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denoland-deno/test_util/src/builders.rs

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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use std::cell::RefCell;
use std::collections::HashMap;
use std::ffi::OsStr;
use std::io::Read;
use std::io::Write;
use std::path::Path;
use std::path::PathBuf;
use std::process::Command;
use std::process::Stdio;
use std::rc::Rc;
use os_pipe::pipe;
use crate::assertions::assert_wildcard_match;
use crate::deno_exe_path;
use crate::env_vars_for_jsr_tests;
use crate::env_vars_for_npm_tests;
use crate::fs::PathRef;
use crate::http_server;
use crate::lsp::LspClientBuilder;
use crate::npm_registry_unset_url;
use crate::pty::Pty;
use crate::strip_ansi_codes;
use crate::testdata_path;
use crate::HttpServerGuard;
use crate::TempDir;
#[derive(Default)]
pub struct TestContextBuilder {
use_http_server: bool,
use_temp_cwd: bool,
use_symlinked_temp_dir: bool,
/// Copies the files at the specified directory in the "testdata" directory
/// to the temp folder and runs the test from there. This is useful when
/// the test creates files in the testdata directory (ex. a node_modules folder)
copy_temp_dir: Option<String>,
temp_dir_path: Option<PathBuf>,
cwd: Option<String>,
envs: HashMap<String, String>,
deno_exe: Option<PathRef>,
}
impl TestContextBuilder {
pub fn new() -> Self {
Self::default()
}
pub fn for_npm() -> Self {
Self::new().use_http_server().add_npm_env_vars()
}
pub fn for_jsr() -> Self {
Self::new().use_http_server().add_jsr_env_vars()
}
pub fn temp_dir_path(mut self, path: impl AsRef<Path>) -> Self {
self.temp_dir_path = Some(path.as_ref().to_path_buf());
self
}
pub fn use_http_server(mut self) -> Self {
self.use_http_server = true;
self
}
pub fn use_temp_cwd(mut self) -> Self {
self.use_temp_cwd = true;
self
}
/// Causes the temp directory to be symlinked to a target directory
/// which is useful for debugging issues that only show up on the CI.
///
/// Note: This method is not actually deprecated, it's just the CI
/// does this by default so there's no need to check in any code that
/// uses this into the repo. This is just for debugging purposes.
#[deprecated]
pub fn use_symlinked_temp_dir(mut self) -> Self {
self.use_symlinked_temp_dir = true;
self
}
/// Copies the files at the specified directory in the "testdata" directory
/// to the temp folder and runs the test from there. This is useful when
/// the test creates files in the testdata directory (ex. a node_modules folder)
pub fn use_copy_temp_dir(mut self, dir: impl AsRef<str>) -> Self {
self.copy_temp_dir = Some(dir.as_ref().to_string());
self
}
pub fn cwd(mut self, cwd: impl AsRef<str>) -> Self {
self.cwd = Some(cwd.as_ref().to_string());
self
}
pub fn env(mut self, key: impl AsRef<str>, value: impl AsRef<str>) -> Self {
self
.envs
.insert(key.as_ref().to_string(), value.as_ref().to_string());
self
}
pub fn add_npm_env_vars(mut self) -> Self {
for (key, value) in env_vars_for_npm_tests() {
self = self.env(key, value);
}
self
}
pub fn add_jsr_env_vars(mut self) -> Self {
for (key, value) in env_vars_for_jsr_tests() {
self = self.env(key, value);
}
self
}
pub fn build(&self) -> TestContext {
let temp_dir_path = self
.temp_dir_path
.clone()
.unwrap_or_else(std::env::temp_dir);
let deno_dir = TempDir::new_in(&temp_dir_path);
let temp_dir = TempDir::new_in(&temp_dir_path);
let temp_dir = if self.use_symlinked_temp_dir {
TempDir::new_symlinked(temp_dir)
} else {
temp_dir
};
let testdata_dir = testdata_path();
if let Some(temp_copy_dir) = &self.copy_temp_dir {
let test_data_path = testdata_dir.join(temp_copy_dir);
let temp_copy_dir = temp_dir.path().join(temp_copy_dir);
temp_copy_dir.create_dir_all();
test_data_path.copy_to_recursive(&temp_copy_dir);
}
let deno_exe = self.deno_exe.clone().unwrap_or_else(deno_exe_path);
println!("deno_exe path {}", deno_exe);
let http_server_guard = if self.use_http_server {
Some(Rc::new(http_server()))
} else {
None
};
TestContext {
cwd: self.cwd.clone(),
deno_exe,
envs: self.envs.clone(),
use_temp_cwd: self.use_temp_cwd || self.copy_temp_dir.is_some(),
_http_server_guard: http_server_guard,
deno_dir,
temp_dir,
testdata_dir,
}
}
}
#[derive(Clone)]
pub struct TestContext {
deno_exe: PathRef,
envs: HashMap<String, String>,
use_temp_cwd: bool,
cwd: Option<String>,
_http_server_guard: Option<Rc<HttpServerGuard>>,
deno_dir: TempDir,
temp_dir: TempDir,
testdata_dir: PathRef,
}
impl Default for TestContext {
fn default() -> Self {
TestContextBuilder::default().build()
}
}
impl TestContext {
pub fn with_http_server() -> Self {
TestContextBuilder::default().use_http_server().build()
}
pub fn testdata_path(&self) -> &PathRef {
&self.testdata_dir
}
pub fn deno_dir(&self) -> &TempDir {
&self.deno_dir
}
pub fn temp_dir(&self) -> &TempDir {
&self.temp_dir
}
pub fn new_command(&self) -> TestCommandBuilder {
TestCommandBuilder {
command_name: self.deno_exe.to_string(),
args: Default::default(),
args_vec: Default::default(),
stdin: Default::default(),
envs: Default::default(),
env_clear: Default::default(),
cwd: Default::default(),
split_output: false,
context: self.clone(),
}
}
pub fn new_lsp_command(&self) -> LspClientBuilder {
let mut builder = LspClientBuilder::new();
builder.deno_exe(&self.deno_exe).set_test_context(self);
builder
}
pub fn run_npm(&self, args: impl AsRef<str>) {
self
.new_command()
.name("npm")
.args(args)
.run()
.skip_output_check();
}
}
pub struct TestCommandBuilder {
command_name: String,
args: String,
args_vec: Vec<String>,
stdin: Option<String>,
envs: HashMap<String, String>,
env_clear: bool,
cwd: Option<String>,
split_output: bool,
context: TestContext,
}
impl TestCommandBuilder {
pub fn name(mut self, name: impl AsRef<OsStr>) -> Self {
self.command_name = name.as_ref().to_string_lossy().to_string();
self
}
pub fn args(mut self, text: impl AsRef<str>) -> Self {
self.args = text.as_ref().to_string();
self
}
pub fn args_vec<T: AsRef<str>, I: IntoIterator<Item = T>>(
mut self,
args: I,
) -> Self {
self.args_vec = args.into_iter().map(|a| a.as_ref().to_string()).collect();
self
}
pub fn stdin(mut self, text: impl AsRef<str>) -> Self {
self.stdin = Some(text.as_ref().to_string());
self
}
/// Splits the output into stdout and stderr rather than having them combined.
pub fn split_output(mut self) -> Self {
// Note: it was previously attempted to capture stdout & stderr separately
// then forward the output to a combined pipe, but this was found to be
// too racy compared to providing the same combined pipe to both.
self.split_output = true;
self
}
pub fn env(
mut self,
key: impl AsRef<OsStr>,
value: impl AsRef<OsStr>,
) -> Self {
self.envs.insert(
key.as_ref().to_string_lossy().to_string(),
value.as_ref().to_string_lossy().to_string(),
);
self
}
pub fn envs<S: AsRef<OsStr>>(
self,
envs: impl IntoIterator<Item = (S, S)>,
) -> Self {
let mut this = self;
for (k, v) in envs {
this = this.env(k, v);
}
this
}
pub fn env_clear(mut self) -> Self {
self.env_clear = true;
self
}
pub fn cwd(mut self, cwd: impl AsRef<OsStr>) -> Self {
self.cwd = Some(cwd.as_ref().to_string_lossy().to_string());
self
}
fn build_cwd(&self) -> PathRef {
let root_dir = if self.context.use_temp_cwd {
self.context.temp_dir.path().to_owned()
} else {
self.context.testdata_dir.clone()
};
let specified_cwd = self.cwd.as_ref().or(self.context.cwd.as_ref());
match specified_cwd {
Some(cwd) => root_dir.join(cwd),
None => root_dir,
}
}
fn build_command_path(&self) -> PathRef {
let command_name = if cfg!(windows) && self.command_name == "npm" {
"npm.cmd"
} else {
&self.command_name
};
if command_name == "deno" {
deno_exe_path()
} else {
PathRef::new(PathBuf::from(command_name))
}
}
fn build_args(&self) -> Vec<String> {
if self.args_vec.is_empty() {
std::borrow::Cow::Owned(
self
.args
.split_whitespace()
.map(|s| s.to_string())
.collect::<Vec<_>>(),
)
} else {
assert!(
self.args.is_empty(),
"Do not provide args when providing args_vec."
);
std::borrow::Cow::Borrowed(&self.args_vec)
}
.iter()
.map(|arg| {
arg.replace(
"$TESTDATA",
&self.context.testdata_dir.as_path().to_string_lossy(),
)
})
.collect::<Vec<_>>()
}
fn build_envs(&self) -> HashMap<String, String> {
let mut envs = self.context.envs.clone();
for (key, value) in &self.envs {
envs.insert(key.to_string(), value.to_string());
}
envs
}
pub fn with_pty(&self, mut action: impl FnMut(Pty)) {
if !Pty::is_supported() {
return;
}
let args = self.build_args();
let args = args.iter().map(|s| s.as_str()).collect::<Vec<_>>();
let mut envs = self.build_envs();
if !envs.contains_key("NO_COLOR") {
// set this by default for pty tests
envs.insert("NO_COLOR".to_string(), "1".to_string());
}
// note(dsherret): for some reason I need to inject the current
// environment here for the pty tests or else I get dns errors
if !self.env_clear {
for (key, value) in std::env::vars() {
envs.entry(key).or_insert(value);
}
}
action(Pty::new(
self.build_command_path().as_path(),
&args,
self.build_cwd().as_path(),
Some(envs),
))
}
#[track_caller]
pub fn run(&self) -> TestCommandOutput {
fn read_pipe_to_string(mut pipe: os_pipe::PipeReader) -> String {
let mut output = String::new();
pipe.read_to_string(&mut output).unwrap();
output
}
fn sanitize_output(text: String, args: &[String]) -> String {
let mut text = strip_ansi_codes(&text).to_string();
// deno test's output capturing flushes with a zero-width space in order to
2023-06-26 09:10:27 -04:00
// synchronize the output pipes. Occasionally this zero width space
// might end up in the output so strip it from the output comparison here.
if args.first().map(|s| s.as_str()) == Some("test") {
text = text.replace('\u{200B}', "");
}
text
}
let cwd = self.build_cwd();
let args = self.build_args();
let mut command = Command::new(self.build_command_path());
println!("command {} {}", self.command_name, args.join(" "));
println!("command cwd {}", cwd);
command.args(args.iter());
if self.env_clear {
command.env_clear();
}
command.env("DENO_DIR", self.context.deno_dir.path());
let mut envs = self.build_envs();
if !envs.contains_key("NPM_CONFIG_REGISTRY") {
envs.insert("NPM_CONFIG_REGISTRY".to_string(), npm_registry_unset_url());
}
command.envs(envs);
command.current_dir(cwd);
command.stdin(Stdio::piped());
let (combined_reader, std_out_err_handle) = if self.split_output {
let (stdout_reader, stdout_writer) = pipe().unwrap();
let (stderr_reader, stderr_writer) = pipe().unwrap();
command.stdout(stdout_writer);
command.stderr(stderr_writer);
(
None,
Some((
std::thread::spawn(move || read_pipe_to_string(stdout_reader)),
std::thread::spawn(move || read_pipe_to_string(stderr_reader)),
)),
)
} else {
let (combined_reader, combined_writer) = pipe().unwrap();
command.stdout(combined_writer.try_clone().unwrap());
command.stderr(combined_writer);
(Some(combined_reader), None)
};
let mut process = command.spawn().expect("Failed spawning command");
if let Some(input) = &self.stdin {
let mut p_stdin = process.stdin.take().unwrap();
write!(p_stdin, "{input}").unwrap();
}
// This parent process is still holding its copies of the write ends,
// and we have to close them before we read, otherwise the read end
// will never report EOF. The Command object owns the writers now,
// and dropping it closes them.
drop(command);
let combined = combined_reader
.map(|pipe| sanitize_output(read_pipe_to_string(pipe), &args));
let status = process.wait().unwrap();
let std_out_err = std_out_err_handle.map(|(stdout, stderr)| {
(
sanitize_output(stdout.join().unwrap(), &args),
sanitize_output(stderr.join().unwrap(), &args),
)
});
let exit_code = status.code();
#[cfg(unix)]
let signal = {
use std::os::unix::process::ExitStatusExt;
status.signal()
};
#[cfg(not(unix))]
let signal = None;
TestCommandOutput {
exit_code,
signal,
combined,
std_out_err,
testdata_dir: self.context.testdata_dir.clone(),
asserted_exit_code: RefCell::new(false),
asserted_stdout: RefCell::new(false),
asserted_stderr: RefCell::new(false),
asserted_combined: RefCell::new(false),
_test_context: self.context.clone(),
}
}
}
pub struct TestCommandOutput {
combined: Option<String>,
std_out_err: Option<(String, String)>,
exit_code: Option<i32>,
signal: Option<i32>,
testdata_dir: PathRef,
asserted_stdout: RefCell<bool>,
asserted_stderr: RefCell<bool>,
asserted_combined: RefCell<bool>,
asserted_exit_code: RefCell<bool>,
// keep alive for the duration of the output reference
_test_context: TestContext,
}
impl Drop for TestCommandOutput {
// assert the output and exit code was asserted
fn drop(&mut self) {
fn panic_unasserted_output(text: &str) {
println!("OUTPUT\n{text}\nOUTPUT");
panic!(concat!(
"The non-empty text of the command was not asserted. ",
"Call `output.skip_output_check()` to skip if necessary.",
),);
}
if std::thread::panicking() {
return;
}
// either the combined output needs to be asserted or both stdout and stderr
if let Some(combined) = &self.combined {
if !*self.asserted_combined.borrow() && !combined.is_empty() {
panic_unasserted_output(combined);
}
}
if let Some((stdout, stderr)) = &self.std_out_err {
if !*self.asserted_stdout.borrow() && !stdout.is_empty() {
panic_unasserted_output(stdout);
}
if !*self.asserted_stderr.borrow() && !stderr.is_empty() {
panic_unasserted_output(stderr);
}
}
// now ensure the exit code was asserted
if !*self.asserted_exit_code.borrow() && self.exit_code != Some(0) {
self.print_output();
panic!(
"The non-zero exit code of the command was not asserted: {:?}",
self.exit_code,
)
}
}
}
impl TestCommandOutput {
pub fn testdata_dir(&self) -> &PathRef {
&self.testdata_dir
}
pub fn skip_output_check(&self) -> &Self {
*self.asserted_combined.borrow_mut() = true;
*self.asserted_stdout.borrow_mut() = true;
*self.asserted_stderr.borrow_mut() = true;
self
}
pub fn skip_exit_code_check(&self) {
*self.asserted_exit_code.borrow_mut() = true;
}
pub fn exit_code(&self) -> Option<i32> {
self.skip_exit_code_check();
self.exit_code
}
pub fn signal(&self) -> Option<i32> {
self.signal
}
pub fn combined_output(&self) -> &str {
self.skip_output_check();
self
.combined
.as_deref()
.expect("not available since .split_output() was called")
}
pub fn stdout(&self) -> &str {
*self.asserted_stdout.borrow_mut() = true;
self
.std_out_err
.as_ref()
.map(|(stdout, _)| stdout.as_str())
.expect("call .split_output() on the builder")
}
pub fn stderr(&self) -> &str {
*self.asserted_stderr.borrow_mut() = true;
self
.std_out_err
.as_ref()
.map(|(_, stderr)| stderr.as_str())
.expect("call .split_output() on the builder")
}
#[track_caller]
pub fn assert_exit_code(&self, expected_exit_code: i32) -> &Self {
let actual_exit_code = self.exit_code();
if let Some(exit_code) = &actual_exit_code {
if *exit_code != expected_exit_code {
self.print_output();
panic!(
"bad exit code, expected: {:?}, actual: {:?}",
expected_exit_code, exit_code,
);
}
} else {
self.print_output();
if let Some(signal) = self.signal() {
panic!(
"process terminated by signal, expected exit code: {:?}, actual signal: {:?}",
actual_exit_code,
signal,
);
} else {
panic!(
"process terminated without status code on non unix platform, expected exit code: {:?}",
actual_exit_code,
);
}
}
self
}
pub fn print_output(&self) {
if let Some(combined) = &self.combined {
println!("OUTPUT\n{combined}\nOUTPUT");
} else if let Some((stdout, stderr)) = &self.std_out_err {
println!("STDOUT OUTPUT\n{stdout}\nSTDOUT OUTPUT");
println!("STDERR OUTPUT\n{stderr}\nSTDERR OUTPUT");
}
}
#[track_caller]
pub fn assert_matches_text(&self, expected_text: impl AsRef<str>) -> &Self {
self.inner_assert_matches_text(self.combined_output(), expected_text)
}
#[track_caller]
pub fn assert_matches_file(&self, file_path: impl AsRef<Path>) -> &Self {
self.inner_assert_matches_file(self.combined_output(), file_path)
}
#[track_caller]
pub fn assert_stdout_matches_text(
&self,
expected_text: impl AsRef<str>,
) -> &Self {
self.inner_assert_matches_text(self.stdout(), expected_text)
}
#[track_caller]
pub fn assert_stdout_matches_file(
&self,
file_path: impl AsRef<Path>,
) -> &Self {
self.inner_assert_matches_file(self.stdout(), file_path)
}
#[track_caller]
pub fn assert_stderr_matches_text(
&self,
expected_text: impl AsRef<str>,
) -> &Self {
self.inner_assert_matches_text(self.stderr(), expected_text)
}
#[track_caller]
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pub fn assert_stderr_matches_file(
&self,
file_path: impl AsRef<Path>,
) -> &Self {
self.inner_assert_matches_file(self.stderr(), file_path)
}
#[track_caller]
fn inner_assert_matches_text(
&self,
actual: &str,
expected: impl AsRef<str>,
) -> &Self {
assert_wildcard_match(actual, expected.as_ref());
self
}
#[track_caller]
fn inner_assert_matches_file(
&self,
actual: &str,
file_path: impl AsRef<Path>,
) -> &Self {
let output_path = self.testdata_dir().join(file_path);
println!("output path {}", output_path);
let expected_text = output_path.read_to_string();
self.inner_assert_matches_text(actual, expected_text)
}
}