'use strict'; const NativeModule = require('native_module'); const util = require('util'); const internalModule = require('internal/module'); const internalUtil = require('internal/util'); const vm = require('vm'); const assert = require('assert').ok; const fs = require('fs'); const path = require('path'); const internalModuleReadFile = process.binding('fs').internalModuleReadFile; const internalModuleStat = process.binding('fs').internalModuleStat; const preserveSymlinks = !!process.binding('config').preserveSymlinks; // If obj.hasOwnProperty has been overridden, then calling // obj.hasOwnProperty(prop) will break. // See: https://github.com/joyent/node/issues/1707 function hasOwnProperty(obj, prop) { return Object.prototype.hasOwnProperty.call(obj, prop); } function stat(filename) { filename = path._makeLong(filename); const cache = stat.cache; if (cache !== null) { const result = cache.get(filename); if (result !== undefined) return result; } const result = internalModuleStat(filename); if (cache !== null) cache.set(filename, result); return result; } stat.cache = null; function Module(id, parent) { this.id = id; this.exports = {}; this.parent = parent; if (parent && parent.children) { parent.children.push(this); } this.filename = null; this.loaded = false; this.children = []; } module.exports = Module; Module._cache = {}; Module._pathCache = {}; Module._extensions = {}; var modulePaths = []; Module.globalPaths = []; Module.wrapper = NativeModule.wrapper; Module.wrap = NativeModule.wrap; Module._debug = util.debuglog('module'); // We use this alias for the preprocessor that filters it out const debug = Module._debug; // given a module name, and a list of paths to test, returns the first // matching file in the following precedence. // // require("a.") // -> a. // // require("a") // -> a // -> a. // -> a/index. // check if the directory is a package.json dir const packageMainCache = {}; function readPackage(requestPath) { if (hasOwnProperty(packageMainCache, requestPath)) { return packageMainCache[requestPath]; } const jsonPath = path.resolve(requestPath, 'package.json'); const json = internalModuleReadFile(path._makeLong(jsonPath)); if (json === undefined) { return false; } try { var pkg = packageMainCache[requestPath] = JSON.parse(json).main; } catch (e) { e.path = jsonPath; e.message = 'Error parsing ' + jsonPath + ': ' + e.message; throw e; } return pkg; } function tryPackage(requestPath, exts, isMain) { var pkg = readPackage(requestPath); if (!pkg) return false; var filename = path.resolve(requestPath, pkg); return tryFile(filename, isMain) || tryExtensions(filename, exts, isMain) || tryExtensions(path.resolve(filename, 'index'), exts, isMain); } // check if the file exists and is not a directory // if using --preserve-symlinks and isMain is false, // keep symlinks intact, otherwise resolve to the // absolute realpath. function tryFile(requestPath, isMain) { const rc = stat(requestPath); if (preserveSymlinks && !isMain) { return rc === 0 && path.resolve(requestPath); } return rc === 0 && fs.realpathSync(requestPath); } // given a path check a the file exists with any of the set extensions function tryExtensions(p, exts, isMain) { for (var i = 0; i < exts.length; i++) { const filename = tryFile(p + exts[i], isMain); if (filename) { return filename; } } return false; } var warned = false; Module._findPath = function(request, paths, isMain) { if (path.isAbsolute(request)) { paths = ['']; } else if (!paths || paths.length === 0) { return false; } const cacheKey = JSON.stringify({request: request, paths: paths}); if (Module._pathCache[cacheKey]) { return Module._pathCache[cacheKey]; } var exts; const trailingSlash = request.length > 0 && request.charCodeAt(request.length - 1) === 47/*/*/; // For each path for (var i = 0; i < paths.length; i++) { // Don't search further if path doesn't exist const curPath = paths[i]; if (curPath && stat(curPath) < 1) continue; var basePath = path.resolve(curPath, request); var filename; if (!trailingSlash) { const rc = stat(basePath); if (rc === 0) { // File. if (preserveSymlinks && !isMain) { filename = path.resolve(basePath); } else { filename = fs.realpathSync(basePath); } } else if (rc === 1) { // Directory. if (exts === undefined) exts = Object.keys(Module._extensions); filename = tryPackage(basePath, exts, isMain); } if (!filename) { // try it with each of the extensions if (exts === undefined) exts = Object.keys(Module._extensions); filename = tryExtensions(basePath, exts, isMain); } } if (!filename) { if (exts === undefined) exts = Object.keys(Module._extensions); filename = tryPackage(basePath, exts, isMain); } if (!filename) { // try it with each of the extensions at "index" if (exts === undefined) exts = Object.keys(Module._extensions); filename = tryExtensions(path.resolve(basePath, 'index'), exts, isMain); } if (filename) { // Warn once if '.' resolved outside the module dir if (request === '.' && i > 0) { if (!warned) { warned = true; process.emitWarning( 'warning: require(\'.\') resolved outside the package ' + 'directory. This functionality is deprecated and will be removed ' + 'soon.', 'DeprecationWarning'); } } Module._pathCache[cacheKey] = filename; return filename; } } return false; }; // 'node_modules' character codes reversed var nmChars = [ 115, 101, 108, 117, 100, 111, 109, 95, 101, 100, 111, 110 ]; var nmLen = nmChars.length; if (process.platform === 'win32') { // 'from' is the __dirname of the module. Module._nodeModulePaths = function(from) { // guarantee that 'from' is absolute. from = path.resolve(from); // note: this approach *only* works when the path is guaranteed // to be absolute. Doing a fully-edge-case-correct path.split // that works on both Windows and Posix is non-trivial. // return root node_modules when path is 'D:\\'. // path.resolve will make sure from.length >=3 in Windows. if (from.charCodeAt(from.length - 1) === 92/*\*/ && from.charCodeAt(from.length - 2) === 58/*:*/) return [from + 'node_modules']; const paths = []; var p = 0; var last = from.length; for (var i = from.length - 1; i >= 0; --i) { const code = from.charCodeAt(i); // The path segment separator check ('\' and '/') was used to get // node_modules path for every path segment. // Use colon as an extra condition since we can get node_modules // path for dirver root like 'C:\node_modules' and don't need to // parse driver name. if (code === 92/*\*/ || code === 47/*/*/ || code === 58/*:*/) { if (p !== nmLen) paths.push(from.slice(0, last) + '\\node_modules'); last = i; p = 0; } else if (p !== -1) { if (nmChars[p] === code) { ++p; } else { p = -1; } } } return paths; }; } else { // posix // 'from' is the __dirname of the module. Module._nodeModulePaths = function(from) { // guarantee that 'from' is absolute. from = path.resolve(from); // Return early not only to avoid unnecessary work, but to *avoid* returning // an array of two items for a root: [ '//node_modules', '/node_modules' ] if (from === '/') return ['/node_modules']; // note: this approach *only* works when the path is guaranteed // to be absolute. Doing a fully-edge-case-correct path.split // that works on both Windows and Posix is non-trivial. const paths = []; var p = 0; var last = from.length; for (var i = from.length - 1; i >= 0; --i) { const code = from.charCodeAt(i); if (code === 47/*/*/) { if (p !== nmLen) paths.push(from.slice(0, last) + '/node_modules'); last = i; p = 0; } else if (p !== -1) { if (nmChars[p] === code) { ++p; } else { p = -1; } } } // Append /node_modules to handle root paths. paths.push('/node_modules'); return paths; }; } // 'index.' character codes var indexChars = [ 105, 110, 100, 101, 120, 46 ]; var indexLen = indexChars.length; Module._resolveLookupPaths = function(request, parent) { if (NativeModule.nonInternalExists(request)) { return [request, []]; } var reqLen = request.length; // Check for relative path if (reqLen < 2 || request.charCodeAt(0) !== 46/*.*/ || (request.charCodeAt(1) !== 46/*.*/ && request.charCodeAt(1) !== 47/*/*/)) { var paths = modulePaths; if (parent) { if (!parent.paths) paths = parent.paths = []; else paths = parent.paths.concat(paths); } // Maintain backwards compat with certain broken uses of require('.') // by putting the module's directory in front of the lookup paths. if (request === '.') { if (parent && parent.filename) { paths.unshift(path.dirname(parent.filename)); } else { paths.unshift(path.resolve(request)); } } return [request, paths]; } // with --eval, parent.id is not set and parent.filename is null if (!parent || !parent.id || !parent.filename) { // make require('./path/to/foo') work - normally the path is taken // from realpath(__filename) but with eval there is no filename var mainPaths = ['.'].concat(Module._nodeModulePaths('.'), modulePaths); return [request, mainPaths]; } // Is the parent an index module? // We can assume the parent has a valid extension, // as it already has been accepted as a module. const base = path.basename(parent.filename); var parentIdPath; if (base.length > indexLen) { var i = 0; for (; i < indexLen; ++i) { if (indexChars[i] !== base.charCodeAt(i)) break; } if (i === indexLen) { // We matched 'index.', let's validate the rest for (; i < base.length; ++i) { const code = base.charCodeAt(i); if (code !== 95/*_*/ && (code < 48/*0*/ || code > 57/*9*/) && (code < 65/*A*/ || code > 90/*Z*/) && (code < 97/*a*/ || code > 122/*z*/)) break; } if (i === base.length) { // Is an index module parentIdPath = parent.id; } else { // Not an index module parentIdPath = path.dirname(parent.id); } } else { // Not an index module parentIdPath = path.dirname(parent.id); } } else { // Not an index module parentIdPath = path.dirname(parent.id); } var id = path.resolve(parentIdPath, request); // make sure require('./path') and require('path') get distinct ids, even // when called from the toplevel js file if (parentIdPath === '.' && id.indexOf('/') === -1) { id = './' + id; } debug('RELATIVE: requested: %s set ID to: %s from %s', request, id, parent.id); return [id, [path.dirname(parent.filename)]]; }; // Check the cache for the requested file. // 1. If a module already exists in the cache: return its exports object. // 2. If the module is native: call `NativeModule.require()` with the // filename and return the result. // 3. Otherwise, create a new module for the file and save it to the cache. // Then have it load the file contents before returning its exports // object. Module._load = function(request, parent, isMain) { if (parent) { debug('Module._load REQUEST %s parent: %s', request, parent.id); } var filename = Module._resolveFilename(request, parent, isMain); var cachedModule = Module._cache[filename]; if (cachedModule) { return cachedModule.exports; } if (NativeModule.nonInternalExists(filename)) { debug('load native module %s', request); return NativeModule.require(filename); } var module = new Module(filename, parent); if (isMain) { process.mainModule = module; module.id = '.'; } Module._cache[filename] = module; tryModuleLoad(module, filename); return module.exports; }; function tryModuleLoad(module, filename) { var threw = true; try { module.load(filename); threw = false; } finally { if (threw) { delete Module._cache[filename]; } } } Module._resolveFilename = function(request, parent, isMain) { if (NativeModule.nonInternalExists(request)) { return request; } var resolvedModule = Module._resolveLookupPaths(request, parent); var id = resolvedModule[0]; var paths = resolvedModule[1]; // look up the filename first, since that's the cache key. debug('looking for %j in %j', id, paths); var filename = Module._findPath(request, paths, isMain); if (!filename) { var err = new Error("Cannot find module '" + request + "'"); err.code = 'MODULE_NOT_FOUND'; throw err; } return filename; }; // Given a file name, pass it to the proper extension handler. Module.prototype.load = function(filename) { debug('load %j for module %j', filename, this.id); assert(!this.loaded); this.filename = filename; this.paths = Module._nodeModulePaths(path.dirname(filename)); var extension = path.extname(filename) || '.js'; if (!Module._extensions[extension]) extension = '.js'; Module._extensions[extension](this, filename); this.loaded = true; }; // Loads a module at the given file path. Returns that module's // `exports` property. Module.prototype.require = function(path) { assert(path, 'missing path'); assert(typeof path === 'string', 'path must be a string'); return Module._load(path, this, /* isMain */ false); }; // Resolved path to process.argv[1] will be lazily placed here // (needed for setting breakpoint when called with --debug-brk) var resolvedArgv; // Run the file contents in the correct scope or sandbox. Expose // the correct helper variables (require, module, exports) to // the file. // Returns exception, if any. Module.prototype._compile = function(content, filename) { // Remove shebang var contLen = content.length; if (contLen >= 2) { if (content.charCodeAt(0) === 35/*#*/ && content.charCodeAt(1) === 33/*!*/) { if (contLen === 2) { // Exact match content = ''; } else { // Find end of shebang line and slice it off var i = 2; for (; i < contLen; ++i) { var code = content.charCodeAt(i); if (code === 10/*\n*/ || code === 13/*\r*/) break; } if (i === contLen) content = ''; else { // Note that this actually includes the newline character(s) in the // new output. This duplicates the behavior of the regular expression // that was previously used to replace the shebang line content = content.slice(i); } } } } // create wrapper function var wrapper = Module.wrap(content); var compiledWrapper = vm.runInThisContext(wrapper, { filename: filename, lineOffset: 0, displayErrors: true }); if (process._debugWaitConnect) { if (!resolvedArgv) { // we enter the repl if we're not given a filename argument. if (process.argv[1]) { resolvedArgv = Module._resolveFilename(process.argv[1], null); } else { resolvedArgv = 'repl'; } } // Set breakpoint on module start if (filename === resolvedArgv) { delete process._debugWaitConnect; const Debug = vm.runInDebugContext('Debug'); Debug.setBreakPoint(compiledWrapper, 0, 0); } } var dirname = path.dirname(filename); var require = internalModule.makeRequireFunction.call(this); var args = [this.exports, require, this, filename, dirname]; var depth = internalModule.requireDepth; if (depth === 0) stat.cache = new Map(); var result = compiledWrapper.apply(this.exports, args); if (depth === 0) stat.cache = null; return result; }; // Native extension for .js Module._extensions['.js'] = function(module, filename) { var content = fs.readFileSync(filename, 'utf8'); module._compile(internalModule.stripBOM(content), filename); }; // Native extension for .json Module._extensions['.json'] = function(module, filename) { var content = fs.readFileSync(filename, 'utf8'); try { module.exports = JSON.parse(internalModule.stripBOM(content)); } catch (err) { err.message = filename + ': ' + err.message; throw err; } }; //Native extension for .node Module._extensions['.node'] = function(module, filename) { return process.dlopen(module, path._makeLong(filename)); }; // bootstrap main module. Module.runMain = function() { // Load the main module--the command line argument. Module._load(process.argv[1], null, true); // Handle any nextTicks added in the first tick of the program process._tickCallback(); }; Module._initPaths = function() { const isWindows = process.platform === 'win32'; var homeDir; if (isWindows) { homeDir = process.env.USERPROFILE; } else { homeDir = process.env.HOME; } var paths = [path.resolve(process.execPath, '..', '..', 'lib', 'node')]; if (homeDir) { paths.unshift(path.resolve(homeDir, '.node_libraries')); paths.unshift(path.resolve(homeDir, '.node_modules')); } var nodePath = process.env['NODE_PATH']; if (nodePath) { paths = nodePath.split(path.delimiter).filter(function(path) { return !!path; }).concat(paths); } modulePaths = paths; // clone as a read-only copy, for introspection. Module.globalPaths = modulePaths.slice(0); }; // TODO(bnoordhuis) Unused, remove in the future. Module.requireRepl = internalUtil.deprecate(function() { return NativeModule.require('internal/repl'); }, 'Module.requireRepl is deprecated.'); Module._preloadModules = function(requests) { if (!Array.isArray(requests)) return; // Preloaded modules have a dummy parent module which is deemed to exist // in the current working directory. This seeds the search path for // preloaded modules. var parent = new Module('internal/preload', null); try { parent.paths = Module._nodeModulePaths(process.cwd()); } catch (e) { if (e.code !== 'ENOENT') { throw e; } } requests.forEach(function(request) { parent.require(request); }); }; Module._initPaths(); // backwards compatibility Module.Module = Module;