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

rust-status: save new dircache even if just invalidated...

rust-status: save new dircache even if just invalidated There was a functional race between invalidating the cache (not acted upon until the end of the status algorithm) and populating the new cache (which relies upon an up-to-date version of the cache). We simply inform the cache populating function that we've just invalidated the cache for this particular directory since the information is present in the same scope.

Raphaël Gomès - - Load All Authors

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             errors.rs
        
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      use crate::config::ConfigValueParseError;

      use crate::exit_codes;

      use std::fmt;

      /// Common error cases that can happen in many different APIs

      #[derive(Debug, derive_more::From)]

      pub enum HgError {

          IoError {

              error: std::io::Error,

              context: IoErrorContext,

          },

          /// A file under `.hg/` normally only written by Mercurial is not in the

          /// expected format. This indicates a bug in Mercurial, filesystem

          /// corruption, or hardware failure.

          ///

          /// The given string is a short explanation for users, not intended to be

          /// machine-readable.

          CorruptedRepository(String),

          /// The respository or requested operation involves a feature not

          /// supported by the Rust implementation. Falling back to the Python

          /// implementation may or may not work.

          ///

          /// The given string is a short explanation for users, not intended to be

          /// machine-readable.

          UnsupportedFeature(String),

          /// Operation cannot proceed for some other reason.

          ///

          /// The message is a short explanation for users, not intended to be

          /// machine-readable.

          Abort {

              message: String,

              detailed_exit_code: exit_codes::ExitCode,

              hint: Option<String>,

          },

          /// A configuration value is not in the expected syntax.

          ///

          /// These errors can happen in many places in the code because values are

          /// parsed lazily as the file-level parser does not know the expected type

          /// and syntax of each value.

          #[from]

          ConfigValueParseError(ConfigValueParseError),

          /// Censored revision data.

          CensoredNodeError,

      }

      /// Details about where an I/O error happened

      #[derive(Debug)]

      pub enum IoErrorContext {

          /// `std::fs::metadata`

          ReadingMetadata(std::path::PathBuf),

          ReadingFile(std::path::PathBuf),

          WritingFile(std::path::PathBuf),

          RemovingFile(std::path::PathBuf),

          RenamingFile {

              from: std::path::PathBuf,

              to: std::path::PathBuf,

          },

          /// `std::fs::canonicalize`

          CanonicalizingPath(std::path::PathBuf),

          /// `std::env::current_dir`

          CurrentDir,

          /// `std::env::current_exe`

          CurrentExe,

      }

      impl HgError {

          pub fn corrupted(explanation: impl Into<String>) -> Self {

              // TODO: capture a backtrace here and keep it in the error value

              // to aid debugging?

              // https://doc.rust-lang.org/std/backtrace/struct.Backtrace.html

              HgError::CorruptedRepository(explanation.into())

          }

          pub fn unsupported(explanation: impl Into<String>) -> Self {

              HgError::UnsupportedFeature(explanation.into())

          }

          pub fn abort(

              explanation: impl Into<String>,

              exit_code: exit_codes::ExitCode,

              hint: Option<String>,

          ) -> Self {

              HgError::Abort {

                  message: explanation.into(),

                  detailed_exit_code: exit_code,

                  hint,

              }

          }

      }

      // TODO: use `DisplayBytes` instead to show non-Unicode filenames losslessly?

      impl fmt::Display for HgError {

          fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

              match self {

                  HgError::Abort { message, .. } => write!(f, "{}", message),

                  HgError::IoError { error, context } => {

                      write!(f, "abort: {}: {}", context, error)

                  }

                  HgError::CorruptedRepository(explanation) => {

                      write!(f, "abort: {}", explanation)

                  }

                  HgError::UnsupportedFeature(explanation) => {

                      write!(f, "unsupported feature: {}", explanation)

                  }

                  HgError::CensoredNodeError => {

                      write!(f, "encountered a censored node")

                  }

                  HgError::ConfigValueParseError(error) => error.fmt(f),

              }

          }

      }

      // TODO: use `DisplayBytes` instead to show non-Unicode filenames losslessly?

      impl fmt::Display for IoErrorContext {

          fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {

              match self {

                  IoErrorContext::ReadingMetadata(path) => {

                      write!(f, "when reading metadata of {}", path.display())

                  }

                  IoErrorContext::ReadingFile(path) => {

                      write!(f, "when reading {}", path.display())

                  }

                  IoErrorContext::WritingFile(path) => {

                      write!(f, "when writing {}", path.display())

                  }

                  IoErrorContext::RemovingFile(path) => {

                      write!(f, "when removing {}", path.display())

                  }

                  IoErrorContext::RenamingFile { from, to } => write!(

                      f,

                      "when renaming {} to {}",

                      from.display(),

                      to.display()

                  ),

                  IoErrorContext::CanonicalizingPath(path) => {

                      write!(f, "when canonicalizing {}", path.display())

                  }

                  IoErrorContext::CurrentDir => {

                      write!(f, "error getting current working directory")

                  }

                  IoErrorContext::CurrentExe => {

                      write!(f, "error getting current executable")

                  }

              }

          }

      }

      pub trait IoResultExt<T> {

          /// Annotate a possible I/O error as related to a reading a file at the

          /// given path.

          ///

          /// This allows printing something like “File not found when reading

          /// example.txt” instead of just “File not found”.

          ///

          /// Converts a `Result` with `std::io::Error` into one with `HgError`.

          fn when_reading_file(self, path: &std::path::Path) -> Result<T, HgError>;

          fn when_writing_file(self, path: &std::path::Path) -> Result<T, HgError>;

          fn with_context(

              self,

              context: impl FnOnce() -> IoErrorContext,

          ) -> Result<T, HgError>;

      }

      impl<T> IoResultExt<T> for std::io::Result<T> {

          fn when_reading_file(self, path: &std::path::Path) -> Result<T, HgError> {

              self.with_context(|| IoErrorContext::ReadingFile(path.to_owned()))

          }

          fn when_writing_file(self, path: &std::path::Path) -> Result<T, HgError> {

              self.with_context(|| IoErrorContext::WritingFile(path.to_owned()))

          }

          fn with_context(

              self,

              context: impl FnOnce() -> IoErrorContext,

          ) -> Result<T, HgError> {

              self.map_err(|error| HgError::IoError {

                  error,

                  context: context(),

              })

          }

      }

      pub trait HgResultExt<T> {

          /// Handle missing files separately from other I/O error cases.

          ///

          /// Wraps the `Ok` type in an `Option`:

          ///

          /// * `Ok(x)` becomes `Ok(Some(x))`

          /// * An I/O "not found" error becomes `Ok(None)`

          /// * Other errors are unchanged

          fn io_not_found_as_none(self) -> Result<Option<T>, HgError>;

      }

      impl<T> HgResultExt<T> for Result<T, HgError> {

          fn io_not_found_as_none(self) -> Result<Option<T>, HgError> {

              match self {

                  Ok(x) => Ok(Some(x)),

                  Err(HgError::IoError { error, .. })

                      if error.kind() == std::io::ErrorKind::NotFound =>

                  {

                      Ok(None)

                  }

                  Err(other_error) => Err(other_error),

              }

          }

      }

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				use crate::config::ConfigValueParseError;
				use crate::exit_codes;
				use std::fmt;

				/// Common error cases that can happen in many different APIs
				#[derive(Debug, derive_more::From)]
				pub enum HgError {
				IoError {
				error: std::io::Error,
				context: IoErrorContext,
				},

				/// A file under `.hg/` normally only written by Mercurial is not in the
				/// expected format. This indicates a bug in Mercurial, filesystem
				/// corruption, or hardware failure.
				///
				/// The given string is a short explanation for users, not intended to be
				/// machine-readable.
				CorruptedRepository(String),

				/// The respository or requested operation involves a feature not
				/// supported by the Rust implementation. Falling back to the Python
				/// implementation may or may not work.
				///
				/// The given string is a short explanation for users, not intended to be
				/// machine-readable.
				UnsupportedFeature(String),

				/// Operation cannot proceed for some other reason.
				///
				/// The message is a short explanation for users, not intended to be
				/// machine-readable.
				Abort {
				message: String,
				detailed_exit_code: exit_codes::ExitCode,
				hint: Option<String>,
				},

				/// A configuration value is not in the expected syntax.
				///
				/// These errors can happen in many places in the code because values are
				/// parsed lazily as the file-level parser does not know the expected type
				/// and syntax of each value.
				#[from]
				ConfigValueParseError(ConfigValueParseError),

				/// Censored revision data.
				CensoredNodeError,
				}

				/// Details about where an I/O error happened
				#[derive(Debug)]
				pub enum IoErrorContext {
				/// `std::fs::metadata`
				ReadingMetadata(std::path::PathBuf),
				ReadingFile(std::path::PathBuf),
				WritingFile(std::path::PathBuf),
				RemovingFile(std::path::PathBuf),
				RenamingFile {
				from: std::path::PathBuf,
				to: std::path::PathBuf,
				},
				/// `std::fs::canonicalize`
				CanonicalizingPath(std::path::PathBuf),
				/// `std::env::current_dir`
				CurrentDir,
				/// `std::env::current_exe`
				CurrentExe,
				}

				impl HgError {
				pub fn corrupted(explanation: impl Into<String>) -> Self {
				// TODO: capture a backtrace here and keep it in the error value
				// to aid debugging?
				// https://doc.rust-lang.org/std/backtrace/struct.Backtrace.html
				HgError::CorruptedRepository(explanation.into())
				}

				pub fn unsupported(explanation: impl Into<String>) -> Self {
				HgError::UnsupportedFeature(explanation.into())
				}

				pub fn abort(
				explanation: impl Into<String>,
				exit_code: exit_codes::ExitCode,
				hint: Option<String>,
				) -> Self {
				HgError::Abort {
				message: explanation.into(),
				detailed_exit_code: exit_code,
				hint,
				}
				}
				}

				// TODO: use `DisplayBytes` instead to show non-Unicode filenames losslessly?
				impl fmt::Display for HgError {
				fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
				match self {
				HgError::Abort { message, .. } => write!(f, "{}", message),
				HgError::IoError { error, context } => {
				write!(f, "abort: {}: {}", context, error)
				}
				HgError::CorruptedRepository(explanation) => {
				write!(f, "abort: {}", explanation)
				}
				HgError::UnsupportedFeature(explanation) => {
				write!(f, "unsupported feature: {}", explanation)
				}
				HgError::CensoredNodeError => {
				write!(f, "encountered a censored node")
				}
				HgError::ConfigValueParseError(error) => error.fmt(f),
				}
				}
				}

				// TODO: use `DisplayBytes` instead to show non-Unicode filenames losslessly?
				impl fmt::Display for IoErrorContext {
				fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
				match self {
				IoErrorContext::ReadingMetadata(path) => {
				write!(f, "when reading metadata of {}", path.display())
				}
				IoErrorContext::ReadingFile(path) => {
				write!(f, "when reading {}", path.display())
				}
				IoErrorContext::WritingFile(path) => {
				write!(f, "when writing {}", path.display())
				}
				IoErrorContext::RemovingFile(path) => {
				write!(f, "when removing {}", path.display())
				}
				IoErrorContext::RenamingFile { from, to } => write!(
				f,
				"when renaming {} to {}",
				from.display(),
				to.display()
				),
				IoErrorContext::CanonicalizingPath(path) => {
				write!(f, "when canonicalizing {}", path.display())
				}
				IoErrorContext::CurrentDir => {
				write!(f, "error getting current working directory")
				}
				IoErrorContext::CurrentExe => {
				write!(f, "error getting current executable")
				}
				}
				}
				}

				pub trait IoResultExt<T> {
				/// Annotate a possible I/O error as related to a reading a file at the
				/// given path.
				///
				/// This allows printing something like “File not found when reading
				/// example.txt” instead of just “File not found”.
				///
				/// Converts a `Result` with `std::io::Error` into one with `HgError`.
				fn when_reading_file(self, path: &std::path::Path) -> Result<T, HgError>;

				fn when_writing_file(self, path: &std::path::Path) -> Result<T, HgError>;

				fn with_context(
				self,
				context: impl FnOnce() -> IoErrorContext,
				) -> Result<T, HgError>;
				}

				impl<T> IoResultExt<T> for std::io::Result<T> {
				fn when_reading_file(self, path: &std::path::Path) -> Result<T, HgError> {
				self.with_context(\|\| IoErrorContext::ReadingFile(path.to_owned()))
				}

				fn when_writing_file(self, path: &std::path::Path) -> Result<T, HgError> {
				self.with_context(\|\| IoErrorContext::WritingFile(path.to_owned()))
				}

				fn with_context(
				self,
				context: impl FnOnce() -> IoErrorContext,
				) -> Result<T, HgError> {
				self.map_err(\|error\| HgError::IoError {
				error,
				context: context(),
				})
				}
				}

				pub trait HgResultExt<T> {
				/// Handle missing files separately from other I/O error cases.
				///
				/// Wraps the `Ok` type in an `Option`:
				///
				/// * `Ok(x)` becomes `Ok(Some(x))`
				/// * An I/O "not found" error becomes `Ok(None)`
				/// * Other errors are unchanged
				fn io_not_found_as_none(self) -> Result<Option<T>, HgError>;
				}

				impl<T> HgResultExt<T> for Result<T, HgError> {
				fn io_not_found_as_none(self) -> Result<Option<T>, HgError> {
				match self {
				Ok(x) => Ok(Some(x)),
				Err(HgError::IoError { error, .. })
				if error.kind() == std::io::ErrorKind::NotFound =>
				{
				Ok(None)
				}
				Err(other_error) => Err(other_error),
				}
				}
				}