var stream = require('stream'); if (!stream.Readable) { var stream = require('readable-stream'); } var fs = require('graceful-fs'); var Q = require('q'); var path = require('path'); var zlib = require('zlib'); var touch = Q.denodeify(require('touch')); var mkpath = Q.denodeify(require('mkpath')); var writeFile = Q.denodeify(fs.writeFile); var inflateRaw = Q.denodeify(zlib.inflateRaw); var symlink = Q.denodeify(fs.symlink); var stat = Q.denodeify(fs.stat); // Use a cache of promises for building the directory tree. This allows us to // correctly queue up file extractions for after their path has been created, // avoid trying to create the path twice and still be async. var mkdir = function (dir, cache, mode) { dir = path.normalize(path.resolve(process.cwd(), dir) + path.sep); if (mode === undefined) { mode = parseInt('777', 8) & (~process.umask()); } if (!cache[dir]) { var parent; if (fs.existsSync(dir)) { parent = new Q(); } else { parent = mkdir(path.dirname(dir), cache, mode); } cache[dir] = parent.then(function () { return mkpath(dir, mode); }); } return cache[dir]; }; // Utility methods for writing output files var extractors = { folder: function (folder, destination, zip) { return mkdir(destination, zip.dirCache, folder.mode) .then(function () { return {folder: folder.path}; }); }, store: function (file, destination, zip) { var writer; if (file.uncompressedSize === 0) { writer = touch.bind(null, destination); } else if (file.uncompressedSize <= zip.chunkSize) { writer = function () { return zip.getBuffer(file._offset, file._offset + file.uncompressedSize) .then(function (buffer) { return writeFile(destination, buffer, { mode: file.mode }); }); }; } else { var input = new stream.Readable(); input.wrap(fs.createReadStream(zip.filename, {start: file._offset, end: file._offset + file.uncompressedSize - 1})); writer = pipePromise.bind(null, input, destination, { mode: file.mode }); } return mkdir(path.dirname(destination), zip.dirCache) .then(writer) .then(function () { return {stored: file.path}; }); }, deflate: function (file, destination, zip) { // For Deflate you don't actually need to specify the end offset - and // in fact many ZIP files don't include compressed file sizes for // Deflated files so we don't even know what the end offset is. return mkdir(path.dirname(destination), zip.dirCache) .then(function () { if (file._maxSize <= zip.chunkSize) { return zip.getBuffer(file._offset, file._offset + file._maxSize) .then(inflateRaw) .then(function (buffer) { return writeFile(destination, buffer, { mode: file.mode }); }); } else { // For node 0.8 we need to create the Zlib stream and attach // handlers in the same tick of the event loop, which is why we do // the creation in here var input = new stream.Readable(); input.wrap(fs.createReadStream(zip.filename, {start: file._offset})); var inflater = input.pipe(zlib.createInflateRaw({highWaterMark: 32 * 1024})); return pipePromise(inflater, destination, { mode: file.mode }); } }) .then(function () { return {deflated: file.path}; }); }, symlink: function (file, destination, zip, basePath) { var parent = path.dirname(destination); return mkdir(parent, zip.dirCache) .then(function () { return getLinkLocation(file, destination, zip, basePath); }) .then(function (linkTo) { return symlink(path.resolve(parent, linkTo), destination) .then(function () { return {symlink: file.path, linkTo: linkTo}; }); }); }, // Make a shallow copy of the file/directory this symlink points to instead // of actually creating a link copy: function (file, destination, zip, basePath) { var type; var parent = path.dirname(destination); return mkdir(parent, zip.dirCache) .then(function () { return getLinkLocation(file, destination, zip, basePath); }) .then(function (linkTo) { return stat(path.resolve(parent, linkTo)) .then(function (stats) { if (stats.isFile()) { type = 'File'; var input = new stream.Readable(); input.wrap(fs.createReadStream(path.resolve(parent, linkTo))); return pipePromise(input, destination); } else if (stats.isDirectory()) { type = 'Directory'; return mkdir(destination, zip.dirCache); } else { throw new Error('Could not follow symlink to unknown file type'); } }) .then(function () { return {copy: file.path, original: linkTo, type: type}; }); }); } }; var getLinkLocation = function (file, destination, zip, basePath) { var parent = path.dirname(destination); return zip.getBuffer(file._offset, file._offset + file.uncompressedSize) .then(function (buffer) { var linkTo = buffer.toString(); var fullLink = path.resolve(parent, linkTo); if (path.relative(basePath, fullLink).slice(0, 2) === '..') { throw new Error('Symlink links outside archive'); } return linkTo; }); }; var pipePromise = function (input, destination, options) { var deferred = Q.defer(); var output = fs.createWriteStream(destination, options); var errorHandler = function (error) { deferred.reject(error); }; input.on('error', errorHandler); output.on('error', errorHandler); // For node 0.8 we can't just use the 'finish' event of the pipe input.on('end', function () { output.end(function () { deferred.resolve(); }); }); input.pipe(output, {end: false}); return deferred.promise; }; module.exports = extractors;