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Текущая директория: /opt/BitGoJS/node_modules/@polkadot/keyring/cjs/pair
Просмотр файла: index.js
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.createPair = createPair;
const util_1 = require("@polkadot/util");
const util_crypto_1 = require("@polkadot/util-crypto");
const decode_js_1 = require("./decode.js");
const encode_js_1 = require("./encode.js");
const toJson_js_1 = require("./toJson.js");
const SIG_TYPE_NONE = new Uint8Array();
const TYPE_FROM_SEED = {
ecdsa: util_crypto_1.secp256k1PairFromSeed,
ed25519: util_crypto_1.ed25519PairFromSeed,
ethereum: util_crypto_1.secp256k1PairFromSeed,
sr25519: util_crypto_1.sr25519PairFromSeed
};
const TYPE_PREFIX = {
ecdsa: new Uint8Array([2]),
ed25519: new Uint8Array([0]),
ethereum: new Uint8Array([2]),
sr25519: new Uint8Array([1])
};
const TYPE_SIGNATURE = {
ecdsa: (m, p) => (0, util_crypto_1.secp256k1Sign)(m, p, 'blake2'),
ed25519: util_crypto_1.ed25519Sign,
ethereum: (m, p) => (0, util_crypto_1.secp256k1Sign)(m, p, 'keccak'),
sr25519: util_crypto_1.sr25519Sign
};
const TYPE_ADDRESS = {
ecdsa: (p) => p.length > 32 ? (0, util_crypto_1.blake2AsU8a)(p) : p,
ed25519: (p) => p,
ethereum: (p) => p.length === 20 ? p : (0, util_crypto_1.keccakAsU8a)((0, util_crypto_1.secp256k1Expand)(p)),
sr25519: (p) => p
};
function isLocked(secretKey) {
return !secretKey || (0, util_1.u8aEmpty)(secretKey);
}
function vrfHash(proof, context, extra) {
return (0, util_crypto_1.blake2AsU8a)((0, util_1.u8aConcat)(context || '', extra || '', proof));
}
/**
* @name createPair
* @summary Creates a keyring pair object
* @description Creates a keyring pair object with provided account public key, metadata, and encoded arguments.
* The keyring pair stores the account state including the encoded address and associated metadata.
*
* It has properties whose values are functions that may be called to perform account actions:
*
* - `address` function retrieves the address associated with the account.
* - `decodedPkcs8` function is called with the account passphrase and account encoded public key.
* It decodes the encoded public key using the passphrase provided to obtain the decoded account public key
* and associated secret key that are then available in memory, and changes the account address stored in the
* state of the pair to correspond to the address of the decoded public key.
* - `encodePkcs8` function when provided with the correct passphrase associated with the account pair
* and when the secret key is in memory (when the account pair is not locked) it returns an encoded
* public key of the account.
* - `meta` is the metadata that is stored in the state of the pair, either when it was originally
* created or set via `setMeta`.
* - `publicKey` returns the public key stored in memory for the pair.
* - `sign` may be used to return a signature by signing a provided message with the secret
* key (if it is in memory) using Nacl.
* - `toJson` calls another `toJson` function and provides the state of the pair,
* it generates arguments to be passed to the other `toJson` function including an encoded public key of the account
* that it generates using the secret key from memory (if it has been made available in memory)
* and the optionally provided passphrase argument. It passes a third boolean argument to `toJson`
* indicating whether the public key has been encoded or not (if a passphrase argument was provided then it is encoded).
* The `toJson` function that it calls returns a JSON object with properties including the `address`
* and `meta` that are assigned with the values stored in the corresponding state variables of the account pair,
* an `encoded` property that is assigned with the encoded public key in hex format, and an `encoding`
* property that indicates whether the public key value of the `encoded` property is encoded or not.
*/
function createPair({ toSS58, type }, { publicKey, secretKey }, meta = {}, encoded = null, encTypes) {
const decodePkcs8 = (passphrase, userEncoded) => {
const decoded = (0, decode_js_1.decodePair)(passphrase, userEncoded || encoded, encTypes);
if (decoded.secretKey.length === 64) {
publicKey = decoded.publicKey;
secretKey = decoded.secretKey;
}
else {
const pair = TYPE_FROM_SEED[type](decoded.secretKey);
publicKey = pair.publicKey;
secretKey = pair.secretKey;
}
};
const recode = (passphrase) => {
isLocked(secretKey) && encoded && decodePkcs8(passphrase, encoded);
encoded = (0, encode_js_1.encodePair)({ publicKey, secretKey }, passphrase); // re-encode, latest version
encTypes = undefined; // swap to defaults, latest version follows
return encoded;
};
const encodeAddress = () => {
const raw = TYPE_ADDRESS[type](publicKey);
return type === 'ethereum'
? (0, util_crypto_1.ethereumEncode)(raw)
: toSS58(raw);
};
return {
get address() {
return encodeAddress();
},
get addressRaw() {
const raw = TYPE_ADDRESS[type](publicKey);
return type === 'ethereum'
? raw.slice(-20)
: raw;
},
get isLocked() {
return isLocked(secretKey);
},
get meta() {
return meta;
},
get publicKey() {
return publicKey;
},
get type() {
return type;
},
// eslint-disable-next-line sort-keys
decodePkcs8,
derive: (suri, meta) => {
if (type === 'ethereum') {
throw new Error('Unable to derive on this keypair');
}
else if (isLocked(secretKey)) {
throw new Error('Cannot derive on a locked keypair');
}
const { path } = (0, util_crypto_1.keyExtractPath)(suri);
const derived = (0, util_crypto_1.keyFromPath)({ publicKey, secretKey }, path, type);
return createPair({ toSS58, type }, derived, meta, null);
},
encodePkcs8: (passphrase) => {
return recode(passphrase);
},
lock: () => {
secretKey = new Uint8Array();
},
setMeta: (additional) => {
meta = (0, util_1.objectSpread)({}, meta, additional);
},
sign: (message, options = {}) => {
if (isLocked(secretKey)) {
throw new Error('Cannot sign with a locked key pair');
}
return (0, util_1.u8aConcat)(options.withType
? TYPE_PREFIX[type]
: SIG_TYPE_NONE, TYPE_SIGNATURE[type]((0, util_1.u8aToU8a)(message), { publicKey, secretKey }));
},
toJson: (passphrase) => {
// NOTE: For ecdsa and ethereum, the publicKey cannot be extracted from the address. For these
// pass the hex-encoded publicKey through to the address portion of the JSON (before decoding)
// unless the publicKey is already an address
const address = ['ecdsa', 'ethereum'].includes(type)
? publicKey.length === 20
? (0, util_1.u8aToHex)(publicKey)
: (0, util_1.u8aToHex)((0, util_crypto_1.secp256k1Compress)(publicKey))
: encodeAddress();
return (0, toJson_js_1.pairToJson)(type, { address, meta }, recode(passphrase), !!passphrase);
},
unlock: (passphrase) => {
return decodePkcs8(passphrase);
},
verify: (message, signature, signerPublic) => {
return (0, util_crypto_1.signatureVerify)(message, signature, TYPE_ADDRESS[type]((0, util_1.u8aToU8a)(signerPublic))).isValid;
},
vrfSign: (message, context, extra) => {
if (isLocked(secretKey)) {
throw new Error('Cannot sign with a locked key pair');
}
if (type === 'sr25519') {
return (0, util_crypto_1.sr25519VrfSign)(message, { secretKey }, context, extra);
}
const proof = TYPE_SIGNATURE[type]((0, util_1.u8aToU8a)(message), { publicKey, secretKey });
return (0, util_1.u8aConcat)(vrfHash(proof, context, extra), proof);
},
vrfVerify: (message, vrfResult, signerPublic, context, extra) => {
if (type === 'sr25519') {
return (0, util_crypto_1.sr25519VrfVerify)(message, vrfResult, publicKey, context, extra);
}
const result = (0, util_crypto_1.signatureVerify)(message, (0, util_1.u8aConcat)(TYPE_PREFIX[type], vrfResult.subarray(32)), TYPE_ADDRESS[type]((0, util_1.u8aToU8a)(signerPublic)));
return result.isValid && (0, util_1.u8aEq)(vrfResult.subarray(0, 32), vrfHash(vrfResult.subarray(32), context, extra));
}
};
}
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