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read2.rs
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read2.rs
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// FIXME: This is a complete copy of `cargo/src/cargo/util/read2.rs`
// Consider unify the read2() in libstd, cargo and this to prevent further code duplication.
pub use self::imp::read2;
use std::io;
use std::process::{Child, Output};
pub fn read2_abbreviated(mut child: Child) -> io::Result<Output> {
use io::Write;
use std::mem::replace;
const HEAD_LEN: usize = 160 * 1024;
const TAIL_LEN: usize = 256 * 1024;
enum ProcOutput {
Full(Vec<u8>),
Abbreviated { head: Vec<u8>, skipped: usize, tail: Box<[u8]> },
}
impl ProcOutput {
fn extend(&mut self, data: &[u8]) {
let new_self = match *self {
ProcOutput::Full(ref mut bytes) => {
bytes.extend_from_slice(data);
let new_len = bytes.len();
if new_len <= HEAD_LEN + TAIL_LEN {
return;
}
let tail = bytes.split_off(new_len - TAIL_LEN).into_boxed_slice();
let head = replace(bytes, Vec::new());
let skipped = new_len - HEAD_LEN - TAIL_LEN;
ProcOutput::Abbreviated { head, skipped, tail }
}
ProcOutput::Abbreviated { ref mut skipped, ref mut tail, .. } => {
*skipped += data.len();
if data.len() <= TAIL_LEN {
tail[..data.len()].copy_from_slice(data);
tail.rotate_left(data.len());
} else {
tail.copy_from_slice(&data[(data.len() - TAIL_LEN)..]);
}
return;
}
};
*self = new_self;
}
fn into_bytes(self) -> Vec<u8> {
match self {
ProcOutput::Full(bytes) => bytes,
ProcOutput::Abbreviated { mut head, skipped, tail } => {
write!(&mut head, "\n\n<<<<<< SKIPPED {} BYTES >>>>>>\n\n", skipped).unwrap();
head.extend_from_slice(&tail);
head
}
}
}
}
let mut stdout = ProcOutput::Full(Vec::new());
let mut stderr = ProcOutput::Full(Vec::new());
drop(child.stdin.take());
read2(
child.stdout.take().unwrap(),
child.stderr.take().unwrap(),
&mut |is_stdout, data, _| {
if is_stdout { &mut stdout } else { &mut stderr }.extend(data);
data.clear();
},
)?;
let status = child.wait()?;
Ok(Output { status, stdout: stdout.into_bytes(), stderr: stderr.into_bytes() })
}
#[cfg(not(any(unix, windows)))]
mod imp {
use std::io::{self, Read};
use std::process::{ChildStderr, ChildStdout};
pub fn read2(
out_pipe: ChildStdout,
err_pipe: ChildStderr,
data: &mut dyn FnMut(bool, &mut Vec<u8>, bool),
) -> io::Result<()> {
let mut buffer = Vec::new();
out_pipe.read_to_end(&mut buffer)?;
data(true, &mut buffer, true);
buffer.clear();
err_pipe.read_to_end(&mut buffer)?;
data(false, &mut buffer, true);
Ok(())
}
}
#[cfg(unix)]
mod imp {
use std::io;
use std::io::prelude::*;
use std::mem;
use std::os::unix::prelude::*;
use std::process::{ChildStderr, ChildStdout};
pub fn read2(
mut out_pipe: ChildStdout,
mut err_pipe: ChildStderr,
data: &mut dyn FnMut(bool, &mut Vec<u8>, bool),
) -> io::Result<()> {
unsafe {
libc::fcntl(out_pipe.as_raw_fd(), libc::F_SETFL, libc::O_NONBLOCK);
libc::fcntl(err_pipe.as_raw_fd(), libc::F_SETFL, libc::O_NONBLOCK);
}
let mut out_done = false;
let mut err_done = false;
let mut out = Vec::new();
let mut err = Vec::new();
let mut fds: [libc::pollfd; 2] = unsafe { mem::zeroed() };
fds[0].fd = out_pipe.as_raw_fd();
fds[0].events = libc::POLLIN;
fds[1].fd = err_pipe.as_raw_fd();
fds[1].events = libc::POLLIN;
let mut nfds = 2;
let mut errfd = 1;
while nfds > 0 {
// wait for either pipe to become readable using `select`
let r = unsafe { libc::poll(fds.as_mut_ptr(), nfds, -1) };
if r == -1 {
let err = io::Error::last_os_error();
if err.kind() == io::ErrorKind::Interrupted {
continue;
}
return Err(err);
}
// Read as much as we can from each pipe, ignoring EWOULDBLOCK or
// EAGAIN. If we hit EOF, then this will happen because the underlying
// reader will return Ok(0), in which case we'll see `Ok` ourselves. In
// this case we flip the other fd back into blocking mode and read
// whatever's leftover on that file descriptor.
let handle = |res: io::Result<_>| match res {
Ok(_) => Ok(true),
Err(e) => {
if e.kind() == io::ErrorKind::WouldBlock {
Ok(false)
} else {
Err(e)
}
}
};
if !err_done && fds[errfd].revents != 0 && handle(err_pipe.read_to_end(&mut err))? {
err_done = true;
nfds -= 1;
}
data(false, &mut err, err_done);
if !out_done && fds[0].revents != 0 && handle(out_pipe.read_to_end(&mut out))? {
out_done = true;
fds[0].fd = err_pipe.as_raw_fd();
errfd = 0;
nfds -= 1;
}
data(true, &mut out, out_done);
}
Ok(())
}
}
#[cfg(windows)]
mod imp {
use std::io;
use std::os::windows::prelude::*;
use std::process::{ChildStderr, ChildStdout};
use std::slice;
use miow::iocp::{CompletionPort, CompletionStatus};
use miow::pipe::NamedPipe;
use miow::Overlapped;
use winapi::shared::winerror::ERROR_BROKEN_PIPE;
struct Pipe<'a> {
dst: &'a mut Vec<u8>,
overlapped: Overlapped,
pipe: NamedPipe,
done: bool,
}
pub fn read2(
out_pipe: ChildStdout,
err_pipe: ChildStderr,
data: &mut dyn FnMut(bool, &mut Vec<u8>, bool),
) -> io::Result<()> {
let mut out = Vec::new();
let mut err = Vec::new();
let port = CompletionPort::new(1)?;
port.add_handle(0, &out_pipe)?;
port.add_handle(1, &err_pipe)?;
unsafe {
let mut out_pipe = Pipe::new(out_pipe, &mut out);
let mut err_pipe = Pipe::new(err_pipe, &mut err);
out_pipe.read()?;
err_pipe.read()?;
let mut status = [CompletionStatus::zero(), CompletionStatus::zero()];
while !out_pipe.done || !err_pipe.done {
for status in port.get_many(&mut status, None)? {
if status.token() == 0 {
out_pipe.complete(status);
data(true, out_pipe.dst, out_pipe.done);
out_pipe.read()?;
} else {
err_pipe.complete(status);
data(false, err_pipe.dst, err_pipe.done);
err_pipe.read()?;
}
}
}
Ok(())
}
}
impl<'a> Pipe<'a> {
unsafe fn new<P: IntoRawHandle>(p: P, dst: &'a mut Vec<u8>) -> Pipe<'a> {
Pipe {
dst: dst,
pipe: NamedPipe::from_raw_handle(p.into_raw_handle()),
overlapped: Overlapped::zero(),
done: false,
}
}
unsafe fn read(&mut self) -> io::Result<()> {
let dst = slice_to_end(self.dst);
match self.pipe.read_overlapped(dst, self.overlapped.raw()) {
Ok(_) => Ok(()),
Err(e) => {
if e.raw_os_error() == Some(ERROR_BROKEN_PIPE as i32) {
self.done = true;
Ok(())
} else {
Err(e)
}
}
}
}
unsafe fn complete(&mut self, status: &CompletionStatus) {
let prev = self.dst.len();
self.dst.set_len(prev + status.bytes_transferred() as usize);
if status.bytes_transferred() == 0 {
self.done = true;
}
}
}
unsafe fn slice_to_end(v: &mut Vec<u8>) -> &mut [u8] {
if v.capacity() == 0 {
v.reserve(16);
}
if v.capacity() == v.len() {
v.reserve(1);
}
slice::from_raw_parts_mut(v.as_mut_ptr().offset(v.len() as isize), v.capacity() - v.len())
}
}