = this._notificationListeners.length > 0;
if ((listening && this._notificationStream) || (!listening && !this._notificationStream))
return; // no difference
if (listening) {
// send request to register client listener
this._notificationStream = this._notificationsClient.registerNotificationListener(new grpc_pb_1.RegisterNotificationListenerRequest(), { password: this._password })
.on('data', this._onNotification);
// periodically send keep alive requests // TODO (woodser): better way to keep notification stream alive?
let firstRequest = true;
this._keepAliveLooper = new TaskLooper_1.default(async () => {
if (firstRequest) {
firstRequest = false;
return;
}
try {
await this._sendNotification(new grpc_pb_1.NotificationMessage()
.setType(grpc_pb_1.NotificationMessage.NotificationType.KEEP_ALIVE)
.setTimestamp(Date.now()));
}
catch (err) {
HavenoUtils_1.default.log(0, "Error sending keep alive request to Haveno daemon " + this.getUrl() + ": " + err.message);
}
});
this._keepAliveLooper.start(this._keepAlivePeriodMs);
await HavenoUtils_1.default.waitFor(1000); // TODO: call returns before listener registered
}
else {
this._notificationStream.removeListener('data', this._onNotification);
this._keepAliveLooper.stop();
this._notificationStream.cancel();
this._notificationStream = undefined;
}
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Send a notification.
*
* @private
* @param {NotificationMessage} notification - notification to send
*/
async _sendNotification(notification) {
try {
await this._notificationsClient.sendNotification(new grpc_pb_1.SendNotificationRequest().setNotification(notification), { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
/**
* Restore an account chunk from zip bytes.
*
* @private
*/
async _restoreAccountChunk(zipBytes, offset, totalLength, hasMore) {
try {
const request = new grpc_pb_1.RestoreAccountRequest()
.setZipBytes(zipBytes)
.setOffset(offset)
.setTotalLength(totalLength)
.setHasMore(hasMore);
await this._accountClient.restoreAccount(request, { password: this._password });
}
catch (e) {
throw new HavenoError_1.default(e.message, e.code);
}
}
}
exports.default = HavenoClient;
// constants
/** @private */ HavenoClient._fullyInitializedMessage = "Application fully initialized";
/** @private */ HavenoClient._loginRequiredMessage = "Interactive login required";
//# sourceMappingURL=HavenoClient.js.map