/** * @license * Copyright 2019-2020 Balena Ltd. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ import { fs } from 'mz'; import Logger = require('./logger'); import { isV12 } from './version'; const globalLogger = Logger.getLogger(); // Define file size threshold (bytes) over which analysis/conversion is not performed. const LARGE_FILE_THRESHOLD = 10 * 1000 * 1000; // Note that `convertEolInPlace()` only works with UTF-8 or single-byte encodings const CONVERTIBLE_ENCODINGS = ['ascii', 'utf-8']; // Maximum number of bytes to consider when detecting the file encoding const DETECT_MAX_BYTES = 1024; /** * Convert EOL (CRLF → LF) in place, i.e. modifying the input buffer. * Safe for UTF-8, ASCII and 8-bit encodings (like 'latin-1', 'iso-8859-1', ...), * but not safe for UTF-16 or UTF-32. * Return a new buffer object sharing the same contents memory space as the * input buffer (using Buffer.slice()), in order to safely reflect the new * buffer size. * @param buf */ export function convertEolInPlace(buf: Buffer): Buffer { const CR = 13; const LF = 10; let foundCR = false; let j; // Algorithm gist: // - i and j are running indexes over the same buffer, but think of it as // i pointing to the input buffer, and j pointing to the output buffer. // - i and j are incremented by 1 in every loop iteration, but if a LF is found // after a CR, then j is decremented by 1, and LF is written. Invariant: j <= i. for (let i = (j = 0); i < buf.length; i++, j++) { const b = (buf[j] = buf[i]); if (b === CR) { foundCR = true; } else { if (foundCR && b === LF) { j--; // decrement index of "output buffer" buf[j] = LF; // overwrite previous CR with LF } foundCR = false; } } return buf.slice(0, j); } /** * Drop-in replacement for promisified fs.readFile() * Attempts to convert EOLs from CRLF to LF for supported encodings, * or otherwise logs warnings. * @param filepath * @param convertEol When true, performs conversions, otherwise just warns. */ export async function readFileWithEolConversion( filepath: string, convertEol: boolean, ): Promise { const fileBuffer = await fs.readFile(filepath); // Skip processing of very large files const fileStats = await fs.stat(filepath); if (fileStats.size > LARGE_FILE_THRESHOLD) { globalLogger.logWarn(`CRLF detection skipped for large file: ${filepath}`); return fileBuffer; } // Analyse encoding const encoding = await detectEncoding(fileBuffer); // Skip further processing of non-convertible encodings if (!CONVERTIBLE_ENCODINGS.includes(encoding)) { return fileBuffer; } // Skip further processing of files that don't contain CRLF if (!fileBuffer.includes('\r\n')) { return fileBuffer; } if (convertEol) { // Convert CRLF->LF globalLogger.logInfo( `Converting line endings CRLF -> LF for file: ${filepath}`, ); return convertEolInPlace(fileBuffer); } else { // Immediate warning globalLogger.logWarn( `CRLF (Windows) line endings detected in file: ${filepath}`, ); // And summary warning later globalLogger.deferredLog( isV12() ? 'Windows-format line endings were detected in some files, but were not converted due to `--noconvert-eol` option.' : 'Windows-format line endings were detected in some files. Consider using the `--convert-eol` option.', Logger.Level.WARN, ); return fileBuffer; } } /** * Attempt to detect the encoding of a data buffer. * Code copied and modified from the npm package 'isbinaryfile' (MIT licence) * https://github.com/gjtorikian/isBinaryFile/blob/master/src/index.ts * * @returns one of the possible values: '' (empty file), 'utf-8', 'utf-16', * 'utf-32', 'gb-18030', 'pdf', and 'binary'. * * Note: pure ASCII data is identified as 'utf-8' (ASCII is indeed a subset * of UTF-8). * * @param fileBuffer File contents whose encoding should be detected * @param bytesRead Optional "file size" if smaller than the buffer size */ export async function detectEncoding( fileBuffer: Buffer, bytesRead = fileBuffer.length, ): Promise { // empty file if (bytesRead === 0) { return ''; } const totalBytes = Math.min(bytesRead, DETECT_MAX_BYTES); // UTF-8 BOM if ( bytesRead >= 3 && fileBuffer[0] === 0xef && fileBuffer[1] === 0xbb && fileBuffer[2] === 0xbf ) { return 'utf-8'; } // UTF-32 BOM if ( bytesRead >= 4 && fileBuffer[0] === 0x00 && fileBuffer[1] === 0x00 && fileBuffer[2] === 0xfe && fileBuffer[3] === 0xff ) { return 'utf-32'; } // UTF-32 LE BOM if ( bytesRead >= 4 && fileBuffer[0] === 0xff && fileBuffer[1] === 0xfe && fileBuffer[2] === 0x00 && fileBuffer[3] === 0x00 ) { return 'utf-32'; } // GB BOM (https://en.wikipedia.org/wiki/GB_18030) if ( bytesRead >= 4 && fileBuffer[0] === 0x84 && fileBuffer[1] === 0x31 && fileBuffer[2] === 0x95 && fileBuffer[3] === 0x33 ) { return 'gb-18030'; } if (totalBytes >= 5 && fileBuffer.slice(0, 5).toString() === '%PDF-') { /* PDF. This is binary. */ return 'pdf'; } // UTF-16 BE BOM if (bytesRead >= 2 && fileBuffer[0] === 0xfe && fileBuffer[1] === 0xff) { return 'utf-16'; } // UTF-16 LE BOM if (bytesRead >= 2 && fileBuffer[0] === 0xff && fileBuffer[1] === 0xfe) { return 'utf-16'; } for (let i = 0; i < totalBytes; i++) { let c = fileBuffer[i]; if (c === 0) { // NULL byte return 'binary'; } else if (c === 27) { // ESC character used in ANSI escape sequences for text color (log files) continue; } else if ((c < 7 || c > 14) && (c < 32 || c > 127)) { // UTF-8 detection if (c > 193 && c < 224 && i + 1 < totalBytes) { i++; c = fileBuffer[i]; if (c > 127 && c < 192) { continue; } } else if (c > 223 && c < 240 && i + 2 < totalBytes) { i++; c = fileBuffer[i]; if ( c > 127 && c < 192 && fileBuffer[i + 1] > 127 && fileBuffer[i + 1] < 192 ) { i++; continue; } } return 'binary'; } } return 'utf-8'; }