bitcoinjs-lib/ts_src/ecpair.ts

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import { Network } from './networks';
import * as NETWORKS from './networks';
import * as types from './types';
const ecc = require('tiny-secp256k1');
const randomBytes = require('randombytes');
const typeforce = require('typeforce');
const wif = require('wif');
const isOptions = typeforce.maybe(
typeforce.compile({
compressed: types.maybe(types.Boolean),
network: types.maybe(types.Network),
}),
);
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interface ECPairOptions {
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compressed?: boolean;
network?: Network;
rng?(arg0: number): Buffer;
}
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export interface Signer {
publicKey: Buffer;
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network?: any;
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sign(hash: Buffer, lowR?: boolean): Buffer;
getPublicKey?(): Buffer;
}
export interface SignerAsync {
publicKey: Buffer;
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network?: any;
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sign(hash: Buffer, lowR?: boolean): Promise<Buffer>;
getPublicKey?(): Buffer;
}
export interface ECPairInterface extends Signer {
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compressed: boolean;
network: Network;
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lowR: boolean;
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privateKey?: Buffer;
toWIF(): string;
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verify(hash: Buffer, signature: Buffer): boolean;
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}
class ECPair implements ECPairInterface {
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compressed: boolean;
network: Network;
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lowR: boolean;
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constructor(
private __D?: Buffer,
private __Q?: Buffer,
options?: ECPairOptions,
) {
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this.lowR = false;
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if (options === undefined) options = {};
this.compressed =
options.compressed === undefined ? true : options.compressed;
this.network = options.network || NETWORKS.bitcoin;
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if (__Q !== undefined) this.__Q = ecc.pointCompress(__Q, this.compressed);
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}
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get privateKey(): Buffer | undefined {
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return this.__D;
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}
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get publicKey(): Buffer {
if (!this.__Q)
this.__Q = ecc.pointFromScalar(this.__D, this.compressed) as Buffer;
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return this.__Q;
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}
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toWIF(): string {
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if (!this.__D) throw new Error('Missing private key');
return wif.encode(this.network.wif, this.__D, this.compressed);
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}
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sign(hash: Buffer, lowR?: boolean): Buffer {
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if (!this.__D) throw new Error('Missing private key');
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if (lowR === undefined) lowR = this.lowR;
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if (lowR === false) {
return ecc.sign(hash, this.__D);
} else {
let sig = ecc.sign(hash, this.__D);
const extraData = Buffer.alloc(32, 0);
let counter = 0;
// if first try is lowR, skip the loop
// for second try and on, add extra entropy counting up
while (sig[0] > 0x7f) {
counter++;
extraData.writeUIntLE(counter, 0, 6);
sig = ecc.signWithEntropy(hash, this.__D, extraData);
}
return sig;
}
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}
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verify(hash: Buffer, signature: Buffer): boolean {
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return ecc.verify(hash, this.publicKey, signature);
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}
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}
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function fromPrivateKey(buffer: Buffer, options?: ECPairOptions): ECPair {
typeforce(types.Buffer256bit, buffer);
if (!ecc.isPrivate(buffer))
throw new TypeError('Private key not in range [1, n)');
typeforce(isOptions, options);
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return new ECPair(buffer, undefined, options);
}
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function fromPublicKey(buffer: Buffer, options?: ECPairOptions): ECPair {
typeforce(ecc.isPoint, buffer);
typeforce(isOptions, options);
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return new ECPair(undefined, buffer, options);
}
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function fromWIF(wifString: string, network?: Network | Network[]): ECPair {
const decoded = wif.decode(wifString);
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const version = decoded.version;
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// list of networks?
if (types.Array(network)) {
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network = (network as Network[])
.filter((x: Network) => {
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return version === x.wif;
})
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.pop() as Network;
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if (!network) throw new Error('Unknown network version');
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// otherwise, assume a network object (or default to bitcoin)
} else {
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network = network || NETWORKS.bitcoin;
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if (version !== (network as Network).wif)
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throw new Error('Invalid network version');
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}
return fromPrivateKey(decoded.privateKey, {
compressed: decoded.compressed,
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network: network as Network,
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});
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}
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function makeRandom(options?: ECPairOptions): ECPair {
typeforce(isOptions, options);
if (options === undefined) options = {};
const rng = options.rng || randomBytes;
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let d;
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do {
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d = rng(32);
typeforce(types.Buffer256bit, d);
} while (!ecc.isPrivate(d));
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return fromPrivateKey(d, options);
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}
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export { makeRandom, fromPrivateKey, fromPublicKey, fromWIF };