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https://github.com/balena-io/balena-cli.git
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88a1e413a3
Connects-to: #1611 Change-type: patch
239 lines
6.2 KiB
TypeScript
239 lines
6.2 KiB
TypeScript
/**
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* @license
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* Copyright 2019-2020 Balena Ltd.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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import { fs } from 'mz';
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import Logger = require('./logger');
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const globalLogger = Logger.getLogger();
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// Define file size threshold (bytes) over which analysis/conversion is not performed.
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const LARGE_FILE_THRESHOLD = 10 * 1000 * 1000;
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// Note that `convertEolInPlace()` only works with UTF-8 or single-byte encodings
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const CONVERTIBLE_ENCODINGS = ['ascii', 'utf-8'];
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// Maximum number of bytes to consider when detecting the file encoding
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const DETECT_MAX_BYTES = 1024;
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/**
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* Convert EOL (CRLF → LF) in place, i.e. modifying the input buffer.
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* Safe for UTF-8, ASCII and 8-bit encodings (like 'latin-1', 'iso-8859-1', ...),
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* but not safe for UTF-16 or UTF-32.
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* Return a new buffer object sharing the same contents memory space as the
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* input buffer (using Buffer.slice()), in order to safely reflect the new
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* buffer size.
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* @param buf
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*/
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export function convertEolInPlace(buf: Buffer): Buffer {
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const CR = 13;
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const LF = 10;
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let foundCR = false;
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let j;
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// Algorithm gist:
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// - i and j are running indexes over the same buffer, but think of it as
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// i pointing to the input buffer, and j pointing to the output buffer.
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// - i and j are incremented by 1 in every loop iteration, but if a LF is found
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// after a CR, then j is decremented by 1, and LF is written. Invariant: j <= i.
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for (let i = (j = 0); i < buf.length; i++, j++) {
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const b = (buf[j] = buf[i]);
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if (b === CR) {
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foundCR = true;
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} else {
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if (foundCR && b === LF) {
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j--; // decrement index of "output buffer"
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buf[j] = LF; // overwrite previous CR with LF
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}
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foundCR = false;
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}
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}
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return buf.slice(0, j);
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}
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/**
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* Drop-in replacement for promisified fs.readFile(<string>)
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* Attempts to convert EOLs from CRLF to LF for supported encodings,
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* or otherwise logs warnings.
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* @param filepath
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* @param convertEol When true, performs conversions, otherwise just warns.
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*/
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export async function readFileWithEolConversion(
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filepath: string,
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convertEol: boolean,
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): Promise<Buffer> {
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const fileBuffer = await fs.readFile(filepath);
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// Skip processing of very large files
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const fileStats = await fs.stat(filepath);
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if (fileStats.size > LARGE_FILE_THRESHOLD) {
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globalLogger.logWarn(`CRLF detection skipped for large file: ${filepath}`);
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return fileBuffer;
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}
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// Analyse encoding
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const encoding = await detectEncoding(fileBuffer);
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// Skip further processing of non-convertible encodings
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if (!CONVERTIBLE_ENCODINGS.includes(encoding)) {
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return fileBuffer;
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}
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// Skip further processing of files that don't contain CRLF
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if (!fileBuffer.includes('\r\n')) {
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return fileBuffer;
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}
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if (convertEol) {
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// Convert CRLF->LF
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globalLogger.logInfo(
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`Converting line endings CRLF -> LF for file: ${filepath}`,
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);
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return convertEolInPlace(fileBuffer);
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} else {
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// Immediate warning
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globalLogger.logWarn(
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`CRLF (Windows) line endings detected in file: ${filepath}`,
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);
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// And summary warning later
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globalLogger.deferredLog(
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'Windows-format line endings were detected in some files. Consider using the `--convert-eol` option.',
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Logger.Level.WARN,
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);
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return fileBuffer;
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}
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}
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/**
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* Attempt to detect the encoding of a data buffer.
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* Code copied and modified from the npm package 'isbinaryfile' (MIT licence)
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* https://github.com/gjtorikian/isBinaryFile/blob/master/src/index.ts
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*
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* @returns one of the possible values: '' (empty file), 'utf-8', 'utf-16',
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* 'utf-32', 'gb-18030', 'pdf', and 'binary'.
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*
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* Note: pure ASCII data is identified as 'utf-8' (ASCII is indeed a subset
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* of UTF-8).
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*
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* @param fileBuffer File contents whose encoding should be detected
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* @param bytesRead Optional "file size" if smaller than the buffer size
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*/
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export async function detectEncoding(
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fileBuffer: Buffer,
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bytesRead = fileBuffer.length,
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): Promise<string> {
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// empty file
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if (bytesRead === 0) {
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return '';
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}
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const totalBytes = Math.min(bytesRead, DETECT_MAX_BYTES);
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// UTF-8 BOM
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if (
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bytesRead >= 3 &&
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fileBuffer[0] === 0xef &&
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fileBuffer[1] === 0xbb &&
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fileBuffer[2] === 0xbf
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) {
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return 'utf-8';
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}
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// UTF-32 BOM
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if (
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bytesRead >= 4 &&
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fileBuffer[0] === 0x00 &&
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fileBuffer[1] === 0x00 &&
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fileBuffer[2] === 0xfe &&
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fileBuffer[3] === 0xff
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) {
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return 'utf-32';
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}
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// UTF-32 LE BOM
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if (
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bytesRead >= 4 &&
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fileBuffer[0] === 0xff &&
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fileBuffer[1] === 0xfe &&
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fileBuffer[2] === 0x00 &&
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fileBuffer[3] === 0x00
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) {
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return 'utf-32';
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}
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// GB BOM (https://en.wikipedia.org/wiki/GB_18030)
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if (
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bytesRead >= 4 &&
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fileBuffer[0] === 0x84 &&
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fileBuffer[1] === 0x31 &&
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fileBuffer[2] === 0x95 &&
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fileBuffer[3] === 0x33
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) {
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return 'gb-18030';
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}
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if (totalBytes >= 5 && fileBuffer.slice(0, 5).toString() === '%PDF-') {
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/* PDF. This is binary. */
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return 'pdf';
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}
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// UTF-16 BE BOM
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if (bytesRead >= 2 && fileBuffer[0] === 0xfe && fileBuffer[1] === 0xff) {
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return 'utf-16';
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}
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// UTF-16 LE BOM
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if (bytesRead >= 2 && fileBuffer[0] === 0xff && fileBuffer[1] === 0xfe) {
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return 'utf-16';
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}
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for (let i = 0; i < totalBytes; i++) {
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let c = fileBuffer[i];
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if (c === 0) {
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// NULL byte
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return 'binary';
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} else if (c === 27) {
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// ESC character used in ANSI escape sequences for text color (log files)
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continue;
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} else if ((c < 7 || c > 14) && (c < 32 || c > 127)) {
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// UTF-8 detection
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if (c > 193 && c < 224 && i + 1 < totalBytes) {
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i++;
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c = fileBuffer[i];
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if (c > 127 && c < 192) {
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continue;
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}
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} else if (c > 223 && c < 240 && i + 2 < totalBytes) {
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i++;
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c = fileBuffer[i];
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if (
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c > 127 &&
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c < 192 &&
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fileBuffer[i + 1] > 127 &&
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fileBuffer[i + 1] < 192
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) {
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i++;
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continue;
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}
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}
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return 'binary';
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}
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}
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return 'utf-8';
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}
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