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rust/src/libstd/sys/windows/os.rs
Alex Crichton c32d03f417 std: Stabilize the prelude module 
This commit is an implementation of [RFC 503][rfc] which is a stabilization
story for the prelude. Most of the RFC was directly applied, removing reexports.
Some reexports are kept around, however:

* `range` remains until range syntax has landed to reduce churn.
* `Path` and `GenericPath` remain until path reform lands. This is done to
  prevent many imports of `GenericPath` which will soon be removed.
* All `io` traits remain until I/O reform lands so imports can be rewritten all
  at once to `std::io::prelude::*`.

This is a breaking change because many prelude reexports have been removed, and
the RFC can be consulted for the exact list of removed reexports, as well as to
find the locations of where to import them.

[rfc]: https://github.com/rust-lang/rfcs/blob/master/text/0503-prelude-stabilization.md
[breaking-change]

Closes #20068
2014-12-29 08:58:21 -08:00

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// Copyright 2014 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.
//! Implementation of `std::os` functionality for Windows
// FIXME: move various extern bindings from here into liblibc or
// something similar
use prelude::v1::*;
use fmt;
use io::{IoResult, IoError};
use libc::{c_int, c_char, c_void};
use libc;
use os;
use path::BytesContainer;
use ptr;
use sync::atomic::{AtomicInt, INIT_ATOMIC_INT, SeqCst};
use sys::fs::FileDesc;
use slice;
use os::TMPBUF_SZ;
use libc::types::os::arch::extra::DWORD;
const BUF_BYTES : uint = 2048u;
/// Return a slice of `v` ending at (and not including) the first NUL
/// (0).
pub fn truncate_utf16_at_nul<'a>(v: &'a [u16]) -> &'a [u16] {
match v.iter().position(|c| *c == 0) {
// don't include the 0
Some(i) => v[..i],
None => v
}
}
pub fn errno() -> uint {
use libc::types::os::arch::extra::DWORD;
#[link_name = "kernel32"]
extern "system" {
fn GetLastError() -> DWORD;
}
unsafe {
GetLastError() as uint
}
}
/// Get a detailed string description for the given error number
pub fn error_string(errnum: i32) -> String {
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"]
extern "system" {
fn FormatMessageW(flags: DWORD,
lpSrc: LPVOID,
msgId: DWORD,
langId: DWORD,
buf: LPWSTR,
nsize: DWORD,
args: *const 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 mut buf = [0 as WCHAR, ..TMPBUF_SZ];
unsafe {
let res = FormatMessageW(FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
ptr::null_mut(),
errnum as DWORD,
langId,
buf.as_mut_ptr(),
buf.len() as DWORD,
ptr::null());
if res == 0 {
// Sometimes FormatMessageW can fail e.g. system doesn't like langId,
let fm_err = errno();
return format!("OS Error {} (FormatMessageW() returned error {})", errnum, fm_err);
}
let msg = String::from_utf16(truncate_utf16_at_nul(&buf));
match msg {
Some(msg) => format!("OS Error {}: {}", errnum, msg),
None => format!("OS Error {} (FormatMessageW() returned invalid UTF-16)", errnum),
}
}
}
pub unsafe fn pipe() -> IoResult<(FileDesc, FileDesc)> {
// 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 = [0, ..2];
match libc::pipe(fds.as_mut_ptr(), 1024 as ::libc::c_uint,
(libc::O_BINARY | libc::O_NOINHERIT) as c_int) {
0 => {
assert!(fds[0] != -1 && fds[0] != 0);
assert!(fds[1] != -1 && fds[1] != 0);
Ok((FileDesc::new(fds[0], true), FileDesc::new(fds[1], true)))
}
_ => Err(IoError::last_error()),
}
}
pub fn fill_utf16_buf_and_decode(f: |*mut u16, DWORD| -> DWORD) -> Option<String> {
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(), n);
if k == (0 as DWORD) {
done = true;
} else if k == n &&
libc::GetLastError() ==
libc::ERROR_INSUFFICIENT_BUFFER as DWORD {
n *= 2 as DWORD;
} else if k >= n {
n = k;
} else {
done = true;
}
if k != 0 && done {
let sub = buf.slice(0, k as uint);
// We want to explicitly catch the case when the
// closure returned invalid UTF-16, rather than
// set `res` to None and continue.
let s = String::from_utf16(sub)
.expect("fill_utf16_buf_and_decode: closure created invalid UTF-16");
res = Some(s)
}
}
return res;
}
}
pub fn getcwd() -> IoResult<Path> {
use libc::DWORD;
use libc::GetCurrentDirectoryW;
use io::OtherIoError;
let mut buf = [0 as u16, ..BUF_BYTES];
unsafe {
if libc::GetCurrentDirectoryW(buf.len() as DWORD, buf.as_mut_ptr()) == 0 as DWORD {
return Err(IoError::last_error());
}
}
match String::from_utf16(truncate_utf16_at_nul(&buf)) {
Some(ref cwd) => Ok(Path::new(cwd)),
None => Err(IoError {
kind: OtherIoError,
desc: "GetCurrentDirectoryW returned invalid UTF-16",
detail: None,
}),
}
}
pub unsafe fn get_env_pairs() -> Vec<Vec<u8>> {
use libc::funcs::extra::kernel32::{
GetEnvironmentStringsW,
FreeEnvironmentStringsW
};
let ch = GetEnvironmentStringsW();
if ch as uint == 0 {
panic!("os::env() failure getting env string from OS: {}",
os::last_os_error());
}
// Here, we lossily decode the string as UTF16.
//
// The docs suggest that the result should be in Unicode, but
// Windows doesn't guarantee it's actually UTF16 -- it doesn't
// validate the environment string passed to CreateProcess nor
// SetEnvironmentVariable. Yet, it's unlikely that returning a
// raw u16 buffer would be of practical use since the result would
// be inherently platform-dependent and introduce additional
// complexity to this code.
//
// Using the non-Unicode version of GetEnvironmentStrings is even
// worse since the result is in an OEM code page. Characters that
// can't be encoded in the code page would be turned into question
// marks.
let mut result = Vec::new();
let mut i = 0;
while *ch.offset(i) != 0 {
let p = &*ch.offset(i);
let mut len = 0;
while *(p as *const _).offset(len) != 0 {
len += 1;
}
let p = p as *const u16;
let s = slice::from_raw_buf(&p, len as uint);
result.push(String::from_utf16_lossy(s).into_bytes());
i += len as int + 1;
}
FreeEnvironmentStringsW(ch);
result
}
pub fn split_paths(unparsed: &[u8]) -> Vec<Path> {
// On Windows, the PATH environment variable is semicolon separated. Double
// quotes are used as a way of introducing literal semicolons (since
// c:\some;dir is a valid Windows path). Double quotes are not themselves
// permitted in path names, so there is no way to escape a double quote.
// Quoted regions can appear in arbitrary locations, so
//
// c:\foo;c:\som"e;di"r;c:\bar
//
// Should parse as [c:\foo, c:\some;dir, c:\bar].
//
// (The above is based on testing; there is no clear reference available
// for the grammar.)
let mut parsed = Vec::new();
let mut in_progress = Vec::new();
let mut in_quote = false;
for b in unparsed.iter() {
match *b {
b';' if !in_quote => {
parsed.push(Path::new(in_progress.as_slice()));
in_progress.truncate(0)
}
b'"' => {
in_quote = !in_quote;
}
_ => {
in_progress.push(*b);
}
}
}
parsed.push(Path::new(in_progress));
parsed
}
pub fn join_paths<T: BytesContainer>(paths: &[T]) -> Result<Vec<u8>, &'static str> {
let mut joined = Vec::new();
let sep = b';';
for (i, path) in paths.iter().map(|p| p.container_as_bytes()).enumerate() {
if i > 0 { joined.push(sep) }
if path.contains(&b'"') {
return Err("path segment contains `\"`");
} else if path.contains(&sep) {
joined.push(b'"');
joined.push_all(path);
joined.push(b'"');
} else {
joined.push_all(path);
}
}
Ok(joined)
}
pub fn load_self() -> Option<Vec<u8>> {
unsafe {
fill_utf16_buf_and_decode(|buf, sz| {
libc::GetModuleFileNameW(0u as libc::DWORD, buf, sz)
}).map(|s| s.to_string().into_bytes())
}
}
pub fn chdir(p: &Path) -> IoResult<()> {
let mut p = p.as_str().unwrap().utf16_units().collect::<Vec<u16>>();
p.push(0);
unsafe {
match libc::SetCurrentDirectoryW(p.as_ptr()) != (0 as libc::BOOL) {
true => Ok(()),
false => Err(IoError::last_error()),
}
}
}
pub fn page_size() -> uint {
use mem;
unsafe {
let mut info = mem::zeroed();
libc::GetSystemInfo(&mut info);
return info.dwPageSize as uint;
}
}
#[cfg(test)]
mod tests {
use super::truncate_utf16_at_nul;
#[test]
fn test_truncate_utf16_at_nul() {
let v = [];
let b: &[u16] = &[];
assert_eq!(truncate_utf16_at_nul(&v), b);
let v = [0, 2, 3];
assert_eq!(truncate_utf16_at_nul(&v), b);
let v = [1, 0, 3];
let b: &[u16] = &[1];
assert_eq!(truncate_utf16_at_nul(&v), b);
let v = [1, 2, 0];
let b: &[u16] = &[1, 2];
assert_eq!(truncate_utf16_at_nul(&v), b);
let v = [1, 2, 3];
let b: &[u16] = &[1, 2, 3];
assert_eq!(truncate_utf16_at_nul(&v), b);
}
}
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