Line data Source code
1 : //! Implementation of append-only file data structure
2 : //! used to keep in-memory layers spilled on disk.
3 :
4 : use std::io;
5 : use std::sync::Arc;
6 : use std::sync::atomic::AtomicU64;
7 :
8 : use camino::Utf8PathBuf;
9 : use num_traits::Num;
10 : use pageserver_api::shard::TenantShardId;
11 : use tokio_epoll_uring::{BoundedBuf, Slice};
12 : use tokio_util::sync::CancellationToken;
13 : use tracing::{error, info_span};
14 : use utils::id::TimelineId;
15 :
16 : use crate::assert_u64_eq_usize::{U64IsUsize, UsizeIsU64};
17 : use crate::config::PageServerConf;
18 : use crate::context::RequestContext;
19 : use crate::page_cache;
20 : use crate::tenant::storage_layer::inmemory_layer::vectored_dio_read::File;
21 : use crate::virtual_file::owned_buffers_io::io_buf_aligned::IoBufAlignedMut;
22 : use crate::virtual_file::owned_buffers_io::slice::SliceMutExt;
23 : use crate::virtual_file::owned_buffers_io::write::{Buffer, FlushTaskError};
24 : use crate::virtual_file::{self, IoBufferMut, VirtualFile, owned_buffers_io};
25 :
26 : pub struct EphemeralFile {
27 : _tenant_shard_id: TenantShardId,
28 : _timeline_id: TimelineId,
29 : page_cache_file_id: page_cache::FileId,
30 : bytes_written: u64,
31 : buffered_writer: owned_buffers_io::write::BufferedWriter<IoBufferMut, VirtualFile>,
32 : /// Gate guard is held on as long as we need to do operations in the path (delete on drop)
33 : _gate_guard: utils::sync::gate::GateGuard,
34 : }
35 :
36 : const TAIL_SZ: usize = 64 * 1024;
37 :
38 : impl EphemeralFile {
39 2632 : pub async fn create(
40 2632 : conf: &PageServerConf,
41 2632 : tenant_shard_id: TenantShardId,
42 2632 : timeline_id: TimelineId,
43 2632 : gate: &utils::sync::gate::Gate,
44 2632 : cancel: &CancellationToken,
45 2632 : ctx: &RequestContext,
46 2632 : ) -> anyhow::Result<EphemeralFile> {
47 : static NEXT_FILENAME: AtomicU64 = AtomicU64::new(1);
48 2632 : let filename_disambiguator =
49 2632 : NEXT_FILENAME.fetch_add(1, std::sync::atomic::Ordering::Relaxed);
50 2632 :
51 2632 : let filename = conf
52 2632 : .timeline_path(&tenant_shard_id, &timeline_id)
53 2632 : .join(Utf8PathBuf::from(format!(
54 2632 : "ephemeral-{filename_disambiguator}"
55 2632 : )));
56 :
57 2632 : let file = Arc::new(
58 2632 : VirtualFile::open_with_options_v2(
59 2632 : &filename,
60 2632 : virtual_file::OpenOptions::new()
61 2632 : .read(true)
62 2632 : .write(true)
63 2632 : .create(true),
64 2632 : ctx,
65 2632 : )
66 2632 : .await?,
67 : );
68 :
69 2632 : let page_cache_file_id = page_cache::next_file_id(); // XXX get rid, we're not page-caching anymore
70 2632 :
71 2632 : Ok(EphemeralFile {
72 2632 : _tenant_shard_id: tenant_shard_id,
73 2632 : _timeline_id: timeline_id,
74 2632 : page_cache_file_id,
75 2632 : bytes_written: 0,
76 2632 : buffered_writer: owned_buffers_io::write::BufferedWriter::new(
77 2632 : file,
78 5264 : || IoBufferMut::with_capacity(TAIL_SZ),
79 2632 : gate.enter()?,
80 2632 : cancel.child_token(),
81 2632 : ctx,
82 2632 : info_span!(parent: None, "ephemeral_file_buffered_writer", tenant_id=%tenant_shard_id.tenant_id, shard_id=%tenant_shard_id.shard_slug(), timeline_id=%timeline_id, path = %filename),
83 : ),
84 2632 : _gate_guard: gate.enter()?,
85 : })
86 2632 : }
87 : }
88 :
89 : impl Drop for EphemeralFile {
90 2380 : fn drop(&mut self) {
91 2380 : // unlink the file
92 2380 : // we are clear to do this, because we have entered a gate
93 2380 : let path = self.buffered_writer.as_inner().path();
94 2380 : let res = std::fs::remove_file(path);
95 2380 : if let Err(e) = res {
96 4 : if e.kind() != std::io::ErrorKind::NotFound {
97 : // just never log the not found errors, we cannot do anything for them; on detach
98 : // the tenant directory is already gone.
99 : //
100 : // not found files might also be related to https://github.com/neondatabase/neon/issues/2442
101 0 : error!("could not remove ephemeral file '{path}': {e}");
102 4 : }
103 2376 : }
104 2380 : }
105 : }
106 :
107 : #[derive(Debug, thiserror::Error)]
108 : pub(crate) enum EphemeralFileWriteError {
109 : #[error("{0}")]
110 : TooLong(String),
111 : #[error("cancelled")]
112 : Cancelled,
113 : }
114 :
115 : impl EphemeralFile {
116 19226220 : pub(crate) fn len(&self) -> u64 {
117 19226220 : self.bytes_written
118 19226220 : }
119 :
120 2616 : pub(crate) fn page_cache_file_id(&self) -> page_cache::FileId {
121 2616 : self.page_cache_file_id
122 2616 : }
123 :
124 1940 : pub(crate) async fn load_to_io_buf(
125 1940 : &self,
126 1940 : ctx: &RequestContext,
127 1940 : ) -> Result<IoBufferMut, io::Error> {
128 1940 : let size = self.len().into_usize();
129 1940 : let buf = IoBufferMut::with_capacity(size);
130 1940 : let (slice, nread) = self.read_exact_at_eof_ok(0, buf.slice_full(), ctx).await?;
131 1940 : assert_eq!(nread, size);
132 1940 : let buf = slice.into_inner();
133 1940 : assert_eq!(buf.len(), nread);
134 1940 : assert_eq!(buf.capacity(), size, "we shouldn't be reallocating");
135 1940 : Ok(buf)
136 1940 : }
137 :
138 : /// Returns the offset at which the first byte of the input was written, for use
139 : /// in constructing indices over the written value.
140 : ///
141 : /// Panics if the write is short because there's no way we can recover from that.
142 : /// TODO: make upstack handle this as an error.
143 9609764 : pub(crate) async fn write_raw(
144 9609764 : &mut self,
145 9609764 : srcbuf: &[u8],
146 9609764 : ctx: &RequestContext,
147 9609764 : ) -> Result<u64, EphemeralFileWriteError> {
148 9609764 : let (pos, control) = self.write_raw_controlled(srcbuf, ctx).await?;
149 9609764 : if let Some(control) = control {
150 11068 : control.release().await;
151 9598696 : }
152 9609764 : Ok(pos)
153 9609764 : }
154 :
155 9609768 : async fn write_raw_controlled(
156 9609768 : &mut self,
157 9609768 : srcbuf: &[u8],
158 9609768 : ctx: &RequestContext,
159 9609768 : ) -> Result<(u64, Option<owned_buffers_io::write::FlushControl>), EphemeralFileWriteError> {
160 9609768 : let pos = self.bytes_written;
161 :
162 9609768 : let new_bytes_written = pos.checked_add(srcbuf.len().into_u64()).ok_or_else(|| {
163 0 : EphemeralFileWriteError::TooLong(format!(
164 0 : "write would grow EphemeralFile beyond u64::MAX: len={pos} writen={srcbuf_len}",
165 0 : srcbuf_len = srcbuf.len(),
166 0 : ))
167 9609768 : })?;
168 :
169 : // Write the payload
170 9609768 : let (nwritten, control) = self
171 9609768 : .buffered_writer
172 9609768 : .write_buffered_borrowed_controlled(srcbuf, ctx)
173 9609768 : .await
174 9609768 : .map_err(|e| match e {
175 0 : FlushTaskError::Cancelled => EphemeralFileWriteError::Cancelled,
176 9609768 : })?;
177 9609768 : assert_eq!(
178 9609768 : nwritten,
179 9609768 : srcbuf.len(),
180 0 : "buffered writer has no short writes"
181 : );
182 :
183 9609768 : self.bytes_written = new_bytes_written;
184 9609768 :
185 9609768 : Ok((pos, control))
186 9609768 : }
187 : }
188 :
189 : impl super::storage_layer::inmemory_layer::vectored_dio_read::File for EphemeralFile {
190 997868 : async fn read_exact_at_eof_ok<B: IoBufAlignedMut + Send>(
191 997868 : &self,
192 997868 : start: u64,
193 997868 : dst: tokio_epoll_uring::Slice<B>,
194 997868 : ctx: &RequestContext,
195 997868 : ) -> std::io::Result<(tokio_epoll_uring::Slice<B>, usize)> {
196 997868 : let submitted_offset = self.buffered_writer.bytes_submitted();
197 :
198 997868 : let mutable = match self.buffered_writer.inspect_mutable() {
199 997868 : Some(mutable) => &mutable[0..mutable.pending()],
200 : None => {
201 : // Timeline::cancel and hence buffered writer flush was cancelled.
202 : // Remain read-available while timeline is shutting down.
203 0 : &[]
204 : }
205 : };
206 :
207 997868 : let maybe_flushed = self.buffered_writer.inspect_maybe_flushed();
208 997868 :
209 997868 : let dst_cap = dst.bytes_total().into_u64();
210 997868 : let end = {
211 : // saturating_add is correct here because the max file size is u64::MAX, so,
212 : // if start + dst.len() > u64::MAX, then we know it will be a short read
213 997868 : let mut end: u64 = start.saturating_add(dst_cap);
214 997868 : if end > self.bytes_written {
215 554392 : end = self.bytes_written;
216 554392 : }
217 997868 : end
218 : };
219 :
220 : // inclusive, exclusive
221 : #[derive(Debug)]
222 : struct Range<N>(N, N);
223 : impl<N: Num + Clone + Copy + PartialOrd + Ord> Range<N> {
224 6615168 : fn len(&self) -> N {
225 6615168 : if self.0 > self.1 {
226 3550183 : N::zero()
227 : } else {
228 3064985 : self.1 - self.0
229 : }
230 6615168 : }
231 : }
232 :
233 997868 : let (written_range, maybe_flushed_range) = {
234 997868 : if maybe_flushed.is_some() {
235 : // [ written ][ maybe_flushed ][ mutable ]
236 : // ^
237 : // `submitted_offset`
238 : // <++++++ on disk +++++++????????????????>
239 977108 : (
240 977108 : Range(
241 977108 : start,
242 977108 : std::cmp::min(end, submitted_offset.saturating_sub(TAIL_SZ as u64)),
243 977108 : ),
244 977108 : Range(
245 977108 : std::cmp::max(start, submitted_offset.saturating_sub(TAIL_SZ as u64)),
246 977108 : std::cmp::min(end, submitted_offset),
247 977108 : ),
248 977108 : )
249 : } else {
250 : // [ written ][ mutable ]
251 : // ^
252 : // `submitted_offset`
253 : // <++++++ on disk +++++++++++++++++++++++>
254 20760 : (
255 20760 : Range(start, std::cmp::min(end, submitted_offset)),
256 20760 : // zero len
257 20760 : Range(submitted_offset, u64::MIN),
258 20760 : )
259 : }
260 : };
261 :
262 997868 : let mutable_range = Range(std::cmp::max(start, submitted_offset), end);
263 :
264 997868 : let dst = if written_range.len() > 0 {
265 20341 : let file: &VirtualFile = self.buffered_writer.as_inner();
266 20341 : let bounds = dst.bounds();
267 20341 : let slice = file
268 20341 : .read_exact_at(dst.slice(0..written_range.len().into_usize()), start, ctx)
269 20341 : .await?;
270 20341 : Slice::from_buf_bounds(Slice::into_inner(slice), bounds)
271 : } else {
272 977527 : dst
273 : };
274 :
275 997868 : let dst = if maybe_flushed_range.len() > 0 {
276 321205 : let offset_in_buffer = maybe_flushed_range
277 321205 : .0
278 321205 : .checked_sub(submitted_offset.saturating_sub(TAIL_SZ as u64))
279 321205 : .unwrap()
280 321205 : .into_usize();
281 321205 : // Checked previously the buffer is Some.
282 321205 : let maybe_flushed = maybe_flushed.unwrap();
283 321205 : let to_copy = &maybe_flushed
284 321205 : [offset_in_buffer..(offset_in_buffer + maybe_flushed_range.len().into_usize())];
285 321205 : let bounds = dst.bounds();
286 321205 : let mut view = dst.slice({
287 321205 : let start = written_range.len().into_usize();
288 321205 : let end = start
289 321205 : .checked_add(maybe_flushed_range.len().into_usize())
290 321205 : .unwrap();
291 321205 : start..end
292 321205 : });
293 321205 : view.as_mut_rust_slice_full_zeroed()
294 321205 : .copy_from_slice(to_copy);
295 321205 : Slice::from_buf_bounds(Slice::into_inner(view), bounds)
296 : } else {
297 676663 : dst
298 : };
299 :
300 997868 : let dst = if mutable_range.len() > 0 {
301 659402 : let offset_in_buffer = mutable_range
302 659402 : .0
303 659402 : .checked_sub(submitted_offset)
304 659402 : .unwrap()
305 659402 : .into_usize();
306 659402 : let to_copy =
307 659402 : &mutable[offset_in_buffer..(offset_in_buffer + mutable_range.len().into_usize())];
308 659402 : let bounds = dst.bounds();
309 659402 : let mut view = dst.slice({
310 659402 : let start =
311 659402 : written_range.len().into_usize() + maybe_flushed_range.len().into_usize();
312 659402 : let end = start.checked_add(mutable_range.len().into_usize()).unwrap();
313 659402 : start..end
314 659402 : });
315 659402 : view.as_mut_rust_slice_full_zeroed()
316 659402 : .copy_from_slice(to_copy);
317 659402 : Slice::from_buf_bounds(Slice::into_inner(view), bounds)
318 : } else {
319 338466 : dst
320 : };
321 :
322 : // TODO: in debug mode, randomize the remaining bytes in `dst` to catch bugs
323 :
324 997868 : Ok((dst, (end - start).into_usize()))
325 997868 : }
326 : }
327 :
328 : /// Does the given filename look like an ephemeral file?
329 0 : pub fn is_ephemeral_file(filename: &str) -> bool {
330 0 : if let Some(rest) = filename.strip_prefix("ephemeral-") {
331 0 : rest.parse::<u32>().is_ok()
332 : } else {
333 0 : false
334 : }
335 0 : }
336 :
337 : #[cfg(test)]
338 : mod tests {
339 : use std::fs;
340 : use std::str::FromStr;
341 :
342 : use rand::Rng;
343 :
344 : use super::*;
345 : use crate::context::DownloadBehavior;
346 : use crate::task_mgr::TaskKind;
347 :
348 16 : fn harness(
349 16 : test_name: &str,
350 16 : ) -> Result<
351 16 : (
352 16 : &'static PageServerConf,
353 16 : TenantShardId,
354 16 : TimelineId,
355 16 : RequestContext,
356 16 : ),
357 16 : io::Error,
358 16 : > {
359 16 : let repo_dir = PageServerConf::test_repo_dir(test_name);
360 16 : let _ = fs::remove_dir_all(&repo_dir);
361 16 : let conf = PageServerConf::dummy_conf(repo_dir);
362 16 : // Make a static copy of the config. This can never be free'd, but that's
363 16 : // OK in a test.
364 16 : let conf: &'static PageServerConf = Box::leak(Box::new(conf));
365 16 :
366 16 : let tenant_shard_id = TenantShardId::from_str("11000000000000000000000000000000").unwrap();
367 16 : let timeline_id = TimelineId::from_str("22000000000000000000000000000000").unwrap();
368 16 : fs::create_dir_all(conf.timeline_path(&tenant_shard_id, &timeline_id))?;
369 :
370 16 : let ctx =
371 16 : RequestContext::new(TaskKind::UnitTest, DownloadBehavior::Error).with_scope_unit_test();
372 16 :
373 16 : Ok((conf, tenant_shard_id, timeline_id, ctx))
374 16 : }
375 :
376 : #[tokio::test]
377 4 : async fn ephemeral_file_holds_gate_open() {
378 4 : const FOREVER: std::time::Duration = std::time::Duration::from_secs(5);
379 4 :
380 4 : let (conf, tenant_id, timeline_id, ctx) =
381 4 : harness("ephemeral_file_holds_gate_open").unwrap();
382 4 :
383 4 : let gate = utils::sync::gate::Gate::default();
384 4 : let cancel = CancellationToken::new();
385 4 :
386 4 : let file = EphemeralFile::create(conf, tenant_id, timeline_id, &gate, &cancel, &ctx)
387 4 : .await
388 4 : .unwrap();
389 4 :
390 4 : let mut closing = tokio::task::spawn(async move {
391 4 : gate.close().await;
392 4 : });
393 4 :
394 4 : // gate is entered until the ephemeral file is dropped
395 4 : // do not start paused tokio-epoll-uring has a sleep loop
396 4 : tokio::time::pause();
397 4 : tokio::time::timeout(FOREVER, &mut closing)
398 4 : .await
399 4 : .expect_err("closing cannot complete before dropping");
400 4 :
401 4 : // this is a requirement of the reset_tenant functionality: we have to be able to restart a
402 4 : // tenant fast, and for that, we need all tenant_dir operations be guarded by entering a gate
403 4 : drop(file);
404 4 :
405 4 : tokio::time::timeout(FOREVER, &mut closing)
406 4 : .await
407 4 : .expect("closing completes right away")
408 4 : .expect("closing does not panic");
409 4 : }
410 :
411 : #[tokio::test]
412 4 : async fn test_ephemeral_file_basics() {
413 4 : let (conf, tenant_id, timeline_id, ctx) = harness("test_ephemeral_file_basics").unwrap();
414 4 :
415 4 : let gate = utils::sync::gate::Gate::default();
416 4 : let cancel = CancellationToken::new();
417 4 :
418 4 : let mut file = EphemeralFile::create(conf, tenant_id, timeline_id, &gate, &cancel, &ctx)
419 4 : .await
420 4 : .unwrap();
421 4 :
422 4 : let mutable = file.buffered_writer.mutable();
423 4 : let cap = mutable.capacity();
424 4 : let align = mutable.align();
425 4 :
426 4 : let write_nbytes = cap * 2 + cap / 2;
427 4 :
428 4 : let content: Vec<u8> = rand::thread_rng()
429 4 : .sample_iter(rand::distributions::Standard)
430 4 : .take(write_nbytes)
431 4 : .collect();
432 4 :
433 4 : let mut value_offsets = Vec::new();
434 1280 : for range in (0..write_nbytes)
435 4 : .step_by(align)
436 1280 : .map(|start| start..(start + align).min(write_nbytes))
437 4 : {
438 1280 : let off = file.write_raw(&content[range], &ctx).await.unwrap();
439 1280 : value_offsets.push(off);
440 4 : }
441 4 :
442 4 : assert_eq!(file.len() as usize, write_nbytes);
443 1280 : for (i, range) in (0..write_nbytes)
444 4 : .step_by(align)
445 1280 : .map(|start| start..(start + align).min(write_nbytes))
446 4 : .enumerate()
447 4 : {
448 1280 : assert_eq!(value_offsets[i], range.start.into_u64());
449 1280 : let buf = IoBufferMut::with_capacity(range.len());
450 1280 : let (buf_slice, nread) = file
451 1280 : .read_exact_at_eof_ok(range.start.into_u64(), buf.slice_full(), &ctx)
452 1280 : .await
453 1280 : .unwrap();
454 1280 : let buf = buf_slice.into_inner();
455 1280 : assert_eq!(nread, range.len());
456 1280 : assert_eq!(&buf, &content[range]);
457 4 : }
458 4 :
459 4 : let file_contents = std::fs::read(file.buffered_writer.as_inner().path()).unwrap();
460 4 : assert!(file_contents == content[0..cap * 2]);
461 4 :
462 4 : let maybe_flushed_buffer_contents = file.buffered_writer.inspect_maybe_flushed().unwrap();
463 4 : assert_eq!(&maybe_flushed_buffer_contents[..], &content[cap..cap * 2]);
464 4 :
465 4 : let mutable_buffer_contents = file.buffered_writer.mutable();
466 4 : assert_eq!(mutable_buffer_contents, &content[cap * 2..write_nbytes]);
467 4 : }
468 :
469 : #[tokio::test]
470 4 : async fn test_flushes_do_happen() {
471 4 : let (conf, tenant_id, timeline_id, ctx) = harness("test_flushes_do_happen").unwrap();
472 4 :
473 4 : let gate = utils::sync::gate::Gate::default();
474 4 : let cancel = CancellationToken::new();
475 4 : let mut file = EphemeralFile::create(conf, tenant_id, timeline_id, &gate, &cancel, &ctx)
476 4 : .await
477 4 : .unwrap();
478 4 :
479 4 : // mutable buffer and maybe_flushed buffer each has `cap` bytes.
480 4 : let cap = file.buffered_writer.mutable().capacity();
481 4 :
482 4 : let content: Vec<u8> = rand::thread_rng()
483 4 : .sample_iter(rand::distributions::Standard)
484 4 : .take(cap * 2 + cap / 2)
485 4 : .collect();
486 4 :
487 4 : file.write_raw(&content, &ctx).await.unwrap();
488 4 :
489 4 : // assert the state is as this test expects it to be
490 4 : let load_io_buf_res = file.load_to_io_buf(&ctx).await.unwrap();
491 4 : assert_eq!(&load_io_buf_res[..], &content[0..cap * 2 + cap / 2]);
492 4 : let md = file.buffered_writer.as_inner().path().metadata().unwrap();
493 4 : assert_eq!(
494 4 : md.len(),
495 4 : 2 * cap.into_u64(),
496 4 : "buffered writer requires one write to be flushed if we write 2.5x buffer capacity"
497 4 : );
498 4 : assert_eq!(
499 4 : &file.buffered_writer.inspect_maybe_flushed().unwrap()[0..cap],
500 4 : &content[cap..cap * 2]
501 4 : );
502 4 : assert_eq!(
503 4 : &file.buffered_writer.mutable()[0..cap / 2],
504 4 : &content[cap * 2..cap * 2 + cap / 2]
505 4 : );
506 4 : }
507 :
508 : #[tokio::test]
509 4 : async fn test_read_split_across_file_and_buffer() {
510 4 : // This test exercises the logic on the read path that splits the logical read
511 4 : // into a read from the flushed part (= the file) and a copy from the buffered writer's buffer.
512 4 : //
513 4 : // This test build on the assertions in test_flushes_do_happen
514 4 :
515 4 : let (conf, tenant_id, timeline_id, ctx) =
516 4 : harness("test_read_split_across_file_and_buffer").unwrap();
517 4 :
518 4 : let gate = utils::sync::gate::Gate::default();
519 4 : let cancel = CancellationToken::new();
520 4 :
521 4 : let mut file = EphemeralFile::create(conf, tenant_id, timeline_id, &gate, &cancel, &ctx)
522 4 : .await
523 4 : .unwrap();
524 4 :
525 4 : let mutable = file.buffered_writer.mutable();
526 4 : let cap = mutable.capacity();
527 4 : let align = mutable.align();
528 4 : let content: Vec<u8> = rand::thread_rng()
529 4 : .sample_iter(rand::distributions::Standard)
530 4 : .take(cap * 2 + cap / 2)
531 4 : .collect();
532 4 :
533 4 : let (_, control) = file.write_raw_controlled(&content, &ctx).await.unwrap();
534 4 :
535 108 : let test_read = |start: usize, len: usize| {
536 108 : let file = &file;
537 108 : let ctx = &ctx;
538 108 : let content = &content;
539 108 : async move {
540 108 : let (buf, nread) = file
541 108 : .read_exact_at_eof_ok(
542 108 : start.into_u64(),
543 108 : IoBufferMut::with_capacity(len).slice_full(),
544 108 : ctx,
545 108 : )
546 108 : .await
547 108 : .unwrap();
548 108 : assert_eq!(nread, len);
549 108 : assert_eq!(&buf.into_inner(), &content[start..(start + len)]);
550 108 : }
551 108 : };
552 4 :
553 12 : let test_read_all_offset_combinations = || {
554 12 : async move {
555 12 : test_read(align, align).await;
556 4 : // border onto edge of file
557 12 : test_read(cap - align, align).await;
558 4 : // read across file and buffer
559 12 : test_read(cap - align, 2 * align).await;
560 4 : // stay from start of maybe flushed buffer
561 12 : test_read(cap, align).await;
562 4 : // completely within maybe flushed buffer
563 12 : test_read(cap + align, align).await;
564 4 : // border onto edge of maybe flushed buffer.
565 12 : test_read(cap * 2 - align, align).await;
566 4 : // read across maybe flushed and mutable buffer
567 12 : test_read(cap * 2 - align, 2 * align).await;
568 4 : // read across three segments
569 12 : test_read(cap - align, cap + 2 * align).await;
570 4 : // completely within mutable buffer
571 12 : test_read(cap * 2 + align, align).await;
572 12 : }
573 12 : };
574 4 :
575 4 : // completely within the file range
576 4 : assert!(align < cap, "test assumption");
577 4 : assert!(cap % align == 0);
578 4 :
579 4 : // test reads at different flush stages.
580 4 : let not_started = control.unwrap().into_not_started();
581 4 : test_read_all_offset_combinations().await;
582 4 : let in_progress = not_started.ready_to_flush();
583 4 : test_read_all_offset_combinations().await;
584 4 : in_progress.wait_until_flush_is_done().await;
585 4 : test_read_all_offset_combinations().await;
586 4 : }
587 : }
|
