mikros/rust
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
5606fc0c90
rust/src/libcore/os.rs
Niko Matsakis 6965fe4bce Add AbiSet and integrate it into the AST. 
I believe this patch incorporates all expected syntax changes from extern
function reform (#3678). You can now write things like:

    extern "<abi>" fn foo(s: S) -> T { ... }
    extern "<abi>" mod { ... }
    extern "<abi>" fn(S) -> T

The ABI for foreign functions is taken from this syntax (rather than from an
annotation).  We support the full ABI specification I described on the mailing
list.  The correct ABI is chosen based on the target architecture.

Calls by pointer to C functions are not yet supported, and the Rust type of
crust fns is still *u8.
2013-03-29 18:36:20 -07:00

1493 lines
42 KiB
Rust
Raw Blame History

// 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.
*/
use cast;
use io;
use libc;
use libc::{c_char, c_void, c_int, size_t};
use libc::{mode_t, pid_t, FILE};
use option;
use option::{Some, None};
use prelude::*;
use ptr;
use str;
use task;
use uint;
use vec;
pub use libc::fclose;
pub use os::consts::*;
// FIXME: move these to str perhaps? #2620
pub fn close(fd: c_int) -> c_int {
unsafe {
libc::close(fd)
}
}
pub mod rustrt {
use libc::{c_char, c_int};
use libc;
pub extern {
unsafe fn rust_get_argc() -> c_int;
unsafe fn rust_get_argv() -> **c_char;
unsafe fn rust_path_is_dir(path: *libc::c_char) -> c_int;
unsafe fn rust_path_exists(path: *libc::c_char) -> c_int;
unsafe fn rust_process_wait(handle: c_int) -> c_int;
unsafe fn rust_set_exit_status(code: libc::intptr_t);
}
}
pub static TMPBUF_SZ : uint = 1000u;
static BUF_BYTES : uint = 2048u;
pub fn getcwd() -> Path {
let buf = [0 as libc::c_char, ..BUF_BYTES];
unsafe {
if(0 as *libc::c_char == libc::getcwd(
&buf[0],
BUF_BYTES as libc::size_t)) {
fail!();
}
Path(str::raw::from_c_str(&buf[0]))
}
}
pub fn as_c_charp<T>(s: &str, f: &fn(*c_char) -> T) -> T {
str::as_c_str(s, |b| f(b as *c_char))
}
pub fn fill_charp_buf(f: &fn(*mut c_char, size_t) -> bool)
-> Option<~str> {
let mut buf = vec::from_elem(TMPBUF_SZ, 0u8 as c_char);
do vec::as_mut_buf(buf) |b, sz| {
if f(b, sz as size_t) {
unsafe {
Some(str::raw::from_buf(b as *u8))
}
} else {
None
}
}
}
#[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> {
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 vec::as_mut_buf(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 = vec::slice(buf, 0u, k as uint);
res = option::Some(str::from_utf16(sub));
}
}
return res;
}
}
pub fn as_utf16_p<T>(s: &str, f: &fn(*u16) -> T) -> T {
let mut t = str::to_utf16(s);
// Null terminate before passing on.
t += ~[0u16];
vec::as_imm_buf(t, |buf, _len| f(buf))
}
}
/*
Accessing environment variables is not generally threadsafe.
This uses a per-runtime lock to serialize access.
FIXME #4726: It would probably be appropriate to make this a real global
*/
fn with_env_lock<T>(f: &fn() -> T) -> T {
use unstable::global::global_data_clone_create;
use unstable::{Exclusive, exclusive};
struct SharedValue(());
type ValueMutex = Exclusive<SharedValue>;
fn key(_: ValueMutex) { }
unsafe {
let lock: ValueMutex = global_data_clone_create(key, || {
~exclusive(SharedValue(()))
});
lock.with_imm(|_| f() )
}
}
pub fn env() -> ~[(~str,~str)] {
unsafe {
#[cfg(windows)]
unsafe fn get_env_pairs() -> ~[~str] {
use libc::types::os::arch::extra::LPTCH;
use libc::funcs::extra::kernel32::{
GetEnvironmentStringsA,
FreeEnvironmentStringsA
};
let ch = GetEnvironmentStringsA();
if (ch as uint == 0) {
fail!(fmt!("os::env() failure getting env string from OS: %s",
os::last_os_error()));
}
let mut curr_ptr: uint = ch as uint;
let mut result = ~[];
while(*(curr_ptr as *libc::c_char) != 0 as libc::c_char) {
let env_pair = str::raw::from_c_str(
curr_ptr as *libc::c_char);
result.push(env_pair);
curr_ptr +=
libc::strlen(curr_ptr as *libc::c_char) as uint
+ 1;
}
FreeEnvironmentStringsA(ch);
result
}
#[cfg(unix)]
unsafe fn get_env_pairs() -> ~[~str] {
extern mod rustrt {
unsafe fn rust_env_pairs() -> **libc::c_char;
}
let environ = rustrt::rust_env_pairs();
if (environ as uint == 0) {
fail!(fmt!("os::env() failure getting env string from OS: %s",
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: %s",
env_pair);
result.push(env_pair);
});
result
}
fn env_convert(input: ~[~str]) -> ~[(~str, ~str)] {
let mut pairs = ~[];
for input.each |p| {
let mut vs = ~[];
for str::each_splitn_char(*p, '=', 1) |s| { vs.push(s.to_owned()) }
debug!("splitting: len: %u",
vs.len());
assert!(vs.len() == 2);
pairs.push((copy vs[0], copy vs[1]));
}
pairs
}
do with_env_lock {
let unparsed_environ = get_env_pairs();
env_convert(unparsed_environ)
}
}
}
#[cfg(unix)]
pub fn getenv(n: &str) -> Option<~str> {
unsafe {
do with_env_lock {
let s = str::as_c_str(n, |s| libc::getenv(s));
if ptr::null::<u8>() == cast::reinterpret_cast(&s) {
option::None::<~str>
} else {
let s = cast::reinterpret_cast(&s);
option::Some::<~str>(str::raw::from_buf(s))
}
}
}
}
#[cfg(windows)]
pub fn getenv(n: &str) -> Option<~str> {
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)]
pub fn setenv(n: &str, v: &str) {
unsafe {
do with_env_lock {
do str::as_c_str(n) |nbuf| {
do str::as_c_str(v) |vbuf| {
libc::funcs::posix01::unistd::setenv(nbuf, vbuf, 1);
}
}
}
}
}
#[cfg(windows)]
pub fn setenv(n: &str, v: &str) {
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);
}
}
}
}
}
pub fn fdopen(fd: c_int) -> *FILE {
unsafe {
return do as_c_charp("r") |modebuf| {
libc::fdopen(fd, modebuf)
};
}
}
// fsync related
#[cfg(windows)]
pub fn fsync_fd(fd: c_int, _level: io::fsync::Level) -> c_int {
unsafe {
use libc::funcs::extra::msvcrt::*;
return commit(fd);
}
}
#[cfg(target_os = "linux")]
#[cfg(target_os = "android")]
pub fn fsync_fd(fd: c_int, level: io::fsync::Level) -> c_int {
unsafe {
use libc::funcs::posix01::unistd::*;
match level {
io::fsync::FSync
| io::fsync::FullFSync => return fsync(fd),
io::fsync::FDataSync => return fdatasync(fd)
}
}
}
#[cfg(target_os = "macos")]
pub fn fsync_fd(fd: c_int, level: io::fsync::Level) -> c_int {
unsafe {
use libc::consts::os::extra::*;
use libc::funcs::posix88::fcntl::*;
use libc::funcs::posix01::unistd::*;
match level {
io::fsync::FSync => return fsync(fd),
_ => {
// According to man fnctl, the ok retval is only specified to be
// !=-1
if (fcntl(F_FULLFSYNC as c_int, fd) == -1 as c_int)
{ return -1 as c_int; }
else
{ return 0 as c_int; }
}
}
}
}
#[cfg(target_os = "freebsd")]
pub fn fsync_fd(fd: c_int, _l: io::fsync::Level) -> c_int {
unsafe {
use libc::funcs::posix01::unistd::*;
return fsync(fd);
}
}
#[cfg(windows)]
pub fn waitpid(pid: pid_t) -> c_int {
unsafe {
return rustrt::rust_process_wait(pid);
}
}
#[cfg(unix)]
pub fn waitpid(pid: pid_t) -> c_int {
unsafe {
use libc::funcs::posix01::wait::*;
let mut status = 0 as c_int;
assert!((waitpid(pid, &mut status, 0 as c_int) !=
(-1 as c_int)));
return status;
}
}
pub struct Pipe { mut in: c_int, mut out: c_int }
#[cfg(unix)]
pub fn pipe() -> Pipe {
unsafe {
let mut fds = Pipe {in: 0 as c_int,
out: 0 as c_int };
assert!((libc::pipe(&mut fds.in) == (0 as c_int)));
return Pipe {in: fds.in, 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 rust_run_program.
let mut fds = Pipe {in: 0 as c_int,
out: 0 as c_int };
let res = libc::pipe(&mut fds.in, 1024 as ::libc::c_uint,
(libc::O_BINARY | libc::O_NOINHERIT) as c_int);
assert!((res == 0 as c_int));
assert!((fds.in != -1 as c_int && fds.in != 0 as c_int));
assert!((fds.out != -1 as c_int && fds.in != 0 as c_int));
return Pipe {in: fds.in, out: fds.out};
}
}
fn dup2(src: c_int, dst: c_int) -> c_int {
unsafe {
libc::dup2(src, dst)
}
}
pub fn dll_filename(base: &str) -> ~str {
return str::from_slice(DLL_PREFIX) + str::from_slice(base) +
str::from_slice(DLL_SUFFIX)
}
pub fn self_exe_path() -> Option<Path> {
#[cfg(target_os = "freebsd")]
fn load_self() -> Option<~str> {
unsafe {
use libc::funcs::bsd44::*;
use libc::consts::os::extra::*;
do fill_charp_buf() |buf, sz| {
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 = sz;
sysctl(vec::raw::to_ptr(mib), vec::len(mib) as ::libc::c_uint,
buf as *mut c_void, &mut sz, ptr::null(),
0u as size_t) == (0 as c_int)
}
}
}
#[cfg(target_os = "linux")]
#[cfg(target_os = "android")]
fn load_self() -> Option<~str> {
unsafe {
use libc::funcs::posix01::unistd::readlink;
let mut path_str = str::with_capacity(TMPBUF_SZ);
let len = do str::as_c_str(path_str) |buf| {
let buf = buf as *mut c_char;
do as_c_charp("/proc/self/exe") |proc_self_buf| {
readlink(proc_self_buf, buf, TMPBUF_SZ as size_t)
}
};
if len == -1 {
None
} else {
str::raw::set_len(&mut path_str, len as uint);
Some(path_str)
}
}
}
#[cfg(target_os = "macos")]
fn load_self() -> Option<~str> {
unsafe {
do fill_charp_buf() |buf, sz| {
let mut sz = sz as u32;
libc::funcs::extra::_NSGetExecutablePath(
buf, &mut sz) == (0 as c_int)
}
}
}
#[cfg(windows)]
fn load_self() -> Option<~str> {
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)
}
}
}
do load_self().map |pth| {
Path(*pth).dir_path()
}
}
/**
* 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<Path> {
return match getenv(~"HOME") {
Some(ref p) => if !str::is_empty(*p) {
Some(Path(*p))
} else {
secondary()
},
None => secondary()
};
#[cfg(unix)]
fn secondary() -> Option<Path> {
None
}
#[cfg(windows)]
fn secondary() -> Option<Path> {
do getenv(~"USERPROFILE").chain |p| {
if !str::is_empty(p) {
Some(Path(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 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<Path> {
match getenv(v) {
Some(x) =>
if str::is_empty(x) {
None
} else {
Some(Path(x))
},
_ => None
}
}
#[cfg(unix)]
#[allow(non_implicitly_copyable_typarams)]
fn lookup() -> Path {
getenv_nonempty("TMPDIR").get_or_default(Path("/tmp"))
}
#[cfg(windows)]
#[allow(non_implicitly_copyable_typarams)]
fn lookup() -> Path {
getenv_nonempty("TMP").or(
getenv_nonempty("TEMP").or(
getenv_nonempty("USERPROFILE").or(
getenv_nonempty("WINDIR")))).get_or_default(Path("C:\\Windows"))
}
}
/// Recursively walk a directory structure
pub fn walk_dir(p: &Path, f: &fn(&Path) -> bool) {
walk_dir_(p, f);
fn walk_dir_(p: &Path, f: &fn(&Path) -> bool) -> bool {
let mut keepgoing = true;
do list_dir(p).each |q| {
let path = &p.push(*q);
if !f(path) {
keepgoing = false;
false
} else {
if path_is_dir(path) {
if !walk_dir_(path, f) {
keepgoing = false;
false
} else {
true
}
} else {
true
}
}
}
return keepgoing;
}
}
/// Indicates whether a path represents a directory
pub fn path_is_dir(p: &Path) -> bool {
unsafe {
do str::as_c_str(p.to_str()) |buf| {
rustrt::rust_path_is_dir(buf) != 0 as c_int
}
}
}
/// Indicates whether a path exists
pub fn path_exists(p: &Path) -> bool {
unsafe {
do str::as_c_str(p.to_str()) |buf| {
rustrt::rust_path_exists(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 {
copy *p
} else {
getcwd().push_many(p.components)
}
}
/// 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 {
unsafe {
use os::win32::as_utf16_p;
// FIXME: turn mode into something useful? #2623
do as_utf16_p(p.to_str()) |buf| {
libc::CreateDirectoryW(buf, unsafe {
cast::reinterpret_cast(&0)
})
!= (0 as libc::BOOL)
}
}
}
#[cfg(unix)]
fn mkdir(p: &Path, mode: c_int) -> bool {
unsafe {
do as_c_charp(p.to_str()) |c| {
libc::mkdir(c, mode as mode_t) == (0 as c_int)
}
}
}
}
/// Lists the contents of a directory
#[allow(non_implicitly_copyable_typarams)]
pub fn list_dir(p: &Path) -> ~[~str] {
unsafe {
#[cfg(target_os = "linux")]
#[cfg(target_os = "android")]
#[cfg(target_os = "freebsd")]
#[cfg(target_os = "macos")]
unsafe fn get_list(p: &Path) -> ~[~str] {
use libc::{dirent_t};
use libc::{opendir, readdir, closedir};
extern mod rustrt {
unsafe fn rust_list_dir_val(ptr: *dirent_t)
-> *libc::c_char;
}
let input = p.to_str();
let mut strings = ~[];
let input_ptr = ::cast::transmute(&input[0]);
debug!("os::list_dir -- BEFORE OPENDIR");
let dir_ptr = opendir(input_ptr);
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) {
strings.push(
str::raw::from_c_str(
rustrt::rust_list_dir_val(
entry_ptr)));
entry_ptr = readdir(dir_ptr);
}
closedir(dir_ptr);
}
else {
debug!("os::list_dir -- opendir() FAILURE");
}
debug!(
"os::list_dir -- AFTER -- #: %?",
strings.len());
strings
}
#[cfg(windows)]
unsafe fn get_list(p: &Path) -> ~[~str] {
use libc::types::os::arch::extra::{LPCTSTR, HANDLE, BOOL};
use libc::consts::os::extra::INVALID_HANDLE_VALUE;
use libc::wcslen;
use libc::funcs::extra::kernel32::{
FindFirstFileW,
FindNextFileW,
FindClose,
};
use os::win32::{
as_utf16_p
};
use unstable::exchange_alloc::{malloc_raw, free_raw};
#[nolink]
extern mod rustrt {
unsafe fn rust_list_dir_wfd_size() -> libc::size_t;
unsafe fn rust_list_dir_wfd_fp_buf(wfd: *libc::c_void)
-> *u16;
}
fn star(p: &Path) -> Path { p.push("*") }
do as_utf16_p(star(p).to_str()) |path_ptr| {
let mut strings = ~[];
let wfd_ptr = malloc_raw(
rustrt::rust_list_dir_wfd_size() as uint);
let find_handle =
FindFirstFileW(
path_ptr,
::cast::transmute(wfd_ptr));
if find_handle as int != INVALID_HANDLE_VALUE {
let mut more_files = 1 as libc::c_int;
while more_files != 0 {
let fp_buf = rustrt::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);
strings.push(fp_str);
}
more_files = FindNextFileW(
find_handle,
::cast::transmute(wfd_ptr));
}
FindClose(find_handle);
free_raw(wfd_ptr);
}
strings
}
}
do get_list(p).filtered |filename| {
*filename != ~"." && *filename != ~".."
}
}
}
/**
* 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.push(*f))
}
/// Removes a directory at the specified path
pub fn remove_dir(p: &Path) -> bool {
return rmdir(p);
#[cfg(windows)]
fn rmdir(p: &Path) -> bool {
unsafe {
use os::win32::as_utf16_p;
return do as_utf16_p(p.to_str()) |buf| {
libc::RemoveDirectoryW(buf) != (0 as libc::BOOL)
};
}
}
#[cfg(unix)]
fn rmdir(p: &Path) -> bool {
unsafe {
return do as_c_charp(p.to_str()) |buf| {
libc::rmdir(buf) == (0 as c_int)
};
}
}
}
pub fn change_dir(p: &Path) -> bool {
return chdir(p);
#[cfg(windows)]
fn chdir(p: &Path) -> bool {
unsafe {
use os::win32::as_utf16_p;
return do as_utf16_p(p.to_str()) |buf| {
libc::SetCurrentDirectoryW(buf) != (0 as libc::BOOL)
};
}
}
#[cfg(unix)]
fn chdir(p: &Path) -> bool {
unsafe {
return do as_c_charp(p.to_str()) |buf| {
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 {
unsafe {
use os::win32::as_utf16_p;
return do as_utf16_p(from.to_str()) |fromp| {
do as_utf16_p(to.to_str()) |top| {
libc::CopyFileW(fromp, top, (0 as libc::BOOL)) !=
(0 as libc::BOOL)
}
}
}
}
#[cfg(unix)]
fn do_copy_file(from: &Path, to: &Path) -> bool {
unsafe {
let istream = do as_c_charp(from.to_str()) |fromp| {
do as_c_charp("rb") |modebuf| {
libc::fopen(fromp, modebuf)
}
};
if istream as uint == 0u {
return false;
}
let ostream = do as_c_charp(to.to_str()) |top| {
do as_c_charp("w+b") |modebuf| {
libc::fopen(top, modebuf)
}
};
if ostream as uint == 0u {
fclose(istream);
return false;
}
let bufsize = 8192u;
let mut buf = vec::with_capacity::<u8>(bufsize);
let mut done = false;
let mut ok = true;
while !done {
do vec::as_mut_buf(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);
return ok;
}
}
}
/// Deletes an existing file
pub fn remove_file(p: &Path) -> bool {
return unlink(p);
#[cfg(windows)]
fn unlink(p: &Path) -> bool {
unsafe {
use os::win32::as_utf16_p;
return do as_utf16_p(p.to_str()) |buf| {
libc::DeleteFileW(buf) != (0 as libc::BOOL)
};
}
}
#[cfg(unix)]
fn unlink(p: &Path) -> bool {
unsafe {
return do as_c_charp(p.to_str()) |buf| {
libc::unlink(buf) == (0 as c_int)
};
}
}
}
#[cfg(unix)]
pub fn errno() -> int {
#[cfg(target_os = "macos")]
#[cfg(target_os = "freebsd")]
fn errno_location() -> *c_int {
#[nolink]
extern {
unsafe fn __error() -> *c_int;
}
unsafe {
__error()
}
}
#[cfg(target_os = "linux")]
#[cfg(target_os = "android")]
fn errno_location() -> *c_int {
#[nolink]
extern {
unsafe fn __errno_location() -> *c_int;
}
unsafe {
__errno_location()
}
}
unsafe {
(*errno_location()) as int
}
}
#[cfg(windows)]
pub fn errno() -> uint {
use libc::types::os::arch::extra::DWORD;
#[link_name = "kernel32"]
#[abi = "stdcall"]
extern "stdcall" {
unsafe 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: *c_char, buflen: size_t) -> c_int {
#[nolink]
extern {
unsafe fn strerror_r(errnum: c_int, buf: *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: *c_char, buflen: size_t) -> c_int {
#[nolink]
extern {
unsafe fn __xpg_strerror_r(errnum: c_int, buf: *c_char,
buflen: size_t) -> c_int;
}
unsafe {
__xpg_strerror_r(errnum, buf, buflen)
}
}
let mut buf = [0 as c_char, ..TMPBUF_SZ];
unsafe {
let err = strerror_r(errno() as c_int, &buf[0],
TMPBUF_SZ as size_t);
if err < 0 {
fail!(~"strerror_r failure");
}
str::raw::from_c_str(&buf[0])
}
}
#[cfg(windows)]
fn strerror() -> ~str {
use libc::types::os::arch::extra::DWORD;
use libc::types::os::arch::extra::LPSTR;
use libc::types::os::arch::extra::LPVOID;
#[link_name = "kernel32"]
#[abi = "stdcall"]
extern "stdcall" {
unsafe fn FormatMessageA(flags: DWORD, lpSrc: LPVOID,
msgId: DWORD, langId: DWORD,
buf: LPSTR, nsize: DWORD,
args: *c_void) -> DWORD;
}
static FORMAT_MESSAGE_FROM_SYSTEM: DWORD = 0x00001000;
static FORMAT_MESSAGE_IGNORE_INSERTS: DWORD = 0x00000200;
let mut buf = [0 as c_char, ..TMPBUF_SZ];
// This value is calculated from the macro
// MAKELANGID(LANG_SYSTEM_DEFAULT, SUBLANG_SYS_DEFAULT)
let langId = 0x0800 as DWORD;
let err = errno() as DWORD;
unsafe {
let res = FormatMessageA(FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
ptr::mut_null(), err, langId,
&mut buf[0], TMPBUF_SZ as DWORD,
ptr::null());
if res == 0 {
fail!(fmt!("[%?] FormatMessage failure", errno()));
}
str::raw::from_c_str(&buf[0])
}
}
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) {
unsafe {
rustrt::rust_set_exit_status(code as libc::intptr_t);
}
}
unsafe fn load_argc_and_argv(argc: c_int, argv: **c_char) -> ~[~str] {
let mut args = ~[];
for uint::range(0, argc as uint) |i| {
vec::push(&mut args, str::raw::from_c_str(*argv.offset(i)));
}
args
}
/**
* Returns the command line arguments
*
* Returns a list of the command line arguments.
*/
#[cfg(target_os = "macos")]
pub fn real_args() -> ~[~str] {
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")]
pub fn real_args() -> ~[~str] {
unsafe {
let argc = rustrt::rust_get_argc();
let argv = rustrt::rust_get_argv();
load_argc_and_argv(argc, argv)
}
}
#[cfg(windows)]
pub fn real_args() -> ~[~str] {
let mut nArgs: c_int = 0;
let lpArgCount = ptr::to_mut_unsafe_ptr(&mut nArgs);
let lpCmdLine = unsafe { GetCommandLineW() };
let szArgList = unsafe { CommandLineToArgvW(lpCmdLine, lpArgCount) };
let mut args = ~[];
for uint::range(0, nArgs as uint) |i| {
unsafe {
// Determine the length of this argument.
let ptr = *szArgList.offset(i);
let mut len = 0;
while *ptr.offset(len) != 0 { len += 1; }
// Push it onto the list.
vec::push(&mut args,
vec::raw::buf_as_slice(ptr, len,
str::from_utf16));
}
}
unsafe {
LocalFree(cast::transmute(szArgList));
}
return args;
}
type LPCWSTR = *u16;
#[cfg(windows)]
#[link_name="kernel32"]
#[abi="stdcall"]
extern "stdcall" {
fn GetCommandLineW() -> LPCWSTR;
fn LocalFree(ptr: *c_void);
}
#[cfg(windows)]
#[link_name="shell32"]
#[abi="stdcall"]
extern "stdcall" {
fn CommandLineToArgvW(lpCmdLine: LPCWSTR, pNumArgs: *mut c_int) -> **u16;
}
struct OverriddenArgs {
val: ~[~str]
}
fn overridden_arg_key(_v: @OverriddenArgs) {}
pub fn args() -> ~[~str] {
unsafe {
match task::local_data::local_data_get(overridden_arg_key) {
None => real_args(),
Some(args) => copy args.val
}
}
}
pub fn set_args(new_args: ~[~str]) {
unsafe {
let overridden_args = @OverriddenArgs { val: copy new_args };
task::local_data::local_data_set(overridden_arg_key, overridden_args);
}
}
#[cfg(target_os = "macos")]
extern {
// These functions are in crt_externs.h.
pub fn _NSGetArgc() -> *c_int;
pub fn _NSGetArgv() -> ***c_char;
}
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")]
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 EXE_SUFFIX: &'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 EXE_SUFFIX: &'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 EXE_SUFFIX: &'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 EXE_SUFFIX: &'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 EXE_SUFFIX: &'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)]
#[allow(non_implicitly_copyable_typarams)]
mod tests {
use libc::{c_int, c_void, size_t};
use libc;
use option::Some;
use option;
use os::{as_c_charp, env, getcwd, getenv, make_absolute, real_args};
use os::{remove_file, setenv};
use os;
use path::Path;
use rand::RngUtil;
use rand;
use run;
use str;
use vec;
#[test]
pub fn last_os_error() {
debug!(os::last_os_error());
}
#[test]
pub fn test_args() {
let a = real_args();
assert!(a.len() >= 1);
}
fn make_rand_name() -> ~str {
let rng: @rand::Rng = rand::Rng();
let n = ~"TEST" + rng.gen_str(10u);
assert!(getenv(n).is_none());
n
}
#[test]
fn test_setenv() {
let n = make_rand_name();
setenv(n, ~"VALUE");
assert!(getenv(n) == option::Some(~"VALUE"));
}
#[test]
#[ignore(cfg(windows))]
#[ignore]
fn test_setenv_overwrite() {
let n = make_rand_name();
setenv(n, ~"1");
setenv(n, ~"2");
assert!(getenv(n) == option::Some(~"2"));
setenv(n, ~"");
assert!(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(cfg(windows))]
#[ignore]
fn test_getenv_big() {
let mut s = ~"";
let mut i = 0;
while i < 100 { s += ~"aaaaaaaaaa"; i += 1; }
let n = make_rand_name();
setenv(n, s);
debug!(copy s);
assert!(getenv(n) == option::Some(s));
}
#[test]
fn test_self_exe_path() {
let path = os::self_exe_path();
assert!(path.is_some());
let path = path.get();
debug!(copy path);
// Hard to test this function
assert!(path.is_absolute);
}
#[test]
#[ignore]
fn test_env_getenv() {
let e = env();
assert!(vec::len(e) > 0u);
for vec::each(e) |p| {
let (n, v) = copy *p;
debug!(copy n);
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!(!vec::contains(e, &(copy n, ~"VALUE")));
e = env();
assert!(vec::contains(e, &(n, ~"VALUE")));
}
#[test]
fn test() {
assert!((!Path("test-path").is_absolute));
debug!(~"Current working directory: " + getcwd().to_str());
debug!(make_absolute(&Path("test-path")));
debug!(make_absolute(&Path("/usr/bin")));
}
#[test]
#[cfg(unix)]
fn homedir() {
let oldhome = getenv(~"HOME");
setenv(~"HOME", ~"/home/MountainView");
assert!(os::homedir() == Some(Path("/home/MountainView")));
setenv(~"HOME", ~"");
assert!(os::homedir().is_none());
for oldhome.each |s| { 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!(os::homedir() == Some(Path("/home/MountainView")));
setenv(~"HOME", ~"");
setenv(~"USERPROFILE", ~"/home/MountainView");
assert!(os::homedir() == Some(Path("/home/MountainView")));
setenv(~"HOME", ~"/home/MountainView");
setenv(~"USERPROFILE", ~"/home/PaloAlto");
assert!(os::homedir() == Some(Path("/home/MountainView")));
oldhome.each(|s| {setenv(~"HOME", *s);true});
olduserprofile.each(|s| {setenv(~"USERPROFILE", *s);true});
}
#[test]
fn tmpdir() {
assert!(!str::is_empty(os::tmpdir().to_str()));
}
// Issue #712
#[test]
fn test_list_dir_no_invalid_memory_access() {
os::list_dir(&Path("."));
}
#[test]
fn list_dir() {
let dirs = os::list_dir(&Path("."));
// Just assuming that we've got some contents in the current directory
assert!((vec::len(dirs) > 0u));
for vec::each(dirs) |dir| {
debug!(copy *dir);
}
}
#[test]
fn path_is_dir() {
assert!((os::path_is_dir(&Path("."))));
assert!((!os::path_is_dir(&Path("test/stdtest/fs.rs"))));
}
#[test]
fn path_exists() {
assert!((os::path_exists(&Path("."))));
assert!((!os::path_exists(&Path(
"test/nonexistent-bogus-path"))));
}
#[test]
fn copy_file_does_not_exist() {
assert!(!os::copy_file(&Path("test/nonexistent-bogus-path"),
&Path("test/other-bogus-path")));
assert!(!os::path_exists(&Path("test/other-bogus-path")));
}
#[test]
fn copy_file_ok() {
unsafe {
let tempdir = getcwd(); // would like to use $TMPDIR,
// doesn't seem to work on Linux
assert!((str::len(tempdir.to_str()) > 0u));
let in = tempdir.push("in.txt");
let out = tempdir.push("out.txt");
/* Write the temp input file */
let ostream = do as_c_charp(in.to_str()) |fromp| {
do as_c_charp("w+b") |modebuf| {
libc::fopen(fromp, modebuf)
}
};
assert!((ostream as uint != 0u));
let s = ~"hello";
let mut buf = str::to_bytes(s) + ~[0 as u8];
do vec::as_mut_buf(buf) |b, _len| {
assert!((libc::fwrite(b as *c_void, 1u as size_t,
(str::len(s) + 1u) as size_t, ostream)
== buf.len() as size_t))
}
assert!((libc::fclose(ostream) == (0u as c_int)));
let rs = os::copy_file(&in, &out);
if (!os::path_exists(&in)) {
fail!(fmt!("%s doesn't exist", in.to_str()));
}
assert!((rs));
let rslt = run::run_program(~"diff", ~[in.to_str(), out.to_str()]);
assert!((rslt == 0));
assert!((remove_file(&in)));
assert!((remove_file(&out)));
}
}
}
Reference in New Issue View Git Blame Copy Permalink