Line data Source code
1 : use core::fmt::Display;
2 : use pageserver_api::shard::TenantShardId;
3 : use std::ops::Range;
4 : use utils::{id::TimelineId, lsn::Lsn};
5 :
6 : use crate::repository::Key;
7 :
8 : use super::{DeltaFileName, ImageFileName, LayerFileName};
9 :
10 : use serde::{Deserialize, Serialize};
11 :
12 : #[cfg(test)]
13 : use utils::id::TenantId;
14 :
15 : /// A unique identifier of a persistent layer. This is different from `LayerDescriptor`, which is only used in the
16 : /// benchmarks. This struct contains all necessary information to find the image / delta layer. It also provides
17 : /// a unified way to generate layer information like file name.
18 81740 : #[derive(Debug, PartialEq, Eq, Clone, Serialize, Deserialize)]
19 : pub struct PersistentLayerDesc {
20 : pub tenant_shard_id: TenantShardId,
21 : pub timeline_id: TimelineId,
22 : /// Range of keys that this layer covers
23 : pub key_range: Range<Key>,
24 : /// Inclusive start, exclusive end of the LSN range that this layer holds.
25 : ///
26 : /// - For an open in-memory layer, the end bound is MAX_LSN
27 : /// - For a frozen in-memory layer or a delta layer, the end bound is a valid lsn after the
28 : /// range start
29 : /// - An image layer represents snapshot at one LSN, so end_lsn is always the snapshot LSN + 1
30 : pub lsn_range: Range<Lsn>,
31 : /// Whether this is a delta layer, and also, is this incremental.
32 : pub is_delta: bool,
33 : pub file_size: u64,
34 : }
35 :
36 : /// A unique identifier of a persistent layer within the context of one timeline.
37 17042495 : #[derive(Debug, PartialEq, Eq, Clone, Hash)]
38 : pub struct PersistentLayerKey {
39 : pub key_range: Range<Key>,
40 : pub lsn_range: Range<Lsn>,
41 : pub is_delta: bool,
42 : }
43 :
44 : impl PersistentLayerDesc {
45 17006295 : pub fn key(&self) -> PersistentLayerKey {
46 17006295 : PersistentLayerKey {
47 17006295 : key_range: self.key_range.clone(),
48 17006295 : lsn_range: self.lsn_range.clone(),
49 17006295 : is_delta: self.is_delta,
50 17006295 : }
51 17006295 : }
52 :
53 56977 : pub fn short_id(&self) -> impl Display {
54 56977 : self.filename()
55 56977 : }
56 :
57 : #[cfg(test)]
58 10 : pub fn new_test(key_range: Range<Key>, lsn_range: Range<Lsn>, is_delta: bool) -> Self {
59 10 : Self {
60 10 : tenant_shard_id: TenantShardId::unsharded(TenantId::generate()),
61 10 : timeline_id: TimelineId::generate(),
62 10 : key_range,
63 10 : lsn_range,
64 10 : is_delta,
65 10 : file_size: 0,
66 10 : }
67 10 : }
68 :
69 36612 : pub fn new_img(
70 36612 : tenant_shard_id: TenantShardId,
71 36612 : timeline_id: TimelineId,
72 36612 : key_range: Range<Key>,
73 36612 : lsn: Lsn,
74 36612 : file_size: u64,
75 36612 : ) -> Self {
76 36612 : Self {
77 36612 : tenant_shard_id,
78 36612 : timeline_id,
79 36612 : key_range,
80 36612 : lsn_range: Self::image_layer_lsn_range(lsn),
81 36612 : is_delta: false,
82 36612 : file_size,
83 36612 : }
84 36612 : }
85 :
86 38948 : pub fn new_delta(
87 38948 : tenant_shard_id: TenantShardId,
88 38948 : timeline_id: TimelineId,
89 38948 : key_range: Range<Key>,
90 38948 : lsn_range: Range<Lsn>,
91 38948 : file_size: u64,
92 38948 : ) -> Self {
93 38948 : Self {
94 38948 : tenant_shard_id,
95 38948 : timeline_id,
96 38948 : key_range,
97 38948 : lsn_range,
98 38948 : is_delta: true,
99 38948 : file_size,
100 38948 : }
101 38948 : }
102 :
103 53195 : pub fn from_filename(
104 53195 : tenant_shard_id: TenantShardId,
105 53195 : timeline_id: TimelineId,
106 53195 : filename: LayerFileName,
107 53195 : file_size: u64,
108 53195 : ) -> Self {
109 53195 : match filename {
110 30140 : LayerFileName::Image(i) => {
111 30140 : Self::new_img(tenant_shard_id, timeline_id, i.key_range, i.lsn, file_size)
112 : }
113 23055 : LayerFileName::Delta(d) => Self::new_delta(
114 23055 : tenant_shard_id,
115 23055 : timeline_id,
116 23055 : d.key_range,
117 23055 : d.lsn_range,
118 23055 : file_size,
119 23055 : ),
120 : }
121 53195 : }
122 :
123 : /// Get the LSN that the image layer covers.
124 869303 : pub fn image_layer_lsn(&self) -> Lsn {
125 869303 : assert!(!self.is_delta);
126 869303 : assert!(self.lsn_range.start + 1 == self.lsn_range.end);
127 869303 : self.lsn_range.start
128 869303 : }
129 :
130 : /// Get the LSN range corresponding to a single image layer LSN.
131 36612 : pub fn image_layer_lsn_range(lsn: Lsn) -> Range<Lsn> {
132 36612 : lsn..(lsn + 1)
133 36612 : }
134 :
135 : /// Get a delta file name for this layer.
136 : ///
137 : /// Panic: if this is not a delta layer.
138 549814 : pub fn delta_file_name(&self) -> DeltaFileName {
139 549814 : assert!(self.is_delta);
140 549814 : DeltaFileName {
141 549814 : key_range: self.key_range.clone(),
142 549814 : lsn_range: self.lsn_range.clone(),
143 549814 : }
144 549814 : }
145 :
146 : /// Get a delta file name for this layer.
147 : ///
148 : /// Panic: if this is not an image layer, or the lsn range is invalid
149 415711 : pub fn image_file_name(&self) -> ImageFileName {
150 415711 : assert!(!self.is_delta);
151 415711 : assert!(self.lsn_range.start + 1 == self.lsn_range.end);
152 415711 : ImageFileName {
153 415711 : key_range: self.key_range.clone(),
154 415711 : lsn: self.lsn_range.start,
155 415711 : }
156 415711 : }
157 :
158 965525 : pub fn filename(&self) -> LayerFileName {
159 965525 : if self.is_delta {
160 549814 : self.delta_file_name().into()
161 : } else {
162 415711 : self.image_file_name().into()
163 : }
164 965525 : }
165 :
166 : // TODO: remove this in the future once we refactor timeline APIs.
167 :
168 29674373 : pub fn get_lsn_range(&self) -> Range<Lsn> {
169 29674373 : self.lsn_range.clone()
170 29674373 : }
171 :
172 2592086 : pub fn get_key_range(&self) -> Range<Key> {
173 2592086 : self.key_range.clone()
174 2592086 : }
175 :
176 0 : pub fn get_timeline_id(&self) -> TimelineId {
177 0 : self.timeline_id
178 0 : }
179 :
180 : /// Does this layer only contain some data for the key-range (incremental),
181 : /// or does it contain a version of every page? This is important to know
182 : /// for garbage collecting old layers: an incremental layer depends on
183 : /// the previous non-incremental layer.
184 80783 : pub fn is_incremental(&self) -> bool {
185 80783 : self.is_delta
186 80783 : }
187 :
188 18878700 : pub fn is_delta(&self) -> bool {
189 18878700 : self.is_delta
190 18878700 : }
191 :
192 4 : pub fn dump(&self) {
193 4 : if self.is_delta {
194 4 : println!(
195 4 : "----- delta layer for ten {} tli {} keys {}-{} lsn {}-{} is_incremental {} size {} ----",
196 4 : self.tenant_shard_id,
197 4 : self.timeline_id,
198 4 : self.key_range.start,
199 4 : self.key_range.end,
200 4 : self.lsn_range.start,
201 4 : self.lsn_range.end,
202 4 : self.is_incremental(),
203 4 : self.file_size,
204 4 : );
205 4 : } else {
206 0 : println!(
207 0 : "----- image layer for ten {} tli {} key {}-{} at {} is_incremental {} size {} ----",
208 0 : self.tenant_shard_id,
209 0 : self.timeline_id,
210 0 : self.key_range.start,
211 0 : self.key_range.end,
212 0 : self.image_layer_lsn(),
213 0 : self.is_incremental(),
214 0 : self.file_size
215 0 : );
216 0 : }
217 4 : }
218 :
219 327026 : pub fn file_size(&self) -> u64 {
220 327026 : self.file_size
221 327026 : }
222 : }
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