'use strict'; var common = require('../common'); var assert = require('assert'); var fs = require('fs'); var path = require('path'); var exec = require('child_process').exec; var async_completed = 0, async_expected = 0, unlink = []; var skipSymlinks = false; common.refreshTmpDir(); var root = '/'; if (common.isWindows) { // something like "C:\\" root = process.cwd().substr(0, 3); // On Windows, creating symlinks requires admin privileges. // We'll only try to run symlink test if we have enough privileges. try { exec('whoami /priv', function(err, o) { if (err || o.indexOf('SeCreateSymbolicLinkPrivilege') == -1) { skipSymlinks = true; } runTest(); }); } catch (er) { // better safe than sorry skipSymlinks = true; process.nextTick(runTest); } } else { process.nextTick(runTest); } function tmp(p) { return path.join(common.tmpDir, p); } var fixturesAbsDir = common.fixturesDir; var tmpAbsDir = common.tmpDir; assert(fixturesAbsDir !== tmpAbsDir); console.error('absolutes\n%s\n%s', fixturesAbsDir, tmpAbsDir); function asynctest(testBlock, args, callback, assertBlock) { async_expected++; testBlock.apply(testBlock, args.concat(function(err) { var ignoreError = false; if (assertBlock) { try { ignoreError = assertBlock.apply(assertBlock, arguments); } catch (e) { err = e; } } async_completed++; callback(ignoreError ? null : err); })); } // sub-tests: function test_simple_error_callback(cb) { var ncalls = 0; fs.realpath('/this/path/does/not/exist', function(err, s) { assert(err); assert(!s); ncalls++; cb(); }); process.on('exit', function() { assert.equal(ncalls, 1); }); } function test_simple_relative_symlink(callback) { console.log('test_simple_relative_symlink'); if (skipSymlinks) { console.log('1..0 # Skipped: symlink test (no privs)'); return runNextTest(); } var entry = common.tmpDir + '/symlink', expected = common.tmpDir + '/cycles/root.js'; [ [entry, '../' + common.tmpDirName + '/cycles/root.js'] ].forEach(function(t) { try {fs.unlinkSync(t[0]);}catch (e) {} console.log('fs.symlinkSync(%j, %j, %j)', t[1], t[0], 'file'); fs.symlinkSync(t[1], t[0], 'file'); unlink.push(t[0]); }); var result = fs.realpathSync(entry); assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(expected)); asynctest(fs.realpath, [entry], callback, function(err, result) { assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(expected)); }); } function test_simple_absolute_symlink(callback) { console.log('test_simple_absolute_symlink'); // this one should still run, even if skipSymlinks is set, // because it uses a junction. var type = skipSymlinks ? 'junction' : 'dir'; console.log('using type=%s', type); var entry = tmpAbsDir + '/symlink', expected = fixturesAbsDir + '/nested-index/one'; [ [entry, expected] ].forEach(function(t) { try {fs.unlinkSync(t[0]);} catch (e) {} console.error('fs.symlinkSync(%j, %j, %j)', t[1], t[0], type); fs.symlinkSync(t[1], t[0], type); unlink.push(t[0]); }); var result = fs.realpathSync(entry); assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(expected)); asynctest(fs.realpath, [entry], callback, function(err, result) { assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(expected)); }); } function test_deep_relative_file_symlink(callback) { console.log('test_deep_relative_file_symlink'); if (skipSymlinks) { console.log('1..0 # Skipped: symlink test (no privs)'); return runNextTest(); } var expected = path.join(common.fixturesDir, 'cycles', 'root.js'); var linkData1 = '../../cycles/root.js'; var linkPath1 = path.join(common.fixturesDir, 'nested-index', 'one', 'symlink1.js'); try {fs.unlinkSync(linkPath1);} catch (e) {} fs.symlinkSync(linkData1, linkPath1, 'file'); var linkData2 = '../one/symlink1.js'; var entry = path.join(common.fixturesDir, 'nested-index', 'two', 'symlink1-b.js'); try {fs.unlinkSync(entry);} catch (e) {} fs.symlinkSync(linkData2, entry, 'file'); unlink.push(linkPath1); unlink.push(entry); assert.equal(fs.realpathSync(entry), path.resolve(expected)); asynctest(fs.realpath, [entry], callback, function(err, result) { assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(path.resolve(expected))); }); } function test_deep_relative_dir_symlink(callback) { console.log('test_deep_relative_dir_symlink'); if (skipSymlinks) { console.log('1..0 # Skipped: symlink test (no privs)'); return runNextTest(); } var expected = path.join(common.fixturesDir, 'cycles', 'folder'); var linkData1b = '../../cycles/folder'; var linkPath1b = path.join(common.fixturesDir, 'nested-index', 'one', 'symlink1-dir'); try {fs.unlinkSync(linkPath1b);} catch (e) {} fs.symlinkSync(linkData1b, linkPath1b, 'dir'); var linkData2b = '../one/symlink1-dir'; var entry = path.join(common.fixturesDir, 'nested-index', 'two', 'symlink12-dir'); try {fs.unlinkSync(entry);} catch (e) {} fs.symlinkSync(linkData2b, entry, 'dir'); unlink.push(linkPath1b); unlink.push(entry); assert.equal(fs.realpathSync(entry), path.resolve(expected)); asynctest(fs.realpath, [entry], callback, function(err, result) { assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(path.resolve(expected))); }); } function test_cyclic_link_protection(callback) { console.log('test_cyclic_link_protection'); if (skipSymlinks) { console.log('1..0 # Skipped: symlink test (no privs)'); return runNextTest(); } var entry = common.tmpDir + '/cycles/realpath-3a'; [ [entry, '../cycles/realpath-3b'], [common.tmpDir + '/cycles/realpath-3b', '../cycles/realpath-3c'], [common.tmpDir + '/cycles/realpath-3c', '../cycles/realpath-3a'] ].forEach(function(t) { try {fs.unlinkSync(t[0]);} catch (e) {} fs.symlinkSync(t[1], t[0], 'dir'); unlink.push(t[0]); }); assert.throws(function() { fs.realpathSync(entry); }); asynctest(fs.realpath, [entry], callback, function(err, result) { assert.ok(err && true); return true; }); } function test_cyclic_link_overprotection(callback) { console.log('test_cyclic_link_overprotection'); if (skipSymlinks) { console.log('1..0 # Skipped: symlink test (no privs)'); return runNextTest(); } var cycles = common.tmpDir + '/cycles'; var expected = fs.realpathSync(cycles); var folder = cycles + '/folder'; var link = folder + '/cycles'; var testPath = cycles; for (var i = 0; i < 10; i++) testPath += '/folder/cycles'; try {fs.unlinkSync(link);} catch (ex) {} fs.symlinkSync(cycles, link, 'dir'); unlink.push(link); assert.equal(fs.realpathSync(testPath), path.resolve(expected)); asynctest(fs.realpath, [testPath], callback, function(er, res) { assert.equal(res, path.resolve(expected)); }); } function test_relative_input_cwd(callback) { console.log('test_relative_input_cwd'); if (skipSymlinks) { console.log('1..0 # Skipped: symlink test (no privs)'); return runNextTest(); } // we need to get the relative path to the tmp dir from cwd. // When the test runner is running it, that will be .../node/test // but it's more common to run `./node test/.../`, so detect it here. var entrydir = process.cwd(); var entry = common.tmpDir.substr(entrydir.length + 1) + '/cycles/realpath-3a'; var expected = common.tmpDir + '/cycles/root.js'; [ [entry, '../cycles/realpath-3b'], [common.tmpDir + '/cycles/realpath-3b', '../cycles/realpath-3c'], [common.tmpDir + '/cycles/realpath-3c', 'root.js'] ].forEach(function(t) { var fn = t[0]; console.error('fn=%j', fn); try {fs.unlinkSync(fn);} catch (e) {} var b = path.basename(t[1]); var type = (b === 'root.js' ? 'file' : 'dir'); console.log('fs.symlinkSync(%j, %j, %j)', t[1], fn, type); fs.symlinkSync(t[1], fn, 'file'); unlink.push(fn); }); var origcwd = process.cwd(); process.chdir(entrydir); assert.equal(fs.realpathSync(entry), path.resolve(expected)); asynctest(fs.realpath, [entry], callback, function(err, result) { process.chdir(origcwd); assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(path.resolve(expected))); return true; }); } function test_deep_symlink_mix(callback) { console.log('test_deep_symlink_mix'); if (common.isWindows) { // This one is a mix of files and directories, and it's quite tricky // to get the file/dir links sorted out correctly. console.log('1..0 # Skipped: symlink test (no privs)'); return runNextTest(); } /* /tmp/node-test-realpath-f1 -> ../tmp/node-test-realpath-d1/foo /tmp/node-test-realpath-d1 -> ../node-test-realpath-d2 /tmp/node-test-realpath-d2/foo -> ../node-test-realpath-f2 /tmp/node-test-realpath-f2 -> /node/test/fixtures/nested-index/one/realpath-c /node/test/fixtures/nested-index/one/realpath-c -> /node/test/fixtures/nested-index/two/realpath-c /node/test/fixtures/nested-index/two/realpath-c -> ../../cycles/root.js /node/test/fixtures/cycles/root.js (hard) */ var entry = tmp('node-test-realpath-f1'); try { fs.unlinkSync(tmp('node-test-realpath-d2/foo')); } catch (e) {} try { fs.rmdirSync(tmp('node-test-realpath-d2')); } catch (e) {} fs.mkdirSync(tmp('node-test-realpath-d2'), 0o700); try { [ [entry, '../' + common.tmpDirName + '/node-test-realpath-d1/foo'], [tmp('node-test-realpath-d1'), '../' + common.tmpDirName + '/node-test-realpath-d2'], [tmp('node-test-realpath-d2/foo'), '../node-test-realpath-f2'], [tmp('node-test-realpath-f2'), fixturesAbsDir + '/nested-index/one/realpath-c'], [fixturesAbsDir + '/nested-index/one/realpath-c', fixturesAbsDir + '/nested-index/two/realpath-c'], [fixturesAbsDir + '/nested-index/two/realpath-c', '../../../' + common.tmpDirName + '/cycles/root.js'] ].forEach(function(t) { //common.debug('setting up '+t[0]+' -> '+t[1]); try { fs.unlinkSync(t[0]); } catch (e) {} fs.symlinkSync(t[1], t[0]); unlink.push(t[0]); }); } finally { unlink.push(tmp('node-test-realpath-d2')); } var expected = tmpAbsDir + '/cycles/root.js'; assert.equal(fs.realpathSync(entry), path.resolve(expected)); asynctest(fs.realpath, [entry], callback, function(err, result) { assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(path.resolve(expected))); return true; }); } function test_non_symlinks(callback) { console.log('test_non_symlinks'); var entrydir = path.dirname(tmpAbsDir); var entry = tmpAbsDir.substr(entrydir.length + 1) + '/cycles/root.js'; var expected = tmpAbsDir + '/cycles/root.js'; var origcwd = process.cwd(); process.chdir(entrydir); assert.equal(fs.realpathSync(entry), path.resolve(expected)); asynctest(fs.realpath, [entry], callback, function(err, result) { process.chdir(origcwd); assert.equal(result, path.resolve(expected), 'got ' + common.inspect(result) + ' expected ' + common.inspect(path.resolve(expected))); return true; }); } var upone = path.join(process.cwd(), '..'); function test_escape_cwd(cb) { console.log('test_escape_cwd'); asynctest(fs.realpath, ['..'], cb, function(er, uponeActual) { assert.equal(upone, uponeActual, 'realpath("..") expected: ' + path.resolve(upone) + ' actual:' + uponeActual); }); } var uponeActual = fs.realpathSync('..'); assert.equal(upone, uponeActual, 'realpathSync("..") expected: ' + path.resolve(upone) + ' actual:' + uponeActual); // going up with .. multiple times // . // `-- a/ // |-- b/ // | `-- e -> .. // `-- d -> .. // realpath(a/b/e/d/a/b/e/d/a) ==> a function test_up_multiple(cb) { console.error('test_up_multiple'); if (skipSymlinks) { console.log('1..0 # Skipped: symlink test (no privs)'); return runNextTest(); } function cleanup() { ['a/b', 'a' ].forEach(function(folder) { try {fs.rmdirSync(tmp(folder));} catch (ex) {} }); } function setup() { cleanup(); } setup(); fs.mkdirSync(tmp('a'), 0o755); fs.mkdirSync(tmp('a/b'), 0o755); fs.symlinkSync('..', tmp('a/d'), 'dir'); unlink.push(tmp('a/d')); fs.symlinkSync('..', tmp('a/b/e'), 'dir'); unlink.push(tmp('a/b/e')); var abedabed = tmp('abedabed'.split('').join('/')); var abedabed_real = tmp(''); var abedabeda = tmp('abedabeda'.split('').join('/')); var abedabeda_real = tmp('a'); assert.equal(fs.realpathSync(abedabeda), abedabeda_real); assert.equal(fs.realpathSync(abedabed), abedabed_real); fs.realpath(abedabeda, function(er, real) { if (er) throw er; assert.equal(abedabeda_real, real); fs.realpath(abedabed, function(er, real) { if (er) throw er; assert.equal(abedabed_real, real); cb(); cleanup(); }); }); } // absolute symlinks with children. // . // `-- a/ // |-- b/ // | `-- c/ // | `-- x.txt // `-- link -> /tmp/node-test-realpath-abs-kids/a/b/ // realpath(root+'/a/link/c/x.txt') ==> root+'/a/b/c/x.txt' function test_abs_with_kids(cb) { console.log('test_abs_with_kids'); // this one should still run, even if skipSymlinks is set, // because it uses a junction. var type = skipSymlinks ? 'junction' : 'dir'; console.log('using type=%s', type); var root = tmpAbsDir + '/node-test-realpath-abs-kids'; function cleanup() { ['/a/b/c/x.txt', '/a/link' ].forEach(function(file) { try {fs.unlinkSync(root + file);} catch (ex) {} }); ['/a/b/c', '/a/b', '/a', '' ].forEach(function(folder) { try {fs.rmdirSync(root + folder);} catch (ex) {} }); } function setup() { cleanup(); ['', '/a', '/a/b', '/a/b/c' ].forEach(function(folder) { console.log('mkdir ' + root + folder); fs.mkdirSync(root + folder, 0o700); }); fs.writeFileSync(root + '/a/b/c/x.txt', 'foo'); fs.symlinkSync(root + '/a/b', root + '/a/link', type); } setup(); var linkPath = root + '/a/link/c/x.txt'; var expectPath = root + '/a/b/c/x.txt'; var actual = fs.realpathSync(linkPath); // console.log({link:linkPath,expect:expectPath,actual:actual},'sync'); assert.equal(actual, path.resolve(expectPath)); asynctest(fs.realpath, [linkPath], cb, function(er, actual) { // console.log({link:linkPath,expect:expectPath,actual:actual},'async'); assert.equal(actual, path.resolve(expectPath)); cleanup(); }); } function test_lying_cache_liar(cb) { var n = 2; // this should not require *any* stat calls, since everything // checked by realpath will be found in the cache. console.log('test_lying_cache_liar'); var cache = { '/foo/bar/baz/bluff' : '/foo/bar/bluff', '/1/2/3/4/5/6/7' : '/1', '/a' : '/a', '/a/b' : '/a/b', '/a/b/c' : '/a/b', '/a/b/d' : '/a/b/d' }; if (common.isWindows) { var wc = {}; Object.keys(cache).forEach(function(k) { wc[ path.resolve(k) ] = path.resolve(cache[k]); }); cache = wc; } var bluff = path.resolve('/foo/bar/baz/bluff'); var rps = fs.realpathSync(bluff, cache); assert.equal(cache[bluff], rps); var nums = path.resolve('/1/2/3/4/5/6/7'); var called = false; // no sync cb calling! fs.realpath(nums, cache, function(er, rp) { called = true; assert.equal(cache[nums], rp); if (--n === 0) cb(); }); assert(called === false); var test = path.resolve('/a/b/c/d'), expect = path.resolve('/a/b/d'); var actual = fs.realpathSync(test, cache); assert.equal(expect, actual); fs.realpath(test, cache, function(er, actual) { assert.equal(expect, actual); if (--n === 0) cb(); }); } // ---------------------------------------------------------------------------- var tests = [ test_simple_error_callback, test_simple_relative_symlink, test_simple_absolute_symlink, test_deep_relative_file_symlink, test_deep_relative_dir_symlink, test_cyclic_link_protection, test_cyclic_link_overprotection, test_relative_input_cwd, test_deep_symlink_mix, test_non_symlinks, test_escape_cwd, test_abs_with_kids, test_lying_cache_liar, test_up_multiple ]; var numtests = tests.length; var testsRun = 0; function runNextTest(err) { if (err) throw err; var test = tests.shift(); if (!test) { return console.log(numtests + ' subtests completed OK for fs.realpath'); } testsRun++; test(runNextTest); } assert.equal(root, fs.realpathSync('/')); fs.realpath('/', function(err, result) { assert.equal(null, err); assert.equal(root, result); }); function runTest() { var tmpDirs = ['cycles', 'cycles/folder']; tmpDirs.forEach(function(t) { t = tmp(t); fs.mkdirSync(t, 0o700); }); fs.writeFileSync(tmp('cycles/root.js'), "console.error('roooot!');"); console.error('start tests'); runNextTest(); } process.on('exit', function() { assert.equal(numtests, testsRun); unlink.forEach(function(path) { try {fs.unlinkSync(path);} catch (e) {} }); assert.equal(async_completed, async_expected); });