ethers.js/lib.commonjs/providers/signer.d.ts

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import type { Addressable, NameResolver } from "../address/index.js";
import type { TypedDataDomain, TypedDataField } from "../hash/index.js";
import type { TransactionLike } from "../transaction/index.js";
import type { ContractRunner } from "./contracts.js";
import type { BlockTag, Provider, TransactionRequest, TransactionResponse } from "./provider.js";
/**
* A Signer represents an account on the Ethereum Blockchain, and is most often
* backed by a private key represented by a mnemonic or residing on a Hardware Wallet.
*
* The API remains abstract though, so that it can deal with more advanced exotic
* Signing entities, such as Smart Contract Wallets or Virtual Wallets (where the
* private key may not be known).
*/
export interface Signer extends Addressable, ContractRunner, NameResolver {
/**
* The [[Provider]] attached to this Signer (if any).
*/
provider: null | Provider;
/**
* Returns a new instance of this Signer connected to //provider// or detached
* from any Provider if null.
*/
connect(provider: null | Provider): Signer;
/**
* Get the address of the Signer.
*/
getAddress(): Promise<string>;
/**
* Gets the next nonce required for this Signer to send a transaction.
*
* @param blockTag - The blocktag to base the transaction count on, keep in mind
* many nodes do not honour this value and silently ignore it [default: ``"latest"``]
*/
getNonce(blockTag?: BlockTag): Promise<number>;
/**
* Prepares a {@link TransactionRequest} for calling:
* - resolves ``to`` and ``from`` addresses
* - if ``from`` is specified , check that it matches this Signer
*
* @param tx - The call to prepare
*/
populateCall(tx: TransactionRequest): Promise<TransactionLike<string>>;
/**
* Prepares a {@link TransactionRequest} for sending to the network by
* populating any missing properties:
* - resolves ``to`` and ``from`` addresses
* - if ``from`` is specified , check that it matches this Signer
* - populates ``nonce`` via ``signer.getNonce("pending")``
* - populates ``gasLimit`` via ``signer.estimateGas(tx)``
* - populates ``chainId`` via ``signer.provider.getNetwork()``
* - populates ``type`` and relevant fee data for that type (``gasPrice``
* for legacy transactions, ``maxFeePerGas`` for EIP-1559, etc)
*
* @note Some Signer implementations may skip populating properties that
* are populated downstream; for example JsonRpcSigner defers to the
* node to populate the nonce and fee data.
*
* @param tx - The call to prepare
*/
populateTransaction(tx: TransactionRequest): Promise<TransactionLike<string>>;
/**
* Estimates the required gas required to execute //tx// on the Blockchain. This
* will be the expected amount a transaction will require as its ``gasLimit``
* to successfully run all the necessary computations and store the needed state
* that the transaction intends.
*
* Keep in mind that this is **best efforts**, since the state of the Blockchain
* is in flux, which could affect transaction gas requirements.
*
* @throws UNPREDICTABLE_GAS_LIMIT A transaction that is believed by the node to likely
* fail will throw an error during gas estimation. This could indicate that it
* will actually fail or that the circumstances are simply too complex for the
* node to take into account. In these cases, a manually determined ``gasLimit``
* will need to be made.
*/
estimateGas(tx: TransactionRequest): Promise<bigint>;
/**
* Evaluates the //tx// by running it against the current Blockchain state. This
* cannot change state and has no cost in ether, as it is effectively simulating
* execution.
*
* This can be used to have the Blockchain perform computations based on its state
* (e.g. running a Contract's getters) or to simulate the effect of a transaction
* before actually performing an operation.
*/
call(tx: TransactionRequest): Promise<string>;
/**
* Resolves an ENS Name to an address.
*/
resolveName(name: string): Promise<null | string>;
/**
* Signs %%tx%%, returning the fully signed transaction. This does not
* populate any additional properties within the transaction.
*/
signTransaction(tx: TransactionRequest): Promise<string>;
/**
* Sends %%tx%% to the Network. The ``signer.populateTransaction(tx)``
* is called first to ensure all necessary properties for the
* transaction to be valid have been popualted first.
*/
sendTransaction(tx: TransactionRequest): Promise<TransactionResponse>;
/**
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* Signs an [[link-eip-191]] prefixed personal message.
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*
* If the %%message%% is a string, it is signed as UTF-8 encoded bytes. It is **not**
* interpretted as a [[BytesLike]]; so the string ``"0x1234"`` is signed as six
* characters, **not** two bytes.
*
* To sign that example as two bytes, the Uint8Array should be used
* (i.e. ``new Uint8Array([ 0x12, 0x34 ])``).
*/
signMessage(message: string | Uint8Array): Promise<string>;
/**
* Signs the [[link-eip-712]] typed data.
*/
signTypedData(domain: TypedDataDomain, types: Record<string, Array<TypedDataField>>, value: Record<string, any>): Promise<string>;
}
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