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v/vlib/os/os_windows.c.v

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17 KiB
V

module os
import strings
#flag windows -l advapi32
#include <process.h>
#include <sys/utime.h>
// See https://docs.microsoft.com/en-us/windows/win32/api/winbase/nf-winbase-createsymboliclinkw
fn C.CreateSymbolicLinkW(&u16, &u16, u32) int
// See https://docs.microsoft.com/en-us/windows/win32/api/winbase/nf-winbase-createhardlinkw
fn C.CreateHardLinkW(&u16, &u16, C.SECURITY_ATTRIBUTES) int
fn C._getpid() int
const executable_suffixes = ['.exe', '.bat', '.cmd', '']
pub const (
path_separator = '\\'
path_delimiter = ';'
)
// Ref - https://docs.microsoft.com/en-us/windows/desktop/winprog/windows-data-types
// A handle to an object.
pub type HANDLE = voidptr
pub type HMODULE = voidptr
// win: FILETIME
// https://docs.microsoft.com/en-us/windows/win32/api/minwinbase/ns-minwinbase-filetime
struct Filetime {
dw_low_date_time u32
dw_high_date_time u32
}
// win: WIN32_FIND_DATA
// https://docs.microsoft.com/en-us/windows/win32/api/minwinbase/ns-minwinbase-win32_find_dataw
struct Win32finddata {
mut:
dw_file_attributes u32
ft_creation_time Filetime
ft_last_access_time Filetime
ft_last_write_time Filetime
n_file_size_high u32
n_file_size_low u32
dw_reserved0 u32
dw_reserved1 u32
c_file_name [260]u16 // max_path_len = 260
c_alternate_file_name [14]u16 // 14
dw_file_type u32
dw_creator_type u32
w_finder_flags u16
}
struct ProcessInformation {
mut:
h_process voidptr
h_thread voidptr
dw_process_id u32
dw_thread_id u32
}
struct StartupInfo {
mut:
cb u32
lp_reserved &u16 = unsafe { nil }
lp_desktop &u16 = unsafe { nil }
lp_title &u16 = unsafe { nil }
dw_x u32
dw_y u32
dw_x_size u32
dw_y_size u32
dw_x_count_chars u32
dw_y_count_chars u32
dw_fill_attributes u32
dw_flags u32
w_show_window u16
cb_reserved2 u16
lp_reserved2 &u8 = unsafe { nil }
h_std_input voidptr
h_std_output voidptr
h_std_error voidptr
}
struct SecurityAttributes {
mut:
n_length u32
lp_security_descriptor voidptr
b_inherit_handle bool
}
struct C._utimbuf {
actime int
modtime int
}
fn C._utime(&char, voidptr) int
fn init_os_args_wide(argc int, argv &&u8) []string {
mut args_ := []string{len: argc}
for i in 0 .. argc {
args_[i] = unsafe { string_from_wide(&u16(argv[i])) }
}
return args_
}
fn native_glob_pattern(pattern string, mut matches []string) ! {
$if debug {
// FindFirstFile() and FindNextFile() both have a globbing function.
// Unfortunately this is not as pronounced as under Unix, but should provide some functionality
eprintln('os.glob() does not have all the features on Windows as it has on Unix operating systems')
}
mut find_file_data := Win32finddata{}
wpattern := pattern.replace('/', '\\').to_wide()
h_find_files := C.FindFirstFile(wpattern, voidptr(&find_file_data))
defer {
C.FindClose(h_find_files)
}
if h_find_files == C.INVALID_HANDLE_VALUE {
return error('os.glob(): Could not get a file handle: ' +
get_error_msg(int(C.GetLastError())))
}
// save first finding
fname := unsafe { string_from_wide(&find_file_data.c_file_name[0]) }
if fname !in ['.', '..'] {
mut fp := fname.replace('\\', '/')
if find_file_data.dw_file_attributes & u32(C.FILE_ATTRIBUTE_DIRECTORY) > 0 {
fp += '/'
}
matches << fp
}
// check and save next findings
for i := 0; C.FindNextFile(h_find_files, voidptr(&find_file_data)) > 0; i++ {
filename := unsafe { string_from_wide(&find_file_data.c_file_name[0]) }
if filename in ['.', '..'] {
continue
}
mut fpath := filename.replace('\\', '/')
if find_file_data.dw_file_attributes & u32(C.FILE_ATTRIBUTE_DIRECTORY) > 0 {
fpath += '/'
}
matches << fpath
}
}
pub fn utime(path string, actime int, modtime int) ! {
mut u := C._utimbuf{actime, modtime}
if C._utime(&char(path.str), voidptr(&u)) != 0 {
return error_with_code(posix_get_error_msg(C.errno), C.errno)
}
}
pub fn ls(path string) ![]string {
if path.len == 0 {
return error('ls() expects a folder, not an empty string')
}
mut find_file_data := Win32finddata{}
mut dir_files := []string{}
// We can also check if the handle is valid. but using is_dir instead
// h_find_dir := C.FindFirstFile(path.str, &find_file_data)
// if (invalid_handle_value == h_find_dir) {
// return dir_files
// }
// C.FindClose(h_find_dir)
if !is_dir(path) {
return error('ls() couldnt open dir "${path}": directory does not exist')
}
// we need to add files to path eg. c:\windows\*.dll or :\windows\*
path_files := '${path}\\*'
// NOTE:TODO: once we have a way to convert utf16 wide character to utf8
// we should use FindFirstFileW and FindNextFileW
h_find_files := C.FindFirstFile(path_files.to_wide(), voidptr(&find_file_data))
first_filename := unsafe { string_from_wide(&find_file_data.c_file_name[0]) }
if first_filename != '.' && first_filename != '..' {
dir_files << first_filename
}
for C.FindNextFile(h_find_files, voidptr(&find_file_data)) > 0 {
filename := unsafe { string_from_wide(&find_file_data.c_file_name[0]) }
if filename != '.' && filename != '..' {
dir_files << filename.clone()
}
}
C.FindClose(h_find_files)
return dir_files
}
// mkdir creates a new directory with the specified path.
pub fn mkdir(path string, params MkdirParams) ! {
if path == '.' {
return
}
apath := real_path(path)
if !C.CreateDirectory(apath.to_wide(), 0) {
return error('mkdir failed for "${apath}", because CreateDirectory returned: ' +
get_error_msg(int(C.GetLastError())))
}
}
// Ref - https://docs.microsoft.com/en-us/cpp/c-runtime-library/reference/get-osfhandle?view=vs-2019
// get_file_handle retrieves the operating-system file handle that is associated with the specified file descriptor.
pub fn get_file_handle(path string) HANDLE {
cfile := vfopen(path, 'rb') or { return HANDLE(invalid_handle_value) }
handle := HANDLE(C._get_osfhandle(fileno(cfile))) // CreateFile? - hah, no -_-
return handle
}
// Ref - https://docs.microsoft.com/en-us/windows/win32/api/libloaderapi/nf-libloaderapi-getmodulefilenamea
// get_module_filename retrieves the fully qualified path for the file that contains the specified module.
// The module must have been loaded by the current process.
pub fn get_module_filename(handle HANDLE) !string {
unsafe {
mut sz := 4096 // Optimized length
mut buf := &u16(malloc_noscan(4096))
for {
status := int(C.GetModuleFileNameW(handle, voidptr(&buf), sz))
match status {
success {
return string_from_wide2(buf, sz)
}
else {
// Must handled with GetLastError and converted by FormatMessage
return error('Cannot get file name from handle')
}
}
}
}
panic('this should be unreachable') // TODO remove unreachable after loop
}
// Ref - https://docs.microsoft.com/en-us/windows/win32/api/winbase/nf-winbase-formatmessagea#parameters
const (
format_message_allocate_buffer = 0x00000100
format_message_argument_array = 0x00002000
format_message_from_hmodule = 0x00000800
format_message_from_string = 0x00000400
format_message_from_system = 0x00001000
format_message_ignore_inserts = 0x00000200
)
// Ref - winnt.h
const (
sublang_neutral = 0x00
sublang_default = 0x01
lang_neutral = sublang_neutral
)
// Ref - https://docs.microsoft.com/en-us/windows/win32/debug/system-error-codes--12000-15999-
const (
max_error_code = 15841 // ERROR_API_UNAVAILABLE
)
// ptr_win_get_error_msg return string (voidptr)
// representation of error, only for windows.
fn ptr_win_get_error_msg(code u32) voidptr {
mut buf := unsafe { nil }
// Check for code overflow
if code > u32(os.max_error_code) {
return buf
}
C.FormatMessage(os.format_message_allocate_buffer | os.format_message_from_system | os.format_message_ignore_inserts,
0, code, 0, voidptr(&buf), 0, 0)
return buf
}
// get_error_msg return error code representation in string.
pub fn get_error_msg(code int) string {
if code < 0 { // skip negative
return ''
}
ptr_text := ptr_win_get_error_msg(u32(code))
if ptr_text == 0 { // compare with null
return ''
}
return unsafe { string_from_wide(ptr_text) }
}
// execute starts the specified command, waits for it to complete, and returns its output.
// In opposition to `raw_execute` this function will safeguard against content that is known to cause
// a lot of problems when executing shell commands on Windows.
pub fn execute(cmd string) Result {
if cmd.contains(';') || cmd.contains('&&') || cmd.contains('||') || cmd.contains('\n') {
return Result{
exit_code: -1
output: ';, &&, || and \\n are not allowed in shell commands'
}
}
return unsafe { raw_execute(cmd) }
}
// raw_execute starts the specified command, waits for it to complete, and returns its output.
// It's marked as `unsafe` to help emphasize the problems that may arise by allowing, for example,
// user provided escape sequences.
[unsafe]
pub fn raw_execute(cmd string) Result {
mut child_stdin := &u32(0)
mut child_stdout_read := &u32(0)
mut child_stdout_write := &u32(0)
mut sa := SecurityAttributes{}
sa.n_length = sizeof(C.SECURITY_ATTRIBUTES)
sa.b_inherit_handle = true
create_pipe_ok := C.CreatePipe(voidptr(&child_stdout_read), voidptr(&child_stdout_write),
voidptr(&sa), 0)
if !create_pipe_ok {
error_num := int(C.GetLastError())
error_msg := get_error_msg(error_num)
return Result{
exit_code: error_num
output: 'exec failed (CreatePipe): ${error_msg}'
}
}
set_handle_info_ok := C.SetHandleInformation(child_stdout_read, C.HANDLE_FLAG_INHERIT,
0)
if !set_handle_info_ok {
error_num := int(C.GetLastError())
error_msg := get_error_msg(error_num)
return Result{
exit_code: error_num
output: 'exec failed (SetHandleInformation): ${error_msg}'
}
}
proc_info := ProcessInformation{}
start_info := StartupInfo{
lp_reserved2: 0
lp_reserved: 0
lp_desktop: 0
lp_title: 0
cb: sizeof(C.PROCESS_INFORMATION)
h_std_input: child_stdin
h_std_output: child_stdout_write
h_std_error: child_stdout_write
dw_flags: u32(C.STARTF_USESTDHANDLES)
}
command_line := [32768]u16{}
C.ExpandEnvironmentStringsW(cmd.to_wide(), voidptr(&command_line), 32768)
create_process_ok := C.CreateProcessW(0, &command_line[0], 0, 0, C.TRUE, 0, 0, 0,
voidptr(&start_info), voidptr(&proc_info))
if !create_process_ok {
error_num := int(C.GetLastError())
error_msg := get_error_msg(error_num)
return Result{
exit_code: error_num
output: 'exec failed (CreateProcess) with code ${error_num}: ${error_msg} cmd: ${cmd}'
}
}
C.CloseHandle(child_stdin)
C.CloseHandle(child_stdout_write)
buf := [4096]u8{}
mut bytes_read := u32(0)
mut read_data := strings.new_builder(1024)
for {
mut result := false
unsafe {
result = C.ReadFile(child_stdout_read, &buf[0], 1000, voidptr(&bytes_read),
0)
read_data.write_ptr(&buf[0], int(bytes_read))
}
if result == false || int(bytes_read) == 0 {
break
}
}
soutput := read_data.str()
unsafe { read_data.free() }
exit_code := u32(0)
C.WaitForSingleObject(proc_info.h_process, C.INFINITE)
C.GetExitCodeProcess(proc_info.h_process, voidptr(&exit_code))
C.CloseHandle(proc_info.h_process)
C.CloseHandle(proc_info.h_thread)
return Result{
output: soutput
exit_code: int(exit_code)
}
}
pub fn symlink(origin string, target string) ! {
// this is a temporary fix for TCC32 due to runtime error
// TODO: find the cause why TCC32 for Windows does not work without the compiletime option
$if x64 || x32 {
mut flags := 0
if is_dir(origin) {
flags ^= 1
}
flags ^= 2 // SYMBOLIC_LINK_FLAG_ALLOW_UNPRIVILEGED_CREATE
res := C.CreateSymbolicLinkW(target.to_wide(), origin.to_wide(), flags)
// 1 = success, != 1 failure => https://stackoverflow.com/questions/33010440/createsymboliclink-on-windows-10
if res != 1 {
return error(get_error_msg(int(C.GetLastError())))
}
if !exists(target) {
return error('C.CreateSymbolicLinkW reported success, but symlink still does not exist')
}
return
}
return error('could not symlink')
}
pub fn link(origin string, target string) ! {
res := C.CreateHardLinkW(target.to_wide(), origin.to_wide(), C.NULL)
// 1 = success, != 1 failure => https://stackoverflow.com/questions/33010440/createsymboliclink-on-windows-10
if res != 1 {
return error(get_error_msg(int(C.GetLastError())))
}
if !exists(target) {
return error('C.CreateHardLinkW reported success, but link still does not exist')
}
}
pub fn (mut f File) close() {
if !f.is_opened {
return
}
f.is_opened = false
C.fflush(f.cfile)
C.fclose(f.cfile)
}
pub struct ExceptionRecord {
pub:
// status_ constants
code u32
flags u32
record &ExceptionRecord = unsafe { nil }
address voidptr
param_count u32
// params []voidptr
}
pub struct ContextRecord {
// TODO
}
pub struct ExceptionPointers {
pub:
exception_record &ExceptionRecord = unsafe { nil }
context_record &ContextRecord = unsafe { nil }
}
pub type VectoredExceptionHandler = fn (&ExceptionPointers) u32
// This is defined in builtin because we use vectored exception handling
// for our unhandled exception handler on windows
// As a result this definition is commented out to prevent
// duplicate definitions from displeasing the compiler
// fn C.AddVectoredExceptionHandler(u32, VectoredExceptionHandler)
pub fn add_vectored_exception_handler(first bool, handler VectoredExceptionHandler) {
C.AddVectoredExceptionHandler(u32(first), voidptr(handler))
}
// uname returns information about the platform on which the program is running.
// Currently `uname` on windows is not standardized, so it just mimics current practices from other popular software/language implementations:
// busybox-v1.35.0 * `busybox uname -a` => "Windows_NT HOSTNAME 10.0 19044 x86_64 MS/Windows"
// rust/coreutils-v0.0.17 * `coreutils uname -a` => `Windows_NT HOSTNAME 10.0 19044 x86_64 MS/Windows (Windows 10)`
// Python3 => `uname_result(system='Windows', node='HOSTNAME', release='10', version='10.0.19044', machine='AMD64')`
// See: [NT Version Info](https://en.wikipedia.org/wiki/Windows_NT) @@ <https://archive.is/GnnvF>
// and: [NT Version Info (detailed)](https://en.wikipedia.org/wiki/Comparison_of_Microsoft_Windows_versions#NT_Kernel-based_2)
pub fn uname() Uname {
nodename := hostname() or { '' }
// ToDO: environment variables have low reliability; check for another quick way
machine := getenv('PROCESSOR_ARCHITECTURE') // * note: 'AMD64' == 'x86_64' (not standardized, but 'x86_64' use is more common; but, python == 'AMD64')
version_info := execute('cmd /d/c ver').output
version_n := (version_info.split(' '))[3].replace(']', '').trim_space()
return Uname{
sysname: 'Windows_NT' // as of 2022-12, WinOS has only two possible kernels ~ 'Windows_NT' or 'Windows_9x'
nodename: nodename
machine: machine.trim_space()
release: (version_n.split('.'))[0..2].join('.').trim_space() // Major.minor-only == "primary"/release version
version: (version_n.split('.'))[2].trim_space()
}
}
pub fn hostname() !string {
hostname := [255]u16{}
size := u32(255)
res := C.GetComputerNameW(&hostname[0], &size)
if !res {
return error(get_error_msg(int(C.GetLastError())))
}
return unsafe { string_from_wide(&hostname[0]) }
}
pub fn loginname() !string {
loginname := [255]u16{}
size := u32(255)
res := C.GetUserNameW(&loginname[0], &size)
if !res {
return error(get_error_msg(int(C.GetLastError())))
}
return unsafe { string_from_wide(&loginname[0]) }
}
// ensure_folder_is_writable checks that `folder` exists, and is writable to the process
// by creating an empty file in it, then deleting it.
pub fn ensure_folder_is_writable(folder string) ! {
if !exists(folder) {
return error_with_code('`${folder}` does not exist', 1)
}
if !is_dir(folder) {
return error_with_code('`folder` is not a folder', 2)
}
tmp_folder_name := 'tmp_perm_check_pid_' + getpid().str()
tmp_perm_check := join_path_single(folder, tmp_folder_name)
write_file(tmp_perm_check, 'test') or {
return error_with_code('cannot write to folder "${folder}": ${err}', 3)
}
rm(tmp_perm_check)!
}
[inline]
pub fn getpid() int {
return C._getpid()
}
[inline]
pub fn getppid() int {
return 0
}
[inline]
pub fn getuid() int {
return 0
}
[inline]
pub fn geteuid() int {
return 0
}
[inline]
pub fn getgid() int {
return 0
}
[inline]
pub fn getegid() int {
return 0
}
pub fn posix_set_permission_bit(path_s string, mode u32, enable bool) {
// windows has no concept of a permission mask, so do nothing
}
//
pub fn (mut c Command) start() ! {
panic('not implemented')
}
pub fn (mut c Command) read_line() string {
panic('not implemented')
}
pub fn (mut c Command) close() ! {
panic('not implemented')
}
fn C.GetLongPathName(short_path &u16, long_path &u16, long_path_bufsize u32) u32
// get_long_path has no meaning for *nix, but has for windows, where `c:\folder\some~1` for example
// can be the equivalent of `c:\folder\some spa ces`. On *nix, it just returns a copy of the input path.
fn get_long_path(path string) !string {
if !path.contains('~') {
return path
}
input_short_path := path.to_wide()
defer {
unsafe { free(input_short_path) }
}
long_path_buf := [4096]u16{}
res := C.GetLongPathName(input_short_path, &long_path_buf[0], sizeof(long_path_buf))
if res == 0 {
return error(get_error_msg(int(C.GetLastError())))
}
long_path := unsafe { string_from_wide(&long_path_buf[0]) }
return long_path
}