define(function(require) { var indexedDB = window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB; var _ = require('lodash'); var when = require('when'); // TextEncoder and TextDecoder will either already be present, or use this shim. // Because of the way the spec is defined, we need to get them off the global. require('encoding-indexes'); require('encoding'); var normalize = require('src/path').normalize; var dirname = require('src/path').dirname; var basename = require('src/path').basename; var guid = require('src/shared').guid; var hash = require('src/shared').hash; var nop = require('src/shared').nop; var EExists = require('src/error').EExists; var EIsDirectory = require('src/error').EIsDirectory; var ENoEntry = require('src/error').ENoEntry; var EBusy = require('src/error').EBusy; var ENotEmpty = require('src/error').ENotEmpty; var ENotDirectory = require('src/error').ENotDirectory; var EBadFileDescriptor = require('src/error').EBadFileDescriptor; var ENotImplemented = require('src/error').ENotImplemented; var ENotMounted = require('src/error').ENotMounted; var EInvalid = require('src/error').EInvalid; var EIO = require('src/error').EIO; var EFileSystemError = require('src/error').EFileSystemError; var FS_FORMAT = require('src/constants').FS_FORMAT; var MODE_FILE = require('src/constants').MODE_FILE; var MODE_DIRECTORY = require('src/constants').MODE_DIRECTORY; var ROOT_DIRECTORY_NAME = require('src/constants').ROOT_DIRECTORY_NAME; var ROOT_NODE_ID = require('src/constants').ROOT_NODE_ID; var IDB_RW = require('src/constants').IDB_RW; var IDB_RO = require('src/constants').IDB_RO; var FILE_STORE_NAME = require('src/constants').FILE_STORE_NAME; var METADATA_STORE_NAME = require('src/constants').METADATA_STORE_NAME; var FS_READY = require('src/constants').FS_READY; var FS_PENDING = require('src/constants').FS_PENDING; var FS_ERROR = require('src/constants').FS_ERROR; var O_READ = require('src/constants').O_READ; var O_WRITE = require('src/constants').O_WRITE; var O_CREATE = require('src/constants').O_CREATE; var O_EXCLUSIVE = require('src/constants').O_EXCLUSIVE; var O_TRUNCATE = require('src/constants').O_TRUNCATE; var O_APPEND = require('src/constants').O_APPEND; var O_FLAGS = require('src/constants').O_FLAGS; /* * DirectoryEntry */ function DirectoryEntry(id, type) { this.id = id; this.type = type || MODE_FILE; } /* * OpenFileDescription */ function OpenFileDescription(id, flags, position) { this.id = id; this.flags = flags; this.position = position; } /* * Node */ function Node(id, mode, size, atime, ctime, mtime, flags, xattrs, nlinks, version) { var now = Date.now(); this.id = id || hash(guid()); this.mode = mode || MODE_FILE; // node type (file, directory, etc) this.size = size || 0; // size (bytes for files, entries for directories) this.atime = atime || now; // access time this.ctime = ctime || now; // creation time this.mtime = mtime || now; // modified time this.flags = flags || []; // file flags this.xattrs = xattrs || {}; // extended attributes this.nlinks = nlinks || 0; // links count this.version = version || 0; // node version this.blksize = undefined; // block size this.nblocks = 1; // blocks count this.data = hash(guid()); // id for data object } /* * Stats */ function Stats(fileNode, devName) { this.node = fileNode.id; this.dev = devName; this.size = fileNode.size; this.nlinks = fileNode.nlinks; this.atime = fileNode.atime; this.mtime = fileNode.mtime; this.ctime = fileNode.ctime; this.type = fileNode.mode; } /* * find_node */ // in: file or directory path // out: node structure, or error function find_node(objectStore, path, callback) { path = normalize(path); if(!path) { return callback(new ENoEntry('path is an empty string')); } var name = basename(path); var parentPath = dirname(path); function check_root_directory_node(error, rootDirectoryNode) { if(error) { callback(error); } else if(!rootDirectoryNode) { callback(new ENoEntry('path does not exist')); } else { callback(undefined, rootDirectoryNode); } } // in: parent directory node // out: parent directory data function read_parent_directory_data(error, parentDirectoryNode) { if(error) { callback(error); } else if(!parentDirectoryNode.type == MODE_DIRECTORY) { callback(new ENotDirectory('a component of the path prefix is not a directory')); } else { read_object(objectStore, parentDirectoryNode.data, get_node_id_from_parent_directory_data); } } // in: parent directory data // out: searched node id function get_node_id_from_parent_directory_data(error, parentDirectoryData) { if(error) { callback(error); } else { if(!_(parentDirectoryData).has(name)) { callback(new ENoEntry('path does not exist')); } else { var nodeId = parentDirectoryData[name].id; read_object(objectStore, nodeId, callback); } } } if(ROOT_DIRECTORY_NAME == name) { read_object(objectStore, ROOT_NODE_ID, check_root_directory_node); } else { find_node(objectStore, parentPath, read_parent_directory_data); } } /* * read_object */ function read_object(objectStore, id, callback) { try { var getRequest = objectStore.get(id); getRequest.onsuccess = function onsuccess(event) { var result = event.target.result; callback(undefined, result); }; getRequest.onerror = function onerror(error) { callback(error); }; } catch(error) { callback(new EIO(error.message)); } } /* * write_object */ function write_object(objectStore, object, id, callback) { try { var putRequest = objectStore.put(object, id); putRequest.onsuccess = function onsuccess(event) { var result = event.target.result; callback(undefined, result); }; putRequest.onerror = function onerror(error) { callback(error); }; } catch(error) { callback(new EIO(error.message)); } } /* * delete_object */ function delete_object(objectStore, id, callback) { var deleteRequest = objectStore.delete(id); deleteRequest.onsuccess = function onsuccess(event) { var result = event.target.result; callback(undefined, result); }; deleteRequest.onerror = function(error) { callback(error); }; } /* * make_root_directory */ // Note: this should only be invoked when formatting a new file system function make_root_directory(objectStore, callback) { var directoryNode; var directoryData; function write_directory_node(error, existingNode) { if(!error && existingNode) { callback(new EExists()); } else if(error && !error instanceof ENoEntry) { callback(error); } else { directoryNode = new Node(ROOT_NODE_ID, MODE_DIRECTORY); directoryNode.nlinks += 1; write_object(objectStore, directoryNode, directoryNode.id, write_directory_data); } } function write_directory_data(error) { if(error) { callback(error); } else { directoryData = {}; write_object(objectStore, directoryData, directoryNode.data, callback); } } find_node(objectStore, ROOT_DIRECTORY_NAME, write_directory_node); } /* * make_directory */ function make_directory(objectStore, path, callback) { path = normalize(path); var name = basename(path); var parentPath = dirname(path); var directoryNode; var directoryData; var parentDirectoryNode; var parentDirectoryData; function check_if_directory_exists(error, result) { if(!error && result) { callback(new EExists()); } else if(error && !error instanceof ENoEntry) { callback(error); } else { find_node(objectStore, parentPath, read_parent_directory_data); } } function read_parent_directory_data(error, result) { if(error) { callback(error); } else { parentDirectoryNode = result; read_object(objectStore, parentDirectoryNode.data, write_directory_node); } } function write_directory_node(error, result) { if(error) { callback(error); } else { parentDirectoryData = result; directoryNode = new Node(undefined, MODE_DIRECTORY); directoryNode.nlinks += 1; write_object(objectStore, directoryNode, directoryNode.id, write_directory_data); } } function write_directory_data(error) { if(error) { callback(error); } else { directoryData = {}; write_object(objectStore, directoryData, directoryNode.data, update_parent_directory_data); } } function update_parent_directory_data(error) { if(error) { callback(error); } else { parentDirectoryData[name] = new DirectoryEntry(directoryNode.id, MODE_DIRECTORY); write_object(objectStore, parentDirectoryData, parentDirectoryNode.data, callback); } } find_node(objectStore, path, check_if_directory_exists); } /* * remove_directory */ function remove_directory(objectStore, path, callback) { path = normalize(path); var name = basename(path); var parentPath = dirname(path); var directoryNode; var directoryData; var parentDirectoryNode; var parentDirectoryData; function check_if_directory_exists(error, result) { if(error) { callback(error); } else if(ROOT_DIRECTORY_NAME == name) { callback(new EBusy()); } else if(!result) { callback(new ENoEntry()); } else { directoryNode = result; read_object(objectStore, directoryNode.data, check_if_directory_is_empty); } } function check_if_directory_is_empty(error, result) { if(error) { callback(error); } else { directoryData = result; if(_(directoryData).size() > 0) { callback(new ENotEmpty()); } else { find_node(objectStore, parentPath, read_parent_directory_data); } } } function read_parent_directory_data(error, result) { if(error) { callback(error); } else { parentDirectoryNode = result; read_object(objectStore, parentDirectoryNode.data, remove_directory_entry_from_parent_directory_node); } } function remove_directory_entry_from_parent_directory_node(error, result) { if(error) { callback(error); } else { parentDirectoryData = result; delete parentDirectoryData[name]; write_object(objectStore, parentDirectoryData, parentDirectoryNode.data, remove_directory_node); } } function remove_directory_node(error) { if(error) { callback(error); } else { delete_object(objectStore, directoryNode.id, remove_directory_data); } } function remove_directory_data(error) { if(error) { callback(error); } else { delete_object(objectStore, directoryNode.data, callback); } } find_node(objectStore, path, check_if_directory_exists); } function open_file(fs, objectStore, path, flags, callback) { path = normalize(path); var name = basename(path); var parentPath = dirname(path); var directoryNode; var directoryData; var directoryEntry; var fileNode; var fileData; if(ROOT_DIRECTORY_NAME == name) { if(_(flags).contains(O_WRITE)) { callback(new EIsDirectory('the named file is a directory and O_WRITE is set')); } else { find_node(objectStore, path, set_file_node); } } else { find_node(objectStore, parentPath, read_directory_data); } function read_directory_data(error, result) { if(error) { callback(error); } else { directoryNode = result; read_object(objectStore, directoryNode.data, check_if_file_exists); } } function check_if_file_exists(error, result) { if(error) { callback(error); } else { directoryData = result; if(_(directoryData).has(name)) { if(_(flags).contains(O_EXCLUSIVE)) { callback(new ENoEntry('O_CREATE and O_EXCLUSIVE are set, and the named file exists')); } else { directoryEntry = directoryData[name]; if(directoryEntry.type == MODE_DIRECTORY && _(flags).contains(O_WRITE)) { callback(new EIsDirectory('the named file is a directory and O_WRITE is set')); } else { read_object(objectStore, directoryEntry.id, set_file_node); } } } else { if(!_(flags).contains(O_CREATE)) { callback(new ENoEntry('O_CREATE is not set and the named file does not exist')); } else { write_file_node(); } } } } function set_file_node(error, result) { if(error) { callback(error); } else { fileNode = result; callback(undefined, fileNode); } } function write_file_node() { fileNode = new Node(undefined, MODE_FILE); fileNode.nlinks += 1; write_object(objectStore, fileNode, fileNode.id, write_file_data); } function write_file_data(error) { if(error) { callback(error); } else { fileData = new Uint8Array(0); write_object(objectStore, fileData, fileNode.data, update_directory_data); } } function update_directory_data(error) { if(error) { callback(error); } else { directoryData[name] = new DirectoryEntry(fileNode.id, MODE_FILE); write_object(objectStore, directoryData, directoryNode.data, handle_update_result); } } function handle_update_result(error) { if(error) { callback(error); } else { callback(undefined, fileNode); } } } function write_data(objectStore, ofd, buffer, offset, length, position, callback) { var fileNode; var fileData; read_object(objectStore, ofd.id, read_file_data); function read_file_data(error, result) { if(error) { callback(error); } else { fileNode = result; read_object(objectStore, fileNode.data, update_file_data); } } function update_file_data(error, result) { if(error) { callback(error); } else { fileData = result; var _position = (!(undefined === position || null === position)) ? position : ofd.position; var newSize = Math.max(fileData.length, _position + length); var newData = new Uint8Array(newSize); if(fileData) { newData.set(fileData); } newData.set(buffer, _position); if(undefined === position) { ofd.position += length; } fileNode.size = newSize; fileNode.mtime = Date.now(); fileNode.version += 1; write_object(objectStore, newData, fileNode.data, update_file_node); } } function update_file_node(error) { if(error) { callback(error); } else { write_object(objectStore, fileNode, fileNode.id, return_nbytes); } } function return_nbytes(error) { if(error) { callback(error); } else { callback(undefined, length); } } } function read_data(objectStore, ofd, buffer, offset, length, position, callback) { var fileNode; var fileData; read_object(objectStore, ofd.id, read_file_data); function read_file_data(error, result) { if(error) { callback(error); } else { fileNode = result; read_object(objectStore, fileNode.data, handle_file_data); } } function handle_file_data(error, result) { if(error) { callback(error); } else { fileData = result; var _position = (!(undefined === position || null === position)) ? position : ofd.position; length = (_position + length > buffer.length) ? length - _position : length; var dataView = fileData.subarray(_position, _position + length); buffer.set(dataView, offset); if(undefined === position) { ofd.position += length; } callback(undefined, length); } } } function stat_file(objectStore, path, callback) { path = normalize(path); var name = basename(path); find_node(objectStore, path, check_file); function check_file(error, result) { if(error) { callback(error); } else { callback(undefined, result); } } } function fstat_file(objectStore, ofd, callback) { read_object(objectStore, ofd.id, check_file); function check_file(error, result) { if(error) { callback(error); } else { callback(undefined, result); } } } function link_node(objectStore, oldpath, newpath, callback) { oldpath = normalize(oldpath); var oldname = basename(oldpath); var oldParentPath = dirname(oldpath); newpath = normalize(newpath); var newname = basename(newpath); var newParentPath = dirname(newpath); var oldDirectoryNode; var oldDirectoryData; var newDirectoryNode; var newDirectoryData; var fileNode; find_node(objectStore, oldParentPath, read_old_directory_data); function read_old_directory_data(error, result) { if(error) { callback(error); } else { oldDirectoryNode = result; read_object(objectStore, oldDirectoryNode.data, check_if_old_file_exists); } } function check_if_old_file_exists(error, result) { if(error) { callback(error); } else { oldDirectoryData = result; if(!_(oldDirectoryData).has(oldname)) { callback(new ENoEntry('a component of either path prefix does not exist')); } else { find_node(objectStore, newParentPath, read_new_directory_data); } } } function read_new_directory_data(error, result) { if(error) { callback(error); } else { newDirectoryNode = result; read_object(objectStore, newDirectoryNode.data, check_if_new_file_exists); } } function check_if_new_file_exists(error, result) { if(error) { callback(error); } else { newDirectoryData = result; if(_(newDirectoryData).has(newname)) { callback(new EExists('newpath resolves to an existing file')); } else { newDirectoryData[newname] = oldDirectoryData[oldname]; write_object(objectStore, newDirectoryData, newDirectoryNode.data, read_directory_entry); } } } function read_directory_entry(error, result) { if(error) { callback(error); } else { read_object(objectStore, newDirectoryData[newname].id, update_file_node); } } function update_file_node(error, result) { if(error) { callback(error); } else { fileNode = result; fileNode.nlinks += 1; write_object(objectStore, fileNode, fileNode.id, callback); } } } function unlink_node(objectStore, path, callback) { path = normalize(path); name = basename(path); parentPath = dirname(path); var directoryNode; var directoryData; var fileNode; find_node(objectStore, parentPath, read_directory_data); function read_directory_data(error, result) { if(error) { callback(error); } else { directoryNode = result; read_object(objectStore, directoryNode.data, check_if_file_exists); } } function check_if_file_exists(error, result) { if(error) { callback(error); } else { directoryData = result; if(!_(directoryData).has(name)) { callback(new ENoEntry('a component of the path does not name an existing file')); } else { read_object(objectStore, directoryData[name].id, update_file_node); } } } function update_file_node(error, result) { if(error) { callback(error); } else { fileNode = result; fileNode.nlinks -= 1; if(fileNode.nlinks < 1) { delete_object(objectStore, fileNode.id, delete_file_data); } else { write_object(objectStore, fileNode, fileNode.id, update_directory_data); } } } function delete_file_data(error) { if(error) { callback(error); } else { delete_object(objectStore, fileNode.data, update_directory_data); } } function update_directory_data(error) { if(error) { callback(error); } else { delete directoryData[name]; write_object(objectStore, directoryData, directoryNode.data, callback); } } } function read_directory(objectStore, path, callback) { path = normalize(path); var name = basename(path); var directoryNode; var directoryData; find_node(objectStore, path, read_directory_data); function read_directory_data(error, result) { if(error) { callback(error); } else { directoryNode = result; read_object(objectStore, directoryNode.data, handle_directory_data); } } function handle_directory_data(error, result) { if(error) { callback(error); } else { directoryData = result; var files = Object.keys(directoryData); callback(undefined, files); } } } function validate_flags(flags) { if(!_(O_FLAGS).has(flags)) { return null; } else { return O_FLAGS[flags]; } } /* * FileSystem */ function FileSystem(name, flags) { var format = _(flags).contains(FS_FORMAT); var that = this; var deferred = when.defer(); this.promise = deferred.promise; var openRequest = indexedDB.open(name); openRequest.onupgradeneeded = function onupgradeneeded(event) { var db = event.target.result; if(db.objectStoreNames.contains(FILE_STORE_NAME)) { db.deleteObjectStore(FILE_STORE_NAME); } var files = db.createObjectStore(FILE_STORE_NAME); if(db.objectStoreNames.contains(METADATA_STORE_NAME)) { db.deleteObjectStore(METADATA_STORE_NAME); } var metadata = db.createObjectStore(METADATA_STORE_NAME); format = true; }; openRequest.onsuccess = function onsuccess(event) { var db = event.target.result; var transaction = db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function complete(error) { that.db = db; if(error) { that.readyState = FS_ERROR; deferred.reject(error); } else { that.readyState = FS_READY; deferred.resolve(); } } if(format) { var clearRequest = files.clear(); clearRequest.onsuccess = function onsuccess(event) { make_root_directory(files, complete); }; clearRequest.onerror = function onerror(error) { complete(error); }; } else { complete(); } }; openRequest.onerror = function onerror(error) { this.readyState = FS_ERROR; deferred.reject(error); }; var nextDescriptor = 1; var openFiles = {}; this.readyState = FS_PENDING; this.db = null; this.nextDescriptor = nextDescriptor; this.openFiles = openFiles; this.name = name; } FileSystem.prototype._allocate_descriptor = function _allocate_descriptor(openFileDescription) { var fd = this.nextDescriptor ++; this.openFiles[fd] = openFileDescription; return fd; }; FileSystem.prototype._release_descriptor = function _release_descriptor(fd) { delete this.openFiles[fd]; }; FileSystem.prototype.open = function open(path, flags, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function check_result(error, fileNode) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { var position; if(_(flags).contains(O_APPEND)) { position = fileNode.size; } else { position = 0; } var openFileDescription = new OpenFileDescription(fileNode.id, flags, position); var fd = that._allocate_descriptor(openFileDescription); deferred.resolve(fd); } } flags = validate_flags(flags); if(!flags) { deferred.reject(new EInvalid('flags is not valid')); } open_file(that, files, path, flags, check_result); deferred.promise.then( function(result) { callback(undefined, result); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.close = function close(fd, callback) { var deferred = when.defer(); if(!_(this.openFiles).has(fd)) { deferred.reject(new EBadFileDescriptor('invalid file descriptor')); } else { this._release_descriptor(fd); deferred.resolve(); } deferred.promise.then( function() { callback(); }, function(error) { callback(error); } ); }; FileSystem.prototype.mkdir = function mkdir(path, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function check_result(error) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { deferred.resolve(); } } make_directory(files, path, check_result); deferred.promise.then( function() { callback(); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.rmdir = function rmdir(path, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function check_result(error) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { deferred.resolve(); } } remove_directory(files, path, check_result); deferred.promise.then( function() { callback(); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.stat = function stat(path, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function check_result(error, result) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { var stats = new Stats(result, that.name); deferred.resolve(stats); } } stat_file(files, path, check_result); deferred.promise.then( function(result) { callback(undefined, result); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.fstat = function fstat(fd, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function check_result(error, result) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { var stats = new Stats(result, that.name); deferred.resolve(stats); } } var ofd = that.openFiles[fd]; if(!ofd) { deferred.reject(new EBadFileDescriptor('invalid file descriptor')); } else { fstat_file(files, ofd, check_result); } deferred.promise.then( function(result) { callback(undefined, result); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.link = function link(oldpath, newpath, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function check_result(error) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { deferred.resolve(); } } link_node(files, oldpath, newpath, check_result); deferred.promise.then( function(result) { callback(); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.unlink = function unlink(path, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function check_result(error) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { deferred.resolve(); } } unlink_node(files, path, check_result); deferred.promise.then( function(result) { callback(); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.read = function read(fd, buffer, offset, length, position, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); offset = (undefined === offset) ? 0 : offset; length = (undefined === length) ? buffer.length - offset : length; function check_result(error, nbytes) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { deferred.resolve(nbytes); } } var ofd = that.openFiles[fd]; if(!ofd) { deferred.reject(new EBadFileDescriptor('invalid file descriptor')); } else if(!_(ofd.flags).contains(O_READ)) { deferred.reject(new EBadFileDescriptor('descriptor does not permit reading')); } else { read_data(files, ofd, buffer, offset, length, position, check_result); } deferred.promise.then( function(result) { callback(undefined, result); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.readFile = function readFile(path, options, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RO); var files = transaction.objectStore(FILE_STORE_NAME); if(!options) { options = { encoding: null, flag: 'r' }; } else if(typeof options === "function") { callback = options; options = { encoding: null, flag: 'r' }; } else if(typeof options === "string") { options = { encoding: options, flag: 'r' }; } var flags = validate_flags(options.flag || 'r'); if(!flags) { deferred.reject(new EInvalid('flags is not valid')); } open_file(that, files, path, flags, function(err, fileNode) { if(err) { // TODO: abort transaction? return deferred.reject(err); } var ofd = new OpenFileDescription(fileNode.id, flags, 0); var fd = that._allocate_descriptor(ofd); fstat_file(files, ofd, function(err2, fstatResult) { if(err2) { // TODO: abort transaction? return deferred.reject(err2); } var stats = new Stats(fstatResult, that.name); var size = stats.size; var buffer = new Uint8Array(size); read_data(files, ofd, buffer, 0, size, 0, function(err3, nbytes) { if(err3) { // TODO: abort transaction? return deferred.reject(err3); } that._release_descriptor(fd); var data; if(options.encoding === 'utf8') { data = new TextDecoder('utf-8').decode(buffer); } else { data = buffer; } deferred.resolve(data); }); }); }); deferred.promise.then( function(result) { callback(undefined, result); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.write = function write(fd, buffer, offset, length, position, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); offset = (undefined === offset) ? 0 : offset; length = (undefined === length) ? buffer.length - offset : length; function check_result(error, nbytes) { if(error) { deferred.reject(error); } else { deferred.resolve(nbytes); } } var ofd = that.openFiles[fd]; if(!ofd) { deferred.reject(new EBadFileDescriptor('invalid file descriptor')); } else if(!_(ofd.flags).contains(O_WRITE)) { deferred.reject(new EBadFileDescriptor('descriptor does not permit writing')); } else if(buffer.length - offset < length) { deferred.reject(new EIO('intput buffer is too small')); } else { write_data(files, ofd, buffer, offset, length, position, check_result); } deferred.promise.then( function(result) { callback(undefined, result); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.writeFile = function writeFile(path, data, options, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); if(!options) { options = { encoding: 'utf8', flag: 'w' }; } else if(typeof options === "function") { callback = options; options = { encoding: 'utf8', flag: 'w' }; } else if(typeof options === "string") { options = { encoding: options, flag: 'w' }; } var flags = validate_flags(options.flag || 'w'); if(!flags) { deferred.reject(new EInvalid('flags is not valid')); } if(typeof data === "string" && options.encoding === 'utf8') { data = new TextEncoder('utf-8').encode(data); } open_file(that, files, path, flags, function(err, fileNode) { if(err) { // TODO: abort transaction? return deferred.reject(err); } var ofd = new OpenFileDescription(fileNode.id, flags, 0); var fd = that._allocate_descriptor(ofd); write_data(files, ofd, data, 0, data.length, 0, function(err2, nbytes) { if(err2) { // TODO: abort transaction? return deferred.reject(err2); } that._release_descriptor(fd); deferred.resolve(); }); }); deferred.promise.then( function() { callback(undefined); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.getxattr = function getxattr(path, name, callback) { }; FileSystem.prototype.setxattr = function setxattr(path, name, value, callback) { }; FileSystem.prototype.lseek = function lseek(fd, offset, whence, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); function check_result(error, offset) { if(error) { deferred.reject(error); } else { deferred.resolve(offset); } } function update_descriptor_position(error, stats) { if(error) { deferred.reject(error); } else { if(stats.size + offset < 0) { deferred.reject(new EInvalid('resulting file offset would be negative')); } else { ofd.position = stats.size + offset; deferred.resolve(ofd.position); } } } var ofd = that.openFiles[fd]; if(!ofd) { deferred.reject(new EBadFileDescriptor('invalid file descriptor')); } if('SET' === whence) { if(offset < 0) { deferred.reject(new EInvalid('resulting file offset would be negative')); } else { ofd.position = offset; deferred.resolve(ofd.position); } } else if('CUR' === whence) { if(ofd.position + offset < 0) { deferred.reject(new EInvalid('resulting file offset would be negative')); } else { ofd.position += offset; deferred.resolve(ofd.position); } } else if('END' === whence) { var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); fstat_file(files, ofd, update_descriptor_position); } else { deferred.reject(new EInvalid('whence argument is not a proper value')); } deferred.promise.then( function(result) { callback(undefined, result); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.readdir = function readdir(path, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); function check_result(error, files) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { deferred.resolve(files); } } read_directory(files, path, check_result); deferred.promise.then( function(result) { callback(undefined, result); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.utimes = function utimes(path, atime, mtime, callback) { }; FileSystem.prototype.rename = function rename(oldpath, newpath, callback) { var that = this; this.promise.then( function() { var deferred = when.defer(); var transaction = that.db.transaction([FILE_STORE_NAME], IDB_RW); var files = transaction.objectStore(FILE_STORE_NAME); link_node(files, oldpath, newpath, unlink_old_node); function unlink_old_node(error) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { unlink_node(files, oldpath, check_result); } } function check_result(error) { if(error) { // if(transaction.error) transaction.abort(); deferred.reject(error); } else { deferred.resolve(); } } deferred.promise.then( function(result) { callback(); }, function(error) { callback(error); } ); }, function() { callback(new EFileSystemError('unknown error')); } ); }; FileSystem.prototype.truncate = function truncate(path, length, callback) { }; FileSystem.prototype.ftruncate = function ftruncate(fd, length, callback) { }; FileSystem.prototype.symlink = function symlink(fd, length, callback) { }; FileSystem.prototype.readlink = function readlink(fd, length, callback) { }; FileSystem.prototype.realpath = function realpath(fd, length, callback) { }; FileSystem.prototype.lstat = function lstat(fd, length, callback) { }; return { FileSystem: FileSystem }; });