This is a minimalist Bitcoin Cash (BCH) wallet 'engine' for use with front end web apps. It contains all the core functionality needed by a wallet:
- Create a new BCH wallet, import a mnemonic, or import a private key (WIF)
- Encrypt a wallets mnemonic for safe storage
- Send and receive BCH
- Send and receive SLP tokens
- Get balances and UTXOs
- Retrieve transaction history & transaction details
- Burn tokens
- Price BCH in USD
- Send messages on the blockchain via OP_RETURN data
- Verify that a UTXO is unspent
- Get token icons and other media associated with a token
It is 'token aware' and can work with all SLP tokens, including NFTs. It can interface with Web 2 infrastructure like FullStack.cash or with the Cash Stack Web 3 infrastructure via the bch-consumer library.
This target consumers for this library is:
- bch-wallet-web3-android Bitcoin Cash wallet app that runs on Web and Android.
- psf-bch-wallet command line wallet.
The default derivation path for the wallet keypair is m/44'/245'/0'/0/0
. This is the BIP44 standard for SLP token-aware BCH wallets.
The examples directory shows how to write node.js JavaScript apps that use this library to work with BCH:
<script src="https://unpkg.com/minimal-slp-wallet"></script>
This will load the wallet into window.SlpAddress
npm install minimal-slp-wallet --save
// ESM
import BchWallet from 'minimal-slp-wallet'
// CommonJS
const BchWallet = require('minimal-slp-wallet')
The wallet has different configuration parameters, that allow it to use web2 or web3 infrastructure. After instantiating a class, two Promises should be awaited:
await bchWallet.walletInfoPromise
will resolve when the BCH has been fully created. It only takes a few microseconds. Once resolves, the objectbchWallet.walletInfo
will contain all the wallet information.await bchWallet.initialize()
will reach out to the blockchain and initialize the wallet by fetching its balance, tokens, and UTXO information. This is not necessary to call when creating a new wallet without a transaction history.
const BchWallet = require('minimal-slp-wallet')
const bchWallet = new BchWallet(undefined, {
interface: 'rest-api',
restURL: 'https://api.fullstack.cash/v5/'
})
await bchWallet.initialize()
const BchWallet = require('minimal-slp-wallet')
const bchWallet = new BchWallet(undefined, {
interface: 'consumer-api',
restURL: 'https://free-bch.fullstack.cash'
// Connect to your own instance of ipfs-bch-wallet-consumer:
// restURL: 'http://localhost:5005'
})
await bchWallet.initialize()
const bchWallet = new BchWallet()
await bchWallet.walletInfoPromise // Wait for wallet to be created.
// 12 words seed phrase for the wallet
console.log(bchWallet.walletInfo.mnemonic)
// cash address derived from the seed (derivation path: m/44'/245'/0'/0/0)
console.log(bchWallet.walletInfo.cashAddress)
// legacy address derived from the seed (derivation path: m/44'/245'/0'/0/0)
console.log(bchWallet.walletInfo.legacyAddress)
// private key for the BCH address derived from the seed (derivation path: m/44'/245'/0'/0/0)
console.log(bchWallet.walletInfo.privateKey)
const bchWallet = new BchWallet(null, {
password: 'myStrongPassword'
})
// 12 words seed phrase for the wallet
console.log(bchWallet.walletInfo.mnemonic)
// encrypted mnemonic
console.log(bchWallet.walletInfo.mnemonicEncrypted)
const bchWallet2 = new BchWallet(bchWallet.walletInfo.mnemonicEncrypted, {
password: 'myStrongPassword'
})
// decrypted mnemonic
console.log(bchWallet2.walletInfo.mnemonic)
// initialize with 12 words seed phrase for the wallet
const bchWallet = new BchWallet(
'minor bench until split suffer shine series bag avoid cruel orient aunt'
)
// initialize for specific HD derivation path
const bchWallet2 = new BchWallet(
'minor bench until split suffer shine series bag avoid cruel orient aunt',
{
HdPath: "m/44'/245'/0'/1'"
}
)
Private keys are in WIF format, and start with a capital 'K' or 'L'.
const bchWallet = new BchWallet('L3BUek8oq1iijZTkfdRYo8RDxEe3PpB8MyJnh2FSGWAoCjAffQCp')
You can send funds to other BCH wallets. You can distribute funds to N users by simply extending the receiver array.
const bchWallet = new BchWallet()
const receivers = [
{
address: 'bitcoincash:qp2rmj8heytjrksxm2xrjs0hncnvl08xwgkweawu9h',
// amount in satoshis, 1 satoshi = 0.00000001 Bitcoin
amountSat: 100000
}
]
const txid = await bchWallet.send(receivers)
// Transaction ID
// you can then see the transaction in one of the explorers
// example: `https://explorer.bitcoin.com/bch/tx/${tx.txid}`;
console.log(txid)
You can send tokens in a similar way:
const receiver = {
address: 'simpleledger:qpeq7xx5x3a2jfa0x0w8cjqp4v9cm842vgsjqwzvfk',
tokenId: 'a4fb5c2da1aa064e25018a43f9165040071d9e984ba190c222a7f59053af84b2',
qty: 1.25
}
const txid = await bchWallet.sendTokens(receiver)
// Transaction ID
console.log(txid)
Note: Only single token sends are supported at the moment. i.e. One token type per receiver per transaction.
Gets balance (confirmed + unconfirmed) for an BCH address
// will get a balance for bchWallet.cashAddress
const myBalance = await bchWallet.getBalance()
// will get a balance for any address
const balanceOfOtherAddress = await bchWallet.getBalance({
bchAddress: 'bitcoincash:qp2rmj8heytjrksxm2xrjs0hncnvl08xwgkweawu9h'
})
List the SLP tokens held by an address.
// will get token balance for bchWallet.cashAddress
const myBalance = await bchWallet.listTokens()
// will get a balance for any address
const balanceOfOtherAddress = await bchWallet.listTokens(
'simpleledger:qpeq7xx5x3a2jfa0x0w8cjqp4v9cm842vgsjqwzvfk'
)
Given a token ID, list the balance held by an address
// Get the token balance for the wallet.
const myBalance = await bchWallet.getTokenBalance({
tokenId: 'a4fb5c2da1aa064e25018a43f9165040071d9e984ba190c222a7f59053af84b2'
})
// Get a token balance for any address
const balanceOfOtherAddress = await bchWallet.getTokenBalance({
tokenId: 'a4fb5c2da1aa064e25018a43f9165040071d9e984ba190c222a7f59053af84b2',
slpAddress: 'simpleledger:qpeq7xx5x3a2jfa0x0w8cjqp4v9cm842vgsjqwzvfk'
})
Given a Token ID for an SLP token, retrieve data about the token. This includes mutable and immutable data using the PS002 specification which controls token icons and other metadata.
const bchWallet = new BchWallet()
const tokenId = '59a62f35b0882b7c0ed80407d9190b460cc566cb6c01ed4817ad64f9d2508702'
const tokenData = await slpWallet.getTokenData(tokenId)
This function call can also retrieve the transaction history for a token. This is particularly useful for NFTs, for applications that need to find the current address holding the NFT.
const tokenData = await slpWallet.getTokenData(tokenId, true)
The TX history is sorted in descending order by default. It can be sorted in ascending order like this:
const tokenData = await slpWallet.getTokenData(tokenId, true, 'ASCENDING')
Given a Token ID for an SLP token, retrieve the token icon URL and other associated media. This includes mutable and immutable data using the PS007 specification which controls token icons and other metadata.
getTokenData()
returns much faster, but the client has to lookup the data on IPFS. getTokenData2()
has the server lookup the token data. This can sometimes be faster, or sometimes it can take several seconds.
const bchWallet = new BchWallet()
const tokenId = '59a62f35b0882b7c0ed80407d9190b460cc566cb6c01ed4817ad64f9d2508702'
const tokenData = await slpWallet.getTokenData2(tokenId)
Get an array of TXIDs of the transactions involving this wallet.
// will get transaction history for bchWallet.cashAddress
const myTransactions = await bchWallet.getTransactions()
// will get transaction history for any address
const txHistoryOfOtherAddress = await bchWallet.getTransactions(
'bitcoincash:qp2rmj8heytjrksxm2xrjs0hncnvl08xwgkweawu9h'
)
Get transactions details for an array of up to 20 TXIDs.
// Input is an array of up to 20 TXIDs.
const txids = [
'01517ff1587fa5ffe6f5eb91c99cf3f2d22330cd7ee847e928ce90ca95bf781b'
]
const result = await bchWallet.getTxData(txids)
// Get the current spot price of BCH in USD
const result = await bchWallet.getUsd()
// Write a small amount of text to the blockchain, compatible with memo.cash.
const result = await bchWallet.sendOpReturn('This is a memo.cash post.')
try {
tx = await bchWallet.send([
{
address: 'bitcoincash:qrlhkg4d9z3y88j246a6482xzregxaxnfsagmd2kh3',
amountSat: 1000
}
])
} catch (err) {
console.error(err)
if (err.message && err.message.indexOf('Insufficient') > -1) {
return alert('Insufficient balance on your BCH account.')
}
return alert('Error. Try again later.')
}
While developing BCH apps, remember to never send the private keys / mnemonic / seed phrase to your servers.
- Your servers can be hacked
- Depending on your jurisdiction you may not have the allowance to manage the funds of your users
const bchWallet1 = new BchWallet()
// save the mnemonic for later
localStorage.setItem('BCH_MNEMONIC', bchWallet1.walletInfo.mnemonic)
// retrieve mnemonic to initialize the wallet
const bchWallet2 = new BchWallet(localStorage.getItem('BCH_MNEMONIC'))
In BCH applications, it's often necessary to validate if a UTXO is still alive and spendable, or if it's already been spent. This function returns true if the UTXO is still spendable, false if not.
const utxo = {
txid: 'b94e1ff82eb5781f98296f0af2488ff06202f12ee92b0175963b8dba688d1b40',
vout: 0
}
const isValid = await bchWallet.utxoIsValid(utxo)
If a wallet is generated from a 12-word mnemonic, it can generate a key pair from the HD wallet.
const keyPair = await bchWallet.getKeyPair(5)
Every UTXO in the wallet results in an API call. Calling the optimize()
function will consolidate the number of UTXOs in the wallet. This speeds up performance and leads to a better user experience overall.
await bchWallet.optimize()
If an address has made at least one send transaction, the it is possible to lookup the addresses public key from the blockchain. This public key can then be used to send encrypted messages to that address. If successful, this function will return a string that contains a hex-encoded public key.
const addr = 'bitcoincash:...'
const pubKey = await bchWallet.getPubKey(addr)
This function can retrieve the UTXOs controlled by the wallet:
const utxos = await bchWallet.getUtxos()
Or the UTXOs held by another address can be retrieved:
const utxos = await bchWallet.getUtxos('bitcoincash...')
If you have a hex-encoded transaction, you can broadcast it to the network:
const hex = '0200...tx-in-hex-format'
const txid = await bchWallet.broadcast({hex})
console.log(txid)
This function retrieves the cost in PSF tokens to pin 1MB of content to the decentralized PSFFPP IPFS pinning network. Find out more at PSFFPP.com.
const price = await bchWallet.getPsfWritePrice()
console.log(price)
// 0.08335233