2017-09-14 11:20:26 +00:00
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/**
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* Copyright (c) 2015-present, Facebook, Inc.
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*
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2018-02-17 02:24:55 +00:00
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* This source code is licensed under the MIT license found in the
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* LICENSE file in the root directory of this source tree.
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2017-09-14 11:20:26 +00:00
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*
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* @format
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* @flow
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*/
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const path = require('path');
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const fs = require('fs');
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/**
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* Find symlinked modules inside "node_modules."
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*
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* Naively, we could just perform a depth-first search of all folders in
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* node_modules, recursing when we find a symlink.
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*
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* We can be smarter than this due to our knowledge of how npm/Yarn lays out
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* "node_modules" / how tools that build on top of npm/Yarn (such as Lerna)
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* install dependencies.
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*
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* Starting from a given root node_modules folder, this algorithm will look at
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* both the top level descendants of the node_modules folder or second level
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* descendants of folders that start with "@" (which indicates a scoped
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* package). If any of those folders is a symlink, it will recurse into the
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* link, and perform the same search in the linked folder.
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*
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* The end result should be a list of all resolved module symlinks for a given
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* root.
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*/
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module.exports = function findSymlinkedModules(
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projectRoot: string,
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ignoredRoots?: Array<string> = [],
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) {
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const timeStart = Date.now();
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const nodeModuleRoot = path.join(projectRoot, 'node_modules');
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const resolvedSymlinks = findModuleSymlinks(nodeModuleRoot, [
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...ignoredRoots,
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projectRoot,
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]);
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const timeEnd = Date.now();
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console.log(
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`Scanning folders for symlinks in ${nodeModuleRoot} (${timeEnd -
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timeStart}ms)`,
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);
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return resolvedSymlinks;
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};
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function findModuleSymlinks(
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modulesPath: string,
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ignoredPaths: Array<string> = [],
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): Array<string> {
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if (!fs.existsSync(modulesPath)) {
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return [];
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}
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// Find module symlinks
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const moduleFolders = fs.readdirSync(modulesPath);
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const symlinks = moduleFolders.reduce((links, folderName) => {
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const folderPath = path.join(modulesPath, folderName);
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const maybeSymlinkPaths = [];
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if (folderName.startsWith('@')) {
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const scopedModuleFolders = fs.readdirSync(folderPath);
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maybeSymlinkPaths.push(
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...scopedModuleFolders.map(name => path.join(folderPath, name)),
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);
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} else {
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maybeSymlinkPaths.push(folderPath);
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}
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return links.concat(resolveSymlinkPaths(maybeSymlinkPaths, ignoredPaths));
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}, []);
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// For any symlinks found, look in _that_ modules node_modules directory
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// and find any symlinked modules
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const nestedSymlinks = symlinks.reduce(
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(links, symlinkPath) =>
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links.concat(
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// We ignore any found symlinks or anything from the ignored list,
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// to prevent infinite recursion
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findModuleSymlinks(path.join(symlinkPath, 'node_modules'), [
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...ignoredPaths,
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...symlinks,
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]),
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),
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[],
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);
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return [...new Set([...symlinks, ...nestedSymlinks])];
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}
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function resolveSymlinkPaths(maybeSymlinkPaths, ignoredPaths) {
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return maybeSymlinkPaths.reduce((links, maybeSymlinkPath) => {
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if (fs.lstatSync(maybeSymlinkPath).isSymbolicLink()) {
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const resolved = path.resolve(
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path.dirname(maybeSymlinkPath),
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fs.readlinkSync(maybeSymlinkPath),
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);
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if (ignoredPaths.indexOf(resolved) === -1 && fs.existsSync(resolved)) {
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links.push(resolved);
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}
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}
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return links;
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}, []);
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}
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