// Flags: --expose-internals 'use strict'; const common = require('../common'); const assert = require('assert'); const { codes: { ERR_OUT_OF_RANGE } } = require('internal/errors'); const { internalBinding } = require('internal/test/binding'); const SIZE = 28; const buf1 = Buffer.allocUnsafe(SIZE); const buf2 = Buffer.allocUnsafe(SIZE); // Default encoding testBufs('abc'); testBufs('\u0222aa'); testBufs('a\u0234b\u0235c\u0236'); testBufs('abc', 4); testBufs('abc', 5); testBufs('abc', SIZE); testBufs('\u0222aa', 2); testBufs('\u0222aa', 8); testBufs('a\u0234b\u0235c\u0236', 4); testBufs('a\u0234b\u0235c\u0236', 12); testBufs('abc', 4, 1); testBufs('abc', 5, 1); testBufs('\u0222aa', 8, 1); testBufs('a\u0234b\u0235c\u0236', 4, 1); testBufs('a\u0234b\u0235c\u0236', 12, 1); // UTF8 testBufs('abc', 'utf8'); testBufs('\u0222aa', 'utf8'); testBufs('a\u0234b\u0235c\u0236', 'utf8'); testBufs('abc', 4, 'utf8'); testBufs('abc', 5, 'utf8'); testBufs('abc', SIZE, 'utf8'); testBufs('\u0222aa', 2, 'utf8'); testBufs('\u0222aa', 8, 'utf8'); testBufs('a\u0234b\u0235c\u0236', 4, 'utf8'); testBufs('a\u0234b\u0235c\u0236', 12, 'utf8'); testBufs('abc', 4, 1, 'utf8'); testBufs('abc', 5, 1, 'utf8'); testBufs('\u0222aa', 8, 1, 'utf8'); testBufs('a\u0234b\u0235c\u0236', 4, 1, 'utf8'); testBufs('a\u0234b\u0235c\u0236', 12, 1, 'utf8'); assert.strictEqual(Buffer.allocUnsafe(1).fill(0).fill('\u0222')[0], 0xc8); // BINARY testBufs('abc', 'binary'); testBufs('\u0222aa', 'binary'); testBufs('a\u0234b\u0235c\u0236', 'binary'); testBufs('abc', 4, 'binary'); testBufs('abc', 5, 'binary'); testBufs('abc', SIZE, 'binary'); testBufs('\u0222aa', 2, 'binary'); testBufs('\u0222aa', 8, 'binary'); testBufs('a\u0234b\u0235c\u0236', 4, 'binary'); testBufs('a\u0234b\u0235c\u0236', 12, 'binary'); testBufs('abc', 4, 1, 'binary'); testBufs('abc', 5, 1, 'binary'); testBufs('\u0222aa', 8, 1, 'binary'); testBufs('a\u0234b\u0235c\u0236', 4, 1, 'binary'); testBufs('a\u0234b\u0235c\u0236', 12, 1, 'binary'); // LATIN1 testBufs('abc', 'latin1'); testBufs('\u0222aa', 'latin1'); testBufs('a\u0234b\u0235c\u0236', 'latin1'); testBufs('abc', 4, 'latin1'); testBufs('abc', 5, 'latin1'); testBufs('abc', SIZE, 'latin1'); testBufs('\u0222aa', 2, 'latin1'); testBufs('\u0222aa', 8, 'latin1'); testBufs('a\u0234b\u0235c\u0236', 4, 'latin1'); testBufs('a\u0234b\u0235c\u0236', 12, 'latin1'); testBufs('abc', 4, 1, 'latin1'); testBufs('abc', 5, 1, 'latin1'); testBufs('\u0222aa', 8, 1, 'latin1'); testBufs('a\u0234b\u0235c\u0236', 4, 1, 'latin1'); testBufs('a\u0234b\u0235c\u0236', 12, 1, 'latin1'); // UCS2 testBufs('abc', 'ucs2'); testBufs('\u0222aa', 'ucs2'); testBufs('a\u0234b\u0235c\u0236', 'ucs2'); testBufs('abc', 4, 'ucs2'); testBufs('abc', SIZE, 'ucs2'); testBufs('\u0222aa', 2, 'ucs2'); testBufs('\u0222aa', 8, 'ucs2'); testBufs('a\u0234b\u0235c\u0236', 4, 'ucs2'); testBufs('a\u0234b\u0235c\u0236', 12, 'ucs2'); testBufs('abc', 4, 1, 'ucs2'); testBufs('abc', 5, 1, 'ucs2'); testBufs('\u0222aa', 8, 1, 'ucs2'); testBufs('a\u0234b\u0235c\u0236', 4, 1, 'ucs2'); testBufs('a\u0234b\u0235c\u0236', 12, 1, 'ucs2'); assert.strictEqual(Buffer.allocUnsafe(1).fill('\u0222', 'ucs2')[0], 0x22); // HEX testBufs('616263', 'hex'); testBufs('c8a26161', 'hex'); testBufs('61c8b462c8b563c8b6', 'hex'); testBufs('616263', 4, 'hex'); testBufs('616263', 5, 'hex'); testBufs('616263', SIZE, 'hex'); testBufs('c8a26161', 2, 'hex'); testBufs('c8a26161', 8, 'hex'); testBufs('61c8b462c8b563c8b6', 4, 'hex'); testBufs('61c8b462c8b563c8b6', 12, 'hex'); testBufs('616263', 4, 1, 'hex'); testBufs('616263', 5, 1, 'hex'); testBufs('c8a26161', 8, 1, 'hex'); testBufs('61c8b462c8b563c8b6', 4, 1, 'hex'); testBufs('61c8b462c8b563c8b6', 12, 1, 'hex'); common.expectsError(() => { const buf = Buffer.allocUnsafe(SIZE); buf.fill('yKJh', 'hex'); }, { code: 'ERR_INVALID_ARG_VALUE', type: TypeError }); common.expectsError(() => { const buf = Buffer.allocUnsafe(SIZE); buf.fill('\u0222', 'hex'); }, { code: 'ERR_INVALID_ARG_VALUE', type: TypeError }); // BASE64 testBufs('YWJj', 'ucs2'); testBufs('yKJhYQ==', 'ucs2'); testBufs('Yci0Ysi1Y8i2', 'ucs2'); testBufs('YWJj', 4, 'ucs2'); testBufs('YWJj', SIZE, 'ucs2'); testBufs('yKJhYQ==', 2, 'ucs2'); testBufs('yKJhYQ==', 8, 'ucs2'); testBufs('Yci0Ysi1Y8i2', 4, 'ucs2'); testBufs('Yci0Ysi1Y8i2', 12, 'ucs2'); testBufs('YWJj', 4, 1, 'ucs2'); testBufs('YWJj', 5, 1, 'ucs2'); testBufs('yKJhYQ==', 8, 1, 'ucs2'); testBufs('Yci0Ysi1Y8i2', 4, 1, 'ucs2'); testBufs('Yci0Ysi1Y8i2', 12, 1, 'ucs2'); // Buffer function deepStrictEqualValues(buf, arr) { for (const [index, value] of buf.entries()) { assert.deepStrictEqual(value, arr[index]); } } const buf2Fill = Buffer.allocUnsafe(1).fill(2); deepStrictEqualValues(genBuffer(4, [buf2Fill]), [2, 2, 2, 2]); deepStrictEqualValues(genBuffer(4, [buf2Fill, 1]), [0, 2, 2, 2]); deepStrictEqualValues(genBuffer(4, [buf2Fill, 1, 3]), [0, 2, 2, 0]); deepStrictEqualValues(genBuffer(4, [buf2Fill, 1, 1]), [0, 0, 0, 0]); const hexBufFill = Buffer.allocUnsafe(2).fill(0).fill('0102', 'hex'); deepStrictEqualValues(genBuffer(4, [hexBufFill]), [1, 2, 1, 2]); deepStrictEqualValues(genBuffer(4, [hexBufFill, 1]), [0, 1, 2, 1]); deepStrictEqualValues(genBuffer(4, [hexBufFill, 1, 3]), [0, 1, 2, 0]); deepStrictEqualValues(genBuffer(4, [hexBufFill, 1, 1]), [0, 0, 0, 0]); // Check exceptions [ [0, -1], [0, 0, buf1.length + 1], ['', -1], ['', 0, buf1.length + 1], ['', 1, -1], ].forEach((args) => { common.expectsError( () => buf1.fill(...args), { code: 'ERR_OUT_OF_RANGE' } ); }); common.expectsError( () => buf1.fill('a', 0, buf1.length, 'node rocks!'), { code: 'ERR_UNKNOWN_ENCODING', type: TypeError, message: 'Unknown encoding: node rocks!' } ); [ ['a', 0, 0, NaN], ['a', 0, 0, false] ].forEach((args) => { common.expectsError( () => buf1.fill(...args), { code: 'ERR_INVALID_ARG_TYPE', message: 'The "encoding" argument must be of type ' + `string. Received type ${args[3] === null ? 'null' : typeof args[3]}` } ); }); common.expectsError( () => buf1.fill('a', 0, 0, 'foo'), { code: 'ERR_UNKNOWN_ENCODING', type: TypeError, message: 'Unknown encoding: foo' } ); function genBuffer(size, args) { const b = Buffer.allocUnsafe(size); return b.fill(0).fill.apply(b, args); } function bufReset() { buf1.fill(0); buf2.fill(0); } // This is mostly accurate. Except write() won't write partial bytes to the // string while fill() blindly copies bytes into memory. To account for that an // error will be thrown if not all the data can be written, and the SIZE has // been massaged to work with the input characters. function writeToFill(string, offset, end, encoding) { if (typeof offset === 'string') { encoding = offset; offset = 0; end = buf2.length; } else if (typeof end === 'string') { encoding = end; end = buf2.length; } else if (end === undefined) { end = buf2.length; } // Should never be reached. if (offset < 0 || end > buf2.length) throw new ERR_OUT_OF_RANGE(); if (end <= offset) return buf2; offset >>>= 0; end >>>= 0; assert(offset <= buf2.length); // Convert "end" to "length" (which write understands). const length = end - offset < 0 ? 0 : end - offset; let wasZero = false; do { const written = buf2.write(string, offset, length, encoding); offset += written; // Safety check in case write falls into infinite loop. if (written === 0) { if (wasZero) throw new Error('Could not write all data to Buffer'); else wasZero = true; } } while (offset < buf2.length); return buf2; } function testBufs(string, offset, length, encoding) { bufReset(); buf1.fill.apply(buf1, arguments); // Swap bytes on BE archs for ucs2 encoding. assert.deepStrictEqual(buf1.fill.apply(buf1, arguments), writeToFill.apply(null, arguments)); } // Make sure these throw. common.expectsError( () => Buffer.allocUnsafe(8).fill('a', -1), { code: 'ERR_OUT_OF_RANGE' }); common.expectsError( () => Buffer.allocUnsafe(8).fill('a', 0, 9), { code: 'ERR_OUT_OF_RANGE' }); // Make sure this doesn't hang indefinitely. Buffer.allocUnsafe(8).fill(''); Buffer.alloc(8, ''); { const buf = Buffer.alloc(64, 10); for (let i = 0; i < buf.length; i++) assert.strictEqual(buf[i], 10); buf.fill(11, 0, buf.length >> 1); for (let i = 0; i < buf.length >> 1; i++) assert.strictEqual(buf[i], 11); for (let i = (buf.length >> 1) + 1; i < buf.length; i++) assert.strictEqual(buf[i], 10); buf.fill('h'); for (let i = 0; i < buf.length; i++) assert.strictEqual('h'.charCodeAt(0), buf[i]); buf.fill(0); for (let i = 0; i < buf.length; i++) assert.strictEqual(buf[i], 0); buf.fill(null); for (let i = 0; i < buf.length; i++) assert.strictEqual(buf[i], 0); buf.fill(1, 16, 32); for (let i = 0; i < 16; i++) assert.strictEqual(buf[i], 0); for (let i = 16; i < 32; i++) assert.strictEqual(buf[i], 1); for (let i = 32; i < buf.length; i++) assert.strictEqual(buf[i], 0); } { const buf = Buffer.alloc(10, 'abc'); assert.strictEqual(buf.toString(), 'abcabcabca'); buf.fill('է'); assert.strictEqual(buf.toString(), 'էէէէէ'); } // Testing process.binding. Make sure "start" is properly checked for -1 wrap // around. assert.strictEqual( internalBinding('buffer').fill(Buffer.alloc(1), 1, -1, 0, 1), -2); // Make sure "end" is properly checked, even if it's magically mangled using // Symbol.toPrimitive. { let elseWasLast = false; const expectedErrorMessage = 'The value of "end" is out of range. It must be >= 0 and <= 1. Received -1'; common.expectsError(() => { let ctr = 0; const end = { [Symbol.toPrimitive]() { // We use this condition to get around the check in lib/buffer.js if (ctr === 0) { elseWasLast = false; ctr++; return 1; } elseWasLast = true; // Once buffer.js calls the C++ implementation of fill, return -1 return -1; } }; Buffer.alloc(1).fill(Buffer.alloc(1), 0, end); }, { code: 'ERR_OUT_OF_RANGE', type: RangeError, message: expectedErrorMessage }); // Make sure -1 is making it to Buffer::Fill(). assert.ok(elseWasLast, 'internal API changed, -1 no longer in correct location'); } // Testing process.binding. Make sure "end" is properly checked for -1 wrap // around. assert.strictEqual( internalBinding('buffer').fill(Buffer.alloc(1), 1, 1, -2, 1), -2); // Test that bypassing 'length' won't cause an abort. common.expectsError(() => { const buf = Buffer.from('w00t'); Object.defineProperty(buf, 'length', { value: 1337, enumerable: true }); buf.fill(''); }, { code: 'ERR_BUFFER_OUT_OF_BOUNDS', type: RangeError, message: 'Attempt to write outside buffer bounds' }); assert.deepStrictEqual( Buffer.allocUnsafeSlow(16).fill('ab', 'utf16le'), Buffer.from('61006200610062006100620061006200', 'hex')); assert.deepStrictEqual( Buffer.allocUnsafeSlow(15).fill('ab', 'utf16le'), Buffer.from('610062006100620061006200610062', 'hex')); assert.deepStrictEqual( Buffer.allocUnsafeSlow(16).fill('ab', 'utf16le'), Buffer.from('61006200610062006100620061006200', 'hex')); assert.deepStrictEqual( Buffer.allocUnsafeSlow(16).fill('a', 'utf16le'), Buffer.from('61006100610061006100610061006100', 'hex')); assert.strictEqual( Buffer.allocUnsafeSlow(16).fill('a', 'utf16le').toString('utf16le'), 'a'.repeat(8)); assert.strictEqual( Buffer.allocUnsafeSlow(16).fill('a', 'latin1').toString('latin1'), 'a'.repeat(16)); assert.strictEqual( Buffer.allocUnsafeSlow(16).fill('a', 'utf8').toString('utf8'), 'a'.repeat(16)); assert.strictEqual( Buffer.allocUnsafeSlow(16).fill('Љ', 'utf16le').toString('utf16le'), 'Љ'.repeat(8)); assert.strictEqual( Buffer.allocUnsafeSlow(16).fill('Љ', 'latin1').toString('latin1'), '\t'.repeat(16)); assert.strictEqual( Buffer.allocUnsafeSlow(16).fill('Љ', 'utf8').toString('utf8'), 'Љ'.repeat(8)); common.expectsError(() => { const buf = Buffer.from('a'.repeat(1000)); buf.fill('This is not correctly encoded', 'hex'); }, { code: 'ERR_INVALID_ARG_VALUE', type: TypeError });