@solana/accounts
This package contains types and helper methods for representing, fetching and decoding Solana accounts. It can be used standalone, but it is also exported as part of the Solana JavaScript SDK @solana/web3.js@next
.
It provides a unified definition of a Solana account regardless of how it was retrieved and can represent both encoded and decoded accounts. It also introduces the concept of a MaybeAccount
which represents a fetched account that may or may not exist on-chain whilst keeping track of its address in both cases.
Helper functions are provided for fetching, parsing and decoding accounts as well as asserting that an account exists.
const myAddress = address('1234..5678');
const myAccount = fetchAccount(rpc, myAddress);
myAccount satisfies MaybeEncodedAccount<'1234..5678'>;
assertAccountExists(myAccount);
myAccount satisfies EncodedAccount<'1234..5678'>;
type MyAccountData = { name: string; age: number };
const myDecoder: Decoder<MyAccountData> = getStructDecoder([
['name', addDecoderSizePrefix(getUtf8Decoder(), getU32Decoder())],
['age', getU32Decoder()],
]);
const myDecodedAccount = decodeAccount(myAccount, myDecoder);
myDecodedAccount satisfies Account<MyAccountData, '1234..5678'>;
Types
BaseAccount
The BaseAccount
type defines the attributes common to all Solana accounts. Namely, it contains everything stored on-chain except the account data itself.
const BaseAccount: BaseAccount = {
executable: false,
lamports: lamports(1_000_000_000n),
programAddress: address('1111..1111'),
};
This package also exports a BASE_ACCOUNT_SIZE
constant representing the size of the BaseAccount
attributes in bytes.
const myTotalAccountSize = myAccountDataSize + BASE_ACCOUNT_SIZE;
Account
and EncodedAccount
The Account
type contains all the information relevant to a Solana account. It contains the BaseAccount
described above as well as the account data and the address of the account.
The account data can be represented as either a Uint8Array
— meaning the account is encoded — or a custom data type — meaning the account is decoded.
const myEncodedAccount: Account<Uint8Array, '1234..5678'> = {
address: address('1234..5678'),
data: new Uint8Array([1, 2, 3]),
executable: false,
lamports: lamports(1_000_000_000n),
programAddress: address('1111..1111'),
};
type MyAccountData = { name: string; age: number };
const myDecodedAccount: Account<MyAccountData, '1234..5678'> = {
address: address('1234..5678'),
data: { name: 'Alice', age: 30 },
executable: false,
lamports: lamports(1_000_000_000n),
programAddress: address('1111..1111'),
};
The EncodedAccount
type can also be used to represent an encoded account and is equivalent to an Account
with a Uint8Array
account data.
myEncodedAccount satisfies EncodedAccount<'1234..5678'>;
MaybeAccount
and MaybeEncodedAccount
The MaybeAccount
type is a union type representing an account that may or may not exist on-chain. When the account exists, it is represented as an Account
type with an additional exists
attribute set to true
. When it does not exist, it is represented by an object containing only the address of the account and an exists
attribute set to false
.
const myExistingAccount: MaybeAccount<MyAccountData, '1234..5678'> = {
exists: true,
address: address('1234..5678'),
data: { name: 'Alice', age: 30 },
executable: false,
lamports: lamports(1_000_000_000n),
programAddress: address('1111..1111'),
};
const myMissingAccount: MaybeAccount<MyAccountData, '8765..4321'> = {
exists: false,
address: address('8765..4321'),
};
Similarly to the Account
type, the MaybeAccount
type can be used to represent an encoded account by using the Uint8Array
data type or by using the MaybeEncodedAccount
helper type.
const myExistingAccount: MaybeEncodedAccount<'1234..5678'> = {
exists: true,
address: address('1234..5678'),
data: new Uint8Array([1, 2, 3]),
};
const myMissingAccount: MaybeEncodedAccount<'8765..4321'> = {
exists: false,
address: address('8765..4321'),
};
Functions
assertAccountExists()
Given a MaybeAccount
, this function asserts that the account exists and allows it to be used as an Account
type going forward.
const myAccount: MaybeEncodedAccount<'1234..5678'>;
assertAccountExists(myAccount);
myAccount satisfies EncodedAccount<'1234..5678'>;
assertAccountsExist()
Given an array of MaybeAccount
s, this function asserts that all the accounts
exist and allows them to be used as an array of Account
s going forward.
const myAccounts: MaybeEncodedAccount<Address>[];
assertAccountsExist(myAccounts);
for (const a of myAccounts) {
a satisfies EncodedAccount<Address>;
}
parseBase64RpcAccount()
This function parses a base64-encoded account provided by the RPC client into an EncodedAccount
type or a MaybeEncodedAccount
type if the raw data can be set to null
.
const myAddress = address('1234..5678');
const myRpcAccount = await rpc.getAccountInfo(myAddress, { encoding: 'base64' }).send();
const myAccount: MaybeEncodedAccount<'1234..5678'> = parseBase64RpcAccount(myRpcAccount);
parseBase58RpcAccount()
This function parses a base58-encoded account provided by the RPC client into an EncodedAccount
type or a MaybeEncodedAccount
type if the raw data can be set to null
.
const myAddress = address('1234..5678');
const myRpcAccount = await rpc.getAccountInfo(myAddress, { encoding: 'base58' }).send();
const myAccount: MaybeEncodedAccount<'1234..5678'> = parseBase58RpcAccount(myRpcAccount);
parseJsonRpcAccount()
This function parses an arbitrary jsonParsed
account provided by the RPC client into an Account
type or a MaybeAccount
type if the raw data can be set to null
. The expected data type should be explicitly provided as the first type parameter.
const myAccount: Account<MyData> = parseJsonRpcAccount<MyData>(myJsonRpcAccount);
fetchEncodedAccount()
This function fetches a MaybeEncodedAccount
from the provided RPC client and address. It uses the getAccountInfo
RPC method under the hood with base64 encoding and an additional configuration object can be provided to customize the behavior of the RPC call.
const myAddress = address('1234..5678');
const myAccount: MaybeEncodedAccount<'1234..5678'> = await fetchEncodedAccount(rpc, myAddress);
const myAccount: MaybeEncodedAccount<'1234..5678'> = await fetchEncodedAccount(rpc, myAddress, {
abortSignal: myAbortController.signal,
commitment: 'confirmed',
});
fetchEncodedAccounts()
This function fetches an array of MaybeEncodedAccount
from the provided RPC client and an array of addresses. It uses the getMultipleAccounts
RPC method under the hood with base64 encodings and an additional configuration object can be provided to customize the behavior of the RPC call.
const myAddressA = address('1234..5678');
const myAddressB = address('8765..4321');
const [myAccountA, myAccountB] = await fetchEncodedAccounts(rpc, [myAddressA, myAddressB]);
myAccountA satisfies MaybeEncodedAccount<'1234..5678'>;
myAccountB satisfies MaybeEncodedAccount<'8765..4321'>;
const [myAccountA, myAccountB] = await fetchEncodedAccounts(rpc, [myAddressA, myAddressB], {
abortSignal: myAbortController.signal,
commitment: 'confirmed',
});
fetchJsonParsedAccount()
This function fetches a MaybeAccount
from the provided RPC client and address by using getAccountInfo
under the hood with the jsonParsed
encoding. It may also return a MaybeEncodedAccount
if the RPC client does not know how to parse the account at the requested address. In any case, the expected data type should be explicitly provided as the first type parameter.
type TokenData = { mint: Address; owner: Address };
const myAccount = await fetchJsonParsedAccount<TokenData>(rpc, myAddress);
myAccount satisfies MaybeAccount<TokenData> | MaybeEncodedAccount;
const myAccount = await fetchJsonParsedAccount<TokenData>(rpc, myAddress, {
abortSignal: myAbortController.signal,
commitment: 'confirmed',
});
fetchJsonParsedAccounts()
Similarly to the fetchJsonParsedAccount
method, this method fetches an array of MaybeAccount
from a provided RPC client and an array of addresses. It uses the getMultipleAccounts
RPC method under the hood with the jsonParsed
encoding. It may also return a MaybeEncodedAccount
instead of the expected MaybeAccount
if the RPC client does not know how to parse some of the requested accounts. In any case, the array of expected data types should be explicitly provided as the first type parameter.
type TokenData = { mint: Address; owner: Address };
type MintData = { supply: bigint };
const [myAccountA, myAccountB] = await fetchJsonParsedAccounts<[TokenData, MintData]>(rpc, [myAddressA, myAddressB]);
myAccountA satisfies MaybeAccount<TokenData> | MaybeEncodedAccount;
myAccountB satisfies MaybeAccount<MintData> | MaybeEncodedAccount;
decodeAccount()
This function transforms an EncodedAccount
into an Account
(or a MaybeEncodedAccount
into a MaybeAccount
) by decoding the account data using the provided Decoder
instance.
type MyAccountData = { name: string; age: number };
const myAccount: EncodedAccount<'1234..5678'>;
const myDecoder: Decoder<MyAccountData> = getStructDecoder([
['name', addDecoderSizePrefix(getUtf8Decoder(), getU32Decoder())],
['age', getU32Decoder()],
]);
const myDecodedAccount = decodeAccount(myAccount, myDecoder);
myDecodedAccount satisfies Account<MyAccountData, '1234..5678'>;
assertAccountDecoded()
This function asserts that an account stores decoded data, ie not a Uint8Array. Note that it does not check the shape of the data matches the decoded type, only that it is not a Uint8Array.
type MyAccountData = { name: string; age: number };
const myAccount: Account<MyAccountData | Uint8Array, '1234..5678'>;
assertAccountDecoded(myAccount);
account.data satisfies MyAccountData;
This is particularly useful for narrowing the result of fetching a JSON parsed account.
const account: MaybeAccount<MockData | Uint8Array> = await fetchJsonParsedAccount<MockData>(
rpc,
'1234..5678' as Address,
);
assertAccountDecoded(account);
account satisfies MaybeAccount<MockData>;
assertAccountsDecoded
This function asserts that all input accounts store decoded data, ie not a Uint8Array. As with assertAccountDecoded
it does not check the shape of the data matches the decoded type, only that it is not a Uint8Array.
type MyAccountData = { name: string; age: number };
const myAccounts: Account<MyAccountData | Uint8Array, Address>[];
assertAccountsDecoded(myAccounts);
for (const a of account) {
account.data satisfies MyAccountData;
}