cuckoo_clock/config.rs
1//! This module provides configuration types for [`crate::CuckooFilter`].
2
3use std::{
4 fmt::Display,
5 hash::RandomState,
6 num::{NonZeroU32, NonZeroUsize},
7 ops::{Add, Deref, DerefMut},
8};
9
10use crate::{CuckooFilter, data_block::DataBlockFieldConfiguration};
11
12/// Error type for all configuration options.
13#[derive(Debug)]
14pub enum ConfigError {
15 /// Error due to requesting buckets that are too big to represent (requiring over [`usize::MAX`]
16 /// bytes).
17 BucketTooBig,
18 /// Error due to requesting more than 32 bits for any of the fields (fingerprint or associated
19 /// field).
20 BitCountTooHigh,
21 /// Error due to requesting 0 bits for a field. If a field is enabled, it should take up at
22 /// least 1 bit.
23 BitCountTooLow,
24}
25
26impl Display for ConfigError {
27 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
28 match self {
29 ConfigError::BucketTooBig => {
30 f.write_str("Filter configuration requires buckets that are too big!")
31 }
32 ConfigError::BitCountTooHigh => f.write_str(&format!(
33 "Bit count is too high! Max is {}.",
34 BitCount::MAX.0
35 )),
36 ConfigError::BitCountTooLow => {
37 f.write_str(&format!("Bit count too low! Min is {}.", BitCount::MIN.0))
38 }
39 }
40 }
41}
42
43impl std::error::Error for ConfigError {
44 fn source(&self) -> Option<&(dyn std::error::Error + 'static)> {
45 None
46 }
47}
48
49/// Builder for [`CuckooConfiguration`].
50///
51/// New instance can be created using [`CuckooConfiguration::builder`].
52///
53/// # Examples
54///
55/// ```
56/// use cuckoo_clock::config::CuckooConfiguration;
57/// let builder = CuckooConfiguration::builder(100_000);
58/// ```
59pub struct CuckooConfigurationBuilder {
60 pub(crate) fingerprint_bits: BitCount,
61 pub(crate) bucket_size: NonZeroUsize,
62 pub(crate) max_entries: usize,
63 pub(crate) max_kicks: usize,
64 pub(crate) lru: Option<LruConfig>,
65 pub(crate) ttl: Option<TtlConfig>,
66 pub(crate) counter: Option<CounterConfig>,
67}
68
69impl CuckooConfigurationBuilder {
70 /// Sets the number of bits used for fingerprint. Higher number of bits should result in less
71 /// collisions, which should result in a lower false positive rate, at the cost of increased
72 /// memory usage.
73 #[must_use]
74 pub const fn fingerprint_bits(mut self, bits: BitCount) -> Self {
75 self.fingerprint_bits = bits;
76 self
77 }
78
79 /// Sets the number of buckets to hold in a bucket. Larger buckets improve filter occupancy
80 /// (space utilization), but they also require larger fingerprints to retain the same false
81 /// positive rate.
82 ///
83 /// 5.1. Optimal bucket size in [the original paper] describes this relation.
84 ///
85 /// [the original paper]: https://www.cs.cmu.edu/~dga/papers/cuckoo-conext2014.pdf
86 #[must_use]
87 pub const fn bucket_size(mut self, size: NonZeroUsize) -> Self {
88 self.bucket_size = size;
89 self
90 }
91
92 /// Maximum number of kicks to perform if all requested slots are occupied when inserting new
93 /// items. Items will be evicted and moved to their alternate slots until no more evictions are
94 /// required or maximum number of kicks is reached.
95 ///
96 /// If the maximum number of kicks is reached, one item will be lost from the filter.
97 ///
98 /// Increasing this number will increase filter occupancy at the cost of insertion speed.
99 #[must_use]
100 pub const fn max_kicks(mut self, kicks: usize) -> Self {
101 self.max_kicks = kicks;
102 self
103 }
104
105 /// Enables LRU eviction for the filter. Kicks will no longer be performed randomly and will
106 /// always target least recently used items, until either no more evictions are required, max
107 /// number of kicks was reached or the kicked item is to be moved in a bucket with all slots
108 /// occupied by more used items.
109 ///
110 /// When LRU is used, [`crate::CuckooFilter::scan_and_update_full`] should be called
111 /// periodically, to age LRU for all items. It is up to the caller to schedule this process.
112 /// More frequent scans will result in faster aging LRU for all items, requiring item to be
113 /// used more frequently to outlive other items.
114 #[must_use]
115 pub const fn with_lru(mut self, lru: LruConfig) -> Self {
116 self.lru = Some(lru);
117 self
118 }
119
120 /// Enables TTL for items in the filter. TTL will be used to expire items from the filter when
121 /// [`crate::CuckooFilter::scan_and_update_full`] is called.
122 ///
123 /// When TTL is used, [`crate::CuckooFilter::scan_and_update_full`] should be called
124 /// periodically, to age TTL for all items. It is up to the caller to schedule this process.
125 /// More frequent scans will result in lower TTL for all items.
126 #[must_use]
127 pub const fn with_ttl(mut self, ttl: TtlConfig) -> Self {
128 self.ttl = Some(ttl);
129 self
130 }
131
132 /// Enables counter for items in the filter. Counter is just provided as a value that can be
133 /// read when accessing items. It is increased on every access (and can be controlled
134 /// directly).
135 #[must_use]
136 pub const fn with_counter(mut self, counter: CounterConfig) -> Self {
137 self.counter = Some(counter);
138 self
139 }
140
141 /// Validates and builds the configuration.
142 ///
143 /// # Errors
144 ///
145 /// [`ConfigError::BucketTooBig`] if requests buckets are too big to represent with [`usize::MAX`].
146 /// Bucket size is defined as [`Self::bucket_size`] * item bits (sum of all fields bits,
147 /// rounded to byte).
148 pub fn build(&self) -> Result<CuckooConfiguration, ConfigError> {
149 let required_bucket_count = self.max_entries.div_ceil(self.bucket_size.get());
150 let bucket_count = required_bucket_count.next_power_of_two();
151 let ttl_start = *self.fingerprint_bits
152 + if let Some(LruConfig { counter_bits, .. }) = self.lru {
153 *counter_bits
154 } else {
155 0
156 };
157 let counter_start = ttl_start
158 + if let Some(TtlConfig { ttl_bits, .. }) = self.ttl {
159 *ttl_bits
160 } else {
161 0
162 };
163
164 // Sum of bits will never reach the size of `usize`, so no need to do checked adds
165 let mut data_block_size = *self.fingerprint_bits;
166 if let Some(LruConfig { counter_bits, .. }) = self.lru {
167 data_block_size += *counter_bits;
168 }
169 if let Some(TtlConfig { ttl_bits, .. }) = self.ttl {
170 data_block_size += *ttl_bits;
171 }
172 if let Some(CounterConfig { counter_bits, .. }) = self.counter {
173 data_block_size += *counter_bits;
174 }
175 data_block_size = data_block_size.div_ceil(8);
176 Ok(CuckooConfiguration {
177 bucket_size: self.bucket_size.get(),
178 max_kicks: self.max_kicks,
179
180 fingerprint_field_config: DataBlockFieldConfiguration::new(0..*self.fingerprint_bits),
181 lru_field_config: self.lru.clone().map(|lru| {
182 (
183 lru,
184 DataBlockFieldConfiguration::new(
185 *self.fingerprint_bits
186 ..*self.fingerprint_bits
187 + self
188 .lru
189 .as_ref()
190 .map(|l| l.counter_bits)
191 .unwrap_or(BitCount(0)),
192 ),
193 )
194 }),
195 ttl_field_config: self.ttl.clone().map(|ttl| {
196 (
197 ttl,
198 DataBlockFieldConfiguration::new(
199 ttl_start
200 ..ttl_start
201 + *self.ttl.as_ref().map(|t| t.ttl_bits).unwrap_or(BitCount(0)),
202 ),
203 )
204 }),
205 counter_field_config: self.counter.clone().map(|counter| {
206 (
207 counter,
208 DataBlockFieldConfiguration::new(
209 counter_start
210 ..counter_start
211 + *self
212 .counter
213 .as_ref()
214 .map(|c| c.counter_bits)
215 .unwrap_or(BitCount(0)),
216 ),
217 )
218 }),
219 data_block_size,
220 bucket_byte_size: self
221 .bucket_size
222 .get()
223 .checked_mul(data_block_size)
224 .ok_or(ConfigError::BucketTooBig)?,
225 bucket_count,
226 #[expect(clippy::cast_possible_truncation)]
227 buckets_mask: (bucket_count - 1) as u32,
228 })
229 }
230}
231
232/// Configuration for the LRU field.
233///
234/// Used to define memory used by the LRU field, also affecting its maximum value.
235///
236/// # Examples
237///
238/// ```
239/// use cuckoo_clock::config::LruConfig;
240///
241/// let ttl_config = LruConfig {
242/// counter_bits: 5.try_into()?
243/// };
244/// # Ok::<(), Box<dyn std::error::Error>>(())
245/// ```
246#[derive(Clone, Debug, PartialEq, Eq)]
247pub struct LruConfig {
248 /// Number of bits used to represent the LRU counter.
249 /// Larger bit counts allow more values to be represented, allowing items to "accumulate"
250 /// higher use counts, which will take longer to age.
251 pub counter_bits: BitCount,
252}
253
254impl Default for LruConfig {
255 fn default() -> Self {
256 Self {
257 counter_bits: BitCount(8),
258 }
259 }
260}
261
262/// Configuration for the TTL field.
263///
264/// Used to define memory used by the TTL field and the default value.
265///
266/// # Examples
267///
268/// ```
269/// use cuckoo_clock::config::TtlConfig;
270///
271/// let ttl_config = TtlConfig {
272/// ttl: 100.try_into()?,
273/// ttl_bits: 7.try_into()?
274/// };
275/// # Ok::<(), Box<dyn std::error::Error>>(())
276/// ```
277#[derive(Clone, Debug, PartialEq, Eq)]
278pub struct TtlConfig {
279 /// The default TTL counter value for newly inserted items. The actual lifetime duration will
280 /// be defined by this value combined with the frequency of calls to
281 /// [`crate::CuckooFilter::scan_and_update_full`]. Each call to
282 /// [`crate::CuckooFilter::scan_and_update_full`] will reduce the counter by 1, until it
283 /// reaches 0, when the item is removed.
284 pub ttl: NonZeroU32,
285 /// Number of bits used to represent the TTL counter.
286 /// Larget bit counts allow higher TTL to be represented.
287 pub ttl_bits: BitCount,
288}
289
290/// Configuration for the generic counter field.
291///
292/// Used to define memory used by the generic counter field, also affecting its maximum value.
293///
294/// # Examples
295///
296/// ```
297/// use cuckoo_clock::config::CounterConfig;
298///
299/// let ttl_config = CounterConfig {
300/// counter_bits: 5.try_into()?,
301/// ..Default::default()
302/// };
303/// # Ok::<(), Box<dyn std::error::Error>>(())
304/// ```
305#[derive(Clone, Debug, PartialEq, Eq)]
306pub struct CounterConfig {
307 /// How many bits are used to represent the generic counter.
308 /// Larget bit counts allow higher counter values to be represented.
309 pub counter_bits: BitCount,
310 /// Diff to apply to counter on each insert.
311 pub change_on_insert: i32,
312 /// Diff to apply to counter on each lookup.
313 pub change_on_lookup: i32,
314}
315
316impl Default for CounterConfig {
317 fn default() -> Self {
318 Self {
319 counter_bits: BitCount(4),
320 change_on_insert: 1,
321 change_on_lookup: 1,
322 }
323 }
324}
325
326/// Configuration for the [`crate::CuckooFilter`].
327///
328/// Used to define main cuckoo filter parameters (capacity, bucket size, fingeprint size,
329/// max kicks), as well as additional features (TTL, LRU, generic counter).
330///
331/// Create a new instance using [`CuckooConfiguration::builder`].
332///
333/// # Examples
334///
335/// ```
336/// use cuckoo_clock::config::CuckooConfiguration;
337///
338/// let config = CuckooConfiguration::builder(100_000)
339/// .fingerprint_bits(14.try_into()?)
340/// .bucket_size(4.try_into()?)
341/// .max_kicks(8)
342/// .build()?;
343/// # Ok::<(), Box<dyn std::error::Error>>(())
344/// ```
345///
346/// ```
347/// use cuckoo_clock::config::{CuckooConfiguration, TtlConfig, LruConfig};
348///
349/// let config = CuckooConfiguration::builder(100_000)
350/// .fingerprint_bits(14.try_into()?)
351/// .with_ttl(TtlConfig {
352/// ttl: 10.try_into()?,
353/// ttl_bits: 4.try_into()?
354/// })
355/// .with_lru(LruConfig {
356/// counter_bits: 6.try_into()?
357/// })
358/// .bucket_size(4.try_into()?)
359/// .max_kicks(8)
360/// .build()?;
361/// # Ok::<(), Box<dyn std::error::Error>>(())
362/// ```
363#[derive(Clone, Debug, PartialEq, Eq)]
364pub struct CuckooConfiguration {
365 pub(crate) bucket_size: usize,
366 pub(crate) max_kicks: usize,
367
368 pub(crate) fingerprint_field_config: DataBlockFieldConfiguration,
369 pub(crate) lru_field_config: Option<(LruConfig, DataBlockFieldConfiguration)>,
370 pub(crate) counter_field_config: Option<(CounterConfig, DataBlockFieldConfiguration)>,
371 pub(crate) ttl_field_config: Option<(TtlConfig, DataBlockFieldConfiguration)>,
372 pub(crate) data_block_size: usize,
373 pub(crate) bucket_byte_size: usize,
374 pub(crate) bucket_count: usize,
375 pub(crate) buckets_mask: u32,
376}
377
378impl CuckooConfiguration {
379 /// Creates a new instance of [`CuckooConfigurationBuilder`] with provided maximum number of
380 /// entries.
381 #[must_use]
382 pub const fn builder(max_entries: usize) -> CuckooConfigurationBuilder {
383 CuckooConfigurationBuilder {
384 fingerprint_bits: BitCount(8),
385 #[expect(clippy::expect_used)]
386 bucket_size: NonZeroUsize::new(4).expect("4 != 0"),
387 max_entries,
388 max_kicks: 500,
389 lru: None,
390 ttl: None,
391 counter: None,
392 }
393 }
394
395 /// Returns the memory usage of filter that would be created from this configuration in bytes.
396 #[must_use]
397 pub const fn get_configured_memory_usage(&self) -> usize {
398 CuckooFilter::<RandomState>::get_expected_memory_usage(
399 self.bucket_byte_size,
400 self.bucket_count,
401 )
402 }
403}
404
405/// Number of bits. Used to define sizes of the fields.
406///
407/// This value is limited by [`BitCount::MIN`] and [`BitCount::MAX`] and can only be created using
408/// the [`TryFrom`] trait, to ensure the bit count is validated.
409///
410/// # Examples
411///
412/// ```
413/// use cuckoo_clock::config::BitCount;
414///
415/// let bit_count: BitCount = 8.try_into().unwrap();
416/// let bit_count_max: BitCount = 32.try_into().unwrap();
417/// let bit_count_min: BitCount = 1.try_into().unwrap();
418/// ```
419///
420/// ```should_panic
421/// use cuckoo_clock::config::BitCount;
422///
423/// let bit_count: BitCount = 0.try_into().unwrap();
424/// ```
425///
426/// ```should_panic
427/// use cuckoo_clock::config::BitCount;
428///
429/// let bit_count: BitCount = 40.try_into().unwrap();
430/// ```
431#[derive(Debug, Clone, Copy, PartialEq, Eq)]
432pub struct BitCount(usize);
433
434impl BitCount {
435 /// Maximum allowed value for [`BitCount`]
436 pub const MAX: BitCount = BitCount(32);
437 /// Minimum allowed value for [`BitCount`]
438 pub const MIN: BitCount = BitCount(1);
439}
440
441impl Deref for BitCount {
442 type Target = usize;
443
444 fn deref(&self) -> &Self::Target {
445 &self.0
446 }
447}
448
449impl DerefMut for BitCount {
450 fn deref_mut(&mut self) -> &mut Self::Target {
451 &mut self.0
452 }
453}
454
455impl TryFrom<usize> for BitCount {
456 type Error = ConfigError;
457
458 fn try_from(value: usize) -> Result<Self, Self::Error> {
459 if value > Self::MAX.0 {
460 return Err(ConfigError::BitCountTooHigh);
461 }
462 if value < Self::MIN.0 {
463 return Err(ConfigError::BitCountTooLow);
464 }
465 Ok(Self(value))
466 }
467}
468
469impl From<BitCount> for usize {
470 fn from(value: BitCount) -> Self {
471 value.0
472 }
473}
474
475// Since bit count can't be higher than 32
476// Conversion into any integer is fine
477impl From<BitCount> for u64 {
478 fn from(value: BitCount) -> Self {
479 value.0 as u64
480 }
481}
482
483impl From<BitCount> for u32 {
484 #[expect(clippy::cast_possible_truncation)]
485 fn from(value: BitCount) -> Self {
486 value.0 as u32
487 }
488}
489
490impl From<BitCount> for u16 {
491 #[expect(clippy::cast_possible_truncation)]
492 fn from(value: BitCount) -> Self {
493 value.0 as u16
494 }
495}
496
497impl From<BitCount> for u8 {
498 #[expect(clippy::cast_possible_truncation)]
499 fn from(value: BitCount) -> Self {
500 value.0 as u8
501 }
502}
503
504impl Add<usize> for BitCount {
505 type Output = usize;
506
507 fn add(self, rhs: usize) -> Self::Output {
508 self.0 + rhs
509 }
510}
511
512impl Add<BitCount> for usize {
513 type Output = usize;
514
515 fn add(self, rhs: BitCount) -> Self::Output {
516 self + rhs.0
517 }
518}