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largefiles: track if a matcher was tampered with...
largefiles: track if a matcher was tampered with This is used to make sure rust fast path is not taken for the modified matchers.
Raphaël Gomès - - Load All Authors

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status.rs
307 lines | 9.8 KiB | application/rls-services+xml | RustLexer
/ rust / hg-cpython / src / dirstate / status.rs
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// status.rs
//
// Copyright 2019, 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.
//! Bindings for the `hg::status` module provided by the
//! `hg-core` crate. From Python, this will be seen as
//! `rustext.dirstate.status`.
use crate::{dirstate::DirstateMap, exceptions::FallbackError};
use cpython::{
exc::ValueError, ObjectProtocol, PyBytes, PyErr, PyList, PyObject,
PyResult, PyTuple, Python, PythonObject, ToPyObject,
};
use hg::dirstate::status::StatusPath;
use hg::matchers::{
DifferenceMatcher, IntersectionMatcher, Matcher, NeverMatcher,
UnionMatcher,
};
use hg::{
matchers::{AlwaysMatcher, FileMatcher, IncludeMatcher},
parse_pattern_syntax,
utils::{
files::{get_bytes_from_path, get_path_from_bytes},
hg_path::{HgPath, HgPathBuf},
},
BadMatch, DirstateStatus, IgnorePattern, PatternFileWarning, StatusError,
StatusOptions,
};
use std::borrow::Borrow;
fn collect_status_path_list(py: Python, paths: &[StatusPath<'_>]) -> PyList {
collect_pybytes_list(py, paths.iter().map(|item| &*item.path))
}
/// This will be useless once trait impls for collection are added to `PyBytes`
/// upstream.
fn collect_pybytes_list(
py: Python,
iter: impl Iterator<Item = impl AsRef<HgPath>>,
) -> PyList {
let list = PyList::new(py, &[]);
for path in iter {
list.append(
py,
PyBytes::new(py, path.as_ref().as_bytes()).into_object(),
)
}
list
}
fn collect_bad_matches(
py: Python,
collection: &[(impl AsRef<HgPath>, BadMatch)],
) -> PyResult<PyList> {
let list = PyList::new(py, &[]);
let os = py.import("os")?;
let get_error_message = |code: i32| -> PyResult<_> {
os.call(
py,
"strerror",
PyTuple::new(py, &[code.to_py_object(py).into_object()]),
None,
)
};
for (path, bad_match) in collection.iter() {
let message = match bad_match {
BadMatch::OsError(code) => get_error_message(*code)?,
BadMatch::BadType(bad_type) => {
format!("unsupported file type (type is {})", bad_type)
.to_py_object(py)
.into_object()
}
};
list.append(
py,
(PyBytes::new(py, path.as_ref().as_bytes()), message)
.to_py_object(py)
.into_object(),
)
}
Ok(list)
}
fn handle_fallback(py: Python, err: StatusError) -> PyErr {
match err {
StatusError::Pattern(e) => {
let as_string = e.to_string();
log::trace!("Rust status fallback: `{}`", &as_string);
PyErr::new::<FallbackError, _>(py, &as_string)
}
e => PyErr::new::<ValueError, _>(py, e.to_string()),
}
}
pub fn status_wrapper(
py: Python,
dmap: DirstateMap,
matcher: PyObject,
root_dir: PyObject,
ignore_files: PyList,
check_exec: bool,
list_clean: bool,
list_ignored: bool,
list_unknown: bool,
collect_traversed_dirs: bool,
) -> PyResult<PyTuple> {
let bytes = root_dir.extract::<PyBytes>(py)?;
let root_dir = get_path_from_bytes(bytes.data(py));
let dmap: DirstateMap = dmap.to_py_object(py);
let mut dmap = dmap.get_inner_mut(py);
let ignore_files: PyResult<Vec<_>> = ignore_files
.iter(py)
.map(|b| {
let file = b.extract::<PyBytes>(py)?;
Ok(get_path_from_bytes(file.data(py)).to_owned())
})
.collect();
let ignore_files = ignore_files?;
// The caller may call `copymap.items()` separately
let list_copies = false;
let after_status = |res: Result<(DirstateStatus<'_>, _), StatusError>| {
let (status_res, warnings) =
res.map_err(|e| handle_fallback(py, e))?;
build_response(py, status_res, warnings)
};
let matcher = extract_matcher(py, matcher)?;
dmap.with_status(
&*matcher,
root_dir.to_path_buf(),
ignore_files,
StatusOptions {
check_exec,
list_clean,
list_ignored,
list_unknown,
list_copies,
collect_traversed_dirs,
},
after_status,
)
}
/// Transform a Python matcher into a Rust matcher.
fn extract_matcher(
py: Python,
matcher: PyObject,
) -> PyResult<Box<dyn Matcher + Sync>> {
match matcher.get_type(py).name(py).borrow() {
"alwaysmatcher" => Ok(Box::new(AlwaysMatcher)),
"nevermatcher" => Ok(Box::new(NeverMatcher)),
"exactmatcher" => {
let files = matcher.call_method(
py,
"files",
PyTuple::new(py, &[]),
None,
)?;
let files: PyList = files.cast_into(py)?;
let files: PyResult<Vec<HgPathBuf>> = files
.iter(py)
.map(|f| {
Ok(HgPathBuf::from_bytes(
f.extract::<PyBytes>(py)?.data(py),
))
})
.collect();
let files = files?;
let file_matcher = FileMatcher::new(files)
.map_err(|e| PyErr::new::<ValueError, _>(py, e.to_string()))?;
Ok(Box::new(file_matcher))
}
"includematcher" => {
// Get the patterns from Python even though most of them are
// redundant with those we will parse later on, as they include
// those passed from the command line.
let ignore_patterns: PyResult<Vec<_>> = matcher
.getattr(py, "_kindpats")?
.iter(py)?
.map(|k| {
let k = k?;
let syntax = parse_pattern_syntax(
&[
k.get_item(py, 0)?
.extract::<PyBytes>(py)?
.data(py),
&b":"[..],
]
.concat(),
)
.map_err(|e| {
handle_fallback(py, StatusError::Pattern(e))
})?;
let pattern = k.get_item(py, 1)?.extract::<PyBytes>(py)?;
let pattern = pattern.data(py);
let source = k.get_item(py, 2)?.extract::<PyBytes>(py)?;
let source = get_path_from_bytes(source.data(py));
let new = IgnorePattern::new(syntax, pattern, source);
Ok(new)
})
.collect();
let ignore_patterns = ignore_patterns?;
let matcher = IncludeMatcher::new(ignore_patterns)
.map_err(|e| handle_fallback(py, e.into()))?;
Ok(Box::new(matcher))
}
"unionmatcher" => {
let matchers: PyResult<Vec<_>> = matcher
.getattr(py, "_matchers")?
.iter(py)?
.map(|py_matcher| extract_matcher(py, py_matcher?))
.collect();
Ok(Box::new(UnionMatcher::new(matchers?)))
}
"intersectionmatcher" => {
let m1 = extract_matcher(py, matcher.getattr(py, "_m1")?)?;
let m2 = extract_matcher(py, matcher.getattr(py, "_m2")?)?;
Ok(Box::new(IntersectionMatcher::new(m1, m2)))
}
"differencematcher" => {
let m1 = extract_matcher(py, matcher.getattr(py, "_m1")?)?;
let m2 = extract_matcher(py, matcher.getattr(py, "_m2")?)?;
Ok(Box::new(DifferenceMatcher::new(m1, m2)))
}
e => Err(PyErr::new::<FallbackError, _>(
py,
format!("Unsupported matcher {}", e),
)),
}
}
fn build_response(
py: Python,
status_res: DirstateStatus,
warnings: Vec<PatternFileWarning>,
) -> PyResult<PyTuple> {
let modified = collect_status_path_list(py, &status_res.modified);
let added = collect_status_path_list(py, &status_res.added);
let removed = collect_status_path_list(py, &status_res.removed);
let deleted = collect_status_path_list(py, &status_res.deleted);
let clean = collect_status_path_list(py, &status_res.clean);
let ignored = collect_status_path_list(py, &status_res.ignored);
let unknown = collect_status_path_list(py, &status_res.unknown);
let unsure = collect_status_path_list(py, &status_res.unsure);
let bad = collect_bad_matches(py, &status_res.bad)?;
let traversed = collect_pybytes_list(py, status_res.traversed.iter());
let dirty = status_res.dirty.to_py_object(py);
let py_warnings = PyList::new(py, &[]);
for warning in warnings.iter() {
// We use duck-typing on the Python side for dispatch, good enough for
// now.
match warning {
PatternFileWarning::InvalidSyntax(file, syn) => {
py_warnings.append(
py,
(
PyBytes::new(py, &get_bytes_from_path(file)),
PyBytes::new(py, syn),
)
.to_py_object(py)
.into_object(),
);
}
PatternFileWarning::NoSuchFile(file) => py_warnings.append(
py,
PyBytes::new(py, &get_bytes_from_path(file)).into_object(),
),
}
}
Ok(PyTuple::new(
py,
&[
unsure.into_object(),
modified.into_object(),
added.into_object(),
removed.into_object(),
deleted.into_object(),
clean.into_object(),
ignored.into_object(),
unknown.into_object(),
py_warnings.into_object(),
bad.into_object(),
traversed.into_object(),
dirty.into_object(),
][..],
))
}