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f5e46c9bf2
This looks like a massive PR, but it's only a move from cli/tests -> tests, and updates of relative paths for files. This is the first step towards aggregate all of the integration test files under tests/, which will lead to a set of integration tests that can run without the CLI binary being built. While we could leave these tests under `cli`, it would require us to keep a more complex directory structure for the various test runners. In addition, we have a lot of complexity to ignore various test files in the `cli` project itself (cargo publish exclusion rules, autotests = false, etc). And finally, the `tests/` folder will eventually house the `test_ffi`, `test_napi` and other testing code, reducing the size of the root repo directory. For easier review, the extremely large and noisy "move" is in the first commit (with no changes -- just a move), while the remainder of the changes to actual files is in the second commit.
242 lines
6.7 KiB
JavaScript
242 lines
6.7 KiB
JavaScript
// deno-fmt-ignore-file
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// deno-lint-ignore-file
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// Copyright Joyent and Node contributors. All rights reserved. MIT license.
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// Taken from Node 18.12.1
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// This file is automatically generated by `tools/node_compat/setup.ts`. Do not modify this file manually.
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// Flags: --expose-internals
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'use strict';
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// This tests that fs.access and fs.accessSync works as expected
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// and the errors thrown from these APIs include the desired properties
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const common = require('../common');
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if (!common.isWindows && process.getuid() === 0)
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common.skip('as this test should not be run as `root`');
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if (common.isIBMi)
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common.skip('IBMi has a different access permission mechanism');
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const assert = require('assert');
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const fs = require('fs');
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const path = require('path');
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const { internalBinding } = require('internal/test/binding');
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const { UV_ENOENT } = internalBinding('uv');
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const tmpdir = require('../common/tmpdir');
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const doesNotExist = path.join(tmpdir.path, '__this_should_not_exist');
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const readOnlyFile = path.join(tmpdir.path, 'read_only_file');
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const readWriteFile = path.join(tmpdir.path, 'read_write_file');
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function createFileWithPerms(file, mode) {
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fs.writeFileSync(file, '');
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fs.chmodSync(file, mode);
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}
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tmpdir.refresh();
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createFileWithPerms(readOnlyFile, 0o444);
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createFileWithPerms(readWriteFile, 0o666);
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// On non-Windows supported platforms, fs.access(readOnlyFile, W_OK, ...)
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// always succeeds if node runs as the super user, which is sometimes the
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// case for tests running on our continuous testing platform agents.
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//
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// In this case, this test tries to change its process user id to a
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// non-superuser user so that the test that checks for write access to a
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// read-only file can be more meaningful.
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//
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// The change of user id is done after creating the fixtures files for the same
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// reason: the test may be run as the superuser within a directory in which
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// only the superuser can create files, and thus it may need superuser
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// privileges to create them.
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//
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// There's not really any point in resetting the process' user id to 0 after
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// changing it to 'nobody', since in the case that the test runs without
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// superuser privilege, it is not possible to change its process user id to
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// superuser.
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//
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// It can prevent the test from removing files created before the change of user
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// id, but that's fine. In this case, it is the responsibility of the
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// continuous integration platform to take care of that.
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let hasWriteAccessForReadonlyFile = false;
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if (!common.isWindows && process.getuid() === 0) {
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hasWriteAccessForReadonlyFile = true;
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try {
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process.setuid('nobody');
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hasWriteAccessForReadonlyFile = false;
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} catch {
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// Continue regardless of error.
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}
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}
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assert.strictEqual(typeof fs.F_OK, 'number');
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assert.strictEqual(typeof fs.R_OK, 'number');
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assert.strictEqual(typeof fs.W_OK, 'number');
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assert.strictEqual(typeof fs.X_OK, 'number');
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const throwNextTick = (e) => { process.nextTick(() => { throw e; }); };
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fs.access(__filename, common.mustCall(function(...args) {
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assert.deepStrictEqual(args, [null]);
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}));
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fs.promises.access(__filename)
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.then(common.mustCall())
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.catch(throwNextTick);
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fs.access(__filename, fs.R_OK, common.mustCall(function(...args) {
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assert.deepStrictEqual(args, [null]);
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}));
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fs.promises.access(__filename, fs.R_OK)
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.then(common.mustCall())
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.catch(throwNextTick);
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fs.access(readOnlyFile, fs.R_OK, common.mustCall(function(...args) {
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assert.deepStrictEqual(args, [null]);
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}));
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fs.promises.access(readOnlyFile, fs.R_OK)
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.then(common.mustCall())
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.catch(throwNextTick);
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{
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const expectedError = (err) => {
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assert.notStrictEqual(err, null);
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assert.strictEqual(err.code, 'ENOENT');
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assert.strictEqual(err.path, doesNotExist);
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};
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fs.access(doesNotExist, common.mustCall(expectedError));
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fs.promises.access(doesNotExist)
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.then(common.mustNotCall(), common.mustCall(expectedError))
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.catch(throwNextTick);
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}
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{
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function expectedError(err) {
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assert.strictEqual(this, undefined);
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if (hasWriteAccessForReadonlyFile) {
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assert.ifError(err);
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} else {
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assert.notStrictEqual(err, null);
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assert.strictEqual(err.path, readOnlyFile);
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}
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}
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fs.access(readOnlyFile, fs.W_OK, common.mustCall(expectedError));
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fs.promises.access(readOnlyFile, fs.W_OK)
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.then(common.mustNotCall(), common.mustCall(expectedError))
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.catch(throwNextTick);
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}
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{
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const expectedError = (err) => {
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assert.strictEqual(err.code, 'ERR_INVALID_ARG_TYPE');
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assert.ok(err instanceof TypeError);
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return true;
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};
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assert.throws(
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() => { fs.access(100, fs.F_OK, common.mustNotCall()); },
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expectedError
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);
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fs.promises.access(100, fs.F_OK)
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.then(common.mustNotCall(), common.mustCall(expectedError))
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.catch(throwNextTick);
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}
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assert.throws(
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() => {
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fs.access(__filename, fs.F_OK);
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},
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{
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code: 'ERR_INVALID_ARG_TYPE',
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name: 'TypeError'
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});
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assert.throws(
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() => {
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fs.access(__filename, fs.F_OK, common.mustNotMutateObjectDeep({}));
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},
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{
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code: 'ERR_INVALID_ARG_TYPE',
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name: 'TypeError'
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});
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// Regular access should not throw.
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fs.accessSync(__filename);
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const mode = fs.R_OK | fs.W_OK;
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fs.accessSync(readWriteFile, mode);
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// Invalid modes should throw.
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[
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false,
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1n,
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{ [Symbol.toPrimitive]() { return fs.R_OK; } },
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[1],
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'r',
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].forEach((mode, i) => {
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console.log(mode, i);
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assert.throws(
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() => fs.access(readWriteFile, mode, common.mustNotCall()),
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{
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code: 'ERR_INVALID_ARG_TYPE',
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}
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);
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assert.throws(
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() => fs.accessSync(readWriteFile, mode),
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{
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code: 'ERR_INVALID_ARG_TYPE',
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}
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);
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});
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// Out of range modes should throw
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[
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-1,
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8,
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Infinity,
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NaN,
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].forEach((mode, i) => {
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console.log(mode, i);
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assert.throws(
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() => fs.access(readWriteFile, mode, common.mustNotCall()),
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{
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code: 'ERR_OUT_OF_RANGE',
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}
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);
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assert.throws(
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() => fs.accessSync(readWriteFile, mode),
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{
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code: 'ERR_OUT_OF_RANGE',
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}
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);
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});
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assert.throws(
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() => { fs.accessSync(doesNotExist); },
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(err) => {
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assert.strictEqual(err.code, 'ENOENT');
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assert.strictEqual(err.path, doesNotExist);
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assert.strictEqual(
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err.message,
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`ENOENT: no such file or directory, access '${doesNotExist}'`
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);
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assert.strictEqual(err.constructor, Error);
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assert.strictEqual(err.syscall, 'access');
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assert.strictEqual(err.errno, UV_ENOENT);
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return true;
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}
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);
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assert.throws(
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() => { fs.accessSync(Buffer.from(doesNotExist)); },
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(err) => {
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assert.strictEqual(err.code, 'ENOENT');
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assert.strictEqual(err.path, doesNotExist);
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assert.strictEqual(
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err.message,
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`ENOENT: no such file or directory, access '${doesNotExist}'`
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);
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assert.strictEqual(err.constructor, Error);
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assert.strictEqual(err.syscall, 'access');
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assert.strictEqual(err.errno, UV_ENOENT);
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return true;
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}
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);
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