rust/src/shims/fs.rs

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use std::collections::HashMap;
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use std::fs::{File, OpenOptions, remove_file};
use std::io::{Read, Write};
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use rustc::ty::layout::Size;
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use crate::stacked_borrows::Tag;
use crate::*;
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pub struct FileHandle {
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file: File,
}
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pub struct FileHandler {
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handles: HashMap<i32, FileHandle>,
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low: i32,
}
impl Default for FileHandler {
fn default() -> Self {
FileHandler {
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handles: Default::default(),
// 0, 1 and 2 are reserved for stdin, stdout and stderr
low: 3,
}
}
}
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impl<'mir, 'tcx> EvalContextExt<'mir, 'tcx> for crate::MiriEvalContext<'mir, 'tcx> {}
pub trait EvalContextExt<'mir, 'tcx: 'mir>: crate::MiriEvalContextExt<'mir, 'tcx> {
fn open(
&mut self,
path_op: OpTy<'tcx, Tag>,
flag_op: OpTy<'tcx, Tag>,
) -> InterpResult<'tcx, i32> {
let this = self.eval_context_mut();
this.check_no_isolation("open")?;
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let flag = this.read_scalar(flag_op)?.to_i32()?;
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let mut options = OpenOptions::new();
let o_rdonly = this.eval_libc_i32("O_RDONLY")?;
let o_wronly = this.eval_libc_i32("O_WRONLY")?;
let o_rdwr = this.eval_libc_i32("O_RDWR")?;
// The first two bits of the flag correspond to the access mode in linux, macOS and
// windows. We need to check that in fact the access mode flags for the current platform
// only use these two bits, otherwise we are in an unsupported platform and should error.
if (o_rdonly | o_wronly | o_rdwr) & !0b11 != 0 {
throw_unsup_format!("Access mode flags on this platform are unsupported");
}
// Now we check the access mode
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let access_mode = flag & 0b11;
if access_mode == o_rdonly {
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options.read(true);
} else if access_mode == o_wronly {
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options.write(true);
} else if access_mode == o_rdwr {
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options.read(true).write(true);
} else {
throw_unsup_format!("Unsupported access mode {:#x}", access_mode);
}
// We need to check that there aren't unsupported options in `flag`. For this we try to
// reproduce the content of `flag` in the `mirror` variable using only the supported
// options.
let mut mirror = access_mode;
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let o_append = this.eval_libc_i32("O_APPEND")?;
if flag & o_append != 0 {
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options.append(true);
mirror |= o_append;
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}
let o_trunc = this.eval_libc_i32("O_TRUNC")?;
if flag & o_trunc != 0 {
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options.truncate(true);
mirror |= o_trunc;
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}
let o_creat = this.eval_libc_i32("O_CREAT")?;
if flag & o_creat != 0 {
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options.create(true);
mirror |= o_creat;
}
let o_cloexec = this.eval_libc_i32("O_CLOEXEC")?;
if flag & o_cloexec != 0 {
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// We do not need to do anything for this flag because `std` already sets it.
// (Technically we do not support *not* setting this flag, but we ignore that.)
mirror |= o_cloexec;
}
// If `flag` is not equal to `mirror`, there is an unsupported option enabled in `flag`,
// then we throw an error.
if flag != mirror {
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throw_unsup_format!("unsupported flags {:#x}", flag & !mirror);
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}
let path_bytes = this
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.memory
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.read_c_str(this.read_scalar(path_op)?.not_undef()?)?;
let path = std::str::from_utf8(path_bytes)
.map_err(|_| err_unsup_format!("{:?} is not a valid utf-8 string", path_bytes))?;
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let fd = options.open(path).map(|file| {
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let mut fh = &mut this.machine.file_handler;
fh.low += 1;
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fh.handles.insert(fh.low, FileHandle { file });
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fh.low
});
this.consume_result(fd)
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}
fn fcntl(
&mut self,
fd_op: OpTy<'tcx, Tag>,
cmd_op: OpTy<'tcx, Tag>,
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_arg1_op: Option<OpTy<'tcx, Tag>>,
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) -> InterpResult<'tcx, i32> {
let this = self.eval_context_mut();
this.check_no_isolation("fcntl")?;
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let fd = this.read_scalar(fd_op)?.to_i32()?;
let cmd = this.read_scalar(cmd_op)?.to_i32()?;
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// We only support getting the flags for a descriptor
if cmd == this.eval_libc_i32("F_GETFD")? {
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// Currently this is the only flag that `F_GETFD` returns. It is OK to just return the
// `FD_CLOEXEC` value without checking if the flag is set for the file because `std`
// always sets this flag when opening a file. However we still need to check that the
// file itself is open.
let fd_cloexec = this.eval_libc_i32("FD_CLOEXEC")?;
this.get_handle_and(fd, |_| Ok(fd_cloexec))
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} else {
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throw_unsup_format!("The {:#x} command is not supported for `fcntl`)", cmd);
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}
}
fn close(&mut self, fd_op: OpTy<'tcx, Tag>) -> InterpResult<'tcx, i32> {
let this = self.eval_context_mut();
this.check_no_isolation("close")?;
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let fd = this.read_scalar(fd_op)?.to_i32()?;
this.remove_handle_and(fd, |handle, this| {
this.consume_result(handle.file.sync_all().map(|_| 0i32))
})
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}
fn read(
&mut self,
fd_op: OpTy<'tcx, Tag>,
buf_op: OpTy<'tcx, Tag>,
count_op: OpTy<'tcx, Tag>,
) -> InterpResult<'tcx, i64> {
let this = self.eval_context_mut();
this.check_no_isolation("read")?;
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let count = this.read_scalar(count_op)?.to_usize(&*this.tcx)?;
// Reading zero bytes should not change `buf`
if count == 0 {
return Ok(0);
}
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let fd = this.read_scalar(fd_op)?.to_i32()?;
let buf_scalar = this.read_scalar(buf_op)?.not_undef()?;
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// Remove the file handle to avoid borrowing issues
this.remove_handle_and(fd, |mut handle, this| {
// Don't use `?` to avoid returning before reinserting the handle
let bytes = this.force_ptr(buf_scalar).and_then(|buf| {
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this.memory
.get_mut(buf.alloc_id)?
.get_bytes_mut(&*this.tcx, buf, Size::from_bytes(count))
.map(|buffer| handle.file.read(buffer))
});
// Reinsert the file handle
this.machine.file_handler.handles.insert(fd, handle);
this.consume_result(bytes?.map(|bytes| bytes as i64))
})
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}
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fn write(
&mut self,
fd_op: OpTy<'tcx, Tag>,
buf_op: OpTy<'tcx, Tag>,
count_op: OpTy<'tcx, Tag>,
) -> InterpResult<'tcx, i64> {
let this = self.eval_context_mut();
this.check_no_isolation("write")?;
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let count = this.read_scalar(count_op)?.to_usize(&*this.tcx)?;
// Writing zero bytes should not change `buf`
if count == 0 {
return Ok(0);
}
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let fd = this.read_scalar(fd_op)?.to_i32()?;
let buf = this.force_ptr(this.read_scalar(buf_op)?.not_undef()?)?;
this.remove_handle_and(fd, |mut handle, this| {
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let bytes = this.memory.get(buf.alloc_id).and_then(|alloc| {
alloc
.get_bytes(&*this.tcx, buf, Size::from_bytes(count))
.map(|bytes| handle.file.write(bytes).map(|bytes| bytes as i64))
});
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this.machine.file_handler.handles.insert(fd, handle);
this.consume_result(bytes?)
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})
}
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fn unlink( &mut self, path_op: OpTy<'tcx, Tag>) -> InterpResult<'tcx, i32> {
let this = self.eval_context_mut();
this.check_no_isolation("unlink")?;
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let path_bytes = this
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.memory
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.read_c_str(this.read_scalar(path_op)?.not_undef()?)?;
let path = std::str::from_utf8(path_bytes)
.map_err(|_| err_unsup_format!("{:?} is not a valid utf-8 string", path_bytes))?;
let result = remove_file(path).map(|_| 0);
this.consume_result(result)
}
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/// Helper function that gets a `FileHandle` immutable reference and allows to manipulate it
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/// using the `f` closure.
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///
/// If the `fd` file descriptor does not correspond to a file, this functions returns `Ok(-1)`
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/// and sets `Evaluator::last_error` to `libc::EBADF` (invalid file descriptor).
///
/// This function uses `T: From<i32>` instead of `i32` directly because some IO related
/// functions return different integer types (like `read`, that returns an `i64`)
fn get_handle_and<F, T: From<i32>>(&mut self, fd: i32, f: F) -> InterpResult<'tcx, T>
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where
F: Fn(&FileHandle) -> InterpResult<'tcx, T>,
{
let this = self.eval_context_mut();
if let Some(handle) = this.machine.file_handler.handles.get(&fd) {
f(handle)
} else {
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let ebadf = this.eval_libc("EBADF")?;
this.set_last_error(ebadf)?;
Ok((-1).into())
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}
}
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/// Helper function that removes a `FileHandle` and allows to manipulate it using the `f`
/// closure. This function is quite useful when you need to modify a `FileHandle` but you need
/// to modify `MiriEvalContext` at the same time, so you can modify the handle and reinsert it
/// using `f`.
///
/// If the `fd` file descriptor does not correspond to a file, this functions returns `Ok(-1)`
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/// and sets `Evaluator::last_error` to `libc::EBADF` (invalid file descriptor).
///
/// This function uses `T: From<i32>` instead of `i32` directly because some IO related
/// functions return different integer types (like `read`, that returns an `i64`)
fn remove_handle_and<F, T: From<i32>>(&mut self, fd: i32, mut f: F) -> InterpResult<'tcx, T>
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where
F: FnMut(FileHandle, &mut MiriEvalContext<'mir, 'tcx>) -> InterpResult<'tcx, T>,
{
let this = self.eval_context_mut();
if let Some(handle) = this.machine.file_handler.handles.remove(&fd) {
f(handle, this)
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} else {
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let ebadf = this.eval_libc("EBADF")?;
this.set_last_error(ebadf)?;
Ok((-1).into())
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}
}
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/// Helper function that consumes an `std::io::Result<T>` and returns an
/// `InterpResult<'tcx,T>::Ok` instead. It is expected that the result can be converted to an
/// OS error using `std::io::Error::raw_os_error`.
///
/// This function uses `T: From<i32>` instead of `i32` directly because some IO related
/// functions return different integer types (like `read`, that returns an `i64`)
fn consume_result<T: From<i32>>(
&mut self,
result: std::io::Result<T>,
) -> InterpResult<'tcx, T> {
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match result {
Ok(ok) => Ok(ok),
Err(e) => {
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self.eval_context_mut().consume_io_error(e)?;
Ok((-1).into())
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}
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}
}
}