PHP WebShell
Текущая директория: /usr/lib/node_modules/bitgo/node_modules/@bitgo/sdk-coin-hbar/node_modules/@hashgraph/sdk/lib
Просмотр файла: PrivateKey.d.ts
/**
* @typedef {import("./transaction/Transaction.js").default} Transaction
* @typedef {import("./account/AccountId.js").default} AccountId
*/
/**
* @namespace proto
* @typedef {import("@hashgraph/proto").proto.IKey} HashgraphProto.proto.IKey
* @typedef {import("@hashgraph/proto").proto.ITransaction} HashgraphProto.proto.ITransaction
* @typedef {import("@hashgraph/proto").proto.ISignaturePair} HashgraphProto.proto.ISignaturePair
* @typedef {import("@hashgraph/proto").proto.ISignedTransaction} HashgraphProto.proto.ISignedTransaction
*/
export default class PrivateKey extends Key {
/**
* Generate a random Ed25519 private key.
*
* @returns {PrivateKey}
*/
static generateED25519(): PrivateKey;
/**
* Generate a random EDSA private key.
*
* @returns {PrivateKey}
*/
static generateECDSA(): PrivateKey;
/**
* Depredated - Use `generateED25519()` instead
* Generate a random Ed25519 private key.
*
* @returns {PrivateKey}
*/
static generate(): PrivateKey;
/**
* Depredated - Use `generateED25519Async()` instead
* Generate a random Ed25519 private key.
*
* @returns {Promise<PrivateKey>}
*/
static generateAsync(): Promise<PrivateKey>;
/**
* Generate a random Ed25519 private key.
*
* @returns {Promise<PrivateKey>}
*/
static generateED25519Async(): Promise<PrivateKey>;
/**
* Generate a random ECDSA private key.
*
* @returns {Promise<PrivateKey>}
*/
static generateECDSAAsync(): Promise<PrivateKey>;
/**
* Construct a private key from bytes. Requires DER header.
*
* @param {Uint8Array} data
* @returns {PrivateKey}
*/
static fromBytes(data: Uint8Array): PrivateKey;
/**
* Construct a ECDSA private key from bytes.
*
* @param {Uint8Array} data
* @returns {PrivateKey}
*/
static fromBytesECDSA(data: Uint8Array): PrivateKey;
/**
* Construct a ED25519 private key from bytes.
*
* @param {Uint8Array} data
* @returns {PrivateKey}
*/
static fromBytesED25519(data: Uint8Array): PrivateKey;
/**
* Construct a private key from a hex-encoded string. Requires DER header.
*
* @param {string} text
* @returns {PrivateKey}
*/
static fromString(text: string): PrivateKey;
/**
* Construct a ECDSA private key from a hex-encoded string.
*
* @param {string} text
* @returns {PrivateKey}
*/
static fromStringECDSA(text: string): PrivateKey;
/**
* Construct a Ed25519 private key from a hex-encoded string.
*
* @param {string} text
* @returns {PrivateKey}
*/
static fromStringED25519(text: string): PrivateKey;
/**
* Construct a Ed25519 private key from a Uint8Array seed.
*
* @param {Uint8Array} seed
* @returns {Promise<PrivateKey>}
*/
static fromSeedED25519(seed: Uint8Array): Promise<PrivateKey>;
/**
* Construct a Ed25519 private key from a Uint8Array seed.
*
* @param {Uint8Array} seed
* @returns {Promise<PrivateKey>}
*/
static fromSeedECDSAsecp256k1(seed: Uint8Array): Promise<PrivateKey>;
/**
* @deprecated - Use `Mnemonic.from[Words|String]().to[Ed25519|Ecdsa]PrivateKey()` instead
*
* Recover a private key from a mnemonic phrase (and optionally a password).
* @param {Mnemonic | cryptography.Mnemonic | string} mnemonic
* @param {string} [passphrase]
* @returns {Promise<PrivateKey>}
*/
static fromMnemonic(mnemonic: Mnemonic | cryptography.Mnemonic | string, passphrase?: string | undefined): Promise<PrivateKey>;
/**
* Recover a private key from a keystore, previously created by `.toKeystore()`.
*
* This key will _not_ support child key derivation.
*
* @param {Uint8Array} data
* @param {string} [passphrase]
* @returns {Promise<PrivateKey>}
* @throws {BadKeyError} If the passphrase is incorrect or the hash fails to validate.
*/
static fromKeystore(data: Uint8Array, passphrase?: string | undefined): Promise<PrivateKey>;
/**
* Recover a private key from a pem string; the private key may be encrypted.
*
* This method assumes the .pem file has been converted to a string already.
*
* If `passphrase` is not null or empty, this looks for the first `ENCRYPTED PRIVATE KEY`
* section and uses `passphrase` to decrypt it; otherwise, it looks for the first `PRIVATE KEY`
* section and decodes that as a DER-encoded private key.
*
* @param {string} data
* @param {string} [passphrase]
* @returns {Promise<PrivateKey>}
*/
static fromPem(data: string, passphrase?: string | undefined): Promise<PrivateKey>;
/**
* @internal
* @hideconstructor
* @param {cryptography.PrivateKey} key
*/
constructor(key: cryptography.PrivateKey);
_key: cryptography.PrivateKey;
/**
* Derive a new private key at the given wallet index.
*
* Only currently supported for keys created with `fromMnemonic()`; other keys will throw
* an error.
*
* You can check if a key supports derivation with `.supportsDerivation()`
*
* @param {number} index
* @returns {Promise<PrivateKey>}
* @throws If this key does not support derivation.
*/
derive(index: number): Promise<PrivateKey>;
/**
* @param {number} index
* @returns {Promise<PrivateKey>}
* @throws If this key does not support derivation.
*/
legacyDerive(index: number): Promise<PrivateKey>;
/**
* Get the public key associated with this private key.
*
* The public key can be freely given and used by other parties to verify
* the signatures generated by this private key.
*
* @returns {PublicKey}
*/
get publicKey(): PublicKey;
/**
* Get the public key associated with this private key.
*
* The public key can be freely given and used by other parties to verify
* the signatures generated by this private key.
*
* @returns {?Uint8Array}
*/
get chainCode(): Uint8Array | null;
/**
* Sign a message with this private key.
*
* @param {Uint8Array} bytes
* @returns {Uint8Array} - The signature bytes without the message
*/
sign(bytes: Uint8Array): Uint8Array;
/**
* @param {Transaction} transaction
* @returns {Uint8Array}
*/
signTransaction(transaction: Transaction): Uint8Array;
/**
* Check if `derive` can be called on this private key.
*
* This is only the case if the key was created from a mnemonic.
*
* @returns {boolean}
*/
isDerivable(): boolean;
/**
* @returns {Uint8Array}
*/
toBytes(): Uint8Array;
/**
* @returns {Uint8Array}
*/
toBytesDer(): Uint8Array;
/**
* @returns {Uint8Array}
*/
toBytesRaw(): Uint8Array;
/**
* @returns {string}
*/
toStringDer(): string;
/**
* @returns {string}
*/
toStringRaw(): string;
/**
* Create a keystore with a given passphrase.
*
* The key can be recovered later with `fromKeystore()`.
*
* Note that this will not retain the ancillary data used for
* deriving child keys, thus `.derive()` on the restored key will
* throw even if this instance supports derivation.
*
* @param {string} [passphrase]
* @returns {Promise<Uint8Array>}
*/
toKeystore(passphrase?: string | undefined): Promise<Uint8Array>;
/**
* @param {Long | number} shard
* @param {Long | number} realm
* @returns {AccountId}
*/
toAccountId(shard: Long | number, realm: Long | number): AccountId;
}
export type Transaction = import("./transaction/Transaction.js").default;
export type AccountId = import("./account/AccountId.js").default;
export namespace HashgraphProto {
namespace proto {
type IKey = import("@hashgraph/proto").proto.IKey;
type ITransaction = import("@hashgraph/proto").proto.ITransaction;
type ISignaturePair = import("@hashgraph/proto").proto.ISignaturePair;
type ISignedTransaction = import("@hashgraph/proto").proto.ISignedTransaction;
}
}
import Key from "./Key.js";
import * as cryptography from "@hashgraph/cryptography";
import PublicKey from "./PublicKey.js";
import Mnemonic from "./Mnemonic.js";
Выполнить команду
Для локальной разработки. Не используйте в интернете!