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// * This file is part of the uutils coreutils package.
// *
// * For the full copyright and license information, please view the LICENSE
// * file that was distributed with this source code.
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//spell-checker: ignore (linux) rlimit prlimit coreutil ggroups uchild uncaptured
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#![ allow(dead_code) ]
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use pretty_assertions ::assert_eq ;
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#[ cfg(target_os = " linux " ) ]
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use rlimit ::prlimit ;
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#[ cfg(unix) ]
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use std ::borrow ::Cow ;
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#[ cfg(not(windows)) ]
use std ::ffi ::CString ;
use std ::ffi ::OsStr ;
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use std ::fs ::{ self , hard_link , remove_file , File , OpenOptions } ;
use std ::io ::{ self , BufWriter , Read , Result , Write } ;
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#[ cfg(unix) ]
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use std ::os ::unix ::fs ::{ symlink as symlink_dir , symlink as symlink_file , PermissionsExt } ;
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#[ cfg(windows) ]
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use std ::os ::windows ::fs ::{ symlink_dir , symlink_file } ;
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#[ cfg(windows) ]
use std ::path ::MAIN_SEPARATOR ;
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use std ::path ::{ Path , PathBuf } ;
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use std ::process ::{ Child , Command , Output , Stdio } ;
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use std ::rc ::Rc ;
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use std ::thread ::{ sleep , JoinHandle } ;
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use std ::time ::Duration ;
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use std ::{ env , thread } ;
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use tempfile ::{ Builder , TempDir } ;
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use uucore ::Args ;
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#[ cfg(windows) ]
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static PROGNAME : & str = concat! ( env! ( " CARGO_PKG_NAME " ) , " .exe " ) ;
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#[ cfg(not(windows)) ]
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static PROGNAME : & str = env! ( " CARGO_PKG_NAME " ) ;
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static TESTS_DIR : & str = " tests " ;
static FIXTURES_DIR : & str = " fixtures " ;
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static ALREADY_RUN : & str = " you have already run this UCommand, if you want to run \
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another command in the same test , use TestScenario ::new instead of \
testing ( ) ; " ;
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static MULTIPLE_STDIN_MEANINGLESS : & str = " Ucommand is designed around a typical use case of: provide args and input stream -> spawn process -> block until completion -> return output streams. For verifying that a particular section of the input stream is what causes a particular behavior, use the Command type directly. " ;
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static NO_STDIN_MEANINGLESS : & str = " Setting this flag has no effect if there is no stdin " ;
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/// Test if the program is running under CI
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pub fn is_ci ( ) -> bool {
std ::env ::var ( " CI " )
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. unwrap_or_else ( | _ | String ::from ( " false " ) )
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. eq_ignore_ascii_case ( " true " )
}
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/// Read a test scenario fixture, returning its bytes
fn read_scenario_fixture < S : AsRef < OsStr > > ( tmpd : & Option < Rc < TempDir > > , file_rel_path : S ) -> Vec < u8 > {
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let tmpdir_path = tmpd . as_ref ( ) . unwrap ( ) . as_ref ( ) . path ( ) ;
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AtPath ::new ( tmpdir_path ) . read_bytes ( file_rel_path . as_ref ( ) . to_str ( ) . unwrap ( ) )
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}
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/// A command result is the outputs of a command (streams and status code)
/// within a struct which has convenience assertion functions about those outputs
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#[ derive(Debug, Clone) ]
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pub struct CmdResult {
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/// bin_path provided by `TestScenario` or `UCommand`
bin_path : String ,
/// util_name provided by `TestScenario` or `UCommand`
util_name : Option < String > ,
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//tmpd is used for convenience functions for asserts against fixtures
tmpd : Option < Rc < TempDir > > ,
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/// exit status for command (if there is one)
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code : Option < i32 > ,
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/// zero-exit from running the Command?
/// see [`success`]
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success : bool ,
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/// captured standard output after running the Command
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stdout : Vec < u8 > ,
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/// captured standard error after running the Command
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stderr : Vec < u8 > ,
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}
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impl CmdResult {
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pub fn new (
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bin_path : String ,
util_name : Option < String > ,
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tmpd : Option < Rc < TempDir > > ,
code : Option < i32 > ,
success : bool ,
stdout : & [ u8 ] ,
stderr : & [ u8 ] ,
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) -> Self {
Self {
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bin_path ,
util_name ,
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tmpd ,
code ,
success ,
stdout : stdout . to_vec ( ) ,
stderr : stderr . to_vec ( ) ,
}
}
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/// Returns a reference to the program's standard output as a slice of bytes
pub fn stdout ( & self ) -> & [ u8 ] {
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& self . stdout
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}
/// Returns the program's standard output as a string slice
pub fn stdout_str ( & self ) -> & str {
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std ::str ::from_utf8 ( & self . stdout ) . unwrap ( )
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}
/// Returns the program's standard output as a string
/// consumes self
pub fn stdout_move_str ( self ) -> String {
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String ::from_utf8 ( self . stdout ) . unwrap ( )
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}
/// Returns the program's standard output as a vec of bytes
/// consumes self
pub fn stdout_move_bytes ( self ) -> Vec < u8 > {
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self . stdout
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}
/// Returns a reference to the program's standard error as a slice of bytes
pub fn stderr ( & self ) -> & [ u8 ] {
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& self . stderr
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}
/// Returns the program's standard error as a string slice
pub fn stderr_str ( & self ) -> & str {
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std ::str ::from_utf8 ( & self . stderr ) . unwrap ( )
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}
/// Returns the program's standard error as a string
/// consumes self
pub fn stderr_move_str ( self ) -> String {
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String ::from_utf8 ( self . stderr ) . unwrap ( )
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}
/// Returns the program's standard error as a vec of bytes
/// consumes self
pub fn stderr_move_bytes ( self ) -> Vec < u8 > {
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self . stderr
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}
/// Returns the program's exit code
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/// Panics if not run or has not finished yet for example when run with run_no_wait()
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pub fn code ( & self ) -> i32 {
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self . code
. expect ( " Program must be run first or has not finished, yet " )
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}
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pub fn code_is ( & self , expected_code : i32 ) -> & Self {
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assert_eq! ( self . code ( ) , expected_code ) ;
self
}
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/// Returns the program's TempDir
/// Panics if not present
pub fn tmpd ( & self ) -> Rc < TempDir > {
match & self . tmpd {
Some ( ptr ) = > ptr . clone ( ) ,
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None = > panic! ( " Command not associated with a TempDir " ) ,
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}
}
/// Returns whether the program succeeded
pub fn succeeded ( & self ) -> bool {
self . success
}
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/// asserts that the command resulted in a success (zero) status code
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pub fn success ( & self ) -> & Self {
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assert! (
self . success ,
" Command was expected to succeed. \n stdout = {} \n stderr = {} " ,
self . stdout_str ( ) ,
self . stderr_str ( )
) ;
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self
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}
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/// asserts that the command resulted in a failure (non-zero) status code
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pub fn failure ( & self ) -> & Self {
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assert! (
! self . success ,
" Command was expected to fail. \n stdout = {} \n stderr = {} " ,
self . stdout_str ( ) ,
self . stderr_str ( )
) ;
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self
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}
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/// asserts that the command's exit code is the same as the given one
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pub fn status_code ( & self , code : i32 ) -> & Self {
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assert_eq! ( self . code , Some ( code ) ) ;
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self
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}
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/// asserts that the command resulted in empty (zero-length) stderr stream output
/// generally, it's better to use stdout_only() instead,
/// but you might find yourself using this function if
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/// 1. you can not know exactly what stdout will be or
/// 2. you know that stdout will also be empty
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pub fn no_stderr ( & self ) -> & Self {
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assert! (
self . stderr . is_empty ( ) ,
" Expected stderr to be empty, but it's: \n {} " ,
self . stderr_str ( )
) ;
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self
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}
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/// asserts that the command resulted in empty (zero-length) stderr stream output
/// unless asserting there was neither stdout or stderr, stderr_only is usually a better choice
/// generally, it's better to use stderr_only() instead,
/// but you might find yourself using this function if
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/// 1. you can not know exactly what stderr will be or
/// 2. you know that stderr will also be empty
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pub fn no_stdout ( & self ) -> & Self {
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assert! (
self . stdout . is_empty ( ) ,
" Expected stdout to be empty, but it's: \n {} " ,
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self . stdout_str ( )
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) ;
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self
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}
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/// Assert that there is output to neither stderr nor stdout.
pub fn no_output ( & self ) -> & Self {
self . no_stdout ( ) . no_stderr ( )
}
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/// asserts that the command resulted in stdout stream output that equals the
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/// passed in value, trailing whitespace are kept to force strict comparison (#1235)
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/// stdout_only is a better choice unless stderr may or will be non-empty
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pub fn stdout_is < T : AsRef < str > > ( & self , msg : T ) -> & Self {
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assert_eq! ( self . stdout_str ( ) , String ::from ( msg . as_ref ( ) ) ) ;
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self
}
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/// like `stdout_is`, but succeeds if any elements of `expected` matches stdout.
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pub fn stdout_is_any < T : AsRef < str > + std ::fmt ::Debug > ( & self , expected : & [ T ] ) -> & Self {
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if ! expected . iter ( ) . any ( | msg | self . stdout_str ( ) = = msg . as_ref ( ) ) {
panic! (
" stdout was {} \n Expected any of {:#?} " ,
self . stdout_str ( ) ,
expected
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) ;
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}
self
}
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/// Like `stdout_is` but newlines are normalized to `\n`.
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pub fn normalized_newlines_stdout_is < T : AsRef < str > > ( & self , msg : T ) -> & Self {
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let msg = msg . as_ref ( ) . replace ( " \r \n " , " \n " ) ;
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assert_eq! ( self . stdout_str ( ) . replace ( " \r \n " , " \n " ) , msg ) ;
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self
}
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/// asserts that the command resulted in stdout stream output,
/// whose bytes equal those of the passed in slice
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pub fn stdout_is_bytes < T : AsRef < [ u8 ] > > ( & self , msg : T ) -> & Self {
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assert_eq! ( self . stdout , msg . as_ref ( ) ) ;
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self
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}
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/// like stdout_is(...), but expects the contents of the file at the provided relative path
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pub fn stdout_is_fixture < T : AsRef < OsStr > > ( & self , file_rel_path : T ) -> & Self {
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let contents = read_scenario_fixture ( & self . tmpd , file_rel_path ) ;
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self . stdout_is ( String ::from_utf8 ( contents ) . unwrap ( ) )
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}
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/// Assert that the bytes of stdout exactly match those of the given file.
///
/// Contrast this with [`CmdResult::stdout_is_fixture`], which
/// decodes the contents of the file as a UTF-8 [`String`] before
/// comparison with stdout.
///
/// # Examples
///
/// Use this method in a unit test like this:
///
/// ```rust,ignore
/// #[test]
/// fn test_something() {
/// new_ucmd!().succeeds().stdout_is_fixture_bytes("expected.bin");
/// }
/// ```
pub fn stdout_is_fixture_bytes < T : AsRef < OsStr > > ( & self , file_rel_path : T ) -> & Self {
let contents = read_scenario_fixture ( & self . tmpd , file_rel_path ) ;
self . stdout_is_bytes ( contents )
}
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/// like stdout_is_fixture(...), but replaces the data in fixture file based on values provided in template_vars
/// command output
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pub fn stdout_is_templated_fixture < T : AsRef < OsStr > > (
& self ,
file_rel_path : T ,
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template_vars : & [ ( & str , & str ) ] ,
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) -> & Self {
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let mut contents =
String ::from_utf8 ( read_scenario_fixture ( & self . tmpd , file_rel_path ) ) . unwrap ( ) ;
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for kv in template_vars {
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contents = contents . replace ( kv . 0 , kv . 1 ) ;
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}
self . stdout_is ( contents )
}
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/// like `stdout_is_templated_fixture`, but succeeds if any replacement by `template_vars` results in the actual stdout.
pub fn stdout_is_templated_fixture_any < T : AsRef < OsStr > > (
& self ,
file_rel_path : T ,
template_vars : & [ Vec < ( String , String ) > ] ,
) {
let contents = String ::from_utf8 ( read_scenario_fixture ( & self . tmpd , file_rel_path ) ) . unwrap ( ) ;
let possible_values = template_vars . iter ( ) . map ( | vars | {
let mut contents = contents . clone ( ) ;
for kv in vars . iter ( ) {
contents = contents . replace ( & kv . 0 , & kv . 1 ) ;
}
contents
} ) ;
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self . stdout_is_any ( & possible_values . collect ::< Vec < _ > > ( ) ) ;
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}
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/// asserts that the command resulted in stderr stream output that equals the
/// passed in value, when both are trimmed of trailing whitespace
/// stderr_only is a better choice unless stdout may or will be non-empty
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pub fn stderr_is < T : AsRef < str > > ( & self , msg : T ) -> & Self {
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assert_eq! (
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self . stderr_str ( ) . trim_end ( ) ,
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String ::from ( msg . as_ref ( ) ) . trim_end ( )
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) ;
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self
}
/// asserts that the command resulted in stderr stream output,
/// whose bytes equal those of the passed in slice
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pub fn stderr_is_bytes < T : AsRef < [ u8 ] > > ( & self , msg : T ) -> & Self {
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assert_eq! ( self . stderr , msg . as_ref ( ) ) ;
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self
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}
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/// Like stdout_is_fixture, but for stderr
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pub fn stderr_is_fixture < T : AsRef < OsStr > > ( & self , file_rel_path : T ) -> & Self {
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let contents = read_scenario_fixture ( & self . tmpd , file_rel_path ) ;
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self . stderr_is ( String ::from_utf8 ( contents ) . unwrap ( ) )
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}
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/// asserts that
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/// 1. the command resulted in stdout stream output that equals the
/// passed in value
/// 2. the command resulted in empty (zero-length) stderr stream output
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pub fn stdout_only < T : AsRef < str > > ( & self , msg : T ) -> & Self {
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self . no_stderr ( ) . stdout_is ( msg )
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}
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/// asserts that
/// 1. the command resulted in a stdout stream whose bytes
/// equal those of the passed in value
/// 2. the command resulted in an empty stderr stream
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pub fn stdout_only_bytes < T : AsRef < [ u8 ] > > ( & self , msg : T ) -> & Self {
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self . no_stderr ( ) . stdout_is_bytes ( msg )
}
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/// like stdout_only(...), but expects the contents of the file at the provided relative path
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pub fn stdout_only_fixture < T : AsRef < OsStr > > ( & self , file_rel_path : T ) -> & Self {
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let contents = read_scenario_fixture ( & self . tmpd , file_rel_path ) ;
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self . stdout_only_bytes ( contents )
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}
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/// asserts that
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/// 1. the command resulted in stderr stream output that equals the
/// passed in value, when both are trimmed of trailing whitespace
/// 2. the command resulted in empty (zero-length) stdout stream output
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pub fn stderr_only < T : AsRef < str > > ( & self , msg : T ) -> & Self {
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self . no_stdout ( ) . stderr_is ( msg )
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}
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/// asserts that
/// 1. the command resulted in a stderr stream whose bytes equal the ones
/// of the passed value
/// 2. the command resulted in an empty stdout stream
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pub fn stderr_only_bytes < T : AsRef < [ u8 ] > > ( & self , msg : T ) -> & Self {
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self . no_stdout ( ) . stderr_is_bytes ( msg )
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}
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pub fn fails_silently ( & self ) -> & Self {
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assert! ( ! self . success ) ;
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assert! ( self . stderr . is_empty ( ) ) ;
self
}
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/// asserts that
/// 1. the command resulted in stderr stream output that equals the
/// the following format when both are trimmed of trailing whitespace
/// `"{util_name}: {msg}\nTry '{bin_path} {util_name} --help' for more information."`
/// This the expected format when a UUsageError is returned or when show_error! is called
/// `msg` should be the same as the one provided to UUsageError::new or show_error!
///
/// 2. the command resulted in empty (zero-length) stdout stream output
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pub fn usage_error < T : AsRef < str > > ( & self , msg : T ) -> & Self {
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self . stderr_only ( format! (
" {0}: {2} \n Try '{1} {0} --help' for more information. " ,
self . util_name . as_ref ( ) . unwrap ( ) , // This shouldn't be called using a normal command
self . bin_path ,
msg . as_ref ( )
) )
}
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pub fn stdout_contains < T : AsRef < str > > ( & self , cmp : T ) -> & Self {
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assert! (
self . stdout_str ( ) . contains ( cmp . as_ref ( ) ) ,
" '{}' does not contain '{}' " ,
self . stdout_str ( ) ,
cmp . as_ref ( )
) ;
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self
}
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pub fn stderr_contains < T : AsRef < str > > ( & self , cmp : T ) -> & Self {
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assert! (
self . stderr_str ( ) . contains ( cmp . as_ref ( ) ) ,
" '{}' does not contain '{}' " ,
self . stderr_str ( ) ,
cmp . as_ref ( )
) ;
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self
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}
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pub fn stdout_does_not_contain < T : AsRef < str > > ( & self , cmp : T ) -> & Self {
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assert! (
! self . stdout_str ( ) . contains ( cmp . as_ref ( ) ) ,
" '{}' contains '{}' but should not " ,
self . stdout_str ( ) ,
cmp . as_ref ( ) ,
) ;
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self
}
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pub fn stderr_does_not_contain < T : AsRef < str > > ( & self , cmp : T ) -> & Self {
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assert! ( ! self . stderr_str ( ) . contains ( cmp . as_ref ( ) ) ) ;
self
}
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pub fn stdout_matches ( & self , regex : & regex ::Regex ) -> & Self {
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if ! regex . is_match ( self . stdout_str ( ) . trim ( ) ) {
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panic! ( " Stdout does not match regex: \n {} " , self . stdout_str ( ) ) ;
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}
self
}
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pub fn stdout_does_not_match ( & self , regex : & regex ::Regex ) -> & Self {
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if regex . is_match ( self . stdout_str ( ) . trim ( ) ) {
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panic! ( " Stdout matches regex: \n {} " , self . stdout_str ( ) ) ;
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}
self
}
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}
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pub fn log_info < T : AsRef < str > , U : AsRef < str > > ( msg : T , par : U ) {
println! ( " {} : {} " , msg . as_ref ( ) , par . as_ref ( ) ) ;
}
pub fn recursive_copy ( src : & Path , dest : & Path ) -> Result < ( ) > {
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if fs ::metadata ( src ) ? . is_dir ( ) {
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for entry in fs ::read_dir ( src ) ? {
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let entry = entry ? ;
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let mut new_dest = PathBuf ::from ( dest ) ;
new_dest . push ( entry . file_name ( ) ) ;
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if fs ::metadata ( entry . path ( ) ) ? . is_dir ( ) {
fs ::create_dir ( & new_dest ) ? ;
recursive_copy ( & entry . path ( ) , & new_dest ) ? ;
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} else {
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fs ::copy ( entry . path ( ) , new_dest ) ? ;
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}
}
}
Ok ( ( ) )
}
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pub fn get_root_path ( ) -> & 'static str {
if cfg! ( windows ) {
" C: \\ "
} else {
" / "
}
}
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/// Object-oriented path struct that represents and operates on
/// paths relative to the directory it was constructed for.
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#[ derive(Clone) ]
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pub struct AtPath {
pub subdir : PathBuf ,
}
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impl AtPath {
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pub fn new ( subdir : & Path ) -> Self {
Self {
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subdir : PathBuf ::from ( subdir ) ,
}
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}
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pub fn as_string ( & self ) -> String {
self . subdir . to_str ( ) . unwrap ( ) . to_owned ( )
}
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pub fn plus ( & self , name : & str ) -> PathBuf {
let mut pathbuf = self . subdir . clone ( ) ;
pathbuf . push ( name ) ;
pathbuf
}
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pub fn plus_as_string ( & self , name : & str ) -> String {
String ::from ( self . plus ( name ) . to_str ( ) . unwrap ( ) )
}
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fn minus ( & self , name : & str ) -> PathBuf {
let prefixed = PathBuf ::from ( name ) ;
if prefixed . starts_with ( & self . subdir ) {
let mut unprefixed = PathBuf ::new ( ) ;
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for component in prefixed . components ( ) . skip ( self . subdir . components ( ) . count ( ) ) {
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unprefixed . push ( component . as_os_str ( ) . to_str ( ) . unwrap ( ) ) ;
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}
unprefixed
} else {
prefixed
}
}
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pub fn minus_as_string ( & self , name : & str ) -> String {
String ::from ( self . minus ( name ) . to_str ( ) . unwrap ( ) )
}
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pub fn set_readonly ( & self , name : & str ) {
let metadata = fs ::metadata ( self . plus ( name ) ) . unwrap ( ) ;
let mut permissions = metadata . permissions ( ) ;
permissions . set_readonly ( true ) ;
fs ::set_permissions ( self . plus ( name ) , permissions ) . unwrap ( ) ;
}
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pub fn open ( & self , name : & str ) -> File {
log_info ( " open " , self . plus_as_string ( name ) ) ;
File ::open ( self . plus ( name ) ) . unwrap ( )
}
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pub fn read ( & self , name : & str ) -> String {
let mut f = self . open ( name ) ;
let mut contents = String ::new ( ) ;
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f . read_to_string ( & mut contents )
. unwrap_or_else ( | e | panic! ( " Couldn't read {} : {} " , name , e ) ) ;
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contents
}
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pub fn read_bytes ( & self , name : & str ) -> Vec < u8 > {
let mut f = self . open ( name ) ;
let mut contents = Vec ::new ( ) ;
f . read_to_end ( & mut contents )
. unwrap_or_else ( | e | panic! ( " Couldn't read {} : {} " , name , e ) ) ;
contents
}
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pub fn write ( & self , name : & str , contents : & str ) {
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log_info ( " write(default) " , self . plus_as_string ( name ) ) ;
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std ::fs ::write ( self . plus ( name ) , contents )
. unwrap_or_else ( | e | panic! ( " Couldn't write {} : {} " , name , e ) ) ;
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}
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pub fn write_bytes ( & self , name : & str , contents : & [ u8 ] ) {
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log_info ( " write(default) " , self . plus_as_string ( name ) ) ;
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std ::fs ::write ( self . plus ( name ) , contents )
. unwrap_or_else ( | e | panic! ( " Couldn't write {} : {} " , name , e ) ) ;
}
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pub fn append ( & self , name : & str , contents : & str ) {
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log_info ( " write(append) " , self . plus_as_string ( name ) ) ;
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let mut f = OpenOptions ::new ( )
. write ( true )
. append ( true )
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. create ( true )
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. open ( self . plus ( name ) )
. unwrap ( ) ;
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f . write_all ( contents . as_bytes ( ) )
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. unwrap_or_else ( | e | panic! ( " Couldn't write(append) {} : {} " , name , e ) ) ;
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}
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pub fn append_bytes ( & self , name : & str , contents : & [ u8 ] ) {
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log_info ( " write(append) " , self . plus_as_string ( name ) ) ;
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let mut f = OpenOptions ::new ( )
. write ( true )
. append ( true )
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. create ( true )
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. open ( self . plus ( name ) )
. unwrap ( ) ;
f . write_all ( contents )
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. unwrap_or_else ( | e | panic! ( " Couldn't write(append) to {} : {} " , name , e ) ) ;
}
pub fn truncate ( & self , name : & str , contents : & str ) {
log_info ( " write(truncate) " , self . plus_as_string ( name ) ) ;
let mut f = OpenOptions ::new ( )
. write ( true )
. truncate ( true )
. create ( true )
. open ( self . plus ( name ) )
. unwrap ( ) ;
f . write_all ( contents . as_bytes ( ) )
. unwrap_or_else ( | e | panic! ( " Couldn't write(truncate) {} : {} " , name , e ) ) ;
}
pub fn rename ( & self , source : & str , target : & str ) {
let source = self . plus ( source ) ;
let target = self . plus ( target ) ;
log_info ( " rename " , format! ( " {:?} {:?} " , source , target ) ) ;
std ::fs ::rename ( & source , & target )
. unwrap_or_else ( | e | panic! ( " Couldn't rename {:?} -> {:?} : {} " , source , target , e ) ) ;
}
pub fn remove ( & self , source : & str ) {
let source = self . plus ( source ) ;
log_info ( " remove " , format! ( " {:?} " , source ) ) ;
std ::fs ::remove_file ( & source )
. unwrap_or_else ( | e | panic! ( " Couldn't remove {:?} : {} " , source , e ) ) ;
}
pub fn copy ( & self , source : & str , target : & str ) {
let source = self . plus ( source ) ;
let target = self . plus ( target ) ;
log_info ( " copy " , format! ( " {:?} {:?} " , source , target ) ) ;
std ::fs ::copy ( & source , & target )
. unwrap_or_else ( | e | panic! ( " Couldn't copy {:?} -> {:?} : {} " , source , target , e ) ) ;
}
pub fn rmdir ( & self , dir : & str ) {
log_info ( " rmdir " , self . plus_as_string ( dir ) ) ;
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fs ::remove_dir ( self . plus ( dir ) ) . unwrap ( ) ;
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}
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pub fn mkdir ( & self , dir : & str ) {
log_info ( " mkdir " , self . plus_as_string ( dir ) ) ;
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fs ::create_dir ( self . plus ( dir ) ) . unwrap ( ) ;
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}
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pub fn mkdir_all ( & self , dir : & str ) {
log_info ( " mkdir_all " , self . plus_as_string ( dir ) ) ;
fs ::create_dir_all ( self . plus ( dir ) ) . unwrap ( ) ;
}
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pub fn make_file ( & self , name : & str ) -> File {
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match File ::create ( self . plus ( name ) ) {
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Ok ( f ) = > f ,
Err ( e ) = > panic! ( " {} " , e ) ,
}
}
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pub fn touch ( & self , file : & str ) {
log_info ( " touch " , self . plus_as_string ( file ) ) ;
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File ::create ( self . plus ( file ) ) . unwrap ( ) ;
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}
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#[ cfg(not(windows)) ]
pub fn mkfifo ( & self , fifo : & str ) {
let full_path = self . plus_as_string ( fifo ) ;
log_info ( " mkfifo " , & full_path ) ;
unsafe {
let fifo_name : CString = CString ::new ( full_path ) . expect ( " CString creation failed. " ) ;
libc ::mkfifo ( fifo_name . as_ptr ( ) , libc ::S_IWUSR | libc ::S_IRUSR ) ;
}
}
#[ cfg(not(windows)) ]
pub fn is_fifo ( & self , fifo : & str ) -> bool {
unsafe {
let name = CString ::new ( self . plus_as_string ( fifo ) ) . unwrap ( ) ;
let mut stat : libc ::stat = std ::mem ::zeroed ( ) ;
if libc ::stat ( name . as_ptr ( ) , & mut stat ) > = 0 {
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libc ::S_IFIFO & stat . st_mode as libc ::mode_t ! = 0
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} else {
false
}
}
}
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pub fn hard_link ( & self , original : & str , link : & str ) {
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log_info (
" hard_link " ,
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format! (
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" {},{} " ,
self . plus_as_string ( original ) ,
self . plus_as_string ( link )
) ,
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) ;
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hard_link ( self . plus ( original ) , self . plus ( link ) ) . unwrap ( ) ;
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}
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pub fn symlink_file ( & self , original : & str , link : & str ) {
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log_info (
" symlink " ,
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format! (
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" {},{} " ,
self . plus_as_string ( original ) ,
self . plus_as_string ( link )
) ,
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) ;
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symlink_file ( self . plus ( original ) , self . plus ( link ) ) . unwrap ( ) ;
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}
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pub fn relative_symlink_file ( & self , original : & str , link : & str ) {
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#[ cfg(windows) ]
let original = original . replace ( '/' , & MAIN_SEPARATOR . to_string ( ) ) ;
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log_info (
" symlink " ,
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format! ( " {} , {} " , & original , & self . plus_as_string ( link ) ) ,
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) ;
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symlink_file ( original , self . plus ( link ) ) . unwrap ( ) ;
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}
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pub fn symlink_dir ( & self , original : & str , link : & str ) {
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log_info (
" symlink " ,
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format! (
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" {},{} " ,
self . plus_as_string ( original ) ,
self . plus_as_string ( link )
) ,
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) ;
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symlink_dir ( self . plus ( original ) , self . plus ( link ) ) . unwrap ( ) ;
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}
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pub fn relative_symlink_dir ( & self , original : & str , link : & str ) {
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#[ cfg(windows) ]
let original = original . replace ( '/' , & MAIN_SEPARATOR . to_string ( ) ) ;
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log_info (
" symlink " ,
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format! ( " {} , {} " , & original , & self . plus_as_string ( link ) ) ,
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) ;
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symlink_dir ( original , self . plus ( link ) ) . unwrap ( ) ;
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}
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pub fn is_symlink ( & self , path : & str ) -> bool {
log_info ( " is_symlink " , self . plus_as_string ( path ) ) ;
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match fs ::symlink_metadata ( self . plus ( path ) ) {
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Ok ( m ) = > m . file_type ( ) . is_symlink ( ) ,
Err ( _ ) = > false ,
}
}
pub fn resolve_link ( & self , path : & str ) -> String {
log_info ( " resolve_link " , self . plus_as_string ( path ) ) ;
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match fs ::read_link ( self . plus ( path ) ) {
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Ok ( p ) = > self . minus_as_string ( p . to_str ( ) . unwrap ( ) ) ,
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Err ( _ ) = > String ::new ( ) ,
2015-11-16 05:25:01 +00:00
}
}
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pub fn read_symlink ( & self , path : & str ) -> String {
log_info ( " read_symlink " , self . plus_as_string ( path ) ) ;
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fs ::read_link ( self . plus ( path ) )
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. unwrap ( )
. to_str ( )
. unwrap ( )
. to_owned ( )
}
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pub fn symlink_metadata ( & self , path : & str ) -> fs ::Metadata {
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match fs ::symlink_metadata ( self . plus ( path ) ) {
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Ok ( m ) = > m ,
Err ( e ) = > panic! ( " {} " , e ) ,
}
}
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pub fn metadata ( & self , path : & str ) -> fs ::Metadata {
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match fs ::metadata ( self . plus ( path ) ) {
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Ok ( m ) = > m ,
Err ( e ) = > panic! ( " {} " , e ) ,
}
}
pub fn file_exists ( & self , path : & str ) -> bool {
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match fs ::metadata ( self . plus ( path ) ) {
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Ok ( m ) = > m . is_file ( ) ,
Err ( _ ) = > false ,
}
}
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/// Decide whether the named symbolic link exists in the test directory.
pub fn symlink_exists ( & self , path : & str ) -> bool {
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match fs ::symlink_metadata ( self . plus ( path ) ) {
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Ok ( m ) = > m . file_type ( ) . is_symlink ( ) ,
Err ( _ ) = > false ,
}
}
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pub fn dir_exists ( & self , path : & str ) -> bool {
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match fs ::metadata ( self . plus ( path ) ) {
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Ok ( m ) = > m . is_dir ( ) ,
Err ( _ ) = > false ,
}
}
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pub fn root_dir_resolved ( & self ) -> String {
log_info ( " current_directory_resolved " , " " ) ;
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let s = self
. subdir
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. canonicalize ( )
. unwrap ( )
. to_str ( )
. unwrap ( )
. to_owned ( ) ;
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// Due to canonicalize()'s use of GetFinalPathNameByHandleW() on Windows, the resolved path
// starts with '\\?\' to extend the limit of a given path to 32,767 wide characters.
//
// To address this issue, we remove this prepended string if available.
//
// Source:
// http://stackoverflow.com/questions/31439011/getfinalpathnamebyhandle-without-prepended
let prefix = " \\ \\ ? \\ " ;
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if let Some ( stripped ) = s . strip_prefix ( prefix ) {
String ::from ( stripped )
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} else {
s
}
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}
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/// Set the permissions of the specified file.
///
/// # Panics
///
/// This function panics if there is an error loading the metadata
/// or setting the permissions of the file.
#[ cfg(not(windows)) ]
pub fn set_mode ( & self , filename : & str , mode : u32 ) {
let path = self . plus ( filename ) ;
let mut perms = std ::fs ::metadata ( & path ) . unwrap ( ) . permissions ( ) ;
perms . set_mode ( mode ) ;
std ::fs ::set_permissions ( & path , perms ) . unwrap ( ) ;
}
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}
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/// An environment for running a single uutils test case, serves three functions:
/// 1. centralizes logic for locating the uutils binary and calling the utility
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/// 2. provides a unique temporary directory for the test case
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/// 3. copies over fixtures for the utility to the temporary directory
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///
/// Fixtures can be found under `tests/fixtures/$util_name/`
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pub struct TestScenario {
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pub bin_path : PathBuf ,
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pub util_name : String ,
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pub fixtures : AtPath ,
tmpd : Rc < TempDir > ,
}
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impl TestScenario {
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pub fn new ( util_name : & str ) -> Self {
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let tmpd = Rc ::new ( TempDir ::new ( ) . unwrap ( ) ) ;
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let ts = Self {
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bin_path : {
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// Instead of hard coding the path relative to the current
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// directory, use Cargo's OUT_DIR to find path to executable.
// This allows tests to be run using profiles other than debug.
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let target_dir = path_concat! ( env! ( " OUT_DIR " ) , " .. " , " .. " , " .. " , PROGNAME ) ;
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PathBuf ::from ( AtPath ::new ( Path ::new ( & target_dir ) ) . root_dir_resolved ( ) )
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} ,
util_name : String ::from ( util_name ) ,
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fixtures : AtPath ::new ( tmpd . as_ref ( ) . path ( ) ) ,
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tmpd ,
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} ;
let mut fixture_path_builder = env ::current_dir ( ) . unwrap ( ) ;
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fixture_path_builder . push ( TESTS_DIR ) ;
fixture_path_builder . push ( FIXTURES_DIR ) ;
fixture_path_builder . push ( util_name ) ;
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if let Ok ( m ) = fs ::metadata ( & fixture_path_builder ) {
if m . is_dir ( ) {
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recursive_copy ( & fixture_path_builder , & ts . fixtures . subdir ) . unwrap ( ) ;
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}
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}
ts
}
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/// Returns builder for invoking the target uutils binary. Paths given are
/// treated relative to the environment's unique temporary test directory.
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pub fn ucmd ( & self ) -> UCommand {
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self . composite_cmd ( & self . bin_path , & self . util_name , true )
}
/// Returns builder for invoking the target uutils binary. Paths given are
/// treated relative to the environment's unique temporary test directory.
pub fn composite_cmd < S : AsRef < OsStr > , T : AsRef < OsStr > > (
& self ,
bin : S ,
util_name : T ,
env_clear : bool ,
) -> UCommand {
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UCommand ::new_from_tmp ( bin , & Some ( util_name ) , self . tmpd . clone ( ) , env_clear )
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}
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/// Returns builder for invoking any system command. Paths given are treated
/// relative to the environment's unique temporary test directory.
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pub fn cmd < S : AsRef < OsStr > > ( & self , bin : S ) -> UCommand {
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UCommand ::new_from_tmp ::< S , S > ( bin , & None , self . tmpd . clone ( ) , true )
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}
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/// Returns builder for invoking any uutils command. Paths given are treated
/// relative to the environment's unique temporary test directory.
pub fn ccmd < S : AsRef < OsStr > > ( & self , bin : S ) -> UCommand {
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self . composite_cmd ( & self . bin_path , bin , true )
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}
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// different names are used rather than an argument
// because the need to keep the environment is exceedingly rare.
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pub fn ucmd_keepenv ( & self ) -> UCommand {
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self . composite_cmd ( & self . bin_path , & self . util_name , false )
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}
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/// Returns builder for invoking any system command. Paths given are treated
/// relative to the environment's unique temporary test directory.
/// Differs from the builder returned by `cmd` in that `cmd_keepenv` does not call
/// `Command::env_clear` (Clears the entire environment map for the child process.)
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pub fn cmd_keepenv < S : AsRef < OsStr > > ( & self , bin : S ) -> UCommand {
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UCommand ::new_from_tmp ::< S , S > ( bin , & None , self . tmpd . clone ( ) , false )
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}
}
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/// A `UCommand` is a wrapper around an individual Command that provides several additional features
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/// 1. it has convenience functions that are more ergonomic to use for piping in stdin, spawning the command
/// and asserting on the results.
/// 2. it tracks arguments provided so that in test cases which may provide variations of an arg in loops
/// the test failure can display the exact call which preceded an assertion failure.
/// 3. it provides convenience construction arguments to set the Command working directory and/or clear its environment.
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#[ derive(Debug) ]
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pub struct UCommand {
pub raw : Command ,
comm_string : String ,
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bin_path : String ,
util_name : Option < String > ,
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has_run : bool ,
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ignore_stdin_write_error : bool ,
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stdin : Option < Stdio > ,
stdout : Option < Stdio > ,
stderr : Option < Stdio > ,
bytes_into_stdin : Option < Vec < u8 > > ,
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#[ cfg(any(target_os = " linux " , target_os = " android " )) ]
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limits : Vec < ( rlimit ::Resource , u64 , u64 ) > ,
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stderr_to_stdout : bool ,
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tmpd : Option < Rc < TempDir > > , // drop last
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}
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impl UCommand {
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pub fn new < T : AsRef < OsStr > , S : AsRef < OsStr > , U : AsRef < OsStr > > (
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bin_path : T ,
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util_name : & Option < S > ,
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curdir : U ,
env_clear : bool ,
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) -> Self {
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let bin_path = bin_path . as_ref ( ) ;
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let util_name = util_name . as_ref ( ) . map ( | un | un . as_ref ( ) ) ;
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let mut ucmd = Self {
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tmpd : None ,
has_run : false ,
raw : {
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let mut cmd = Command ::new ( bin_path ) ;
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cmd . current_dir ( curdir . as_ref ( ) ) ;
if env_clear {
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cmd . env_clear ( ) ;
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if cfg! ( windows ) {
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// spell-checker:ignore (dll) rsaenh
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// %SYSTEMROOT% is required on Windows to initialize crypto provider
// ... and crypto provider is required for std::rand
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// From `procmon`: RegQueryValue HKLM\SOFTWARE\Microsoft\Cryptography\Defaults\Provider\Microsoft Strong Cryptographic Provider\Image Path
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// SUCCESS Type: REG_SZ, Length: 66, Data: %SystemRoot%\system32\rsaenh.dll"
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if let Some ( systemroot ) = env ::var_os ( " SYSTEMROOT " ) {
cmd . env ( " SYSTEMROOT " , systemroot ) ;
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}
} else {
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// if someone is setting LD_PRELOAD, there's probably a good reason for it
if let Some ( ld_preload ) = env ::var_os ( " LD_PRELOAD " ) {
cmd . env ( " LD_PRELOAD " , ld_preload ) ;
}
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}
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}
cmd
} ,
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comm_string : String ::from ( bin_path . to_str ( ) . unwrap ( ) ) ,
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bin_path : bin_path . to_str ( ) . unwrap ( ) . to_string ( ) ,
util_name : util_name . map ( | un | un . to_str ( ) . unwrap ( ) . to_string ( ) ) ,
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ignore_stdin_write_error : false ,
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bytes_into_stdin : None ,
stdin : None ,
stdout : None ,
stderr : None ,
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#[ cfg(any(target_os = " linux " , target_os = " android " )) ]
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limits : vec ! [ ] ,
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stderr_to_stdout : false ,
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} ;
if let Some ( un ) = util_name {
ucmd . arg ( un ) ;
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}
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ucmd
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}
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pub fn new_from_tmp < T : AsRef < OsStr > , S : AsRef < OsStr > > (
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bin_path : T ,
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util_name : & Option < S > ,
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tmpd : Rc < TempDir > ,
env_clear : bool ,
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) -> Self {
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let tmpd_path_buf = String ::from ( tmpd . as_ref ( ) . path ( ) . to_str ( ) . unwrap ( ) ) ;
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let mut ucmd : Self = Self ::new ( bin_path , util_name , tmpd_path_buf , env_clear ) ;
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ucmd . tmpd = Some ( tmpd ) ;
ucmd
}
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pub fn set_stdin < T : Into < Stdio > > ( & mut self , stdin : T ) -> & mut Self {
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self . stdin = Some ( stdin . into ( ) ) ;
self
}
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pub fn set_stdout < T : Into < Stdio > > ( & mut self , stdout : T ) -> & mut Self {
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self . stdout = Some ( stdout . into ( ) ) ;
self
}
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pub fn set_stderr < T : Into < Stdio > > ( & mut self , stderr : T ) -> & mut Self {
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self . stderr = Some ( stderr . into ( ) ) ;
self
}
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pub fn stderr_to_stdout ( & mut self ) -> & mut Self {
self . stderr_to_stdout = true ;
self
}
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/// Add a parameter to the invocation. Path arguments are treated relative
/// to the test environment directory.
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pub fn arg < S : AsRef < OsStr > > ( & mut self , arg : S ) -> & mut Self {
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assert! ( ! self . has_run , " {} " , ALREADY_RUN ) ;
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self . comm_string . push ( ' ' ) ;
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self . comm_string
. push_str ( arg . as_ref ( ) . to_str ( ) . unwrap_or_default ( ) ) ;
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self . raw . arg ( arg . as_ref ( ) ) ;
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self
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}
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/// Add multiple parameters to the invocation. Path arguments are treated relative
/// to the test environment directory.
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pub fn args < S : AsRef < OsStr > > ( & mut self , args : & [ S ] ) -> & mut Self {
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assert! ( ! self . has_run , " {} " , MULTIPLE_STDIN_MEANINGLESS ) ;
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let strings = args
. iter ( )
. map ( | s | s . as_ref ( ) . to_os_string ( ) )
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. collect_ignore ( ) ;
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for s in strings {
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self . comm_string . push ( ' ' ) ;
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self . comm_string . push_str ( & s ) ;
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}
self . raw . args ( args . as_ref ( ) ) ;
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self
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}
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/// provides standard input to feed in to the command when spawned
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pub fn pipe_in < T : Into < Vec < u8 > > > ( & mut self , input : T ) -> & mut Self {
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assert! (
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self . bytes_into_stdin . is_none ( ) ,
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" {} " ,
MULTIPLE_STDIN_MEANINGLESS
) ;
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self . bytes_into_stdin = Some ( input . into ( ) ) ;
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self
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}
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/// like pipe_in(...), but uses the contents of the file at the provided relative path as the piped in data
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pub fn pipe_in_fixture < S : AsRef < OsStr > > ( & mut self , file_rel_path : S ) -> & mut Self {
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let contents = read_scenario_fixture ( & self . tmpd , file_rel_path ) ;
self . pipe_in ( contents )
}
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/// Ignores error caused by feeding stdin to the command.
/// This is typically useful to test non-standard workflows
/// like feeding something to a command that does not read it
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pub fn ignore_stdin_write_error ( & mut self ) -> & mut Self {
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self . ignore_stdin_write_error = true ;
self
}
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pub fn env < K , V > ( & mut self , key : K , val : V ) -> & mut Self
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where
K : AsRef < OsStr > ,
V : AsRef < OsStr > ,
{
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assert! ( ! self . has_run , " {} " , ALREADY_RUN ) ;
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self . raw . env ( key , val ) ;
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self
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}
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#[ cfg(any(target_os = " linux " , target_os = " android " )) ]
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pub fn with_limit (
& mut self ,
resource : rlimit ::Resource ,
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soft_limit : u64 ,
hard_limit : u64 ,
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) -> & mut Self {
self . limits . push ( ( resource , soft_limit , hard_limit ) ) ;
self
}
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/// Spawns the command, feeds the stdin if any, and returns the
/// child process immediately.
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pub fn run_no_wait ( & mut self ) -> UChild {
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assert! ( ! self . has_run , " {} " , ALREADY_RUN ) ;
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self . has_run = true ;
log_info ( " run " , & self . comm_string ) ;
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let mut captured_stdout = None ;
let mut captured_stderr = None ;
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let command = if self . stderr_to_stdout {
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let mut output = CapturedOutput ::default ( ) ;
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let command = self
. raw
// TODO: use Stdio::null() as default to avoid accidental deadlocks ?
. stdin ( self . stdin . take ( ) . unwrap_or_else ( Stdio ::piped ) )
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. stdout ( Stdio ::from ( output . try_clone ( ) . unwrap ( ) ) )
. stderr ( Stdio ::from ( output . try_clone ( ) . unwrap ( ) ) ) ;
captured_stdout = Some ( output ) ;
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command
} else {
let stdout = if self . stdout . is_some ( ) {
self . stdout . take ( ) . unwrap ( )
} else {
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let mut stdout = CapturedOutput ::default ( ) ;
let stdio = Stdio ::from ( stdout . try_clone ( ) . unwrap ( ) ) ;
captured_stdout = Some ( stdout ) ;
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stdio
} ;
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let stderr = if self . stderr . is_some ( ) {
self . stderr . take ( ) . unwrap ( )
} else {
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let mut stderr = CapturedOutput ::default ( ) ;
let stdio = Stdio ::from ( stderr . try_clone ( ) . unwrap ( ) ) ;
captured_stderr = Some ( stderr ) ;
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stdio
} ;
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self . raw
// TODO: use Stdio::null() as default to avoid accidental deadlocks ?
. stdin ( self . stdin . take ( ) . unwrap_or_else ( Stdio ::piped ) )
. stdout ( stdout )
. stderr ( stderr )
} ;
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let child = command . spawn ( ) . unwrap ( ) ;
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#[ cfg(target_os = " linux " ) ]
for & ( resource , soft_limit , hard_limit ) in & self . limits {
prlimit (
child . id ( ) as i32 ,
resource ,
Some ( ( soft_limit , hard_limit ) ) ,
None ,
)
. unwrap ( ) ;
}
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let mut child = UChild ::from ( self , child , captured_stdout , captured_stderr ) ;
if let Some ( input ) = self . bytes_into_stdin . take ( ) {
child . pipe_in ( input ) ;
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}
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child
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}
/// Spawns the command, feeds the stdin if any, waits for the result
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/// and returns a command result.
/// It is recommended that you instead use succeeds() or fails()
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pub fn run ( & mut self ) -> CmdResult {
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self . run_no_wait ( ) . wait ( ) . unwrap ( )
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}
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/// Spawns the command, feeding the passed in stdin, waits for the result
/// and returns a command result.
/// It is recommended that, instead of this, you use a combination of pipe_in()
/// with succeeds() or fails()
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pub fn run_piped_stdin < T : Into < Vec < u8 > > > ( & mut self , input : T ) -> CmdResult {
self . pipe_in ( input ) . run ( )
}
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/// Spawns the command, feeds the stdin if any, waits for the result,
/// asserts success, and returns a command result.
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pub fn succeeds ( & mut self ) -> CmdResult {
let cmd_result = self . run ( ) ;
cmd_result . success ( ) ;
cmd_result
}
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/// Spawns the command, feeds the stdin if any, waits for the result,
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/// asserts failure, and returns a command result.
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pub fn fails ( & mut self ) -> CmdResult {
let cmd_result = self . run ( ) ;
cmd_result . failure ( ) ;
cmd_result
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}
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pub fn get_full_fixture_path ( & self , file_rel_path : & str ) -> String {
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let tmpdir_path = self . tmpd . as_ref ( ) . unwrap ( ) . path ( ) ;
format! ( " {} / {} " , tmpdir_path . to_str ( ) . unwrap ( ) , file_rel_path )
}
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}
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/// Stored the captured output in a temporary file. The file is deleted as soon as
/// [`CapturedOutput`] is dropped.
#[ derive(Debug) ]
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struct CapturedOutput {
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current_file : File ,
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output : tempfile ::NamedTempFile , // drop last
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}
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impl CapturedOutput {
/// Creates a new instance of CapturedOutput
fn new ( output : tempfile ::NamedTempFile ) -> Self {
Self {
current_file : output . reopen ( ) . unwrap ( ) ,
output ,
}
}
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/// Try to clone the file pointer.
fn try_clone ( & mut self ) -> io ::Result < File > {
self . output . as_file ( ) . try_clone ( )
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}
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/// Return the captured output as [`String`].
///
/// Subsequent calls to any of the other output methods will operate on the subsequent output.
fn output ( & mut self ) -> String {
String ::from_utf8 ( self . output_bytes ( ) ) . unwrap ( )
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}
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/// Return the exact amount of bytes as `String`.
///
/// Subsequent calls to any of the other output methods will operate on the subsequent output.
///
/// # Important
///
/// This method blocks indefinitely if the amount of bytes given by `size` cannot be read
fn output_exact ( & mut self , size : usize ) -> String {
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String ::from_utf8 ( self . output_exact_bytes ( size ) ) . unwrap ( )
}
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/// Return the captured output as bytes.
///
/// Subsequent calls to any of the other output methods will operate on the subsequent output.
fn output_bytes ( & mut self ) -> Vec < u8 > {
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let mut buffer = Vec ::< u8 > ::new ( ) ;
self . current_file . read_to_end ( & mut buffer ) . unwrap ( ) ;
buffer
}
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/// Return all captured output, so far.
///
/// Subsequent calls to any of the other output methods will operate on the subsequent output.
fn output_all_bytes ( & mut self ) -> Vec < u8 > {
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let mut buffer = Vec ::< u8 > ::new ( ) ;
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let mut file = self . output . reopen ( ) . unwrap ( ) ;
file . read_to_end ( & mut buffer ) . unwrap ( ) ;
self . current_file = file ;
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buffer
}
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/// Return the exact amount of bytes.
///
/// Subsequent calls to any of the other output methods will operate on the subsequent output.
///
/// # Important
///
/// This method blocks indefinitely if the amount of bytes given by `size` cannot be read
fn output_exact_bytes ( & mut self , size : usize ) -> Vec < u8 > {
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let mut buffer = vec! [ 0 ; size ] ;
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self . current_file . read_exact ( & mut buffer ) . unwrap ( ) ;
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buffer
}
}
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impl Default for CapturedOutput {
fn default ( ) -> Self {
let mut retries = 10 ;
let file = loop {
let file = Builder ::new ( ) . rand_bytes ( 10 ) . suffix ( " .out " ) . tempfile ( ) ;
if file . is_ok ( ) | | retries < = 0 {
break file . unwrap ( ) ;
}
sleep ( Duration ::from_millis ( 100 ) ) ;
retries - = 1 ;
} ;
Self {
current_file : file . reopen ( ) . unwrap ( ) ,
output : file ,
}
}
}
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impl Drop for CapturedOutput {
fn drop ( & mut self ) {
let _ = remove_file ( self . output . path ( ) ) ;
}
}
#[ derive(Debug, Copy, Clone) ]
pub enum AssertionMode {
All ,
Current ,
Exact ( usize , usize ) ,
}
pub struct UChildAssertion < ' a > {
uchild : & ' a mut UChild ,
}
impl < ' a > UChildAssertion < ' a > {
pub fn new ( uchild : & ' a mut UChild ) -> Self {
Self { uchild }
}
fn with_output ( & mut self , mode : AssertionMode ) -> CmdResult {
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let ( code , success ) = match self . uchild . is_alive ( ) {
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true = > ( None , true ) ,
false = > {
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let status = self . uchild . raw . wait ( ) . unwrap ( ) ;
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( status . code ( ) , status . success ( ) )
}
} ;
let ( stdout , stderr ) = match mode {
AssertionMode ::All = > (
self . uchild . stdout_all_bytes ( ) ,
self . uchild . stderr_all_bytes ( ) ,
) ,
AssertionMode ::Current = > ( self . uchild . stdout_bytes ( ) , self . uchild . stderr_bytes ( ) ) ,
AssertionMode ::Exact ( expected_stdout_size , expected_stderr_size ) = > (
self . uchild . stdout_exact_bytes ( expected_stdout_size ) ,
self . uchild . stderr_exact_bytes ( expected_stderr_size ) ,
) ,
} ;
CmdResult {
bin_path : self . uchild . bin_path . clone ( ) ,
util_name : self . uchild . util_name . clone ( ) ,
tmpd : self . uchild . tmpd . clone ( ) ,
code ,
success ,
stdout ,
stderr ,
}
}
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// Make assertions of [`CmdResult`] with all output from start of the process until now.
//
// This method runs [`UChild::stdout_all_bytes`] and [`UChild::stderr_all_bytes`] under the
// hood. See there for side effects
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pub fn with_all_output ( & mut self ) -> CmdResult {
self . with_output ( AssertionMode ::All )
}
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// Make assertions of [`CmdResult`] with the current output.
//
// This method runs [`UChild::stdout_bytes`] and [`UChild::stderr_bytes`] under the hood. See
// there for side effects
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pub fn with_current_output ( & mut self ) -> CmdResult {
self . with_output ( AssertionMode ::Current )
}
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// Make assertions of [`CmdResult`] with the exact output.
//
// This method runs [`UChild::stdout_exact_bytes`] and [`UChild::stderr_exact_bytes`] under the
// hood. See there for side effects
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pub fn with_exact_output (
& mut self ,
expected_stdout_size : usize ,
expected_stderr_size : usize ,
) -> CmdResult {
self . with_output ( AssertionMode ::Exact (
expected_stdout_size ,
expected_stderr_size ,
) )
}
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// Assert that the child process is alive
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pub fn is_alive ( & mut self ) -> & mut Self {
match self
. uchild
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. raw
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. try_wait ( )
{
Ok ( Some ( status ) ) = > panic! (
" Assertion failed. Expected '{}' to be running but exited with status={}. \n stdout: {} \n stderr: {} " ,
uucore ::util_name ( ) ,
status ,
self . uchild . stdout_all ( ) ,
self . uchild . stderr_all ( )
) ,
Ok ( None ) = > { }
Err ( error ) = > panic! ( " Assertion failed with error ' {:?} ' " , error ) ,
}
self
}
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// Assert that the child process has exited
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pub fn is_not_alive ( & mut self ) -> & mut Self {
match self
. uchild
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. raw
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. try_wait ( )
{
Ok ( None ) = > panic! (
" Assertion failed. Expected '{}' to be not running but was alive. \n stdout: {} \n stderr: {} " ,
uucore ::util_name ( ) ,
self . uchild . stdout_all ( ) ,
self . uchild . stderr_all ( ) ) ,
Ok ( _ ) = > { } ,
Err ( error ) = > panic! ( " Assertion failed with error ' {:?} ' " , error ) ,
}
self
}
}
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/// Abstraction for a [`std::process::Child`] to handle the child process.
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pub struct UChild {
raw : Child ,
bin_path : String ,
util_name : Option < String > ,
captured_stdout : Option < CapturedOutput > ,
captured_stderr : Option < CapturedOutput > ,
ignore_stdin_write_error : bool ,
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stderr_to_stdout : bool ,
join_handle : Option < JoinHandle < io ::Result < ( ) > > > ,
tmpd : Option < Rc < TempDir > > , // drop last
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}
impl UChild {
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fn from (
ucommand : & UCommand ,
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child : Child ,
captured_stdout : Option < CapturedOutput > ,
captured_stderr : Option < CapturedOutput > ,
) -> Self {
Self {
raw : child ,
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bin_path : ucommand . bin_path . clone ( ) ,
util_name : ucommand . util_name . clone ( ) ,
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captured_stdout ,
captured_stderr ,
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ignore_stdin_write_error : ucommand . ignore_stdin_write_error ,
stderr_to_stdout : ucommand . stderr_to_stdout ,
join_handle : None ,
tmpd : ucommand . tmpd . clone ( ) ,
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}
}
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/// Convenience method for `sleep(Duration::from_millis(millis))`
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pub fn delay ( & mut self , millis : u64 ) -> & mut Self {
sleep ( Duration ::from_millis ( millis ) ) ;
self
}
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/// Return the pid of the child process, similar to [`Child::id`].
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pub fn id ( & self ) -> u32 {
self . raw . id ( )
}
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/// Return true if the child process is still alive and false otherwise.
pub fn is_alive ( & mut self ) -> bool {
self . raw . try_wait ( ) . unwrap ( ) . is_none ( )
}
/// Return true if the child process is exited and false otherwise.
#[ allow(clippy::wrong_self_convention) ]
pub fn is_not_alive ( & mut self ) -> bool {
! self . is_alive ( )
}
/// Return a [`UChildAssertion`]
pub fn make_assertion ( & mut self ) -> UChildAssertion {
UChildAssertion ::new ( self )
}
/// Convenience function for calling [`UChild::delay`] and then [`UChild::make_assertion`]
pub fn make_assertion_with_delay ( & mut self , millis : u64 ) -> UChildAssertion {
self . delay ( millis ) . make_assertion ( )
}
/// Try to kill the child process.
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///
/// # Panics
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/// If the child process could not be terminated within 60 seconds.
pub fn try_kill ( & mut self ) -> io ::Result < ( ) > {
self . raw . kill ( ) ? ;
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for _ in 0 .. 60 {
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if ! self . is_alive ( ) {
return Ok ( ( ) ) ;
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}
sleep ( Duration ::from_secs ( 1 ) ) ;
}
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Err ( io ::Error ::new (
io ::ErrorKind ::Other ,
" Killing the child process within 60 seconds failed. " ,
) )
}
/// Terminate the child process unconditionally and wait for the termination.
///
/// Ignores any errors happening during [`Child::kill`] (i.e. child process already exited).
///
/// # Panics
/// If the child process could not be terminated within 60 seconds.
pub fn kill ( & mut self ) -> & mut Self {
self . try_kill ( )
. or_else ( | error | {
// We still throw the error on timeout in the `try_kill` function
if error . kind ( ) = = io ::ErrorKind ::Other {
Err ( error )
} else {
Ok ( ( ) )
}
} )
. unwrap ( ) ;
self
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}
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/// Wait for the child process to terminate and return a [`CmdResult`].
///
/// This method can also be run if the child process was killed with [`UChild::kill`].
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///
/// # Errors
/// Returns the error from the call to [`Child::wait_with_output`] if any
pub fn wait ( self ) -> io ::Result < CmdResult > {
let ( bin_path , util_name , tmpd ) = (
self . bin_path . clone ( ) ,
self . util_name . clone ( ) ,
self . tmpd . clone ( ) ,
) ;
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#[ allow(deprecated) ]
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let output = self . wait_with_output ( ) ? ;
Ok ( CmdResult {
bin_path ,
util_name ,
tmpd ,
code : output . status . code ( ) ,
success : output . status . success ( ) ,
stdout : output . stdout ,
stderr : output . stderr ,
} )
}
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/// Wait for the child process to terminate and return an instance of [`Output`].
///
/// Joins with the thread created by [`UChild::pipe_in`] if any.
#[ deprecated = " Please use wait() -> io::Result<CmdResult> instead. " ]
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pub fn wait_with_output ( mut self ) -> io ::Result < Output > {
let mut output = self . raw . wait_with_output ( ) ? ;
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if let Some ( join_handle ) = self . join_handle . take ( ) {
join_handle
. join ( )
. expect ( " Error joining with the piping stdin thread " )
. unwrap ( ) ;
} ;
if let Some ( stdout ) = self . captured_stdout . as_mut ( ) {
output . stdout = stdout . output_bytes ( ) ;
}
if let Some ( stderr ) = self . captured_stderr . as_mut ( ) {
output . stderr = stderr . output_bytes ( ) ;
}
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Ok ( output )
}
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/// Read, consume and return the output as [`String`] from [`Child`]'s stdout.
///
/// See also [`UChild::stdout_bytes] for side effects.
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pub fn stdout ( & mut self ) -> String {
String ::from_utf8 ( self . stdout_bytes ( ) ) . unwrap ( )
}
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/// Read and return all child's output in stdout as String.
///
/// Note, that a subsequent call of any of these functions
///
/// * [`UChild::stdout`]
/// * [`UChild::stdout_bytes`]
/// * [`UChild::stdout_exact_bytes`]
///
/// will operate on the subsequent output of the child process.
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pub fn stdout_all ( & mut self ) -> String {
String ::from_utf8 ( self . stdout_all_bytes ( ) ) . unwrap ( )
}
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/// Read, consume and return the output as bytes from [`Child`]'s stdout.
///
/// Each subsequent call to any of the functions below will operate on the subsequent output of
/// the child process:
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///
/// * [`UChild::stdout`]
/// * [`UChild::stdout_exact_bytes`]
/// * and the call to itself [`UChild::stdout_bytes`]
pub fn stdout_bytes ( & mut self ) -> Vec < u8 > {
match self . captured_stdout . as_mut ( ) {
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Some ( output ) = > output . output_bytes ( ) ,
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None if self . raw . stdout . is_some ( ) = > {
let mut buffer : Vec < u8 > = vec! [ ] ;
let stdout = self . raw . stdout . as_mut ( ) . unwrap ( ) ;
stdout . read_to_end ( & mut buffer ) . unwrap ( ) ;
buffer
}
None = > vec! [ ] ,
}
}
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/// Read and return all output from start of the child process until now.
///
/// Each subsequent call of any of the methods below will operate on the subsequent output of
/// the child process. This method will panic if the output wasn't captured (for example if
/// [`UCommand::set_stdout`] was used).
///
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/// * [`UChild::stdout`]
/// * [`UChild::stdout_bytes`]
/// * [`UChild::stdout_exact_bytes`]
pub fn stdout_all_bytes ( & mut self ) -> Vec < u8 > {
match self . captured_stdout . as_mut ( ) {
Some ( output ) = > output . output_all_bytes ( ) ,
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None = > {
panic! ( " Usage error: This method cannot be used if the output wasn't captured. " )
}
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}
}
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/// Read, consume and return the exact amount of bytes from `stdout`.
///
/// This method may block indefinitely if the `size` amount of bytes exceeds the amount of bytes
/// that can be read. See also [`UChild::stdout_bytes`] for side effects.
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pub fn stdout_exact_bytes ( & mut self , size : usize ) -> Vec < u8 > {
match self . captured_stdout . as_mut ( ) {
Some ( output ) = > output . output_exact_bytes ( size ) ,
None if self . raw . stdout . is_some ( ) = > {
let mut buffer = vec! [ 0 ; size ] ;
let stdout = self . raw . stdout . as_mut ( ) . unwrap ( ) ;
stdout . read_exact ( & mut buffer ) . unwrap ( ) ;
buffer
}
None = > vec! [ ] ,
}
}
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/// Read, consume and return the child's stderr as String.
///
/// See also [`UChild::stdout_bytes`] for side effects. If stderr is redirected to stdout with
/// [`UCommand::stderr_to_stdout`] then always an empty string will be returned.
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pub fn stderr ( & mut self ) -> String {
String ::from_utf8 ( self . stderr_bytes ( ) ) . unwrap ( )
}
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/// Read and return all child's output in stderr as String.
///
/// Note, that a subsequent call of any of these functions
///
/// * [`UChild::stderr`]
/// * [`UChild::stderr_bytes`]
/// * [`UChild::stderr_exact_bytes`]
///
/// will operate on the subsequent output of the child process. If stderr is redirected to
/// stdout with [`UCommand::stderr_to_stdout`] then always an empty string will be returned.
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pub fn stderr_all ( & mut self ) -> String {
String ::from_utf8 ( self . stderr_all_bytes ( ) ) . unwrap ( )
}
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/// Read, consume and return the currently available bytes from child's stderr.
///
/// If stderr is redirected to stdout with [`UCommand::stderr_to_stdout`] then always zero bytes
/// are returned. See also [`UChild::stdout_bytes`] for side effects.
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pub fn stderr_bytes ( & mut self ) -> Vec < u8 > {
match self . captured_stderr . as_mut ( ) {
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Some ( output ) = > output . output_bytes ( ) ,
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None if self . raw . stderr . is_some ( ) = > {
let mut buffer : Vec < u8 > = vec! [ ] ;
let stderr = self . raw . stderr . as_mut ( ) . unwrap ( ) ;
stderr . read_to_end ( & mut buffer ) . unwrap ( ) ;
buffer
}
None = > vec! [ ] ,
}
}
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/// Read and return all output from start of the child process until now.
///
/// Each subsequent call of any of the methods below will operate on the subsequent output of
/// the child process. This method will panic if the output wasn't captured (for example if
/// [`UCommand::set_stderr`] was used). If [`UCommand::stderr_to_stdout`] was used always zero
/// bytes are returned.
///
/// * [`UChild::stderr`]
/// * [`UChild::stderr_bytes`]
/// * [`UChild::stderr_exact_bytes`]
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pub fn stderr_all_bytes ( & mut self ) -> Vec < u8 > {
match self . captured_stderr . as_mut ( ) {
Some ( output ) = > output . output_all_bytes ( ) ,
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None if self . stderr_to_stdout = > vec! [ ] ,
None = > {
panic! ( " Usage error: This method cannot be used if the output wasn't captured. " )
}
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}
}
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/// Read, consume and return the exact amount of bytes from stderr.
///
/// If stderr is redirect to stdout with [`UCommand::stderr_to_stdout`] then always zero bytes
/// are returned.
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///
/// # Important
/// This method blocks indefinitely if the `size` amount of bytes cannot be read.
pub fn stderr_exact_bytes ( & mut self , size : usize ) -> Vec < u8 > {
match self . captured_stderr . as_mut ( ) {
Some ( output ) = > output . output_exact_bytes ( size ) ,
None if self . raw . stderr . is_some ( ) = > {
let stderr = self . raw . stderr . as_mut ( ) . unwrap ( ) ;
let mut buffer = vec! [ 0 ; size ] ;
stderr . read_exact ( & mut buffer ) . unwrap ( ) ;
buffer
}
None = > vec! [ ] ,
}
}
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/// Pipe data into [`Child`] stdin in a separate thread to avoid deadlocks.
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///
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/// In contrast to [`UChild::write_in`], this method is designed to simulate a pipe on the
/// command line and can be used only once or else panics. Note, that [`UCommand::set_stdin`]
/// must be used together with [`Stdio::piped`] or else this method doesn't work as expected.
/// `Stdio::piped` is the current default when using [`UCommand::run_no_wait`]) without calling
/// `set_stdin`. This method stores a [`JoinHandle`] of the thread in which the writing to the
/// child processes' stdin is running. The associated thread is joined with the main process in
/// the methods below when exiting the child process.
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///
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/// * [`UChild::wait`]
/// * [`UChild::wait_with_output`]
/// * [`UChild::pipe_in_and_wait`]
/// * [`UChild::pipe_in_and_wait_with_output`]
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///
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/// Usually, there's no need to join manually but if needed, the [`UChild::join`] method can be
/// used .
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///
/// [`JoinHandle`]: std::thread::JoinHandle
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pub fn pipe_in < T : Into < Vec < u8 > > > ( & mut self , content : T ) -> & mut Self {
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let ignore_stdin_write_error = self . ignore_stdin_write_error ;
let content = content . into ( ) ;
let stdin = self
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. raw
. stdin
. take ( )
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. expect ( " Could not pipe into child process. Was it set to Stdio::null()? " ) ;
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let join_handle = thread ::spawn ( move | | {
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let mut writer = BufWriter ::new ( stdin ) ;
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match writer . write_all ( & content ) . and_then ( | _ | writer . flush ( ) ) {
Err ( error ) if ! ignore_stdin_write_error = > Err ( io ::Error ::new (
io ::ErrorKind ::Other ,
format! ( " failed to write to stdin of child: {} " , error ) ,
) ) ,
Ok ( _ ) | Err ( _ ) = > Ok ( ( ) ) ,
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}
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} ) ;
self . join_handle = Some ( join_handle ) ;
self
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}
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/// Call join on the thread created by [`UChild::pipe_in`] and if the thread is still running.
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///
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/// This method can be called multiple times but is a noop if already joined.
pub fn join ( & mut self ) -> & mut Self {
if let Some ( join_handle ) = self . join_handle . take ( ) {
join_handle
. join ( )
. expect ( " Error joining with the piping stdin thread " )
. unwrap ( ) ;
}
self
}
/// Convenience method for [`UChild::pipe_in`] and then [`UChild::wait`]
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pub fn pipe_in_and_wait < T : Into < Vec < u8 > > > ( mut self , content : T ) -> CmdResult {
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self . pipe_in ( content ) ;
self . wait ( ) . unwrap ( )
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}
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/// Convenience method for [`UChild::pipe_in`] and then [`UChild::wait_with_output`]
#[ deprecated = " Please use pipe_in_and_wait() -> CmdResult instead. " ]
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pub fn pipe_in_and_wait_with_output < T : Into < Vec < u8 > > > ( mut self , content : T ) -> Output {
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self . pipe_in ( content ) ;
#[ allow(deprecated) ]
self . wait_with_output ( ) . unwrap ( )
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}
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/// Write some bytes to the child process stdin.
///
/// This function is meant for small data and faking user input like typing a `yes` or `no`.
/// This function blocks until all data is written but can be used multiple times in contrast to
/// [`UChild::pipe_in`].
///
/// # Errors
/// If [`ChildStdin::write_all`] or [`ChildStdin::flush`] returned an error
pub fn try_write_in < T : Into < Vec < u8 > > > ( & mut self , data : T ) -> io ::Result < ( ) > {
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let stdin = self . raw . stdin . as_mut ( ) . unwrap ( ) ;
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match stdin . write_all ( & data . into ( ) ) . and_then ( | _ | stdin . flush ( ) ) {
Err ( error ) if ! self . ignore_stdin_write_error = > Err ( io ::Error ::new (
io ::ErrorKind ::Other ,
format! ( " failed to write to stdin of child: {} " , error ) ,
) ) ,
Ok ( _ ) | Err ( _ ) = > Ok ( ( ) ) ,
}
}
/// Convenience function for [`UChild::try_write_in`] and a following `unwrap`.
pub fn write_in < T : Into < Vec < u8 > > > ( & mut self , data : T ) -> & mut Self {
self . try_write_in ( data ) . unwrap ( ) ;
self
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}
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/// Close the child process stdout.
///
/// Note this will have no effect if the output was captured with [`CapturedOutput`] which is the
/// default if [`UCommand::set_stdout`] wasn't called.
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pub fn close_stdout ( & mut self ) -> & mut Self {
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self . raw . stdout . take ( ) ;
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self
}
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/// Close the child process stderr.
///
/// Note this will have no effect if the output was captured with [`CapturedOutput`] which is the
/// default if [`UCommand::set_stderr`] wasn't called.
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pub fn close_stderr ( & mut self ) -> & mut Self {
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self . raw . stderr . take ( ) ;
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self
}
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/// Close the child process stdin.
///
/// Note, this does not have any effect if using the [`UChild::pipe_in`] method.
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pub fn close_stdin ( & mut self ) -> & mut Self {
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self . raw . stdin . take ( ) ;
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self
}
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}
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pub fn vec_of_size ( n : usize ) -> Vec < u8 > {
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let result = vec! [ b 'a' ; n ] ;
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assert_eq! ( result . len ( ) , n ) ;
result
}
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pub fn whoami ( ) -> String {
// Apparently some CI environments have configuration issues, e.g. with 'whoami' and 'id'.
//
// From the Logs: "Build (ubuntu-18.04, x86_64-unknown-linux-gnu, feat_os_unix, use-cross)"
// whoami: cannot find name for user ID 1001
// id --name: cannot find name for user ID 1001
// id --name: cannot find name for group ID 116
//
// However, when running "id" from within "/bin/bash" it looks fine:
// id: "uid=1001(runner) gid=118(docker) groups=118(docker),4(adm),101(systemd-journal)"
// whoami: "runner"
// Use environment variable to get current user instead of
// invoking `whoami` and fall back to user "nobody" on error.
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std ::env ::var ( " USER " )
. or_else ( | _ | std ::env ::var ( " USERNAME " ) )
. unwrap_or_else ( | e | {
println! ( " {} : {} , using \" nobody \" instead " , UUTILS_WARNING , e ) ;
" nobody " . to_string ( )
} )
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}
/// Add prefix 'g' for `util_name` if not on linux
#[ cfg(unix) ]
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pub fn host_name_for ( util_name : & str ) -> Cow < str > {
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// In some environments, e.g. macOS/freebsd, the GNU coreutils are prefixed with "g"
// to not interfere with the BSD counterparts already in `$PATH`.
#[ cfg(not(target_os = " linux " )) ]
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{
// make call to `host_name_for` idempotent
if util_name . starts_with ( 'g' ) & & util_name ! = " groups " {
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util_name . into ( )
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} else {
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format! ( " g {} " , util_name ) . into ( )
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}
}
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#[ cfg(target_os = " linux " ) ]
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util_name . into ( )
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}
// GNU coreutils version 8.32 is the reference version since it is the latest version and the
// GNU test suite in "coreutils/.github/workflows/GnuTests.yml" runs against it.
// However, here 8.30 was chosen because right now there's no ubuntu image for the github actions
// CICD available with a higher version than 8.30.
// GNU coreutils versions from the CICD images for comparison:
// ubuntu-2004: 8.30 (latest)
// ubuntu-1804: 8.28
// macos-latest: 8.32
const VERSION_MIN : & str = " 8.30 " ; // minimum Version for the reference `coreutil` in `$PATH`
const UUTILS_WARNING : & str = " uutils-tests-warning " ;
const UUTILS_INFO : & str = " uutils-tests-info " ;
/// Run `util_name --version` and return Ok if the version is >= `version_expected`.
/// Returns an error if
/// * `util_name` cannot run
/// * the version cannot be parsed
/// * the version is too low
///
/// This is used by `expected_result` to check if the coreutils version is >= `VERSION_MIN`.
/// It makes sense to use this manually in a test if a feature
/// is tested that was introduced after `VERSION_MIN`
///
/// Example:
///
/// ```no_run
/// use crate::common::util::*;
/// const VERSION_MIN_MULTIPLE_USERS: &str = "8.31";
///
/// #[test]
/// fn test_xyz() {
/// unwrap_or_return!(check_coreutil_version(
/// util_name!(),
/// VERSION_MIN_MULTIPLE_USERS
/// ));
/// // proceed with the test...
/// }
/// ```
#[ cfg(unix) ]
pub fn check_coreutil_version (
util_name : & str ,
version_expected : & str ,
) -> std ::result ::Result < String , String > {
// example:
// $ id --version | head -n 1
// id (GNU coreutils) 8.32.162-4eda
let util_name = & host_name_for ( util_name ) ;
log_info ( " run " , format! ( " {} --version " , util_name ) ) ;
let version_check = match Command ::new ( util_name . as_ref ( ) )
. env ( " LC_ALL " , " C " )
. arg ( " --version " )
. output ( )
{
Ok ( s ) = > s ,
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Err ( e ) = > return Err ( format! ( " {} : ' {} ' {} " , UUTILS_WARNING , util_name , e ) ) ,
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} ;
std ::str ::from_utf8 ( & version_check . stdout ) . unwrap ( )
. split ( '\n' )
. collect ::< Vec < _ > > ( )
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. first ( )
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. map_or_else (
| | Err ( format! ( " {} : unexpected output format for reference coreutil: ' {} --version' " , UUTILS_WARNING , util_name ) ) ,
| s | {
if s . contains ( & format! ( " (GNU coreutils) {} " , version_expected ) ) {
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Ok ( format! ( " {} : {} " , UUTILS_INFO , s ) )
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} else if s . contains ( " (GNU coreutils) " ) {
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let version_found = parse_coreutil_version ( s ) ;
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let version_expected = version_expected . parse ::< f32 > ( ) . unwrap_or_default ( ) ;
if version_found > version_expected {
Ok ( format! ( " {} : version for the reference coreutil ' {} ' is higher than expected; expected: {} , found: {} " , UUTILS_INFO , util_name , version_expected , version_found ) )
} else {
Err ( format! ( " {} : version for the reference coreutil ' {} ' does not match; expected: {} , found: {} " , UUTILS_WARNING , util_name , version_expected , version_found ) ) }
} else {
Err ( format! ( " {} : no coreutils version string found for reference coreutils ' {} --version' " , UUTILS_WARNING , util_name ) )
}
} ,
)
}
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// simple heuristic to parse the coreutils SemVer string, e.g. "id (GNU coreutils) 8.32.263-0475"
fn parse_coreutil_version ( version_string : & str ) -> f32 {
version_string
. split_whitespace ( )
. last ( )
. unwrap ( )
. split ( '.' )
. take ( 2 )
. collect ::< Vec < _ > > ( )
. join ( " . " )
. parse ::< f32 > ( )
. unwrap_or_default ( )
}
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/// This runs the GNU coreutils `util_name` binary in `$PATH` in order to
/// dynamically gather reference values on the system.
/// If the `util_name` in `$PATH` doesn't include a coreutils version string,
/// or the version is too low, this returns an error and the test should be skipped.
///
/// Example:
///
/// ```no_run
/// use crate::common::util::*;
/// #[test]
/// fn test_xyz() {
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/// let ts = TestScenario::new(util_name!());
/// let result = ts.ucmd().run();
/// let exp_result = unwrap_or_return!(expected_result(&ts, &[]));
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/// result
/// .stdout_is(exp_result.stdout_str())
/// .stderr_is(exp_result.stderr_str())
/// .code_is(exp_result.code());
/// }
///```
#[ cfg(unix) ]
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pub fn expected_result ( ts : & TestScenario , args : & [ & str ] ) -> std ::result ::Result < CmdResult , String > {
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println! ( " {} " , check_coreutil_version ( & ts . util_name , VERSION_MIN ) ? ) ;
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let util_name = & host_name_for ( & ts . util_name ) ;
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let result = ts
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. cmd_keepenv ( util_name . as_ref ( ) )
. env ( " LC_ALL " , " C " )
. args ( args )
. run ( ) ;
let ( stdout , stderr ) : ( String , String ) = if cfg! ( target_os = " linux " ) {
(
result . stdout_str ( ) . to_string ( ) ,
result . stderr_str ( ) . to_string ( ) ,
)
} else {
// `host_name_for` added prefix, strip 'g' prefix from results:
let from = util_name . to_string ( ) + " : " ;
let to = & from [ 1 .. ] ;
(
result . stdout_str ( ) . replace ( & from , to ) ,
result . stderr_str ( ) . replace ( & from , to ) ,
)
} ;
Ok ( CmdResult ::new (
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ts . bin_path . as_os_str ( ) . to_str ( ) . unwrap ( ) . to_string ( ) ,
Some ( ts . util_name . clone ( ) ) ,
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Some ( result . tmpd ( ) ) ,
Some ( result . code ( ) ) ,
result . succeeded ( ) ,
stdout . as_bytes ( ) ,
stderr . as_bytes ( ) ,
) )
}
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/// This is a convenience wrapper to run a ucmd with root permissions.
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/// It can be used to test programs when being root is needed
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/// This runs 'sudo -E --non-interactive target/debug/coreutils util_name args`
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/// This is primarily designed to run in an environment where whoami is in $path
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/// and where non-interactive sudo is possible.
/// To check if i) non-interactive sudo is possible and ii) if sudo works, this runs:
/// 'sudo -E --non-interactive whoami' first.
///
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/// This return an `Err()` if run inside CICD because there's no 'sudo'.
///
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/// Example:
///
/// ```no_run
/// use crate::common::util::*;
/// #[test]
/// fn test_xyz() {
/// let ts = TestScenario::new("whoami");
/// let expected = "root\n".to_string();
/// if let Ok(result) = run_ucmd_as_root(&ts, &[]) {
/// result.stdout_is(expected);
/// } else {
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/// println!("TEST SKIPPED");
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/// }
/// }
///```
#[ cfg(unix) ]
pub fn run_ucmd_as_root (
ts : & TestScenario ,
args : & [ & str ] ,
) -> std ::result ::Result < CmdResult , String > {
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if ! is_ci ( ) {
// check if we can run 'sudo'
log_info ( " run " , " sudo -E --non-interactive whoami " ) ;
match Command ::new ( " sudo " )
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. env ( " LC_ALL " , " C " )
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. args ( [ " -E " , " --non-interactive " , " whoami " ] )
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. output ( )
{
Ok ( output ) if String ::from_utf8_lossy ( & output . stdout ) . eq ( " root \n " ) = > {
// we can run sudo and we're root
// run ucmd as root:
Ok ( ts
. cmd_keepenv ( " sudo " )
. env ( " LC_ALL " , " C " )
. arg ( " -E " )
. arg ( " --non-interactive " )
. arg ( & ts . bin_path )
. arg ( & ts . util_name )
. args ( args )
. run ( ) )
}
Ok ( output )
if String ::from_utf8_lossy ( & output . stderr ) . eq ( " sudo: a password is required \n " ) = >
{
Err ( " Cannot run non-interactive sudo " . to_string ( ) )
}
Ok ( _output ) = > Err ( " \" sudo whoami \" didn't return \" root \" " . to_string ( ) ) ,
Err ( e ) = > Err ( format! ( " {} : {} " , UUTILS_WARNING , e ) ) ,
}
} else {
Err ( format! ( " {} : {} " , UUTILS_INFO , " cannot run inside CI " ) )
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}
}
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/// Sanity checks for test utils
#[ cfg(test) ]
mod tests {
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// spell-checker:ignore (tests) asdfsadfa
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use super ::* ;
#[ test ]
fn test_code_is ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : Some ( 32 ) ,
success : false ,
stdout : " " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . code_is ( 32 ) ;
}
#[ test ]
#[ should_panic ]
fn test_code_is_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : Some ( 32 ) ,
success : false ,
stdout : " " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . code_is ( 1 ) ;
}
#[ test ]
fn test_failure ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : false ,
stdout : " " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . failure ( ) ;
}
#[ test ]
#[ should_panic ]
fn test_failure_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . failure ( ) ;
}
#[ test ]
fn test_success ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . success ( ) ;
}
#[ test ]
#[ should_panic ]
fn test_success_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : false ,
stdout : " " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . success ( ) ;
}
#[ test ]
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fn test_no_stderr_output ( ) {
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let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . no_stderr ( ) ;
res . no_stdout ( ) ;
}
#[ test ]
#[ should_panic ]
fn test_no_stderr_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " " . into ( ) ,
stderr : " asdfsadfa " . into ( ) ,
} ;
res . no_stderr ( ) ;
}
#[ test ]
#[ should_panic ]
fn test_no_stdout_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " asdfsadfa " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . no_stdout ( ) ;
}
#[ test ]
fn test_std_does_not_contain ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " This is a likely error message \n " . into ( ) ,
stderr : " This is a likely error message \n " . into ( ) ,
} ;
res . stdout_does_not_contain ( " unlikely " ) ;
res . stderr_does_not_contain ( " unlikely " ) ;
}
#[ test ]
#[ should_panic ]
fn test_stdout_does_not_contain_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " This is a likely error message \n " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . stdout_does_not_contain ( " likely " ) ;
}
#[ test ]
#[ should_panic ]
fn test_stderr_does_not_contain_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " " . into ( ) ,
stderr : " This is a likely error message \n " . into ( ) ,
} ;
res . stderr_does_not_contain ( " likely " ) ;
}
#[ test ]
fn test_stdout_matches ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " This is a likely error message \n " . into ( ) ,
stderr : " This is a likely error message \n " . into ( ) ,
} ;
let positive = regex ::Regex ::new ( " .*likely.* " ) . unwrap ( ) ;
let negative = regex ::Regex ::new ( " .*unlikely.* " ) . unwrap ( ) ;
res . stdout_matches ( & positive ) ;
res . stdout_does_not_match ( & negative ) ;
}
#[ test ]
#[ should_panic ]
fn test_stdout_matches_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " This is a likely error message \n " . into ( ) ,
stderr : " This is a likely error message \n " . into ( ) ,
} ;
let negative = regex ::Regex ::new ( " .*unlikely.* " ) . unwrap ( ) ;
res . stdout_matches ( & negative ) ;
}
#[ test ]
#[ should_panic ]
fn test_stdout_not_matches_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " This is a likely error message \n " . into ( ) ,
stderr : " This is a likely error message \n " . into ( ) ,
} ;
let positive = regex ::Regex ::new ( " .*likely.* " ) . unwrap ( ) ;
res . stdout_does_not_match ( & positive ) ;
}
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#[ test ]
fn test_normalized_newlines_stdout_is ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " A \r \n B \n C " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . normalized_newlines_stdout_is ( " A \r \n B \n C " ) ;
res . normalized_newlines_stdout_is ( " A \n B \n C " ) ;
res . normalized_newlines_stdout_is ( " A \n B \r \n C " ) ;
}
#[ test ]
#[ should_panic ]
fn test_normalized_newlines_stdout_is_fail ( ) {
let res = CmdResult {
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bin_path : String ::new ( ) ,
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util_name : None ,
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tmpd : None ,
code : None ,
success : true ,
stdout : " A \r \n B \n C " . into ( ) ,
stderr : " " . into ( ) ,
} ;
res . normalized_newlines_stdout_is ( " A \r \n B \n C \n " ) ;
}
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#[ test ]
#[ cfg(unix) ]
fn test_parse_coreutil_version ( ) {
use std ::assert_eq ;
assert_eq! (
parse_coreutil_version ( " id (GNU coreutils) 9.0.123-0123 " ) . to_string ( ) ,
" 9 "
) ;
assert_eq! (
parse_coreutil_version ( " id (GNU coreutils) 8.32.263-0475 " ) . to_string ( ) ,
" 8.32 "
) ;
assert_eq! (
parse_coreutil_version ( " id (GNU coreutils) 8.25.123-0123 " ) . to_string ( ) ,
" 8.25 "
) ;
assert_eq! (
parse_coreutil_version ( " id (GNU coreutils) 9.0 " ) . to_string ( ) ,
" 9 "
) ;
assert_eq! (
parse_coreutil_version ( " id (GNU coreutils) 8.32 " ) . to_string ( ) ,
" 8.32 "
) ;
assert_eq! (
parse_coreutil_version ( " id (GNU coreutils) 8.25 " ) . to_string ( ) ,
" 8.25 "
) ;
}
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#[ test ]
#[ cfg(unix) ]
fn test_check_coreutil_version ( ) {
match check_coreutil_version ( " id " , VERSION_MIN ) {
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Ok ( s ) = > assert! ( s . starts_with ( " uutils-tests- " ) ) ,
Err ( s ) = > assert! ( s . starts_with ( " uutils-tests-warning " ) ) ,
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} ;
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#[ cfg(target_os = " linux " ) ]
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std ::assert_eq! (
check_coreutil_version ( " no test name " , VERSION_MIN ) ,
Err ( " uutils-tests-warning: 'no test name' \
No such file or directory ( os error 2 ) "
. to_string ( ) )
) ;
}
#[ test ]
#[ cfg(unix) ]
fn test_expected_result ( ) {
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let ts = TestScenario ::new ( " id " ) ;
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// assert!(expected_result(&ts, &[]).is_ok());
match expected_result ( & ts , & [ ] ) {
Ok ( r ) = > assert! ( r . succeeded ( ) ) ,
Err ( s ) = > assert! ( s . starts_with ( " uutils-tests-warning " ) ) ,
}
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let ts = TestScenario ::new ( " no test name " ) ;
assert! ( expected_result ( & ts , & [ ] ) . is_err ( ) ) ;
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}
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#[ test ]
#[ cfg(unix) ]
fn test_host_name_for ( ) {
#[ cfg(target_os = " linux " ) ]
{
std ::assert_eq! ( host_name_for ( " id " ) , " id " ) ;
std ::assert_eq! ( host_name_for ( " groups " ) , " groups " ) ;
std ::assert_eq! ( host_name_for ( " who " ) , " who " ) ;
}
#[ cfg(not(target_os = " linux " )) ]
{
// spell-checker:ignore (strings) ggroups gwho
std ::assert_eq! ( host_name_for ( " id " ) , " gid " ) ;
std ::assert_eq! ( host_name_for ( " groups " ) , " ggroups " ) ;
std ::assert_eq! ( host_name_for ( " who " ) , " gwho " ) ;
std ::assert_eq! ( host_name_for ( " gid " ) , " gid " ) ;
std ::assert_eq! ( host_name_for ( " ggroups " ) , " ggroups " ) ;
std ::assert_eq! ( host_name_for ( " gwho " ) , " gwho " ) ;
}
}
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#[ test ]
#[ cfg(unix) ]
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#[ cfg(feature = " whoami " ) ]
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fn test_run_ucmd_as_root ( ) {
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if ! is_ci ( ) {
// Skip test if we can't guarantee non-interactive `sudo`, or if we're not "root"
if let Ok ( output ) = Command ::new ( " sudo " )
. env ( " LC_ALL " , " C " )
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. args ( [ " -E " , " --non-interactive " , " whoami " ] )
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. output ( )
{
if output . status . success ( ) & & String ::from_utf8_lossy ( & output . stdout ) . eq ( " root \n " ) {
let ts = TestScenario ::new ( " whoami " ) ;
std ::assert_eq! (
run_ucmd_as_root ( & ts , & [ ] ) . unwrap ( ) . stdout_str ( ) . trim ( ) ,
" root "
) ;
} else {
println! ( " TEST SKIPPED (we're not root) " ) ;
}
} else {
println! ( " TEST SKIPPED (cannot run sudo) " ) ;
}
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} else {
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println! ( " TEST SKIPPED (cannot run inside CI) " ) ;
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}
}
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// This error was first detected when running tail so tail is used here but
// should fail with any command that takes piped input.
// See also https://github.com/uutils/coreutils/issues/3895
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#[ cfg(feature = " tail " ) ]
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#[ test ]
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#[ cfg_attr(not(feature = " expensive_tests " ), ignore) ]
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fn test_when_piped_input_then_no_broken_pipe ( ) {
let ts = TestScenario ::new ( " tail " ) ;
for i in 0 .. 10000 {
dbg! ( i ) ;
let test_string = " a \n b \n " ;
ts . ucmd ( )
. args ( & [ " -n " , " 0 " ] )
. pipe_in ( test_string )
. succeeds ( )
. no_stdout ( )
. no_stderr ( ) ;
}
}
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#[ cfg(feature = " echo " ) ]
#[ test ]
fn test_uchild_when_run_with_a_non_blocking_util ( ) {
let ts = TestScenario ::new ( " echo " ) ;
ts . ucmd ( )
. arg ( " hello world " )
. run ( )
. success ( )
. stdout_only ( " hello world \n " ) ;
}
// Test basically that most of the methods of UChild are working
#[ cfg(feature = " echo " ) ]
#[ test ]
fn test_uchild_when_run_no_wait_with_a_non_blocking_util ( ) {
let ts = TestScenario ::new ( " echo " ) ;
let mut child = ts . ucmd ( ) . arg ( " hello world " ) . run_no_wait ( ) ;
child . delay ( 500 ) ;
// check `child.is_alive()` is working
assert! ( ! child . is_alive ( ) ) ;
// check `child.is_not_alive()` is working
assert! ( child . is_not_alive ( ) ) ;
// check the current output is correct
std ::assert_eq! ( child . stdout ( ) , " hello world \n " ) ;
assert! ( child . stderr ( ) . is_empty ( ) ) ;
// check the current output of echo is empty. We already called `child.stdout()` and `echo`
// exited so there's no additional output after the first call of `child.stdout()`
assert! ( child . stdout ( ) . is_empty ( ) ) ;
assert! ( child . stderr ( ) . is_empty ( ) ) ;
// check that we're still able to access all output of the child process, even after exit
// and call to `child.stdout()`
std ::assert_eq! ( child . stdout_all ( ) , " hello world \n " ) ;
assert! ( child . stderr_all ( ) . is_empty ( ) ) ;
// we should be able to call kill without panics, even if the process already exited
child . make_assertion ( ) . is_not_alive ( ) ;
child . kill ( ) ;
// we should be able to call wait without panics and apply some assertions
child . wait ( ) . unwrap ( ) . code_is ( 0 ) . no_stdout ( ) . no_stderr ( ) ;
}
#[ cfg(feature = " cat " ) ]
#[ test ]
fn test_uchild_when_pipe_in ( ) {
let ts = TestScenario ::new ( " cat " ) ;
let mut child = ts . ucmd ( ) . run_no_wait ( ) ;
child . pipe_in ( " content " ) ;
child . wait ( ) . unwrap ( ) . stdout_only ( " content " ) . success ( ) ;
ts . ucmd ( ) . pipe_in ( " content " ) . run ( ) . stdout_is ( " content " ) ;
}
#[ cfg(feature = " rm " ) ]
#[ test ]
fn test_uchild_when_run_no_wait_with_a_blocking_command ( ) {
let ts = TestScenario ::new ( " rm " ) ;
let at = & ts . fixtures ;
at . mkdir ( " a " ) ;
at . touch ( " a/empty " ) ;
#[ cfg(target_vendor = " apple " ) ]
let delay : u64 = 1000 ;
#[ cfg(not(target_vendor = " apple " )) ]
let delay : u64 = 500 ;
let yes = if cfg! ( windows ) { " y \r \n " } else { " y \n " } ;
let mut child = ts
. ucmd ( )
. stderr_to_stdout ( )
. args ( & [ " -riv " , " a " ] )
. run_no_wait ( ) ;
child
. make_assertion_with_delay ( delay )
. is_alive ( )
. with_current_output ( )
. stdout_is ( " rm: descend into directory 'a'? " ) ;
#[ cfg(windows) ]
let expected = " rm: descend into directory 'a'? \
rm : remove regular empty file ' a \ \ empty ' ? " ;
#[ cfg(unix) ]
let expected = " rm: descend into directory 'a'? \
rm : remove regular empty file ' a / empty ' ? " ;
child . write_in ( yes ) ;
child
. make_assertion_with_delay ( delay )
. is_alive ( )
. with_all_output ( )
. stdout_is ( expected ) ;
#[ cfg(windows) ]
let expected = " removed 'a \\ empty' \n rm: remove directory 'a'? " ;
#[ cfg(unix) ]
let expected = " removed 'a/empty' \n rm: remove directory 'a'? " ;
child
. write_in ( yes )
. make_assertion_with_delay ( delay )
. is_alive ( )
. with_exact_output ( 44 , 0 )
. stdout_only ( expected ) ;
#[ cfg(windows) ]
let expected = " rm: descend into directory 'a'? \
rm : remove regular empty file ' a \ \ empty ' ? \
removed ' a \ \ empty ' \ n \
rm : remove directory 'a' ? \
removed directory 'a' \ n " ;
#[ cfg(unix) ]
let expected = " rm: descend into directory 'a'? \
rm : remove regular empty file ' a / empty ' ? \
removed ' a / empty ' \ n \
rm : remove directory 'a' ? \
removed directory 'a' \ n " ;
child . write_in ( yes ) ;
child
. delay ( delay )
. kill ( )
. make_assertion ( )
. is_not_alive ( )
. with_all_output ( )
. stdout_only ( expected ) ;
child . wait ( ) . unwrap ( ) . no_stdout ( ) . no_stderr ( ) . success ( ) ;
}
#[ cfg(feature = " tail " ) ]
#[ test ]
fn test_uchild_when_run_with_stderr_to_stdout ( ) {
let ts = TestScenario ::new ( " tail " ) ;
let at = & ts . fixtures ;
at . write ( " data " , " file data \n " ) ;
let expected_stdout = " ==> data <== \n \
file data \ n \
tail : cannot open ' missing ' for reading : No such file or directory \ n " ;
ts . ucmd ( )
. args ( & [ " data " , " missing " ] )
. stderr_to_stdout ( )
. fails ( )
. stdout_only ( expected_stdout ) ;
}
#[ cfg(feature = " cat " ) ]
#[ cfg(unix) ]
#[ test ]
fn test_uchild_when_no_capture_reading_from_infinite_source ( ) {
use regex ::Regex ;
let ts = TestScenario ::new ( " cat " ) ;
let expected_stdout = b " \0 " . repeat ( 12345 ) ;
let mut child = ts
. ucmd ( )
. set_stdin ( Stdio ::from ( File ::open ( " /dev/zero " ) . unwrap ( ) ) )
. set_stdout ( Stdio ::piped ( ) )
. run_no_wait ( ) ;
child
. make_assertion ( )
. with_exact_output ( 12345 , 0 )
. stdout_only_bytes ( expected_stdout ) ;
child
. kill ( )
. make_assertion ( )
. with_current_output ( )
. stdout_matches ( & Regex ::new ( " [ \0 ].* " ) . unwrap ( ) )
. no_stderr ( ) ;
}
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}