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'use strict';
const common = require('../common');
const assert = require('assert');
const fs = require('fs');
const path = require('path');
const doesNotExist = path.join(common.tmpDir, '__this_should_not_exist');
const readOnlyFile = path.join(common.tmpDir, 'read_only_file');
const readWriteFile = path.join(common.tmpDir, 'read_write_file');
function createFileWithPerms(file, mode) {
fs.writeFileSync(file, '');
fs.chmodSync(file, mode);
}
common.refreshTmpDir();
createFileWithPerms(readOnlyFile, 0o444);
createFileWithPerms(readWriteFile, 0o666);
/*
* On non-Windows supported platforms, fs.access(readOnlyFile, W_OK, ...)
* always succeeds if node runs as the super user, which is sometimes the
* case for tests running on our continuous testing platform agents.
*
* In this case, this test tries to change its process user id to a
* non-superuser user so that the test that checks for write access to a
* read-only file can be more meaningful.
*
* The change of user id is done after creating the fixtures files for the same
* reason: the test may be run as the superuser within a directory in which
* only the superuser can create files, and thus it may need superuser
* priviledges to create them.
*
* There's not really any point in resetting the process' user id to 0 after
* changing it to 'nobody', since in the case that the test runs without
* superuser privilege, it is not possible to change its process user id to
* superuser.
*
* It can prevent the test from removing files created before the change of user
* id, but that's fine. In this case, it is the responsibility of the
* continuous integration platform to take care of that.
*/
let hasWriteAccessForReadonlyFile = false;
if (!common.isWindows && process.getuid() === 0) {
hasWriteAccessForReadonlyFile = true;
try {
process.setuid('nobody');
hasWriteAccessForReadonlyFile = false;
} catch (err) {
}
}
assert.strictEqual(typeof fs.F_OK, 'number');
assert.strictEqual(typeof fs.R_OK, 'number');
assert.strictEqual(typeof fs.W_OK, 'number');
assert.strictEqual(typeof fs.X_OK, 'number');
fs.access(__filename, common.mustCall((err) => {
assert.ifError(err);
}));
fs.access(__filename, fs.R_OK, common.mustCall((err) => {
assert.ifError(err);
}));
fs.access(doesNotExist, common.mustCall((err) => {
assert.notStrictEqual(err, null, 'error should exist');
assert.strictEqual(err.code, 'ENOENT');
assert.strictEqual(err.path, doesNotExist);
}));
fs.access(readOnlyFile, fs.F_OK | fs.R_OK, common.mustCall((err) => {
assert.ifError(err);
}));
fs.access(readOnlyFile, fs.W_OK, common.mustCall((err) => {
if (hasWriteAccessForReadonlyFile) {
assert.ifError(err);
} else {
assert.notStrictEqual(err, null, 'error should exist');
assert.strictEqual(err.path, readOnlyFile);
}
}));
assert.throws(() => {
fs.access(100, fs.F_OK, common.mustNotCall());
}, /^TypeError: path must be a string or Buffer$/);
common.expectsError(
() => {
fs.access(__filename, fs.F_OK);
},
{
code: 'ERR_INVALID_CALLBACK',
type: TypeError
});
common.expectsError(
() => {
fs.access(__filename, fs.F_OK, {});
},
{
code: 'ERR_INVALID_CALLBACK',
type: TypeError
});
assert.doesNotThrow(() => {
fs.accessSync(__filename);
});
assert.doesNotThrow(() => {
const mode = fs.F_OK | fs.R_OK | fs.W_OK;
fs.accessSync(readWriteFile, mode);
});
assert.throws(
() => { fs.accessSync(doesNotExist); },
(err) => {
assert.strictEqual(err.code, 'ENOENT');
assert.strictEqual(err.path, doesNotExist);
assert.strictEqual(
err.message,
`ENOENT: no such file or directory, access '${doesNotExist}'`
);
assert.strictEqual(err.constructor, Error);
return true;
}
);