189 lines
6.0 KiB
Rust
189 lines
6.0 KiB
Rust
// Copyright 2021 Google LLC
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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use persistent_store::fragment;
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mod config;
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#[test]
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fn read_empty_entry() {
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let store = config::MINIMAL.new_store();
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assert_eq!(fragment::read(&store, &(0..4)), Ok(None));
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}
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#[test]
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fn read_single_chunk() {
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let mut store = config::MINIMAL.new_store();
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let value = b"hello".to_vec();
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assert_eq!(store.insert(0, &value), Ok(()));
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assert_eq!(fragment::read(&store, &(0..4)), Ok(Some(value)));
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}
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#[test]
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fn read_multiple_chunks() {
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let mut store = config::MINIMAL.new_store();
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let value: Vec<_> = (0..60).collect();
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assert_eq!(store.insert(0, &value[..52]), Ok(()));
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assert_eq!(store.insert(1, &value[52..]), Ok(()));
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assert_eq!(fragment::read(&store, &(0..4)), Ok(Some(value)));
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}
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#[test]
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fn read_range_first_chunk() {
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let mut store = config::MINIMAL.new_store();
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let value: Vec<_> = (0..60).collect();
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assert_eq!(store.insert(0, &value[..52]), Ok(()));
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assert_eq!(store.insert(1, &value[52..]), Ok(()));
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assert_eq!(
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fragment::read_range(&store, &(0..4), 0..10),
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Ok(Some((0..10).collect()))
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);
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assert_eq!(
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fragment::read_range(&store, &(0..4), 10..20),
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Ok(Some((10..20).collect()))
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);
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assert_eq!(
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fragment::read_range(&store, &(0..4), 40..52),
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Ok(Some((40..52).collect()))
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);
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}
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#[test]
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fn read_range_second_chunk() {
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let mut store = config::MINIMAL.new_store();
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let value: Vec<_> = (0..60).collect();
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assert_eq!(store.insert(0, &value[..52]), Ok(()));
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assert_eq!(store.insert(1, &value[52..]), Ok(()));
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assert_eq!(
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fragment::read_range(&store, &(0..4), 52..53),
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Ok(Some(vec![52]))
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);
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assert_eq!(
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fragment::read_range(&store, &(0..4), 53..54),
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Ok(Some(vec![53]))
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);
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assert_eq!(
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fragment::read_range(&store, &(0..4), 59..60),
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Ok(Some(vec![59]))
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);
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}
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#[test]
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fn read_range_both_chunks() {
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let mut store = config::MINIMAL.new_store();
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let value: Vec<_> = (0..60).collect();
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assert_eq!(store.insert(0, &value[..52]), Ok(()));
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assert_eq!(store.insert(1, &value[52..]), Ok(()));
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assert_eq!(
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fragment::read_range(&store, &(0..4), 40..60),
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Ok(Some((40..60).collect()))
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);
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assert_eq!(
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fragment::read_range(&store, &(0..4), 0..60),
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Ok(Some((0..60).collect()))
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);
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}
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#[test]
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fn read_range_outside() {
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let mut store = config::MINIMAL.new_store();
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let value: Vec<_> = (0..60).collect();
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assert_eq!(store.insert(0, &value[..52]), Ok(()));
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assert_eq!(store.insert(1, &value[52..]), Ok(()));
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assert_eq!(
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fragment::read_range(&store, &(0..4), 40..100),
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Ok(Some((40..60).collect()))
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);
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assert_eq!(
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fragment::read_range(&store, &(0..4), 60..100),
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Ok(Some(vec![]))
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);
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}
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#[test]
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fn write_single_chunk() {
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let mut store = config::MINIMAL.new_store();
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let value = b"hello".to_vec();
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assert_eq!(fragment::write(&mut store, &(0..4), &value), Ok(()));
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assert_eq!(store.find(0), Ok(Some(value)));
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assert_eq!(store.find(1), Ok(None));
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assert_eq!(store.find(2), Ok(None));
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assert_eq!(store.find(3), Ok(None));
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}
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#[test]
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fn write_multiple_chunks() {
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let mut store = config::MINIMAL.new_store();
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let value: Vec<_> = (0..60).collect();
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assert_eq!(fragment::write(&mut store, &(0..4), &value), Ok(()));
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assert_eq!(store.find(0), Ok(Some((0..52).collect())));
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assert_eq!(store.find(1), Ok(Some((52..60).collect())));
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assert_eq!(store.find(2), Ok(None));
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assert_eq!(store.find(3), Ok(None));
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}
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#[test]
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fn overwrite_less_chunks() {
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let mut store = config::MINIMAL.new_store();
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let value: Vec<_> = (0..60).collect();
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assert_eq!(store.insert(0, &value[..52]), Ok(()));
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assert_eq!(store.insert(1, &value[52..]), Ok(()));
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let value: Vec<_> = (42..69).collect();
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assert_eq!(fragment::write(&mut store, &(0..4), &value), Ok(()));
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assert_eq!(store.find(0), Ok(Some((42..69).collect())));
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assert_eq!(store.find(1), Ok(None));
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assert_eq!(store.find(2), Ok(None));
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assert_eq!(store.find(3), Ok(None));
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}
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#[test]
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fn overwrite_needed_chunks() {
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let mut store = config::MINIMAL.new_store();
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let mut value: Vec<_> = (0..60).collect();
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assert_eq!(store.insert(0, &value[..52]), Ok(()));
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assert_eq!(store.insert(1, &value[52..]), Ok(()));
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// Current lifetime is 2 words of overhead (2 insert) and 60 bytes of data.
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let mut lifetime = 2 + 60 / 4;
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assert_eq!(store.lifetime().unwrap().used(), lifetime);
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// Update the value.
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value.extend(60..80);
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assert_eq!(fragment::write(&mut store, &(0..4), &value), Ok(()));
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// Added lifetime is 1 word of overhead (1 insert) and (80 - 52) bytes of data.
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lifetime += 1 + (80 - 52) / 4;
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assert_eq!(store.lifetime().unwrap().used(), lifetime);
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}
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#[test]
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fn delete_empty() {
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let mut store = config::MINIMAL.new_store();
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assert_eq!(fragment::delete(&mut store, &(0..4)), Ok(()));
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assert_eq!(store.find(0), Ok(None));
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assert_eq!(store.find(1), Ok(None));
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assert_eq!(store.find(2), Ok(None));
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assert_eq!(store.find(3), Ok(None));
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}
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#[test]
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fn delete_chunks() {
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let mut store = config::MINIMAL.new_store();
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let value: Vec<_> = (0..60).collect();
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assert_eq!(store.insert(0, &value[..52]), Ok(()));
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assert_eq!(store.insert(1, &value[52..]), Ok(()));
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assert_eq!(fragment::delete(&mut store, &(0..4)), Ok(()));
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assert_eq!(store.find(0), Ok(None));
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assert_eq!(store.find(1), Ok(None));
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assert_eq!(store.find(2), Ok(None));
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assert_eq!(store.find(3), Ok(None));
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}
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