std/io/copy.rs
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use super::{BorrowedBuf, BufReader, BufWriter, DEFAULT_BUF_SIZE, Read, Result, Write};
use crate::alloc::Allocator;
use crate::cmp;
use crate::collections::VecDeque;
use crate::io::IoSlice;
use crate::mem::MaybeUninit;
#[cfg(test)]
mod tests;
/// Copies the entire contents of a reader into a writer.
///
/// This function will continuously read data from `reader` and then
/// write it into `writer` in a streaming fashion until `reader`
/// returns EOF.
///
/// On success, the total number of bytes that were copied from
/// `reader` to `writer` is returned.
///
/// If you want to copy the contents of one file to another and you’re
/// working with filesystem paths, see the [`fs::copy`] function.
///
/// [`fs::copy`]: crate::fs::copy
///
/// # Errors
///
/// This function will return an error immediately if any call to [`read`] or
/// [`write`] returns an error. All instances of [`ErrorKind::Interrupted`] are
/// handled by this function and the underlying operation is retried.
///
/// [`read`]: Read::read
/// [`write`]: Write::write
/// [`ErrorKind::Interrupted`]: crate::io::ErrorKind::Interrupted
///
/// # Examples
///
/// ```
/// use std::io;
///
/// fn main() -> io::Result<()> {
/// let mut reader: &[u8] = b"hello";
/// let mut writer: Vec<u8> = vec![];
///
/// io::copy(&mut reader, &mut writer)?;
///
/// assert_eq!(&b"hello"[..], &writer[..]);
/// Ok(())
/// }
/// ```
///
/// # Platform-specific behavior
///
/// On Linux (including Android), this function uses `copy_file_range(2)`,
/// `sendfile(2)` or `splice(2)` syscalls to move data directly between file
/// descriptors if possible.
///
/// Note that platform-specific behavior [may change in the future][changes].
///
/// [changes]: crate::io#platform-specific-behavior
#[stable(feature = "rust1", since = "1.0.0")]
pub fn copy<R: ?Sized, W: ?Sized>(reader: &mut R, writer: &mut W) -> Result<u64>
where
R: Read,
W: Write,
{
cfg_if::cfg_if! {
if #[cfg(any(target_os = "linux", target_os = "android"))] {
crate::sys::kernel_copy::copy_spec(reader, writer)
} else {
generic_copy(reader, writer)
}
}
}
/// The userspace read-write-loop implementation of `io::copy` that is used when
/// OS-specific specializations for copy offloading are not available or not applicable.
pub(crate) fn generic_copy<R: ?Sized, W: ?Sized>(reader: &mut R, writer: &mut W) -> Result<u64>
where
R: Read,
W: Write,
{
let read_buf = BufferedReaderSpec::buffer_size(reader);
let write_buf = BufferedWriterSpec::buffer_size(writer);
if read_buf >= DEFAULT_BUF_SIZE && read_buf >= write_buf {
return BufferedReaderSpec::copy_to(reader, writer);
}
BufferedWriterSpec::copy_from(writer, reader)
}
/// Specialization of the read-write loop that reuses the internal
/// buffer of a BufReader. If there's no buffer then the writer side
/// should be used instead.
trait BufferedReaderSpec {
fn buffer_size(&self) -> usize;
fn copy_to(&mut self, to: &mut (impl Write + ?Sized)) -> Result<u64>;
}
impl<T> BufferedReaderSpec for T
where
Self: Read,
T: ?Sized,
{
#[inline]
default fn buffer_size(&self) -> usize {
0
}
default fn copy_to(&mut self, _to: &mut (impl Write + ?Sized)) -> Result<u64> {
unreachable!("only called from specializations")
}
}
impl BufferedReaderSpec for &[u8] {
fn buffer_size(&self) -> usize {
// prefer this specialization since the source "buffer" is all we'll ever need,
// even if it's small
usize::MAX
}
fn copy_to(&mut self, to: &mut (impl Write + ?Sized)) -> Result<u64> {
let len = self.len();
to.write_all(self)?;
*self = &self[len..];
Ok(len as u64)
}
}
impl<A: Allocator> BufferedReaderSpec for VecDeque<u8, A> {
fn buffer_size(&self) -> usize {
// prefer this specialization since the source "buffer" is all we'll ever need,
// even if it's small
usize::MAX
}
fn copy_to(&mut self, to: &mut (impl Write + ?Sized)) -> Result<u64> {
let len = self.len();
let (front, back) = self.as_slices();
let bufs = &mut [IoSlice::new(front), IoSlice::new(back)];
to.write_all_vectored(bufs)?;
self.clear();
Ok(len as u64)
}
}
impl<I> BufferedReaderSpec for BufReader<I>
where
Self: Read,
I: ?Sized,
{
fn buffer_size(&self) -> usize {
self.capacity()
}
fn copy_to(&mut self, to: &mut (impl Write + ?Sized)) -> Result<u64> {
let mut len = 0;
loop {
// Hack: this relies on `impl Read for BufReader` always calling fill_buf
// if the buffer is empty, even for empty slices.
// It can't be called directly here since specialization prevents us
// from adding I: Read
match self.read(&mut []) {
Ok(_) => {}
Err(e) if e.is_interrupted() => continue,
Err(e) => return Err(e),
}
let buf = self.buffer();
if self.buffer().len() == 0 {
return Ok(len);
}
// In case the writer side is a BufWriter then its write_all
// implements an optimization that passes through large
// buffers to the underlying writer. That code path is #[cold]
// but we're still avoiding redundant memcopies when doing
// a copy between buffered inputs and outputs.
to.write_all(buf)?;
len += buf.len() as u64;
self.discard_buffer();
}
}
}
/// Specialization of the read-write loop that either uses a stack buffer
/// or reuses the internal buffer of a BufWriter
trait BufferedWriterSpec: Write {
fn buffer_size(&self) -> usize;
fn copy_from<R: Read + ?Sized>(&mut self, reader: &mut R) -> Result<u64>;
}
impl<W: Write + ?Sized> BufferedWriterSpec for W {
#[inline]
default fn buffer_size(&self) -> usize {
0
}
default fn copy_from<R: Read + ?Sized>(&mut self, reader: &mut R) -> Result<u64> {
stack_buffer_copy(reader, self)
}
}
impl<I: Write + ?Sized> BufferedWriterSpec for BufWriter<I> {
fn buffer_size(&self) -> usize {
self.capacity()
}
fn copy_from<R: Read + ?Sized>(&mut self, reader: &mut R) -> Result<u64> {
if self.capacity() < DEFAULT_BUF_SIZE {
return stack_buffer_copy(reader, self);
}
let mut len = 0;
let mut init = 0;
loop {
let buf = self.buffer_mut();
let mut read_buf: BorrowedBuf<'_> = buf.spare_capacity_mut().into();
unsafe {
// SAFETY: init is either 0 or the init_len from the previous iteration.
read_buf.set_init(init);
}
if read_buf.capacity() >= DEFAULT_BUF_SIZE {
let mut cursor = read_buf.unfilled();
match reader.read_buf(cursor.reborrow()) {
Ok(()) => {
let bytes_read = cursor.written();
if bytes_read == 0 {
return Ok(len);
}
init = read_buf.init_len() - bytes_read;
len += bytes_read as u64;
// SAFETY: BorrowedBuf guarantees all of its filled bytes are init
unsafe { buf.set_len(buf.len() + bytes_read) };
// Read again if the buffer still has enough capacity, as BufWriter itself would do
// This will occur if the reader returns short reads
}
Err(ref e) if e.is_interrupted() => {}
Err(e) => return Err(e),
}
} else {
self.flush_buf()?;
init = 0;
}
}
}
}
impl BufferedWriterSpec for Vec<u8> {
fn buffer_size(&self) -> usize {
cmp::max(DEFAULT_BUF_SIZE, self.capacity() - self.len())
}
fn copy_from<R: Read + ?Sized>(&mut self, reader: &mut R) -> Result<u64> {
reader.read_to_end(self).map(|bytes| u64::try_from(bytes).expect("usize overflowed u64"))
}
}
pub fn stack_buffer_copy<R: Read + ?Sized, W: Write + ?Sized>(
reader: &mut R,
writer: &mut W,
) -> Result<u64> {
let buf: &mut [_] = &mut [MaybeUninit::uninit(); DEFAULT_BUF_SIZE];
let mut buf: BorrowedBuf<'_> = buf.into();
let mut len = 0;
loop {
match reader.read_buf(buf.unfilled()) {
Ok(()) => {}
Err(e) if e.is_interrupted() => continue,
Err(e) => return Err(e),
};
if buf.filled().is_empty() {
break;
}
len += buf.filled().len() as u64;
writer.write_all(buf.filled())?;
buf.clear();
}
Ok(len)
}