'use strict'; const common = require('../common'); if (!common.hasCrypto) common.skip('missing crypto'); const assert = require('assert'); const { Buffer } = require('buffer'); const { subtle } = require('crypto').webcrypto; const { createHash } = require('crypto'); const kTests = [ ['SHA-1', 'sha1', 160], ['SHA-256', 'sha256', 256], ['SHA-384', 'sha384', 384], ['SHA-512', 'sha512', 512], ]; // Empty hash just works, not checking result subtle.digest('SHA-512', Buffer.alloc(0)) .then(common.mustCall()); // TODO(@jasnell): Need to move this particular test to pummel // // Careful, this is an expensive operation because of both the memory // // allocation and the cost of performing the hash on such a large // // input. // subtle.digest('SHA-512', new ArrayBuffer(2 ** 31 - 1)) // .then(common.mustCall()); // TODO(@jasnell): Change max to 2 ** 31 - 1 // assert.rejects(subtle.digest('SHA-512', new ArrayBuffer(kMaxLength + 1)), { // code: 'ERR_OUT_OF_RANGE' // }); const kData = (new TextEncoder()).encode('hello'); (async function() { await Promise.all(kTests.map(async (test) => { // Get the digest using the legacy crypto API const checkValue = createHash(test[1]).update(kData).digest().toString('hex'); // Get the digest using the SubtleCrypto API const values = Promise.all([ subtle.digest({ name: test[0] }, kData), subtle.digest({ name: test[0], length: test[2] }, kData), subtle.digest(test[0], kData), subtle.digest(test[0], kData.buffer), subtle.digest(test[0], new DataView(kData.buffer)), subtle.digest(test[0], Buffer.from(kData)), ]); // subtle.digest copies the input data, so changing it // while we're waiting on the Promises should never // cause the test to fail. kData[0] = 0x1; kData[2] = 0x2; kData[4] = 0x3; // Compare that the legacy crypto API and SubtleCrypto API // produce the same results (await values).forEach((v) => { assert(v instanceof ArrayBuffer); assert.strictEqual(checkValue, Buffer.from(v).toString('hex')); }); })); })().then(common.mustCall()); Promise.all([1, null, undefined].map((i) => assert.rejects(subtle.digest(i, Buffer.alloc(0)), { message: /Unrecognized algorithm name/, name: 'NotSupportedError', }) )).then(common.mustCall()); assert.rejects(subtle.digest('', Buffer.alloc(0)), { message: /Unrecognized algorithm name/, name: 'NotSupportedError', }).then(common.mustCall()); Promise.all([1, [], {}, null, undefined].map((i) => assert.rejects(subtle.digest('SHA-256', i), { code: 'ERR_INVALID_ARG_TYPE' }) )).then(common.mustCall()); const kSourceData = { empty: '', short: '156eea7cc14c56cb94db030a4a9d95ff', medium: 'b6c8f9df648cd088b70f38e74197b18cb81e1e435' + '0d50bccb8fb5a7379c87bb2e3d6ed5461ed1e9f36' + 'f340a3962a446b815b794b4bd43a4403502077b22' + '56cc807837f3aacd118eb4b9c2baeb897068625ab' + 'aca193', long: null }; kSourceData.long = kSourceData.medium.repeat(1024); const kDigestedData = { 'sha-1': { empty: 'da39a3ee5e6b4b0d3255bfef95601890afd80709', short: 'c91318cdf2396a015e3f4e6a86a0ba65b8635944', medium: 'e541060870eb16bf33b68e51f513526893986729', long: '3098b50037ecd02ebd657653b2bfa01eee27a2ea' }, 'sha-256': { empty: 'e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855', short: 'a2831186984792c7d32d59c89740687f19addc1b959e71a1cc538a3b7ed843f2', medium: '535367877ef014d7fc717e5cb7843e59b61aee62c7029cec7ec6c12fd924e0e4', long: '14cdea9dc75f5a6274d9fc1e64009912f1dcd306b48fe8e9cf122de671571781' }, 'sha-384': { empty: '38b060a751ac96384cd9327eb1b1e36a21fdb71114b' + 'e07434c0cc7bf63f6e1da274edebfe76f65fbd51ad2' + 'f14898b95b', short: '6bf5ea6524d1cddc43f7cf3b56ee059227404a2f538' + 'f022a3db7447a782c06c1ed05e8ab4f5edc17f37114' + '40dfe97731', medium: 'cbc2c588fe5b25f916da28b4e47a484ae6fc1fe490' + '2dd5c9939a6bfd034ab3b48b39087436011f6a9987' + '9d279540e977', long: '49f4fdb3981968f97d57370f85345067cd5296a97dd1' + 'a18e06911e756e9608492529870e1ad130998d57cbfb' + 'b7c1d09e' }, 'sha-512': { empty: 'cf83e1357eefb8bdf1542850d66d8007d620e4050b5' + '715dc83f4a921d36ce9ce47d0d13c5d85f2b0ff8318' + 'd2877eec2f63b931bd47417a81a538327af927da3e', short: '375248be5ff34be74cab4ff1c3bc8dc68bd5f8dff40' + '23e98f87b865cff2c724292df189443a64ff4134a65' + 'cd4635b9d4f5dc0d3fb67528002a63acf26c9da575', medium: 'b9109f839e8ea43c890f293ce11dc6e2798d1e2431' + 'f1e4b919e3b20c4f36303ba39c916db306c45a3b65' + '761ff5be85328eeaf42c3830f1d95e7a41165b7d2d36', long: '4b02caf650276030ea5617e597c5d53fd9daa68b78bfe' + '60b22aab8d36a4c2a3affdb71234f49276737c575ddf7' + '4d14054cbd6fdb98fd0ddcbcb46f91ad76b6ee' } }; async function testDigest(size, name) { const digest = await subtle.digest( name, Buffer.from(kSourceData[size], 'hex')); assert.strictEqual( Buffer.from(digest).toString('hex'), kDigestedData[name.toLowerCase()][size]); } (async function() { const variations = []; Object.keys(kSourceData).forEach((size) => { Object.keys(kDigestedData).forEach((alg) => { const upCase = alg.toUpperCase(); const downCase = alg.toLowerCase(); const mixedCase = upCase.substr(0, 1) + downCase.substr(1); variations.push(testDigest(size, upCase)); variations.push(testDigest(size, downCase)); variations.push(testDigest(size, mixedCase)); }); }); await Promise.all(variations); })().then(common.mustCall()); (async () => { await assert.rejects(subtle.digest('RSA-OAEP', Buffer.alloc(1)), { name: 'NotSupportedError', }); })().then(common.mustCall());