Odin/core/os/os_windows.odin

// +build windows
package os

import win32 "core:sys/windows"
import "core:intrinsics"

Handle    :: distinct uintptr;
File_Time :: distinct u64;
Errno     :: distinct int;


INVALID_HANDLE :: ~Handle(0);



O_RDONLY   :: 0x00000;
O_WRONLY   :: 0x00001;
O_RDWR     :: 0x00002;
O_CREATE   :: 0x00040;
O_EXCL     :: 0x00080;
O_NOCTTY   :: 0x00100;
O_TRUNC    :: 0x00200;
O_NONBLOCK :: 0x00800;
O_APPEND   :: 0x00400;
O_SYNC     :: 0x01000;
O_ASYNC    :: 0x02000;
O_CLOEXEC  :: 0x80000;


ERROR_NONE:                   Errno : 0;
ERROR_FILE_NOT_FOUND:         Errno : 2;
ERROR_PATH_NOT_FOUND:         Errno : 3;
ERROR_ACCESS_DENIED:          Errno : 5;
ERROR_INVALID_HANDLE:         Errno : 6;
ERROR_NO_MORE_FILES:          Errno : 18;
ERROR_HANDLE_EOF:             Errno : 38;
ERROR_NETNAME_DELETED:        Errno : 64;
ERROR_FILE_EXISTS:            Errno : 80;
ERROR_BROKEN_PIPE:            Errno : 109;
ERROR_BUFFER_OVERFLOW:        Errno : 111;
ERROR_INSUFFICIENT_BUFFER:    Errno : 122;
ERROR_MOD_NOT_FOUND:          Errno : 126;
ERROR_PROC_NOT_FOUND:         Errno : 127;
ERROR_DIR_NOT_EMPTY:          Errno : 145;
ERROR_ALREADY_EXISTS:         Errno : 183;
ERROR_ENVVAR_NOT_FOUND:       Errno : 203;
ERROR_MORE_DATA:              Errno : 234;
ERROR_OPERATION_ABORTED:      Errno : 995;
ERROR_IO_PENDING:             Errno : 997;
ERROR_NOT_FOUND:              Errno : 1168;
ERROR_PRIVILEGE_NOT_HELD:     Errno : 1314;
WSAEACCES:                    Errno : 10013;
WSAECONNRESET:                Errno : 10054;

// Windows reserves errors >= 1<<29 for application use
ERROR_FILE_IS_PIPE:           Errno : 1<<29 + 0;


// "Argv" arguments converted to Odin strings
args := _alloc_command_line_arguments();


is_path_separator :: proc(r: rune) -> bool {
	return r == '/' || r == '\\';
}

open :: proc(path: string, mode: int = O_RDONLY, perm: int = 0) -> (Handle, Errno) {
	if len(path) == 0 do return INVALID_HANDLE, ERROR_FILE_NOT_FOUND;

	access: u32;
	switch mode & (O_RDONLY|O_WRONLY|O_RDWR) {
	case O_RDONLY: access = win32.FILE_GENERIC_READ;
	case O_WRONLY: access = win32.FILE_GENERIC_WRITE;
	case O_RDWR:   access = win32.FILE_GENERIC_READ | win32.FILE_GENERIC_WRITE;
	}

	if mode&O_APPEND != 0 {
		access &~= win32.FILE_GENERIC_WRITE;
		access |=  win32.FILE_APPEND_DATA;
	}
	if mode&O_CREATE != 0 {
		access |= win32.FILE_GENERIC_WRITE;
	}

	share_mode := u32(win32.FILE_SHARE_READ|win32.FILE_SHARE_WRITE);
	sa: ^win32.SECURITY_ATTRIBUTES = nil;
	sa_inherit := win32.SECURITY_ATTRIBUTES{nLength = size_of(win32.SECURITY_ATTRIBUTES), bInheritHandle = true};
	if mode&O_CLOEXEC == 0 {
		sa = &sa_inherit;
	}

	create_mode: u32;
	switch {
	case mode&(O_CREATE|O_EXCL) == (O_CREATE | O_EXCL):
		create_mode = win32.CREATE_NEW;
	case mode&(O_CREATE|O_TRUNC) == (O_CREATE | O_TRUNC):
		create_mode = win32.CREATE_ALWAYS;
	case mode&O_CREATE == O_CREATE:
		create_mode = win32.OPEN_ALWAYS;
	case mode&O_TRUNC == O_TRUNC:
		create_mode = win32.TRUNCATE_EXISTING;
	case:
		create_mode = win32.OPEN_EXISTING;
	}
	wide_path := win32.utf8_to_wstring(path);
	handle := Handle(win32.CreateFileW(auto_cast wide_path, access, share_mode, sa, create_mode, win32.FILE_ATTRIBUTE_NORMAL, nil));
	if handle != INVALID_HANDLE do return handle, ERROR_NONE;

	err := Errno(win32.GetLastError());
	return INVALID_HANDLE, err;
}

close :: proc(fd: Handle) -> Errno {
	if !win32.CloseHandle(win32.HANDLE(fd)) {
		return Errno(win32.GetLastError());
	}
	return ERROR_NONE;
}


write :: proc(fd: Handle, data: []byte) -> (int, Errno) {
	if len(data) == 0 do return 0, ERROR_NONE;

	single_write_length: win32.DWORD;
	total_write: i64;
	length := i64(len(data));

	for total_write < length {
		remaining := length - total_write;
		MAX :: 1<<31-1;
		to_write := win32.DWORD(min(i32(remaining), MAX));

		e := win32.WriteFile(win32.HANDLE(fd), &data[total_write], to_write, &single_write_length, nil);
		if single_write_length <= 0 || !e {
			err := Errno(win32.GetLastError());
			return int(total_write), err;
		}
		total_write += i64(single_write_length);
	}
	return int(total_write), ERROR_NONE;
}

read :: proc(fd: Handle, data: []byte) -> (int, Errno) {
	if len(data) == 0 do return 0, ERROR_NONE;

	single_read_length: win32.DWORD;
	total_read: i64;
	length := i64(len(data));

	for total_read < length {
		remaining := length - total_read;
		MAX :: 1<<32-1;
		to_read := win32.DWORD(min(u32(remaining), MAX));

		e := win32.ReadFile(win32.HANDLE(fd), &data[total_read], to_read, &single_read_length, nil);
		if single_read_length <= 0 || !e {
			err := Errno(win32.GetLastError());
			return int(total_read), err;
		}
		total_read += i64(single_read_length);
	}
	return int(total_read), ERROR_NONE;
}

seek :: proc(fd: Handle, offset: i64, whence: int) -> (i64, Errno) {
	w: u32;
	switch whence {
	case 0: w = win32.FILE_BEGIN;
	case 1: w = win32.FILE_CURRENT;
	case 2: w = win32.FILE_END;
	}
	hi := i32(offset>>32);
	lo := i32(offset);
	ft := win32.GetFileType(win32.HANDLE(fd));
	if ft == win32.FILE_TYPE_PIPE do return 0, ERROR_FILE_IS_PIPE;

	dw_ptr := win32.SetFilePointer(win32.HANDLE(fd), lo, &hi, w);
	if dw_ptr == win32.INVALID_SET_FILE_POINTER {
		err := Errno(win32.GetLastError());
		return 0, err;
	}
	return i64(hi)<<32 + i64(dw_ptr), ERROR_NONE;
}

file_size :: proc(fd: Handle) -> (i64, Errno) {
	length: win32.LARGE_INTEGER;
	err: Errno;
	if !win32.GetFileSizeEx(win32.HANDLE(fd), &length) {
		err = Errno(win32.GetLastError());
	}
	return i64(length), err;
}



// NOTE(bill): Uses startup to initialize it
stdin  := get_std_handle(uint(win32.STD_INPUT_HANDLE));
stdout := get_std_handle(uint(win32.STD_OUTPUT_HANDLE));
stderr := get_std_handle(uint(win32.STD_ERROR_HANDLE));


get_std_handle :: proc "contextless" (h: uint) -> Handle {
	fd := win32.GetStdHandle(win32.DWORD(h));
	when size_of(uintptr) == 8 {
		win32.SetHandleInformation(fd, win32.HANDLE_FLAG_INHERIT, 0);
	}
	return Handle(fd);
}





last_write_time :: proc(fd: Handle) -> (File_Time, Errno) {
	file_info: win32.BY_HANDLE_FILE_INFORMATION;
	if !win32.GetFileInformationByHandle(win32.HANDLE(fd), &file_info) {
		return 0, Errno(win32.GetLastError());
	}
	lo := File_Time(file_info.ftLastWriteTime.dwLowDateTime);
	hi := File_Time(file_info.ftLastWriteTime.dwHighDateTime);
	return lo | hi << 32, ERROR_NONE;
}

last_write_time_by_name :: proc(name: string) -> (File_Time, Errno) {
	data: win32.WIN32_FILE_ATTRIBUTE_DATA;

	wide_path := win32.utf8_to_wstring(name);
	if !win32.GetFileAttributesExW(auto_cast wide_path, win32.GetFileExInfoStandard, &data) {
		return 0, Errno(win32.GetLastError());
	}

	l := File_Time(data.ftLastWriteTime.dwLowDateTime);
	h := File_Time(data.ftLastWriteTime.dwHighDateTime);
	return l | h << 32, ERROR_NONE;
}



heap_alloc :: proc(size: int) -> rawptr {
	return win32.HeapAlloc(win32.GetProcessHeap(), win32.HEAP_ZERO_MEMORY, uint(size));
}
heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
	if new_size == 0 {
		heap_free(ptr);
		return nil;
	}
	if ptr == nil do return heap_alloc(new_size);

	return win32.HeapReAlloc(win32.GetProcessHeap(), win32.HEAP_ZERO_MEMORY, ptr, uint(new_size));
}
heap_free :: proc(ptr: rawptr) {
	if ptr == nil do return;
	win32.HeapFree(win32.GetProcessHeap(), 0, ptr);
}

get_page_size :: proc() -> int {
	// NOTE(tetra): The page size never changes, so why do anything complicated
	// if we don't have to.
	@static page_size := -1;
	if page_size != -1 do return page_size;

	info: win32.SYSTEM_INFO;
	win32.GetSystemInfo(&info);
	page_size = int(info.dwPageSize);
	return page_size;
}



// NOTE(tetra): GetCurrentDirectory is not thread safe with SetCurrentDirectory and GetFullPathName;
// The current directory is stored as a global variable in the process.
@private cwd_gate := false;

get_current_directory :: proc() -> string {
	for intrinsics.atomic_xchg(&cwd_gate, true) {}

	sz_utf16 := win32.GetCurrentDirectoryW(0, nil);
	dir_buf_wstr := make([]u16, sz_utf16, context.temp_allocator); // the first time, it _includes_ the NUL.

	sz_utf16 = win32.GetCurrentDirectoryW(win32.DWORD(len(dir_buf_wstr)), auto_cast &dir_buf_wstr[0]);
	assert(int(sz_utf16)+1 == len(dir_buf_wstr)); // the second time, it _excludes_ the NUL.

	intrinsics.atomic_store(&cwd_gate, false);

	return win32.utf16_to_utf8(dir_buf_wstr);
}

set_current_directory :: proc(path: string) -> (err: Errno) {
	wstr := win32.utf8_to_wstring(path);

	for intrinsics.atomic_xchg(&cwd_gate, true) {}
	defer intrinsics.atomic_store(&cwd_gate, false);

	res := win32.SetCurrentDirectoryW(auto_cast wstr);
	if !res do return Errno(win32.GetLastError());

	return;
}



exit :: proc(code: int) -> ! {
	win32.ExitProcess(win32.DWORD(code));
}



current_thread_id :: proc "contextless" () -> int {
	return int(win32.GetCurrentThreadId());
}



_alloc_command_line_arguments :: proc() -> []string {
	arg_count: i32;
	arg_list_ptr := win32.CommandLineToArgvW(win32.GetCommandLineW(), &arg_count);
	arg_list := make([]string, int(arg_count));
	for _, i in arg_list {
		wc_str := (^win32.wstring)(uintptr(arg_list_ptr) + size_of(win32.wstring)*uintptr(i))^;
		olen := win32.WideCharToMultiByte(win32.CP_UTF8, 0, wc_str, -1,
		                                  nil, 0, nil, nil);

		buf := make([]byte, int(olen));
		n := win32.WideCharToMultiByte(win32.CP_UTF8, 0, wc_str, -1,
		                               raw_data(buf), olen, nil, nil);
		if n > 0 {
			n -= 1;
		}
		arg_list[i] = string(buf[:n]);
	}

	return arg_list;
}

get_windows_version_ansi :: proc() -> win32.OSVERSIONINFOEXW {
	osvi : win32.OSVERSIONINFOEXW;
	osvi.os_version_info_size = size_of(win32.OSVERSIONINFOEXW);
    win32.GetVersionExW(&osvi);
    return osvi;
}

is_windows_xp :: proc() -> bool {
	osvi := get_windows_version_ansi();
	return (osvi.major_version == 5 && osvi.minor_version == 1);
}

is_windows_vista :: proc() -> bool {
	osvi := get_windows_version_ansi();
	return (osvi.major_version == 6 && osvi.minor_version == 0);
}

is_windows_7 :: proc() -> bool {
	osvi := get_windows_version_ansi();
	return (osvi.major_version == 6 && osvi.minor_version == 1);
}

is_windows_8 :: proc() -> bool {
	osvi := get_windows_version_ansi();
	return (osvi.major_version == 6 && osvi.minor_version == 2);
}

is_windows_8_1 :: proc() -> bool {
	osvi := get_windows_version_ansi();
	return (osvi.major_version == 6 && osvi.minor_version == 3);
}

is_windows_10 :: proc() -> bool {
	osvi := get_windows_version_ansi();
	return (osvi.major_version == 10 && osvi.minor_version == 0);
}