'use strict'; const common = require('../common'); const fixtures = require('../common/fixtures'); if (!common.hasCrypto) common.skip('missing crypto'); const assert = require('assert'); const crypto = require('crypto'); const { subtle } = globalThis.crypto; const curves = ['P-256', 'P-384', 'P-521']; const keyData = { 'P-521': { jwsAlg: 'ES512', spki: Buffer.from( '30819b301006072a8648ce3d020106052b8104002303818600040156f479f8df' + '1e20a7ffc04ce420c3e154ae251996bee42f034b84d41b743f34e45f311b813a' + '9cdec8cda59bbbbd31d460b3292521e7c1b722e5667c03db2fae753f01501736' + 'cfe247394320d8e4afc2fd39b5a9331061b81e2241282b9e17891822b5b79e05' + '2f4597b59643fd39379c51bd5125c4f48bc3f025ce3cd36953286ccb38fb', 'hex'), pkcs8: Buffer.from( '3081ee020100301006072a8648ce3d020106052b810400230481d63081d3020' + '101044200f408758368ba930f30f76ae054fe5cd2ce7fda2c9f76a6d436cf75' + 'd66c440bfe6331c7c172a12478193c8251487bc91263fa50217f85ff636f59c' + 'd546e3ab483b4a1818903818600040156f479f8df1e20a7ffc04ce420c3e154' + 'ae251996bee42f034b84d41b743f34e45f311b813a9cdec8cda59bbbbd31d46' + '0b3292521e7c1b722e5667c03db2fae753f01501736cfe247394320d8e4afc2' + 'fd39b5a9331061b81e2241282b9e17891822b5b79e052f4597b59643fd39379' + 'c51bd5125c4f48bc3f025ce3cd36953286ccb38fb', 'hex'), jwk: { kty: 'EC', crv: 'P-521', x: 'AVb0efjfHiCn_8BM5CDD4VSuJRmWvuQvA0uE1Bt0PzTkXzEbgTqc3sjN' + 'pZu7vTHUYLMpJSHnwbci5WZ8A9svrnU_', y: 'AVAXNs_iRzlDINjkr8L9ObWpMxBhuB4iQSgrnheJGCK1t54FL0W' + 'XtZZD_Tk3nFG9USXE9IvD8CXOPNNpUyhsyzj7', d: 'APQIdYNoupMPMPdq4FT-XNLOf9osn3am1DbPddZsRAv-YzHHw' + 'XKhJHgZPIJRSHvJEmP6UCF_hf9jb1nNVG46tIO0' } }, 'P-384': { jwsAlg: 'ES384', spki: Buffer.from( '3076301006072a8648ce3d020106052b8104002203620004219c14d66617b36e' + 'c6d8856b385b73a74d344fd8ae75ef046435dda54e3b44bd5fbdebd1d08dd69e' + '2d7dc1dc218cb435bd28138cc778337a842f6bd61b240e74249f24667c2a5810' + 'a76bfc28e0335f88a6501dec01976da85afb00869cb6ace8', 'hex'), pkcs8: Buffer.from( '3081b6020100301006072a8648ce3d020106052b8104002204819e30819b0201' + '0104304537b5990784d3c2d22e96a8f92fa1aa492ee873e576a41582e144183c' + '9888d10e6b9eb4ced4b2cc4012e4ac5ea84073a16403620004219c14d66617b3' + '6ec6d8856b385b73a74d344fd8ae75ef046435dda54e3b44bd5fbdebd1d08dd6' + '9e2d7dc1dc218cb435bd28138cc778337a842f6bd61b240e74249f24667c2a58' + '10a76bfc28e0335f88a6501dec01976da85afb00869cb6ace8', 'hex'), jwk: { kty: 'EC', crv: 'P-384', x: 'IZwU1mYXs27G2IVrOFtzp000T9iude8EZDXdpU47RL1fvevR0I3Wni19wdwhjLQ1', y: 'vSgTjMd4M3qEL2vWGyQOdCSfJGZ8KlgQp2v8KOAzX4imUB3sAZdtqFr7AIactqzo', d: 'RTe1mQeE08LSLpao-S-hqkku6HPldqQVguFEGDyYiNEOa560ztSyzEAS5KxeqEBz' } }, 'P-256': { jwsAlg: 'ES256', spki: Buffer.from( '3059301306072a8648ce3d020106082a8648ce3d03010703420004d6e8328a95' + 'fe29afcdc30977b9251efbb219022807f6b14bb34695b6b4bdb93ee6684548a4' + 'ad13c49d00433c45315e8274f3540f58f5d79ef7a1b184f4c21d17', 'hex'), pkcs8: Buffer.from( '308187020100301306072a8648ce3d020106082a8648ce3d030107046d306b02' + '010104202bc2eda265e46866efa8f8f99da993175b6c85c246e15dceaed7e307' + '0f13fbf8a14403420004d6e8328a95fe29afcdc30977b9251efbb219022807f6' + 'b14bb34695b6b4bdb93ee6684548a4ad13c49d00433c45315e8274f3540f58f5' + 'd79ef7a1b184f4c21d17', 'hex'), jwk: { kty: 'EC', crv: 'P-256', x: '1ugyipX-Ka_Nwwl3uSUe-7IZAigH9rFLs0aVtrS9uT4', y: '5mhFSKStE8SdAEM8RTFegnTzVA9Y9dee96GxhPTCHRc', d: 'K8LtomXkaGbvqPj5namTF1tshcJG4V3OrtfjBw8T-_g' } }, }; const testVectors = [ { name: 'ECDSA', privateUsages: ['sign'], publicUsages: ['verify'] }, { name: 'ECDH', privateUsages: ['deriveKey', 'deriveBits'], publicUsages: [] }, ]; async function testImportSpki({ name, publicUsages }, namedCurve, extractable) { const key = await subtle.importKey( 'spki', keyData[namedCurve].spki, { name, namedCurve }, extractable, publicUsages); assert.strictEqual(key.type, 'public'); assert.strictEqual(key.extractable, extractable); assert.deepStrictEqual(key.usages, publicUsages); assert.deepStrictEqual(key.algorithm.name, name); assert.deepStrictEqual(key.algorithm.namedCurve, namedCurve); if (extractable) { // Test the roundtrip const spki = await subtle.exportKey('spki', key); assert.strictEqual( Buffer.from(spki).toString('hex'), keyData[namedCurve].spki.toString('hex')); } else { await assert.rejects( subtle.exportKey('spki', key), { message: /key is not extractable/ }); } // Bad usage await assert.rejects( subtle.importKey( 'spki', keyData[namedCurve].spki, { name, namedCurve }, extractable, ['wrapKey']), { message: /Unsupported key usage/ }); } async function testImportPkcs8( { name, privateUsages }, namedCurve, extractable) { const key = await subtle.importKey( 'pkcs8', keyData[namedCurve].pkcs8, { name, namedCurve }, extractable, privateUsages); assert.strictEqual(key.type, 'private'); assert.strictEqual(key.extractable, extractable); assert.deepStrictEqual(key.usages, privateUsages); assert.deepStrictEqual(key.algorithm.name, name); assert.deepStrictEqual(key.algorithm.namedCurve, namedCurve); if (extractable) { // Test the roundtrip const pkcs8 = await subtle.exportKey('pkcs8', key); assert.strictEqual( Buffer.from(pkcs8).toString('hex'), keyData[namedCurve].pkcs8.toString('hex')); } else { await assert.rejects( subtle.exportKey('pkcs8', key), { message: /key is not extractable/ }); } await assert.rejects( subtle.importKey( 'pkcs8', keyData[namedCurve].pkcs8, { name, namedCurve }, extractable, [/* empty usages */]), { name: 'SyntaxError', message: 'Usages cannot be empty when importing a private key.' }); } async function testImportJwk( { name, publicUsages, privateUsages }, namedCurve, extractable) { const jwk = keyData[namedCurve].jwk; const [ publicKey, privateKey, ] = await Promise.all([ subtle.importKey( 'jwk', { kty: jwk.kty, crv: jwk.crv, x: jwk.x, y: jwk.y, }, { name, namedCurve }, extractable, publicUsages), subtle.importKey( 'jwk', jwk, { name, namedCurve }, extractable, privateUsages), subtle.importKey( 'jwk', { alg: name === 'ECDSA' ? keyData[namedCurve].jwsAlg : 'ECDH-ES', kty: jwk.kty, crv: jwk.crv, x: jwk.x, y: jwk.y, }, { name, namedCurve }, extractable, publicUsages), subtle.importKey( 'jwk', { ...jwk, alg: name === 'ECDSA' ? keyData[namedCurve].jwsAlg : 'ECDH-ES', }, { name, namedCurve }, extractable, privateUsages), ]); assert.strictEqual(publicKey.type, 'public'); assert.strictEqual(privateKey.type, 'private'); assert.strictEqual(publicKey.extractable, extractable); assert.strictEqual(privateKey.extractable, extractable); assert.deepStrictEqual(publicKey.usages, publicUsages); assert.deepStrictEqual(privateKey.usages, privateUsages); assert.strictEqual(publicKey.algorithm.name, name); assert.strictEqual(privateKey.algorithm.name, name); assert.strictEqual(publicKey.algorithm.namedCurve, namedCurve); assert.strictEqual(privateKey.algorithm.namedCurve, namedCurve); if (extractable) { // Test the round trip const [ pubJwk, pvtJwk, ] = await Promise.all([ subtle.exportKey('jwk', publicKey), subtle.exportKey('jwk', privateKey), ]); assert.deepStrictEqual(pubJwk.key_ops, publicUsages); assert.strictEqual(pubJwk.ext, true); assert.strictEqual(pubJwk.kty, 'EC'); assert.strictEqual(pubJwk.x, jwk.x); assert.strictEqual(pubJwk.y, jwk.y); assert.strictEqual(pubJwk.crv, jwk.crv); assert.deepStrictEqual(pvtJwk.key_ops, privateUsages); assert.strictEqual(pvtJwk.ext, true); assert.strictEqual(pvtJwk.kty, 'EC'); assert.strictEqual(pvtJwk.x, jwk.x); assert.strictEqual(pvtJwk.y, jwk.y); assert.strictEqual(pvtJwk.crv, jwk.crv); assert.strictEqual(pvtJwk.d, jwk.d); } else { await assert.rejects( subtle.exportKey('jwk', publicKey), { message: /key is not extractable/ }); await assert.rejects( subtle.exportKey('jwk', privateKey), { message: /key is not extractable/ }); } { const invalidUse = name === 'ECDH' ? 'sig' : 'enc'; await assert.rejects( subtle.importKey( 'jwk', { ...jwk, use: invalidUse }, { name, namedCurve }, extractable, privateUsages), { message: 'Invalid JWK "use" Parameter' }); } if (name === 'ECDSA') { await assert.rejects( subtle.importKey( 'jwk', { kty: jwk.kty, x: jwk.x, y: jwk.y, crv: jwk.crv, alg: jwk.crv === 'P-256' ? 'ES384' : 'ES256' }, { name, namedCurve }, extractable, publicUsages), { message: 'JWK "alg" does not match the requested algorithm' }); await assert.rejects( subtle.importKey( 'jwk', { ...jwk, alg: jwk.crv === 'P-256' ? 'ES384' : 'ES256' }, { name, namedCurve }, extractable, privateUsages), { message: 'JWK "alg" does not match the requested algorithm' }); } for (const crv of [undefined, namedCurve === 'P-256' ? 'P-384' : 'P-256']) { await assert.rejects( subtle.importKey( 'jwk', { kty: jwk.kty, x: jwk.x, y: jwk.y, crv }, { name, namedCurve }, extractable, publicUsages), { message: 'JWK "crv" does not match the requested algorithm' }); await assert.rejects( subtle.importKey( 'jwk', { ...jwk, crv }, { name, namedCurve }, extractable, privateUsages), { message: 'JWK "crv" does not match the requested algorithm' }); } await assert.rejects( subtle.importKey( 'jwk', { ...jwk }, { name, namedCurve }, extractable, [/* empty usages */]), { name: 'SyntaxError', message: 'Usages cannot be empty when importing a private key.' }); await assert.rejects( subtle.importKey( 'jwk', { kty: jwk.kty, /* missing x */ y: jwk.y, crv: jwk.crv }, { name, namedCurve }, extractable, publicUsages), { name: 'DataError', message: 'Invalid keyData' }); } async function testImportRaw({ name, publicUsages }, namedCurve) { const jwk = keyData[namedCurve].jwk; const [publicKey] = await Promise.all([ subtle.importKey( 'raw', Buffer.concat([ Buffer.alloc(1, 0x04), Buffer.from(jwk.x, 'base64url'), Buffer.from(jwk.y, 'base64url'), ]), { name, namedCurve }, true, publicUsages), subtle.importKey( 'raw', Buffer.concat([ Buffer.alloc(1, 0x03), Buffer.from(jwk.x, 'base64url'), ]), { name, namedCurve }, true, publicUsages), ]); assert.strictEqual(publicKey.type, 'public'); assert.deepStrictEqual(publicKey.usages, publicUsages); assert.strictEqual(publicKey.algorithm.name, name); assert.strictEqual(publicKey.algorithm.namedCurve, namedCurve); } (async function() { const tests = []; for (const vector of testVectors) { for (const namedCurve of curves) { for (const extractable of [true, false]) { tests.push(testImportSpki(vector, namedCurve, extractable)); tests.push(testImportPkcs8(vector, namedCurve, extractable)); tests.push(testImportJwk(vector, namedCurve, extractable)); } tests.push(testImportRaw(vector, namedCurve)); } } await Promise.all(tests); })().then(common.mustCall()); // https://github.com/nodejs/node/issues/45859 (async function() { const compressed = Buffer.from([48, 57, 48, 19, 6, 7, 42, 134, 72, 206, 61, 2, 1, 6, 8, 42, 134, 72, 206, 61, 3, 1, 7, 3, 34, 0, 2, 210, 16, 176, 166, 249, 217, 240, 18, 134, 128, 88, 180, 63, 164, 244, 113, 1, 133, 67, 187, 160, 12, 146, 80, 223, 146, 87, 194, 172, 174, 93, 209]); // eslint-disable-line @stylistic/js/max-len const uncompressed = Buffer.from([48, 89, 48, 19, 6, 7, 42, 134, 72, 206, 61, 2, 1, 6, 8, 42, 134, 72, 206, 61, 3, 1, 7, 3, 66, 0, 4, 210, 16, 176, 166, 249, 217, 240, 18, 134, 128, 88, 180, 63, 164, 244, 113, 1, 133, 67, 187, 160, 12, 146, 80, 223, 146, 87, 194, 172, 174, 93, 209, 206, 3, 117, 82, 212, 129, 69, 12, 227, 155, 77, 16, 149, 112, 27, 23, 91, 250, 179, 75, 142, 108, 9, 158, 24, 241, 193, 152, 53, 131, 97, 232]); // eslint-disable-line @stylistic/js/max-len for (const name of ['ECDH', 'ECDSA']) { const options = { name, namedCurve: 'P-256' }; const key = await subtle.importKey('spki', compressed, options, true, []); const spki = await subtle.exportKey('spki', key); assert.deepStrictEqual(uncompressed, Buffer.from(spki)); } })().then(common.mustCall()); { const rsaPublic = crypto.createPublicKey( fixtures.readKey('rsa_public_2048.pem')); const rsaPrivate = crypto.createPrivateKey( fixtures.readKey('rsa_private_2048.pem')); for (const [name, publicUsages, privateUsages] of [ ['ECDSA', ['verify'], ['sign']], ['ECDH', [], ['deriveBits', 'deriveBits']], ]) { assert.rejects( subtle.importKey( 'spki', rsaPublic.export({ format: 'der', type: 'spki' }), { name, hash: 'SHA-256', namedCurve: 'P-256' }, true, publicUsages), { message: /Invalid key type/ }, ).then(common.mustCall()); assert.rejects( subtle.importKey( 'pkcs8', rsaPrivate.export({ format: 'der', type: 'pkcs8' }), { name, hash: 'SHA-256', namedCurve: 'P-256' }, true, privateUsages), { message: /Invalid key type/ }, ).then(common.mustCall()); } } // Bad private keys { for (const { namedCurve, key: pkcs8 } of [ // The private key is exactly equal to the order, and the public key is // private key * order. { namedCurve: 'P-256', key: Buffer.from( '3066020100301306072a8648ce3d020106082a8648ce3d030107044c304a0201' + '010420ffffffff00000000ffffffffffffffffbce6faada7179e84f3b9cac2fc' + '632551a12303210000ffffff00000000ffffffffffffffffbce6faada7179e84' + 'f3b9cac2fc632551', 'hex'), }, // The private key is exactly equal to the order, and the public key is // omitted. { namedCurve: 'P-256', key: Buffer.from( '3041020100301306072a8648ce3d020106082a8648ce3d030107042730250201' + '010420ffffffff00000000ffffffffffffffffbce6faada7179e84f3b9cac2fc' + '632551', 'hex'), }, // The private key is exactly equal to the order + 11, and the public key is // private key * order. { namedCurve: 'P-521', key: Buffer.from( '3081ee020100301006072a8648ce3d020106052b810400230481d63081d30201' + '01044201ffffffffffffffffffffffffffffffffffffffffffffffffffffffff' + 'fffffffffa51868783bf2f966b7fcc0148f709a5d03bb5c9b8899c47aebb6fb7' + '1e91386414a181890381860004008a75841259fdedff546f1a39573b4315cfed' + '5dc7ed7c17849543ef2c54f2991652f3dbc5332663da1bd19b1aebe319108501' + '5c024fa4c9a902ecc0e02dda0cdb9a0096fb303fcbba2129849d0ca877054fb2' + '293add566210bd0493ed2e95d4e0b9b82b1bc8a90e8b42a4ab3892331914a953' + '36dcac80e3f4819b5d58874f92ce48c808', 'hex'), }, // The private key is exactly equal to the order + 11, and the public key is // omitted. { namedCurve: 'P-521', key: Buffer.from( '3060020100301006072a8648ce3d020106052b81040023044930470201010442' + '01ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff' + 'fffa51868783bf2f966b7fcc0148f709a5d03bb5c9b8899c47aebb6fb71e9138' + '6414', 'hex'), }, ]) { for (const [name, privateUsages] of [ ['ECDSA', ['sign']], ['ECDH', ['deriveBits', 'deriveBits']], ]) { assert.rejects( subtle.importKey( 'pkcs8', pkcs8, { name, hash: 'SHA-256', namedCurve }, true, privateUsages), { name: 'DataError', message: /Invalid keyData/ }, ).then(common.mustCall()); } } }