'use strict'; require('../common'); const assert = require('assert'); const inspect = require('util').inspect; const StringDecoder = require('string_decoder').StringDecoder; // Test default encoding let decoder = new StringDecoder(); assert.strictEqual(decoder.encoding, 'utf8'); process.stdout.write('scanning '); // UTF-8 test('utf-8', Buffer.from('$', 'utf-8'), '$'); test('utf-8', Buffer.from('¢', 'utf-8'), '¢'); test('utf-8', Buffer.from('€', 'utf-8'), '€'); test('utf-8', Buffer.from('𤭢', 'utf-8'), '𤭢'); // A mixed ascii and non-ascii string // Test stolen from deps/v8/test/cctest/test-strings.cc // U+02E4 -> CB A4 // U+0064 -> 64 // U+12E4 -> E1 8B A4 // U+0030 -> 30 // U+3045 -> E3 81 85 test( 'utf-8', Buffer.from([0xCB, 0xA4, 0x64, 0xE1, 0x8B, 0xA4, 0x30, 0xE3, 0x81, 0x85]), '\u02e4\u0064\u12e4\u0030\u3045' ); // Some invalid input, known to have caused trouble with chunking // in https://github.com/nodejs/node/pull/7310#issuecomment-226445923 // 00: |00000000 ASCII // 41: |01000001 ASCII // B8: 10|111000 continuation // CC: 110|01100 two-byte head // E2: 1110|0010 three-byte head // F0: 11110|000 four-byte head // F1: 11110|001'another four-byte head // FB: 111110|11 "five-byte head", not UTF-8 test('utf-8', Buffer.from('C9B5A941', 'hex'), '\u0275\ufffdA'); test('utf-8', Buffer.from('E2', 'hex'), '\ufffd'); test('utf-8', Buffer.from('E241', 'hex'), '\ufffdA'); test('utf-8', Buffer.from('CCCCB8', 'hex'), '\ufffd\u0338'); test('utf-8', Buffer.from('F0B841', 'hex'), '\ufffd\ufffdA'); test('utf-8', Buffer.from('F1CCB8', 'hex'), '\ufffd\u0338'); test('utf-8', Buffer.from('F0FB00', 'hex'), '\ufffd\ufffd\0'); test('utf-8', Buffer.from('CCE2B8B8', 'hex'), '\ufffd\u2e38'); test('utf-8', Buffer.from('E2B8CCB8', 'hex'), '\ufffd\ufffd\u0338'); test('utf-8', Buffer.from('E2FBCC01', 'hex'), '\ufffd\ufffd\ufffd\u0001'); test('utf-8', Buffer.from('EDA0B5EDB08D', 'hex'), // CESU-8 of U+1D40D '\ufffd\ufffd\ufffd\ufffd\ufffd\ufffd'); test('utf-8', Buffer.from('CCB8CDB9', 'hex'), '\u0338\u0379'); // UCS-2 test('ucs2', Buffer.from('ababc', 'ucs2'), 'ababc'); // UTF-16LE test('utf16le', Buffer.from('3DD84DDC', 'hex'), '\ud83d\udc4d'); // thumbs up console.log(' crayon!'); // Additional UTF-8 tests decoder = new StringDecoder('utf8'); assert.strictEqual(decoder.write(Buffer.from('E1', 'hex')), ''); assert.strictEqual(decoder.end(), '\ufffd'); decoder = new StringDecoder('utf8'); assert.strictEqual(decoder.write(Buffer.from('E18B', 'hex')), ''); assert.strictEqual(decoder.end(), '\ufffd\ufffd'); decoder = new StringDecoder('utf8'); assert.strictEqual(decoder.write(Buffer.from('\ufffd')), '\ufffd'); assert.strictEqual(decoder.end(), ''); decoder = new StringDecoder('utf8'); assert.strictEqual(decoder.write(Buffer.from('\ufffd\ufffd\ufffd')), '\ufffd\ufffd\ufffd'); assert.strictEqual(decoder.end(), ''); decoder = new StringDecoder('utf8'); assert.strictEqual(decoder.write(Buffer.from('EFBFBDE2', 'hex')), '\ufffd'); assert.strictEqual(decoder.end(), '\ufffd'); decoder = new StringDecoder('utf8'); assert.strictEqual(decoder.write(Buffer.from('F1', 'hex')), ''); assert.strictEqual(decoder.write(Buffer.from('41F2', 'hex')), '\ufffdA'); assert.strictEqual(decoder.end(), '\ufffd'); // Additional utf8Text test decoder = new StringDecoder('utf8'); assert.strictEqual(decoder.text(Buffer.from([0x41]), 2), ''); // Additional UTF-16LE surrogate pair tests decoder = new StringDecoder('utf16le'); assert.strictEqual(decoder.write(Buffer.from('3DD8', 'hex')), ''); assert.strictEqual(decoder.write(Buffer.from('4D', 'hex')), ''); assert.strictEqual(decoder.write(Buffer.from('DC', 'hex')), '\ud83d\udc4d'); assert.strictEqual(decoder.end(), ''); decoder = new StringDecoder('utf16le'); assert.strictEqual(decoder.write(Buffer.from('3DD8', 'hex')), ''); assert.strictEqual(decoder.end(), '\ud83d'); decoder = new StringDecoder('utf16le'); assert.strictEqual(decoder.write(Buffer.from('3DD8', 'hex')), ''); assert.strictEqual(decoder.write(Buffer.from('4D', 'hex')), ''); assert.strictEqual(decoder.end(), '\ud83d'); assert.throws(() => { new StringDecoder(1); }, /^Error: Unknown encoding: 1$/); assert.throws(() => { new StringDecoder('test'); }, /^Error: Unknown encoding: test$/); // test verifies that StringDecoder will correctly decode the given input // buffer with the given encoding to the expected output. It will attempt all // possible ways to write() the input buffer, see writeSequences(). The // singleSequence allows for easy debugging of a specific sequence which is // useful in case of test failures. function test(encoding, input, expected, singleSequence) { let sequences; if (!singleSequence) { sequences = writeSequences(input.length); } else { sequences = [singleSequence]; } sequences.forEach((sequence) => { const decoder = new StringDecoder(encoding); let output = ''; sequence.forEach((write) => { output += decoder.write(input.slice(write[0], write[1])); }); output += decoder.end(); process.stdout.write('.'); if (output !== expected) { const message = 'Expected "' + unicodeEscape(expected) + '", ' + 'but got "' + unicodeEscape(output) + '"\n' + 'input: ' + input.toString('hex').match(/.{2}/g) + '\n' + 'Write sequence: ' + JSON.stringify(sequence) + '\n' + 'Full Decoder State: ' + inspect(decoder); assert.fail(output, expected, message); } }); } // unicodeEscape prints the str contents as unicode escape codes. function unicodeEscape(str) { let r = ''; for (let i = 0; i < str.length; i++) { r += '\\u' + str.charCodeAt(i).toString(16); } return r; } // writeSequences returns an array of arrays that describes all possible ways a // buffer of the given length could be split up and passed to sequential write // calls. // // e.G. writeSequences(3) will return: [ // [ [ 0, 3 ] ], // [ [ 0, 2 ], [ 2, 3 ] ], // [ [ 0, 1 ], [ 1, 3 ] ], // [ [ 0, 1 ], [ 1, 2 ], [ 2, 3 ] ] // ] function writeSequences(length, start, sequence) { if (start === undefined) { start = 0; sequence = []; } else if (start === length) { return [sequence]; } let sequences = []; for (let end = length; end > start; end--) { const subSequence = sequence.concat([[start, end]]); const subSequences = writeSequences(length, end, subSequence, sequences); sequences = sequences.concat(subSequences); } return sequences; }