jj/tests/common/mod.rs

298 lines
11 KiB
Rust

// Copyright 2020 The Jujutsu Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
use std::cell::RefCell;
use std::collections::HashMap;
use std::path::{Path, PathBuf};
use regex::{Captures, Regex};
use tempfile::TempDir;
use testutils;
pub struct TestEnvironment {
_temp_dir: TempDir,
env_root: PathBuf,
home_dir: PathBuf,
config_path: PathBuf,
env_vars: HashMap<String, String>,
config_file_number: RefCell<i64>,
command_number: RefCell<i64>,
/// If true, `jj_cmd_success` does not abort when `jj` exits with nonempty
/// stderr and outputs it instead. This is meant only for debugging.
///
/// This allows debugging the execution of an integration test by inserting
/// `eprintln!` or `dgb!` statements in relevant parts of jj source code.
///
/// You can change the value of this parameter directly, or you can set the
/// `JJ_DEBUG_ALLOW_STDERR` environment variable.
///
/// To see the output, you can run `cargo test` with the --show-output
/// argument, like so:
///
/// RUST_BACKTRACE=1 JJ_DEBUG_ALLOW_STDERR=1 cargo test \
/// --test test_git_colocated -- --show-output fetch_del
///
/// This would run all the tests that contain `fetch_del` in their name in a
/// file that contains `test_git_colocated` and show the output.
pub debug_allow_stderr: bool,
}
impl Default for TestEnvironment {
fn default() -> Self {
testutils::hermetic_libgit2();
let tmp_dir = testutils::new_temp_dir();
let env_root = tmp_dir.path().canonicalize().unwrap();
let home_dir = env_root.join("home");
std::fs::create_dir(&home_dir).unwrap();
let config_dir = env_root.join("config");
std::fs::create_dir(&config_dir).unwrap();
let env_vars = HashMap::new();
let env = Self {
_temp_dir: tmp_dir,
env_root,
home_dir,
config_path: config_dir,
env_vars,
config_file_number: RefCell::new(0),
command_number: RefCell::new(0),
debug_allow_stderr: std::env::var("JJ_DEBUG_ALLOW_STDERR").is_ok(),
};
// Use absolute timestamps in the operation log to make tests independent of the
// current time.
env.add_config(
r#"
[template-aliases]
'format_time_range(time_range)' = 'time_range.start() ++ " - " ++ time_range.end()'
"#,
);
env
}
}
impl TestEnvironment {
pub fn jj_cmd(&self, current_dir: &Path, args: &[&str]) -> assert_cmd::Command {
let mut cmd = assert_cmd::Command::cargo_bin("jj").unwrap();
cmd.current_dir(current_dir);
cmd.args(args);
cmd.env_clear();
for (key, value) in &self.env_vars {
cmd.env(key, value);
}
cmd.env("RUST_BACKTRACE", "1");
cmd.env("HOME", self.home_dir.to_str().unwrap());
cmd.env("JJ_CONFIG", self.config_path.to_str().unwrap());
cmd.env("JJ_USER", "Test User");
cmd.env("JJ_EMAIL", "test.user@example.com");
cmd.env("JJ_OP_HOSTNAME", "host.example.com");
cmd.env("JJ_OP_USERNAME", "test-username");
let mut command_number = self.command_number.borrow_mut();
*command_number += 1;
cmd.env("JJ_RANDOMNESS_SEED", command_number.to_string());
let timestamp = chrono::DateTime::parse_from_rfc3339("2001-02-03T04:05:06+07:00").unwrap();
let timestamp = timestamp + chrono::Duration::seconds(*command_number);
cmd.env("JJ_TIMESTAMP", timestamp.to_rfc3339());
cmd.env("JJ_OP_TIMESTAMP", timestamp.to_rfc3339());
#[cfg(all(windows, target_env = "gnu"))]
{
use itertools::Itertools as _;
// MinGW executables cannot run without `mingw\bin` in the PATH (which we're
// clearing above), so we add it again here.
if let Ok(path_var) = std::env::var("PATH").or_else(|_| std::env::var("Path")) {
// There can be slight variations of this path (e.g. `mingw64\bin`) so we're
// intentionally being lenient here.
let mingw_directories = path_var
.split(';')
.filter(|dir| dir.contains("mingw"))
.join(";");
if !mingw_directories.is_empty() {
cmd.env("PATH", mingw_directories);
}
}
// MinGW uses `TEMP` to create temporary directories, which we need for some
// tests.
if let Ok(tmp_var) = std::env::var("TEMP") {
cmd.env("TEMP", tmp_var);
}
}
cmd
}
/// Run a `jj` command, check that it was successful, and return its
/// `(stdout, stderr)`.
pub fn jj_cmd_ok(&self, current_dir: &Path, args: &[&str]) -> (String, String) {
let assert = self.jj_cmd(current_dir, args).assert().success();
let stdout = self.normalize_output(&get_stdout_string(&assert));
let stderr = self.normalize_output(&get_stderr_string(&assert));
(stdout, stderr)
}
/// Run a `jj` command, check that it was successful, and return its stdout
pub fn jj_cmd_success(&self, current_dir: &Path, args: &[&str]) -> String {
if self.debug_allow_stderr {
let (stdout, stderr) = self.jj_cmd_ok(current_dir, args);
if !stderr.is_empty() {
eprintln!(
"==== STDERR from running jj with {args:?} args in {current_dir:?} \
====\n{stderr}==== END STDERR ===="
);
}
stdout
} else {
let assert = self.jj_cmd(current_dir, args).assert().success().stderr("");
self.normalize_output(&get_stdout_string(&assert))
}
}
/// Run a `jj` command, check that it failed with code 1, and return its
/// stderr
#[must_use]
pub fn jj_cmd_failure(&self, current_dir: &Path, args: &[&str]) -> String {
let assert = self.jj_cmd(current_dir, args).assert().code(1).stdout("");
self.normalize_output(&get_stderr_string(&assert))
}
/// Run a `jj` command and check that it failed with code 2 (for invalid
/// usage)
#[must_use]
pub fn jj_cmd_cli_error(&self, current_dir: &Path, args: &[&str]) -> String {
let assert = self.jj_cmd(current_dir, args).assert().code(2).stdout("");
self.normalize_output(&get_stderr_string(&assert))
}
/// Run a `jj` command, check that it failed with code 255, and return its
/// stderr
#[must_use]
pub fn jj_cmd_internal_error(&self, current_dir: &Path, args: &[&str]) -> String {
let assert = self.jj_cmd(current_dir, args).assert().code(255).stdout("");
self.normalize_output(&get_stderr_string(&assert))
}
pub fn env_root(&self) -> &Path {
&self.env_root
}
pub fn home_dir(&self) -> &Path {
&self.home_dir
}
pub fn config_path(&self) -> &PathBuf {
&self.config_path
}
pub fn set_config_path(&mut self, config_path: PathBuf) {
self.config_path = config_path;
}
pub fn add_config(&self, content: &str) {
if self.config_path.is_file() {
panic!("add_config not supported when config_path is a file");
}
// Concatenating two valid TOML files does not (generally) result in a valid
// TOML file, so we create a new file every time instead.
let mut config_file_number = self.config_file_number.borrow_mut();
*config_file_number += 1;
let config_file_number = *config_file_number;
std::fs::write(
self.config_path
.join(format!("config{config_file_number:04}.toml")),
content,
)
.unwrap();
}
pub fn add_env_var(&mut self, key: &str, val: &str) {
self.env_vars.insert(key.to_string(), val.to_string());
}
/// Sets up the fake editor to read an edit script from the returned path
/// Also sets up the fake editor as a merge tool named "fake-editor"
pub fn set_up_fake_editor(&mut self) -> PathBuf {
let editor_path = assert_cmd::cargo::cargo_bin("fake-editor");
assert!(editor_path.is_file());
// Simplified TOML escaping, hoping that there are no '"' or control characters
// in it
let escaped_editor_path = editor_path.to_str().unwrap().replace('\\', r"\\");
self.add_env_var("EDITOR", &escaped_editor_path);
self.add_config(&format!(
r###"
[ui]
merge-editor = "fake-editor"
[merge-tools]
fake-editor.program="{escaped_editor_path}"
fake-editor.merge-args = ["$output"]
"###
));
let edit_script = self.env_root().join("edit_script");
std::fs::write(&edit_script, "").unwrap();
self.add_env_var("EDIT_SCRIPT", edit_script.to_str().unwrap());
edit_script
}
/// Sets up the fake diff-editor to read an edit script from the returned
/// path
pub fn set_up_fake_diff_editor(&mut self) -> PathBuf {
let diff_editor_path = assert_cmd::cargo::cargo_bin("fake-diff-editor");
assert!(diff_editor_path.is_file());
// Simplified TOML escaping, hoping that there are no '"' or control characters
// in it
let escaped_diff_editor_path = diff_editor_path.to_str().unwrap().replace('\\', r"\\");
self.add_config(&format!(r#"ui.diff-editor = "{escaped_diff_editor_path}""#));
let edit_script = self.env_root().join("diff_edit_script");
std::fs::write(&edit_script, "").unwrap();
self.add_env_var("DIFF_EDIT_SCRIPT", edit_script.to_str().unwrap());
edit_script
}
pub fn normalize_output(&self, text: &str) -> String {
let text = text.replace("jj.exe", "jj");
let regex = Regex::new(&format!(
r"{}(\S+)",
regex::escape(&self.env_root.display().to_string())
))
.unwrap();
regex
.replace_all(&text, |caps: &Captures| {
format!("$TEST_ENV{}", caps[1].replace('\\', "/"))
})
.to_string()
}
/// Used before mutating operations to create more predictable commit ids
/// and change ids in tests
///
/// `test_env.advance_test_rng_seed_to_multiple_of(200_000)` can be inserted
/// wherever convenient throughout your test. If desired, you can have
/// "subheadings" with steps of (e.g.) 10_000, 500, 25.
pub fn advance_test_rng_seed_to_multiple_of(&self, step: i64) {
assert!(step > 0, "step must be >0, got {step}");
let mut command_number = self.command_number.borrow_mut();
*command_number = step * (*command_number / step) + step;
}
}
pub fn get_stdout_string(assert: &assert_cmd::assert::Assert) -> String {
String::from_utf8(assert.get_output().stdout.clone()).unwrap()
}
pub fn get_stderr_string(assert: &assert_cmd::assert::Assert) -> String {
String::from_utf8(assert.get_output().stderr.clone()).unwrap()
}