const { EOL } = require('os') const errors = require('../errors') const { keyObjectSupported } = require('./runtime_support') const { createPublicKey } = require('./key_object') const base64url = require('./base64url') const asn1 = require('./asn1') const computePrimes = require('./rsa_primes') const { OKP_CURVES, EC_CURVES } = require('../registry') const formatPem = (base64pem, descriptor) => `-----BEGIN ${descriptor} KEY-----${EOL}${(base64pem.match(/.{1,64}/g) || []).join(EOL)}${EOL}-----END ${descriptor} KEY-----` const okpToJWK = { private (crv, keyObject) { const der = keyObject.export({ type: 'pkcs8', format: 'der' }) const OneAsymmetricKey = asn1.get('OneAsymmetricKey') const { privateKey: { privateKey: d } } = OneAsymmetricKey.decode(der) return { ...okpToJWK.public(crv, createPublicKey(keyObject)), d: base64url.encodeBuffer(d) } }, public (crv, keyObject) { const der = keyObject.export({ type: 'spki', format: 'der' }) const PublicKeyInfo = asn1.get('PublicKeyInfo') const { publicKey: { data: x } } = PublicKeyInfo.decode(der) return { kty: 'OKP', crv, x: base64url.encodeBuffer(x) } } } const keyObjectToJWK = { rsa: { private (keyObject) { const der = keyObject.export({ type: 'pkcs8', format: 'der' }) const PrivateKeyInfo = asn1.get('PrivateKeyInfo') const RSAPrivateKey = asn1.get('RSAPrivateKey') const { privateKey } = PrivateKeyInfo.decode(der) const { version, n, e, d, p, q, dp, dq, qi } = RSAPrivateKey.decode(privateKey) if (version !== 'two-prime') { throw new errors.JOSENotSupported('Private RSA keys with more than two primes are not supported') } return { kty: 'RSA', n: base64url.encodeBigInt(n), e: base64url.encodeBigInt(e), d: base64url.encodeBigInt(d), p: base64url.encodeBigInt(p), q: base64url.encodeBigInt(q), dp: base64url.encodeBigInt(dp), dq: base64url.encodeBigInt(dq), qi: base64url.encodeBigInt(qi) } }, public (keyObject) { const der = keyObject.export({ type: 'spki', format: 'der' }) const PublicKeyInfo = asn1.get('PublicKeyInfo') const RSAPublicKey = asn1.get('RSAPublicKey') const { publicKey: { data: publicKey } } = PublicKeyInfo.decode(der) const { n, e } = RSAPublicKey.decode(publicKey) return { kty: 'RSA', n: base64url.encodeBigInt(n), e: base64url.encodeBigInt(e) } } }, ec: { private (keyObject) { const der = keyObject.export({ type: 'pkcs8', format: 'der' }) const PrivateKeyInfo = asn1.get('PrivateKeyInfo') const ECPrivateKey = asn1.get('ECPrivateKey') const { privateKey, algorithm: { parameters: { value: crv } } } = PrivateKeyInfo.decode(der) const { privateKey: d, publicKey } = ECPrivateKey.decode(privateKey) if (typeof publicKey === 'undefined') { if (keyObjectSupported) { return { ...keyObjectToJWK.ec.public(createPublicKey(keyObject)), d: base64url.encodeBuffer(d) } } throw new errors.JOSENotSupported('Private EC keys without the public key embedded are not supported in your Node.js runtime version') } const x = publicKey.data.slice(1, ((publicKey.data.length - 1) / 2) + 1) const y = publicKey.data.slice(((publicKey.data.length - 1) / 2) + 1) return { kty: 'EC', crv, d: base64url.encodeBuffer(d), x: base64url.encodeBuffer(x), y: base64url.encodeBuffer(y) } }, public (keyObject) { const der = keyObject.export({ type: 'spki', format: 'der' }) const PublicKeyInfo = asn1.get('PublicKeyInfo') const { publicKey: { data: publicKey }, algorithm: { parameters: { value: crv } } } = PublicKeyInfo.decode(der) const x = publicKey.slice(1, ((publicKey.length - 1) / 2) + 1) const y = publicKey.slice(((publicKey.length - 1) / 2) + 1) return { kty: 'EC', crv, x: base64url.encodeBuffer(x), y: base64url.encodeBuffer(y) } } }, ed25519: { private (keyObject) { return okpToJWK.private('Ed25519', keyObject) }, public (keyObject) { return okpToJWK.public('Ed25519', keyObject) } }, ed448: { private (keyObject) { return okpToJWK.private('Ed448', keyObject) }, public (keyObject) { return okpToJWK.public('Ed448', keyObject) } }, x25519: { private (keyObject) { return okpToJWK.private('X25519', keyObject) }, public (keyObject) { return okpToJWK.public('X25519', keyObject) } }, x448: { private (keyObject) { return okpToJWK.private('X448', keyObject) }, public (keyObject) { return okpToJWK.public('X448', keyObject) } } } module.exports.keyObjectToJWK = (keyObject) => { if (keyObject.type === 'private') { return keyObjectToJWK[keyObject.asymmetricKeyType].private(keyObject) } return keyObjectToJWK[keyObject.asymmetricKeyType].public(keyObject) } const concatEcPublicKey = (x, y) => ({ unused: 0, data: Buffer.concat([ Buffer.alloc(1, 4), base64url.decodeToBuffer(x), base64url.decodeToBuffer(y) ]) }) const jwkToPem = { RSA: { private (jwk, { calculateMissingRSAPrimes }) { const RSAPrivateKey = asn1.get('RSAPrivateKey') if ('oth' in jwk) { throw new errors.JOSENotSupported('Private RSA keys with more than two primes are not supported') } if (jwk.p || jwk.q || jwk.dp || jwk.dq || jwk.qi) { if (!(jwk.p && jwk.q && jwk.dp && jwk.dq && jwk.qi)) { throw new errors.JWKInvalid('all other private key parameters must be present when any one of them is present') } } else if (calculateMissingRSAPrimes) { jwk = computePrimes(jwk) } else if (!calculateMissingRSAPrimes) { throw new errors.JOSENotSupported('importing private RSA keys without all other private key parameters is not enabled, see documentation and its advisory on how and when its ok to enable it') } return RSAPrivateKey.encode({ version: 0, n: BigInt(`0x${base64url.decodeToBuffer(jwk.n).toString('hex')}`), e: BigInt(`0x${base64url.decodeToBuffer(jwk.e).toString('hex')}`), d: BigInt(`0x${base64url.decodeToBuffer(jwk.d).toString('hex')}`), p: BigInt(`0x${base64url.decodeToBuffer(jwk.p).toString('hex')}`), q: BigInt(`0x${base64url.decodeToBuffer(jwk.q).toString('hex')}`), dp: BigInt(`0x${base64url.decodeToBuffer(jwk.dp).toString('hex')}`), dq: BigInt(`0x${base64url.decodeToBuffer(jwk.dq).toString('hex')}`), qi: BigInt(`0x${base64url.decodeToBuffer(jwk.qi).toString('hex')}`) }, 'pem', { label: 'RSA PRIVATE KEY' }) }, public (jwk) { const RSAPublicKey = asn1.get('RSAPublicKey') return RSAPublicKey.encode({ version: 0, n: BigInt(`0x${base64url.decodeToBuffer(jwk.n).toString('hex')}`), e: BigInt(`0x${base64url.decodeToBuffer(jwk.e).toString('hex')}`) }, 'pem', { label: 'RSA PUBLIC KEY' }) } }, EC: { private (jwk) { const ECPrivateKey = asn1.get('ECPrivateKey') return ECPrivateKey.encode({ version: 1, privateKey: base64url.decodeToBuffer(jwk.d), parameters: { type: 'namedCurve', value: jwk.crv }, publicKey: concatEcPublicKey(jwk.x, jwk.y) }, 'pem', { label: 'EC PRIVATE KEY' }) }, public (jwk) { const PublicKeyInfo = asn1.get('PublicKeyInfo') return PublicKeyInfo.encode({ algorithm: { algorithm: 'ecPublicKey', parameters: { type: 'namedCurve', value: jwk.crv } }, publicKey: concatEcPublicKey(jwk.x, jwk.y) }, 'pem', { label: 'PUBLIC KEY' }) } }, OKP: { private (jwk) { const OneAsymmetricKey = asn1.get('OneAsymmetricKey') const b64 = OneAsymmetricKey.encode({ version: 0, privateKey: { privateKey: base64url.decodeToBuffer(jwk.d) }, algorithm: { algorithm: jwk.crv } }, 'der') // TODO: WHYYY? https://github.com/indutny/asn1.js/issues/110 b64.write('04', 12, 1, 'hex') return formatPem(b64.toString('base64'), 'PRIVATE') }, public (jwk) { const PublicKeyInfo = asn1.get('PublicKeyInfo') return PublicKeyInfo.encode({ algorithm: { algorithm: jwk.crv }, publicKey: { unused: 0, data: base64url.decodeToBuffer(jwk.x) } }, 'pem', { label: 'PUBLIC KEY' }) } } } module.exports.jwkToPem = (jwk, { calculateMissingRSAPrimes = false } = {}) => { switch (jwk.kty) { case 'EC': if (!EC_CURVES.has(jwk.crv)) { throw new errors.JOSENotSupported(`unsupported EC key curve: ${jwk.crv}`) } break case 'OKP': if (!OKP_CURVES.has(jwk.crv)) { throw new errors.JOSENotSupported(`unsupported OKP key curve: ${jwk.crv}`) } break case 'RSA': break default: throw new errors.JOSENotSupported(`unsupported key type: ${jwk.kty}`) } if (jwk.d) { return jwkToPem[jwk.kty].private(jwk, { calculateMissingRSAPrimes }) } return jwkToPem[jwk.kty].public(jwk) }