Create, sign & decode Solana transactions with minimum deps.
- 🔓 Secure: minimum deps, audited noble cryptography
- đź”» Tree-shaking-friendly: use only what's necessary, other code won't be included
- ✍️ Create, sign and decode transactions
- 🪶 800 lines of code
Check out all web3 utility libraries: ETH, BTC, SOL, tx-tor-broadcaster
npm install micro-sol-signer
import * as sol from 'micro-sol-signer';Method summary:
function formatPrivate(privateKey: Bytes, format: 'base58' | 'hex' | 'array' = 'base');
function getPublicKey(privateKey: Bytes);
function getAddress(privateKey: Bytes);
function getAddressFromPublicKey(publicKey: Bytes);
function signTx(privateKey: Bytes, data: TxData): Promise<[string, string]>;
function verifyTx(tx: TxData);
function createTx(from: string, to: string, amount: string, _fee: bigint, blockhash: string);
function createTxComplex(address: string, instructions: Instruction[], blockhash: string);
function defineProgram<T extends Record<string, MethodHint<any>>>;
function isOnCurve(bytes: Bytes | string);
function parseInstruction(instr: Instruction, tl: TokenList): any;
function programAddress(program: string, ...seeds: Bytes[]);
function tokenAddress(mint: string, owner: string, allowOffCurveOwner = false);
function tokenFromSymbol(symbol: string, tokens = COMMON_TOKENS);
function validateAddress(address: string);There are other variables such as SYS_PROGRAM, which are also exported. Specific features:
- Create and sign simple transaction
- Decode transaction
- Create complex transactions and send tokens
- Network
- ABI / API
// 11111111... private key
const privKey = new Uint8Array(32).fill(0x01);
// Get address of private key
const address = sol.getAddress(privKey);
// AKnL4NNf3DGWZJS6cPknBuEGnVsV4A4m5tgebLHaRSZ9
// Format private key
const privFormatted = sol.formatPrivate(privKey);
// 2AXDGYSE4f2sz7tvMMzyHvUfcoJmxudvdhBcmiUSo6iuCXagjUCKEQF21awZnUGxmwD4m9vGXuC3qieHXJQHAcT
// Simple tx (transfer some sol's from one account to another)
const toAddress = 'FDwkzWGxx6LfCfzcmVVLEk3QUMxNhuFuKEMRwzR4Dtys';
const blockhash = 'J2BjKU6L83eehHVgoze6uTXGCBu6nbxsqEro9QvWpU52';
const amount = '10.1';
const fee = '1.2';
const tx0 = sol.createTx(address, toAddress, amount, fee, blockhash);
// AQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAABAAEDiojj3XQJ8ZX9UtstPLpdcspnCb8dlBIb83SIAbQPb1zTVICVf7+to6zQ/+XautpF+KSSoZ7ESTxv3rg8xPqyXgAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA/ORj/WtXHGLCh9wC0eGkf26qTFR5x3nCqwXXmoVtZb0BAgIAAQwCAAAAAMUBWgIAAAA=
const [txHash0, signedTx0] = sol.signTx(privKey, tx0);
/*
{
txHash0: '3wL4PdgBr3J2r4uuUrf4MU7HhgrJg6re2YRBeAwsZpYZRHgSgUAJymLRu6GcnKk7ZuR3F5UgPRTNj1mbzv966PTy',
signedTx0: 'AZLiibj05SPRhNU/o3ntK/7+aNQ8H/3HGLdh6zjxZKdyrKJEhjUjWDlMnEF2x0U/8JsKYsMMiYvQShkuNfpYdAwBAAEDiojj3XQJ8ZX9UtstPLpdcspnCb8dlBIb83SIAbQPb1zTVICVf7+to6zQ/+XautpF+KSSoZ7ESTxv3rg8xPqyXgAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA/ORj/WtXHGLCh9wC0eGkf26qTFR5x3nCqwXXmoVtZb0BAgIAAQwCAAAAAMUBWgIAAAA='
}
*/const { base64 } = require('@scure/base');
const sol = require('../lib');
// Random USDT tx from explorer:
// https://explorer.solana.com/tx/5Nnhjv1GVB8T1k8MguUGHQw5zQQQsWET1f1zzj8azRhnVoYQPoZPtkscPCKy6FisP2eVWehjU1EYV8zywqKm5if4
const tx =
'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';
const decodedTx = sol.Transaction.decode(base64.decode(tx));
console.log(decodedTx);
/*
{
msg: {
feePayer: 'EqywLUZcm73PSWri93X3M5TN62iFMsUPMjvWYUq89dKB',
blockhash: '9xp5Jz2v7ZsE3Xn5SVGkRisjo7h16vzF1ducwhWnc5n9',
instructions: [ [Object], [Object] ]
},
signatures: {
EqywLUZcm73PSWri93X3M5TN62iFMsUPMjvWYUq89dKB: Uint8Array(64),
'38QU8LKVK1Ew5uzsqttamNTTFxvnfzgi2ACQvj3ekuom': Uint8Array(64),
}
}
*/
console.log(
decodedTx.msg.instructions.map((i) => {
return sol.parseInstruction(i, {
...sol.COMMON_TOKENS,
// You can add custom tokens here if needed
});
})
);
/*
[
{
type: 'advanceNonce',
info: {
nonceAccount: 'dN98UQCp6Hq9kedJKEczHt5B53tsC8eENv9cGEVwvuD',
nonceAuthority: '38QU8LKVK1Ew5uzsqttamNTTFxvnfzgi2ACQvj3ekuom'
},
hint: 'Consume nonce in nonce account=dN98UQCp6Hq9kedJKEczHt5B53tsC8eENv9cGEVwvuD (owner: 38QU8LKVK1Ew5uzsqttamNTTFxvnfzgi2ACQvj3ekuom)'
},
{
type: 'transferChecked',
info: {
amount: 64487850900n,
decimals: 6,
source: '3VDHywae15vgbG2euNPpwoHTEr2eyGLuS6EoF74kDkp4',
mint: 'Es9vMFrzaCERmJfrF4H2FYD4KCoNkY11McCe8BenwNYB',
destination: '3feqC1fmo5YHMh2iw7X9kGE9F8P147hiiDQqC5xtSbpN',
owner: 'EqywLUZcm73PSWri93X3M5TN62iFMsUPMjvWYUq89dKB'
},
hint: 'Transfer 64487.8509 USDT from token account=3VDHywae15vgbG2euNPpwoHTEr2eyGLuS6EoF74kDkp4 of owner=EqywLUZcm73PSWri93X3M5TN62iFMsUPMjvWYUq89dKB to 3feqC1fmo5YHMh2iw7X9kGE9F8P147hiiDQqC5xtSbpN'
}
]
*/Solana is very flexible and has awesome architecture, but it also means there is no 'right' way to send tokens:
- Basic account (ex. EqywLUZcm73PSWri93X3M5TN62iFMsUPMjvWYUq89dKB) cannot have any tokens
- For every token contract you need to create separate token account which will be controlled by token contract
- If a user gives some address to send tokens, it can be:
- Solana account: which means we need to derive token account address (sol.tokenAddress)
- Token account: it is possible the token account has not yet been created, in this case we can create it for user; but it is not free, and will cost some fee.
- token account which was derived in a different way from main solana account
The basic token sending example is:
// Current blockhash
const blockhash = '9xp5Jz2v7ZsE3Xn5SVGkRisjo7h16vzF1ducwhWnc5n9';
// Sol account which is owner of tokenAccount
const fromAccount = 'EqywLUZcm73PSWri93X3M5TN62iFMsUPMjvWYUq89dKB';
const USDT = sol.tokenFromSymbol('USDT', {
...sol.COMMON_TOKENS,
// You can add custom tokens here
});
// Deriving token account address from solana account address
const fromTokenAccount = sol.tokenAddress(USDT.contract, fromAccount);
// Should be valid token account, not solana account
const toTokenAddress = 'FDwkzWGxx6LfCfzcmVVLEk3QUMxNhuFuKEMRwzR4Dtys';
const amount = '64487.8509';
const tokenSimple = sol.createTxComplex(
fromAccount, // owner of source token account (solana account)
[
sol.token.transferChecked({
source: fromTokenAccount, // Source token account (not solana account)
amount: sol.parseDecimal(amount, USDT.decimals),
decimals: USDT.decimals, // decimals of value
mint: USDT.contract, // token contract address
owner: fromAccount, // owner of source token account (solana account)
destination: toTokenAddress,
}),
],
blockhash
);
console.log(tokenSimple);
/*
AQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAABAAIFzbQwA0gwj3aPV5V86IflZDr3UfOcT1l5B+N5ekM2bR4k8Yk3xWjUHgJESQnn3AeSSRnm/0Ma4+Hacb/Cr/YApdNUgJV/v62jrND/5dq62kX4pJKhnsRJPG/euDzE+rJezgEOYK/tsicXvWMZL1QUWj+WWjO7gtLHAp6yzh4ggmQG3fbh12Whk9nL4UbO63msHLSF7V9bN5E6jPWFfv8AqYUpqsC9KfFD7lsris1C7YZkNRdSH5qix9nMo2igoP0yAQQEAQMCAAoMlIPGAw8AAAAG
*/However, in real world you may need more complex logic, like:
// Check if account is valid token account
function isValidTokenAccount(mint, info, owner) {
if (!info) return false;
if (info.owner !== sol.TOKEN_PROGRAM) return false;
try {
const data = sol.TokenAccount.decode(info.data);
if (data.mint !== mint) return false;
if (data.state !== 'initialized') return false;
if (owner && data.owner !== owner) return false;
return true;
} catch (e) {
return false;
}
}
async function solAccountInfo(address) {
// Network code, outside of scope of this package
// Call rpc with getAccountInfo
const res = await rpcCall('getAccountInfo', address, {
encoding: 'base64',
commitment: 'confirmed',
});
if (res.value === null) return undefined;
const [data, encoding] = res.value.data;
if (encoding !== 'base64') throw new Error(`SOL: invalid data encoding=${encoding}`);
return {
lamports: BigInt(res.value.lamports),
owner: res.value.owner,
rentEpoch: res.value.rentEpoch,
data: base64.decode(data),
exec: !!res.value.executable,
};
}
async function createTx(
fromAddress, // our address (solana account), from which we will send tokens
toAddress, // user provided address to send tokens in.
tokenContract, // token contract address
decimals, // decimals of contract
amount, // string with amount of tokens to send
blockhash // current block hash
) {
// Derive token account from 'from' address
const fromTokenAccount = sol.tokenAddress(tokenContract, fromAccount);
// Common token options
const tokenOpt = {
source: fromTokenAccount,
amount: sol.parseDecimal(amount, decimals),
decimals,
mint: tokenContract,
owner: fromAddress, // owner of source
};
// If address is on curve, it is probably not 'associated token contract'
if (sol.isOnCurve(toAddress)) {
// Derive token account from solana account
const toTokenAddress = sol.tokenAddress(tokenContract, toAddress);
const [addrInfo, assocInfo] = await Promise.all([
solAccountInfo(toAddress),
solAccountInfo(toTokenAddress),
]);
// toTokenAddress -- is valid token account, we can send here
if (isValidTokenAccount(tokenContract, assocInfo, toAddress)) {
// Associted account is ok, send to toTokenAddress
return sol.createTxComplex(
fromAddress,
[sol.token.transferChecked({ ...tokenOpt, destination: toTokenAddress })],
blockhash
);
// toTokenAddress is not valid token account, but toAddress is (even if it is on-curve)
} else if (isValidTokenAccount(tokenContract, addrInfo)) {
// account is actually token account, send to address. But since we don't know
return sol.createTxComplex(
fromAddress,
[sol.token.transferChecked({ ...tokenOpt, destination: toAddress })],
blockhash
);
// There is no valid token accounts, but toAddress is basic solana account and we can create
// token account for it
} else if (addrInfo && addrInfo.owner === sol.SYS_PROGRAM) {
// try to create assoc address and send tokens to it
return sol.createTxComplex(
fromAddress,
[
sol.associatedToken.create({
source: fromAddress,
account: toTokenAddress,
wallet: toAddress,
mint: tokenContract,
}),
sol.token.transferChecked({ ...tokenOpt, destination: toTokenAddress }),
],
blockhash
);
} else {
// We probably can create associated account here, even if account doesn't exists, but it is probably typo and funds will be lost
throw new Error(
`SOL.createTx: invalid token destination address, account=${toAddress} doesn't exists, associated=${assocAddress} doesn't exists`
);
}
} else {
// Address is off-curve: which means it should be associated token account
const info = await solAccountInfo(toAddress);
// We cannot create associated address here, since given address is already off-curve
if (!isValidTokenAccount(tokenContract, info))
throw new Error(
`SOL.createTx: invalid token destination address=${toAddress}, off-curve and invalid`
);
// Valid token addr, send to it. Send to address
return sol.createTxComplex(
fromAddress,
[sol.token.transferChecked({ ...tokenOpt, destination: toAddress })],
blockhash
);
}
throw new Error('SOL.createTx: unexpected case');
}import * as net from 'micro-sol-signer/net.js';
// Docs available in src/net.tsThe section should be written; for now check out source code for network-related methods, like fetching balances, or sending txs.
No real network calls are done in the library for simplified auditing. When network needs to be used, JSON-RPC compatible provider is required. We have one in micro-ftch and it's recommended for usage.
There is no official ABI for Solana (in comparison with ethereum), but it is actually not a big deal,
since you will need to write API on top of raw ABI anyway.
We have small DSL, based on micro-packed,
which allows to define ABI easier: look at sol.token definition in index.ts.
MIT (c) Paul Miller (https://paulmillr.com), see LICENSE file.