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@tangany/waas-js-sdk

JavaScript SDK for Tangany Wallet as a Service API

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Tangany

Official Javascript SDK for Tangany Wallet as a Service API

Axios based node.js wrapper for Tangany WaaS

NPM version WaaS API version

Getting started

Install the npm package

npm install @tangany/waas-js-sdk

Configure the SDK

const { Waas } = require("@tangany/waas-js-sdk");

// load the environment variables via e.g. dotenv
const dotenv = require("dotenv");
dotenv.config();

// pass the configuration to instantiate the SDK
const api = new Waas({
        clientId: process.env.CLIENT_ID,
        clientSecret: process.env.CLIENT_SECRET,
        subscription: process.env.SUBSCRIPTION,
        vaultUrl: "https://my-vault.some.cloud.tld"
    });

// e.g. fetch all client wallets
(async () => {
   let skiptoken = undefined;

    async function listNextPage () {
        const {data} = await api.wallet().list(skiptoken);
        skiptoken = data.skiptoken;

        return data;
    }

    do {
        const { list } = await listNextPage();
        console.log(list);
    }
    while (!!skiptoken); // fetch until no skiptoken is returned in the response
})();

Constructor options

WaaS configuration headers are passed as options into the constructor.

optiondescriptionmandatory
clientIdService to service authentication client ID
clientSecretService to service authentication client secret
subscriptionProduct subscription key
vaultUrlTangany vault url. Example: https://my-vault.some.cloud.tld
ethereumNetworkPublic Ethereum network to operate in (mainnet, ropsten) or private Ethereum network Custom RPC URL for a private Ethereum network to operate in (example: http://somenetwork.example.org:8540). Defaults to mainnet
ethereumTxSpeedAdditional gas fee that is added to the base gas fee for the given Ethereum network to speed up the mining process of the transaction. The usage of none value may result in the transaction never gets mined and is only intended to use for custom Ethereum networks that employ zero gas price policies. The speed levels correspond with following Ethereum fees (in gwei): none: 0, slow: 2, default: 5, fast: 15. Defaults to default.
bitcoinNetworkPublic Bitcoin network name. Supported networks: bitcoin, testnet. Defaults to bitcoin
bitcoinTxConfirmationsMinimum amount of block confirmations required for Bitcoin balance outputs ("utxo", "coins") to be included in the total wallet balance calculation. The exclusion of unconfirmed outputs prevents the posthumous invalidation of own wallet transaction by the parent utxo sending party. The levels correspond with following target block confirmations amount (# of confirmations): none: 0, default: 1, secure: 6. Defaults to default.
bitcoinTxSpeedDefines the target amount of blocks for the transaction to be included to the Bitcoin network. Faster inclusion requires a higher transaction fee. The fee is calculated in real time based on the network state and can be limited by the header-bitcoin-max-fee-rate option. The effective transaction delay can be calculated by multiplying the target confirmation blocks with the Bitcoin block time of 10 minutes (e.g. slow yields an block inclusion time of approx. 4h). The speed levels correspond with following block times (target blocks): slow: 24, default: 6, fast: 2. Defaults to default
bitcoinMaxFeeRateDefines the maximum allowed fee rate in satoshi per byte for a Bitcoin transaction. Prevents from spending absurdly high transaction fees during block fee peaks

More examples

For more examples check out the tests (e.g. ./test/*.e2e.js)

Wallet interface

Global wallet management https://tangany.docs.stoplight.io/api/wallet/


(async () => {
    const api = new Waas(options);
    // list all wallets
    const { list } = (await api.wallet().list()).data;
    //  create a new wallet
    const { wallet, security } = (await api.wallet().create("some-other-wallet", false)).data;
    //  fetch a wallet
    const { created } = (await api.wallet(wallet).get()).data;
    //  delete a wallet
    const { scheduledPurgeDate, recoveryId } = (await api.wallet(wallet).delete()).data;
})();
General Ethereum interface

Ethereum calls that are not wallet based

(async () => {
    const api = new Waas(options).eth(txHash);
    // get transaction status
    const { blockNr, isError } = (await api.get()).data;
    // poll until the transaction is mined (for max 60 seconds)
    await api.wait(60e3);
})();
Ethereum interface for wallet

Wallet based Ethereum calls https://tangany.docs.stoplight.io/api/ethereum/

(async () => {
    const api = new Waas(options).wallet("my-wallet");
    // send Ether
    const { hash } = (await api.eth().send({to: someOtherWalletAddress, amount: "0.043", data: "0xf03"})).data;
    // get eth balance and wallet address
    const { currency, balance, address } = (await api.eth().get()).data;
})();
Ethereum ERC20 token interface for wallet

Wallet based calls for Ethereum ERC20 token management https://tangany.docs.stoplight.io/api/ethereum-erc20

(async () => {
    const api = new Waas(options).wallet("my-wallet").eth().erc20(tokenAddress);
    // send token
    const { hash } = (await api.send({to: someOtherWalletAddress, amount: "0.043"})).data;
    // get token balance
    const { currency, balance, address } = (await api.get()).data;
     // mint token
    await api.mint({amount: "12.291", to: someOtherWalletAddress}); // assuming myWalletAddress is erc20token's minter
    // approve token withdrawal
    await api.approve({to: someOtherWalletAddress, amount: "213"});
    // withdraw pre-approved tokens
    await new Waas(options).wallet("some-other-wallet").eth().erc20(tokenAddress).transferFrom({from: myWalletAddress, amount: "213"});
    // burn token
    await new Waas(options).wallet("some-other-wallet").eth().erc20(tokenAddress).burn({amount: "2"});
})();
General Bitcoin interface

Bitcoin calls that are not wallet based

(async () => {
    const api = new Waas(options).btc(hash);
    // get transaction status
    const { confirmations, status } = (await api.get()).data;
    // poll every second until the transaction is mined (for max 720 seconds)
    await api.wait(720e3, 1e3);
})();
Bitcoin interface for wallet

Wallet based Bitcoin calls https://tangany.docs.stoplight.io/api/bitcoin/

(async () => {
    const api = new Waas(options).wallet("my-wallet");
    // estimate fee for a transaction
    const { fee, feeRate } = (await api.btc().estimateFee({to: someAddress, amount: "0.021"})).data;
    // send BTC to a single recipient
    const { hash } = (await api.btc().send({to: someAddress, amount: "0.021"})).data;
    // send BTC to multiple recipients
    await api.btc().send([{to: someAddress, amount: "0.324"}, {to: someOtherAddress, amount: "0.021"}]);
    // get BTC balance and wallet address
    const { balance,address,currency } = (await api.btc().get()).data;
})();

Affinity Cookies

WaaS employs its own load-balanced full-node backend to transmit transactions to the blockchains. Due to the nature of blockchain, full nodes sync their states only in the event of a new block. One implication of this behavior is that sending multiple transactions from the same wallet during a time frame of a single block may lead to an overlap of backend memory pool assignments which subsequent may result in transactions being cancelled and discarded from the blockchain.

E.g. two Ethereum transactions sent to different full nodes from the same wallet shortly one after the other may be assigned the same nonce number by two different full nodes in the backend resulting in Ethereum, by specification, cancelling the former of the two transactions.

To prevent such pooling issues, WaaS supports sticky sessions using the affinity cookies.

Although each Waas instance does automatically store its individual affinity cookie after a API call, racing conditions may occur when sending multiple simultaneous transactions from a new instance. To prevent such racing conditions it is advised to pre-establish a sticky session using e.g. await waas.eth().fetchAffinityCookie().

Check out the example implementation in test/limiter.e2e.js where a high amount of non-overlapping Ethereum transactions are transmitted simultaneously via pre-established sticky session.

Changelog

All notable changes to this project are documented in the changelog

Testing

Copy .env.example to .env and enter you WaaS subscription details to be able to run the tests. Use testnet faucets to charge a wallet with some crypto and paste the name to the WALLET variable.

Start the test suite with npm run test:e2e

Debugging

To enable additional logging (e.g. to debug HTTP requests), use following environment variable

DEBUG=waas-js-sdk:*

API documentation

Full API documentation is available at https://tangany.docs.stoplight.io/


Tangany

© 2019 Tangany

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Package last updated on 07 Jan 2020

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