use crate::io; use crate::sys::c; use crate::path::PathBuf; use crate::fs::{OpenOptions, File}; use crate::sys::ext::fs::OpenOptionsExt; use crate::sys::handle::Handle; use libc::c_char; use super::super::{fill_utf16_buf, os2path, to_u16s, wide_char_to_multi_byte}; fn query_full_process_image_name() -> io::Result { unsafe { let process_handle = Handle::new(c::OpenProcess(c::PROCESS_QUERY_INFORMATION, c::FALSE, c::GetCurrentProcessId())); fill_utf16_buf(|buf, mut sz| { if c::QueryFullProcessImageNameW(process_handle.raw(), 0, buf, &mut sz) == 0 { 0 } else { sz } }, os2path) } } fn lock_and_get_executable_filename() -> io::Result<(PathBuf, File)> { // We query the current image name, open the file without FILE_SHARE_DELETE so it // can't be moved and then get the current image name again. If the names are the // same than we have successfully locked the file let image_name1 = query_full_process_image_name()?; let file = OpenOptions::new() .read(true) .share_mode(c::FILE_SHARE_READ | c::FILE_SHARE_WRITE) .open(&image_name1)?; let image_name2 = query_full_process_image_name()?; if image_name1 != image_name2 { return Err(io::Error::new(io::ErrorKind::Other, "executable moved while trying to lock it")); } Ok((image_name1, file)) } // Get the executable filename for libbacktrace // This returns the path in the ANSI code page and a File which should remain open // for as long as the path should remain valid pub fn get_executable_filename() -> io::Result<(Vec, File)> { let (executable, file) = lock_and_get_executable_filename()?; let u16_executable = to_u16s(executable.into_os_string())?; Ok((wide_char_to_multi_byte(c::CP_ACP, c::WC_NO_BEST_FIT_CHARS, &u16_executable, true)?, file)) }