Security News
PyPI Introduces Digital Attestations to Strengthen Python Package Security
PyPI now supports digital attestations, enhancing security and trust by allowing package maintainers to verify the authenticity of Python packages.
@solana/addresses
Advanced tools
This package contains utilities for generating account addresses. It can be used standalone, but it is also exported as part of the Solana JavaScript SDK @solana/web3.js@rc
.
Address
This type represents a string that validates as a Solana address. Functions that require well-formed addresses should specify their inputs in terms of this type.
Whenever you need to validate an arbitrary string as a base58-encoded address, use the address()
, assertIsAddress()
, or isAddress()
functions in this package.
ProgramDerivedAddress
This type represents the tuple of a program derived address and the bump seed used to ensure that the address, as derived, is not found on the Ed25519 curve.
Whenever you need to validate an arbitrary tuple as one that represents a program derived address, use the assertIsProgramDerivedAddress()
or isProgramDerivedAddress()
functions in this package.
ProgramDerivedAddressBump
This type represents an integer between 0-255 used as a seed when deriving a program derived address. The purpose of this value is to modify the derivation enough to ensure that the derived address does not find itself on the Ed25519 curve.
address()
This helper combines asserting that a string is an address with coercing it to the Address
type. It's best used with untrusted input.
import { address } from '@solana/addresses';
await transfer(address(fromAddress), address(toAddress), lamports(100000n));
When starting from a known-good address as a string, it's more efficient to typecast it rather than to use the address()
helper, because the helper unconditionally performs validation on its input.
import { Address } from '@solana/addresses';
const MEMO_PROGRAM_ADDRESS =
'MemoSq4gqABAXKb96qnH8TysNcWxMyWCqXgDLGmfcHr' as Address<'MemoSq4gqABAXKb96qnH8TysNcWxMyWCqXgDLGmfcHr'>;
assertIsAddress()
Client applications primarily deal with addresses and public keys in the form of base58-encoded strings. Addresses returned from the RPC API conform to the type Address
. You can use a value of that type wherever a base58-encoded address is expected.
From time to time you might acquire a string, that you expect to validate as an address, from an untrusted network API or user input. To assert that such an arbitrary string is a base58-encoded address, use the assertIsAddress
function.
import { assertIsAddress } from '@solana/addresses';
// Imagine a function that fetches an account's balance when a user submits a form.
function handleSubmit() {
// We know only that what the user typed conforms to the `string` type.
const address: string = accountAddressInput.value;
try {
// If this type assertion function doesn't throw, then
// Typescript will upcast `address` to `Address`.
assertIsAddress(address);
// At this point, `address` is an `Address` that can be used with the RPC.
const balanceInLamports = await rpc.getBalance(address).send();
} catch (e) {
// `address` turned out not to be a base58-encoded address
}
}
assertIsProgramDerivedAddress()
In the event that you receive an address/bump-seed tuple from some untrusted source, you can assert that such a tuple conforms to the ProgramDerivedAddress
type using this function.
See assertIsAddress()
for an example of how to use an assertion function.
createAddressWithSeed()
Returns a base58-encoded address derived from some base address, some program address, and a seed string or byte array.
import { createAddressWithSeed } from '@solana/addresses';
const derivedAddress = await createAddressWithSeed({
// The private key associated with this address will be able to sign for `derivedAddress`.
baseAddress: 'B9Lf9z5BfNPT4d5KMeaBFx8x1G4CULZYR1jA2kmxRDka' as Address,
// Only this program will be able to write data to this account.
programAddress: '445erYq578p2aERrGW9mn9KiYe3fuG6uHdcJ2LPPShGw' as Address,
seed: 'data-account',
});
getAddressDecoder()
Returns a decoder that you can use to convert an array of 32 bytes representing an address to the base58-encoded representation of that address. Returns a tuple of the Address
and the offset within the byte array at which the decoder stopped reading.
import { getAddressDecoder } from '@solana/addresses';
const addressBytes = new Uint8Array([
150, 183, 190, 48, 171, 8, 39, 156, 122, 213, 172, 108, 193, 95, 26, 158, 149, 243, 115, 254, 20, 200, 36, 30, 248,
179, 178, 232, 220, 89, 53, 127,
]);
const addressDecoder = getAddressDecoder();
const address = addressDecoder.decode(address); // B9Lf9z5BfNPT4d5KMeaBFx8x1G4CULZYR1jA2kmxRDka
getAddressEncoder()
Returns an encoder that you can use to encode a base58-encoded address to a byte array.
import { getAddressEncoder } from '@solana/addresses';
const address = 'B9Lf9z5BfNPT4d5KMeaBFx8x1G4CULZYR1jA2kmxRDka' as Address;
const addressEncoder = getAddressEncoder();
const addressBytes = addressEncoder.encode(address);
// Uint8Array(32) [
// 150, 183, 190, 48, 171, 8, 39, 156,
// 122, 213, 172, 108, 193, 95, 26, 158,
// 149, 243, 115, 254, 20, 200, 36, 30,
// 248, 179, 178, 232, 220, 89, 53, 127
// ]
getAddressFromPublicKey()
Given a public CryptoKey
, this method will return its associated Address
.
import { getAddressFromPublicKey } from '@solana/addresses';
const address = await getAddressFromPublicKey(publicKey);
getProgramDerivedAddress()
Given a program's Address
and up to 16 Seeds
, this method will return the program derived address (PDA) associated with each.
import { getAddressEncoder, getProgramDerivedAddress } from '@solana/addresses';
const addressEncoder = getAddressEncoder();
const { bumpSeed, pda } = await getProgramDerivedAddress({
programAddress: 'ATokenGPvbdGVxr1b2hvZbsiqW5xWH25efTNsLJA8knL' as Address,
seeds: [
// Owner
addressEncoder.encode('9fYLFVoVqwH37C3dyPi6cpeobfbQ2jtLpN5HgAYDDdkm' as Address),
// Token program
addressEncoder.encode('TokenkegQfeZyiNwAJbNbGKPFXCWuBvf9Ss623VQ5DA' as Address),
// Mint
addressEncoder.encode('EPjFWdd5AufqSSqeM2qN1xzybapC8G4wEGGkZwyTDt1v' as Address),
],
});
isAddress()
This is a type guard that accepts a string as input. It will both return true
if the string conforms to the Address
type and will refine the type for use in your program.
import { isAddress } from '@solana/addresses';
if (isAddress(ownerAddress)) {
// At this point, `ownerAddress` has been refined to a
// `Address` that can be used with the RPC.
const { value: lamports } = await rpc.getBalance(ownerAddress).send();
setBalanceLamports(lamports);
} else {
setError(`${ownerAddress} is not an address`);
}
isProgramDerivedAddress()
This is a type guard that accepts a tuple as input. It will both return true
if the tuple conforms to the ProgramDerivedAddress
type and will refine the type for use in your program.
See isAddress()
for an example of how to use a type guard.
FAQs
Helpers for generating account addresses
The npm package @solana/addresses receives a total of 7,233 weekly downloads. As such, @solana/addresses popularity was classified as popular.
We found that @solana/addresses demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 14 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Security News
PyPI now supports digital attestations, enhancing security and trust by allowing package maintainers to verify the authenticity of Python packages.
Security News
GitHub removed 27 malicious pull requests attempting to inject harmful code across multiple open source repositories, in another round of low-effort attacks.
Security News
RubyGems.org has added a new "maintainer" role that allows for publishing new versions of gems. This new permission type is aimed at improving security for gem owners and the service overall.