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πŸš€ Tatum SDK: A πŸ’ͺ powerful, 🌟 feature-rich TypeScript/JavaScript πŸ“š library that streamlines the πŸ› οΈ development of 🌐 blockchain applications.

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πŸš€ Tatum SDK – Your Gateway to Blockchain

The Tatum SDK is a comprehensive TypeScript/JavaScript library designed to simplify blockchain application development. Whether you're monitoring blockchain addresses, making RPC calls, managing NFTs, or querying wallet balances and transactions, Tatum SDK streamlines the process with its robust features:

  • πŸ•΅οΈβ€β™‚οΈ Blockchain Monitoring: Easily track activities on any blockchain address.
  • πŸ“ž RPC Calls Simplified: Interact with various blockchains through simplified RPC calls.
  • πŸ–ΌοΈ NFT Insights: Access detailed information on NFT balances, transactions, and ownership.
  • πŸ’° Wallet Intelligence: Get precise data on wallet balances and transaction history.

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πŸ”‘ Don't have an API key? Unlock all networks, features, and monitor error logs & usage with ease. Create API Key for FREE - Start building on Tatum with full access to our powerful suite of features.

Tailored for Developers

Engineered with a developer-first approach, Tatum SDK accelerates your blockchain application development, regardless of your experience level. Explore our Documentation and Getting Started Guide to jumpstart your projects:

  • Super fast development: Start building blockchain applications in no time.
  • No previous blockchain experience required: Perfect for beginners and experts alike.
  • One line of code: Perform complex tasks with minimal effort.

Need help or want to contribute? Report Bugs, join our community, or collaborate on improvements.

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πŸ”Œ Perform Native RPC Calls

Interact seamlessly with various blockchains through native RPC calls. Say goodbye to the hassle of juggling separate RPC clients for each blockchain.

Documentation
EVM Blockchains
Ethereum RPC
Polygon RPC
Flare RPC
Haqq RPC
Optimism RPC
Horizen EON RPC
Arbitrum One RPC
Chiliz RPC
Ethereum Classic RPC
Klaytn RPC
Avalanche RPC
Celo RPC
XinFin RPC
Fantom RPC
Base RPC
UTXO Blockchains
Bitcoin RPC
Litecoin RPC
Dogecoin RPC
ZCash RPC
Bitcoin Cash RPC
Other Blockchains
Solana RPC
XPR RPC
Tron RPC
Eos RPC
Tezos RPC
Agorand RPC
Cardano RPC
Stellar RPC
Iota RPC
Kadena RPC
Rostrum RPC
Cronos RPC

πŸ”” Create Notifications

Effortlessly monitor wallet activities. Set up real-time notifications for events like:

Documentation
Start monitoring of the address
Stop monitoring of the address
Get all sent notifications
Get all existing monitoring subscriptions

πŸ‘› Access Wallet Information

Through a single interface, obtain crucial wallet details such as balances, transaction history, and other pertinent information.

Documentation
Get all assets the wallet holds
Get all transactions on the wallet

πŸ–ΌοΈ NFT Actions

Dive into a comprehensive suite of actions related to non-fungible tokens (NFTs).

Documentation
Get all NFTs the wallet holds
Get all NFTs in the NFT collection
Trace the history of a specific NFT
Show the NFT history of a wallet
Create NFT Collection
Create MultiToken NFT Collection
Retrieve the owner of the NFT
Check if the wallet owns a specific NFT
Get the metadata of a specific NFT

πŸͺ™ Fungible Tokens

Explore the world of fungible tokens, manage their properties, and track your assets seamlessly.

Documentation
Get all fungible tokens the wallet holds
Show fungible token history of a wallet
Get metadata of a fungible token
Create a fungible token

πŸ“ IPFS

Enables you as a developer to use IPFS to store and retrieve your media.

Documentation
Upload file to IPFS

β›½ Fee Estimation

Stay updated with real-time fee insights and ensure smooth transactions without overpaying.

Documentation
Fetch real-time fee data

πŸ’» Wallet Provider

Integrate, transact, and manage assets using a secure and user-friendly wallet provider interface.

Documentation
Connect a wallet
Transfer native assets
Transfer your NFT
Create your NFT Collection
Create your Fungible Token
Create your NFT (ERC-1155 MultiToken) Collection
Transfer fungible tokens like USDT
Approve the transfer of a fungible token like USDT
Build your own custom transaction

πŸ’² Exchange Rates

Access the latest crypto exchange rates and supported currency information to stay ahead in the market.

Documentation
Get current exchange rate of the crypto asset
Get current rates for multiple crypto assets at once
Supported Crypto Currencies
Supported Fiats

πŸ“˜ Getting Started with TatumSDK

This guide will lead you step by step, from basic setup and installation to harnessing the immense capabilities of our library. For a detailed walkthrough, check out the Getting Started page.

πŸ“Š TatumSDK Dashboard

Experience powerful insights into your application's usage with the Tatum Dashboard. It provides real-time analytics, user engagement metrics, and an intuitive interface, seamlessly integrating with TatumSDK for optimal app monitoring.

🌱 Always Evolving

Our library is on a continuous journey of growth. We regularly add new features and extend support for more blockchains. It's the go-to choice for developers aiming to craft robust, scalable, and efficient blockchain apps without the overwhelming intricacies of diverse blockchain protocols.

Prerequisites

Before diving into TatumSDK, ensure that you have the following prerequisites installed:

  • Node.js: Ensure you have the latest LTS version installed.
  • npm: npm is bundled with Node.js, so installing Node.js should automatically install npm.

Installation

To install TatumSDK, simply run the following command in your terminal or command prompt:

Install using npm

npm install @tatumio/tatum

Install using yarn

yarn add @tatumio/tatum

Install using pnpm

pnpm install @tatumio/tatum

Getting started

Basic Usage

Here's a brief overview of how to utilize TatumSDK for RPC calls and subscribing to notifications.

Initialization

Start by importing the TatumSDK library and initializing Ethereum client as follows:

import { TatumSDK, Network, Ethereum } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM })

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the Get started documentation.

RPC Calls

To make RPC calls, use the available methods to interact with Ethereum blockchain. For example, to fetch the balance of a specific Ethereum address:

import { TatumSDK, Network, Ethereum } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM })

const { result } = await tatum.rpc.getBalance('0x742d35Cc6634C0532925a3b844Bc454e4438f44e')
console.log(`Balance: ${result}`)

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the RPC documentation.

Subscribing to Notifications

To subscribe to notifications for events related to a specified Ethereum address, choose a type of event you want to be notified about. We are going to use addressEvent as an example, which sends you notification about any transfer on the address - native ones, ERC20 tokens or NFTs. To subscribe to this event, use the following code:

import { TatumSDK, Network, Ethereum } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM })

const response = await tatum.notification.subscribe.addressEvent({
  url: 'https://<YOUR_WEBHOOK_URL>',
  address: '0x690B9A9E9aa1C9dB991C7721a92d351Db4FaC990',
})

console.log(response)
// πŸŽ‰  Now your address is subscribed for any events!

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the Notifications documentation.

Get NFT balance of a wallet

Using TatumSDK, obtain the NFT balance of an address by calling the getNFTBalance method within the NFT submodule and passing the target address as an argument. This streamlined process efficiently retrieves the total number of NFTs owned by the specified address. To achieve this, use the following code:

import { TatumSDK, Network, Ethereum, NftAddressBalance } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM })

const balances: NftAddressBalance[] = await tatum.nft.getBalance({
  addresses: ['0x53e8577c4347c365e4e0da5b57a589cb6f2ab849'],
})

console.log(balances)

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the NFTs documentation.

Connect to MetaMask and send transaction

Using TatumSDK, it's possible to connect your browser application to MetaMask and perform transactions using it. To achieve this, use the following code:

import { TatumSDK, Network, Ethereum, MetaMask } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM })

const account: string = await tatum.walletProvider.use(MetaMask).getWallet()
const txId: string = await tatum.walletProvider
  .use(MetaMask)
  .transferNative('0x53e8577C4347C365E4e0DA5B57A589cB6f2AB848', '1')

console.log(txId)

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the Wallet Provider documentation.

Get exchange rates

Using TatumSDK, obtain current fiat/crypto exchange rates To achieve this, use the following code:

import { TatumSDK, Network, Ethereum } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM })

const res = await tatum.rates.getCurrentRate('BTC', 'EUR')

console.log(res.data)

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the Exchange Rates documentation.

Get current fees

Using TatumSDK, you can obtain recommended fee/gas price for a blockchain.

import { TatumSDK, Network, Ethereum } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({
  network: Network.ETHEREUM_SEPOLIA,
  verbose: true,
  retryDelay: 1000,
  retryCount: 2,
  version: ApiVersion.V3,
})

const result = await tatum.fee.getCurrentFee()

console.log(result.data)

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the Fee Estimation documentation.

Get token balance

Using TatumSDK, obtain all fungible token balances of an address by calling the getBalance method within the token submodule and passing the target address as an argument. This streamlined process efficiently retrieves all balances for fungible tokens that specified address holds. To achieve this, use the following code:

import { TatumSDK, Network, Ethereum } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM_SEPOLIA })

const { data: balances } = await tatum.token.getBalance({
  addresses: ['0x2cbaf358c0af93096bd820ce57c26f0b7c6ec7ab'],
})

console.log(balances)

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the Fungible Tokens documentation.

Get all transactions on the wallet

Using TatumSDK, you can obtain transaction history of the wallet.

import { TatumSDK, Network, Ethereum } from '@tatumio/tatum'

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM_SEPOLIA })

const { data: txs } = await tatum.address.getTransactions({
  address: '0x514d547c8ac8ccbec29b5144810454bd7d3625ca',
})

console.log(txs)

// Destroy Tatum SDK - needed for stopping background jobs
await tatum.destroy()

For more details, check out the Wallet address operations documentation.

RPC calls

All RPC calls are implemented in the tatum.rpc.* submodule.

See the RPC API Reference for more about supported chains and methods.

Distinguishing Between Archive and Full Nodes

When interacting with the blockchain, it's essential to know whether a JSON RPC call requires an archive node or can be serviced by a full node. The distinction hinges on the type of data requested and the historical depth of that data. Here's a breakdown of the conditions under which a call is classified for an archive or a full node:

Archive Node Calls

Archive nodes store the entire history of the blockchain, including the state of all accounts at every block. Calls that require an archive node typically involve querying historical states. Conditions include:

  1. Calls to Methods getCode or call: Always require an archive node because they may query the state at any block height.

  2. Calls Including debug or trace Methods: These methods require historical data not available on full nodes.

  3. Parameters Indicating a Specific Block Number: For following methods, if the call specifies a block number, it requires an archive node. This includes:

  • getStorageAt with a specific block number.
  • getBalance with a specific block number.
  • getBlockByNumber when a block number is specified.
  • getLogs calls where fromBlock or toBlock specify a block number other than the latest.

Full Node Calls

Any other calls not meeting the conditions for archive node calls can be serviced by a full node. These calls typically involve querying the current state of the blockchain.

Status Pages

This section provides a list of various blockchain network status pages, powered by Tatum. These links direct you to real-time status updates for each network.

Status Pages
bitcoin-mainnet.status.tatum.io
bitcoin-testnet.status.tatum.io
dogecoin-mainnet.status.tatum.io
dogecoin-testnet.status.tatum.io
eos-mainnet-archive.status.tatum.io
ethereum-mainnet-archive.status.tatum.io
ethereum-mainnet.status.tatum.io
ethereum-sepolia-archive.status.tatum.io
ethereum-holesky-archive.status.tatum.io
ethereum-sepolia.status.tatum.io
flare-coston-archive.status.tatum.io
flare-coston2-archive.status.tatum.io
flare-songbird-archive.status.tatum.io
flare-mainnet-archive.status.tatum.io
haqq-mainnet-archive.status.tatum.io
haqq-mainnet.status.tatum.io
haqq-testnet.status.tatum.io
chiliz-mainnet.status.tatum.io
chiliz-mainnet-archive.status.tatum.io
litecoin-mainnet.status.tatum.io
litecoin-testnet.status.tatum.io
optimism-mainnet-archive.status.tatum.io
polygon-mainnet-archive.status.tatum.io
polygon-mainnet.status.tatum.io
horizen-eon-mainnet-archive.status.tatum.io
horizen-eon-gobi.status.tatum.io
bsc-mainnet-archive.status.tatum.io
polygon-amoy-archive.status.tatum.io
polygon-amoy.status.tatum.io
tron-mainnet-archive.status.tatum.io
arbitrum-one-mainnet-archive.status.tatum.io
ethereum-classic-mainnet-archive.status.tatum.io
zcash-mainnet.status.tatum.io
ripple-mainnet.status.tatum.io
ripple-testnet.status.tatum.io
bitcoin-cash-mainnet.status.tatum.io
klaytn-mainnet.status.tatum.io
klaytn-mainnet-archive.status.tatum.io
klaytn-baobab.status.tatum.io
klaytn-baobab-archive.status.tatum.io
avalanche-c-mainnet-archive.status.tatum.io
solana-mainnet.status.tatum.io
solana-devnet.status.tatum.io
celo-mainnet-archive.status.tatum.io
celo-testnet-archive.status.tatum.io
tezos-testnet.status.tatum.io
tezos-mainnet.status.tatum.io
algorand-mainnet-algod.status.tatum.io
algorand-testnet-algod.status.tatum.io
algorand-mainnet-indexer.status.tatum.io
algorand-testnet-indexer.status.tatum.io
cardano-mainnet.status.tatum.io
cardano-preprod.status.tatum.io
xinfin-mainnet-archive.status.tatum.io
stellar-mainnet-archive.status.tatum.io
base-mainnet-archive.status.tatum.io
kadena-mainnet.status.tatum.io
kadena-testnet.status.tatum.io
rostrum-mainnet.status.tatum.io
cronos-mainnet-archive.status.tatum.io
fantom-mainnet-archive.status.tatum.io
iota-mainnet.status.tatum.io

Load Balancer

Load balancer is used managing RPC calls to nodes in a blockchain network. It maintains a list of available nodes and their status, and it automatically selects the most responsive node for subsequent RPC calls.

For use of the Load Balancer, you don't need to know how it is working!. Load Balancer works automatically in the background and selects the most responsive node for subsequent RPC calls. You can use the SDK without any knowledge of the Load Balancer.

Load Balancer implementation is available in LoadBalancerRpc.ts

Using a load balancer to distribute traffic across multiple nodes, as opposed to routing all traffic to a single node, has several advantages:

  • Improved Performance and Responsiveness: Load balancers can distribute network or application traffic across several servers, which can help prevent any single server from becoming a bottleneck. As a result, users often experience faster response times.

  • Scalability: Load balancers enable you to handle larger amounts of traffic by simply adding more servers to the pool. This makes it easier to scale your infrastructure as your needs grow.

  • Redundancy and High Availability: If a server goes down, a load balancer can automatically reroute traffic to the remaining online servers. This ensures that your service remains available even in the face of hardware failures or other issues.

  • Prevents Overloading of Nodes: Load balancers can prevent any single server from being overloaded with too many requests, which can degrade the performance of the server and impact user experience.

  • Efficient Use of Resources: By distributing the load, you can make sure that all your servers are being used efficiently, rather than having some servers idle while others are overloaded.

  • Flexibility and Maintenance: With a load balancer, you can take servers offline for maintenance without disrupting service. The load balancer will simply stop sending traffic to the offline server.

  • Better User Experience: Ultimately, all of these benefits can lead to a better user experience, with faster response times and higher availability of services.

Initialization

At start the Load Balancer is initialized with a list of nodes. List of nodes are dynamically fetched from the remote server. There is also option to pass your custom list of nodes instead of the dynamic list. From the list of the nodes is randomly selected one node as a primary node, which is kept as a primary node until first load balancing is performed. The Load Balancer maintain lists of two types of nodes, normal and archive nodes.

Load Balancing

The load balancing process is running in the background and every minute it checks the status of all nodes in the list. The status of each node is determined by making a request to the node's URL and checking the response. The fastest responding node in each category is then selected as the active node for that normal and archive category. The selected nodes are then used for subsequent RPC calls.

Error Handling

If a RPC call fails, failure is logged, and the current active node is marked as failed, and load balancer selects a new active node.

Destroy

When you need to stop load balancer, you should can call destroy method. This method stops the load balancing process on the background.

List of nodes

The list of nodes is dynamically fetched from the remote server and it is defined for every blockchain.

Here are the list of nodes for each blockchain:

Nodes List
rpc.tatum.io/bitcoin-mainnet/list.json
rpc.tatum.io/bitcoin-testnet/list.json
rpc.tatum.io/dogecoin-mainnet/list.json
rpc.tatum.io/dogecoin-testnet/list.json
rpc.tatum.io/eos-mainnet-archive/list.json
rpc.tatum.io/ethereum-mainnet-archive/list.json
rpc.tatum.io/ethereum-mainnet/list.json
rpc.tatum.io/ethereum-sepolia-archive/list.json
rpc.tatum.io/ethereum-holesky-archive/list.json
rpc.tatum.io/ethereum-sepolia/list.json
rpc.tatum.io/flare-coston-archive/list.json
rpc.tatum.io/flare-coston2-archive/list.json
rpc.tatum.io/flare-mainnet-archive/list.json
rpc.tatum.io/flare-songbird-archive/list.json
rpc.tatum.io/haqq-mainnet-archive/list.json
rpc.tatum.io/haqq-mainnet/list.json
rpc.tatum.io/haqq-testnet/list.json
rpc.tatum.io/chiliz-mainnet/list.json
rpc.tatum.io/chiliz-mainnet-archive/list.json
rpc.tatum.io/litecoin-mainnet/list.json
rpc.tatum.io/litecoin-testnet/list.json
rpc.tatum.io/optimism-mainnet-archive/list.json
rpc.tatum.io/polygon-mainnet-archive/list.json
rpc.tatum.io/polygon-mainnet/list.json
rpc.tatum.io/horizen-eon-mainnet-archive/list.json
rpc.tatum.io/horizen-eon-gobi/list.json
rpc.tatum.io/bsc-mainnet-archive/list.json
rpc.tatum.io/polygon-amoy-archive/list.json
rpc.tatum.io/polygon-amoy/list.json
rpc.tatum.io/tron-mainnet-archive/list.json
rpc.tatum.io/arbitrum-one-mainnet-archive/list.json
rpc.tatum.io/ethereum-classic-mainnet-archive/list.json
rpc.tatum.io/zcash-mainnet/list.json
rpc.tatum.io/ripple-mainnet/list.json
rpc.tatum.io/ripple-testnet/list.json
rpc.tatum.io/klaytn-mainnet/list.json
rpc.tatum.io/klaytn-mainnet-archive/list.json
rpc.tatum.io/klaytn-baobab/list.json
rpc.tatum.io/klaytn-baobab-archive/list.json
rpc.tatum.io/bitcoin-cash-mainnet/list.json
rpc.tatum.io/avalanche-c-mainnet-archive/list.json
rpc.tatum.io/solana-mainnet/list.json
rpc.tatum.io/solana-devnet/list.json
rpc.tatum.io/celo-mainnet-archive/list.json
rpc.tatum.io/celo-testnet-archive/list.json
rpc.tatum.io/tezos-testnet/list.json
rpc.tatum.io/tezos-mainnet/list.json
rpc.tatum.io/algorand-mainnet-algod/list.json
rpc.tatum.io/algorand-testnet-algod/list.json
rpc.tatum.io/algorand-mainnet-indexer/list.json
rpc.tatum.io/algorand-testnet-indexer/list.json
rpc.tatum.io/cardano-mainnet/list.json
rpc.tatum.io/cardano-preprod/list.json
rpc.tatum.io/xinfin-mainnet-archive/list.json
rpc.tatum.io/stellar-mainnet-archive/list.json
rpc.tatum.io/base-mainnet-archive/list.json
rpc.tatum.io/kadena-mainnet/list.json
rpc.tatum.io/kadena-testnet/list.json
rpc.tatum.io/rostrum-mainnet/list.json
rpc.tatum.io/cronos-mainnet-archive/list.json
rpc.tatum.io/fantom-mainnet-archive/list.json
rpc.tatum.io/iota-mainnet/list.json

Following pattern defines the URL for fetching the list of nodes:

https://rpc.tatum.io/${network}/list.json

Networks enum is available in the Network.ts

For instance if we will need Bitcoin mainnet nodes, we will use this URL:

curl https://rpc.tatum.io/bitcoin-mainnet/list.json

The response is a list of nodes with their url, type (0 - normal, 1 - archive) and location.

[
  {
    "location": "Sydney",
    "type": 0,
    "url": "https://02-sydney-007-01.rpc.tatum.io/"
  },
  {
    "location": "Tokyo",
    "type": 0,
    "url": "https://02-tokyo-007-02.rpc.tatum.io/"
  },
  {
    "location": "Dallas",
    "type": 0,
    "url": "https://02-dallas-007-03.rpc.tatum.io/"
  },
  {
    "location": "Sao Paulo",
    "type": 0,
    "url": "https://02-saopaulo-007-04.rpc.tatum.io/"
  },
  {
    "location": "Warsaw",
    "type": 0,
    "url": "https://01-warsaw-007-05.rpc.tatum.io/"
  }
]

Load Balancer selects from this list the most responsive node.

Usage

Default config

const tatum = await TatumSDK.init<Ethereum>({ network: Network.ETHEREUM })
const info = await tatum.rpc.chainId()
tatum.rpc.destroy()

Custom RPC node list

const tatum = await TatumSDK.init<Ethereum>({
  network: Network.ETHEREUM,
  rpc: {
    nodes: [
      {
        url: 'https://api.tatum.io/v3/blockchain/node/ethereum-mainnet',
        type: RpcNodeType.NORMAL,
      },
    ],
    allowedBlocksBehind: 20,
    oneTimeLoadBalancing: false,
  },
})
const info = await tatum.rpc.chainId()
tatum.rpc.destroy()

Documentation

Examples

Explore various applications that utilize the Tatum SDK. These examples help illustrate the SDK's functionality and offer a starting point for developers looking to integrate similar features into their applications.

Metamask notifications

🌐 Extension Ecosystem

Quickstart

Import any Tatum SDK extension to your project and start using it right away.

import { TatumSDK, Ethereum, Network, ApiVersion } from '@tatumio/tatum'
import { HelloWorldExtension } from '@tatumio/hello-world'

const tatumSdk = await TatumSDK.init<Ethereum>({
  network: Network.ETHEREUM_SEPOLIA,
  configureExtensions: [HelloWorldExtension],
})

After that you can use the extension in your code with full intellisense.

await tatumSdk.extension(HelloWorldExtension).sayHello()

Wallet Providers

Tatum SDK supports wallet provider extensions for various wallets. You can use them to integrate your application with the wallet of your choice.

import { TatumSDK, Ethereum, Network, ApiVersion } from '@tatumio/tatum'
import { EvmWalletProvider } from '@tatumio/evm-wallet-provider'

const tatumSdk = await TatumSDK.init<Ethereum>({
  network: Network.ETHEREUM_SEPOLIA,
  configureWalletProviders: [EvmWalletProvider],
})

Usage for wallet providers is similar to the extensions.

await tatumSdk.walletProvider.use(EvmWalletProvider).getWallet()

πŸ” Check out our built-in MetaMask wallet provider

πŸ“š Learn more about Tatum SDK Extension ecosystem here - Tatum SDK Extensions

Legacy versions

Older versions of the Tatum SDK has been moved to long living branches Tatum SDK V1 and Tatum SDK V2.

🀝 Contributing

We appreciate your interest in contributing to the Tatum SDK. Here's a guide to help you make meaningful contributions:

Local Testing

Before making a pull request, ensure you've thoroughly tested your changes with a local client.

Unit Tests

Include unit test coverage for any new code you're adding. This helps in maintaining the quality and reliability of our SDK.

Update the Changelog

For every contribution, it's essential to document your changes in the changelog. The changelog keeps track of all the changes, updates, and fixes we make to our SDK. Use the provided format:

## [Version Number] - YYYY.MM.DD

### Added/Updated/Fixed/Changed

- Description of the change

For instance:

## [3.0.10] - 2023.08.11

### Added

- New feature XYZ

Update package.json

Before creating a pull request or releasing a new version, ensure the version in package.json is updated to reflect the new release number.

Release Consideration

Your changes will be released after merging the pull request.

How to add support for new RPC chain

  • Add new chain to the Network.ts enum (Check also LOAD_BALANCER_NETWORKS constants)
  • Add new class to the tatum.ts file
  • Add new chain getClient method in the Utils.ts file
  • Add new chain CURRENCY_NAMES and DECIMALS constants in the constants.ts file
  • Update README.md with new chain for status page and list.json
  • Add E2E test

πŸ™Œ Thank you for helping make Tatum SDK better! Your contributions play a crucial role in its continuous improvement and growth.

Bugs and feature requests

Have a bug or a feature request? Please first read the issue guidelines and search for existing and closed issues. If your problem or idea is not addressed yet, please open a new issue.