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

copies: filter invalid copies only at end of pathcopies() (issue6163)...

copies: filter invalid copies only at end of pathcopies() (issue6163) copies._filter() filters out copies whose source file does not exist in the start commit or whose target file does not exist in the end commit. We do that after chaining copies with dirstate copies or backward renames from another branch. We also do at the end of the changeset-centric copy tracing. The filtering means that we will remove copies to/from files that did not exist in some intermediate commit. That is inconsistent with what we do if a file has been deleted and then re-added (we allow updating across that). Copying the two first examples from issue6163: @ 4 'rename x to y' | o 3 'add x again' | o 2 'remove x' | | o 1 'modify x' |/ o 0 'add x' @ 4 'rename x to y' | o 3 'add x again' | | o 2 'modify x' | | | o 1 'add x' |/ o 0 'base' When doing `hg rebase -r 1 -d 4` in the first case, it succeeds, but `hg rebase -r 2 -d 4` in the second case does not. That's because we chain and filter via commit 0, which does not have file 'x' in the second case. IMO, that's clearly inconsistent. So this patch removes the filtering step so it only happens at the end. If a file was temporarily removed, whether via a merge base or not, it will now still be considered the same file. That fixes issue6163 for the changeset-centric case. Differential Revision: https://phab.mercurial-scm.org/D6603

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"));
				}
				}
				}
				}
				}