upstream/mercurial-mirror Files · rust/chg/src/attachio.rs

rust-dirstate: call rust dirstatemap from Python...

rust-dirstate: call rust dirstatemap from Python Since Rust-backed Python classes cannot be used as baseclasses (for rust-cpython anyway), we use composition rather than inheritance. This also allows us to keep the IO operations in the Python side, removing (for now) the need to rewrite VFS in Rust, which would be a heavy undertaking. Differential Revision: https://phab.mercurial-scm.org/D6634

Yuya Nishihara - - Load All Authors

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             attachio.rs
        
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      // Copyright 2018 Yuya Nishihara <yuya@tcha.org>

      //

      // This software may be used and distributed according to the terms of the

      // GNU General Public License version 2 or any later version.

      //! Functions to send client-side fds over the command server channel.

      use futures::{Async, Future, Poll};

      use std::io;

      use std::os::unix::io::AsRawFd;

      use tokio_hglib::{Client, Connection};

      use tokio_hglib::codec::ChannelMessage;

      use tokio_hglib::protocol::MessageLoop;

      use super::message;

      use super::procutil;

      /// Future to send client-side fds over the command server channel.

      ///

      /// This works as follows:

      /// 1. Client sends "attachio" request.

      /// 2. Server sends back 1-byte input request.

      /// 3. Client sends fds with 1-byte dummy payload in response.

      /// 4. Server returns the number of the fds received.

      ///

      /// If the stderr is omitted, it will be redirected to the stdout. This

      /// allows us to attach the pager stdin to both stdout and stderr, and

      /// dispose of the client-side handle once attached.

      #[must_use = "futures do nothing unless polled"]

      pub struct AttachIo<C, I, O, E>

          where C: Connection,

      {

          msg_loop: MessageLoop<C>,

          stdin: I,

          stdout: O,

          stderr: Option<E>,

      }

      impl<C, I, O, E> AttachIo<C, I, O, E>

          where C: Connection + AsRawFd,

                I: AsRawFd,

                O: AsRawFd,

                E: AsRawFd,

      {

          pub fn with_client(client: Client<C>, stdin: I, stdout: O, stderr: Option<E>)

                             -> AttachIo<C, I, O, E> {

              let msg_loop = MessageLoop::start(client, b"attachio");

              AttachIo { msg_loop, stdin, stdout, stderr }

          }

      }

      impl<C, I, O, E> Future for AttachIo<C, I, O, E>

          where C: Connection + AsRawFd,

                I: AsRawFd,

                O: AsRawFd,

                E: AsRawFd,

      {

          type Item = Client<C>;

          type Error = io::Error;

          fn poll(&mut self) -> Poll<Self::Item, Self::Error> {

              loop {

                  let (client, msg) = try_ready!(self.msg_loop.poll());

                  match msg {

                      ChannelMessage::Data(b'r', data) => {

                          let fd_cnt = message::parse_result_code(data)?;

                          if fd_cnt == 3 {

                              return Ok(Async::Ready(client));

                          } else {

                              return Err(io::Error::new(io::ErrorKind::InvalidData,

                                                        "unexpected attachio result"));

                          }

                      }

                      ChannelMessage::Data(..) => {

                          // just ignore data sent to uninteresting (optional) channel

                          self.msg_loop = MessageLoop::resume(client);

                      }

                      ChannelMessage::InputRequest(1) => {

                          // this may fail with EWOULDBLOCK in theory, but the

                          // payload is quite small, and the send buffer should

                          // be empty so the operation will complete immediately

                          let sock_fd = client.as_raw_fd();

                          let ifd = self.stdin.as_raw_fd();

                          let ofd = self.stdout.as_raw_fd();

                          let efd = self.stderr.as_ref().map_or(ofd, |f| f.as_raw_fd());

                          procutil::send_raw_fds(sock_fd, &[ifd, ofd, efd])?;

                          self.msg_loop = MessageLoop::resume(client);

                      }

                      ChannelMessage::InputRequest(..) | ChannelMessage::LineRequest(..) |

                      ChannelMessage::SystemRequest(..) => {

                          return Err(io::Error::new(io::ErrorKind::InvalidData,

                                                    "unsupported request while attaching io"));

                      }

                  }

              }

          }

      }

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				// Copyright 2018 Yuya Nishihara <yuya@tcha.org>
				//
				// This software may be used and distributed according to the terms of the
				// GNU General Public License version 2 or any later version.

				//! Functions to send client-side fds over the command server channel.

				use futures::{Async, Future, Poll};
				use std::io;
				use std::os::unix::io::AsRawFd;
				use tokio_hglib::{Client, Connection};
				use tokio_hglib::codec::ChannelMessage;
				use tokio_hglib::protocol::MessageLoop;

				use super::message;
				use super::procutil;

				/// Future to send client-side fds over the command server channel.
				///
				/// This works as follows:
				/// 1. Client sends "attachio" request.
				/// 2. Server sends back 1-byte input request.
				/// 3. Client sends fds with 1-byte dummy payload in response.
				/// 4. Server returns the number of the fds received.
				///
				/// If the stderr is omitted, it will be redirected to the stdout. This
				/// allows us to attach the pager stdin to both stdout and stderr, and
				/// dispose of the client-side handle once attached.
				#[must_use = "futures do nothing unless polled"]
				pub struct AttachIo<C, I, O, E>
				where C: Connection,
				{
				msg_loop: MessageLoop<C>,
				stdin: I,
				stdout: O,
				stderr: Option<E>,
				}

				impl<C, I, O, E> AttachIo<C, I, O, E>
				where C: Connection + AsRawFd,
				I: AsRawFd,
				O: AsRawFd,
				E: AsRawFd,
				{
				pub fn with_client(client: Client<C>, stdin: I, stdout: O, stderr: Option<E>)
				-> AttachIo<C, I, O, E> {
				let msg_loop = MessageLoop::start(client, b"attachio");
				AttachIo { msg_loop, stdin, stdout, stderr }
				}
				}

				impl<C, I, O, E> Future for AttachIo<C, I, O, E>
				where C: Connection + AsRawFd,
				I: AsRawFd,
				O: AsRawFd,
				E: AsRawFd,
				{
				type Item = Client<C>;
				type Error = io::Error;

				fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
				loop {
				let (client, msg) = try_ready!(self.msg_loop.poll());
				match msg {
				ChannelMessage::Data(b'r', data) => {
				let fd_cnt = message::parse_result_code(data)?;
				if fd_cnt == 3 {
				return Ok(Async::Ready(client));
				} else {
				return Err(io::Error::new(io::ErrorKind::InvalidData,
				"unexpected attachio result"));
				}
				}
				ChannelMessage::Data(..) => {
				// just ignore data sent to uninteresting (optional) channel
				self.msg_loop = MessageLoop::resume(client);
				}
				ChannelMessage::InputRequest(1) => {
				// this may fail with EWOULDBLOCK in theory, but the
				// payload is quite small, and the send buffer should
				// be empty so the operation will complete immediately
				let sock_fd = client.as_raw_fd();
				let ifd = self.stdin.as_raw_fd();
				let ofd = self.stdout.as_raw_fd();
				let efd = self.stderr.as_ref().map_or(ofd, \|f\| f.as_raw_fd());
				procutil::send_raw_fds(sock_fd, &[ifd, ofd, efd])?;
				self.msg_loop = MessageLoop::resume(client);
				}
				ChannelMessage::InputRequest(..) \| ChannelMessage::LineRequest(..) \|
				ChannelMessage::SystemRequest(..) => {
				return Err(io::Error::new(io::ErrorKind::InvalidData,
				"unsupported request while attaching io"));
				}
				}
				}
				}
				}