'use strict'; var common = require('../common'); var assert = require('assert'); var util = require('util'); if (!common.hasCrypto) { console.log('1..0 # Skipped: missing crypto'); return; } var crypto = require('crypto'); crypto.DEFAULT_ENCODING = 'buffer'; var fs = require('fs'); // Test Certificates var caPem = fs.readFileSync(common.fixturesDir + '/test_ca.pem', 'ascii'); var certPem = fs.readFileSync(common.fixturesDir + '/test_cert.pem', 'ascii'); var certPfx = fs.readFileSync(common.fixturesDir + '/test_cert.pfx'); var keyPem = fs.readFileSync(common.fixturesDir + '/test_key.pem', 'ascii'); var tls = require('tls'); // 'this' safety // https://github.com/joyent/node/issues/6690 assert.throws(function() { var options = {key: keyPem, cert: certPem, ca: caPem}; var credentials = crypto.createCredentials(options); var context = credentials.context; var notcontext = { setOptions: context.setOptions, setKey: context.setKey }; crypto.createCredentials({ secureOptions: 1 }, notcontext); }, TypeError); // PFX tests assert.doesNotThrow(function() { tls.createSecureContext({pfx:certPfx, passphrase:'sample'}); }); assert.throws(function() { tls.createSecureContext({pfx:certPfx}); }, 'mac verify failure'); assert.throws(function() { tls.createSecureContext({pfx:certPfx, passphrase:'test'}); }, 'mac verify failure'); assert.throws(function() { tls.createSecureContext({pfx:'sample', passphrase:'test'}); }, 'not enough data'); // update() should only take buffers / strings assert.throws(function() { crypto.createHash('sha1').update({foo: 'bar'}); }, /buffer/); function assertSorted(list) { // Array#sort() modifies the list in place so make a copy. var sorted = util._extend([], list).sort(); assert.deepEqual(list, sorted); } // Assume that we have at least AES-128-CBC. assert.notEqual(0, crypto.getCiphers().length); assert.notEqual(-1, crypto.getCiphers().indexOf('aes-128-cbc')); assert.equal(-1, crypto.getCiphers().indexOf('AES-128-CBC')); assertSorted(crypto.getCiphers()); // Assume that we have at least AES256-SHA. var tls = require('tls'); assert.notEqual(0, tls.getCiphers().length); assert.notEqual(-1, tls.getCiphers().indexOf('aes256-sha')); assert.equal(-1, tls.getCiphers().indexOf('AES256-SHA')); assertSorted(tls.getCiphers()); // Assert that we have sha and sha1 but not SHA and SHA1. assert.notEqual(0, crypto.getHashes().length); assert.notEqual(-1, crypto.getHashes().indexOf('sha1')); assert.notEqual(-1, crypto.getHashes().indexOf('sha')); assert.equal(-1, crypto.getHashes().indexOf('SHA1')); assert.equal(-1, crypto.getHashes().indexOf('SHA')); assert.notEqual(-1, crypto.getHashes().indexOf('RSA-SHA1')); assert.equal(-1, crypto.getHashes().indexOf('rsa-sha1')); assertSorted(crypto.getHashes()); // Assume that we have at least secp384r1. assert.notEqual(0, crypto.getCurves().length); assert.notEqual(-1, crypto.getCurves().indexOf('secp384r1')); assert.equal(-1, crypto.getCurves().indexOf('SECP384R1')); assertSorted(crypto.getCurves()); // Regression tests for #5725: hex input that's not a power of two should // throw, not assert in C++ land. assert.throws(function() { crypto.createCipher('aes192', 'test').update('0', 'hex'); }, common.hasFipsCrypto ? /not supported in FIPS mode/ : /Bad input string/); assert.throws(function() { crypto.createDecipher('aes192', 'test').update('0', 'hex'); }, common.hasFipsCrypto ? /not supported in FIPS mode/ : /Bad input string/); assert.throws(function() { crypto.createHash('sha1').update('0', 'hex'); }, /Bad input string/); assert.throws(function() { crypto.createSign('RSA-SHA1').update('0', 'hex'); }, /Bad input string/); assert.throws(function() { crypto.createVerify('RSA-SHA1').update('0', 'hex'); }, /Bad input string/); assert.throws(function() { var priv = [ '-----BEGIN RSA PRIVATE KEY-----', 'MIGrAgEAAiEA+3z+1QNF2/unumadiwEr+C5vfhezsb3hp4jAnCNRpPcCAwEAAQIgQNriSQK4', 'EFwczDhMZp2dvbcz7OUUyt36z3S4usFPHSECEQD/41K7SujrstBfoCPzwC1xAhEA+5kt4BJy', 'eKN7LggbF3Dk5wIQN6SL+fQ5H/+7NgARsVBp0QIRANxYRukavs4QvuyNhMx+vrkCEQCbf6j/', 'Ig6/HueCK/0Jkmp+', '-----END RSA PRIVATE KEY-----', '' ].join('\n'); crypto.createSign('RSA-SHA256').update('test').sign(priv); }, /digest too big for rsa key/); assert.throws(function() { // The correct header inside `test_bad_rsa_privkey.pem` should have been // -----BEGIN PRIVATE KEY----- and -----END PRIVATE KEY----- // instead of // -----BEGIN RSA PRIVATE KEY----- and -----END RSA PRIVATE KEY----- // It is generated in this way: // $ openssl genrsa -out mykey.pem 512; // $ openssl pkcs8 -topk8 -inform PEM -outform PEM -in mykey.pem \ // -out private_key.pem -nocrypt; // Then open private_key.pem and change its header and footer. var sha1_privateKey = fs.readFileSync(common.fixturesDir + '/test_bad_rsa_privkey.pem', 'ascii'); // this would inject errors onto OpenSSL's error stack crypto.createSign('sha1').sign(sha1_privateKey); }, /asn1 encoding routines:ASN1_CHECK_TLEN:wrong tag/); // Make sure memory isn't released before being returned console.log(crypto.randomBytes(16));