// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. /*! * Higher-level interfaces to libc::* functions and operating system services. * * In general these take and return rust types, use rust idioms (enums, * closures, vectors) rather than C idioms, and do more extensive safety * checks. * * This module is not meant to only contain 1:1 mappings to libc entries; any * os-interface code that is reasonably useful and broadly applicable can go * here. Including utility routines that merely build on other os code. * * We assume the general case is that users do not care, and do not want to * be made to care, which operating system they are on. While they may want * to special case various special cases -- and so we will not _hide_ the * facts of which OS the user is on -- they should be given the opportunity * to write OS-ignorant code by default. */ #[allow(missing_doc)]; #[cfg(unix)] use c_str::CString; use clone::Clone; use container::Container; use iter::range; use libc; use libc::{c_char, c_void, c_int, size_t}; use libc::FILE; use option::{Some, None}; use os; use prelude::*; use ptr; use str; use to_str; use unstable::finally::Finally; use vec; pub use libc::fclose; pub use os::consts::*; /// Delegates to the libc close() function, returning the same return value. pub fn close(fd: c_int) -> c_int { #[fixed_stack_segment]; #[inline(never)]; unsafe { libc::close(fd) } } // On Windows, wide character version of function must be used to support // unicode, so functions should be split into at least two versions, // which are for Windows and for non-Windows, if necessary. // See https://github.com/mozilla/rust/issues/9822 for more information. mod rustrt { use libc::{c_char, c_int}; use libc; extern { pub fn rust_path_is_dir(path: *libc::c_char) -> c_int; pub fn rust_path_exists(path: *libc::c_char) -> c_int; } // Uses _wstat instead of stat. #[cfg(windows)] extern { pub fn rust_path_is_dir_u16(path: *u16) -> c_int; pub fn rust_path_exists_u16(path: *u16) -> c_int; } } pub static TMPBUF_SZ : uint = 1000u; static BUF_BYTES : uint = 2048u; #[cfg(unix)] pub fn getcwd() -> Path { #[fixed_stack_segment]; #[inline(never)]; let mut buf = [0 as libc::c_char, ..BUF_BYTES]; do buf.as_mut_buf |buf, len| { unsafe { if libc::getcwd(buf, len as size_t).is_null() { fail!() } Path::new(CString::new(buf as *c_char, false)) } } } #[cfg(windows)] pub fn getcwd() -> Path { #[fixed_stack_segment]; #[inline(never)]; use libc::DWORD; use libc::GetCurrentDirectoryW; let mut buf = [0 as u16, ..BUF_BYTES]; do buf.as_mut_buf |buf, len| { unsafe { if libc::GetCurrentDirectoryW(len as DWORD, buf) == 0 as DWORD { fail!(); } } } Path::new(str::from_utf16(buf)) } #[cfg(windows)] pub mod win32 { use libc; use vec; use str; use option::{None, Option}; use option; use os::TMPBUF_SZ; use libc::types::os::arch::extra::DWORD; pub fn fill_utf16_buf_and_decode(f: &fn(*mut u16, DWORD) -> DWORD) -> Option<~str> { #[fixed_stack_segment]; #[inline(never)]; unsafe { let mut n = TMPBUF_SZ as DWORD; let mut res = None; let mut done = false; while !done { let mut k: DWORD = 0; let mut buf = vec::from_elem(n as uint, 0u16); do buf.as_mut_buf |b, _sz| { k = f(b, TMPBUF_SZ as DWORD); if k == (0 as DWORD) { done = true; } else if (k == n && libc::GetLastError() == libc::ERROR_INSUFFICIENT_BUFFER as DWORD) { n *= (2 as DWORD); } else { done = true; } } if k != 0 && done { let sub = buf.slice(0, k as uint); res = option::Some(str::from_utf16(sub)); } } return res; } } pub fn as_utf16_p(s: &str, f: &fn(*u16) -> T) -> T { let mut t = s.to_utf16(); // Null terminate before passing on. t.push(0u16); t.as_imm_buf(|buf, _len| f(buf)) } } /* Accessing environment variables is not generally threadsafe. Serialize access through a global lock. */ fn with_env_lock(f: &fn() -> T) -> T { use unstable::finally::Finally; unsafe { return do (|| { rust_take_env_lock(); f() }).finally { rust_drop_env_lock(); }; } externfn!(fn rust_take_env_lock()); externfn!(fn rust_drop_env_lock()); } /// Returns a vector of (variable, value) pairs for all the environment /// variables of the current process. pub fn env() -> ~[(~str,~str)] { unsafe { #[cfg(windows)] unsafe fn get_env_pairs() -> ~[~str] { #[fixed_stack_segment]; #[inline(never)]; use libc::funcs::extra::kernel32::{ GetEnvironmentStringsA, FreeEnvironmentStringsA }; let ch = GetEnvironmentStringsA(); if (ch as uint == 0) { fail!("os::env() failure getting env string from OS: {}", os::last_os_error()); } let mut result = ~[]; do c_str::from_c_multistring(ch as *libc::c_char, None) |cstr| { result.push(cstr.as_str().to_owned()); }; FreeEnvironmentStringsA(ch); result } #[cfg(unix)] unsafe fn get_env_pairs() -> ~[~str] { #[fixed_stack_segment]; #[inline(never)]; extern { fn rust_env_pairs() -> **libc::c_char; } let environ = rust_env_pairs(); if (environ as uint == 0) { fail!("os::env() failure getting env string from OS: {}", os::last_os_error()); } let mut result = ~[]; ptr::array_each(environ, |e| { let env_pair = str::raw::from_c_str(e); debug!("get_env_pairs: {}", env_pair); result.push(env_pair); }); result } fn env_convert(input: ~[~str]) -> ~[(~str, ~str)] { let mut pairs = ~[]; for p in input.iter() { let vs: ~[&str] = p.splitn_iter('=', 1).collect(); debug!("splitting: len: {}", vs.len()); assert_eq!(vs.len(), 2); pairs.push((vs[0].to_owned(), vs[1].to_owned())); } pairs } do with_env_lock { let unparsed_environ = get_env_pairs(); env_convert(unparsed_environ) } } } #[cfg(unix)] /// Fetches the environment variable `n` from the current process, returning /// None if the variable isn't set. pub fn getenv(n: &str) -> Option<~str> { #[fixed_stack_segment]; #[inline(never)]; unsafe { do with_env_lock { let s = do n.with_c_str |buf| { libc::getenv(buf) }; if s.is_null() { None } else { Some(str::raw::from_c_str(s)) } } } } #[cfg(windows)] /// Fetches the environment variable `n` from the current process, returning /// None if the variable isn't set. pub fn getenv(n: &str) -> Option<~str> { #[fixed_stack_segment]; #[inline(never)]; unsafe { do with_env_lock { use os::win32::{as_utf16_p, fill_utf16_buf_and_decode}; do as_utf16_p(n) |u| { do fill_utf16_buf_and_decode() |buf, sz| { libc::GetEnvironmentVariableW(u, buf, sz) } } } } } #[cfg(unix)] /// Sets the environment variable `n` to the value `v` for the currently running /// process pub fn setenv(n: &str, v: &str) { #[fixed_stack_segment]; #[inline(never)]; unsafe { do with_env_lock { do n.with_c_str |nbuf| { do v.with_c_str |vbuf| { libc::funcs::posix01::unistd::setenv(nbuf, vbuf, 1); } } } } } #[cfg(windows)] /// Sets the environment variable `n` to the value `v` for the currently running /// process pub fn setenv(n: &str, v: &str) { #[fixed_stack_segment]; #[inline(never)]; unsafe { do with_env_lock { use os::win32::as_utf16_p; do as_utf16_p(n) |nbuf| { do as_utf16_p(v) |vbuf| { libc::SetEnvironmentVariableW(nbuf, vbuf); } } } } } /// Remove a variable from the environment entirely pub fn unsetenv(n: &str) { #[cfg(unix)] fn _unsetenv(n: &str) { #[fixed_stack_segment]; #[inline(never)]; unsafe { do with_env_lock { do n.with_c_str |nbuf| { libc::funcs::posix01::unistd::unsetenv(nbuf); } } } } #[cfg(windows)] fn _unsetenv(n: &str) { #[fixed_stack_segment]; #[inline(never)]; unsafe { do with_env_lock { use os::win32::as_utf16_p; do as_utf16_p(n) |nbuf| { libc::SetEnvironmentVariableW(nbuf, ptr::null()); } } } } _unsetenv(n); } pub fn fdopen(fd: c_int) -> *FILE { #[fixed_stack_segment]; #[inline(never)]; do "r".with_c_str |modebuf| { unsafe { libc::fdopen(fd, modebuf) } } } pub struct Pipe { input: c_int, out: c_int } #[cfg(unix)] pub fn pipe() -> Pipe { #[fixed_stack_segment]; #[inline(never)]; unsafe { let mut fds = Pipe {input: 0 as c_int, out: 0 as c_int }; assert_eq!(libc::pipe(&mut fds.input), (0 as c_int)); return Pipe {input: fds.input, out: fds.out}; } } #[cfg(windows)] pub fn pipe() -> Pipe { #[fixed_stack_segment]; #[inline(never)]; unsafe { // Windows pipes work subtly differently than unix pipes, and their // inheritance has to be handled in a different way that I do not // fully understand. Here we explicitly make the pipe non-inheritable, // which means to pass it to a subprocess they need to be duplicated // first, as in std::run. let mut fds = Pipe {input: 0 as c_int, out: 0 as c_int }; let res = libc::pipe(&mut fds.input, 1024 as ::libc::c_uint, (libc::O_BINARY | libc::O_NOINHERIT) as c_int); assert_eq!(res, 0 as c_int); assert!((fds.input != -1 as c_int && fds.input != 0 as c_int)); assert!((fds.out != -1 as c_int && fds.input != 0 as c_int)); return Pipe {input: fds.input, out: fds.out}; } } fn dup2(src: c_int, dst: c_int) -> c_int { #[fixed_stack_segment]; #[inline(never)]; unsafe { libc::dup2(src, dst) } } /// Returns the proper dll filename for the given basename of a file. pub fn dll_filename(base: &str) -> ~str { format!("{}{}{}", DLL_PREFIX, base, DLL_SUFFIX) } /// Optionally returns the filesystem path to the current executable which is /// running. If any failure occurs, None is returned. pub fn self_exe_path() -> Option { #[cfg(target_os = "freebsd")] fn load_self() -> Option<~[u8]> { #[fixed_stack_segment]; #[inline(never)]; unsafe { use libc::funcs::bsd44::*; use libc::consts::os::extra::*; let mib = ~[CTL_KERN as c_int, KERN_PROC as c_int, KERN_PROC_PATHNAME as c_int, -1 as c_int]; let mut sz: size_t = 0; let err = sysctl(vec::raw::to_ptr(mib), mib.len() as ::libc::c_uint, ptr::mut_null(), &mut sz, ptr::null(), 0u as size_t); if err != 0 { return None; } if sz == 0 { return None; } let mut v: ~[u8] = vec::with_capacity(sz as uint); let err = do v.as_mut_buf |buf,_| { sysctl(vec::raw::to_ptr(mib), mib.len() as ::libc::c_uint, buf as *mut c_void, &mut sz, ptr::null(), 0u as size_t) }; if err != 0 { return None; } if sz == 0 { return None; } vec::raw::set_len(&mut v, sz as uint - 1); // chop off trailing NUL Some(v) } } #[cfg(target_os = "linux")] #[cfg(target_os = "android")] fn load_self() -> Option<~[u8]> { #[fixed_stack_segment]; #[inline(never)]; unsafe { use libc::funcs::posix01::unistd::readlink; let mut path: ~[u8] = vec::with_capacity(TMPBUF_SZ); let len = do path.as_mut_buf |buf, _| { do "/proc/self/exe".with_c_str |proc_self_buf| { readlink(proc_self_buf, buf as *mut c_char, TMPBUF_SZ as size_t) as uint } }; if len == -1 { None } else { vec::raw::set_len(&mut path, len as uint); Some(path) } } } #[cfg(target_os = "macos")] fn load_self() -> Option<~[u8]> { #[fixed_stack_segment]; #[inline(never)]; unsafe { use libc::funcs::extra::_NSGetExecutablePath; let mut sz: u32 = 0; _NSGetExecutablePath(ptr::mut_null(), &mut sz); if sz == 0 { return None; } let mut v: ~[u8] = vec::with_capacity(sz as uint); let err = do v.as_mut_buf |buf,_| { _NSGetExecutablePath(buf as *mut i8, &mut sz) }; if err != 0 { return None; } vec::raw::set_len(&mut v, sz as uint - 1); // chop off trailing NUL Some(v) } } #[cfg(windows)] fn load_self() -> Option<~[u8]> { #[fixed_stack_segment]; #[inline(never)]; unsafe { use os::win32::fill_utf16_buf_and_decode; do fill_utf16_buf_and_decode() |buf, sz| { libc::GetModuleFileNameW(0u as libc::DWORD, buf, sz) }.map(|s| s.into_bytes()) } } load_self().and_then(|path| Path::new_opt(path).map(|mut p| { p.pop(); p })) } /** * Returns the path to the user's home directory, if known. * * On Unix, returns the value of the 'HOME' environment variable if it is set * and not equal to the empty string. * * On Windows, returns the value of the 'HOME' environment variable if it is * set and not equal to the empty string. Otherwise, returns the value of the * 'USERPROFILE' environment variable if it is set and not equal to the empty * string. * * Otherwise, homedir returns option::none. */ pub fn homedir() -> Option { // FIXME (#7188): getenv needs a ~[u8] variant return match getenv("HOME") { Some(ref p) if !p.is_empty() => Path::new_opt(p.as_slice()), _ => secondary() }; #[cfg(unix)] fn secondary() -> Option { None } #[cfg(windows)] fn secondary() -> Option { do getenv("USERPROFILE").and_then |p| { if !p.is_empty() { Path::new_opt(p) } else { None } } } } /** * Returns the path to a temporary directory. * * On Unix, returns the value of the 'TMPDIR' environment variable if it is * set and non-empty and '/tmp' otherwise. * On Android, there is no global temporary folder (it is usually allocated * per-app), hence returns '/data/tmp' which is commonly used. * * On Windows, returns the value of, in order, the 'TMP', 'TEMP', * 'USERPROFILE' environment variable if any are set and not the empty * string. Otherwise, tmpdir returns the path to the Windows directory. */ pub fn tmpdir() -> Path { return lookup(); fn getenv_nonempty(v: &str) -> Option { match getenv(v) { Some(x) => if x.is_empty() { None } else { Path::new_opt(x) }, _ => None } } #[cfg(unix)] fn lookup() -> Path { if cfg!(target_os = "android") { Path::new("/data/tmp") } else { getenv_nonempty("TMPDIR").unwrap_or(Path::new("/tmp")) } } #[cfg(windows)] fn lookup() -> Path { getenv_nonempty("TMP").or( getenv_nonempty("TEMP").or( getenv_nonempty("USERPROFILE").or( getenv_nonempty("WINDIR")))).unwrap_or(Path::new("C:\\Windows")) } } /// Recursively walk a directory structure pub fn walk_dir(p: &Path, f: &fn(&Path) -> bool) -> bool { let r = list_dir(p); r.iter().advance(|q| { let path = &p.join(q); f(path) && (!path_is_dir(path) || walk_dir(path, |p| f(p))) }) } #[cfg(unix)] /// Indicates whether a path represents a directory pub fn path_is_dir(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { do p.with_c_str |buf| { rustrt::rust_path_is_dir(buf) != 0 as c_int } } } #[cfg(windows)] pub fn path_is_dir(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { do os::win32::as_utf16_p(p.as_str().unwrap()) |buf| { rustrt::rust_path_is_dir_u16(buf) != 0 as c_int } } } #[cfg(unix)] /// Indicates whether a path exists pub fn path_exists(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { do p.with_c_str |buf| { rustrt::rust_path_exists(buf) != 0 as c_int } } } #[cfg(windows)] pub fn path_exists(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { do os::win32::as_utf16_p(p.as_str().unwrap()) |buf| { rustrt::rust_path_exists_u16(buf) != 0 as c_int } } } /** * Convert a relative path to an absolute path * * If the given path is relative, return it prepended with the current working * directory. If the given path is already an absolute path, return it * as is. */ // NB: this is here rather than in path because it is a form of environment // querying; what it does depends on the process working directory, not just // the input paths. pub fn make_absolute(p: &Path) -> Path { if p.is_absolute() { p.clone() } else { let mut ret = getcwd(); ret.push(p); ret } } /// Creates a directory at the specified path pub fn make_dir(p: &Path, mode: c_int) -> bool { return mkdir(p, mode); #[cfg(windows)] fn mkdir(p: &Path, _mode: c_int) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { use os::win32::as_utf16_p; // FIXME: turn mode into something useful? #2623 do as_utf16_p(p.as_str().unwrap()) |buf| { libc::CreateDirectoryW(buf, ptr::mut_null()) != (0 as libc::BOOL) } } } #[cfg(unix)] fn mkdir(p: &Path, mode: c_int) -> bool { #[fixed_stack_segment]; #[inline(never)]; do p.with_c_str |buf| { unsafe { libc::mkdir(buf, mode as libc::mode_t) == (0 as c_int) } } } } /// Creates a directory with a given mode. /// Returns true iff creation /// succeeded. Also creates all intermediate subdirectories /// if they don't already exist, giving all of them the same mode. // tjc: if directory exists but with different permissions, // should we return false? pub fn mkdir_recursive(p: &Path, mode: c_int) -> bool { if path_is_dir(p) { return true; } if p.filename().is_some() { let mut p_ = p.clone(); p_.pop(); if !mkdir_recursive(&p_, mode) { return false; } } return make_dir(p, mode); } /// Lists the contents of a directory /// /// Each resulting Path is a relative path with no directory component. pub fn list_dir(p: &Path) -> ~[Path] { unsafe { #[cfg(target_os = "linux")] #[cfg(target_os = "android")] #[cfg(target_os = "freebsd")] #[cfg(target_os = "macos")] unsafe fn get_list(p: &Path) -> ~[Path] { #[fixed_stack_segment]; #[inline(never)]; use libc::{dirent_t}; use libc::{opendir, readdir, closedir}; extern { fn rust_list_dir_val(ptr: *dirent_t) -> *libc::c_char; } let mut paths = ~[]; debug!("os::list_dir -- BEFORE OPENDIR"); let dir_ptr = do p.with_c_str |buf| { opendir(buf) }; if (dir_ptr as uint != 0) { debug!("os::list_dir -- opendir() SUCCESS"); let mut entry_ptr = readdir(dir_ptr); while (entry_ptr as uint != 0) { let cstr = CString::new(rust_list_dir_val(entry_ptr), false); paths.push(Path::new(cstr)); entry_ptr = readdir(dir_ptr); } closedir(dir_ptr); } else { debug!("os::list_dir -- opendir() FAILURE"); } debug!("os::list_dir -- AFTER -- \\#: {}", paths.len()); paths } #[cfg(windows)] unsafe fn get_list(p: &Path) -> ~[Path] { #[fixed_stack_segment]; #[inline(never)]; use libc::consts::os::extra::INVALID_HANDLE_VALUE; use libc::{wcslen, free}; use libc::funcs::extra::kernel32::{ FindFirstFileW, FindNextFileW, FindClose, }; use libc::types::os::arch::extra::HANDLE; use os::win32::{ as_utf16_p }; use rt::global_heap::malloc_raw; #[nolink] extern { fn rust_list_dir_wfd_size() -> libc::size_t; fn rust_list_dir_wfd_fp_buf(wfd: *libc::c_void) -> *u16; } let star = p.join("*"); do as_utf16_p(star.as_str().unwrap()) |path_ptr| { let mut paths = ~[]; let wfd_ptr = malloc_raw(rust_list_dir_wfd_size() as uint); let find_handle = FindFirstFileW(path_ptr, wfd_ptr as HANDLE); if find_handle as libc::c_int != INVALID_HANDLE_VALUE { let mut more_files = 1 as libc::c_int; while more_files != 0 { let fp_buf = rust_list_dir_wfd_fp_buf(wfd_ptr); if fp_buf as uint == 0 { fail!("os::list_dir() failure: got null ptr from wfd"); } else { let fp_vec = vec::from_buf( fp_buf, wcslen(fp_buf) as uint); let fp_str = str::from_utf16(fp_vec); paths.push(Path::new(fp_str)); } more_files = FindNextFileW(find_handle, wfd_ptr as HANDLE); } FindClose(find_handle); free(wfd_ptr) } paths } } do get_list(p).move_iter().filter |path| { path.as_vec() != bytes!(".") && path.as_vec() != bytes!("..") }.collect() } } /** * Lists the contents of a directory * * This version prepends each entry with the directory. */ pub fn list_dir_path(p: &Path) -> ~[Path] { list_dir(p).map(|f| p.join(f)) } /// Removes a directory at the specified path, after removing /// all its contents. Use carefully! pub fn remove_dir_recursive(p: &Path) -> bool { let mut error_happened = false; do walk_dir(p) |inner| { if !error_happened { if path_is_dir(inner) { if !remove_dir_recursive(inner) { error_happened = true; } } else { if !remove_file(inner) { error_happened = true; } } } true }; // Directory should now be empty !error_happened && remove_dir(p) } /// Removes a directory at the specified path pub fn remove_dir(p: &Path) -> bool { return rmdir(p); #[cfg(windows)] fn rmdir(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { use os::win32::as_utf16_p; return do as_utf16_p(p.as_str().unwrap()) |buf| { libc::RemoveDirectoryW(buf) != (0 as libc::BOOL) }; } } #[cfg(unix)] fn rmdir(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; do p.with_c_str |buf| { unsafe { libc::rmdir(buf) == (0 as c_int) } } } } /// Changes the current working directory to the specified path, returning /// whether the change was completed successfully or not. pub fn change_dir(p: &Path) -> bool { return chdir(p); #[cfg(windows)] fn chdir(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { use os::win32::as_utf16_p; return do as_utf16_p(p.as_str().unwrap()) |buf| { libc::SetCurrentDirectoryW(buf) != (0 as libc::BOOL) }; } } #[cfg(unix)] fn chdir(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; do p.with_c_str |buf| { unsafe { libc::chdir(buf) == (0 as c_int) } } } } /// Copies a file from one location to another pub fn copy_file(from: &Path, to: &Path) -> bool { return do_copy_file(from, to); #[cfg(windows)] fn do_copy_file(from: &Path, to: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { use os::win32::as_utf16_p; return do as_utf16_p(from.as_str().unwrap()) |fromp| { do as_utf16_p(to.as_str().unwrap()) |top| { libc::CopyFileW(fromp, top, (0 as libc::BOOL)) != (0 as libc::BOOL) } } } } #[cfg(unix)] fn do_copy_file(from: &Path, to: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { let istream = do from.with_c_str |fromp| { do "rb".with_c_str |modebuf| { libc::fopen(fromp, modebuf) } }; if istream as uint == 0u { return false; } // Preserve permissions let from_mode = from.get_mode().expect("copy_file: couldn't get permissions \ for source file"); let ostream = do to.with_c_str |top| { do "w+b".with_c_str |modebuf| { libc::fopen(top, modebuf) } }; if ostream as uint == 0u { fclose(istream); return false; } let bufsize = 8192u; let mut buf = vec::with_capacity::(bufsize); let mut done = false; let mut ok = true; while !done { do buf.as_mut_buf |b, _sz| { let nread = libc::fread(b as *mut c_void, 1u as size_t, bufsize as size_t, istream); if nread > 0 as size_t { if libc::fwrite(b as *c_void, 1u as size_t, nread, ostream) != nread { ok = false; done = true; } } else { done = true; } } } fclose(istream); fclose(ostream); // Give the new file the old file's permissions if do to.with_c_str |to_buf| { libc::chmod(to_buf, from_mode as libc::mode_t) } != 0 { return false; // should be a condition... } return ok; } } } /// Deletes an existing file pub fn remove_file(p: &Path) -> bool { return unlink(p); #[cfg(windows)] fn unlink(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { use os::win32::as_utf16_p; return do as_utf16_p(p.as_str().unwrap()) |buf| { libc::DeleteFileW(buf) != (0 as libc::BOOL) }; } } #[cfg(unix)] fn unlink(p: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { do p.with_c_str |buf| { libc::unlink(buf) == (0 as c_int) } } } } /// Renames an existing file or directory pub fn rename_file(old: &Path, new: &Path) -> bool { #[fixed_stack_segment]; #[inline(never)]; unsafe { do old.with_c_str |old_buf| { do new.with_c_str |new_buf| { libc::rename(old_buf, new_buf) == (0 as c_int) } } } } #[cfg(unix)] /// Returns the platform-specific value of errno pub fn errno() -> int { #[cfg(target_os = "macos")] #[cfg(target_os = "freebsd")] fn errno_location() -> *c_int { #[fixed_stack_segment]; #[inline(never)]; #[nolink] extern { fn __error() -> *c_int; } unsafe { __error() } } #[cfg(target_os = "linux")] #[cfg(target_os = "android")] fn errno_location() -> *c_int { #[fixed_stack_segment]; #[inline(never)]; #[nolink] extern { fn __errno_location() -> *c_int; } unsafe { __errno_location() } } unsafe { (*errno_location()) as int } } #[cfg(windows)] /// Returns the platform-specific value of errno pub fn errno() -> uint { #[fixed_stack_segment]; #[inline(never)]; use libc::types::os::arch::extra::DWORD; #[cfg(target_arch = "x86")] #[link_name = "kernel32"] extern "stdcall" { fn GetLastError() -> DWORD; } #[cfg(target_arch = "x86_64")] #[link_name = "kernel32"] extern { fn GetLastError() -> DWORD; } unsafe { GetLastError() as uint } } /// Get a string representing the platform-dependent last error pub fn last_os_error() -> ~str { #[cfg(unix)] fn strerror() -> ~str { #[cfg(target_os = "macos")] #[cfg(target_os = "android")] #[cfg(target_os = "freebsd")] fn strerror_r(errnum: c_int, buf: *mut c_char, buflen: size_t) -> c_int { #[fixed_stack_segment]; #[inline(never)]; #[nolink] extern { fn strerror_r(errnum: c_int, buf: *mut c_char, buflen: size_t) -> c_int; } unsafe { strerror_r(errnum, buf, buflen) } } // GNU libc provides a non-compliant version of strerror_r by default // and requires macros to instead use the POSIX compliant variant. // So we just use __xpg_strerror_r which is always POSIX compliant #[cfg(target_os = "linux")] fn strerror_r(errnum: c_int, buf: *mut c_char, buflen: size_t) -> c_int { #[fixed_stack_segment]; #[inline(never)]; #[nolink] extern { fn __xpg_strerror_r(errnum: c_int, buf: *mut c_char, buflen: size_t) -> c_int; } unsafe { __xpg_strerror_r(errnum, buf, buflen) } } let mut buf = [0 as c_char, ..TMPBUF_SZ]; do buf.as_mut_buf |buf, len| { unsafe { if strerror_r(errno() as c_int, buf, len as size_t) < 0 { fail!("strerror_r failure"); } str::raw::from_c_str(buf as *c_char) } } } #[cfg(windows)] fn strerror() -> ~str { #[fixed_stack_segment]; #[inline(never)]; use libc::types::os::arch::extra::DWORD; use libc::types::os::arch::extra::LPWSTR; use libc::types::os::arch::extra::LPVOID; use libc::types::os::arch::extra::WCHAR; #[cfg(target_arch = "x86")] #[link_name = "kernel32"] extern "stdcall" { fn FormatMessageW(flags: DWORD, lpSrc: LPVOID, msgId: DWORD, langId: DWORD, buf: LPWSTR, nsize: DWORD, args: *c_void) -> DWORD; } #[cfg(target_arch = "x86_64")] #[link_name = "kernel32"] extern { fn FormatMessageW(flags: DWORD, lpSrc: LPVOID, msgId: DWORD, langId: DWORD, buf: LPWSTR, nsize: DWORD, args: *c_void) -> DWORD; } static FORMAT_MESSAGE_FROM_SYSTEM: DWORD = 0x00001000; static FORMAT_MESSAGE_IGNORE_INSERTS: DWORD = 0x00000200; // This value is calculated from the macro // MAKELANGID(LANG_SYSTEM_DEFAULT, SUBLANG_SYS_DEFAULT) let langId = 0x0800 as DWORD; let err = errno() as DWORD; let mut buf = [0 as WCHAR, ..TMPBUF_SZ]; unsafe { do buf.as_mut_buf |buf, len| { let res = FormatMessageW(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, ptr::mut_null(), err, langId, buf, len as DWORD, ptr::null()); if res == 0 { fail!("[{}] FormatMessage failure", errno()); } } str::from_utf16(buf) } } strerror() } /** * Sets the process exit code * * Sets the exit code returned by the process if all supervised tasks * terminate successfully (without failing). If the current root task fails * and is supervised by the scheduler then any user-specified exit status is * ignored and the process exits with the default failure status */ pub fn set_exit_status(code: int) { use rt; rt::set_exit_status(code); } unsafe fn load_argc_and_argv(argc: c_int, argv: **c_char) -> ~[~str] { let mut args = ~[]; for i in range(0u, argc as uint) { args.push(str::raw::from_c_str(*argv.offset(i as int))); } args } /** * Returns the command line arguments * * Returns a list of the command line arguments. */ #[cfg(target_os = "macos")] fn real_args() -> ~[~str] { #[fixed_stack_segment]; #[inline(never)]; unsafe { let (argc, argv) = (*_NSGetArgc() as c_int, *_NSGetArgv() as **c_char); load_argc_and_argv(argc, argv) } } #[cfg(target_os = "linux")] #[cfg(target_os = "android")] #[cfg(target_os = "freebsd")] fn real_args() -> ~[~str] { use rt; match rt::args::clone() { Some(args) => args, None => fail!("process arguments not initialized") } } #[cfg(windows)] fn real_args() -> ~[~str] { #[fixed_stack_segment]; #[inline(never)]; let mut nArgs: c_int = 0; let lpArgCount: *mut c_int = &mut nArgs; let lpCmdLine = unsafe { GetCommandLineW() }; let szArgList = unsafe { CommandLineToArgvW(lpCmdLine, lpArgCount) }; let mut args = ~[]; for i in range(0u, nArgs as uint) { unsafe { // Determine the length of this argument. let ptr = *szArgList.offset(i as int); let mut len = 0; while *ptr.offset(len as int) != 0 { len += 1; } // Push it onto the list. args.push(vec::raw::buf_as_slice(ptr, len, str::from_utf16)); } } unsafe { LocalFree(szArgList as *c_void); } return args; } type LPCWSTR = *u16; #[cfg(windows, target_arch = "x86")] #[link_name="kernel32"] #[abi="stdcall"] extern "stdcall" { fn GetCommandLineW() -> LPCWSTR; fn LocalFree(ptr: *c_void); } #[cfg(windows, target_arch = "x86_64")] #[link_name="kernel32"] extern { fn GetCommandLineW() -> LPCWSTR; fn LocalFree(ptr: *c_void); } #[cfg(windows, target_arch = "x86")] #[link_name="shell32"] #[abi="stdcall"] extern "stdcall" { fn CommandLineToArgvW(lpCmdLine: LPCWSTR, pNumArgs: *mut c_int) -> **u16; } #[cfg(windows, target_arch = "x86_64")] #[link_name="shell32"] extern { fn CommandLineToArgvW(lpCmdLine: LPCWSTR, pNumArgs: *mut c_int) -> **u16; } struct OverriddenArgs { val: ~[~str] } /// Returns the arguments which this program was started with (normally passed /// via the command line). pub fn args() -> ~[~str] { real_args() } #[cfg(target_os = "macos")] extern { // These functions are in crt_externs.h. pub fn _NSGetArgc() -> *c_int; pub fn _NSGetArgv() -> ***c_char; } // Round up `from` to be divisible by `to` fn round_up(from: uint, to: uint) -> uint { let r = if from % to == 0 { from } else { from + to - (from % to) }; if r == 0 { to } else { r } } #[cfg(unix)] pub fn page_size() -> uint { #[fixed_stack_segment]; #[inline(never)]; unsafe { libc::sysconf(libc::_SC_PAGESIZE) as uint } } #[cfg(windows)] pub fn page_size() -> uint { #[fixed_stack_segment]; #[inline(never)]; unsafe { let mut info = libc::SYSTEM_INFO::new(); libc::GetSystemInfo(&mut info); return info.dwPageSize as uint; } } pub struct MemoryMap { data: *mut u8, len: size_t, kind: MemoryMapKind } pub enum MemoryMapKind { MapFile(*c_void), MapVirtual } pub enum MapOption { MapReadable, MapWritable, MapExecutable, MapAddr(*c_void), MapFd(c_int), MapOffset(uint) } pub enum MapError { // Linux-specific errors ErrFdNotAvail, ErrInvalidFd, ErrUnaligned, ErrNoMapSupport, ErrNoMem, ErrUnknown(libc::c_int), // Windows-specific errors ErrUnsupProt, ErrUnsupOffset, ErrAlreadyExists, ErrVirtualAlloc(uint), ErrCreateFileMappingW(uint), ErrMapViewOfFile(uint) } impl to_str::ToStr for MapError { fn to_str(&self) -> ~str { match *self { ErrFdNotAvail => ~"fd not available for reading or writing", ErrInvalidFd => ~"Invalid fd", ErrUnaligned => ~"Unaligned address, invalid flags, \ negative length or unaligned offset", ErrNoMapSupport=> ~"File doesn't support mapping", ErrNoMem => ~"Invalid address, or not enough available memory", ErrUnknown(code) => format!("Unknown error={}", code), ErrUnsupProt => ~"Protection mode unsupported", ErrUnsupOffset => ~"Offset in virtual memory mode is unsupported", ErrAlreadyExists => ~"File mapping for specified file already exists", ErrVirtualAlloc(code) => format!("VirtualAlloc failure={}", code), ErrCreateFileMappingW(code) => format!("CreateFileMappingW failure={}", code), ErrMapViewOfFile(code) => format!("MapViewOfFile failure={}", code) } } } #[cfg(unix)] impl MemoryMap { pub fn new(min_len: uint, options: &[MapOption]) -> Result { #[fixed_stack_segment]; #[inline(never)]; use libc::off_t; let mut addr: *c_void = ptr::null(); let mut prot: c_int = 0; let mut flags: c_int = libc::MAP_PRIVATE; let mut fd: c_int = -1; let mut offset: off_t = 0; let len = round_up(min_len, page_size()) as size_t; for &o in options.iter() { match o { MapReadable => { prot |= libc::PROT_READ; }, MapWritable => { prot |= libc::PROT_WRITE; }, MapExecutable => { prot |= libc::PROT_EXEC; }, MapAddr(addr_) => { flags |= libc::MAP_FIXED; addr = addr_; }, MapFd(fd_) => { flags |= libc::MAP_FILE; fd = fd_; }, MapOffset(offset_) => { offset = offset_ as off_t; } } } if fd == -1 { flags |= libc::MAP_ANON; } let r = unsafe { libc::mmap(addr, len, prot, flags, fd, offset) }; if r.equiv(&libc::MAP_FAILED) { Err(match errno() as c_int { libc::EACCES => ErrFdNotAvail, libc::EBADF => ErrInvalidFd, libc::EINVAL => ErrUnaligned, libc::ENODEV => ErrNoMapSupport, libc::ENOMEM => ErrNoMem, code => ErrUnknown(code) }) } else { Ok(MemoryMap { data: r as *mut u8, len: len, kind: if fd == -1 { MapVirtual } else { MapFile(ptr::null()) } }) } } pub fn granularity() -> uint { page_size() } } #[cfg(unix)] impl Drop for MemoryMap { fn drop(&mut self) { #[fixed_stack_segment]; #[inline(never)]; unsafe { match libc::munmap(self.data as *c_void, self.len) { 0 => (), -1 => match errno() as c_int { libc::EINVAL => error!("invalid addr or len"), e => error!("unknown errno={}", e) }, r => error!("Unexpected result {}", r) } } } } #[cfg(windows)] impl MemoryMap { pub fn new(min_len: uint, options: &[MapOption]) -> Result { #[fixed_stack_segment]; #[inline(never)]; use libc::types::os::arch::extra::{LPVOID, DWORD, SIZE_T, HANDLE}; let mut lpAddress: LPVOID = ptr::mut_null(); let mut readable = false; let mut writable = false; let mut executable = false; let mut fd: c_int = -1; let mut offset: uint = 0; let len = round_up(min_len, page_size()) as SIZE_T; for &o in options.iter() { match o { MapReadable => { readable = true; }, MapWritable => { writable = true; }, MapExecutable => { executable = true; } MapAddr(addr_) => { lpAddress = addr_ as LPVOID; }, MapFd(fd_) => { fd = fd_; }, MapOffset(offset_) => { offset = offset_; } } } let flProtect = match (executable, readable, writable) { (false, false, false) if fd == -1 => libc::PAGE_NOACCESS, (false, true, false) => libc::PAGE_READONLY, (false, true, true) => libc::PAGE_READWRITE, (true, false, false) if fd == -1 => libc::PAGE_EXECUTE, (true, true, false) => libc::PAGE_EXECUTE_READ, (true, true, true) => libc::PAGE_EXECUTE_READWRITE, _ => return Err(ErrUnsupProt) }; if fd == -1 { if offset != 0 { return Err(ErrUnsupOffset); } let r = unsafe { libc::VirtualAlloc(lpAddress, len, libc::MEM_COMMIT | libc::MEM_RESERVE, flProtect) }; match r as uint { 0 => Err(ErrVirtualAlloc(errno())), _ => Ok(MemoryMap { data: r as *mut u8, len: len, kind: MapVirtual }) } } else { let dwDesiredAccess = match (executable, readable, writable) { (false, true, false) => libc::FILE_MAP_READ, (false, true, true) => libc::FILE_MAP_WRITE, (true, true, false) => libc::FILE_MAP_READ | libc::FILE_MAP_EXECUTE, (true, true, true) => libc::FILE_MAP_WRITE | libc::FILE_MAP_EXECUTE, _ => return Err(ErrUnsupProt) // Actually, because of the check above, // we should never get here. }; unsafe { let hFile = libc::get_osfhandle(fd) as HANDLE; let mapping = libc::CreateFileMappingW(hFile, ptr::mut_null(), flProtect, 0, 0, ptr::null()); if mapping == ptr::mut_null() { return Err(ErrCreateFileMappingW(errno())); } if errno() as c_int == libc::ERROR_ALREADY_EXISTS { return Err(ErrAlreadyExists); } let r = libc::MapViewOfFile(mapping, dwDesiredAccess, ((len as u64) >> 32) as DWORD, (offset & 0xffff_ffff) as DWORD, 0); match r as uint { 0 => Err(ErrMapViewOfFile(errno())), _ => Ok(MemoryMap { data: r as *mut u8, len: len, kind: MapFile(mapping as *c_void) }) } } } } /// Granularity of MapAddr() and MapOffset() parameter values. /// This may be greater than the value returned by page_size(). pub fn granularity() -> uint { #[fixed_stack_segment]; #[inline(never)]; unsafe { let mut info = libc::SYSTEM_INFO::new(); libc::GetSystemInfo(&mut info); return info.dwAllocationGranularity as uint; } } } #[cfg(windows)] impl Drop for MemoryMap { fn drop(&mut self) { #[fixed_stack_segment]; #[inline(never)]; use libc::types::os::arch::extra::{LPCVOID, HANDLE}; use libc::consts::os::extra::FALSE; unsafe { match self.kind { MapVirtual => { if libc::VirtualFree(self.data as *mut c_void, self.len, libc::MEM_RELEASE) == FALSE { error!("VirtualFree failed: {}", errno()); } }, MapFile(mapping) => { if libc::UnmapViewOfFile(self.data as LPCVOID) == FALSE { error!("UnmapViewOfFile failed: {}", errno()); } if libc::CloseHandle(mapping as HANDLE) == FALSE { error!("CloseHandle failed: {}", errno()); } } } } } } pub mod consts { #[cfg(unix)] pub use os::consts::unix::*; #[cfg(windows)] pub use os::consts::windows::*; #[cfg(target_os = "macos")] pub use os::consts::macos::*; #[cfg(target_os = "freebsd")] pub use os::consts::freebsd::*; #[cfg(target_os = "linux")] pub use os::consts::linux::*; #[cfg(target_os = "android")] pub use os::consts::android::*; #[cfg(target_os = "win32")] pub use os::consts::win32::*; #[cfg(target_arch = "x86")] pub use os::consts::x86::*; #[cfg(target_arch = "x86_64")] pub use os::consts::x86_64::*; #[cfg(target_arch = "arm")] pub use os::consts::arm::*; #[cfg(target_arch = "mips")] pub use os::consts::mips::*; pub mod unix { pub static FAMILY: &'static str = "unix"; } pub mod windows { pub static FAMILY: &'static str = "windows"; } pub mod macos { pub static SYSNAME: &'static str = "macos"; pub static DLL_PREFIX: &'static str = "lib"; pub static DLL_SUFFIX: &'static str = ".dylib"; pub static DLL_EXTENSION: &'static str = "dylib"; pub static EXE_SUFFIX: &'static str = ""; pub static EXE_EXTENSION: &'static str = ""; } pub mod freebsd { pub static SYSNAME: &'static str = "freebsd"; pub static DLL_PREFIX: &'static str = "lib"; pub static DLL_SUFFIX: &'static str = ".so"; pub static DLL_EXTENSION: &'static str = "so"; pub static EXE_SUFFIX: &'static str = ""; pub static EXE_EXTENSION: &'static str = ""; } pub mod linux { pub static SYSNAME: &'static str = "linux"; pub static DLL_PREFIX: &'static str = "lib"; pub static DLL_SUFFIX: &'static str = ".so"; pub static DLL_EXTENSION: &'static str = "so"; pub static EXE_SUFFIX: &'static str = ""; pub static EXE_EXTENSION: &'static str = ""; } pub mod android { pub static SYSNAME: &'static str = "android"; pub static DLL_PREFIX: &'static str = "lib"; pub static DLL_SUFFIX: &'static str = ".so"; pub static DLL_EXTENSION: &'static str = "so"; pub static EXE_SUFFIX: &'static str = ""; pub static EXE_EXTENSION: &'static str = ""; } pub mod win32 { pub static SYSNAME: &'static str = "win32"; pub static DLL_PREFIX: &'static str = ""; pub static DLL_SUFFIX: &'static str = ".dll"; pub static DLL_EXTENSION: &'static str = "dll"; pub static EXE_SUFFIX: &'static str = ".exe"; pub static EXE_EXTENSION: &'static str = "exe"; } pub mod x86 { pub static ARCH: &'static str = "x86"; } pub mod x86_64 { pub static ARCH: &'static str = "x86_64"; } pub mod arm { pub static ARCH: &'static str = "arm"; } pub mod mips { pub static ARCH: &'static str = "mips"; } } #[cfg(test)] mod tests { use c_str::ToCStr; use libc::{c_int, c_void, size_t}; use libc; use option::Some; use option; use os::{env, getcwd, getenv, make_absolute, args}; use os::{remove_file, setenv, unsetenv}; use os; use path::Path; use rand::Rng; use rand; use run; use str::StrSlice; use libc::consts::os::posix88::{S_IRUSR, S_IWUSR, S_IXUSR}; #[test] pub fn last_os_error() { debug!("{}", os::last_os_error()); } #[test] pub fn test_args() { let a = args(); assert!(a.len() >= 1); } fn make_rand_name() -> ~str { let mut rng = rand::rng(); let n = ~"TEST" + rng.gen_ascii_str(10u); assert!(getenv(n).is_none()); n } #[test] fn test_setenv() { let n = make_rand_name(); setenv(n, "VALUE"); assert_eq!(getenv(n), option::Some(~"VALUE")); } #[test] fn test_unsetenv() { let n = make_rand_name(); setenv(n, "VALUE"); unsetenv(n); assert_eq!(getenv(n), option::None); } #[test] #[ignore] fn test_setenv_overwrite() { let n = make_rand_name(); setenv(n, "1"); setenv(n, "2"); assert_eq!(getenv(n), option::Some(~"2")); setenv(n, ""); assert_eq!(getenv(n), option::Some(~"")); } // Windows GetEnvironmentVariable requires some extra work to make sure // the buffer the variable is copied into is the right size #[test] #[ignore] fn test_getenv_big() { let mut s = ~""; let mut i = 0; while i < 100 { s = s + "aaaaaaaaaa"; i += 1; } let n = make_rand_name(); setenv(n, s); debug!("{}", s.clone()); assert_eq!(getenv(n), option::Some(s)); } #[test] fn test_self_exe_path() { let path = os::self_exe_path(); assert!(path.is_some()); let path = path.unwrap(); debug!("{:?}", path.clone()); // Hard to test this function assert!(path.is_absolute()); } #[test] #[ignore] fn test_env_getenv() { let e = env(); assert!(e.len() > 0u); for p in e.iter() { let (n, v) = (*p).clone(); debug!("{:?}", n.clone()); let v2 = getenv(n); // MingW seems to set some funky environment variables like // "=C:=C:\MinGW\msys\1.0\bin" and "!::=::\" that are returned // from env() but not visible from getenv(). assert!(v2.is_none() || v2 == option::Some(v)); } } #[test] fn test_env_setenv() { let n = make_rand_name(); let mut e = env(); setenv(n, "VALUE"); assert!(!e.contains(&(n.clone(), ~"VALUE"))); e = env(); assert!(e.contains(&(n, ~"VALUE"))); } #[test] fn test() { assert!((!Path::new("test-path").is_absolute())); let cwd = getcwd(); debug!("Current working directory: {}", cwd.display()); debug!("{:?}", make_absolute(&Path::new("test-path"))); debug!("{:?}", make_absolute(&Path::new("/usr/bin"))); } #[test] #[cfg(unix)] fn homedir() { let oldhome = getenv("HOME"); setenv("HOME", "/home/MountainView"); assert_eq!(os::homedir(), Some(Path::new("/home/MountainView"))); setenv("HOME", ""); assert!(os::homedir().is_none()); for s in oldhome.iter() { setenv("HOME", *s) } } #[test] #[cfg(windows)] fn homedir() { let oldhome = getenv("HOME"); let olduserprofile = getenv("USERPROFILE"); setenv("HOME", ""); setenv("USERPROFILE", ""); assert!(os::homedir().is_none()); setenv("HOME", "/home/MountainView"); assert_eq!(os::homedir(), Some(Path::new("/home/MountainView"))); setenv("HOME", ""); setenv("USERPROFILE", "/home/MountainView"); assert_eq!(os::homedir(), Some(Path::new("/home/MountainView"))); setenv("HOME", "/home/MountainView"); setenv("USERPROFILE", "/home/PaloAlto"); assert_eq!(os::homedir(), Some(Path::new("/home/MountainView"))); for s in oldhome.iter() { setenv("HOME", *s) } for s in olduserprofile.iter() { setenv("USERPROFILE", *s) } } #[test] fn tmpdir() { let p = os::tmpdir(); let s = p.as_str(); assert!(s.is_some() && s.unwrap() != "."); } // Issue #712 #[test] fn test_list_dir_no_invalid_memory_access() { os::list_dir(&Path::new(".")); } #[test] fn list_dir() { let dirs = os::list_dir(&Path::new(".")); // Just assuming that we've got some contents in the current directory assert!(dirs.len() > 0u); for dir in dirs.iter() { debug!("{:?}", (*dir).clone()); } } #[test] #[cfg(not(windows))] fn list_dir_root() { let dirs = os::list_dir(&Path::new("/")); assert!(dirs.len() > 1); } #[test] #[cfg(windows)] fn list_dir_root() { let dirs = os::list_dir(&Path::new("C:\\")); assert!(dirs.len() > 1); } #[test] fn path_is_dir() { use rt::io::file::open; use rt::io::{OpenOrCreate, Read}; assert!((os::path_is_dir(&Path::new(".")))); assert!((!os::path_is_dir(&Path::new("test/stdtest/fs.rs")))); let mut dirpath = os::tmpdir(); dirpath.push(format!("rust-test-{}/test-\uac00\u4e00\u30fc\u4f60\u597d", rand::random::())); // 가一ー你好 debug!("path_is_dir dirpath: {}", dirpath.display()); let mkdir_result = os::mkdir_recursive(&dirpath, (S_IRUSR | S_IWUSR | S_IXUSR) as i32); debug!("path_is_dir mkdir_result: {}", mkdir_result); assert!((os::path_is_dir(&dirpath))); let mut filepath = dirpath; filepath.push("unicode-file-\uac00\u4e00\u30fc\u4f60\u597d.rs"); debug!("path_is_dir filepath: {}", filepath.display()); open(&filepath, OpenOrCreate, Read); // ignore return; touch only assert!((!os::path_is_dir(&filepath))); assert!((!os::path_is_dir(&Path::new( "test/unicode-bogus-dir-\uac00\u4e00\u30fc\u4f60\u597d")))); } #[test] fn path_exists() { assert!((os::path_exists(&Path::new(".")))); assert!((!os::path_exists(&Path::new( "test/nonexistent-bogus-path")))); let mut dirpath = os::tmpdir(); dirpath.push(format!("rust-test-{}/test-\uac01\u4e01\u30fc\u518d\u89c1", rand::random::())); // 각丁ー再见 os::mkdir_recursive(&dirpath, (S_IRUSR | S_IWUSR | S_IXUSR) as i32); assert!((os::path_exists(&dirpath))); assert!((!os::path_exists(&Path::new( "test/unicode-bogus-path-\uac01\u4e01\u30fc\u518d\u89c1")))); } #[test] fn copy_file_does_not_exist() { assert!(!os::copy_file(&Path::new("test/nonexistent-bogus-path"), &Path::new("test/other-bogus-path"))); assert!(!os::path_exists(&Path::new("test/other-bogus-path"))); } #[test] fn copy_file_ok() { #[fixed_stack_segment]; #[inline(never)]; unsafe { let tempdir = getcwd(); // would like to use $TMPDIR, // doesn't seem to work on Linux let input = tempdir.join("in.txt"); let out = tempdir.join("out.txt"); /* Write the temp input file */ let ostream = do input.with_c_str |fromp| { do "w+b".with_c_str |modebuf| { libc::fopen(fromp, modebuf) } }; assert!((ostream as uint != 0u)); let s = ~"hello"; do "hello".with_c_str |buf| { let write_len = libc::fwrite(buf as *c_void, 1u as size_t, (s.len() + 1u) as size_t, ostream); assert_eq!(write_len, (s.len() + 1) as size_t) } assert_eq!(libc::fclose(ostream), (0u as c_int)); let in_mode = input.get_mode(); let rs = os::copy_file(&input, &out); if (!os::path_exists(&input)) { fail!("{} doesn't exist", input.display()); } assert!((rs)); // FIXME (#9639): This needs to handle non-utf8 paths let rslt = run::process_status("diff", [input.as_str().unwrap().to_owned(), out.as_str().unwrap().to_owned()]); assert_eq!(rslt, 0); assert_eq!(out.get_mode(), in_mode); assert!((remove_file(&input))); assert!((remove_file(&out))); } } #[test] fn recursive_mkdir_slash() { let path = Path::new("/"); assert!(os::mkdir_recursive(&path, (S_IRUSR | S_IWUSR | S_IXUSR) as i32)); } #[test] fn memory_map_rw() { use result::{Ok, Err}; let chunk = match os::MemoryMap::new(16, [ os::MapReadable, os::MapWritable ]) { Ok(chunk) => chunk, Err(msg) => fail!(msg.to_str()) }; assert!(chunk.len >= 16); unsafe { *chunk.data = 0xBE; assert!(*chunk.data == 0xBE); } } #[test] fn memory_map_file() { #[fixed_stack_segment]; #[inline(never)]; use result::{Ok, Err}; use os::*; use libc::*; #[cfg(unix)] #[fixed_stack_segment] #[inline(never)] fn lseek_(fd: c_int, size: uint) { unsafe { assert!(lseek(fd, size as off_t, SEEK_SET) == size as off_t); } } #[cfg(windows)] #[fixed_stack_segment] #[inline(never)] fn lseek_(fd: c_int, size: uint) { unsafe { assert!(lseek(fd, size as c_long, SEEK_SET) == size as c_long); } } let mut path = tmpdir(); path.push("mmap_file.tmp"); let size = MemoryMap::granularity() * 2; remove_file(&path); let fd = unsafe { let fd = do path.with_c_str |path| { open(path, O_CREAT | O_RDWR | O_TRUNC, S_IRUSR | S_IWUSR) }; lseek_(fd, size); do "x".with_c_str |x| { assert!(write(fd, x as *c_void, 1) == 1); } fd }; let chunk = match MemoryMap::new(size / 2, [ MapReadable, MapWritable, MapFd(fd), MapOffset(size / 2) ]) { Ok(chunk) => chunk, Err(msg) => fail!(msg.to_str()) }; assert!(chunk.len > 0); unsafe { *chunk.data = 0xbe; assert!(*chunk.data == 0xbe); close(fd); } } // More recursive_mkdir tests are in extra::tempfile }