##// END OF EJS Templates
narrow: widen when files are excluded by sparse and not included by narrow...
narrow: widen when files are excluded by sparse and not included by narrow In a repo where some directories are included by narrow and the complement are excluded by sparse, it was previously impossible to widen either because trying to widen narrow would complain that the requested files are outside the sparse checkout and trying to widen sparse would complain that the requested files are outside the narrow checkout. This changes the `hg tracked --addinclude` command to only actually update any newly accessible files in the dirstate if they are also accessible via sparse. Differential Revision: https://phab.mercurial-scm.org/D10734

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status.rs
315 lines | 9.7 KiB | application/rls-services+xml | RustLexer
// status.rs
//
// Copyright 2020, Georges Racinet <georges.racinets@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::error::CommandError;
use crate::ui::Ui;
use clap::{Arg, SubCommand};
use hg;
use hg::errors::IoResultExt;
use hg::matchers::AlwaysMatcher;
use hg::operations::cat;
use hg::repo::Repo;
use hg::revlog::node::Node;
use hg::utils::hg_path::{hg_path_to_os_string, HgPath};
use hg::{DirstateMap, StatusError};
use hg::{HgPathCow, StatusOptions};
use log::{info, warn};
use std::convert::TryInto;
use std::fs;
use std::io::BufReader;
use std::io::Read;
pub const HELP_TEXT: &str = "
Show changed files in the working directory
This is a pure Rust version of `hg status`.
Some options might be missing, check the list below.
";
pub fn args() -> clap::App<'static, 'static> {
SubCommand::with_name("status")
.alias("st")
.about(HELP_TEXT)
.arg(
Arg::with_name("all")
.help("show status of all files")
.short("-A")
.long("--all"),
)
.arg(
Arg::with_name("modified")
.help("show only modified files")
.short("-m")
.long("--modified"),
)
.arg(
Arg::with_name("added")
.help("show only added files")
.short("-a")
.long("--added"),
)
.arg(
Arg::with_name("removed")
.help("show only removed files")
.short("-r")
.long("--removed"),
)
.arg(
Arg::with_name("clean")
.help("show only clean files")
.short("-c")
.long("--clean"),
)
.arg(
Arg::with_name("deleted")
.help("show only deleted files")
.short("-d")
.long("--deleted"),
)
.arg(
Arg::with_name("unknown")
.help("show only unknown (not tracked) files")
.short("-u")
.long("--unknown"),
)
.arg(
Arg::with_name("ignored")
.help("show only ignored files")
.short("-i")
.long("--ignored"),
)
}
/// Pure data type allowing the caller to specify file states to display
#[derive(Copy, Clone, Debug)]
pub struct DisplayStates {
pub modified: bool,
pub added: bool,
pub removed: bool,
pub clean: bool,
pub deleted: bool,
pub unknown: bool,
pub ignored: bool,
}
pub const DEFAULT_DISPLAY_STATES: DisplayStates = DisplayStates {
modified: true,
added: true,
removed: true,
clean: false,
deleted: true,
unknown: true,
ignored: false,
};
pub const ALL_DISPLAY_STATES: DisplayStates = DisplayStates {
modified: true,
added: true,
removed: true,
clean: true,
deleted: true,
unknown: true,
ignored: true,
};
impl DisplayStates {
pub fn is_empty(&self) -> bool {
!(self.modified
|| self.added
|| self.removed
|| self.clean
|| self.deleted
|| self.unknown
|| self.ignored)
}
}
pub fn run(invocation: &crate::CliInvocation) -> Result<(), CommandError> {
let status_enabled_default = false;
let status_enabled = invocation.config.get_option(b"rhg", b"status")?;
if !status_enabled.unwrap_or(status_enabled_default) {
return Err(CommandError::unsupported(
"status is experimental in rhg (enable it with 'rhg.status = true' \
or enable fallback with 'rhg.on-unsupported = fallback')"
));
}
let ui = invocation.ui;
let args = invocation.subcommand_args;
let display_states = if args.is_present("all") {
// TODO when implementing `--quiet`: it excludes clean files
// from `--all`
ALL_DISPLAY_STATES
} else {
let requested = DisplayStates {
modified: args.is_present("modified"),
added: args.is_present("added"),
removed: args.is_present("removed"),
clean: args.is_present("clean"),
deleted: args.is_present("deleted"),
unknown: args.is_present("unknown"),
ignored: args.is_present("ignored"),
};
if requested.is_empty() {
DEFAULT_DISPLAY_STATES
} else {
requested
}
};
let repo = invocation.repo?;
let mut dmap = DirstateMap::new();
let dirstate_data = repo.hg_vfs().mmap_open("dirstate")?;
let parents = dmap.read(&dirstate_data)?;
let options = StatusOptions {
// TODO should be provided by the dirstate parsing and
// hence be stored on dmap. Using a value that assumes we aren't
// below the time resolution granularity of the FS and the
// dirstate.
last_normal_time: 0,
// we're currently supporting file systems with exec flags only
// anyway
check_exec: true,
list_clean: display_states.clean,
list_unknown: display_states.unknown,
list_ignored: display_states.ignored,
collect_traversed_dirs: false,
};
let ignore_file = repo.working_directory_vfs().join(".hgignore"); // TODO hardcoded
let (ds_status, pattern_warnings) = hg::status(
&dmap,
&AlwaysMatcher,
repo.working_directory_path().to_owned(),
vec![ignore_file],
options,
)?;
if !pattern_warnings.is_empty() {
warn!("Pattern warnings: {:?}", &pattern_warnings);
}
if !ds_status.bad.is_empty() {
warn!("Bad matches {:?}", &(ds_status.bad))
}
if !ds_status.unsure.is_empty() {
info!(
"Files to be rechecked by retrieval from filelog: {:?}",
&ds_status.unsure
);
}
// TODO check ordering to match `hg status` output.
// (this is as in `hg help status`)
if display_states.modified {
display_status_paths(ui, &(ds_status.modified), b"M")?;
}
if !ds_status.unsure.is_empty() {
let p1: Node = parents
.expect(
"Dirstate with no parents should not list any file to
be rechecked for modifications",
)
.p1
.into();
let p1_hex = format!("{:x}", p1);
let mut rechecked_modified: Vec<HgPathCow> = Vec::new();
let mut rechecked_clean: Vec<HgPathCow> = Vec::new();
for to_check in ds_status.unsure {
if cat_file_is_modified(repo, &to_check, &p1_hex)? {
rechecked_modified.push(to_check);
} else {
rechecked_clean.push(to_check);
}
}
if display_states.modified {
display_status_paths(ui, &rechecked_modified, b"M")?;
}
if display_states.clean {
display_status_paths(ui, &rechecked_clean, b"C")?;
}
}
if display_states.added {
display_status_paths(ui, &(ds_status.added), b"A")?;
}
if display_states.clean {
display_status_paths(ui, &(ds_status.clean), b"C")?;
}
if display_states.removed {
display_status_paths(ui, &(ds_status.removed), b"R")?;
}
if display_states.deleted {
display_status_paths(ui, &(ds_status.deleted), b"!")?;
}
if display_states.unknown {
display_status_paths(ui, &(ds_status.unknown), b"?")?;
}
if display_states.ignored {
display_status_paths(ui, &(ds_status.ignored), b"I")?;
}
Ok(())
}
// Probably more elegant to use a Deref or Borrow trait rather than
// harcode HgPathBuf, but probably not really useful at this point
fn display_status_paths(
ui: &Ui,
paths: &[HgPathCow],
status_prefix: &[u8],
) -> Result<(), CommandError> {
for path in paths {
// Same TODO as in commands::root
let bytes: &[u8] = path.as_bytes();
// TODO optim, probably lots of unneeded copies here, especially
// if out stream is buffered
ui.write_stdout(&[status_prefix, b" ", bytes, b"\n"].concat())?;
}
Ok(())
}
/// Check if a file is modified by comparing actual repo store and file system.
///
/// This meant to be used for those that the dirstate cannot resolve, due
/// to time resolution limits.
///
/// TODO: detect permission bits and similar metadata modifications
fn cat_file_is_modified(
repo: &Repo,
hg_path: &HgPath,
rev: &str,
) -> Result<bool, CommandError> {
// TODO CatRev expects &[HgPathBuf], something like
// &[impl Deref<HgPath>] would be nicer and should avoid the copy
let path_bufs = [hg_path.into()];
// TODO IIUC CatRev returns a simple Vec<u8> for all files
// being able to tell them apart as (path, bytes) would be nicer
// and OPTIM would allow manifest resolution just once.
let output = cat(repo, rev, &path_bufs).map_err(|e| (e, rev))?;
let fs_path = repo
.working_directory_vfs()
.join(hg_path_to_os_string(hg_path).expect("HgPath conversion"));
let hg_data_len: u64 = match output.concatenated.len().try_into() {
Ok(v) => v,
Err(_) => {
// conversion of data length to u64 failed,
// good luck for any file to have this content
return Ok(true);
}
};
let fobj = fs::File::open(&fs_path).when_reading_file(&fs_path)?;
if fobj.metadata().map_err(|e| StatusError::from(e))?.len() != hg_data_len
{
return Ok(true);
}
for (fs_byte, hg_byte) in
BufReader::new(fobj).bytes().zip(output.concatenated)
{
if fs_byte.map_err(|e| StatusError::from(e))? != hg_byte {
return Ok(true);
}
}
Ok(false)
}