Waves Platform core features and Waves API library for both Node.js and browser.
The latest and most actual version of this documentation is hosted on GitHub.
npm install @waves/waves-api --save
In Node.js:
const WavesAPI = require('@waves/waves-api');
In browser:
<script src="./node_modules/@waves/waves-api/dist/waves-api.min.js"></script>
You can use @waves/waves-api
even within Web Workers.
const Waves = WavesAPI.create(WavesAPI.TESTNET_CONFIG);
You can create a new random seed:
const seed = Waves.Seed.create();
console.log(seed.phrase); // 'hole law front bottom then mobile fabric under horse drink other member work twenty boss'
console.log(seed.address); // '3Mr5af3Y7r7gQej3tRtugYbKaPr5qYps2ei'
console.log(seed.keyPair); // { privateKey: 'HkFCbtBHX1ZUF42aNE4av52JvdDPWth2jbP88HPTDyp4', publicKey: 'AF9HLq2Rsv2fVfLPtsWxT7Y3S9ZTv6Mw4ZTp8K8LNdEp' }
That seed may be encrypted with a password:
const password = '0123456789';
const encrypted = seed.encrypt(password);
console.log(encrypted); // 'U2FsdGVkX1+5TpaxcK/eJyjht7bSpjLYlSU8gVXNapU3MG8xgWm3uavW37aPz/KTcROK7OjOA3dpCLXfZ4YjCV3OW2r1CCaUhOMPBCX64QA/iAlgPJNtfMvjLKTHZko/JDgrxBHgQkz76apORWdKEQ=='
And decrypted (with the same password, of course):
const restoredPhrase = Waves.Seed.decryptSeedPhrase(encrypted, password);
console.log(restoredPhrase); // 'hole law front bottom then mobile fabric under horse drink other member work twenty boss'
Being called with a wrong password Waves.Seed.decryptSeedPhrase()
throws an exception.
You also can create a Seed
object from an existing seed:
const anotherSeed = Waves.Seed.fromExistingPhrase('a seed which was backed up some time ago');
console.log(seed.phrase); // 'a seed which was backed up some time ago'
console.log(seed.address); // '3N3dy1P8Dccup5WnYsrC6VmaGHF6wMxdLn4'
console.log(seed.keyPair); // { privateKey: '2gSboTPsiQfi1i3zNtFppVJVgjoCA9P4HE9K95y8yCMm', publicKey: 'CFr94paUnDSTRk8jz6Ep3bzhXb9LKarNmLYXW6gqw6Y3' }
Right now only the first version of Node API is available. If you want to contribute to the new versions of Waves API please see the section below.
You will need a pair of keys from an account with a balance to send transactions:
const seed = Waves.Seed.fromExistingPhrase('a seed from an account with some funds');
const issueData = {
name: 'Your token name',
description: 'Some words about it',
// With given options you'll have 100000.00000 tokens
quantity: 10000000000,
precision: 5,
// This flag defines whether additional emission is possible
reissuable: false,
fee: 100000000,
timestamp: Date.now()
};
Waves.API.Node.v1.assets.issue(issueData, seed.keyPair).then((responseData) => {
console.log(responseData);
});
const transferData = {
// An arbitrary address; mine, in this example
recipient: '3PMgh8ra7v9USWUJxUCxKQKr6PM3MgqNVR8',
// ID of a token, or WAVES
assetId: 'WAVES',
// The real amount is the given number divided by 10^(precision of the token)
amount: 10000000,
// The same rules for these two fields
feeAssetId: 'WAVES',
fee: 100000,
// 140 bytes of data (it's allowed to use Uint8Array here)
attachment: '',
timestamp: Date.now()
};
Waves.API.Node.v1.assets.transfer(transferData, seed.keyPair).then((responseData) => {
console.log(responseData);
});
const reissueData = {
// Asset ID which is to be additionnaly emitted
assetId: '5xN8XPkKi7RoYUAT5hNKC26FKCcX6Rj6epASpgFEYZss',
// Additional quantity is the given number divided by 10^(precision of the token)
quantity: 100000000,
reissuable: false,
fee: 100000000,
timestamp: Date.now()
};
Waves.API.Node.v1.assets.reissue(reissueData, seed.keyPair).then((responseData) => {
console.log(responseData);
});
const burnData = {
// Asset ID and its quantity to be burned
assetId: '5xN8XPkKi7RoYUAT5hNKC26FKCcX6Rj6epASpgFEYZss',
quantity: 20000000000,
fee: 100000,
timestamp: Date.now()
};
Waves.API.Node.v1.assets.burn(burnData, seed.keyPair).then((responseData) => {
console.log(responseData);
});
const leaseData = {
recipient: '5xN8XPkKi7RoYUAT5hNKC26FKCcX6Rj6epASpgFEYZss',
// Both amount and fee may be presented as divided by 10^8 (8 is Waves precision)
amount: 1000000000, // 10 Waves
fee: 100000, // 0.001 Waves
timestamp: Date.now()
};
Waves.API.Node.v1.leasing.lease(leaseData, seed.keyPair).then((responseData) => {
console.log(responseData);
});
const cancelLeasingData = {
// Related Lease transaction ID
transactionId: '2kPvxtAit2nsumxBL7xYjvaWYmvmMfDL5oPgs4nZsHvZ',
fee: 100000,
timestamp: Date.now()
};
Waves.API.Node.v1.leasing.cancelLeasing(cancelLeasingData, seed.keyPair).then((responseData) => {
console.log(responseData);
});
const createAliasData = {
// That's a kind of a nickname you attach to your address
alias: 'xenohunter',
fee: 100000,
timestamp: Date.now()
};
Waves.API.Node.v1.aliases.createAlias(createAliasData, seed.keyPair).then((responseData) => {
console.log(responseData);
});
The most used GET requests are those related to balances and transactions history.
There are two types of Waves balance: simple, with optional confirmations
parameter, and detailed, showing different types of Waves balance.
With the first type, without additional arguments, you get the current balance on an address:
Waves.API.Node.v1.addresses.balance('3PMgh8ra7v9USWUJxUCxKQKr6PM3MgqNVR8').then((balance) => {
console.log(balance);
});
If you pass an optional confirmations
argument, you get the balance with N confirmations, i.e. the balance as it was N blocks ago from the moment:
Waves.API.Node.v1.addresses.balance('3PMgh8ra7v9USWUJxUCxKQKr6PM3MgqNVR8', 100).then((balance) => {
console.log(balance);
});
For the second type, there is a separate method:
Waves.API.Node.v1.addresses.balanceDetails('3PMgh8ra7v9USWUJxUCxKQKr6PM3MgqNVR8').then((balanceDetails) => {
console.log(balanceDetails);
});
You can get the list of all balances on an address:
Waves.API.Node.v1.assets.balances(address).then((balancesList) => {
console.log(balancesList);
});
You also can get the balance of a given token:
Waves.API.Node.v1.assets.balance(address, assetId).then((balance) => {
console.log(balance);
});
A very useful method allowing you to get a map with balances of all addresses in possession of a token:
Waves.API.Node.v1.assets.distribution(assetId).then((distributionMap) => {
console.log(distributionMap);
});
Every transaction in the blockchain has its own ID. You can both get one by ID, or get a list of all recent transactions.
Waves.API.Node.v1.transactions.get('Bn2opYvcmYAMCaJHKP1uXYCHFGnAyrzGoiboBLT8RALt').then((tx) => {
console.log(tx);
});
To get the list you need to provide an address which is either the sender or the recipient of the transactions in the resulting list:
Waves.API.Node.v1.transactions.getList('3PMgh8ra7v9USWUJxUCxKQKr6PM3MgqNVR8').then((txList) => {
console.log(txList);
}):
One of the concepts in most blockchains is UTX, unconfirmed transactions pool. During the time between blocks appearance, transactions from users are stored in it.
There are methods to get the size of UTX pool and UTX pool itself (note that the address is not needed here):
Waves.API.Node.v1.transactions.utxSize().then((utxSize) => {
console.log(utxSize);
});
Waves.API.Node.v1.transactions.utxGetList().then((utxList) => {
console.log(utxList);
});
Also if a transaction is still in UTX pool and you know its ID, you can get only it from UTX:
Waves.API.Node.v1.transactions.utxGet('Bn2opYvcmYAMCaJHKP1uXYCHFGnAyrzGoiboBLT8RALt').then((tx) => {
console.log(tx);
});
Aside from creating an alias, you also can get the list of aliases bound to an address, or get the address related to the given alias.
Waves.API.Node.v1.aliases.byAddress('3PMgh8ra7v9USWUJxUCxKQKr6PM3MgqNVR8').then((aliasesList) => {
console.log(aliasesList);
});
Waves.API.Node.v1.aliases.byAlias('xenohunter').then((address) => {
console.log(address);
});
Everything is simple here. You can get the whole block by its signature (get()
) or height (at()
). Method height()
returns the current height of the Waves blockchain. The names of the remaining methods speak for themselves.
Waves.API.Node.v1.blocks.get(signature).then((block) => console.log(block));
Waves.API.Node.v1.blocks.at(height).then((block) => console.log(block));
Waves.API.Node.v1.blocks.height().then((currentHeight) => console.log(currentHeight));
Waves.API.Node.v1.blocks.first().then((firstBlock) => console.log(firstBlock));
Waves.API.Node.v1.blocks.last().then((lastBlock) => console.log(lastBlock));
The configuration is changeable even during the runtime. The structure of the config is following:
const newConfig = {
// The byte allowing to distinguish networks (mainnet, testnet, devnet, etc)
networkByte: Waves.constants.MAINNET_BYTE,
// Node and Matcher addresses, no comments here
nodeAddress: 'https://nodes.wavesnodes.com',
matcherAddress: 'https://nodes.wavesnodes.com/matcher',
// If a seed phrase length falls below that value an error will be thrown
minimumSeedLength: 50
};
All fields are optional, only filled ones will be replaced.
You can change the config like that:
Waves.config.set(newConfig);
const address = Waves.tools.getAddressFromPublicKey('GL6Cbk3JnD9XiBRK5ntCavSrGGD5JT9pXSRkukcEcaSW');
console.log(address); // '3N1JKsPcQ5x49utR79Maey4tbjssfrn2RYp'
In Waves blockchain different tokens have different precision, i.e. number of decimal digits. For example, it would be 10.00 USD and 10.00000000 BTC. That distinction allows to create tokens for various purposes but also makes things harder to understand sometimes.
Two words have emerged: token and coin. Token is used to refer to the whole part of the amount. Coin describes the smallest value which is possible for a given token. For USD token would be one dollar, and coin would be one cent. If you are familiar with Bitcoin you could have encountered the word Satoshi which refers to one hundred millionth of a single Bitcoin.
In the blockchain every token is stored with its explicitly specified precision and amount of coins. Every transaction is signed and stored in the blockchain in its coin representation. So if you send 2 USD tokens to someone, you really send 200 USD token coins instead.
The same goes for the fees, and issue transactions, and leasing amounts, and so on.
Waves precision equals 8. Therefore there are 100000000 * 10^8
of Waves coins (Wavelets) in Waves blockchain.
The amount in reissue transactions refer not to the final amount of asset after reissuing but to the amount which will be added to the current token amount.
One of the trickiest things about Waves blockchain is that Waves ID equals empty string. In the first version on Node API it also equals to empty string. That is an unobvious and potentially dangerous behavior. Therefore in this library Waves ID strictly equals string WAVES
. Please mind that fact.
There is only one type of transactions (currently) in which we can use arbitrary tokens as fees. The only limitation is that the Node to which you connect must support the token you use as fees. Please note that transactions with the Waves fee will be prior over transactions with fees in other tokens.
Transaction IDs are built from all the data in a transaction except the signature. That process is deterministic. So there cannot be two transactions with the absolutely same data.
For the security reasons all leased Waves take effect only after 1000 blocks. Don't worry when your generating balance isn't updated right away.
It happened so that Waves balance and token balances are served through different API methods in the first version of Waves API. That's not very useful and we designed the new version otherwise.
There is the most understandable type of Waves balance. It is the regular balance. It is served through Waves.API.Node.v1.addresses.balance()
. There are also several types of Waves balance related to leasing and the delays in its processing.
- Regular — that's how much Waves you have, including those you leased;
- Available — the same as regular only without Waves you leased;
- Effective — available plus those Waves which is leased to you;
- Generating — the minimal effective for last 1000 blocks;
- Leased — the amount you leased to other addresses.
Available balance you can lease and spend.
Generating balance gives you mining power.
cd ./node_modules/@waves/waves-api/
npm install
npm run test # to run tests in Node.js
npm run test-browser # to run test in Chrome browser
Test configuration may be changed in the ./node_modules/@waves/waves-api/karma.conf.js file.
- TypeScript - Typed superset of JavaScript
- Karma - Test runner
- Chai - Assertion library
- Phil Filippak - Initial work
- Daniil Tsigelnitskiy - TypeScript expertise
See also the list of contributors who participated in this project.
This project is licensed under the MIT License - see the LICENSE.md file for details.