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

dirstate-tree: Add tree traversal/iteration...

dirstate-tree: Add tree traversal/iteration Like Python’s, Rust’s iterators are "external" in that they are driven by a caller who calls a `next` method. This is as opposed to "internal" iterators who drive themselves and call a callback for each item. Writing an internal iterator traversing a tree is easy with recursion, but internal iterators cannot rely on the call stack in that way, they must save in an explicit object all state that they need to be preserved across two `next` calls. This algorithm uses a `Vec` as a stack that contains what would be local variables on the call stack if we could use recursion. Differential Revision: https://phab.mercurial-scm.org/D10370

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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.

      //! Utility for parsing and building command-server messages.

      use bytes::{BufMut, Bytes, BytesMut};

      use std::error;

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

      use std::io;

      use std::os::unix::ffi::OsStrExt;

      use std::path::PathBuf;

      pub use tokio_hglib::message::*; // re-exports

      /// Shell command type requested by the server.

      #[derive(Clone, Copy, Debug, Eq, PartialEq)]

      pub enum CommandType {

          /// Pager should be spawned.

          Pager,

          /// Shell command should be executed to send back the result code.

          System,

      }

      /// Shell command requested by the server.

      #[derive(Clone, Debug, Eq, PartialEq)]

      pub struct CommandSpec {

          pub command: OsString,

          pub current_dir: OsString,

          pub envs: Vec<(OsString, OsString)>,

      }

      /// Parses "S" channel request into command type and spec.

      pub fn parse_command_spec(

          data: Bytes,

      ) -> io::Result<(CommandType, CommandSpec)> {

          let mut split = data.split(|&c| c == b'\0');

          let ctype = parse_command_type(

              split.next().ok_or(new_parse_error("missing type"))?,

          )?;

          let command = split.next().ok_or(new_parse_error("missing command"))?;

          let current_dir =

              split.next().ok_or(new_parse_error("missing current dir"))?;

          let mut envs = Vec::new();

          for l in split {

              let mut s = l.splitn(2, |&c| c == b'=');

              let k = s.next().unwrap();

              let v = s.next().ok_or(new_parse_error("malformed env"))?;

              envs.push((

                  OsStr::from_bytes(k).to_owned(),

                  OsStr::from_bytes(v).to_owned(),

              ));

          }

          let spec = CommandSpec {

              command: OsStr::from_bytes(command).to_owned(),

              current_dir: OsStr::from_bytes(current_dir).to_owned(),

              envs: envs,

          };

          Ok((ctype, spec))

      }

      fn parse_command_type(value: &[u8]) -> io::Result<CommandType> {

          match value {

              b"pager" => Ok(CommandType::Pager),

              b"system" => Ok(CommandType::System),

              _ => Err(new_parse_error(format!(

                  "unknown command type: {}",

                  decode_latin1(value)

              ))),

          }

      }

      /// Client-side instruction requested by the server.

      #[derive(Clone, Debug, Eq, PartialEq)]

      pub enum Instruction {

          Exit(i32),

          Reconnect,

          Redirect(PathBuf),

          Unlink(PathBuf),

      }

      /// Parses validation result into instructions.

      pub fn parse_instructions(data: Bytes) -> io::Result<Vec<Instruction>> {

          let mut instructions = Vec::new();

          for l in data.split(|&c| c == b'\0') {

              if l.is_empty() {

                  continue;

              }

              let mut s = l.splitn(2, |&c| c == b' ');

              let inst = match (s.next().unwrap(), s.next()) {

                  (b"exit", Some(arg)) => decode_latin1(arg)

                      .parse()

                      .map(Instruction::Exit)

                      .map_err(|_| {

                          new_parse_error(format!("invalid exit code: {:?}", arg))

                      })?,

                  (b"reconnect", None) => Instruction::Reconnect,

                  (b"redirect", Some(arg)) => {

                      Instruction::Redirect(OsStr::from_bytes(arg).to_owned().into())

                  }

                  (b"unlink", Some(arg)) => {

                      Instruction::Unlink(OsStr::from_bytes(arg).to_owned().into())

                  }

                  _ => {

                      return Err(new_parse_error(format!(

                          "unknown command: {:?}",

                          l

                      )));

                  }

              };

              instructions.push(inst);

          }

          Ok(instructions)

      }

      // allocate large buffer as environment variables can be quite long

      const INITIAL_PACKED_ENV_VARS_CAPACITY: usize = 4096;

      /// Packs environment variables of platform encoding into bytes.

      ///

      /// # Panics

      ///

      /// Panics if key or value contains `\0` character, or key contains '='

      /// character.

      pub fn pack_env_vars_os(

          vars: impl IntoIterator<Item = (impl AsRef<OsStr>, impl AsRef<OsStr>)>,

      ) -> Bytes {

          let mut vars_iter = vars.into_iter();

          if let Some((k, v)) = vars_iter.next() {

              let mut dst =

                  BytesMut::with_capacity(INITIAL_PACKED_ENV_VARS_CAPACITY);

              pack_env_into(&mut dst, k.as_ref(), v.as_ref());

              for (k, v) in vars_iter {

                  dst.reserve(1);

                  dst.put_u8(b'\0');

                  pack_env_into(&mut dst, k.as_ref(), v.as_ref());

              }

              dst.freeze()

          } else {

              Bytes::new()

          }

      }

      fn pack_env_into(dst: &mut BytesMut, k: &OsStr, v: &OsStr) {

          assert!(!k.as_bytes().contains(&0), "key shouldn't contain NUL");

          assert!(!k.as_bytes().contains(&b'='), "key shouldn't contain '='");

          assert!(!v.as_bytes().contains(&0), "value shouldn't contain NUL");

          dst.reserve(k.as_bytes().len() + 1 + v.as_bytes().len());

          dst.put_slice(k.as_bytes());

          dst.put_u8(b'=');

          dst.put_slice(v.as_bytes());

      }

      fn decode_latin1(s: impl AsRef<[u8]>) -> String {

          s.as_ref().iter().map(|&c| c as char).collect()

      }

      fn new_parse_error(

          error: impl Into<Box<dyn error::Error + Send + Sync>>,

      ) -> io::Error {

          io::Error::new(io::ErrorKind::InvalidData, error)

      }

      #[cfg(test)]

      mod tests {

          use super::*;

          use std::os::unix::ffi::OsStringExt;

          use std::panic;

          #[test]

          fn parse_command_spec_good() {

              let src = [

                  b"pager".as_ref(),

                  b"less -FRX".as_ref(),

                  b"/tmp".as_ref(),

                  b"LANG=C".as_ref(),

                  b"HGPLAIN=".as_ref(),

              ]

              .join(&0);

              let spec = CommandSpec {

                  command: os_string_from(b"less -FRX"),

                  current_dir: os_string_from(b"/tmp"),

                  envs: vec![

                      (os_string_from(b"LANG"), os_string_from(b"C")),

                      (os_string_from(b"HGPLAIN"), os_string_from(b"")),

                  ],

              };

              assert_eq!(

                  parse_command_spec(Bytes::from(src)).unwrap(),

                  (CommandType::Pager, spec)

              );

          }

          #[test]

          fn parse_command_spec_too_short() {

              assert!(parse_command_spec(Bytes::from_static(b"")).is_err());

              assert!(parse_command_spec(Bytes::from_static(b"pager")).is_err());

              assert!(

                  parse_command_spec(Bytes::from_static(b"pager\0less")).is_err()

              );

          }

          #[test]

          fn parse_command_spec_malformed_env() {

              assert!(parse_command_spec(Bytes::from_static(

                  b"pager\0less\0/tmp\0HOME"

              ))

              .is_err());

          }

          #[test]

          fn parse_command_spec_unknown_type() {

              assert!(

                  parse_command_spec(Bytes::from_static(b"paper\0less")).is_err()

              );

          }

          #[test]

          fn parse_instructions_good() {

              let src = [

                  b"exit 123".as_ref(),

                  b"reconnect".as_ref(),

                  b"redirect /whatever".as_ref(),

                  b"unlink /someother".as_ref(),

              ]

              .join(&0);

              let insts = vec![

                  Instruction::Exit(123),

                  Instruction::Reconnect,

                  Instruction::Redirect(path_buf_from(b"/whatever")),

                  Instruction::Unlink(path_buf_from(b"/someother")),

              ];

              assert_eq!(parse_instructions(Bytes::from(src)).unwrap(), insts);

          }

          #[test]

          fn parse_instructions_empty() {

              assert_eq!(parse_instructions(Bytes::new()).unwrap(), vec![]);

              assert_eq!(

                  parse_instructions(Bytes::from_static(b"\0")).unwrap(),

                  vec![]

              );

          }

          #[test]

          fn parse_instructions_malformed_exit_code() {

              assert!(parse_instructions(Bytes::from_static(b"exit foo")).is_err());

          }

          #[test]

          fn parse_instructions_missing_argument() {

              assert!(parse_instructions(Bytes::from_static(b"exit")).is_err());

              assert!(parse_instructions(Bytes::from_static(b"redirect")).is_err());

              assert!(parse_instructions(Bytes::from_static(b"unlink")).is_err());

          }

          #[test]

          fn parse_instructions_unknown_command() {

              assert!(parse_instructions(Bytes::from_static(b"quit 0")).is_err());

          }

          #[test]

          fn pack_env_vars_os_good() {

              assert_eq!(

                  pack_env_vars_os(vec![] as Vec<(OsString, OsString)>),

                  Bytes::new()

              );

              assert_eq!(

                  pack_env_vars_os(vec![os_string_pair_from(b"FOO", b"bar")]),

                  Bytes::from_static(b"FOO=bar")

              );

              assert_eq!(

                  pack_env_vars_os(vec![

                      os_string_pair_from(b"FOO", b""),

                      os_string_pair_from(b"BAR", b"baz")

                  ]),

                  Bytes::from_static(b"FOO=\0BAR=baz")

              );

          }

          #[test]

          fn pack_env_vars_os_large_key() {

              let mut buf = vec![b'A'; INITIAL_PACKED_ENV_VARS_CAPACITY];

              let envs = vec![os_string_pair_from(&buf, b"")];

              buf.push(b'=');

              assert_eq!(pack_env_vars_os(envs), Bytes::from(buf));

          }

          #[test]

          fn pack_env_vars_os_large_value() {

              let mut buf = vec![b'A', b'='];

              buf.resize(INITIAL_PACKED_ENV_VARS_CAPACITY + 1, b'a');

              let envs = vec![os_string_pair_from(&buf[..1], &buf[2..])];

              assert_eq!(pack_env_vars_os(envs), Bytes::from(buf));

          }

          #[test]

          fn pack_env_vars_os_nul_eq() {

              assert!(panic::catch_unwind(|| {

                  pack_env_vars_os(vec![os_string_pair_from(b"\0", b"")])

              })

              .is_err());

              assert!(panic::catch_unwind(|| {

                  pack_env_vars_os(vec![os_string_pair_from(b"FOO", b"\0bar")])

              })

              .is_err());

              assert!(panic::catch_unwind(|| {

                  pack_env_vars_os(vec![os_string_pair_from(b"FO=", b"bar")])

              })

              .is_err());

              assert_eq!(

                  pack_env_vars_os(vec![os_string_pair_from(b"FOO", b"=ba")]),

                  Bytes::from_static(b"FOO==ba")

              );

          }

          fn os_string_from(s: &[u8]) -> OsString {

              OsString::from_vec(s.to_vec())

          }

          fn os_string_pair_from(k: &[u8], v: &[u8]) -> (OsString, OsString) {

              (os_string_from(k), os_string_from(v))

          }

          fn path_buf_from(s: &[u8]) -> PathBuf {

              os_string_from(s).into()

          }

      }

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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.

				//! Utility for parsing and building command-server messages.

				use bytes::{BufMut, Bytes, BytesMut};
				use std::error;
				use std::ffi::{OsStr, OsString};
				use std::io;
				use std::os::unix::ffi::OsStrExt;
				use std::path::PathBuf;

				pub use tokio_hglib::message::*; // re-exports

				/// Shell command type requested by the server.
				#[derive(Clone, Copy, Debug, Eq, PartialEq)]
				pub enum CommandType {
				/// Pager should be spawned.
				Pager,
				/// Shell command should be executed to send back the result code.
				System,
				}

				/// Shell command requested by the server.
				#[derive(Clone, Debug, Eq, PartialEq)]
				pub struct CommandSpec {
				pub command: OsString,
				pub current_dir: OsString,
				pub envs: Vec<(OsString, OsString)>,
				}

				/// Parses "S" channel request into command type and spec.
				pub fn parse_command_spec(
				data: Bytes,
				) -> io::Result<(CommandType, CommandSpec)> {
				let mut split = data.split(\|&c\| c == b'\0');
				let ctype = parse_command_type(
				split.next().ok_or(new_parse_error("missing type"))?,
				)?;
				let command = split.next().ok_or(new_parse_error("missing command"))?;
				let current_dir =
				split.next().ok_or(new_parse_error("missing current dir"))?;

				let mut envs = Vec::new();
				for l in split {
				let mut s = l.splitn(2, \|&c\| c == b'=');
				let k = s.next().unwrap();
				let v = s.next().ok_or(new_parse_error("malformed env"))?;
				envs.push((
				OsStr::from_bytes(k).to_owned(),
				OsStr::from_bytes(v).to_owned(),
				));
				}

				let spec = CommandSpec {
				command: OsStr::from_bytes(command).to_owned(),
				current_dir: OsStr::from_bytes(current_dir).to_owned(),
				envs: envs,
				};
				Ok((ctype, spec))
				}

				fn parse_command_type(value: &[u8]) -> io::Result<CommandType> {
				match value {
				b"pager" => Ok(CommandType::Pager),
				b"system" => Ok(CommandType::System),
				_ => Err(new_parse_error(format!(
				"unknown command type: {}",
				decode_latin1(value)
				))),
				}
				}

				/// Client-side instruction requested by the server.
				#[derive(Clone, Debug, Eq, PartialEq)]
				pub enum Instruction {
				Exit(i32),
				Reconnect,
				Redirect(PathBuf),
				Unlink(PathBuf),
				}

				/// Parses validation result into instructions.
				pub fn parse_instructions(data: Bytes) -> io::Result<Vec<Instruction>> {
				let mut instructions = Vec::new();
				for l in data.split(\|&c\| c == b'\0') {
				if l.is_empty() {
				continue;
				}
				let mut s = l.splitn(2, \|&c\| c == b' ');
				let inst = match (s.next().unwrap(), s.next()) {
				(b"exit", Some(arg)) => decode_latin1(arg)
				.parse()
				.map(Instruction::Exit)
				.map_err(\|_\| {
				new_parse_error(format!("invalid exit code: {:?}", arg))
				})?,
				(b"reconnect", None) => Instruction::Reconnect,
				(b"redirect", Some(arg)) => {
				Instruction::Redirect(OsStr::from_bytes(arg).to_owned().into())
				}
				(b"unlink", Some(arg)) => {
				Instruction::Unlink(OsStr::from_bytes(arg).to_owned().into())
				}
				_ => {
				return Err(new_parse_error(format!(
				"unknown command: {:?}",
				l
				)));
				}
				};
				instructions.push(inst);
				}
				Ok(instructions)
				}

				// allocate large buffer as environment variables can be quite long
				const INITIAL_PACKED_ENV_VARS_CAPACITY: usize = 4096;

				/// Packs environment variables of platform encoding into bytes.
				///
				/// # Panics
				///
				/// Panics if key or value contains `\0` character, or key contains '='
				/// character.
				pub fn pack_env_vars_os(
				vars: impl IntoIterator<Item = (impl AsRef<OsStr>, impl AsRef<OsStr>)>,
				) -> Bytes {
				let mut vars_iter = vars.into_iter();
				if let Some((k, v)) = vars_iter.next() {
				let mut dst =
				BytesMut::with_capacity(INITIAL_PACKED_ENV_VARS_CAPACITY);
				pack_env_into(&mut dst, k.as_ref(), v.as_ref());
				for (k, v) in vars_iter {
				dst.reserve(1);
				dst.put_u8(b'\0');
				pack_env_into(&mut dst, k.as_ref(), v.as_ref());
				}
				dst.freeze()
				} else {
				Bytes::new()
				}
				}

				fn pack_env_into(dst: &mut BytesMut, k: &OsStr, v: &OsStr) {
				assert!(!k.as_bytes().contains(&0), "key shouldn't contain NUL");
				assert!(!k.as_bytes().contains(&b'='), "key shouldn't contain '='");
				assert!(!v.as_bytes().contains(&0), "value shouldn't contain NUL");
				dst.reserve(k.as_bytes().len() + 1 + v.as_bytes().len());
				dst.put_slice(k.as_bytes());
				dst.put_u8(b'=');
				dst.put_slice(v.as_bytes());
				}

				fn decode_latin1(s: impl AsRef<[u8]>) -> String {
				s.as_ref().iter().map(\|&c\| c as char).collect()
				}

				fn new_parse_error(
				error: impl Into<Box<dyn error::Error + Send + Sync>>,
				) -> io::Error {
				io::Error::new(io::ErrorKind::InvalidData, error)
				}

				#[cfg(test)]
				mod tests {
				use super::*;
				use std::os::unix::ffi::OsStringExt;
				use std::panic;

				#[test]
				fn parse_command_spec_good() {
				let src = [
				b"pager".as_ref(),
				b"less -FRX".as_ref(),
				b"/tmp".as_ref(),
				b"LANG=C".as_ref(),
				b"HGPLAIN=".as_ref(),
				]
				.join(&0);
				let spec = CommandSpec {
				command: os_string_from(b"less -FRX"),
				current_dir: os_string_from(b"/tmp"),
				envs: vec![
				(os_string_from(b"LANG"), os_string_from(b"C")),
				(os_string_from(b"HGPLAIN"), os_string_from(b"")),
				],
				};
				assert_eq!(
				parse_command_spec(Bytes::from(src)).unwrap(),
				(CommandType::Pager, spec)
				);
				}

				#[test]
				fn parse_command_spec_too_short() {
				assert!(parse_command_spec(Bytes::from_static(b"")).is_err());
				assert!(parse_command_spec(Bytes::from_static(b"pager")).is_err());
				assert!(
				parse_command_spec(Bytes::from_static(b"pager\0less")).is_err()
				);
				}

				#[test]
				fn parse_command_spec_malformed_env() {
				assert!(parse_command_spec(Bytes::from_static(
				b"pager\0less\0/tmp\0HOME"
				))
				.is_err());
				}

				#[test]
				fn parse_command_spec_unknown_type() {
				assert!(
				parse_command_spec(Bytes::from_static(b"paper\0less")).is_err()
				);
				}

				#[test]
				fn parse_instructions_good() {
				let src = [
				b"exit 123".as_ref(),
				b"reconnect".as_ref(),
				b"redirect /whatever".as_ref(),
				b"unlink /someother".as_ref(),
				]
				.join(&0);
				let insts = vec![
				Instruction::Exit(123),
				Instruction::Reconnect,
				Instruction::Redirect(path_buf_from(b"/whatever")),
				Instruction::Unlink(path_buf_from(b"/someother")),
				];
				assert_eq!(parse_instructions(Bytes::from(src)).unwrap(), insts);
				}

				#[test]
				fn parse_instructions_empty() {
				assert_eq!(parse_instructions(Bytes::new()).unwrap(), vec![]);
				assert_eq!(
				parse_instructions(Bytes::from_static(b"\0")).unwrap(),
				vec![]
				);
				}

				#[test]
				fn parse_instructions_malformed_exit_code() {
				assert!(parse_instructions(Bytes::from_static(b"exit foo")).is_err());
				}

				#[test]
				fn parse_instructions_missing_argument() {
				assert!(parse_instructions(Bytes::from_static(b"exit")).is_err());
				assert!(parse_instructions(Bytes::from_static(b"redirect")).is_err());
				assert!(parse_instructions(Bytes::from_static(b"unlink")).is_err());
				}

				#[test]
				fn parse_instructions_unknown_command() {
				assert!(parse_instructions(Bytes::from_static(b"quit 0")).is_err());
				}

				#[test]
				fn pack_env_vars_os_good() {
				assert_eq!(
				pack_env_vars_os(vec![] as Vec<(OsString, OsString)>),
				Bytes::new()
				);
				assert_eq!(
				pack_env_vars_os(vec![os_string_pair_from(b"FOO", b"bar")]),
				Bytes::from_static(b"FOO=bar")
				);
				assert_eq!(
				pack_env_vars_os(vec![
				os_string_pair_from(b"FOO", b""),
				os_string_pair_from(b"BAR", b"baz")
				]),
				Bytes::from_static(b"FOO=\0BAR=baz")
				);
				}

				#[test]
				fn pack_env_vars_os_large_key() {
				let mut buf = vec![b'A'; INITIAL_PACKED_ENV_VARS_CAPACITY];
				let envs = vec![os_string_pair_from(&buf, b"")];
				buf.push(b'=');
				assert_eq!(pack_env_vars_os(envs), Bytes::from(buf));
				}

				#[test]
				fn pack_env_vars_os_large_value() {
				let mut buf = vec![b'A', b'='];
				buf.resize(INITIAL_PACKED_ENV_VARS_CAPACITY + 1, b'a');
				let envs = vec![os_string_pair_from(&buf[..1], &buf[2..])];
				assert_eq!(pack_env_vars_os(envs), Bytes::from(buf));
				}

				#[test]
				fn pack_env_vars_os_nul_eq() {
				assert!(panic::catch_unwind(\|\| {
				pack_env_vars_os(vec![os_string_pair_from(b"\0", b"")])
				})
				.is_err());
				assert!(panic::catch_unwind(\|\| {
				pack_env_vars_os(vec![os_string_pair_from(b"FOO", b"\0bar")])
				})
				.is_err());
				assert!(panic::catch_unwind(\|\| {
				pack_env_vars_os(vec![os_string_pair_from(b"FO=", b"bar")])
				})
				.is_err());
				assert_eq!(
				pack_env_vars_os(vec![os_string_pair_from(b"FOO", b"=ba")]),
				Bytes::from_static(b"FOO==ba")
				);
				}

				fn os_string_from(s: &[u8]) -> OsString {
				OsString::from_vec(s.to_vec())
				}

				fn os_string_pair_from(k: &[u8], v: &[u8]) -> (OsString, OsString) {
				(os_string_from(k), os_string_from(v))
				}

				fn path_buf_from(s: &[u8]) -> PathBuf {
				os_string_from(s).into()
				}
				}