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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2023-02-12 08:40:57 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2023-02-12 08:40:57 +0000 |
commit | e2fdf6c58545799d7522fabf7a2999f113bf3541 (patch) | |
tree | 4eb7533bf42fa54fcc6a1b2396f1abdfe4102484 /src/ext/hg64.c | |
parent | Adding upstream version 2.10.0. (diff) | |
download | dnsperf-e2fdf6c58545799d7522fabf7a2999f113bf3541.tar.xz dnsperf-e2fdf6c58545799d7522fabf7a2999f113bf3541.zip |
Adding upstream version 2.11.0.upstream/2.11.0
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/ext/hg64.c')
-rw-r--r-- | src/ext/hg64.c | 327 |
1 files changed, 327 insertions, 0 deletions
diff --git a/src/ext/hg64.c b/src/ext/hg64.c new file mode 100644 index 0000000..9cd4b4f --- /dev/null +++ b/src/ext/hg64.c @@ -0,0 +1,327 @@ +/* + * hg64 - 64-bit histograms + * + * Written by Tony Finch <dot@dotat.at> <fanf@isc.org> + * + * Copyright (C) Internet Systems Consortium, Inc. ("ISC") + * + * SPDX-License-Identifier: MPL-2.0 + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, you can obtain one at https://mozilla.org/MPL/2.0/. + */ + +#include <assert.h> +#include <errno.h> +#include <stdatomic.h> +#include <stdbool.h> +#include <stdint.h> +#include <stdio.h> +#include <stdlib.h> +#include <string.h> + +#include "hg64.h" + +/* number of bins is same as number of bits in a value */ +#define BINS 64 + +typedef atomic_uint_fast64_t counter; +typedef _Atomic(counter*) bin_ptr; + +struct hg64 { + unsigned sigbits; + bin_ptr bin[BINS]; +}; + +static inline counter* +get_bin(hg64* hg, unsigned b) +{ + /* key_to_new_counter() below has the matching store / release */ + return (atomic_load_explicit(&hg->bin[b], memory_order_acquire)); +} + +/* + * when we only care about the histogram precision + */ +struct hg64p { + unsigned sigbits; +}; + +#ifdef __has_attribute +#if __has_attribute(__transparent_union__) +#define TRANSPARENT __attribute__((__transparent_union__)) +#endif +#endif + +#ifdef TRANSPARENT + +typedef union hg64u { + hg64* hg; + const struct hg64p* hp; +} hg64u TRANSPARENT; + +#define hg64p(hu) ((hu).hp) +#else + +typedef void* hg64u; + +#define hg64p(hu) ((const struct hg64p*)(hu)) +#endif + +/* + * The bins arrays have a static size for simplicity, but that means We + * waste a little extra space that could be saved by omitting the + * exponents that land in the denormal number bin. The following macros + * calculate (at run time) the exact number of keys when we need to do + * accurate bounds checks. + */ +#define DENORMALS(hp) ((hp)->sigbits - 1) +#define EXPONENTS(hp) (BINS - DENORMALS(hp)) +#define MANTISSAS(hp) (1 << (hp)->sigbits) +#define KEYS(hp) (EXPONENTS(hp) * MANTISSAS(hp)) + +#define BINSIZE(hp) MANTISSAS(hp) + +/**********************************************************************/ + +#define OUTARG(ptr, val) (void)(((ptr) != NULL) && (bool)(*(ptr) = (val))) + +/**********************************************************************/ + +hg64* hg64_create(unsigned sigbits) +{ + if (sigbits < 1 || 15 < sigbits) { + return (NULL); + } + hg64* hg = malloc(sizeof(*hg)); + hg->sigbits = sigbits; + /* + * it is probably portable to zero-initialize atomics but the + * C standard says we shouldn't rely on it; but this loop + * should optimize to memset() on most target systems + */ + for (unsigned b = 0; b < BINS; b++) { + atomic_init(&hg->bin[b], NULL); + } + return (hg); +} + +void hg64_destroy(hg64* hg) +{ + for (unsigned b = 0; b < BINS; b++) { + free(get_bin(hg, b)); + } + *hg = (hg64) { 0 }; + free(hg); +} + +/**********************************************************************/ + +static inline uint64_t +key_to_minval(hg64u hu, unsigned key) +{ + unsigned binsize = BINSIZE(hg64p(hu)); + unsigned exponent = (key / binsize) - 1; + uint64_t mantissa = (key % binsize) + binsize; + return (key < binsize ? key : mantissa << exponent); +} + +/* + * don't shift by 64, and don't underflow exponent; instead, + * reduce shift by 1 for each hazard and pre-shift UINT64_MAX + */ +static inline uint64_t +key_to_maxval(hg64u hu, unsigned key) +{ + unsigned binsize = BINSIZE(hg64p(hu)); + unsigned shift = 63 - (key / binsize); + uint64_t range = UINT64_MAX / 4 >> shift; + return (key_to_minval(hu, key) + range); +} + +/* + * This branchless conversion is due to Paul Khuong: see bin_down_of() in + * https://pvk.ca/Blog/2015/06/27/linear-log-bucketing-fast-versatile-simple/ + */ +static inline unsigned +value_to_key(hg64u hu, uint64_t value) +{ + /* fast path */ + const struct hg64p* hp = hg64p(hu); + /* ensure that denormal numbers are all in the same bin */ + uint64_t binned = value | BINSIZE(hp); + int clz = __builtin_clzll((unsigned long long)(binned)); + /* actually 1 less than the exponent except for denormals */ + unsigned exponent = 63 - hp->sigbits - clz; + /* mantissa has leading bit set except for denormals */ + unsigned mantissa = value >> exponent; + /* leading bit of mantissa adds one to exponent */ + return ((exponent << hp->sigbits) + mantissa); +} + +static counter* +key_to_new_counter(hg64* hg, unsigned key) +{ + /* slow path */ + unsigned binsize = BINSIZE(hg); + unsigned b = key / binsize; + unsigned c = key % binsize; + counter* old_bp = NULL; + counter* new_bp = malloc(sizeof(counter) * binsize); + /* see comment in hg64_create() above */ + for (unsigned i = 0; i < binsize; i++) { + atomic_init(new_bp + i, 0); + } + bin_ptr* bpp = &hg->bin[b]; + if (atomic_compare_exchange_strong_explicit(bpp, &old_bp, new_bp, + memory_order_acq_rel, memory_order_acquire)) { + return (new_bp + c); + } else { + /* lost the race, so use the winner's counters */ + free(new_bp); + return (old_bp + c); + } +} + +static inline counter* +key_to_counter(hg64* hg, unsigned key) +{ + /* fast path */ + unsigned binsize = BINSIZE(hg); + unsigned b = key / binsize; + unsigned c = key % binsize; + counter* bp = get_bin(hg, b); + return (bp == NULL ? NULL : bp + c); +} + +static inline uint64_t +get_key_count(hg64* hg, unsigned key) +{ + counter* ctr = key_to_counter(hg, key); + return (ctr == NULL ? 0 : atomic_load_explicit(ctr, memory_order_relaxed)); +} + +static inline void +add_key_count(hg64* hg, unsigned key, uint64_t inc) +{ + if (inc == 0) + return; + counter* ctr = key_to_counter(hg, key); + ctr = ctr ? ctr : key_to_new_counter(hg, key); + atomic_fetch_add_explicit(ctr, inc, memory_order_relaxed); +} + +/**********************************************************************/ + +void hg64_inc(hg64* hg, uint64_t value) +{ + add_key_count(hg, value_to_key(hg, value), 1); +} + +bool hg64_get(hg64* hg, unsigned key, + uint64_t* pmin, uint64_t* pmax, uint64_t* pcount) +{ + if (key < KEYS(hg)) { + OUTARG(pmin, key_to_minval(hg, key)); + OUTARG(pmax, key_to_maxval(hg, key)); + OUTARG(pcount, get_key_count(hg, key)); + return (true); + } else { + return (false); + } +} + +unsigned +hg64_next(hg64* hg, unsigned key) +{ + key++; + while (key < KEYS(hg) && (key & (BINSIZE(hg) - 1)) == 0 && key_to_counter(hg, key) == NULL) { + key += BINSIZE(hg); + } + return (key); +} + +/* + * https://fanf2.user.srcf.net/hermes/doc/antiforgery/stats.pdf + */ +void hg64_mean_variance(hg64* hg, double* pmean, double* pvar) +{ + double pop = 0.0; + double mean = 0.0; + double sigma = 0.0; + uint64_t min, max, count; + for (unsigned key = 0; + hg64_get(hg, key, &min, &max, &count); + key = hg64_next(hg, key)) { + double delta = (double)min / 2.0 + (double)max / 2.0 - mean; + if (count != 0) { /* avoid division by zero */ + pop += count; + mean += count * delta / pop; + sigma += count * delta * (min + max - mean); + } + } + OUTARG(pmean, mean); + OUTARG(pvar, sigma / pop); +} + +/**********************************************************************/ + +void hg64_merge(hg64* target, hg64* source) +{ + uint64_t count; + for (unsigned skey = 0; + hg64_get(source, skey, NULL, NULL, &count); + skey = hg64_next(source, skey)) { + uint64_t svmin = key_to_minval(source, skey); + uint64_t svmax = key_to_maxval(source, skey); + unsigned tkmin = value_to_key(target, svmin); + unsigned tkmax = value_to_key(target, svmax); + unsigned keys = tkmax - tkmin + 1; + /* is there a more cunning way to spread out the remainder? */ + uint64_t div = count / keys; + uint64_t rem = count % keys; + for (unsigned tkey = tkmin; tkey <= tkmax; tkey++) { + uint64_t inc = div + (uint64_t)(tkey < rem); + add_key_count(target, tkey, inc); + } + } +} + +void hg64_diff(hg64* a, hg64* b, hg64* diff) +{ + assert((a->sigbits == b->sigbits) && (b->sigbits == diff->sigbits)); + uint64_t count_a = 0; + uint64_t count_b = 0; + for (unsigned key = 0; + hg64_get(a, key, NULL, NULL, &count_a); + key++) { + hg64_get(b, key, NULL, NULL, &count_b); + add_key_count(diff, key, count_a - count_b); + } +} + +unsigned hg64_min_key(hg64* hg) +{ + uint64_t pcount; + for (unsigned key = 0; + hg64_get(hg, key, NULL, NULL, &pcount); + key = hg64_next(hg, key)) { + if (pcount > 0) + return key; + } + return 0; +} + +unsigned hg64_max_key(hg64* hg) +{ + unsigned last_key = 0; + uint64_t pcount; + for (unsigned key = 0; + hg64_get(hg, key, NULL, NULL, &pcount); + key = hg64_next(hg, key)) { + if (pcount > 0) + last_key = key; + } + return last_key; +} |