git_simple_encrypt/crypt/
batch.rs1use std::{
2 fs,
3 io::Read,
4 path::{Path, PathBuf},
5 sync::atomic::{AtomicUsize, Ordering},
6};
7
8use chacha20poly1305::{XChaCha20Poly1305, aead::KeyInit};
9use dashmap::DashMap;
10use log::debug;
11use rand::Rng;
12use rayon::prelude::*;
13use tempfile::NamedTempFile;
14
15use crate::{
16 crypt::{
17 file::{encrypt_file_to, persist_temp_file},
18 header::{FileHeader, HEADER_LEN, MAGIC, SALT_LEN, is_encrypted_version},
19 key::{KeyCache, get_or_derive_key, split_keys},
20 stream::decrypt_body,
21 },
22 error::{Error, Result},
23};
24
25#[derive(Debug, Default)]
27pub struct BatchSummary {
28 pub total: usize,
29 pub succeeded: usize,
30 pub skipped: usize,
31 pub failed: usize,
32 pub errors: Vec<(PathBuf, Error)>,
33}
34
35impl BatchSummary {
36 #[must_use]
37 pub fn is_ok(&self) -> bool {
38 self.errors.is_empty()
39 }
40}
41
42#[allow(dead_code)]
44fn decrypt_file_to_with_key_cache(
45 src: &Path,
46 dst: &Path,
47 key_cache: &KeyCache,
48 master_key: &[u8],
49) -> Result<Option<FileHeader>> {
50 let mut src_file = fs::File::open(src)?;
51
52 let mut header_bytes = [0u8; HEADER_LEN];
53 if src_file.read_exact(&mut header_bytes).is_err() {
54 debug!(
55 "File too small to be encrypted, skipping: {}",
56 src.display()
57 );
58 return Ok(None);
59 }
60 if &header_bytes[0..5] != MAGIC || !is_encrypted_version(header_bytes[5]) {
61 debug!("File not encrypted (no magic), skipping: {}", src.display());
62 return Ok(None);
63 }
64
65 debug!("Decrypting {} → {}", src.display(), dst.display());
66
67 let header = *FileHeader::from_bytes(&header_bytes)?;
68 let derived_key = get_or_derive_key(key_cache, master_key, &header.salt)?;
69
70 let dst_parent = dst.parent().unwrap_or_else(|| Path::new("."));
71 fs::create_dir_all(dst_parent)?;
72 let mut temp_file = NamedTempFile::new_in(dst_parent)?;
73
74 let (key_enc, _) = split_keys(&derived_key);
75 let cipher = XChaCha20Poly1305::new(key_enc.as_ref().into());
76 decrypt_body(&mut src_file, &mut temp_file, &cipher, &header)?;
77
78 drop(src_file);
79 persist_temp_file(temp_file, dst, Some(src))?;
80
81 Ok(Some(header))
82}
83
84#[allow(dead_code, clippy::unnecessary_wraps)]
86pub fn decrypt_files_to<I, P, F>(sources: I, master_key: &[u8], mapper: F) -> Result<BatchSummary>
87where
88 I: IntoIterator<Item = P>,
89 P: AsRef<Path> + Sync,
90 F: Fn(&Path) -> Option<PathBuf> + Sync,
91{
92 let sources: Vec<PathBuf> = sources
93 .into_iter()
94 .map(|p| p.as_ref().to_path_buf())
95 .collect();
96 let total = sources.len();
97
98 let key_cache: KeyCache = DashMap::new();
99 let errors: parking_lot::Mutex<Vec<(PathBuf, Error)>> = parking_lot::Mutex::new(Vec::new());
100 let skipped = AtomicUsize::new(0);
101 let succeeded = AtomicUsize::new(0);
102
103 sources.par_iter().for_each(|src| {
104 let Some(dst) = mapper(src) else { return };
105
106 match decrypt_file_to_with_key_cache(src, &dst, &key_cache, master_key) {
107 Ok(Some(_)) => {
108 succeeded.fetch_add(1, Ordering::Relaxed);
109 }
110 Ok(None) => {
111 skipped.fetch_add(1, Ordering::Relaxed);
112 }
113 Err(e) => {
114 errors.lock().push((src.clone(), e));
115 }
116 }
117 });
118
119 let errors = errors.into_inner();
120 let succeeded = succeeded.load(Ordering::Relaxed);
121 let skipped = skipped.load(Ordering::Relaxed);
122 let failed = errors.len();
123
124 Ok(BatchSummary {
125 total,
126 succeeded,
127 skipped,
128 failed,
129 errors,
130 })
131}
132
133#[allow(dead_code, clippy::unnecessary_wraps)]
136pub fn encrypt_files_to<I, P, F>(
137 sources: I,
138 master_key: &[u8],
139 mapper: F,
140 zstd: Option<u8>,
141) -> Result<BatchSummary>
142where
143 I: IntoIterator<Item = P>,
144 P: AsRef<Path> + Sync,
145 F: Fn(&Path) -> Option<PathBuf> + Sync,
146{
147 let sources: Vec<PathBuf> = sources
148 .into_iter()
149 .map(|p| p.as_ref().to_path_buf())
150 .collect();
151 let total = sources.len();
152
153 let mut batch_salt = [0u8; SALT_LEN];
154 rand::rng().fill_bytes(&mut batch_salt);
155 let derived_key = crate::crypt::key::derive_key(master_key, &batch_salt)?;
156
157 let errors: parking_lot::Mutex<Vec<(PathBuf, Error)>> = parking_lot::Mutex::new(Vec::new());
158 let skipped = AtomicUsize::new(0);
159 let succeeded = AtomicUsize::new(0);
160
161 sources.par_iter().for_each(|src| {
162 let Some(dst) = mapper(src) else { return };
163
164 match encrypt_file_to(src, &dst, &derived_key, batch_salt, None, zstd) {
165 Ok(Some(_)) => {
166 succeeded.fetch_add(1, Ordering::Relaxed);
167 }
168 Ok(None) => {
169 skipped.fetch_add(1, Ordering::Relaxed);
170 }
171 Err(e) => {
172 errors.lock().push((src.clone(), e));
173 }
174 }
175 });
176
177 let errors = errors.into_inner();
178 let succeeded = succeeded.load(Ordering::Relaxed);
179 let skipped = skipped.load(Ordering::Relaxed);
180 let failed = errors.len();
181
182 Ok(BatchSummary {
183 total,
184 succeeded,
185 skipped,
186 failed,
187 errors,
188 })
189}