// list_tracked_files.rs // // Copyright 2020 Antoine Cezar // // This software may be used and distributed according to the terms of the // GNU General Public License version 2 or any later version. use std::path::PathBuf; use crate::repo::Repo; use crate::revlog::path_encode::path_encode; use crate::revlog::revlog::Revlog; use crate::revlog::revlog::RevlogError; use crate::revlog::Node; use crate::utils::files::get_path_from_bytes; use crate::utils::hg_path::{HgPath, HgPathBuf}; pub struct CatOutput { /// Whether any file in the manifest matched the paths given as CLI /// arguments pub found_any: bool, /// The contents of matching files, in manifest order pub concatenated: Vec, /// Which of the CLI arguments did not match any manifest file pub missing: Vec, /// The node ID that the given revset was resolved to pub node: Node, } const METADATA_DELIMITER: [u8; 2] = [b'\x01', b'\n']; /// Output the given revision of files /// /// * `root`: Repository root /// * `rev`: The revision to cat the files from. /// * `files`: The files to output. pub fn cat<'a>( repo: &Repo, revset: &str, files: &'a [HgPathBuf], ) -> Result { let rev = crate::revset::resolve_single(revset, repo)?; let manifest = repo.manifest(rev)?; let node = *repo .changelog()? .node_from_rev(rev) .expect("should succeed when repo.manifest did"); let mut bytes = vec![]; let mut matched = vec![false; files.len()]; let mut found_any = false; for (manifest_file, node_bytes) in manifest.files_with_nodes() { for (cat_file, is_matched) in files.iter().zip(&mut matched) { if cat_file.as_bytes() == manifest_file.as_bytes() { *is_matched = true; found_any = true; let index_path = store_path(manifest_file, b".i"); let data_path = store_path(manifest_file, b".d"); let file_log = Revlog::open(repo, &index_path, Some(&data_path))?; let file_node = Node::from_hex_for_repo(node_bytes)?; let file_rev = file_log.get_node_rev(file_node.into())?; let data = file_log.get_rev_data(file_rev)?; if data.starts_with(&METADATA_DELIMITER) { let end_delimiter_position = data [METADATA_DELIMITER.len()..] .windows(METADATA_DELIMITER.len()) .position(|bytes| bytes == METADATA_DELIMITER); if let Some(position) = end_delimiter_position { let offset = METADATA_DELIMITER.len() * 2; bytes.extend(data[position + offset..].iter()); } } else { bytes.extend(data); } } } } let missing: Vec<_> = files .iter() .zip(&matched) .filter(|pair| !*pair.1) .map(|pair| pair.0.clone()) .collect(); Ok(CatOutput { found_any, concatenated: bytes, missing, node, }) } fn store_path(hg_path: &HgPath, suffix: &[u8]) -> PathBuf { let encoded_bytes = path_encode(&[b"data/", hg_path.as_bytes(), suffix].concat()); get_path_from_bytes(&encoded_bytes).into() }