rust/src/libstd/os.rs

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// 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, 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)];
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use clone::Clone;
use container::Container;
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#[cfg(target_os = "macos")]
use iter::range;
use libc;
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use libc::{c_char, c_void, c_int};
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use option::{Some, None};
use os;
use prelude::*;
use ptr;
use str;
use fmt;
use unstable::finally::Finally;
use sync::atomics::{AtomicInt, INIT_ATOMIC_INT, SeqCst};
/// Delegates to the libc close() function, returning the same return value.
pub fn close(fd: int) -> int {
unsafe {
libc::close(fd as c_int) as int
}
}
pub static TMPBUF_SZ : uint = 1000u;
static BUF_BYTES : uint = 2048u;
#[cfg(unix)]
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pub fn getcwd() -> Path {
use c_str::CString;
let mut buf = [0 as c_char, ..BUF_BYTES];
unsafe {
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if libc::getcwd(buf.as_mut_ptr(), buf.len() as libc::size_t).is_null() {
fail!()
}
Path::new(CString::new(buf.as_ptr(), false))
}
}
#[cfg(windows)]
pub fn getcwd() -> Path {
use libc::DWORD;
use libc::GetCurrentDirectoryW;
let mut buf = [0 as u16, ..BUF_BYTES];
unsafe {
if libc::GetCurrentDirectoryW(buf.len() as DWORD, buf.as_mut_ptr()) == 0 as DWORD {
fail!();
}
}
Path::new(str::from_utf16(buf))
}
#[cfg(windows)]
pub mod win32 {
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use libc::types::os::arch::extra::DWORD;
use libc;
use option::{None, Option};
use option;
use os::TMPBUF_SZ;
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use str::StrSlice;
use str;
use vec::{MutableVector, ImmutableVector, OwnedVector};
use vec;
pub fn fill_utf16_buf_and_decode(f: |*mut u16, DWORD| -> DWORD)
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-> Option<~str> {
unsafe {
let mut n = TMPBUF_SZ as DWORD;
let mut res = None;
let mut done = false;
while !done {
let mut buf = vec::from_elem(n as uint, 0u16);
let k = f(buf.as_mut_ptr(), TMPBUF_SZ as DWORD);
if k == (0 as DWORD) {
done = true;
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} 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<T>(s: &str, f: |*u16| -> T) -> T {
let mut t = s.to_utf16();
// Null terminate before passing on.
t.push(0u16);
f(t.as_ptr())
}
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}
/*
Accessing environment variables is not generally threadsafe.
Serialize access through a global lock.
*/
fn with_env_lock<T>(f: || -> T) -> T {
use unstable::mutex::{Mutex, MUTEX_INIT};
use unstable::finally::Finally;
static mut lock: Mutex = MUTEX_INIT;
unsafe {
return (|| {
lock.lock();
f()
}).finally(|| lock.unlock());
}
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}
/// 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] {
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use c_str;
use str::StrSlice;
use libc::funcs::extra::kernel32::{
GetEnvironmentStringsA,
FreeEnvironmentStringsA
};
let ch = GetEnvironmentStringsA();
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if ch as uint == 0 {
fail!("os::env() failure getting env string from OS: {}",
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os::last_os_error());
}
let mut result = ~[];
c_str::from_c_multistring(ch as *c_char, None, |cstr| {
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result.push(cstr.as_str().unwrap().to_owned());
});
FreeEnvironmentStringsA(ch);
result
}
#[cfg(unix)]
unsafe fn get_env_pairs() -> ~[~str] {
extern {
fn rust_env_pairs() -> **c_char;
}
let environ = rust_env_pairs();
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if environ as uint == 0 {
fail!("os::env() failure getting env string from OS: {}",
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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('=', 1).collect();
debug!("splitting: len: {}", vs.len());
assert_eq!(vs.len(), 2);
pairs.push((vs[0].to_owned(), vs[1].to_owned()));
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}
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pairs
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}
with_env_lock(|| {
let unparsed_environ = get_env_pairs();
env_convert(unparsed_environ)
})
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}
}
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#[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> {
unsafe {
with_env_lock(|| {
let s = n.with_c_str(|buf| libc::getenv(buf));
if s.is_null() {
None
} else {
Some(str::raw::from_c_str(s))
}
})
}
}
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#[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> {
unsafe {
with_env_lock(|| {
use os::win32::{as_utf16_p, fill_utf16_buf_and_decode};
as_utf16_p(n, |u| {
fill_utf16_buf_and_decode(|buf, sz| {
libc::GetEnvironmentVariableW(u, buf, sz)
})
})
})
}
}
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#[cfg(unix)]
/// Sets the environment variable `n` to the value `v` for the currently running
/// process
pub fn setenv(n: &str, v: &str) {
unsafe {
with_env_lock(|| {
n.with_c_str(|nbuf| {
v.with_c_str(|vbuf| {
libc::funcs::posix01::unistd::setenv(nbuf, vbuf, 1);
})
})
})
}
}
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#[cfg(windows)]
/// Sets the environment variable `n` to the value `v` for the currently running
/// process
pub fn setenv(n: &str, v: &str) {
unsafe {
with_env_lock(|| {
use os::win32::as_utf16_p;
as_utf16_p(n, |nbuf| {
as_utf16_p(v, |vbuf| {
libc::SetEnvironmentVariableW(nbuf, vbuf);
})
})
})
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}
}
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/// Remove a variable from the environment entirely
pub fn unsetenv(n: &str) {
#[cfg(unix)]
fn _unsetenv(n: &str) {
unsafe {
with_env_lock(|| {
n.with_c_str(|nbuf| {
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libc::funcs::posix01::unistd::unsetenv(nbuf);
})
})
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}
}
#[cfg(windows)]
fn _unsetenv(n: &str) {
unsafe {
with_env_lock(|| {
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use os::win32::as_utf16_p;
as_utf16_p(n, |nbuf| {
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libc::SetEnvironmentVariableW(nbuf, ptr::null());
})
})
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}
}
_unsetenv(n);
}
pub struct Pipe {
input: c_int,
out: c_int
}
#[cfg(unix)]
pub fn pipe() -> Pipe {
unsafe {
let mut fds = Pipe {input: 0,
out: 0};
assert_eq!(libc::pipe(&mut fds.input), 0);
return Pipe {input: fds.input, out: fds.out};
}
}
#[cfg(windows)]
pub fn pipe() -> Pipe {
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,
out: 0};
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);
assert!((fds.input != -1 && fds.input != 0 ));
assert!((fds.out != -1 && fds.input != 0));
return Pipe {input: fds.input, out: fds.out};
}
}
/// Returns the proper dll filename for the given basename of a file.
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pub fn dll_filename(base: &str) -> ~str {
format!("{}{}{}", consts::DLL_PREFIX, base, consts::DLL_SUFFIX)
}
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/// Optionally returns the filesystem path of the current executable which is
/// running. If any failure occurs, None is returned.
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pub fn self_exe_name() -> Option<Path> {
#[cfg(target_os = "freebsd")]
fn load_self() -> Option<~[u8]> {
unsafe {
use libc::funcs::bsd44::*;
use libc::consts::os::extra::*;
use vec;
let mib = ~[CTL_KERN as c_int,
KERN_PROC as c_int,
KERN_PROC_PATHNAME as c_int, -1 as c_int];
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let mut sz: libc::size_t = 0;
let err = sysctl(mib.as_ptr(), mib.len() as ::libc::c_uint,
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ptr::mut_null(), &mut sz, ptr::null(),
0u as libc::size_t);
if err != 0 { return None; }
if sz == 0 { return None; }
let mut v: ~[u8] = vec::with_capacity(sz as uint);
let err = sysctl(mib.as_ptr(), mib.len() as ::libc::c_uint,
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v.as_mut_ptr() as *mut c_void, &mut sz, ptr::null(),
0u as libc::size_t);
if err != 0 { return None; }
if sz == 0 { return None; }
v.set_len(sz as uint - 1); // chop off trailing NUL
Some(v)
}
}
#[cfg(target_os = "linux")]
#[cfg(target_os = "android")]
fn load_self() -> Option<~[u8]> {
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use std::io;
match io::fs::readlink(&Path::new("/proc/self/exe")) {
Ok(path) => Some(path.as_vec().to_owned()),
Err(..) => None
}
}
#[cfg(target_os = "macos")]
fn load_self() -> Option<~[u8]> {
unsafe {
use libc::funcs::extra::_NSGetExecutablePath;
use vec;
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 = _NSGetExecutablePath(v.as_mut_ptr() as *mut i8, &mut sz);
if err != 0 { return None; }
v.set_len(sz as uint - 1); // chop off trailing NUL
Some(v)
}
}
#[cfg(windows)]
fn load_self() -> Option<~[u8]> {
unsafe {
use os::win32::fill_utf16_buf_and_decode;
fill_utf16_buf_and_decode(|buf, sz| {
libc::GetModuleFileNameW(0u as libc::DWORD, buf, sz)
}).map(|s| s.into_bytes())
}
}
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load_self().and_then(Path::new_opt)
}
/// Optionally returns the filesystem path to the current executable which is
/// running. Like self_exe_name() but without the binary's name.
/// If any failure occurs, None is returned.
pub fn self_exe_path() -> Option<Path> {
self_exe_name().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.
*/
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pub fn homedir() -> Option<Path> {
// 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)]
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fn secondary() -> Option<Path> {
None
}
#[cfg(windows)]
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fn secondary() -> Option<Path> {
getenv("USERPROFILE").and_then(|p| {
if !p.is_empty() {
Path::new_opt(p)
} else {
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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.
*/
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pub fn tmpdir() -> Path {
return lookup();
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fn getenv_nonempty(v: &str) -> Option<Path> {
match getenv(v) {
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Some(x) =>
if x.is_empty() {
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None
} else {
Path::new_opt(x)
},
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_ => 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"))
}
}
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/**
* 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
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* 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.
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pub fn make_absolute(p: &Path) -> Path {
if p.is_absolute() {
p.clone()
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} else {
let mut ret = getcwd();
ret.push(p);
ret
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}
}
/// Changes the current working directory to the specified path, returning
/// whether the change was completed successfully or not.
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pub fn change_dir(p: &Path) -> bool {
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return chdir(p);
#[cfg(windows)]
fn chdir(p: &Path) -> bool {
unsafe {
use os::win32::as_utf16_p;
return as_utf16_p(p.as_str().unwrap(), |buf| {
libc::SetCurrentDirectoryW(buf) != (0 as libc::BOOL)
});
}
}
#[cfg(unix)]
fn chdir(p: &Path) -> bool {
p.with_c_str(|buf| {
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unsafe {
libc::chdir(buf) == (0 as c_int)
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}
})
}
}
#[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 {
#[nolink]
extern {
fn __error() -> *c_int;
}
unsafe {
__error()
}
}
#[cfg(target_os = "linux")]
#[cfg(target_os = "android")]
fn errno_location() -> *c_int {
#[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 {
use libc::types::os::arch::extra::DWORD;
#[link_name = "kernel32"]
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extern "system" {
fn GetLastError() -> DWORD;
}
unsafe {
GetLastError() as uint
}
}
/// Get a string representing the platform-dependent last error
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pub fn last_os_error() -> ~str {
#[cfg(unix)]
fn strerror() -> ~str {
#[cfg(target_os = "macos")]
#[cfg(target_os = "android")]
#[cfg(target_os = "freebsd")]
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fn strerror_r(errnum: c_int, buf: *mut c_char, buflen: libc::size_t)
-> c_int {
#[nolink]
extern {
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fn strerror_r(errnum: c_int, buf: *mut c_char,
buflen: libc::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.
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// So we just use __xpg_strerror_r which is always POSIX compliant
#[cfg(target_os = "linux")]
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fn strerror_r(errnum: c_int, buf: *mut c_char,
buflen: libc::size_t) -> c_int {
#[nolink]
extern {
fn __xpg_strerror_r(errnum: c_int,
buf: *mut c_char,
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buflen: libc::size_t)
-> c_int;
}
unsafe {
__xpg_strerror_r(errnum, buf, buflen)
}
}
let mut buf = [0 as c_char, ..TMPBUF_SZ];
let p = buf.as_mut_ptr();
unsafe {
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if strerror_r(errno() as c_int, p, buf.len() as libc::size_t) < 0 {
fail!("strerror_r failure");
}
str::raw::from_c_str(p as *c_char)
}
}
#[cfg(windows)]
fn strerror() -> ~str {
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;
#[link_name = "kernel32"]
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extern "system" {
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 {
let res = FormatMessageW(FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
ptr::mut_null(),
err,
langId,
buf.as_mut_ptr(),
buf.len() as DWORD,
ptr::null());
if res == 0 {
fail!("[{}] FormatMessage failure", errno());
}
str::from_utf16(buf)
}
}
strerror()
}
static mut EXIT_STATUS: AtomicInt = INIT_ATOMIC_INT;
/**
* 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.
*
* Note that this is not synchronized against modifications of other threads.
*/
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pub fn set_exit_status(code: int) {
unsafe { EXIT_STATUS.store(code, SeqCst) }
}
/// Fetches the process's current exit code. This defaults to 0 and can change
/// by calling `set_exit_status`.
pub fn get_exit_status() -> int {
unsafe { EXIT_STATUS.load(SeqCst) }
}
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#[cfg(target_os = "macos")]
unsafe fn load_argc_and_argv(argc: 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)));
}
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args
}
/**
* Returns the command line arguments
*
* Returns a list of the command line arguments.
*/
#[cfg(target_os = "macos")]
fn real_args() -> ~[~str] {
unsafe {
let (argc, argv) = (*_NSGetArgc() as 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;
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match rt::args::clone() {
Some(args) => args,
None => fail!("process arguments not initialized")
}
}
#[cfg(windows)]
fn real_args() -> ~[~str] {
use vec;
let mut nArgs: c_int = 0;
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let lpArgCount: *mut c_int = &mut nArgs;
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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;
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#[cfg(windows)]
#[link_name="kernel32"]
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extern "system" {
fn GetCommandLineW() -> LPCWSTR;
fn LocalFree(ptr: *c_void);
}
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#[cfg(windows)]
#[link_name="shell32"]
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extern "system" {
fn CommandLineToArgvW(lpCmdLine: LPCWSTR, pNumArgs: *mut c_int) -> **u16;
}
/// 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 {
unsafe {
libc::sysconf(libc::_SC_PAGESIZE) as uint
}
}
#[cfg(windows)]
pub fn page_size() -> uint {
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unsafe {
let mut info = libc::SYSTEM_INFO::new();
libc::GetSystemInfo(&mut info);
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return info.dwPageSize as uint;
}
}
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/// A memory mapped file or chunk of memory. This is a very system-specific
/// interface to the OS's memory mapping facilities (`mmap` on POSIX,
/// `VirtualAlloc`/`CreateFileMapping` on win32). It makes no attempt at
/// abstracting platform differences, besides in error values returned. Consider
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/// yourself warned.
///
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/// The memory map is released (unmapped) when the destructor is run, so don't
/// let it leave scope by accident if you want it to stick around.
pub struct MemoryMap {
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/// Pointer to the memory created or modified by this map.
data: *mut u8,
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/// Number of bytes this map applies to
len: uint,
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/// Type of mapping
kind: MemoryMapKind
}
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/// Type of memory map
pub enum MemoryMapKind {
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/// Virtual memory map. Usually used to change the permissions of a given
/// chunk of memory. Corresponds to `VirtualAlloc` on Windows.
MapFile(*u8),
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/// Virtual memory map. Usually used to change the permissions of a given
/// chunk of memory, or for allocation. Corresponds to `VirtualAlloc` on
/// Windows.
MapVirtual
}
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/// Options the memory map is created with
pub enum MapOption {
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/// The memory should be readable
MapReadable,
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/// The memory should be writable
MapWritable,
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/// The memory should be executable
MapExecutable,
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/// Create a map for a specific address range. Corresponds to `MAP_FIXED` on
/// POSIX.
MapAddr(*u8),
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/// Create a memory mapping for a file with a given fd.
MapFd(c_int),
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/// When using `MapFd`, the start of the map is `uint` bytes from the start
/// of the file.
MapOffset(uint),
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/// On POSIX, this can be used to specify the default flags passed to
/// `mmap`. By default it uses `MAP_PRIVATE` and, if not using `MapFd`,
/// `MAP_ANON`. This will override both of those. This is platform-specific
/// (the exact values used) and ignored on Windows.
MapNonStandardFlags(c_int),
}
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/// Possible errors when creating a map.
pub enum MapError {
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/// ## The following are POSIX-specific
///
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/// fd was not open for reading or, if using `MapWritable`, was not open for
/// writing.
ErrFdNotAvail,
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/// fd was not valid
ErrInvalidFd,
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/// Either the address given by `MapAddr` or offset given by `MapOffset` was
/// not a multiple of `MemoryMap::granularity` (unaligned to page size).
ErrUnaligned,
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/// With `MapFd`, the fd does not support mapping.
ErrNoMapSupport,
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/// If using `MapAddr`, the address + `min_len` was outside of the process's
/// address space. If using `MapFd`, the target of the fd didn't have enough
/// resources to fulfill the request.
ErrNoMem,
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/// A zero-length map was requested. This is invalid according to
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/// [POSIX](http://pubs.opengroup.org/onlinepubs/9699919799/functions/mmap.html).
/// Not all platforms obey this, but this wrapper does.
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ErrZeroLength,
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/// Unrecognized error. The inner value is the unrecognized errno.
ErrUnknown(int),
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/// ## The following are win32-specific
///
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/// Unsupported combination of protection flags
/// (`MapReadable`/`MapWritable`/`MapExecutable`).
ErrUnsupProt,
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/// When using `MapFd`, `MapOffset` was given (Windows does not support this
/// at all)
ErrUnsupOffset,
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/// When using `MapFd`, there was already a mapping to the file.
ErrAlreadyExists,
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/// Unrecognized error from `VirtualAlloc`. The inner value is the return
/// value of GetLastError.
ErrVirtualAlloc(uint),
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/// Unrecognized error from `CreateFileMapping`. The inner value is the
/// return value of `GetLastError`.
ErrCreateFileMappingW(uint),
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/// Unrecognized error from `MapViewOfFile`. The inner value is the return
/// value of `GetLastError`.
ErrMapViewOfFile(uint)
}
impl fmt::Show for MapError {
fn fmt(val: &MapError, out: &mut fmt::Formatter) -> fmt::Result {
let str = match *val {
ErrFdNotAvail => "fd not available for reading or writing",
ErrInvalidFd => "Invalid fd",
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ErrUnaligned => {
"Unaligned address, invalid flags, negative length or \
unaligned offset"
}
ErrNoMapSupport=> "File doesn't support mapping",
ErrNoMem => "Invalid address, or not enough available memory",
ErrUnsupProt => "Protection mode unsupported",
ErrUnsupOffset => "Offset in virtual memory mode is unsupported",
ErrAlreadyExists => "File mapping for specified file already exists",
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ErrZeroLength => "Zero-length mapping not allowed",
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ErrUnknown(code) => {
return write!(out.buf, "Unknown error = {}", code)
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},
ErrVirtualAlloc(code) => {
return write!(out.buf, "VirtualAlloc failure = {}", code)
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},
ErrCreateFileMappingW(code) => {
return write!(out.buf, "CreateFileMappingW failure = {}", code)
},
ErrMapViewOfFile(code) => {
return write!(out.buf, "MapViewOfFile failure = {}", code)
}
};
write!(out.buf, "{}", str)
}
}
#[cfg(unix)]
impl MemoryMap {
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/// Create a new mapping with the given `options`, at least `min_len` bytes
/// long. `min_len` must be greater than zero; see the note on
/// `ErrZeroLength`.
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pub fn new(min_len: uint, options: &[MapOption]) -> Result<MemoryMap, MapError> {
use libc::off_t;
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if min_len == 0 {
return Err(ErrZeroLength)
}
let mut addr: *u8 = ptr::null();
let mut prot = 0;
let mut flags = libc::MAP_PRIVATE;
let mut fd = -1;
let mut offset = 0;
let mut custom_flags = false;
let len = round_up(min_len, page_size());
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; },
MapNonStandardFlags(f) => { custom_flags = true; flags = f },
}
}
if fd == -1 && !custom_flags { flags |= libc::MAP_ANON; }
let r = unsafe {
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libc::mmap(addr as *c_void, len as libc::size_t, 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 as int)
})
} else {
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Ok(MemoryMap {
data: r as *mut u8,
len: len,
kind: if fd == -1 {
MapVirtual
} else {
MapFile(ptr::null())
}
})
}
}
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/// Granularity that the offset or address must be for `MapOffset` and
/// `MapAddr` respectively.
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pub fn granularity() -> uint {
page_size()
}
}
#[cfg(unix)]
impl Drop for MemoryMap {
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/// Unmap the mapping. Fails the task if `munmap` fails.
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fn drop(&mut self) {
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if self.len == 0 { /* workaround for dummy_stack */ return; }
unsafe {
match libc::munmap(self.data as *c_void, self.len as libc::size_t) {
0 => (),
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-1 => match errno() as c_int {
libc::EINVAL => error!("invalid addr or len"),
e => error!("unknown errno={}", e)
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},
r => error!("Unexpected result {}", r)
}
}
}
}
#[cfg(windows)]
impl MemoryMap {
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/// Create a new mapping with the given `options`, at least `min_len` bytes long.
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pub fn new(min_len: uint, options: &[MapOption]) -> Result<MemoryMap, MapError> {
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());
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_; },
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MapNonStandardFlags(f) => {
info!("MemoryMap::new: MapNonStandardFlags used on \
Windows: {}", f)
}
}
}
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 as SIZE_T,
libc::MEM_COMMIT | libc::MEM_RESERVE,
flProtect)
};
match r as uint {
0 => Err(ErrVirtualAlloc(errno())),
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_ => Ok(MemoryMap {
data: r as *mut u8,
len: len,
kind: MapVirtual
})
}
} else {
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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,
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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,
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((len as u64) >> 32) as DWORD,
(offset & 0xffff_ffff) as DWORD,
0);
match r as uint {
0 => Err(ErrMapViewOfFile(errno())),
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_ => Ok(MemoryMap {
data: r as *mut u8,
len: len,
kind: MapFile(mapping as *u8)
})
}
}
}
}
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/// Granularity of MapAddr() and MapOffset() parameter values.
/// This may be greater than the value returned by page_size().
pub fn granularity() -> uint {
unsafe {
let mut info = libc::SYSTEM_INFO::new();
libc::GetSystemInfo(&mut info);
return info.dwAllocationGranularity as uint;
}
}
}
#[cfg(windows)]
impl Drop for MemoryMap {
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/// Unmap the mapping. Fails the task if any of `VirtualFree`,
/// `UnmapViewOfFile`, or `CloseHandle` fail.
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fn drop(&mut self) {
use libc::types::os::arch::extra::{LPCVOID, HANDLE};
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use libc::consts::os::extra::FALSE;
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if self.len == 0 { return }
unsafe {
match self.kind {
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MapVirtual => {
if libc::VirtualFree(self.data as *mut c_void, 0,
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libc::MEM_RELEASE) == 0 {
error!("VirtualFree failed: {}", errno());
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}
},
MapFile(mapping) => {
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if libc::UnmapViewOfFile(self.data as LPCVOID) == FALSE {
error!("UnmapViewOfFile failed: {}", errno());
}
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if libc::CloseHandle(mapping as HANDLE) == FALSE {
error!("CloseHandle failed: {}", errno());
}
}
}
}
}
}
pub mod consts {
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#[cfg(unix)]
pub use os::consts::unix::*;
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#[cfg(windows)]
pub use os::consts::windows::*;
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#[cfg(target_os = "macos")]
pub use os::consts::macos::*;
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#[cfg(target_os = "freebsd")]
pub use os::consts::freebsd::*;
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#[cfg(target_os = "linux")]
pub use os::consts::linux::*;
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#[cfg(target_os = "android")]
pub use os::consts::android::*;
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#[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")]
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pub use os::consts::mips::*;
pub mod unix {
pub static FAMILY: &'static str = "unix";
}
pub mod windows {
pub static FAMILY: &'static str = "windows";
}
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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 = "";
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}
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 = "";
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}
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 = "";
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}
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 = "";
}
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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";
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}
pub mod x86 {
pub static ARCH: &'static str = "x86";
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}
pub mod x86_64 {
pub static ARCH: &'static str = "x86_64";
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}
pub mod arm {
pub static ARCH: &'static str = "arm";
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}
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pub mod mips {
pub static ARCH: &'static str = "mips";
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}
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}
#[cfg(test)]
mod tests {
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use prelude::*;
use c_str::ToCStr;
use option;
use os::{env, getcwd, getenv, make_absolute, args};
use os::{setenv, unsetenv};
use os;
use rand::Rng;
use rand;
#[test]
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pub fn last_os_error() {
debug!("{}", os::last_os_error());
}
#[test]
pub fn test_args() {
let a = args();
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assert!(a.len() >= 1);
}
fn make_rand_name() -> ~str {
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let mut rng = rand::rng();
let n = ~"TEST" + rng.gen_ascii_str(10u);
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assert!(getenv(n).is_none());
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n
}
#[test]
fn test_setenv() {
let n = make_rand_name();
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setenv(n, "VALUE");
assert_eq!(getenv(n), option::Some(~"VALUE"));
}
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#[test]
fn test_unsetenv() {
let n = make_rand_name();
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setenv(n, "VALUE");
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unsetenv(n);
assert_eq!(getenv(n), option::None);
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}
#[test]
#[ignore]
fn test_setenv_overwrite() {
let n = make_rand_name();
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setenv(n, "1");
setenv(n, "2");
assert_eq!(getenv(n), option::Some(~"2"));
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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));
}
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#[test]
fn test_self_exe_name() {
let path = os::self_exe_name();
assert!(path.is_some());
let path = path.unwrap();
debug!("{:?}", path.clone());
// Hard to test this function
assert!(path.is_absolute());
}
#[test]
fn test_self_exe_path() {
let path = os::self_exe_path();
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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();
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assert!(e.len() > 0u);
for p in e.iter() {
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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().
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assert!(v2.is_none() || v2 == option::Some(v));
}
}
#[test]
fn test_env_setenv() {
let n = make_rand_name();
let mut e = env();
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setenv(n, "VALUE");
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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() {
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let oldhome = getenv("HOME");
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setenv("HOME", "/home/MountainView");
assert_eq!(os::homedir(), Some(Path::new("/home/MountainView")));
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setenv("HOME", "");
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assert!(os::homedir().is_none());
for s in oldhome.iter() { setenv("HOME", *s) }
}
#[test]
#[cfg(windows)]
fn homedir() {
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let oldhome = getenv("HOME");
let olduserprofile = getenv("USERPROFILE");
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setenv("HOME", "");
setenv("USERPROFILE", "");
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assert!(os::homedir().is_none());
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setenv("HOME", "/home/MountainView");
assert_eq!(os::homedir(), Some(Path::new("/home/MountainView")));
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setenv("HOME", "");
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setenv("USERPROFILE", "/home/MountainView");
assert_eq!(os::homedir(), Some(Path::new("/home/MountainView")));
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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 memory_map_rw() {
use result::{Ok, Err};
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let chunk = match os::MemoryMap::new(16, [
os::MapReadable,
os::MapWritable
]) {
Ok(chunk) => chunk,
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Err(msg) => fail!("{}", msg)
};
assert!(chunk.len >= 16);
unsafe {
*chunk.data = 0xBE;
assert!(*chunk.data == 0xBE);
}
}
#[test]
fn memory_map_file() {
use result::{Ok, Err};
use os::*;
use libc::*;
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use io::fs;
#[cfg(unix)]
fn lseek_(fd: c_int, size: uint) {
unsafe {
assert!(lseek(fd, size as off_t, SEEK_SET) == size as off_t);
}
}
#[cfg(windows)]
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");
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let size = MemoryMap::granularity() * 2;
let fd = unsafe {
let fd = path.with_c_str(|path| {
open(path, O_CREAT | O_RDWR | O_TRUNC, S_IRUSR | S_IWUSR)
});
lseek_(fd, size);
"x".with_c_str(|x| assert!(write(fd, x as *c_void, 1) == 1));
fd
};
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let chunk = match MemoryMap::new(size / 2, [
MapReadable,
MapWritable,
MapFd(fd),
MapOffset(size / 2)
]) {
Ok(chunk) => chunk,
Err(msg) => fail!("{}", msg)
};
assert!(chunk.len > 0);
unsafe {
*chunk.data = 0xbe;
assert!(*chunk.data == 0xbe);
close(fd);
}
drop(chunk);
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fs::unlink(&path).unwrap();
}
// More recursive_mkdir tests are in extra::tempfile
}