upstream/mercurial-mirror Files · rust/hg-core/src/utils/path_auditor.rs

dirstate-tree: Make Rust DirstateMap bindings go through a trait object...

dirstate-tree: Make Rust DirstateMap bindings go through a trait object This changeset starts a series that adds an experiment to make status faster by changing the dirstate (first only in memory and later also on disk) to be shaped as a tree matching the directory structure, instead of the current flat collection of entries. The status algorithm can then traverse this tree dirstate at the same time as it traverses the filesystem. We (Octobus) have made prototypes that show promising results but are prone to bitrot. We would like to start upstreaming some experimental Rust code that goes in this direction, but to avoid disrupting users it should only be enabled by some run-time opt-in while keeping the existing dirstate structure and status algorithm as-is. The `DirstateMap` type and `status` function look like the appropriate boundary. This adds a new trait that abstracts everything Python bindings need and makes those bindings go through a `dyn` trait object. Later we’ll have two implementations of this trait, and the same bindings can use either. Differential Revision: https://phab.mercurial-scm.org/D10362

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      // path_auditor.rs

      //

      // Copyright 2020

      // Raphaël Gomès <rgomes@octobus.net>,

      //

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

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

      use crate::utils::{

          files::lower_clean,

          find_slice_in_slice,

          hg_path::{hg_path_to_path_buf, HgPath, HgPathBuf, HgPathError},

      };

      use std::collections::HashSet;

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

      use std::sync::{Mutex, RwLock};

      /// Ensures that a path is valid for use in the repository i.e. does not use

      /// any banned components, does not traverse a symlink, etc.

      #[derive(Debug, Default)]

      pub struct PathAuditor {

          audited: Mutex<HashSet<HgPathBuf>>,

          audited_dirs: RwLock<HashSet<HgPathBuf>>,

          root: PathBuf,

      }

      impl PathAuditor {

          pub fn new(root: impl AsRef<Path>) -> Self {

              Self {

                  root: root.as_ref().to_owned(),

                  ..Default::default()

              }

          }

          pub fn audit_path(

              &self,

              path: impl AsRef<HgPath>,

          ) -> Result<(), HgPathError> {

              // TODO windows "localpath" normalization

              let path = path.as_ref();

              if path.is_empty() {

                  return Ok(());

              }

              // TODO case normalization

              if self.audited.lock().unwrap().contains(path) {

                  return Ok(());

              }

              // AIX ignores "/" at end of path, others raise EISDIR.

              let last_byte = path.as_bytes()[path.len() - 1];

              if last_byte == b'/' || last_byte == b'\\' {

                  return Err(HgPathError::EndsWithSlash(path.to_owned()));

              }

              let parts: Vec<_> = path

                  .as_bytes()

                  .split(|b| std::path::is_separator(*b as char))

                  .collect();

              let first_component = lower_clean(parts[0]);

              let first_component = first_component.as_slice();

              if !path.split_drive().0.is_empty()

                  || (first_component == b".hg"

                      || first_component == b".hg."

                      || first_component == b"")

                  || parts.iter().any(|c| c == b"..")

              {

                  return Err(HgPathError::InsideDotHg(path.to_owned()));

              }

              // Windows shortname aliases

              for part in parts.iter() {

                  if part.contains(&b'~') {

                      let mut split = part.splitn(2, |b| *b == b'~');

                      let first =

                          split.next().unwrap().to_owned().to_ascii_uppercase();

                      let last = split.next().unwrap();

                      if last.iter().all(u8::is_ascii_digit)

                          && (first == b"HG" || first == b"HG8B6C")

                      {

                          return Err(HgPathError::ContainsIllegalComponent(

                              path.to_owned(),

                          ));

                      }

                  }

              }

              let lower_path = lower_clean(path.as_bytes());

              if find_slice_in_slice(&lower_path, b".hg").is_some() {

                  let lower_parts: Vec<_> = path

                      .as_bytes()

                      .split(|b| std::path::is_separator(*b as char))

                      .collect();

                  for pattern in [b".hg".to_vec(), b".hg.".to_vec()].iter() {

                      if let Some(pos) = lower_parts[1..]

                          .iter()

                          .position(|part| part == &pattern.as_slice())

                      {

                          let base = lower_parts[..=pos]

                              .iter()

                              .fold(HgPathBuf::new(), |acc, p| {

                                  acc.join(HgPath::new(p))

                              });

                          return Err(HgPathError::IsInsideNestedRepo {

                              path: path.to_owned(),

                              nested_repo: base,

                          });

                      }

                  }

              }

              let parts = &parts[..parts.len().saturating_sub(1)];

              // We don't want to add "foo/bar/baz" to `audited_dirs` before checking

              // if there's a "foo/.hg" directory. This also means we won't

              // accidentally traverse a symlink into some other filesystem (which

              // is potentially expensive to access).

              for index in 0..parts.len() {

                  let prefix = &parts[..=index].join(&b'/');

                  let prefix = HgPath::new(prefix);

                  if self.audited_dirs.read().unwrap().contains(prefix) {

                      continue;

                  }

                  self.check_filesystem(&prefix, &path)?;

                  self.audited_dirs.write().unwrap().insert(prefix.to_owned());

              }

              self.audited.lock().unwrap().insert(path.to_owned());

              Ok(())

          }

          pub fn check_filesystem(

              &self,

              prefix: impl AsRef<HgPath>,

              path: impl AsRef<HgPath>,

          ) -> Result<(), HgPathError> {

              let prefix = prefix.as_ref();

              let path = path.as_ref();

              let current_path = self.root.join(

                  hg_path_to_path_buf(prefix)

                      .map_err(|_| HgPathError::NotFsCompliant(path.to_owned()))?,

              );

              match std::fs::symlink_metadata(&current_path) {

                  Err(e) => {

                      // EINVAL can be raised as invalid path syntax under win32.

                      if e.kind() != std::io::ErrorKind::NotFound

                          && e.kind() != std::io::ErrorKind::InvalidInput

                          && e.raw_os_error() != Some(20)

                      {

                          // Rust does not yet have an `ErrorKind` for

                          // `NotADirectory` (errno 20)

                          // It happens if the dirstate contains `foo/bar` and

                          // foo is not a directory

                          return Err(HgPathError::NotFsCompliant(path.to_owned()));

                      }

                  }

                  Ok(meta) => {

                      if meta.file_type().is_symlink() {

                          return Err(HgPathError::TraversesSymbolicLink {

                              path: path.to_owned(),

                              symlink: prefix.to_owned(),

                          });

                      }

                      if meta.file_type().is_dir()

                          && current_path.join(".hg").is_dir()

                      {

                          return Err(HgPathError::IsInsideNestedRepo {

                              path: path.to_owned(),

                              nested_repo: prefix.to_owned(),

                          });

                      }

                  }

              };

              Ok(())

          }

          pub fn check(&self, path: impl AsRef<HgPath>) -> bool {

              self.audit_path(path).is_ok()

          }

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          use crate::utils::files::get_path_from_bytes;

          use crate::utils::hg_path::path_to_hg_path_buf;

          #[test]

          fn test_path_auditor() {

              let auditor = PathAuditor::new(get_path_from_bytes(b"/tmp"));

              let path = HgPath::new(b".hg/00changelog.i");

              assert_eq!(

                  auditor.audit_path(path),

                  Err(HgPathError::InsideDotHg(path.to_owned()))

              );

              let path = HgPath::new(b"this/is/nested/.hg/thing.txt");

              assert_eq!(

                  auditor.audit_path(path),

                  Err(HgPathError::IsInsideNestedRepo {

                      path: path.to_owned(),

                      nested_repo: HgPathBuf::from_bytes(b"this/is/nested")

                  })

              );

              use std::fs::{create_dir, File};

              use tempfile::tempdir;

              let base_dir = tempdir().unwrap();

              let base_dir_path = base_dir.path();

              let skip = base_dir_path.components().count() - 1;

              let a = base_dir_path.join("a");

              let b = base_dir_path.join("b");

              create_dir(&a).unwrap();

              let in_a_path = a.join("in_a");

              File::create(in_a_path).unwrap();

              // TODO make portable

              std::os::unix::fs::symlink(&a, &b).unwrap();

              let buf = b.join("in_a").components().skip(skip).collect::<PathBuf>();

              eprintln!("buf: {}", buf.display());

              let path = path_to_hg_path_buf(buf).unwrap();

              assert_eq!(

                  auditor.audit_path(&path),

                  Err(HgPathError::TraversesSymbolicLink {

                      path: path,

                      symlink: path_to_hg_path_buf(

                          b.components().skip(2).collect::<PathBuf>()

                      )

                      .unwrap()

                  })

              );

          }

      }

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				// path_auditor.rs
				//
				// Copyright 2020
				// Raphaël Gomès <rgomes@octobus.net>,
				//
				// This software may be used and distributed according to the terms of the
				// GNU General Public License version 2 or any later version.

				use crate::utils::{
				files::lower_clean,
				find_slice_in_slice,
				hg_path::{hg_path_to_path_buf, HgPath, HgPathBuf, HgPathError},
				};
				use std::collections::HashSet;
				use std::path::{Path, PathBuf};
				use std::sync::{Mutex, RwLock};

				/// Ensures that a path is valid for use in the repository i.e. does not use
				/// any banned components, does not traverse a symlink, etc.
				#[derive(Debug, Default)]
				pub struct PathAuditor {
				audited: Mutex<HashSet<HgPathBuf>>,
				audited_dirs: RwLock<HashSet<HgPathBuf>>,
				root: PathBuf,
				}

				impl PathAuditor {
				pub fn new(root: impl AsRef<Path>) -> Self {
				Self {
				root: root.as_ref().to_owned(),
				..Default::default()
				}
				}
				pub fn audit_path(
				&self,
				path: impl AsRef<HgPath>,
				) -> Result<(), HgPathError> {
				// TODO windows "localpath" normalization
				let path = path.as_ref();
				if path.is_empty() {
				return Ok(());
				}
				// TODO case normalization
				if self.audited.lock().unwrap().contains(path) {
				return Ok(());
				}
				// AIX ignores "/" at end of path, others raise EISDIR.
				let last_byte = path.as_bytes()[path.len() - 1];
				if last_byte == b'/' \|\| last_byte == b'\\' {
				return Err(HgPathError::EndsWithSlash(path.to_owned()));
				}
				let parts: Vec<_> = path
				.as_bytes()
				.split(\|b\| std::path::is_separator(*b as char))
				.collect();

				let first_component = lower_clean(parts[0]);
				let first_component = first_component.as_slice();
				if !path.split_drive().0.is_empty()
				\|\| (first_component == b".hg"
				\|\| first_component == b".hg."
				\|\| first_component == b"")
				\|\| parts.iter().any(\|c\| c == b"..")
				{
				return Err(HgPathError::InsideDotHg(path.to_owned()));
				}

				// Windows shortname aliases
				for part in parts.iter() {
				if part.contains(&b'~') {
				let mut split = part.splitn(2, \|b\| *b == b'~');
				let first =
				split.next().unwrap().to_owned().to_ascii_uppercase();
				let last = split.next().unwrap();
				if last.iter().all(u8::is_ascii_digit)
				&& (first == b"HG" \|\| first == b"HG8B6C")
				{
				return Err(HgPathError::ContainsIllegalComponent(
				path.to_owned(),
				));
				}
				}
				}
				let lower_path = lower_clean(path.as_bytes());
				if find_slice_in_slice(&lower_path, b".hg").is_some() {
				let lower_parts: Vec<_> = path
				.as_bytes()
				.split(\|b\| std::path::is_separator(*b as char))
				.collect();
				for pattern in [b".hg".to_vec(), b".hg.".to_vec()].iter() {
				if let Some(pos) = lower_parts[1..]
				.iter()
				.position(\|part\| part == &pattern.as_slice())
				{
				let base = lower_parts[..=pos]
				.iter()
				.fold(HgPathBuf::new(), \|acc, p\| {
				acc.join(HgPath::new(p))
				});
				return Err(HgPathError::IsInsideNestedRepo {
				path: path.to_owned(),
				nested_repo: base,
				});
				}
				}
				}

				let parts = &parts[..parts.len().saturating_sub(1)];

				// We don't want to add "foo/bar/baz" to `audited_dirs` before checking
				// if there's a "foo/.hg" directory. This also means we won't
				// accidentally traverse a symlink into some other filesystem (which
				// is potentially expensive to access).
				for index in 0..parts.len() {
				let prefix = &parts[..=index].join(&b'/');
				let prefix = HgPath::new(prefix);
				if self.audited_dirs.read().unwrap().contains(prefix) {
				continue;
				}
				self.check_filesystem(&prefix, &path)?;
				self.audited_dirs.write().unwrap().insert(prefix.to_owned());
				}

				self.audited.lock().unwrap().insert(path.to_owned());

				Ok(())
				}

				pub fn check_filesystem(
				&self,
				prefix: impl AsRef<HgPath>,
				path: impl AsRef<HgPath>,
				) -> Result<(), HgPathError> {
				let prefix = prefix.as_ref();
				let path = path.as_ref();
				let current_path = self.root.join(
				hg_path_to_path_buf(prefix)
				.map_err(\|_\| HgPathError::NotFsCompliant(path.to_owned()))?,
				);
				match std::fs::symlink_metadata(&current_path) {
				Err(e) => {
				// EINVAL can be raised as invalid path syntax under win32.
				if e.kind() != std::io::ErrorKind::NotFound
				&& e.kind() != std::io::ErrorKind::InvalidInput
				&& e.raw_os_error() != Some(20)
				{
				// Rust does not yet have an `ErrorKind` for
				// `NotADirectory` (errno 20)
				// It happens if the dirstate contains `foo/bar` and
				// foo is not a directory
				return Err(HgPathError::NotFsCompliant(path.to_owned()));
				}
				}
				Ok(meta) => {
				if meta.file_type().is_symlink() {
				return Err(HgPathError::TraversesSymbolicLink {
				path: path.to_owned(),
				symlink: prefix.to_owned(),
				});
				}
				if meta.file_type().is_dir()
				&& current_path.join(".hg").is_dir()
				{
				return Err(HgPathError::IsInsideNestedRepo {
				path: path.to_owned(),
				nested_repo: prefix.to_owned(),
				});
				}
				}
				};

				Ok(())
				}

				pub fn check(&self, path: impl AsRef<HgPath>) -> bool {
				self.audit_path(path).is_ok()
				}
				}

				#[cfg(test)]
				mod tests {
				use super::*;
				use crate::utils::files::get_path_from_bytes;
				use crate::utils::hg_path::path_to_hg_path_buf;

				#[test]
				fn test_path_auditor() {
				let auditor = PathAuditor::new(get_path_from_bytes(b"/tmp"));

				let path = HgPath::new(b".hg/00changelog.i");
				assert_eq!(
				auditor.audit_path(path),
				Err(HgPathError::InsideDotHg(path.to_owned()))
				);
				let path = HgPath::new(b"this/is/nested/.hg/thing.txt");
				assert_eq!(
				auditor.audit_path(path),
				Err(HgPathError::IsInsideNestedRepo {
				path: path.to_owned(),
				nested_repo: HgPathBuf::from_bytes(b"this/is/nested")
				})
				);

				use std::fs::{create_dir, File};
				use tempfile::tempdir;

				let base_dir = tempdir().unwrap();
				let base_dir_path = base_dir.path();
				let skip = base_dir_path.components().count() - 1;
				let a = base_dir_path.join("a");
				let b = base_dir_path.join("b");
				create_dir(&a).unwrap();
				let in_a_path = a.join("in_a");
				File::create(in_a_path).unwrap();

				// TODO make portable
				std::os::unix::fs::symlink(&a, &b).unwrap();

				let buf = b.join("in_a").components().skip(skip).collect::<PathBuf>();
				eprintln!("buf: {}", buf.display());
				let path = path_to_hg_path_buf(buf).unwrap();
				assert_eq!(
				auditor.audit_path(&path),
				Err(HgPathError::TraversesSymbolicLink {
				path: path,
				symlink: path_to_hg_path_buf(
				b.components().skip(2).collect::<PathBuf>()
				)
				.unwrap()
				})
				);
				}
				}