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1 // Copyright 2018-2023 Georges Racinet <georges.racinet@octobus.net>
1 // Copyright 2018-2023 Georges Racinet <georges.racinet@octobus.net>
2 // and Mercurial contributors
2 // and Mercurial contributors
3 //
3 //
4 // This software may be used and distributed according to the terms of the
4 // This software may be used and distributed according to the terms of the
5 // GNU General Public License version 2 or any later version.
5 // GNU General Public License version 2 or any later version.
6 //! Mercurial concepts for handling revision history
6 //! Mercurial concepts for handling revision history
7
7
8 pub mod node;
8 pub mod node;
9 pub mod nodemap;
9 pub mod nodemap;
10 mod nodemap_docket;
10 mod nodemap_docket;
11 pub mod path_encode;
11 pub mod path_encode;
12 pub use node::{FromHexError, Node, NodePrefix};
12 pub use node::{FromHexError, Node, NodePrefix};
13 pub mod changelog;
13 pub mod changelog;
14 pub mod filelog;
14 pub mod filelog;
15 pub mod index;
15 pub mod index;
16 pub mod manifest;
16 pub mod manifest;
17 pub mod patch;
17 pub mod patch;
18
18
19 use std::borrow::Cow;
19 use std::borrow::Cow;
20 use std::io::Read;
20 use std::io::Read;
21 use std::ops::Deref;
21 use std::ops::Deref;
22 use std::path::Path;
22 use std::path::Path;
23
23
24 use flate2::read::ZlibDecoder;
24 use flate2::read::ZlibDecoder;
25 use sha1::{Digest, Sha1};
25 use sha1::{Digest, Sha1};
26 use std::cell::RefCell;
26 use std::cell::RefCell;
27 use zstd;
27 use zstd;
28
28
29 use self::node::{NODE_BYTES_LENGTH, NULL_NODE};
29 use self::node::{NODE_BYTES_LENGTH, NULL_NODE};
30 use self::nodemap_docket::NodeMapDocket;
30 use self::nodemap_docket::NodeMapDocket;
31 use super::index::Index;
31 use super::index::Index;
32 use super::nodemap::{NodeMap, NodeMapError};
32 use super::nodemap::{NodeMap, NodeMapError};
33 use crate::errors::HgError;
33 use crate::errors::HgError;
34 use crate::vfs::Vfs;
34 use crate::vfs::Vfs;
35
35
36 /// Mercurial revision numbers
36 /// Mercurial revision numbers
37 ///
37 ///
38 /// As noted in revlog.c, revision numbers are actually encoded in
38 /// As noted in revlog.c, revision numbers are actually encoded in
39 /// 4 bytes, and are liberally converted to ints, whence the i32
39 /// 4 bytes, and are liberally converted to ints, whence the i32
40 pub type Revision = i32;
40 pub type Revision = i32;
41
41
42 /// Marker expressing the absence of a parent
42 /// Marker expressing the absence of a parent
43 ///
43 ///
44 /// Independently of the actual representation, `NULL_REVISION` is guaranteed
44 /// Independently of the actual representation, `NULL_REVISION` is guaranteed
45 /// to be smaller than all existing revisions.
45 /// to be smaller than all existing revisions.
46 pub const NULL_REVISION: Revision = -1;
46 pub const NULL_REVISION: Revision = -1;
47
47
48 /// Same as `mercurial.node.wdirrev`
48 /// Same as `mercurial.node.wdirrev`
49 ///
49 ///
50 /// This is also equal to `i32::max_value()`, but it's better to spell
50 /// This is also equal to `i32::max_value()`, but it's better to spell
51 /// it out explicitely, same as in `mercurial.node`
51 /// it out explicitely, same as in `mercurial.node`
52 #[allow(clippy::unreadable_literal)]
52 #[allow(clippy::unreadable_literal)]
53 pub const WORKING_DIRECTORY_REVISION: Revision = 0x7fffffff;
53 pub const WORKING_DIRECTORY_REVISION: Revision = 0x7fffffff;
54
54
55 pub const WORKING_DIRECTORY_HEX: &str =
55 pub const WORKING_DIRECTORY_HEX: &str =
56 "ffffffffffffffffffffffffffffffffffffffff";
56 "ffffffffffffffffffffffffffffffffffffffff";
57
57
58 /// The simplest expression of what we need of Mercurial DAGs.
58 /// The simplest expression of what we need of Mercurial DAGs.
59 pub trait Graph {
59 pub trait Graph {
60 /// Return the two parents of the given `Revision`.
60 /// Return the two parents of the given `Revision`.
61 ///
61 ///
62 /// Each of the parents can be independently `NULL_REVISION`
62 /// Each of the parents can be independently `NULL_REVISION`
63 fn parents(&self, rev: Revision) -> Result<[Revision; 2], GraphError>;
63 fn parents(&self, rev: Revision) -> Result<[Revision; 2], GraphError>;
64 }
64 }
65
65
66 #[derive(Clone, Debug, PartialEq)]
66 #[derive(Clone, Debug, PartialEq)]
67 pub enum GraphError {
67 pub enum GraphError {
68 ParentOutOfRange(Revision),
68 ParentOutOfRange(Revision),
69 WorkingDirectoryUnsupported,
69 WorkingDirectoryUnsupported,
70 }
70 }
71
71
72 /// The Mercurial Revlog Index
72 /// The Mercurial Revlog Index
73 ///
73 ///
74 /// This is currently limited to the minimal interface that is needed for
74 /// This is currently limited to the minimal interface that is needed for
75 /// the [`nodemap`](nodemap/index.html) module
75 /// the [`nodemap`](nodemap/index.html) module
76 pub trait RevlogIndex {
76 pub trait RevlogIndex {
77 /// Total number of Revisions referenced in this index
77 /// Total number of Revisions referenced in this index
78 fn len(&self) -> usize;
78 fn len(&self) -> usize;
79
79
80 fn is_empty(&self) -> bool {
80 fn is_empty(&self) -> bool {
81 self.len() == 0
81 self.len() == 0
82 }
82 }
83
83
84 /// Return a reference to the Node or `None` if rev is out of bounds
84 /// Return a reference to the Node or `None` if rev is out of bounds
85 ///
85 ///
86 /// `NULL_REVISION` is not considered to be out of bounds.
86 /// `NULL_REVISION` is not considered to be out of bounds.
87 fn node(&self, rev: Revision) -> Option<&Node>;
87 fn node(&self, rev: Revision) -> Option<&Node>;
88 }
88 }
89
89
90 const REVISION_FLAG_CENSORED: u16 = 1 << 15;
90 const REVISION_FLAG_CENSORED: u16 = 1 << 15;
91 const REVISION_FLAG_ELLIPSIS: u16 = 1 << 14;
91 const REVISION_FLAG_ELLIPSIS: u16 = 1 << 14;
92 const REVISION_FLAG_EXTSTORED: u16 = 1 << 13;
92 const REVISION_FLAG_EXTSTORED: u16 = 1 << 13;
93 const REVISION_FLAG_HASCOPIESINFO: u16 = 1 << 12;
93 const REVISION_FLAG_HASCOPIESINFO: u16 = 1 << 12;
94
94
95 // Keep this in sync with REVIDX_KNOWN_FLAGS in
95 // Keep this in sync with REVIDX_KNOWN_FLAGS in
96 // mercurial/revlogutils/flagutil.py
96 // mercurial/revlogutils/flagutil.py
97 const REVIDX_KNOWN_FLAGS: u16 = REVISION_FLAG_CENSORED
97 const REVIDX_KNOWN_FLAGS: u16 = REVISION_FLAG_CENSORED
98 | REVISION_FLAG_ELLIPSIS
98 | REVISION_FLAG_ELLIPSIS
99 | REVISION_FLAG_EXTSTORED
99 | REVISION_FLAG_EXTSTORED
100 | REVISION_FLAG_HASCOPIESINFO;
100 | REVISION_FLAG_HASCOPIESINFO;
101
101
102 const NULL_REVLOG_ENTRY_FLAGS: u16 = 0;
102 const NULL_REVLOG_ENTRY_FLAGS: u16 = 0;
103
103
104 #[derive(Debug, derive_more::From)]
104 #[derive(Debug, derive_more::From)]
105 pub enum RevlogError {
105 pub enum RevlogError {
106 InvalidRevision,
106 InvalidRevision,
107 /// Working directory is not supported
107 /// Working directory is not supported
108 WDirUnsupported,
108 WDirUnsupported,
109 /// Found more than one entry whose ID match the requested prefix
109 /// Found more than one entry whose ID match the requested prefix
110 AmbiguousPrefix,
110 AmbiguousPrefix,
111 #[from]
111 #[from]
112 Other(HgError),
112 Other(HgError),
113 }
113 }
114
114
115 impl From<NodeMapError> for RevlogError {
115 impl From<NodeMapError> for RevlogError {
116 fn from(error: NodeMapError) -> Self {
116 fn from(error: NodeMapError) -> Self {
117 match error {
117 match error {
118 NodeMapError::MultipleResults => RevlogError::AmbiguousPrefix,
118 NodeMapError::MultipleResults => RevlogError::AmbiguousPrefix,
119 NodeMapError::RevisionNotInIndex(rev) => RevlogError::corrupted(
119 NodeMapError::RevisionNotInIndex(rev) => RevlogError::corrupted(
120 format!("nodemap point to revision {} not in index", rev),
120 format!("nodemap point to revision {} not in index", rev),
121 ),
121 ),
122 }
122 }
123 }
123 }
124 }
124 }
125
125
126 fn corrupted<S: AsRef<str>>(context: S) -> HgError {
126 fn corrupted<S: AsRef<str>>(context: S) -> HgError {
127 HgError::corrupted(format!("corrupted revlog, {}", context.as_ref()))
127 HgError::corrupted(format!("corrupted revlog, {}", context.as_ref()))
128 }
128 }
129
129
130 impl RevlogError {
130 impl RevlogError {
131 fn corrupted<S: AsRef<str>>(context: S) -> Self {
131 fn corrupted<S: AsRef<str>>(context: S) -> Self {
132 RevlogError::Other(corrupted(context))
132 RevlogError::Other(corrupted(context))
133 }
133 }
134 }
134 }
135
135
136 /// Read only implementation of revlog.
136 /// Read only implementation of revlog.
137 pub struct Revlog {
137 pub struct Revlog {
138 /// When index and data are not interleaved: bytes of the revlog index.
138 /// When index and data are not interleaved: bytes of the revlog index.
139 /// When index and data are interleaved: bytes of the revlog index and
139 /// When index and data are interleaved: bytes of the revlog index and
140 /// data.
140 /// data.
141 index: Index,
141 index: Index,
142 /// When index and data are not interleaved: bytes of the revlog data
142 /// When index and data are not interleaved: bytes of the revlog data
143 data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>>,
143 data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>>,
144 /// When present on disk: the persistent nodemap for this revlog
144 /// When present on disk: the persistent nodemap for this revlog
145 nodemap: Option<nodemap::NodeTree>,
145 nodemap: Option<nodemap::NodeTree>,
146 }
146 }
147
147
148 impl Revlog {
148 impl Revlog {
149 /// Open a revlog index file.
149 /// Open a revlog index file.
150 ///
150 ///
151 /// It will also open the associated data file if index and data are not
151 /// It will also open the associated data file if index and data are not
152 /// interleaved.
152 /// interleaved.
153 pub fn open(
153 pub fn open(
154 store_vfs: &Vfs,
154 store_vfs: &Vfs,
155 index_path: impl AsRef<Path>,
155 index_path: impl AsRef<Path>,
156 data_path: Option<&Path>,
156 data_path: Option<&Path>,
157 use_nodemap: bool,
157 use_nodemap: bool,
158 ) -> Result<Self, HgError> {
158 ) -> Result<Self, HgError> {
159 let index_path = index_path.as_ref();
159 let index_path = index_path.as_ref();
160 let index = {
160 let index = {
161 match store_vfs.mmap_open_opt(&index_path)? {
161 match store_vfs.mmap_open_opt(&index_path)? {
162 None => Index::new(Box::new(vec![])),
162 None => Index::new(Box::new(vec![])),
163 Some(index_mmap) => {
163 Some(index_mmap) => {
164 let index = Index::new(Box::new(index_mmap))?;
164 let index = Index::new(Box::new(index_mmap))?;
165 Ok(index)
165 Ok(index)
166 }
166 }
167 }
167 }
168 }?;
168 }?;
169
169
170 let default_data_path = index_path.with_extension("d");
170 let default_data_path = index_path.with_extension("d");
171
171
172 // type annotation required
172 // type annotation required
173 // won't recognize Mmap as Deref<Target = [u8]>
173 // won't recognize Mmap as Deref<Target = [u8]>
174 let data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>> =
174 let data_bytes: Option<Box<dyn Deref<Target = [u8]> + Send>> =
175 if index.is_inline() {
175 if index.is_inline() {
176 None
176 None
177 } else {
177 } else {
178 let data_path = data_path.unwrap_or(&default_data_path);
178 let data_path = data_path.unwrap_or(&default_data_path);
179 let data_mmap = store_vfs.mmap_open(data_path)?;
179 let data_mmap = store_vfs.mmap_open(data_path)?;
180 Some(Box::new(data_mmap))
180 Some(Box::new(data_mmap))
181 };
181 };
182
182
183 let nodemap = if index.is_inline() || !use_nodemap {
183 let nodemap = if index.is_inline() || !use_nodemap {
184 None
184 None
185 } else {
185 } else {
186 NodeMapDocket::read_from_file(store_vfs, index_path)?.map(
186 NodeMapDocket::read_from_file(store_vfs, index_path)?.map(
187 |(docket, data)| {
187 |(docket, data)| {
188 nodemap::NodeTree::load_bytes(
188 nodemap::NodeTree::load_bytes(
189 Box::new(data),
189 Box::new(data),
190 docket.data_length,
190 docket.data_length,
191 )
191 )
192 },
192 },
193 )
193 )
194 };
194 };
195
195
196 Ok(Revlog {
196 Ok(Revlog {
197 index,
197 index,
198 data_bytes,
198 data_bytes,
199 nodemap,
199 nodemap,
200 })
200 })
201 }
201 }
202
202
203 /// Return number of entries of the `Revlog`.
203 /// Return number of entries of the `Revlog`.
204 pub fn len(&self) -> usize {
204 pub fn len(&self) -> usize {
205 self.index.len()
205 self.index.len()
206 }
206 }
207
207
208 /// Returns `true` if the `Revlog` has zero `entries`.
208 /// Returns `true` if the `Revlog` has zero `entries`.
209 pub fn is_empty(&self) -> bool {
209 pub fn is_empty(&self) -> bool {
210 self.index.is_empty()
210 self.index.is_empty()
211 }
211 }
212
212
213 /// Returns the node ID for the given revision number, if it exists in this
213 /// Returns the node ID for the given revision number, if it exists in this
214 /// revlog
214 /// revlog
215 pub fn node_from_rev(&self, rev: Revision) -> Option<&Node> {
215 pub fn node_from_rev(&self, rev: Revision) -> Option<&Node> {
216 if rev == NULL_REVISION {
216 if rev == NULL_REVISION {
217 return Some(&NULL_NODE);
217 return Some(&NULL_NODE);
218 }
218 }
219 Some(self.index.get_entry(rev)?.hash())
219 Some(self.index.get_entry(rev)?.hash())
220 }
220 }
221
221
222 /// Return the revision number for the given node ID, if it exists in this
222 /// Return the revision number for the given node ID, if it exists in this
223 /// revlog
223 /// revlog
224 pub fn rev_from_node(
224 pub fn rev_from_node(
225 &self,
225 &self,
226 node: NodePrefix,
226 node: NodePrefix,
227 ) -> Result<Revision, RevlogError> {
227 ) -> Result<Revision, RevlogError> {
228 if node.is_prefix_of(&NULL_NODE) {
228 if node.is_prefix_of(&NULL_NODE) {
229 return Ok(NULL_REVISION);
229 return Ok(NULL_REVISION);
230 }
230 }
231
231
232 if let Some(nodemap) = &self.nodemap {
232 if let Some(nodemap) = &self.nodemap {
233 return nodemap
233 return nodemap
234 .find_bin(&self.index, node)?
234 .find_bin(&self.index, node)?
235 .ok_or(RevlogError::InvalidRevision);
235 .ok_or(RevlogError::InvalidRevision);
236 }
236 }
237
237
238 // Fallback to linear scan when a persistent nodemap is not present.
238 // Fallback to linear scan when a persistent nodemap is not present.
239 // This happens when the persistent-nodemap experimental feature is not
239 // This happens when the persistent-nodemap experimental feature is not
240 // enabled, or for small revlogs.
240 // enabled, or for small revlogs.
241 //
241 //
242 // TODO: consider building a non-persistent nodemap in memory to
242 // TODO: consider building a non-persistent nodemap in memory to
243 // optimize these cases.
243 // optimize these cases.
244 let mut found_by_prefix = None;
244 let mut found_by_prefix = None;
245 for rev in (0..self.len() as Revision).rev() {
245 for rev in (0..self.len() as Revision).rev() {
246 let index_entry = self.index.get_entry(rev).ok_or_else(|| {
246 let index_entry = self.index.get_entry(rev).ok_or_else(|| {
247 HgError::corrupted(
247 HgError::corrupted(
248 "revlog references a revision not in the index",
248 "revlog references a revision not in the index",
249 )
249 )
250 })?;
250 })?;
251 if node == *index_entry.hash() {
251 if node == *index_entry.hash() {
252 return Ok(rev);
252 return Ok(rev);
253 }
253 }
254 if node.is_prefix_of(index_entry.hash()) {
254 if node.is_prefix_of(index_entry.hash()) {
255 if found_by_prefix.is_some() {
255 if found_by_prefix.is_some() {
256 return Err(RevlogError::AmbiguousPrefix);
256 return Err(RevlogError::AmbiguousPrefix);
257 }
257 }
258 found_by_prefix = Some(rev)
258 found_by_prefix = Some(rev)
259 }
259 }
260 }
260 }
261 found_by_prefix.ok_or(RevlogError::InvalidRevision)
261 found_by_prefix.ok_or(RevlogError::InvalidRevision)
262 }
262 }
263
263
264 /// Returns whether the given revision exists in this revlog.
264 /// Returns whether the given revision exists in this revlog.
265 pub fn has_rev(&self, rev: Revision) -> bool {
265 pub fn has_rev(&self, rev: Revision) -> bool {
266 self.index.get_entry(rev).is_some()
266 self.index.get_entry(rev).is_some()
267 }
267 }
268
268
269 /// Return the full data associated to a revision.
269 /// Return the full data associated to a revision.
270 ///
270 ///
271 /// All entries required to build the final data out of deltas will be
271 /// All entries required to build the final data out of deltas will be
272 /// retrieved as needed, and the deltas will be applied to the inital
272 /// retrieved as needed, and the deltas will be applied to the inital
273 /// snapshot to rebuild the final data.
273 /// snapshot to rebuild the final data.
274 pub fn get_rev_data(
274 pub fn get_rev_data(
275 &self,
275 &self,
276 rev: Revision,
276 rev: Revision,
277 ) -> Result<Cow<[u8]>, RevlogError> {
277 ) -> Result<Cow<[u8]>, RevlogError> {
278 if rev == NULL_REVISION {
278 if rev == NULL_REVISION {
279 return Ok(Cow::Borrowed(&[]));
279 return Ok(Cow::Borrowed(&[]));
280 };
280 };
281 Ok(self.get_entry(rev)?.data()?)
281 Ok(self.get_entry(rev)?.data()?)
282 }
282 }
283
283
284 /// Check the hash of some given data against the recorded hash.
284 /// Check the hash of some given data against the recorded hash.
285 pub fn check_hash(
285 pub fn check_hash(
286 &self,
286 &self,
287 p1: Revision,
287 p1: Revision,
288 p2: Revision,
288 p2: Revision,
289 expected: &[u8],
289 expected: &[u8],
290 data: &[u8],
290 data: &[u8],
291 ) -> bool {
291 ) -> bool {
292 let e1 = self.index.get_entry(p1);
292 let e1 = self.index.get_entry(p1);
293 let h1 = match e1 {
293 let h1 = match e1 {
294 Some(ref entry) => entry.hash(),
294 Some(ref entry) => entry.hash(),
295 None => &NULL_NODE,
295 None => &NULL_NODE,
296 };
296 };
297 let e2 = self.index.get_entry(p2);
297 let e2 = self.index.get_entry(p2);
298 let h2 = match e2 {
298 let h2 = match e2 {
299 Some(ref entry) => entry.hash(),
299 Some(ref entry) => entry.hash(),
300 None => &NULL_NODE,
300 None => &NULL_NODE,
301 };
301 };
302
302
303 hash(data, h1.as_bytes(), h2.as_bytes()) == expected
303 hash(data, h1.as_bytes(), h2.as_bytes()) == expected
304 }
304 }
305
305
306 /// Build the full data of a revision out its snapshot
306 /// Build the full data of a revision out its snapshot
307 /// and its deltas.
307 /// and its deltas.
308 fn build_data_from_deltas(
308 fn build_data_from_deltas(
309 snapshot: RevlogEntry,
309 snapshot: RevlogEntry,
310 deltas: &[RevlogEntry],
310 deltas: &[RevlogEntry],
311 ) -> Result<Vec<u8>, HgError> {
311 ) -> Result<Vec<u8>, HgError> {
312 let snapshot = snapshot.data_chunk()?;
312 let snapshot = snapshot.data_chunk()?;
313 let deltas = deltas
313 let deltas = deltas
314 .iter()
314 .iter()
315 .rev()
315 .rev()
316 .map(RevlogEntry::data_chunk)
316 .map(RevlogEntry::data_chunk)
317 .collect::<Result<Vec<_>, _>>()?;
317 .collect::<Result<Vec<_>, _>>()?;
318 let patches: Vec<_> =
318 let patches: Vec<_> =
319 deltas.iter().map(|d| patch::PatchList::new(d)).collect();
319 deltas.iter().map(|d| patch::PatchList::new(d)).collect();
320 let patch = patch::fold_patch_lists(&patches);
320 let patch = patch::fold_patch_lists(&patches);
321 Ok(patch.apply(&snapshot))
321 Ok(patch.apply(&snapshot))
322 }
322 }
323
323
324 /// Return the revlog data.
324 /// Return the revlog data.
325 fn data(&self) -> &[u8] {
325 fn data(&self) -> &[u8] {
326 match &self.data_bytes {
326 match &self.data_bytes {
327 Some(data_bytes) => data_bytes,
327 Some(data_bytes) => data_bytes,
328 None => panic!(
328 None => panic!(
329 "forgot to load the data or trying to access inline data"
329 "forgot to load the data or trying to access inline data"
330 ),
330 ),
331 }
331 }
332 }
332 }
333
333
334 pub fn make_null_entry(&self) -> RevlogEntry {
334 pub fn make_null_entry(&self) -> RevlogEntry {
335 RevlogEntry {
335 RevlogEntry {
336 revlog: self,
336 revlog: self,
337 rev: NULL_REVISION,
337 rev: NULL_REVISION,
338 bytes: b"",
338 bytes: b"",
339 compressed_len: 0,
339 compressed_len: 0,
340 uncompressed_len: 0,
340 uncompressed_len: 0,
341 base_rev_or_base_of_delta_chain: None,
341 base_rev_or_base_of_delta_chain: None,
342 p1: NULL_REVISION,
342 p1: NULL_REVISION,
343 p2: NULL_REVISION,
343 p2: NULL_REVISION,
344 flags: NULL_REVLOG_ENTRY_FLAGS,
344 flags: NULL_REVLOG_ENTRY_FLAGS,
345 hash: NULL_NODE,
345 hash: NULL_NODE,
346 }
346 }
347 }
347 }
348
348
349 /// Get an entry of the revlog.
349 /// Get an entry of the revlog.
350 pub fn get_entry(
350 pub fn get_entry(
351 &self,
351 &self,
352 rev: Revision,
352 rev: Revision,
353 ) -> Result<RevlogEntry, RevlogError> {
353 ) -> Result<RevlogEntry, RevlogError> {
354 if rev == NULL_REVISION {
354 if rev == NULL_REVISION {
355 return Ok(self.make_null_entry());
355 return Ok(self.make_null_entry());
356 }
356 }
357 let index_entry = self
357 let index_entry = self
358 .index
358 .index
359 .get_entry(rev)
359 .get_entry(rev)
360 .ok_or(RevlogError::InvalidRevision)?;
360 .ok_or(RevlogError::InvalidRevision)?;
361 let start = index_entry.offset();
361 let start = index_entry.offset();
362 let end = start + index_entry.compressed_len() as usize;
362 let end = start + index_entry.compressed_len() as usize;
363 let data = if self.index.is_inline() {
363 let data = if self.index.is_inline() {
364 self.index.data(start, end)
364 self.index.data(start, end)
365 } else {
365 } else {
366 &self.data()[start..end]
366 &self.data()[start..end]
367 };
367 };
368 let entry = RevlogEntry {
368 let entry = RevlogEntry {
369 revlog: self,
369 revlog: self,
370 rev,
370 rev,
371 bytes: data,
371 bytes: data,
372 compressed_len: index_entry.compressed_len(),
372 compressed_len: index_entry.compressed_len(),
373 uncompressed_len: index_entry.uncompressed_len(),
373 uncompressed_len: index_entry.uncompressed_len(),
374 base_rev_or_base_of_delta_chain: if index_entry
374 base_rev_or_base_of_delta_chain: if index_entry
375 .base_revision_or_base_of_delta_chain()
375 .base_revision_or_base_of_delta_chain()
376 == rev
376 == rev
377 {
377 {
378 None
378 None
379 } else {
379 } else {
380 Some(index_entry.base_revision_or_base_of_delta_chain())
380 Some(index_entry.base_revision_or_base_of_delta_chain())
381 },
381 },
382 p1: index_entry.p1(),
382 p1: index_entry.p1(),
383 p2: index_entry.p2(),
383 p2: index_entry.p2(),
384 flags: index_entry.flags(),
384 flags: index_entry.flags(),
385 hash: *index_entry.hash(),
385 hash: *index_entry.hash(),
386 };
386 };
387 Ok(entry)
387 Ok(entry)
388 }
388 }
389
389
390 /// when resolving internal references within revlog, any errors
390 /// when resolving internal references within revlog, any errors
391 /// should be reported as corruption, instead of e.g. "invalid revision"
391 /// should be reported as corruption, instead of e.g. "invalid revision"
392 fn get_entry_internal(
392 fn get_entry_internal(
393 &self,
393 &self,
394 rev: Revision,
394 rev: Revision,
395 ) -> Result<RevlogEntry, HgError> {
395 ) -> Result<RevlogEntry, HgError> {
396 self.get_entry(rev)
396 self.get_entry(rev)
397 .map_err(|_| corrupted(format!("revision {} out of range", rev)))
397 .map_err(|_| corrupted(format!("revision {} out of range", rev)))
398 }
398 }
399 }
399 }
400
400
401 /// The revlog entry's bytes and the necessary informations to extract
401 /// The revlog entry's bytes and the necessary informations to extract
402 /// the entry's data.
402 /// the entry's data.
403 #[derive(Clone)]
403 #[derive(Clone)]
404 pub struct RevlogEntry<'revlog> {
404 pub struct RevlogEntry<'revlog> {
405 revlog: &'revlog Revlog,
405 revlog: &'revlog Revlog,
406 rev: Revision,
406 rev: Revision,
407 bytes: &'revlog [u8],
407 bytes: &'revlog [u8],
408 compressed_len: u32,
408 compressed_len: u32,
409 uncompressed_len: i32,
409 uncompressed_len: i32,
410 base_rev_or_base_of_delta_chain: Option<Revision>,
410 base_rev_or_base_of_delta_chain: Option<Revision>,
411 p1: Revision,
411 p1: Revision,
412 p2: Revision,
412 p2: Revision,
413 flags: u16,
413 flags: u16,
414 hash: Node,
414 hash: Node,
415 }
415 }
416
416
417 thread_local! {
417 thread_local! {
418 // seems fine to [unwrap] here: this can only fail due to memory allocation
418 // seems fine to [unwrap] here: this can only fail due to memory allocation
419 // failing, and it's normal for that to cause panic.
419 // failing, and it's normal for that to cause panic.
420 static ZSTD_DECODER : RefCell<zstd::bulk::Decompressor<'static>> =
420 static ZSTD_DECODER : RefCell<zstd::bulk::Decompressor<'static>> =
421 RefCell::new(zstd::bulk::Decompressor::new().ok().unwrap());
421 RefCell::new(zstd::bulk::Decompressor::new().ok().unwrap());
422 }
422 }
423
423
424 fn zstd_decompress_to_buffer(
424 fn zstd_decompress_to_buffer(
425 bytes: &[u8],
425 bytes: &[u8],
426 buf: &mut Vec<u8>,
426 buf: &mut Vec<u8>,
427 ) -> Result<usize, std::io::Error> {
427 ) -> Result<usize, std::io::Error> {
428 ZSTD_DECODER
428 ZSTD_DECODER
429 .with(|decoder| decoder.borrow_mut().decompress_to_buffer(bytes, buf))
429 .with(|decoder| decoder.borrow_mut().decompress_to_buffer(bytes, buf))
430 }
430 }
431
431
432 impl<'revlog> RevlogEntry<'revlog> {
432 impl<'revlog> RevlogEntry<'revlog> {
433 pub fn revision(&self) -> Revision {
433 pub fn revision(&self) -> Revision {
434 self.rev
434 self.rev
435 }
435 }
436
436
437 pub fn node(&self) -> &Node {
437 pub fn node(&self) -> &Node {
438 &self.hash
438 &self.hash
439 }
439 }
440
440
441 pub fn uncompressed_len(&self) -> Option<u32> {
441 pub fn uncompressed_len(&self) -> Option<u32> {
442 u32::try_from(self.uncompressed_len).ok()
442 u32::try_from(self.uncompressed_len).ok()
443 }
443 }
444
444
445 pub fn has_p1(&self) -> bool {
445 pub fn has_p1(&self) -> bool {
446 self.p1 != NULL_REVISION
446 self.p1 != NULL_REVISION
447 }
447 }
448
448
449 pub fn p1_entry(
449 pub fn p1_entry(
450 &self,
450 &self,
451 ) -> Result<Option<RevlogEntry<'revlog>>, RevlogError> {
451 ) -> Result<Option<RevlogEntry<'revlog>>, RevlogError> {
452 if self.p1 == NULL_REVISION {
452 if self.p1 == NULL_REVISION {
453 Ok(None)
453 Ok(None)
454 } else {
454 } else {
455 Ok(Some(self.revlog.get_entry(self.p1)?))
455 Ok(Some(self.revlog.get_entry(self.p1)?))
456 }
456 }
457 }
457 }
458
458
459 pub fn p2_entry(
459 pub fn p2_entry(
460 &self,
460 &self,
461 ) -> Result<Option<RevlogEntry<'revlog>>, RevlogError> {
461 ) -> Result<Option<RevlogEntry<'revlog>>, RevlogError> {
462 if self.p2 == NULL_REVISION {
462 if self.p2 == NULL_REVISION {
463 Ok(None)
463 Ok(None)
464 } else {
464 } else {
465 Ok(Some(self.revlog.get_entry(self.p2)?))
465 Ok(Some(self.revlog.get_entry(self.p2)?))
466 }
466 }
467 }
467 }
468
468
469 pub fn p1(&self) -> Option<Revision> {
469 pub fn p1(&self) -> Option<Revision> {
470 if self.p1 == NULL_REVISION {
470 if self.p1 == NULL_REVISION {
471 None
471 None
472 } else {
472 } else {
473 Some(self.p1)
473 Some(self.p1)
474 }
474 }
475 }
475 }
476
476
477 pub fn p2(&self) -> Option<Revision> {
477 pub fn p2(&self) -> Option<Revision> {
478 if self.p2 == NULL_REVISION {
478 if self.p2 == NULL_REVISION {
479 None
479 None
480 } else {
480 } else {
481 Some(self.p2)
481 Some(self.p2)
482 }
482 }
483 }
483 }
484
484
485 pub fn is_censored(&self) -> bool {
485 pub fn is_censored(&self) -> bool {
486 (self.flags & REVISION_FLAG_CENSORED) != 0
486 (self.flags & REVISION_FLAG_CENSORED) != 0
487 }
487 }
488
488
489 pub fn has_length_affecting_flag_processor(&self) -> bool {
489 pub fn has_length_affecting_flag_processor(&self) -> bool {
490 // Relevant Python code: revlog.size()
490 // Relevant Python code: revlog.size()
491 // note: ELLIPSIS is known to not change the content
491 // note: ELLIPSIS is known to not change the content
492 (self.flags & (REVIDX_KNOWN_FLAGS ^ REVISION_FLAG_ELLIPSIS)) != 0
492 (self.flags & (REVIDX_KNOWN_FLAGS ^ REVISION_FLAG_ELLIPSIS)) != 0
493 }
493 }
494
494
495 /// The data for this entry, after resolving deltas if any.
495 /// The data for this entry, after resolving deltas if any.
496 pub fn rawdata(&self) -> Result<Cow<'revlog, [u8]>, HgError> {
496 pub fn rawdata(&self) -> Result<Cow<'revlog, [u8]>, HgError> {
497 let mut entry = self.clone();
497 let mut entry = self.clone();
498 let mut delta_chain = vec![];
498 let mut delta_chain = vec![];
499
499
500 // The meaning of `base_rev_or_base_of_delta_chain` depends on
500 // The meaning of `base_rev_or_base_of_delta_chain` depends on
501 // generaldelta. See the doc on `ENTRY_DELTA_BASE` in
501 // generaldelta. See the doc on `ENTRY_DELTA_BASE` in
502 // `mercurial/revlogutils/constants.py` and the code in
502 // `mercurial/revlogutils/constants.py` and the code in
503 // [_chaininfo] and in [index_deltachain].
503 // [_chaininfo] and in [index_deltachain].
504 let uses_generaldelta = self.revlog.index.uses_generaldelta();
504 let uses_generaldelta = self.revlog.index.uses_generaldelta();
505 while let Some(base_rev) = entry.base_rev_or_base_of_delta_chain {
505 while let Some(base_rev) = entry.base_rev_or_base_of_delta_chain {
506 let base_rev = if uses_generaldelta {
506 let base_rev = if uses_generaldelta {
507 base_rev
507 base_rev
508 } else {
508 } else {
509 entry.rev - 1
509 entry.rev - 1
510 };
510 };
511 delta_chain.push(entry);
511 delta_chain.push(entry);
512 entry = self.revlog.get_entry_internal(base_rev)?;
512 entry = self.revlog.get_entry_internal(base_rev)?;
513 }
513 }
514
514
515 let data = if delta_chain.is_empty() {
515 let data = if delta_chain.is_empty() {
516 entry.data_chunk()?
516 entry.data_chunk()?
517 } else {
517 } else {
518 Revlog::build_data_from_deltas(entry, &delta_chain)?.into()
518 Revlog::build_data_from_deltas(entry, &delta_chain)?.into()
519 };
519 };
520
520
521 Ok(data)
521 Ok(data)
522 }
522 }
523
523
524 fn check_data(
524 fn check_data(
525 &self,
525 &self,
526 data: Cow<'revlog, [u8]>,
526 data: Cow<'revlog, [u8]>,
527 ) -> Result<Cow<'revlog, [u8]>, HgError> {
527 ) -> Result<Cow<'revlog, [u8]>, HgError> {
528 if self.revlog.check_hash(
528 if self.revlog.check_hash(
529 self.p1,
529 self.p1,
530 self.p2,
530 self.p2,
531 self.hash.as_bytes(),
531 self.hash.as_bytes(),
532 &data,
532 &data,
533 ) {
533 ) {
534 Ok(data)
534 Ok(data)
535 } else {
535 } else {
536 if (self.flags & REVISION_FLAG_ELLIPSIS) != 0 {
536 if (self.flags & REVISION_FLAG_ELLIPSIS) != 0 {
537 return Err(HgError::unsupported(
537 return Err(HgError::unsupported(
538 "ellipsis revisions are not supported by rhg",
538 "ellipsis revisions are not supported by rhg",
539 ));
539 ));
540 }
540 }
541 Err(corrupted(format!(
541 Err(corrupted(format!(
542 "hash check failed for revision {}",
542 "hash check failed for revision {}",
543 self.rev
543 self.rev
544 )))
544 )))
545 }
545 }
546 }
546 }
547
547
548 pub fn data(&self) -> Result<Cow<'revlog, [u8]>, HgError> {
548 pub fn data(&self) -> Result<Cow<'revlog, [u8]>, HgError> {
549 let data = self.rawdata()?;
549 let data = self.rawdata()?;
550 if self.is_censored() {
550 if self.is_censored() {
551 return Err(HgError::CensoredNodeError);
551 return Err(HgError::CensoredNodeError);
552 }
552 }
553 self.check_data(data)
553 self.check_data(data)
554 }
554 }
555
555
556 /// Extract the data contained in the entry.
556 /// Extract the data contained in the entry.
557 /// This may be a delta. (See `is_delta`.)
557 /// This may be a delta. (See `is_delta`.)
558 fn data_chunk(&self) -> Result<Cow<'revlog, [u8]>, HgError> {
558 fn data_chunk(&self) -> Result<Cow<'revlog, [u8]>, HgError> {
559 if self.bytes.is_empty() {
559 if self.bytes.is_empty() {
560 return Ok(Cow::Borrowed(&[]));
560 return Ok(Cow::Borrowed(&[]));
561 }
561 }
562 match self.bytes[0] {
562 match self.bytes[0] {
563 // Revision data is the entirety of the entry, including this
563 // Revision data is the entirety of the entry, including this
564 // header.
564 // header.
565 b'\0' => Ok(Cow::Borrowed(self.bytes)),
565 b'\0' => Ok(Cow::Borrowed(self.bytes)),
566 // Raw revision data follows.
566 // Raw revision data follows.
567 b'u' => Ok(Cow::Borrowed(&self.bytes[1..])),
567 b'u' => Ok(Cow::Borrowed(&self.bytes[1..])),
568 // zlib (RFC 1950) data.
568 // zlib (RFC 1950) data.
569 b'x' => Ok(Cow::Owned(self.uncompressed_zlib_data()?)),
569 b'x' => Ok(Cow::Owned(self.uncompressed_zlib_data()?)),
570 // zstd data.
570 // zstd data.
571 b'\x28' => Ok(Cow::Owned(self.uncompressed_zstd_data()?)),
571 b'\x28' => Ok(Cow::Owned(self.uncompressed_zstd_data()?)),
572 // A proper new format should have had a repo/store requirement.
572 // A proper new format should have had a repo/store requirement.
573 format_type => Err(corrupted(format!(
573 format_type => Err(corrupted(format!(
574 "unknown compression header '{}'",
574 "unknown compression header '{}'",
575 format_type
575 format_type
576 ))),
576 ))),
577 }
577 }
578 }
578 }
579
579
580 fn uncompressed_zlib_data(&self) -> Result<Vec<u8>, HgError> {
580 fn uncompressed_zlib_data(&self) -> Result<Vec<u8>, HgError> {
581 let mut decoder = ZlibDecoder::new(self.bytes);
581 let mut decoder = ZlibDecoder::new(self.bytes);
582 if self.is_delta() {
582 if self.is_delta() {
583 let mut buf = Vec::with_capacity(self.compressed_len as usize);
583 let mut buf = Vec::with_capacity(self.compressed_len as usize);
584 decoder
584 decoder
585 .read_to_end(&mut buf)
585 .read_to_end(&mut buf)
586 .map_err(|e| corrupted(e.to_string()))?;
586 .map_err(|e| corrupted(e.to_string()))?;
587 Ok(buf)
587 Ok(buf)
588 } else {
588 } else {
589 let cap = self.uncompressed_len.max(0) as usize;
589 let cap = self.uncompressed_len.max(0) as usize;
590 let mut buf = vec![0; cap];
590 let mut buf = vec![0; cap];
591 decoder
591 decoder
592 .read_exact(&mut buf)
592 .read_exact(&mut buf)
593 .map_err(|e| corrupted(e.to_string()))?;
593 .map_err(|e| corrupted(e.to_string()))?;
594 Ok(buf)
594 Ok(buf)
595 }
595 }
596 }
596 }
597
597
598 fn uncompressed_zstd_data(&self) -> Result<Vec<u8>, HgError> {
598 fn uncompressed_zstd_data(&self) -> Result<Vec<u8>, HgError> {
599 let cap = self.uncompressed_len.max(0) as usize;
599 if self.is_delta() {
600 if self.is_delta() {
600 let mut buf = Vec::with_capacity(self.compressed_len as usize);
601 // [cap] is usually an over-estimate of the space needed because
601 zstd::stream::copy_decode(self.bytes, &mut buf)
602 // it's the length of delta-decoded data, but we're interested
602 .map_err(|e| corrupted(e.to_string()))?;
603 // in the size of the delta.
604 // This means we have to [shrink_to_fit] to avoid holding on
605 // to a large chunk of memory, but it also means we must have a
606 // fallback branch, for the case when the delta is longer than
607 // the original data (surprisingly, this does happen in practice)
608 let mut buf = Vec::with_capacity(cap);
609 match zstd_decompress_to_buffer(self.bytes, &mut buf) {
610 Ok(_) => buf.shrink_to_fit(),
611 Err(_) => {
612 buf.clear();
613 zstd::stream::copy_decode(self.bytes, &mut buf)
614 .map_err(|e| corrupted(e.to_string()))?;
615 }
616 };
603 Ok(buf)
617 Ok(buf)
604 } else {
618 } else {
605 let cap = self.uncompressed_len.max(0) as usize;
606 let mut buf = Vec::with_capacity(cap);
619 let mut buf = Vec::with_capacity(cap);
607 let len = zstd_decompress_to_buffer(self.bytes, &mut buf)
620 let len = zstd_decompress_to_buffer(self.bytes, &mut buf)
608 .map_err(|e| corrupted(e.to_string()))?;
621 .map_err(|e| corrupted(e.to_string()))?;
609 if len != self.uncompressed_len as usize {
622 if len != self.uncompressed_len as usize {
610 Err(corrupted("uncompressed length does not match"))
623 Err(corrupted("uncompressed length does not match"))
611 } else {
624 } else {
612 Ok(buf)
625 Ok(buf)
613 }
626 }
614 }
627 }
615 }
628 }
616
629
617 /// Tell if the entry is a snapshot or a delta
630 /// Tell if the entry is a snapshot or a delta
618 /// (influences on decompression).
631 /// (influences on decompression).
619 fn is_delta(&self) -> bool {
632 fn is_delta(&self) -> bool {
620 self.base_rev_or_base_of_delta_chain.is_some()
633 self.base_rev_or_base_of_delta_chain.is_some()
621 }
634 }
622 }
635 }
623
636
624 /// Calculate the hash of a revision given its data and its parents.
637 /// Calculate the hash of a revision given its data and its parents.
625 fn hash(
638 fn hash(
626 data: &[u8],
639 data: &[u8],
627 p1_hash: &[u8],
640 p1_hash: &[u8],
628 p2_hash: &[u8],
641 p2_hash: &[u8],
629 ) -> [u8; NODE_BYTES_LENGTH] {
642 ) -> [u8; NODE_BYTES_LENGTH] {
630 let mut hasher = Sha1::new();
643 let mut hasher = Sha1::new();
631 let (a, b) = (p1_hash, p2_hash);
644 let (a, b) = (p1_hash, p2_hash);
632 if a > b {
645 if a > b {
633 hasher.update(b);
646 hasher.update(b);
634 hasher.update(a);
647 hasher.update(a);
635 } else {
648 } else {
636 hasher.update(a);
649 hasher.update(a);
637 hasher.update(b);
650 hasher.update(b);
638 }
651 }
639 hasher.update(data);
652 hasher.update(data);
640 *hasher.finalize().as_ref()
653 *hasher.finalize().as_ref()
641 }
654 }
642
655
643 #[cfg(test)]
656 #[cfg(test)]
644 mod tests {
657 mod tests {
645 use super::*;
658 use super::*;
646 use crate::index::{IndexEntryBuilder, INDEX_ENTRY_SIZE};
659 use crate::index::{IndexEntryBuilder, INDEX_ENTRY_SIZE};
647 use itertools::Itertools;
660 use itertools::Itertools;
648
661
649 #[test]
662 #[test]
650 fn test_empty() {
663 fn test_empty() {
651 let temp = tempfile::tempdir().unwrap();
664 let temp = tempfile::tempdir().unwrap();
652 let vfs = Vfs { base: temp.path() };
665 let vfs = Vfs { base: temp.path() };
653 std::fs::write(temp.path().join("foo.i"), b"").unwrap();
666 std::fs::write(temp.path().join("foo.i"), b"").unwrap();
654 let revlog = Revlog::open(&vfs, "foo.i", None, false).unwrap();
667 let revlog = Revlog::open(&vfs, "foo.i", None, false).unwrap();
655 assert!(revlog.is_empty());
668 assert!(revlog.is_empty());
656 assert_eq!(revlog.len(), 0);
669 assert_eq!(revlog.len(), 0);
657 assert!(revlog.get_entry(0).is_err());
670 assert!(revlog.get_entry(0).is_err());
658 assert!(!revlog.has_rev(0));
671 assert!(!revlog.has_rev(0));
659 }
672 }
660
673
661 #[test]
674 #[test]
662 fn test_inline() {
675 fn test_inline() {
663 let temp = tempfile::tempdir().unwrap();
676 let temp = tempfile::tempdir().unwrap();
664 let vfs = Vfs { base: temp.path() };
677 let vfs = Vfs { base: temp.path() };
665 let node0 = Node::from_hex("2ed2a3912a0b24502043eae84ee4b279c18b90dd")
678 let node0 = Node::from_hex("2ed2a3912a0b24502043eae84ee4b279c18b90dd")
666 .unwrap();
679 .unwrap();
667 let node1 = Node::from_hex("b004912a8510032a0350a74daa2803dadfb00e12")
680 let node1 = Node::from_hex("b004912a8510032a0350a74daa2803dadfb00e12")
668 .unwrap();
681 .unwrap();
669 let node2 = Node::from_hex("dd6ad206e907be60927b5a3117b97dffb2590582")
682 let node2 = Node::from_hex("dd6ad206e907be60927b5a3117b97dffb2590582")
670 .unwrap();
683 .unwrap();
671 let entry0_bytes = IndexEntryBuilder::new()
684 let entry0_bytes = IndexEntryBuilder::new()
672 .is_first(true)
685 .is_first(true)
673 .with_version(1)
686 .with_version(1)
674 .with_inline(true)
687 .with_inline(true)
675 .with_offset(INDEX_ENTRY_SIZE)
688 .with_offset(INDEX_ENTRY_SIZE)
676 .with_node(node0)
689 .with_node(node0)
677 .build();
690 .build();
678 let entry1_bytes = IndexEntryBuilder::new()
691 let entry1_bytes = IndexEntryBuilder::new()
679 .with_offset(INDEX_ENTRY_SIZE)
692 .with_offset(INDEX_ENTRY_SIZE)
680 .with_node(node1)
693 .with_node(node1)
681 .build();
694 .build();
682 let entry2_bytes = IndexEntryBuilder::new()
695 let entry2_bytes = IndexEntryBuilder::new()
683 .with_offset(INDEX_ENTRY_SIZE)
696 .with_offset(INDEX_ENTRY_SIZE)
684 .with_p1(0)
697 .with_p1(0)
685 .with_p2(1)
698 .with_p2(1)
686 .with_node(node2)
699 .with_node(node2)
687 .build();
700 .build();
688 let contents = vec![entry0_bytes, entry1_bytes, entry2_bytes]
701 let contents = vec![entry0_bytes, entry1_bytes, entry2_bytes]
689 .into_iter()
702 .into_iter()
690 .flatten()
703 .flatten()
691 .collect_vec();
704 .collect_vec();
692 std::fs::write(temp.path().join("foo.i"), contents).unwrap();
705 std::fs::write(temp.path().join("foo.i"), contents).unwrap();
693 let revlog = Revlog::open(&vfs, "foo.i", None, false).unwrap();
706 let revlog = Revlog::open(&vfs, "foo.i", None, false).unwrap();
694
707
695 let entry0 = revlog.get_entry(0).ok().unwrap();
708 let entry0 = revlog.get_entry(0).ok().unwrap();
696 assert_eq!(entry0.revision(), 0);
709 assert_eq!(entry0.revision(), 0);
697 assert_eq!(*entry0.node(), node0);
710 assert_eq!(*entry0.node(), node0);
698 assert!(!entry0.has_p1());
711 assert!(!entry0.has_p1());
699 assert_eq!(entry0.p1(), None);
712 assert_eq!(entry0.p1(), None);
700 assert_eq!(entry0.p2(), None);
713 assert_eq!(entry0.p2(), None);
701 let p1_entry = entry0.p1_entry().unwrap();
714 let p1_entry = entry0.p1_entry().unwrap();
702 assert!(p1_entry.is_none());
715 assert!(p1_entry.is_none());
703 let p2_entry = entry0.p2_entry().unwrap();
716 let p2_entry = entry0.p2_entry().unwrap();
704 assert!(p2_entry.is_none());
717 assert!(p2_entry.is_none());
705
718
706 let entry1 = revlog.get_entry(1).ok().unwrap();
719 let entry1 = revlog.get_entry(1).ok().unwrap();
707 assert_eq!(entry1.revision(), 1);
720 assert_eq!(entry1.revision(), 1);
708 assert_eq!(*entry1.node(), node1);
721 assert_eq!(*entry1.node(), node1);
709 assert!(!entry1.has_p1());
722 assert!(!entry1.has_p1());
710 assert_eq!(entry1.p1(), None);
723 assert_eq!(entry1.p1(), None);
711 assert_eq!(entry1.p2(), None);
724 assert_eq!(entry1.p2(), None);
712 let p1_entry = entry1.p1_entry().unwrap();
725 let p1_entry = entry1.p1_entry().unwrap();
713 assert!(p1_entry.is_none());
726 assert!(p1_entry.is_none());
714 let p2_entry = entry1.p2_entry().unwrap();
727 let p2_entry = entry1.p2_entry().unwrap();
715 assert!(p2_entry.is_none());
728 assert!(p2_entry.is_none());
716
729
717 let entry2 = revlog.get_entry(2).ok().unwrap();
730 let entry2 = revlog.get_entry(2).ok().unwrap();
718 assert_eq!(entry2.revision(), 2);
731 assert_eq!(entry2.revision(), 2);
719 assert_eq!(*entry2.node(), node2);
732 assert_eq!(*entry2.node(), node2);
720 assert!(entry2.has_p1());
733 assert!(entry2.has_p1());
721 assert_eq!(entry2.p1(), Some(0));
734 assert_eq!(entry2.p1(), Some(0));
722 assert_eq!(entry2.p2(), Some(1));
735 assert_eq!(entry2.p2(), Some(1));
723 let p1_entry = entry2.p1_entry().unwrap();
736 let p1_entry = entry2.p1_entry().unwrap();
724 assert!(p1_entry.is_some());
737 assert!(p1_entry.is_some());
725 assert_eq!(p1_entry.unwrap().revision(), 0);
738 assert_eq!(p1_entry.unwrap().revision(), 0);
726 let p2_entry = entry2.p2_entry().unwrap();
739 let p2_entry = entry2.p2_entry().unwrap();
727 assert!(p2_entry.is_some());
740 assert!(p2_entry.is_some());
728 assert_eq!(p2_entry.unwrap().revision(), 1);
741 assert_eq!(p2_entry.unwrap().revision(), 1);
729 }
742 }
730 }
743 }
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