@roochnetwork/rooch-sdk
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text/typescript
// Copyright (c) RoochNetwork
// SPDX-License-Identifier: Apache-2.0
import { secp256k1, schnorr } from '@noble/curves/secp256k1'
import { AddressView, BitcoinNetowkType } from '../../address/index.js'
import { PublicKey, PublicKeyInitData, SIGNATURE_SCHEME_TO_FLAG } from '../../crypto/index.js'
import { fromB64, sha256, toHEX } from '../../utils/index.js'
const SCHNORR_PUBLIC_KEY_SIZE = 32
const ECDSA_PUBLIC_KEY_SIZE = 33
/**
* A Secp256k1 public key
*/
export class Secp256k1PublicKey extends PublicKey<AddressView> {
static SCHNORR_PUBKEY_SIZE = SCHNORR_PUBLIC_KEY_SIZE
static ECDSA_PUBKEY_SIZE = ECDSA_PUBLIC_KEY_SIZE
private readonly data: Uint8Array
/**
* Create a new Secp256k1PublicKey object
* @param value secp256k1 public key as buffer or base-64 encoded string
*/
constructor(value: PublicKeyInitData) {
super()
if (typeof value === 'string') {
this.data = fromB64(value)
} else if (value instanceof Uint8Array) {
this.data = value
} else {
this.data = Uint8Array.from(value)
}
if (
this.data.length !== SCHNORR_PUBLIC_KEY_SIZE &&
this.data.length !== ECDSA_PUBLIC_KEY_SIZE
) {
throw new Error(
`Invalid public key input. Expected ${SCHNORR_PUBLIC_KEY_SIZE} or ${ECDSA_PUBLIC_KEY_SIZE} bytes, got ${this.data.length}`,
)
}
}
/**
* Checks if two Secp256k1 public keys are equal
*/
override equals(publicKey: Secp256k1PublicKey): boolean {
return super.equals(publicKey)
}
/**
* Return the byte array representation of the Secp256k1 public key
*/
override toBytes(): Uint8Array {
return this.data
}
override toString(): string {
return toHEX(this.data)
}
/**
* Return the Bitcoin address associated with this Secp256k1 public key
*/
override toAddress(): AddressView {
return new AddressView(this.data)
}
toAddressWith(network: BitcoinNetowkType) {
return new AddressView(this.data, network)
}
/**
* Return the Rooch address associated with this Secp256k1 public key
*/
flag(): number {
return SIGNATURE_SCHEME_TO_FLAG['Secp256k1']
}
/**
* Verifies that the ecdsa signature is valid for the provided sha256 hashed message with 33 bytes public key
*/
async verify(message: Uint8Array, signature: Uint8Array): Promise<boolean> {
return secp256k1.verify(
secp256k1.Signature.fromCompact(signature),
sha256(message),
this.toBytes(),
)
}
/**
* Verifies that the schnorr signature is valid for the provided message with 32 bytes public key
*/
async verify_schnorr(message: Uint8Array, signature: Uint8Array): Promise<boolean> {
return schnorr.verify(signature, message, this.toBytes())
}
}