// 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. // spell-checker:ignore (words) bamf chdir rlimit prlimit COMSPEC cout cerr FFFD #[cfg(target_os = "linux")] use crate::common::util::expected_result; use crate::common::util::TestScenario; use ::env::native_int_str::{Convert, NCvt}; use std::env; use std::path::Path; use tempfile::tempdir; #[test] fn test_invalid_arg() { new_ucmd!().arg("--definitely-invalid").fails().code_is(125); } #[test] fn test_env_help() { new_ucmd!() .arg("--help") .succeeds() .no_stderr() .stdout_contains("Options:"); } #[test] fn test_env_version() { new_ucmd!() .arg("--version") .succeeds() .no_stderr() .stdout_contains(util_name!()); } #[test] fn test_echo() { #[cfg(target_os = "windows")] let args = ["cmd", "/d/c", "echo"]; #[cfg(not(target_os = "windows"))] let args = ["echo"]; let result = new_ucmd!().args(&args).arg("FOO-bar").succeeds(); assert_eq!(result.stdout_str().trim(), "FOO-bar"); } #[cfg(target_os = "windows")] #[test] fn test_if_windows_batch_files_can_be_executed() { let result = new_ucmd!().arg("./runBat.bat").succeeds(); assert!(result.stdout_str().contains("Hello Windows World!")); } #[test] fn test_file_option() { let out = new_ucmd!() .arg("-f") .arg("vars.conf.txt") .run() .stdout_move_str(); assert_eq!( out.lines() .filter(|&line| line == "FOO=bar" || line == "BAR=bamf this") .count(), 2 ); } #[test] fn test_combined_file_set() { let out = new_ucmd!() .arg("-f") .arg("vars.conf.txt") .arg("FOO=bar.alt") .run() .stdout_move_str(); assert_eq!(out.lines().filter(|&line| line == "FOO=bar.alt").count(), 1); } #[test] fn test_combined_file_set_unset() { let out = new_ucmd!() .arg("-u") .arg("BAR") .arg("-f") .arg("vars.conf.txt") .arg("FOO=bar.alt") .succeeds() .stdout_move_str(); assert_eq!( out.lines() .filter(|&line| line == "FOO=bar.alt" || line.starts_with("BAR=")) .count(), 1 ); } #[test] fn test_unset_invalid_variables() { use uucore::display::Quotable; // Cannot test input with \0 in it, since output will also contain \0. rlimit::prlimit fails // with this error: Error { kind: InvalidInput, message: "nul byte found in provided data" } for var in ["", "a=b"] { new_ucmd!().arg("-u").arg(var).run().stderr_only(format!( "env: cannot unset {}: Invalid argument\n", var.quote() )); } } #[test] fn test_single_name_value_pair() { let out = new_ucmd!().arg("FOO=bar").run(); assert!(out.stdout_str().lines().any(|line| line == "FOO=bar")); } #[test] fn test_multiple_name_value_pairs() { let out = new_ucmd!().arg("FOO=bar").arg("ABC=xyz").run(); assert_eq!( out.stdout_str() .lines() .filter(|&line| line == "FOO=bar" || line == "ABC=xyz") .count(), 2 ); } #[test] fn test_ignore_environment() { let scene = TestScenario::new(util_name!()); scene.ucmd().arg("-i").succeeds().no_stdout(); scene.ucmd().arg("-").succeeds().no_stdout(); } #[test] fn test_empty_name() { new_ucmd!() .arg("-i") .arg("=xyz") .run() .stderr_only("env: warning: no name specified for value 'xyz'\n"); } #[test] fn test_null_delimiter() { let out = new_ucmd!() .arg("-i") .arg("--null") .arg("FOO=bar") .arg("ABC=xyz") .succeeds() .stdout_move_str(); let mut vars: Vec<_> = out.split('\0').collect(); assert_eq!(vars.len(), 3); vars.sort_unstable(); assert_eq!(vars[0], ""); assert_eq!(vars[1], "ABC=xyz"); assert_eq!(vars[2], "FOO=bar"); } #[test] fn test_unset_variable() { let out = TestScenario::new(util_name!()) .ucmd() .env("HOME", "FOO") .arg("-u") .arg("HOME") .succeeds() .stdout_move_str(); assert!(!out.lines().any(|line| line.starts_with("HOME="))); } #[test] fn test_fail_null_with_program() { new_ucmd!() .arg("--null") .arg("cd") .fails() .stderr_contains("cannot specify --null (-0) with command"); } #[cfg(not(windows))] #[test] fn test_change_directory() { let scene = TestScenario::new(util_name!()); let temporary_directory = tempdir().unwrap(); let temporary_path = std::fs::canonicalize(temporary_directory.path()).unwrap(); assert_ne!(env::current_dir().unwrap(), temporary_path); // command to print out current working directory let pwd = "pwd"; let out = scene .ucmd() .arg("--chdir") .arg(&temporary_path) .arg(pwd) .succeeds() .stdout_move_str(); assert_eq!(out.trim(), temporary_path.as_os_str()); } #[cfg(windows)] #[test] fn test_change_directory() { let scene = TestScenario::new(util_name!()); let temporary_directory = tempdir().unwrap(); let temporary_path = temporary_directory.path(); let temporary_path = temporary_path .strip_prefix(r"\\?\") .unwrap_or(temporary_path); let env_cd = env::current_dir().unwrap(); let env_cd = env_cd.strip_prefix(r"\\?\").unwrap_or(&env_cd); assert_ne!(env_cd, temporary_path); // COMSPEC is a variable that contains the full path to cmd.exe let cmd_path = env::var("COMSPEC").unwrap(); // command to print out current working directory let pwd = [&*cmd_path, "/C", "cd"]; let out = scene .ucmd() .arg("--chdir") .arg(temporary_path) .args(&pwd) .succeeds() .stdout_move_str(); assert_eq!(out.trim(), temporary_path.as_os_str()); } #[test] fn test_fail_change_directory() { let scene = TestScenario::new(util_name!()); let some_non_existing_path = "some_nonexistent_path"; assert!(!Path::new(some_non_existing_path).is_dir()); let out = scene .ucmd() .arg("--chdir") .arg(some_non_existing_path) .arg("pwd") .fails() .stderr_move_str(); assert!(out.contains("env: cannot change directory to ")); } #[cfg(not(target_os = "windows"))] // windows has no executable "echo", its only supported as part of a batch-file #[test] fn test_split_string_into_args_one_argument_no_quotes() { let scene = TestScenario::new(util_name!()); let out = scene .ucmd() .arg("-S echo hello world") .succeeds() .stdout_move_str(); assert_eq!(out, "hello world\n"); } #[cfg(not(target_os = "windows"))] // windows has no executable "echo", its only supported as part of a batch-file #[test] fn test_split_string_into_args_one_argument() { let scene = TestScenario::new(util_name!()); let out = scene .ucmd() .arg("-S echo \"hello world\"") .succeeds() .stdout_move_str(); assert_eq!(out, "hello world\n"); } #[cfg(not(target_os = "windows"))] // windows has no executable "echo", its only supported as part of a batch-file #[test] fn test_split_string_into_args_s_escaping_challenge() { let scene = TestScenario::new(util_name!()); let out = scene .ucmd() .args(&[r#"-S echo "hello \"great\" world""#]) .succeeds() .stdout_move_str(); assert_eq!(out, "hello \"great\" world\n"); } #[test] fn test_split_string_into_args_s_escaped_c_not_allowed() { let scene = TestScenario::new(util_name!()); let out = scene.ucmd().args(&[r#"-S"\c""#]).fails().stderr_move_str(); assert_eq!( out, "env: '\\c' must not appear in double-quoted -S string\n" ); } #[cfg(not(target_os = "windows"))] // no printf available #[test] fn test_split_string_into_args_s_whitespace_handling() { let scene = TestScenario::new(util_name!()); let out = scene .ucmd() .args(&["-Sprintf x%sx\\n A \t B \x0B\x0C\r\n"]) .succeeds() .stdout_move_str(); assert_eq!(out, "xAx\nxBx\n"); } #[cfg(not(target_os = "windows"))] // no printf available #[test] fn test_split_string_into_args_long_option_whitespace_handling() { let scene = TestScenario::new(util_name!()); let out = scene .ucmd() .args(&["--split-string printf x%sx\\n A \t B \x0B\x0C\r\n"]) .succeeds() .stdout_move_str(); assert_eq!(out, "xAx\nxBx\n"); } #[cfg(not(target_os = "windows"))] // no printf available #[test] fn test_split_string_into_args_debug_output_whitespace_handling() { let scene = TestScenario::new(util_name!()); let out = scene .ucmd() .args(&["-vS printf x%sx\\n A \t B \x0B\x0C\r\n"]) .succeeds(); assert_eq!(out.stdout_str(), "xAx\nxBx\n"); assert_eq!(out.stderr_str(), "input args:\narg[0]: 'env'\narg[1]: $'-vS printf x%sx\\\\n A \\t B \\x0B\\x0C\\r\\n'\nexecutable: 'printf'\narg[0]: $'x%sx\\n'\narg[1]: 'A'\narg[2]: 'B'\n"); } // FixMe: This test fails on MACOS: // thread 'test_env::test_gnu_e20' panicked at 'assertion failed: `(left == right)` // left: `"A=B C=D\n__CF_USER_TEXT_ENCODING=0x1F5:0x0:0x0\n"`, // right: `"A=B C=D\n"`', tests/by-util/test_env.rs:369:5 #[cfg(not(target_os = "macos"))] #[test] fn test_gnu_e20() { let scene = TestScenario::new(util_name!()); let env_bin = String::from(crate::common::util::TESTS_BINARY) + " " + util_name!(); let (input, output) = ( [ String::from("-i"), String::from(r#"-SA="B\_C=D" "#) + env_bin.escape_default().to_string().as_str() + "", ], "A=B C=D\n", ); let out = scene.ucmd().args(&input).succeeds(); assert_eq!(out.stdout_str(), output); } #[test] fn test_split_string_misc() { use ::env::native_int_str::NCvt; use ::env::parse_args_from_str; assert_eq!( NCvt::convert(vec!["A=B", "FOO=AR", "sh", "-c", "echo $A$FOO"]), parse_args_from_str(&NCvt::convert(r#"A=B FOO=AR sh -c "echo \$A\$FOO""#)).unwrap(), ); assert_eq!( NCvt::convert(vec!["A=B", "FOO=AR", "sh", "-c", "echo $A$FOO"]), parse_args_from_str(&NCvt::convert(r#"A=B FOO=AR sh -c 'echo $A$FOO'"#)).unwrap() ); assert_eq!( NCvt::convert(vec!["A=B", "FOO=AR", "sh", "-c", "echo $A$FOO"]), parse_args_from_str(&NCvt::convert(r#"A=B FOO=AR sh -c 'echo $A$FOO'"#)).unwrap() ); assert_eq!( NCvt::convert(vec!["-i", "A=B ' C"]), parse_args_from_str(&NCvt::convert(r#"-i A='B \' C'"#)).unwrap() ); } #[test] fn test_split_string_environment_vars_test() { std::env::set_var("FOO", "BAR"); assert_eq!( NCvt::convert(vec!["FOO=bar", "sh", "-c", "echo xBARx =$FOO="]), ::env::parse_args_from_str(&NCvt::convert(r#"FOO=bar sh -c "echo x${FOO}x =\$FOO=""#)) .unwrap(), ); } #[macro_export] macro_rules! compare_with_gnu { ( $ts:expr, $args:expr ) => {{ println!("=========================================================================="); let result = $ts.ucmd().args($args).run(); #[cfg(target_os = "linux")] { let reference = expected_result(&$ts, $args); if let Ok(reference) = reference { let success = result.code() == reference.code() && result.stdout_str() == reference.stdout_str() && result.stderr_str() == reference.stderr_str(); if !success { println!("reference.code: {}", reference.code()); println!(" result.code: {}", result.code()); println!("reference.cout: {}", reference.stdout_str()); println!(" result.cout: {}", result.stdout_str()); println!("reference.cerr: {}", reference.stderr_str_lossy()); println!(" result.cerr: {}", result.stderr_str_lossy()); } assert_eq!(result.code(), reference.code()); assert_eq!(result.stdout_str(), reference.stdout_str()); assert_eq!(result.stderr_str(), reference.stderr_str()); } else { println!( "gnu reference test skipped. Reason: {:?}", reference.unwrap_err() ); } } result }}; } #[test] #[allow(clippy::cognitive_complexity)] // Ignore clippy lint of too long function sign fn test_env_with_gnu_reference_parsing_errors() { let ts = TestScenario::new(util_name!()); compare_with_gnu!(ts, &["-S\\|echo hallo"]) // no quotes, invalid escape sequence | .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\|' in -S\n"); compare_with_gnu!(ts, &["-S\\a"]) // no quotes, invalid escape sequence a .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\a' in -S\n"); compare_with_gnu!(ts, &["-S\"\\a\""]) // double quotes, invalid escape sequence a .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\a' in -S\n"); compare_with_gnu!(ts, &[r#"-S"\a""#]) // same as before, just using r#""# .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\a' in -S\n"); compare_with_gnu!(ts, &["-S'\\a'"]) // single quotes, invalid escape sequence a .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\a' in -S\n"); compare_with_gnu!(ts, &[r#"-S\|\&\;"#]) // no quotes, invalid escape sequence | .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\|' in -S\n"); compare_with_gnu!(ts, &[r#"-S\<\&\;"#]) // no quotes, invalid escape sequence < .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\<' in -S\n"); compare_with_gnu!(ts, &[r#"-S\>\&\;"#]) // no quotes, invalid escape sequence > .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\>' in -S\n"); compare_with_gnu!(ts, &[r#"-S\`\&\;"#]) // no quotes, invalid escape sequence ` .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\`' in -S\n"); compare_with_gnu!(ts, &[r#"-S"\`\&\;""#]) // double quotes, invalid escape sequence ` .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\`' in -S\n"); compare_with_gnu!(ts, &[r#"-S'\`\&\;'"#]) // single quotes, invalid escape sequence ` .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\`' in -S\n"); compare_with_gnu!(ts, &[r#"-S\`"#]) // ` escaped without quotes .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\`' in -S\n"); compare_with_gnu!(ts, &[r#"-S"\`""#]) // ` escaped in double quotes .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\`' in -S\n"); compare_with_gnu!(ts, &[r#"-S'\`'"#]) // ` escaped in single quotes .failure() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\`' in -S\n"); ts.ucmd() .args(&[r#"-S\🦉"#]) // ` escaped in single quotes .fails() .code_is(125) .no_stdout() .stderr_is("env: invalid sequence '\\\u{FFFD}' in -S\n"); // gnu doesn't show the owl. Instead a invalid unicode ? } #[test] fn test_env_with_gnu_reference_empty_executable_single_quotes() { let ts = TestScenario::new(util_name!()); ts.ucmd() .args(&["-S''"]) // empty single quotes, considered as program name .fails() .code_is(127) .no_stdout() .stderr_is("env: '': No such file or directory\n"); // gnu version again adds escaping here } #[test] fn test_env_with_gnu_reference_empty_executable_double_quotes() { let ts = TestScenario::new(util_name!()); compare_with_gnu!(ts, &["-S\"\""]) // empty double quotes, considered as program name .failure() .code_is(127) .no_stdout() .stderr_is("env: '': No such file or directory\n"); } #[cfg(test)] mod tests_split_iterator { enum EscapeStyle { /// No escaping. None, /// Wrap in single quotes. SingleQuoted, /// Single quotes combined with backslash. Mixed, } /// Determines escaping style to use. fn escape_style(s: &str) -> EscapeStyle { if s.is_empty() { return EscapeStyle::SingleQuoted; } let mut special = false; let mut newline = false; let mut single_quote = false; for c in s.chars() { match c { '\n' => { newline = true; special = true; } '\'' => { single_quote = true; special = true; } '|' | '&' | ';' | '<' | '>' | '(' | ')' | '$' | '`' | '\\' | '"' | ' ' | '\t' | '*' | '?' | '[' | '#' | '˜' | '=' | '%' => { special = true; } _ => continue, } } if !special { EscapeStyle::None } else if newline && !single_quote { EscapeStyle::SingleQuoted } else { EscapeStyle::Mixed } } /// Escapes special characters in a string, so that it will retain its literal /// meaning when used as a part of command in Unix shell. /// /// It tries to avoid introducing any unnecessary quotes or escape characters, /// but specifics regarding quoting style are left unspecified. pub fn quote(s: &str) -> std::borrow::Cow { // We are going somewhat out of the way to provide // minimal amount of quoting in typical cases. match escape_style(s) { EscapeStyle::None => s.into(), EscapeStyle::SingleQuoted => format!("'{}'", s).into(), EscapeStyle::Mixed => { let mut quoted = String::new(); quoted.push('\''); for c in s.chars() { if c == '\'' { quoted.push_str("'\\''"); } else { quoted.push(c); } } quoted.push('\''); quoted.into() } } } /// Joins arguments into a single command line suitable for execution in Unix /// shell. /// /// Each argument is quoted using [`quote`] to preserve its literal meaning when /// parsed by Unix shell. /// /// Note: This function is essentially an inverse of [`split`]. /// /// # Examples /// /// Logging executed commands in format that can be easily copied and pasted /// into an actual shell: /// /// ```rust,no_run /// fn execute(args: &[&str]) { /// use std::process::Command; /// println!("Executing: {}", shell_words::join(args)); /// Command::new(&args[0]) /// .args(&args[1..]) /// .spawn() /// .expect("failed to start subprocess") /// .wait() /// .expect("failed to wait for subprocess"); /// } /// /// execute(&["python", "-c", "print('Hello world!')"]); /// ``` /// /// [`quote`]: fn.quote.html /// [`split`]: fn.split.html pub fn join(words: I) -> String where I: IntoIterator, S: AsRef, { let mut line = words.into_iter().fold(String::new(), |mut line, word| { let quoted = quote(word.as_ref()); line.push_str(quoted.as_ref()); line.push(' '); line }); line.pop(); line } use std::ffi::OsString; use ::env::parse_error::ParseError; use env::native_int_str::{from_native_int_representation_owned, Convert, NCvt}; fn split(input: &str) -> Result, ParseError> { ::env::split_iterator::split(&NCvt::convert(input)).map(|vec| { vec.into_iter() .map(from_native_int_representation_owned) .collect() }) } fn split_ok(cases: &[(&str, &[&str])]) { for (i, &(input, expected)) in cases.iter().enumerate() { match split(input) { Err(actual) => { panic!( "[{i}] calling split({:?}):\nexpected: Ok({:?})\n actual: Err({:?})\n", input, expected, actual ); } Ok(actual) => { assert!( expected == actual.as_slice(), "[{i}] After split({:?}).unwrap()\nexpected: {:?}\n actual: {:?}\n", input, expected, actual ); } } } } #[test] fn split_empty() { split_ok(&[("", &[])]); } #[test] fn split_initial_whitespace_is_removed() { split_ok(&[ (" a", &["a"]), ("\t\t\t\tbar", &["bar"]), ("\t \nc", &["c"]), ]); } #[test] fn split_trailing_whitespace_is_removed() { split_ok(&[ ("a ", &["a"]), ("b\t", &["b"]), ("c\t \n \n \n", &["c"]), ("d\n\n", &["d"]), ]); } #[test] fn split_carriage_return() { split_ok(&[("c\ra\r'\r'\r", &["c", "a", "\r"])]); } #[test] fn split_() { split_ok(&[("\\'\\'", &["''"])]); } #[test] fn split_single_quotes() { split_ok(&[ (r#"''"#, &[r#""#]), (r#"'a'"#, &[r#"a"#]), (r#"'\\'"#, &[r#"\"#]), (r#"' \\ '"#, &[r#" \ "#]), (r#"'#'"#, &[r#"#"#]), ]); } #[test] fn split_double_quotes() { split_ok(&[ (r#""""#, &[""]), (r#""""""#, &[""]), (r#""a b c' d""#, &["a b c' d"]), (r#""\$""#, &["$"]), (r#""`""#, &["`"]), (r#""\"""#, &["\""]), (r#""\\""#, &["\\"]), ("\"\n\"", &["\n"]), ("\"\\\n\"", &[""]), ]); } #[test] fn split_unquoted() { split_ok(&[ (r#"\\|\\&\\;"#, &[r#"\|\&\;"#]), (r#"\\<\\>"#, &[r#"\<\>"#]), (r#"\\(\\)"#, &[r#"\(\)"#]), (r#"\$"#, &[r#"$"#]), (r#"\""#, &[r#"""#]), (r#"\'"#, &[r#"'"#]), ("\\\n", &[]), (" \\\n \n", &[]), ("a\nb\nc", &["a", "b", "c"]), ("a\\\nb\\\nc", &["abc"]), ("foo bar baz", &["foo", "bar", "baz"]), ]); } #[test] fn split_trailing_backslash() { assert_eq!( split("\\"), Err(ParseError::InvalidBackslashAtEndOfStringInMinusS { pos: 1, quoting: "Delimiter".into() }) ); assert_eq!( split(" \\"), Err(ParseError::InvalidBackslashAtEndOfStringInMinusS { pos: 2, quoting: "Delimiter".into() }) ); assert_eq!( split("a\\"), Err(ParseError::InvalidBackslashAtEndOfStringInMinusS { pos: 2, quoting: "Unquoted".into() }) ); } #[test] fn split_errors() { assert_eq!( split("'abc"), Err(ParseError::MissingClosingQuote { pos: 4, c: '\'' }) ); assert_eq!( split("\""), Err(ParseError::MissingClosingQuote { pos: 1, c: '"' }) ); assert_eq!( split("'\\"), Err(ParseError::MissingClosingQuote { pos: 2, c: '\'' }) ); assert_eq!( split("'\\"), Err(ParseError::MissingClosingQuote { pos: 2, c: '\'' }) ); assert_eq!( split(r#""$""#), Err(ParseError::ParsingOfVariableNameFailed { pos: 2, msg: "Missing variable name".into() }), ); } #[test] fn split_error_fail_with_unknown_escape_sequences() { assert_eq!( split("\\a"), Err(ParseError::InvalidSequenceBackslashXInMinusS { pos: 1, c: 'a' }) ); assert_eq!( split("\"\\a\""), Err(ParseError::InvalidSequenceBackslashXInMinusS { pos: 2, c: 'a' }) ); assert_eq!( split("'\\a'"), Err(ParseError::InvalidSequenceBackslashXInMinusS { pos: 2, c: 'a' }) ); assert_eq!( split(r#""\a""#), Err(ParseError::InvalidSequenceBackslashXInMinusS { pos: 2, c: 'a' }) ); assert_eq!( split(r#"\🦉"#), Err(ParseError::InvalidSequenceBackslashXInMinusS { pos: 1, c: '\u{FFFD}' }) ); } #[test] fn split_comments() { split_ok(&[ (r#" x # comment "#, &["x"]), (r#" w1#w2 "#, &["w1#w2"]), (r#"'not really a # comment'"#, &["not really a # comment"]), (" a # very long comment \n b # another comment", &["a", "b"]), ]); } #[test] fn test_quote() { assert_eq!(quote(""), "''"); assert_eq!(quote("'"), "''\\'''"); assert_eq!(quote("abc"), "abc"); assert_eq!(quote("a \n b"), "'a \n b'"); assert_eq!(quote("X'\nY"), "'X'\\''\nY'"); } #[test] fn test_join() { assert_eq!(join(["a", "b", "c"]), "a b c"); assert_eq!(join([" ", "$", "\n"]), "' ' '$' '\n'"); } #[test] fn join_followed_by_split_is_identity() { let cases: Vec<&[&str]> = vec![ &["a"], &["python", "-c", "print('Hello world!')"], &["echo", " arg with spaces ", "arg \' with \" quotes"], &["even newlines are quoted correctly\n", "\n", "\n\n\t "], &["$", "`test`"], &["cat", "~user/log*"], &["test", "'a \"b", "\"X'"], &["empty", "", "", ""], ]; for argv in cases { let args = join(argv); assert_eq!(split(&args).unwrap(), argv); } } } mod test_raw_string_parser { use std::{ borrow::Cow, ffi::{OsStr, OsString}, }; use env::{ native_int_str::{ from_native_int_representation, from_native_int_representation_owned, to_native_int_representation, NativeStr, }, string_expander::StringExpander, string_parser, }; const LEN_OWL: usize = if cfg!(target_os = "windows") { 2 } else { 4 }; #[test] fn test_ascii_only_take_one_look_at_correct_data_and_end_behavior() { let input = "hello"; let cow = to_native_int_representation(OsStr::new(input)); let mut uut = StringExpander::new(&cow); for c in input.chars() { assert_eq!(c, uut.get_parser().peek().unwrap()); uut.take_one().unwrap(); } assert_eq!( uut.get_parser().peek(), Err(string_parser::Error { peek_position: 5, err_type: string_parser::ErrorType::EndOfInput }) ); uut.take_one().unwrap_err(); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), input ); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), "" ); } #[test] fn test_multi_byte_codes_take_one_look_at_correct_data_and_end_behavior() { let input = OsString::from("🦉🦉🦉x🦉🦉x🦉x🦉🦉🦉🦉"); let cow = to_native_int_representation(input.as_os_str()); let mut uut = StringExpander::new(&cow); for _i in 0..3 { assert_eq!(uut.get_parser().peek().unwrap(), '\u{FFFD}'); uut.take_one().unwrap(); assert_eq!(uut.get_parser().peek().unwrap(), 'x'); uut.take_one().unwrap(); } assert_eq!(uut.get_parser().peek().unwrap(), '\u{FFFD}'); uut.take_one().unwrap(); assert_eq!( uut.get_parser().peek(), Err(string_parser::Error { peek_position: 10 * LEN_OWL + 3, err_type: string_parser::ErrorType::EndOfInput }) ); uut.take_one().unwrap_err(); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), input ); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), "" ); } #[test] fn test_multi_byte_codes_put_one_ascii_start_middle_end_try_invalid_ascii() { let input = OsString::from("🦉🦉🦉x🦉🦉x🦉x🦉🦉🦉🦉"); let cow = to_native_int_representation(input.as_os_str()); let owl: char = '🦉'; let mut uut = StringExpander::new(&cow); uut.put_one_char('a'); for _i in 0..3 { assert_eq!(uut.get_parser().peek().unwrap(), '\u{FFFD}'); uut.take_one().unwrap(); uut.put_one_char('a'); assert_eq!(uut.get_parser().peek().unwrap(), 'x'); uut.take_one().unwrap(); uut.put_one_char('a'); } assert_eq!(uut.get_parser().peek().unwrap(), '\u{FFFD}'); uut.take_one().unwrap(); uut.put_one_char(owl); uut.put_one_char('a'); assert_eq!( uut.get_parser().peek(), Err(string_parser::Error { peek_position: LEN_OWL * 10 + 3, err_type: string_parser::ErrorType::EndOfInput }) ); uut.take_one().unwrap_err(); uut.put_one_char('a'); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), "a🦉🦉🦉axa🦉🦉axa🦉axa🦉🦉🦉🦉🦉aa" ); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), "" ); } #[test] fn test_multi_byte_codes_skip_one_take_one_skip_until_ascii_char_or_end() { let input = OsString::from("🦉🦉🦉x🦉🦉x🦉x🦉🦉🦉🦉"); let cow = to_native_int_representation(input.as_os_str()); let mut uut = StringExpander::new(&cow); uut.skip_one().unwrap(); // skip 🦉🦉🦉 let p = LEN_OWL * 3; assert_eq!(uut.get_peek_position(), p); uut.skip_one().unwrap(); // skip x assert_eq!(uut.get_peek_position(), p + 1); uut.take_one().unwrap(); // take 🦉🦉 let p = p + 1 + LEN_OWL * 2; assert_eq!(uut.get_peek_position(), p); uut.skip_one().unwrap(); // skip x assert_eq!(uut.get_peek_position(), p + 1); uut.get_parser_mut().skip_until_char_or_end('x'); // skip 🦉 let p = p + 1 + LEN_OWL; assert_eq!(uut.get_peek_position(), p); uut.take_one().unwrap(); // take x uut.get_parser_mut().skip_until_char_or_end('x'); // skip 🦉🦉🦉🦉 till end let p = p + 1 + LEN_OWL * 4; assert_eq!(uut.get_peek_position(), p); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), "🦉🦉x" ); } #[test] fn test_multi_byte_codes_skip_multiple_ascii_bounded_good_and_bad() { let input = OsString::from("🦉🦉🦉x🦉🦉x🦉x🦉🦉🦉🦉"); let cow = to_native_int_representation(input.as_os_str()); let mut uut = StringExpander::new(&cow); uut.get_parser_mut().skip_multiple(0); assert_eq!(uut.get_peek_position(), 0); let p = LEN_OWL * 3; uut.get_parser_mut().skip_multiple(p); // skips 🦉🦉🦉 assert_eq!(uut.get_peek_position(), p); uut.take_one().unwrap(); // take x assert_eq!(uut.get_peek_position(), p + 1); let step = LEN_OWL * 3 + 1; uut.get_parser_mut().skip_multiple(step); // skips 🦉🦉x🦉 let p = p + 1 + step; assert_eq!(uut.get_peek_position(), p); uut.take_one().unwrap(); // take x assert_eq!(uut.get_peek_position(), p + 1); let step = 4 * LEN_OWL; uut.get_parser_mut().skip_multiple(step); // skips 🦉🦉🦉🦉 let p = p + 1 + step; assert_eq!(uut.get_peek_position(), p); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), "xx" ); } #[test] fn test_multi_byte_codes_put_string_utf8_start_middle_end() { let input = OsString::from("🦉🦉🦉x🦉🦉x🦉x🦉🦉🦉🦉"); let cow = to_native_int_representation(input.as_os_str()); let mut uut = StringExpander::new(&cow); uut.put_string("🦔oo"); uut.take_one().unwrap(); // takes 🦉🦉🦉 uut.put_string("oo🦔"); uut.take_one().unwrap(); // take x uut.get_parser_mut().skip_until_char_or_end('\n'); // skips till end uut.put_string("o🦔o"); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), "🦔oo🦉🦉🦉oo🦔xo🦔o" ); } #[test] fn test_multi_byte_codes_look_at_remaining_start_middle_end() { let input = "🦉🦉🦉x🦉🦉x🦉x🦉🦉🦉🦉"; let cow = to_native_int_representation(OsStr::new(input)); let mut uut = StringExpander::new(&cow); assert_eq!(uut.get_parser().peek_remaining(), OsStr::new(input)); uut.take_one().unwrap(); // takes 🦉🦉🦉 assert_eq!(uut.get_parser().peek_remaining(), OsStr::new(&input[12..])); uut.get_parser_mut().skip_until_char_or_end('\n'); // skips till end assert_eq!(uut.get_parser().peek_remaining(), OsStr::new("")); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), "🦉🦉🦉" ); } #[test] fn test_deal_with_invalid_encoding() { let owl_invalid_part; let (brace_1, brace_2); #[cfg(target_os = "windows")] { let mut buffer = [0u16; 2]; let owl = '🦉'.encode_utf16(&mut buffer); owl_invalid_part = owl[0]; brace_1 = '<'.encode_utf16(&mut buffer).to_vec(); brace_2 = '>'.encode_utf16(&mut buffer).to_vec(); } #[cfg(not(target_os = "windows"))] { let mut buffer = [0u8; 4]; let owl = '🦉'.encode_utf8(&mut buffer); owl_invalid_part = owl.bytes().next().unwrap(); brace_1 = [b'<'].to_vec(); brace_2 = [b'>'].to_vec(); } let mut input_ux = brace_1; input_ux.push(owl_invalid_part); input_ux.extend(brace_2); let input_str = from_native_int_representation(Cow::Borrowed(&input_ux)); let mut uut = StringExpander::new(&input_ux); assert_eq!(uut.get_parser().peek_remaining(), input_str); assert_eq!(uut.get_parser().peek().unwrap(), '<'); uut.take_one().unwrap(); // takes "<" assert_eq!( uut.get_parser().peek_remaining(), NativeStr::new(&input_str).split_at(1).1 ); assert_eq!(uut.get_parser().peek().unwrap(), '\u{FFFD}'); uut.take_one().unwrap(); // takes owl_b assert_eq!( uut.get_parser().peek_remaining(), NativeStr::new(&input_str).split_at(2).1 ); assert_eq!(uut.get_parser().peek().unwrap(), '>'); uut.get_parser_mut().skip_until_char_or_end('\n'); assert_eq!(uut.get_parser().peek_remaining(), OsStr::new("")); uut.take_one().unwrap_err(); assert_eq!( from_native_int_representation_owned(uut.take_collected_output()), NativeStr::new(&input_str).split_at(2).0 ); } }