// dirstate_map.rs // // Copyright 2019 Raphaël Gomès // // 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::dirstate::dirstate_map` file provided by the //! `hg-core` package. use std::cell::{RefCell, RefMut}; use std::convert::TryInto; use cpython::{ exc, PyBool, PyBytes, PyClone, PyDict, PyErr, PyList, PyNone, PyObject, PyResult, Python, PythonObject, ToPyObject, UnsafePyLeaked, }; use crate::{ dirstate::copymap::{CopyMap, CopyMapItemsIterator, CopyMapKeysIterator}, dirstate::item::DirstateItem, pybytes_deref::PyBytesDeref, }; use hg::{ dirstate::StateMapIter, dirstate_tree::on_disk::DirstateV2ParseError, dirstate_tree::owning::OwningDirstateMap, revlog::Node, utils::files::normalize_case, utils::hg_path::{HgPath, HgPathBuf}, DirstateEntry, DirstateError, DirstateParents, EntryState, }; // TODO // This object needs to share references to multiple members of its Rust // inner struct, namely `copy_map`, `dirs` and `all_dirs`. // Right now `CopyMap` is done, but it needs to have an explicit reference // to `RustDirstateMap` which itself needs to have an encapsulation for // every method in `CopyMap` (copymapcopy, etc.). // This is ugly and hard to maintain. // The same logic applies to `dirs` and `all_dirs`, however the `Dirs` // `py_class!` is already implemented and does not mention // `RustDirstateMap`, rightfully so. // All attributes also have to have a separate refcount data attribute for // leaks, with all methods that go along for reference sharing. py_class!(pub class DirstateMap |py| { @shared data inner: OwningDirstateMap; /// Returns a `(dirstate_map, parents)` tuple @staticmethod def new_v1( on_disk: PyBytes, ) -> PyResult { let on_disk = PyBytesDeref::new(py, on_disk); let (map, parents) = OwningDirstateMap::new_v1(on_disk) .map_err(|e| dirstate_error(py, e))?; let map = Self::create_instance(py, map)?; let p1 = PyBytes::new(py, parents.p1.as_bytes()); let p2 = PyBytes::new(py, parents.p2.as_bytes()); let parents = (p1, p2); Ok((map, parents).to_py_object(py).into_object()) } /// Returns a DirstateMap @staticmethod def new_v2( on_disk: PyBytes, data_size: usize, tree_metadata: PyBytes, ) -> PyResult { let dirstate_error = |e: DirstateError| { PyErr::new::(py, format!("Dirstate error: {:?}", e)) }; let on_disk = PyBytesDeref::new(py, on_disk); let map = OwningDirstateMap::new_v2( on_disk, data_size, tree_metadata.data(py), ).map_err(dirstate_error)?; let map = Self::create_instance(py, map)?; Ok(map.into_object()) } def clear(&self) -> PyResult { self.inner(py).borrow_mut().clear(); Ok(py.None()) } def get( &self, key: PyObject, default: Option = None ) -> PyResult> { let key = key.extract::(py)?; match self .inner(py) .borrow() .get(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e))? { Some(entry) => { Ok(Some(DirstateItem::new_as_pyobject(py, entry)?)) }, None => Ok(default) } } def set_dirstate_item( &self, path: PyObject, item: DirstateItem ) -> PyResult { let f = path.extract::(py)?; let filename = HgPath::new(f.data(py)); self.inner(py) .borrow_mut() .set_entry(filename, item.get_entry(py)) .map_err(|e| v2_error(py, e))?; Ok(py.None()) } def addfile( &self, f: PyBytes, item: DirstateItem, ) -> PyResult { let filename = HgPath::new(f.data(py)); let entry = item.get_entry(py); self.inner(py) .borrow_mut() .add_file(filename, entry) .map_err(|e |dirstate_error(py, e))?; Ok(PyNone) } def removefile( &self, f: PyObject, in_merge: PyObject ) -> PyResult { self.inner(py).borrow_mut() .remove_file( HgPath::new(f.extract::(py)?.data(py)), in_merge.extract::(py)?.is_true(), ) .or_else(|_| { Err(PyErr::new::( py, "Dirstate error".to_string(), )) })?; Ok(py.None()) } def drop_item_and_copy_source( &self, f: PyBytes, ) -> PyResult { self.inner(py) .borrow_mut() .drop_entry_and_copy_source(HgPath::new(f.data(py))) .map_err(|e |dirstate_error(py, e))?; Ok(PyNone) } def hastrackeddir(&self, d: PyObject) -> PyResult { let d = d.extract::(py)?; Ok(self.inner(py).borrow_mut() .has_tracked_dir(HgPath::new(d.data(py))) .map_err(|e| { PyErr::new::(py, e.to_string()) })? .to_py_object(py)) } def hasdir(&self, d: PyObject) -> PyResult { let d = d.extract::(py)?; Ok(self.inner(py).borrow_mut() .has_dir(HgPath::new(d.data(py))) .map_err(|e| { PyErr::new::(py, e.to_string()) })? .to_py_object(py)) } def write_v1( &self, p1: PyObject, p2: PyObject, ) -> PyResult { let inner = self.inner(py).borrow(); let parents = DirstateParents { p1: extract_node_id(py, &p1)?, p2: extract_node_id(py, &p2)?, }; let result = inner.pack_v1(parents); match result { Ok(packed) => Ok(PyBytes::new(py, &packed)), Err(_) => Err(PyErr::new::( py, "Dirstate error".to_string(), )), } } /// Returns new data together with whether that data should be appended to /// the existing data file whose content is at `self.on_disk` (True), /// instead of written to a new data file (False). def write_v2( &self, can_append: bool, ) -> PyResult { let inner = self.inner(py).borrow(); let result = inner.pack_v2(can_append); match result { Ok((packed, tree_metadata, append)) => { let packed = PyBytes::new(py, &packed); let tree_metadata = PyBytes::new(py, tree_metadata.as_bytes()); let tuple = (packed, tree_metadata, append); Ok(tuple.to_py_object(py).into_object()) }, Err(_) => Err(PyErr::new::( py, "Dirstate error".to_string(), )), } } def filefoldmapasdict(&self) -> PyResult { let dict = PyDict::new(py); for item in self.inner(py).borrow_mut().iter() { let (path, entry) = item.map_err(|e| v2_error(py, e))?; if entry.state() != EntryState::Removed { let key = normalize_case(path); let value = path; dict.set_item( py, PyBytes::new(py, key.as_bytes()).into_object(), PyBytes::new(py, value.as_bytes()).into_object(), )?; } } Ok(dict) } def __len__(&self) -> PyResult { Ok(self.inner(py).borrow().len()) } def __contains__(&self, key: PyObject) -> PyResult { let key = key.extract::(py)?; self.inner(py) .borrow() .contains_key(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e)) } def __getitem__(&self, key: PyObject) -> PyResult { let key = key.extract::(py)?; let key = HgPath::new(key.data(py)); match self .inner(py) .borrow() .get(key) .map_err(|e| v2_error(py, e))? { Some(entry) => { Ok(DirstateItem::new_as_pyobject(py, entry)?) }, None => Err(PyErr::new::( py, String::from_utf8_lossy(key.as_bytes()), )), } } def keys(&self) -> PyResult { let leaked_ref = self.inner(py).leak_immutable(); DirstateMapKeysIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.iter()) }, ) } def items(&self) -> PyResult { let leaked_ref = self.inner(py).leak_immutable(); DirstateMapItemsIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.iter()) }, ) } def __iter__(&self) -> PyResult { let leaked_ref = self.inner(py).leak_immutable(); DirstateMapKeysIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.iter()) }, ) } // TODO all copymap* methods, see docstring above def copymapcopy(&self) -> PyResult { let dict = PyDict::new(py); for item in self.inner(py).borrow().copy_map_iter() { let (key, value) = item.map_err(|e| v2_error(py, e))?; dict.set_item( py, PyBytes::new(py, key.as_bytes()), PyBytes::new(py, value.as_bytes()), )?; } Ok(dict) } def copymapgetitem(&self, key: PyObject) -> PyResult { let key = key.extract::(py)?; match self .inner(py) .borrow() .copy_map_get(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e))? { Some(copy) => Ok(PyBytes::new(py, copy.as_bytes())), None => Err(PyErr::new::( py, String::from_utf8_lossy(key.data(py)), )), } } def copymap(&self) -> PyResult { CopyMap::from_inner(py, self.clone_ref(py)) } def copymaplen(&self) -> PyResult { Ok(self.inner(py).borrow().copy_map_len()) } def copymapcontains(&self, key: PyObject) -> PyResult { let key = key.extract::(py)?; self.inner(py) .borrow() .copy_map_contains_key(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e)) } def copymapget( &self, key: PyObject, default: Option ) -> PyResult> { let key = key.extract::(py)?; match self .inner(py) .borrow() .copy_map_get(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e))? { Some(copy) => Ok(Some( PyBytes::new(py, copy.as_bytes()).into_object(), )), None => Ok(default), } } def copymapsetitem( &self, key: PyObject, value: PyObject ) -> PyResult { let key = key.extract::(py)?; let value = value.extract::(py)?; self.inner(py) .borrow_mut() .copy_map_insert( HgPathBuf::from_bytes(key.data(py)), HgPathBuf::from_bytes(value.data(py)), ) .map_err(|e| v2_error(py, e))?; Ok(py.None()) } def copymappop( &self, key: PyObject, default: Option ) -> PyResult> { let key = key.extract::(py)?; match self .inner(py) .borrow_mut() .copy_map_remove(HgPath::new(key.data(py))) .map_err(|e| v2_error(py, e))? { Some(copy) => Ok(Some( PyBytes::new(py, copy.as_bytes()).into_object(), )), None => Ok(default), } } def copymapiter(&self) -> PyResult { let leaked_ref = self.inner(py).leak_immutable(); CopyMapKeysIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.copy_map_iter()) }, ) } def copymapitemsiter(&self) -> PyResult { let leaked_ref = self.inner(py).leak_immutable(); CopyMapItemsIterator::from_inner( py, unsafe { leaked_ref.map(py, |o| o.copy_map_iter()) }, ) } def tracked_dirs(&self) -> PyResult { let dirs = PyList::new(py, &[]); for path in self.inner(py).borrow_mut().iter_tracked_dirs() .map_err(|e |dirstate_error(py, e))? { let path = path.map_err(|e| v2_error(py, e))?; let path = PyBytes::new(py, path.as_bytes()); dirs.append(py, path.into_object()) } Ok(dirs) } def debug_iter(&self, all: bool) -> PyResult { let dirs = PyList::new(py, &[]); for item in self.inner(py).borrow().debug_iter(all) { let (path, (state, mode, size, mtime)) = item.map_err(|e| v2_error(py, e))?; let path = PyBytes::new(py, path.as_bytes()); let item = (path, state, mode, size, mtime); dirs.append(py, item.to_py_object(py).into_object()) } Ok(dirs) } }); impl DirstateMap { pub fn get_inner_mut<'a>( &'a self, py: Python<'a>, ) -> RefMut<'a, OwningDirstateMap> { self.inner(py).borrow_mut() } fn translate_key( py: Python, res: Result<(&HgPath, DirstateEntry), DirstateV2ParseError>, ) -> PyResult> { let (f, _entry) = res.map_err(|e| v2_error(py, e))?; Ok(Some(PyBytes::new(py, f.as_bytes()))) } fn translate_key_value( py: Python, res: Result<(&HgPath, DirstateEntry), DirstateV2ParseError>, ) -> PyResult> { let (f, entry) = res.map_err(|e| v2_error(py, e))?; Ok(Some(( PyBytes::new(py, f.as_bytes()), DirstateItem::new_as_pyobject(py, entry)?, ))) } } py_shared_iterator!( DirstateMapKeysIterator, UnsafePyLeaked>, DirstateMap::translate_key, Option ); py_shared_iterator!( DirstateMapItemsIterator, UnsafePyLeaked>, DirstateMap::translate_key_value, Option<(PyBytes, PyObject)> ); fn extract_node_id(py: Python, obj: &PyObject) -> PyResult { let bytes = obj.extract::(py)?; match bytes.data(py).try_into() { Ok(s) => Ok(s), Err(e) => Err(PyErr::new::(py, e.to_string())), } } pub(super) fn v2_error(py: Python<'_>, _: DirstateV2ParseError) -> PyErr { PyErr::new::(py, "corrupted dirstate-v2") } fn dirstate_error(py: Python<'_>, e: DirstateError) -> PyErr { PyErr::new::(py, format!("Dirstate error: {:?}", e)) }