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

rhg: fix dirstate-v2 data file removal system...

rhg: fix dirstate-v2 data file removal system In D12581 I introduced logic to remove the previous dirstate-v2 data file after a new one is created (and its corresponding docket), but the logic was flawed. I fixed it and made it simpler to understand by gather all logic in a single expression. Differential Revision: https://phab.mercurial-scm.org/D12586

Martin von Zweigbergk - - Load All Authors

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             locator.rs
        
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      // Copyright 2011, 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.

      //! Utility for locating command-server process.

      use log::debug;

      use std::env;

      use std::ffi::{OsStr, OsString};

      use std::fs::{self, DirBuilder};

      use std::io;

      use std::os::unix::ffi::{OsStrExt, OsStringExt};

      use std::os::unix::fs::{DirBuilderExt, MetadataExt};

      use std::path::{Path, PathBuf};

      use std::process::{self, Child, Command};

      use std::time::{Duration, Instant};

      use tokio::time;

      use crate::clientext::ChgClient;

      use crate::message::{Instruction, ServerSpec};

      use crate::procutil;

      const REQUIRED_SERVER_CAPABILITIES: &[&str] = &[

          "attachio",

          "chdir",

          "runcommand",

          "setenv",

          "setumask2",

          "validate",

      ];

      /// Helper to connect to and spawn a server process.

      #[derive(Clone, Debug)]

      pub struct Locator {

          hg_command: OsString,

          hg_early_args: Vec<OsString>,

          current_dir: PathBuf,

          env_vars: Vec<(OsString, OsString)>,

          process_id: u32,

          base_sock_path: PathBuf,

          redirect_sock_path: Option<PathBuf>,

          timeout: Duration,

      }

      impl Locator {

          /// Creates locator capturing the current process environment.

          ///

          /// If no `$CHGSOCKNAME` is specified, the socket directory will be

          /// created as necessary.

          pub fn prepare_from_env() -> io::Result<Locator> {

              Ok(Locator {

                  hg_command: default_hg_command(),

                  hg_early_args: Vec::new(),

                  current_dir: env::current_dir()?,

                  env_vars: env::vars_os().collect(),

                  process_id: process::id(),

                  base_sock_path: prepare_server_socket_path()?,

                  redirect_sock_path: None,

                  timeout: default_timeout(),

              })

          }

          /// Temporary socket path for this client process.

          fn temp_sock_path(&self) -> PathBuf {

              let src = self.base_sock_path.as_os_str().as_bytes();

              let mut buf = Vec::with_capacity(src.len() + 6); // "{src}.{pid}".len()

              buf.extend_from_slice(src);

              buf.extend_from_slice(format!(".{}", self.process_id).as_bytes());

              OsString::from_vec(buf).into()

          }

          /// Specifies the arguments to be passed to the server at start.

          pub fn set_early_args(

              &mut self,

              args: impl IntoIterator<Item = impl AsRef<OsStr>>,

          ) {

              self.hg_early_args =

                  args.into_iter().map(|a| a.as_ref().to_owned()).collect();

          }

          /// Connects to the server.

          ///

          /// The server process will be spawned if not running.

          pub async fn connect(&mut self) -> io::Result<ChgClient> {

              for _cnt in 0..10 {

                  let mut client = self.try_connect().await?;

                  let instructions = client.validate(&self.hg_early_args).await?;

                  let reconnect = self.run_instructions(&instructions)?;

                  if !reconnect {

                      return Ok(client);

                  }

              }

              let msg = format!(

                  concat!(

                      "too many redirections.\n",

                      "Please make sure {:?} is not a wrapper which ",

                      "changes sensitive environment variables ",

                      "before executing hg. If you have to use a ",

                      "wrapper, wrap chg instead of hg.",

                  ),

                  self.hg_command

              );

              Err(io::Error::new(io::ErrorKind::Other, msg))

          }

          /// Runs instructions received from the server.

          ///

          /// Returns true if the client should try connecting to the other server.

          fn run_instructions(

              &mut self,

              instructions: &[Instruction],

          ) -> io::Result<bool> {

              let mut reconnect = false;

              for inst in instructions {

                  debug!("instruction: {:?}", inst);

                  match inst {

                      Instruction::Exit(_) => {

                          // Just returns the current connection to run the

                          // unparsable command and report the error

                          return Ok(false);

                      }

                      Instruction::Reconnect => {

                          reconnect = true;

                      }

                      Instruction::Redirect(path) => {

                          if path.parent() != self.base_sock_path.parent() {

                              let msg = format!(

                                  "insecure redirect instruction from server: {}",

                                  path.display()

                              );

                              return Err(io::Error::new(

                                  io::ErrorKind::InvalidData,

                                  msg,

                              ));

                          }

                          self.redirect_sock_path = Some(path.to_owned());

                          reconnect = true;

                      }

                      Instruction::Unlink(path) => {

                          if path.parent() != self.base_sock_path.parent() {

                              let msg = format!(

                                  "insecure unlink instruction from server: {}",

                                  path.display()

                              );

                              return Err(io::Error::new(

                                  io::ErrorKind::InvalidData,

                                  msg,

                              ));

                          }

                          fs::remove_file(path).unwrap_or(()); // may race

                      }

                  }

              }

              Ok(reconnect)

          }

          /// Tries to connect to the existing server, or spawns new if not running.

          async fn try_connect(&mut self) -> io::Result<ChgClient> {

              let sock_path = self

                  .redirect_sock_path

                  .as_ref()

                  .unwrap_or(&self.base_sock_path)

                  .clone();

              debug!("try connect to {}", sock_path.display());

              let mut client = match ChgClient::connect(sock_path).await {

                  Ok(client) => client,

                  Err(_) => {

                      // Prevent us from being re-connected to the outdated

                      // master server: We were told by the server to redirect

                      // to redirect_sock_path, which didn't work. We do not

                      // want to connect to the same master server again

                      // because it would probably tell us the same thing.

                      if self.redirect_sock_path.is_some() {

                          fs::remove_file(&self.base_sock_path).unwrap_or(());

                          // may race

                      }

                      self.spawn_connect().await?

                  }

              };

              check_server_capabilities(client.server_spec())?;

              // It's purely optional, and the server might not support this command.

              if client.server_spec().capabilities.contains("setprocname") {

                  client

                      .set_process_name(format!("chg[worker/{}]", self.process_id))

                      .await?;

              }

              client.set_current_dir(&self.current_dir).await?;

              client

                  .set_env_vars_os(self.env_vars.iter().cloned())

                  .await?;

              Ok(client)

          }

          /// Spawns new server process and connects to it.

          ///

          /// The server will be spawned at the current working directory, then

          /// chdir to "/", so that the server will load configs from the target

          /// repository.

          async fn spawn_connect(&mut self) -> io::Result<ChgClient> {

              let sock_path = self.temp_sock_path();

              debug!("start cmdserver at {}", sock_path.display());

              let server = Command::new(&self.hg_command)

                  .arg("serve")

                  .arg("--cmdserver")

                  .arg("chgunix")

                  .arg("--address")

                  .arg(&sock_path)

                  .arg("--daemon-postexec")

                  .arg("chdir:/")

                  .args(&self.hg_early_args)

                  .current_dir(&self.current_dir)

                  .env_clear()

                  .envs(self.env_vars.iter().cloned())

                  .env("CHGINTERNALMARK", "")

                  .spawn()?;

              let client = self.connect_spawned(server, &sock_path).await?;

              debug!(

                  "rename {} to {}",

                  sock_path.display(),

                  self.base_sock_path.display()

              );

              fs::rename(&sock_path, &self.base_sock_path)?;

              Ok(client)

          }

          /// Tries to connect to the just spawned server repeatedly until timeout

          /// exceeded.

          async fn connect_spawned(

              &mut self,

              mut server: Child,

              sock_path: &Path,

          ) -> io::Result<ChgClient> {

              debug!("try connect to {} repeatedly", sock_path.display());

              // waits for either connection established or server failed to start

              let start_time = Instant::now();

              while start_time.elapsed() < self.timeout {

                  if let Ok(client) = ChgClient::connect(&sock_path).await {

                      // server handle is dropped here, but the detached process

                      // will continue running in background

                      return Ok(client);

                  }

                  if let Some(st) = server.try_wait()? {

                      return Err(io::Error::new(

                          io::ErrorKind::Other,

                          format!("server exited too early: {}", st),

                      ));

                  }

                  // try again with slight delay

                  time::delay_for(Duration::from_millis(10)).await;

              }

              Err(io::Error::new(

                  io::ErrorKind::TimedOut,

                  "timed out while connecting to server",

              ))

          }

      }

      /// Determines the server socket to connect to.

      ///

      /// If no `$CHGSOCKNAME` is specified, the socket directory will be created

      /// as necessary.

      fn prepare_server_socket_path() -> io::Result<PathBuf> {

          if let Some(s) = env::var_os("CHGSOCKNAME") {

              Ok(PathBuf::from(s))

          } else {

              let mut path = default_server_socket_dir();

              create_secure_dir(&path)?;

              path.push("server");

              Ok(path)

          }

      }

      /// Determines the default server socket path as follows.

      ///

      /// 1. `$XDG_RUNTIME_DIR/chg`

      /// 2. `$TMPDIR/chg$UID`

      /// 3. `/tmp/chg$UID`

      pub fn default_server_socket_dir() -> PathBuf {

          // XDG_RUNTIME_DIR should be ignored if it has an insufficient permission.

          // https://standards.freedesktop.org/basedir-spec/basedir-spec-latest.html

          if let Some(Ok(s)) = env::var_os("XDG_RUNTIME_DIR").map(check_secure_dir) {

              let mut path = PathBuf::from(s);

              path.push("chg");

              path

          } else {

              let mut path = env::temp_dir();

              path.push(format!("chg{}", procutil::get_effective_uid()));

              path

          }

      }

      /// Determines the default hg command.

      pub fn default_hg_command() -> OsString {

          // TODO: maybe allow embedding the path at compile time (or load from hgrc)

          env::var_os("CHGHG")

              .or(env::var_os("HG"))

              .unwrap_or(OsStr::new("hg").to_owned())

      }

      fn default_timeout() -> Duration {

          let secs = env::var("CHGTIMEOUT")

              .ok()

              .and_then(|s| s.parse().ok())

              .unwrap_or(60);

          Duration::from_secs(secs)

      }

      /// Creates a directory which the other users cannot access to.

      ///

      /// If the directory already exists, tests its permission.

      fn create_secure_dir(path: impl AsRef<Path>) -> io::Result<()> {

          DirBuilder::new()

              .mode(0o700)

              .create(path.as_ref())

              .or_else(|err| {

                  if err.kind() == io::ErrorKind::AlreadyExists {

                      check_secure_dir(path).map(|_| ())

                  } else {

                      Err(err)

                  }

              })

      }

      fn check_secure_dir<P>(path: P) -> io::Result<P>

      where

          P: AsRef<Path>,

      {

          let a = fs::symlink_metadata(path.as_ref())?;

          if a.is_dir()

              && a.uid() == procutil::get_effective_uid()

              && (a.mode() & 0o777) == 0o700

          {

              Ok(path)

          } else {

              Err(io::Error::new(io::ErrorKind::Other, "insecure directory"))

          }

      }

      fn check_server_capabilities(spec: &ServerSpec) -> io::Result<()> {

          let unsupported: Vec<_> = REQUIRED_SERVER_CAPABILITIES

              .iter()

              .cloned()

              .filter(|&s| !spec.capabilities.contains(s))

              .collect();

          if unsupported.is_empty() {

              Ok(())

          } else {

              let msg = format!(

                  "insufficient server capabilities: {}",

                  unsupported.join(", ")

              );

              Err(io::Error::new(io::ErrorKind::Other, msg))

          }

      }

      /// Collects arguments which need to be passed to the server at start.

      pub fn collect_early_args(

          args: impl IntoIterator<Item = impl AsRef<OsStr>>,

      ) -> Vec<OsString> {

          let mut args_iter = args.into_iter();

          let mut early_args = Vec::new();

          while let Some(arg) = args_iter.next() {

              let argb = arg.as_ref().as_bytes();

              if argb == b"--" {

                  break;

              } else if argb.starts_with(b"--") {

                  let mut split = argb[2..].splitn(2, |&c| c == b'=');

                  match split.next().unwrap() {

                      b"traceback" => {

                          if split.next().is_none() {

                              early_args.push(arg.as_ref().to_owned());

                          }

                      }

                      b"config" | b"cwd" | b"repo" | b"repository" => {

                          if split.next().is_some() {

                              // --<flag>=<val>

                              early_args.push(arg.as_ref().to_owned());

                          } else {

                              // --<flag> <val>

                              args_iter.next().map(|val| {

                                  early_args.push(arg.as_ref().to_owned());

                                  early_args.push(val.as_ref().to_owned());

                              });

                          }

                      }

                      _ => {}

                  }

              } else if argb.starts_with(b"-R") {

                  if argb.len() > 2 {

                      // -R<val>

                      early_args.push(arg.as_ref().to_owned());

                  } else {

                      // -R <val>

                      args_iter.next().map(|val| {

                          early_args.push(arg.as_ref().to_owned());

                          early_args.push(val.as_ref().to_owned());

                      });

                  }

              }

          }

          early_args

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          #[test]

          fn collect_early_args_some() {

              assert!(collect_early_args(&[] as &[&OsStr]).is_empty());

              assert!(collect_early_args(&["log"]).is_empty());

              assert_eq!(

                  collect_early_args(&["log", "-Ra", "foo"]),

                  os_string_vec_from(&[b"-Ra"])

              );

              assert_eq!(

                  collect_early_args(&["log", "-R", "repo", "", "--traceback", "a"]),

                  os_string_vec_from(&[b"-R", b"repo", b"--traceback"])

              );

              assert_eq!(

                  collect_early_args(&["log", "--config", "diff.git=1", "-q"]),

                  os_string_vec_from(&[b"--config", b"diff.git=1"])

              );

              assert_eq!(

                  collect_early_args(&["--cwd=..", "--repository", "r", "log"]),

                  os_string_vec_from(&[b"--cwd=..", b"--repository", b"r"])

              );

              assert_eq!(

                  collect_early_args(&["log", "--repo=r", "--repos", "a"]),

                  os_string_vec_from(&[b"--repo=r"])

              );

          }

          #[test]

          fn collect_early_args_orphaned() {

              assert!(collect_early_args(&["log", "-R"]).is_empty());

              assert!(collect_early_args(&["log", "--config"]).is_empty());

          }

          #[test]

          fn collect_early_args_unwanted_value() {

              assert!(collect_early_args(&["log", "--traceback="]).is_empty());

          }

          fn os_string_vec_from(v: &[&[u8]]) -> Vec<OsString> {

              v.iter().map(|s| OsStr::from_bytes(s).to_owned()).collect()

          }

      }

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				// Copyright 2011, 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.

				//! Utility for locating command-server process.

				use log::debug;
				use std::env;
				use std::ffi::{OsStr, OsString};
				use std::fs::{self, DirBuilder};
				use std::io;
				use std::os::unix::ffi::{OsStrExt, OsStringExt};
				use std::os::unix::fs::{DirBuilderExt, MetadataExt};
				use std::path::{Path, PathBuf};
				use std::process::{self, Child, Command};
				use std::time::{Duration, Instant};
				use tokio::time;

				use crate::clientext::ChgClient;
				use crate::message::{Instruction, ServerSpec};
				use crate::procutil;

				const REQUIRED_SERVER_CAPABILITIES: &[&str] = &[
				"attachio",
				"chdir",
				"runcommand",
				"setenv",
				"setumask2",
				"validate",
				];

				/// Helper to connect to and spawn a server process.
				#[derive(Clone, Debug)]
				pub struct Locator {
				hg_command: OsString,
				hg_early_args: Vec<OsString>,
				current_dir: PathBuf,
				env_vars: Vec<(OsString, OsString)>,
				process_id: u32,
				base_sock_path: PathBuf,
				redirect_sock_path: Option<PathBuf>,
				timeout: Duration,
				}

				impl Locator {
				/// Creates locator capturing the current process environment.
				///
				/// If no `$CHGSOCKNAME` is specified, the socket directory will be
				/// created as necessary.
				pub fn prepare_from_env() -> io::Result<Locator> {
				Ok(Locator {
				hg_command: default_hg_command(),
				hg_early_args: Vec::new(),
				current_dir: env::current_dir()?,
				env_vars: env::vars_os().collect(),
				process_id: process::id(),
				base_sock_path: prepare_server_socket_path()?,
				redirect_sock_path: None,
				timeout: default_timeout(),
				})
				}

				/// Temporary socket path for this client process.
				fn temp_sock_path(&self) -> PathBuf {
				let src = self.base_sock_path.as_os_str().as_bytes();
				let mut buf = Vec::with_capacity(src.len() + 6); // "{src}.{pid}".len()
				buf.extend_from_slice(src);
				buf.extend_from_slice(format!(".{}", self.process_id).as_bytes());
				OsString::from_vec(buf).into()
				}

				/// Specifies the arguments to be passed to the server at start.
				pub fn set_early_args(
				&mut self,
				args: impl IntoIterator<Item = impl AsRef<OsStr>>,
				) {
				self.hg_early_args =
				args.into_iter().map(\|a\| a.as_ref().to_owned()).collect();
				}

				/// Connects to the server.
				///
				/// The server process will be spawned if not running.
				pub async fn connect(&mut self) -> io::Result<ChgClient> {
				for _cnt in 0..10 {
				let mut client = self.try_connect().await?;
				let instructions = client.validate(&self.hg_early_args).await?;
				let reconnect = self.run_instructions(&instructions)?;
				if !reconnect {
				return Ok(client);
				}
				}

				let msg = format!(
				concat!(
				"too many redirections.\n",
				"Please make sure {:?} is not a wrapper which ",
				"changes sensitive environment variables ",
				"before executing hg. If you have to use a ",
				"wrapper, wrap chg instead of hg.",
				),
				self.hg_command
				);
				Err(io::Error::new(io::ErrorKind::Other, msg))
				}

				/// Runs instructions received from the server.
				///
				/// Returns true if the client should try connecting to the other server.
				fn run_instructions(
				&mut self,
				instructions: &[Instruction],
				) -> io::Result<bool> {
				let mut reconnect = false;
				for inst in instructions {
				debug!("instruction: {:?}", inst);
				match inst {
				Instruction::Exit(_) => {
				// Just returns the current connection to run the
				// unparsable command and report the error
				return Ok(false);
				}
				Instruction::Reconnect => {
				reconnect = true;
				}
				Instruction::Redirect(path) => {
				if path.parent() != self.base_sock_path.parent() {
				let msg = format!(
				"insecure redirect instruction from server: {}",
				path.display()
				);
				return Err(io::Error::new(
				io::ErrorKind::InvalidData,
				msg,
				));
				}
				self.redirect_sock_path = Some(path.to_owned());
				reconnect = true;
				}
				Instruction::Unlink(path) => {
				if path.parent() != self.base_sock_path.parent() {
				let msg = format!(
				"insecure unlink instruction from server: {}",
				path.display()
				);
				return Err(io::Error::new(
				io::ErrorKind::InvalidData,
				msg,
				));
				}
				fs::remove_file(path).unwrap_or(()); // may race
				}
				}
				}

				Ok(reconnect)
				}

				/// Tries to connect to the existing server, or spawns new if not running.
				async fn try_connect(&mut self) -> io::Result<ChgClient> {
				let sock_path = self
				.redirect_sock_path
				.as_ref()
				.unwrap_or(&self.base_sock_path)
				.clone();
				debug!("try connect to {}", sock_path.display());
				let mut client = match ChgClient::connect(sock_path).await {
				Ok(client) => client,
				Err(_) => {
				// Prevent us from being re-connected to the outdated
				// master server: We were told by the server to redirect
				// to redirect_sock_path, which didn't work. We do not
				// want to connect to the same master server again
				// because it would probably tell us the same thing.
				if self.redirect_sock_path.is_some() {
				fs::remove_file(&self.base_sock_path).unwrap_or(());
				// may race
				}
				self.spawn_connect().await?
				}
				};
				check_server_capabilities(client.server_spec())?;
				// It's purely optional, and the server might not support this command.
				if client.server_spec().capabilities.contains("setprocname") {
				client
				.set_process_name(format!("chg[worker/{}]", self.process_id))
				.await?;
				}
				client.set_current_dir(&self.current_dir).await?;
				client
				.set_env_vars_os(self.env_vars.iter().cloned())
				.await?;
				Ok(client)
				}

				/// Spawns new server process and connects to it.
				///
				/// The server will be spawned at the current working directory, then
				/// chdir to "/", so that the server will load configs from the target
				/// repository.
				async fn spawn_connect(&mut self) -> io::Result<ChgClient> {
				let sock_path = self.temp_sock_path();
				debug!("start cmdserver at {}", sock_path.display());
				let server = Command::new(&self.hg_command)
				.arg("serve")
				.arg("--cmdserver")
				.arg("chgunix")
				.arg("--address")
				.arg(&sock_path)
				.arg("--daemon-postexec")
				.arg("chdir:/")
				.args(&self.hg_early_args)
				.current_dir(&self.current_dir)
				.env_clear()
				.envs(self.env_vars.iter().cloned())
				.env("CHGINTERNALMARK", "")
				.spawn()?;
				let client = self.connect_spawned(server, &sock_path).await?;
				debug!(
				"rename {} to {}",
				sock_path.display(),
				self.base_sock_path.display()
				);
				fs::rename(&sock_path, &self.base_sock_path)?;
				Ok(client)
				}

				/// Tries to connect to the just spawned server repeatedly until timeout
				/// exceeded.
				async fn connect_spawned(
				&mut self,
				mut server: Child,
				sock_path: &Path,
				) -> io::Result<ChgClient> {
				debug!("try connect to {} repeatedly", sock_path.display());
				// waits for either connection established or server failed to start
				let start_time = Instant::now();
				while start_time.elapsed() < self.timeout {
				if let Ok(client) = ChgClient::connect(&sock_path).await {
				// server handle is dropped here, but the detached process
				// will continue running in background
				return Ok(client);
				}

				if let Some(st) = server.try_wait()? {
				return Err(io::Error::new(
				io::ErrorKind::Other,
				format!("server exited too early: {}", st),
				));
				}

				// try again with slight delay
				time::delay_for(Duration::from_millis(10)).await;
				}

				Err(io::Error::new(
				io::ErrorKind::TimedOut,
				"timed out while connecting to server",
				))
				}
				}

				/// Determines the server socket to connect to.
				///
				/// If no `$CHGSOCKNAME` is specified, the socket directory will be created
				/// as necessary.
				fn prepare_server_socket_path() -> io::Result<PathBuf> {
				if let Some(s) = env::var_os("CHGSOCKNAME") {
				Ok(PathBuf::from(s))
				} else {
				let mut path = default_server_socket_dir();
				create_secure_dir(&path)?;
				path.push("server");
				Ok(path)
				}
				}

				/// Determines the default server socket path as follows.
				///
				/// 1. `$XDG_RUNTIME_DIR/chg`
				/// 2. `$TMPDIR/chg$UID`
				/// 3. `/tmp/chg$UID`
				pub fn default_server_socket_dir() -> PathBuf {
				// XDG_RUNTIME_DIR should be ignored if it has an insufficient permission.
				// https://standards.freedesktop.org/basedir-spec/basedir-spec-latest.html
				if let Some(Ok(s)) = env::var_os("XDG_RUNTIME_DIR").map(check_secure_dir) {
				let mut path = PathBuf::from(s);
				path.push("chg");
				path
				} else {
				let mut path = env::temp_dir();
				path.push(format!("chg{}", procutil::get_effective_uid()));
				path
				}
				}

				/// Determines the default hg command.
				pub fn default_hg_command() -> OsString {
				// TODO: maybe allow embedding the path at compile time (or load from hgrc)
				env::var_os("CHGHG")
				.or(env::var_os("HG"))
				.unwrap_or(OsStr::new("hg").to_owned())
				}

				fn default_timeout() -> Duration {
				let secs = env::var("CHGTIMEOUT")
				.ok()
				.and_then(\|s\| s.parse().ok())
				.unwrap_or(60);
				Duration::from_secs(secs)
				}

				/// Creates a directory which the other users cannot access to.
				///
				/// If the directory already exists, tests its permission.
				fn create_secure_dir(path: impl AsRef<Path>) -> io::Result<()> {
				DirBuilder::new()
				.mode(0o700)
				.create(path.as_ref())
				.or_else(\|err\| {
				if err.kind() == io::ErrorKind::AlreadyExists {
				check_secure_dir(path).map(\|_\| ())
				} else {
				Err(err)
				}
				})
				}

				fn check_secure_dir<P>(path: P) -> io::Result<P>
				where
				P: AsRef<Path>,
				{
				let a = fs::symlink_metadata(path.as_ref())?;
				if a.is_dir()
				&& a.uid() == procutil::get_effective_uid()
				&& (a.mode() & 0o777) == 0o700
				{
				Ok(path)
				} else {
				Err(io::Error::new(io::ErrorKind::Other, "insecure directory"))
				}
				}

				fn check_server_capabilities(spec: &ServerSpec) -> io::Result<()> {
				let unsupported: Vec<_> = REQUIRED_SERVER_CAPABILITIES
				.iter()
				.cloned()
				.filter(\|&s\| !spec.capabilities.contains(s))
				.collect();
				if unsupported.is_empty() {
				Ok(())
				} else {
				let msg = format!(
				"insufficient server capabilities: {}",
				unsupported.join(", ")
				);
				Err(io::Error::new(io::ErrorKind::Other, msg))
				}
				}

				/// Collects arguments which need to be passed to the server at start.
				pub fn collect_early_args(
				args: impl IntoIterator<Item = impl AsRef<OsStr>>,
				) -> Vec<OsString> {
				let mut args_iter = args.into_iter();
				let mut early_args = Vec::new();
				while let Some(arg) = args_iter.next() {
				let argb = arg.as_ref().as_bytes();
				if argb == b"--" {
				break;
				} else if argb.starts_with(b"--") {
				let mut split = argb[2..].splitn(2, \|&c\| c == b'=');
				match split.next().unwrap() {
				b"traceback" => {
				if split.next().is_none() {
				early_args.push(arg.as_ref().to_owned());
				}
				}
				b"config" \| b"cwd" \| b"repo" \| b"repository" => {
				if split.next().is_some() {
				// --<flag>=<val>
				early_args.push(arg.as_ref().to_owned());
				} else {
				// --<flag> <val>
				args_iter.next().map(\|val\| {
				early_args.push(arg.as_ref().to_owned());
				early_args.push(val.as_ref().to_owned());
				});
				}
				}
				_ => {}
				}
				} else if argb.starts_with(b"-R") {
				if argb.len() > 2 {
				// -R<val>
				early_args.push(arg.as_ref().to_owned());
				} else {
				// -R <val>
				args_iter.next().map(\|val\| {
				early_args.push(arg.as_ref().to_owned());
				early_args.push(val.as_ref().to_owned());
				});
				}
				}
				}

				early_args
				}

				#[cfg(test)]
				mod tests {
				use super::*;

				#[test]
				fn collect_early_args_some() {
				assert!(collect_early_args(&[] as &[&OsStr]).is_empty());
				assert!(collect_early_args(&["log"]).is_empty());
				assert_eq!(
				collect_early_args(&["log", "-Ra", "foo"]),
				os_string_vec_from(&[b"-Ra"])
				);
				assert_eq!(
				collect_early_args(&["log", "-R", "repo", "", "--traceback", "a"]),
				os_string_vec_from(&[b"-R", b"repo", b"--traceback"])
				);
				assert_eq!(
				collect_early_args(&["log", "--config", "diff.git=1", "-q"]),
				os_string_vec_from(&[b"--config", b"diff.git=1"])
				);
				assert_eq!(
				collect_early_args(&["--cwd=..", "--repository", "r", "log"]),
				os_string_vec_from(&[b"--cwd=..", b"--repository", b"r"])
				);
				assert_eq!(
				collect_early_args(&["log", "--repo=r", "--repos", "a"]),
				os_string_vec_from(&[b"--repo=r"])
				);
				}

				#[test]
				fn collect_early_args_orphaned() {
				assert!(collect_early_args(&["log", "-R"]).is_empty());
				assert!(collect_early_args(&["log", "--config"]).is_empty());
				}

				#[test]
				fn collect_early_args_unwanted_value() {
				assert!(collect_early_args(&["log", "--traceback="]).is_empty());
				}

				fn os_string_vec_from(v: &[&[u8]]) -> Vec<OsString> {
				v.iter().map(\|s\| OsStr::from_bytes(s).to_owned()).collect()
				}
				}