}
#[cfg(windows)]
-pub mod windows {
+pub mod windoze {
use libc::types::os::arch::extra::DWORD;
use libc;
use option::Option;
pub fn getenv(n: &str) -> Option<String> {
unsafe {
with_env_lock(|| {
- use os::windows::{fill_utf16_buf_and_decode};
+ use os::windoze::{fill_utf16_buf_and_decode};
let mut n: Vec<u16> = n.utf16_units().collect();
n.push(0);
fill_utf16_buf_and_decode(|buf, sz| {
#[cfg(windows)]
fn load_self() -> Option<Vec<u8>> {
unsafe {
- use os::windows::fill_utf16_buf_and_decode;
+ use os::windoze::fill_utf16_buf_and_decode;
fill_utf16_buf_and_decode(|buf, sz| {
libc::GetModuleFileNameW(0u as libc::DWORD, buf, sz)
}).map(|s| s.into_string().into_bytes())
/// Create a map for a specific address range. Corresponds to `MAP_FIXED` on
/// POSIX.
MapAddr(*const u8),
+ /// Create a memory mapping for a file with a given HANDLE.
+ #[cfg(windows)]
+ MapFd(libc::HANDLE),
/// Create a memory mapping for a file with a given fd.
+ #[cfg(not(windows))]
MapFd(c_int),
/// When using `MapFd`, the start of the map is `uint` bytes from the start
/// of the file.
let mut readable = false;
let mut writable = false;
let mut executable = false;
- let mut fd: c_int = -1;
+ let mut handle: HANDLE = libc::INVALID_HANDLE_VALUE;
let mut offset: uint = 0;
let len = round_up(min_len, page_size());
MapWritable => { writable = true; },
MapExecutable => { executable = true; }
MapAddr(addr_) => { lpAddress = addr_ as LPVOID; },
- MapFd(fd_) => { fd = fd_; },
+ MapFd(handle_) => { handle = handle_; },
MapOffset(offset_) => { offset = offset_; },
MapNonStandardFlags(..) => {}
}
}
let flProtect = match (executable, readable, writable) {
- (false, false, false) if fd == -1 => libc::PAGE_NOACCESS,
+ (false, false, false) if handle == libc::INVALID_HANDLE_VALUE => 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, false, false) if handle == libc::INVALID_HANDLE_VALUE => libc::PAGE_EXECUTE,
(true, true, false) => libc::PAGE_EXECUTE_READ,
(true, true, true) => libc::PAGE_EXECUTE_READWRITE,
_ => return Err(ErrUnsupProt)
};
- if fd == -1 {
+ if handle == libc::INVALID_HANDLE_VALUE {
if offset != 0 {
return Err(ErrUnsupOffset);
}
// we should never get here.
};
unsafe {
- let hFile = libc::get_osfhandle(fd) as HANDLE;
+ let hFile = handle;
let mapping = libc::CreateFileMappingW(hFile,
ptr::null_mut(),
flProtect,
#[test]
fn memory_map_file() {
- use result::Result::{Ok, Err};
use os::*;
- use libc::*;
- 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);
- }
+ use io::fs::{File, unlink};
+ use io::SeekStyle::SeekSet;
+ use io::FileMode::Open;
+ use io::FileAccess::ReadWrite;
+ use libc::HANDLE;
+
+ #[cfg(not(windows))]
+ fn get_fd(file: &File) -> c_int {
+ use os::unix::AsRawFd;
+ file.as_raw_fd()
}
+
#[cfg(windows)]
- fn lseek_(fd: c_int, size: uint) {
- unsafe {
- assert!(lseek(fd, size as c_long, SEEK_SET) == size as c_long);
- }
+ fn get_fd(file: &File) -> HANDLE {
+ use os::windows::AsRawHandle;
+ file.as_raw_handle()
}
let mut path = tmpdir();
path.push("mmap_file.tmp");
let size = MemoryMap::granularity() * 2;
+ let mut file = File::open_mode(&path, Open, ReadWrite).unwrap();
+ file.seek(size as i64, SeekSet);
+ file.write_u8(0);
- 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 *const c_void, 1) == 1));
- fd
- };
- let chunk = match MemoryMap::new(size / 2, &[
+ let chunk = MemoryMap::new(size / 2, &[
MapReadable,
MapWritable,
- MapFd(fd),
+ MapFd(get_fd(&file)),
MapOffset(size / 2)
- ]) {
- Ok(chunk) => chunk,
- Err(msg) => panic!("{}", msg)
- };
+ ]).unwrap();
assert!(chunk.len > 0);
unsafe {
*chunk.data = 0xbe;
assert!(*chunk.data == 0xbe);
- close(fd);
}
drop(chunk);
- fs::unlink(&path).unwrap();
+ unlink(&path).unwrap();
}
#[test]