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https://github.com/CovidBraceletPrj/CovidBracelet.git
synced 2024-12-05 00:55:43 +01:00
Fix wrong binary operation in bloom filter and improve infected interval spreading
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3a2dc985f4
commit
90b756eb3d
@ -10,6 +10,7 @@ bloom_filter_t* bloom_init(size_t size) {
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bloom->size = size;
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bloom->data = k_calloc(size, sizeof(uint8_t));
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if (!bloom->data) {
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bloom->size = 0;
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k_free(bloom);
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return NULL;
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}
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@ -26,7 +27,7 @@ void bloom_destroy(bloom_filter_t* bloom) {
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void bloom_add_record(bloom_filter_t* bloom, ENIntervalIdentifier* rpi) {
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uint8_t* data = bloom->data;
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for (int i = 0; i < sizeof(*rpi); i += 2) {
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uint32_t hash = rpi->b[i] << 8 & rpi->b[i + 1];
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uint32_t hash = (rpi->b[i] << 8) | rpi->b[i + 1];
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hash %= bloom->size * 8;
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data[hash / 8] |= 1 << (hash % 8);
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}
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@ -35,7 +36,7 @@ void bloom_add_record(bloom_filter_t* bloom, ENIntervalIdentifier* rpi) {
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bool bloom_probably_has_record(bloom_filter_t* bloom, ENIntervalIdentifier* rpi) {
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uint8_t* data = bloom->data;
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for (int i = 0; i < sizeof(*rpi); i += 2) {
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uint32_t hash = rpi->b[i] << 8 & rpi->b[i + 1];
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uint32_t hash = (rpi->b[i] << 8) | rpi->b[i + 1];
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hash %= bloom->size * 8;
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if (!(data[hash / 8] & (1 << (hash % 8)))) {
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return false;
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@ -145,7 +145,7 @@ void fill_bloom_with_stored_records(bloom_filter_t* bloom) {
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// fill bloom filter with records
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while (!iterator.finished) {
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bloom_add_record(bloom, &iterator.current);
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bloom_add_record(bloom, &iterator.current.rolling_proximity_identifier);
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ens_records_iterator_next(&iterator);
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}
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}
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@ -180,15 +180,21 @@ int64_t test_bloom_performance(infected_for_period_key_ctx_t* ctx, int count) {
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}
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}
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// Copy infected records to start of array
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int amount = 0;
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for (int i = 0; i < count; i++) {
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amount += ctx[i].infected;
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if (ctx[i].infected) {
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memcpy(&ctx[amount], &ctx[i], sizeof(ctx[i]));
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amount++;
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}
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}
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printk("amount of infected records: %d\n", amount);
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int ret = get_number_of_infected_for_multiple_intervals_optimized(ctx, count);
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cleanup:
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k_free(bloom);
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int ret = get_number_of_infected_for_multiple_intervals_dumb(ctx, amount);
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// int ret = get_number_of_infected_for_multiple_intervals_simple(ctx, amount);
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// int ret = get_number_of_infected_for_multiple_intervals_optimized(ctx, amount);
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bloom_destroy(bloom);
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return ret;
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}
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@ -202,19 +208,17 @@ int64_t test_bloom_reverse_performance(infected_for_period_key_ctx_t* ctx, int c
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return -1;
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}
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// Measure bloom creation time
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timing_t start_time, end_time;
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uint64_t total_cycles;
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uint64_t total_ns;
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start_time = timing_counter_get();
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for (int i = 0; i < count; i++) {
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bloom_add_record(bloom, &ctx[i].interval_identifier);
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}
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end_time = timing_counter_get();
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total_cycles = timing_cycles_get(&start_time, &end_time);
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total_ns = timing_cycles_to_ns(total_cycles);
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printk("\nbloom init took %lld ms\n\n", total_ns / 1000000);
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int64_t amount = 0;
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@ -244,7 +248,7 @@ int64_t test_bloom_reverse_performance(infected_for_period_key_ctx_t* ctx, int c
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}
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cleanup:
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k_free(bloom);
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bloom_destroy(bloom);
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return amount;
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}
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@ -261,21 +265,14 @@ static ENPeriodIdentifierKey infectedPik;
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static ENPeriodIdentifierKey dummyPik;
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void fill_test_rki_data(infected_for_period_key_ctx_t* infectedIntervals, int count) {
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int infectedCount = 50;
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int spread = count / infectedCount;
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for (int i = 0; i < infectedCount; i++) {
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int intervalNumber = (i + 2) * 2;
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float range = 1.5;
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for (int j = 0; j < spread; j++) {
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int offset = (EN_INTERVAL_LENGTH / spread) * j;
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infectedIntervals[i * spread + j].infected = 0;
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infectedIntervals[i * spread + j].search_start =
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(intervalNumber - range) * EN_INTERVAL_LENGTH + offset; // start one and a half intervals before
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infectedIntervals[i * spread + j].search_end =
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(intervalNumber + range) * EN_INTERVAL_LENGTH + offset; // end one and a half intervals after
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en_derive_interval_identifier(&infectedIntervals[i * spread + j].interval_identifier, &infectedPik,
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intervalNumber);
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}
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int totalTime = EN_TEK_ROLLING_PERIOD * EN_INTERVAL_LENGTH;
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int stepSize = totalTime / count;
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for (int i = 0; i < count; i++) {
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int intervalNumber = (i * stepSize) / EN_INTERVAL_LENGTH;
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en_derive_interval_identifier(&infectedIntervals[i].interval_identifier, &infectedPik, intervalNumber);
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infectedIntervals[i].infected = 0;
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infectedIntervals[i].search_start = i < 3 ? 0 : (i - 2) * stepSize;
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infectedIntervals[i].search_end = (i + 2) * stepSize;
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}
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}
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@ -308,12 +305,15 @@ void measure_perf(test_func_t func, const char* label, infected_for_period_key_c
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printk("\n'%s' took %lld ms\n---------------------------\n", label, total_ns / 1000000);
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}
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////////////////////
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// SETUP DATA //
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////////////////////
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void setup_test_data() {
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en_derive_period_identifier_key(&infectedPik, &infectedPeriodKey);
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en_derive_period_identifier_key(&dummyPik, &dummyPeriodKey);
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// every 100th interval has an infected record
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#define INTERVAL_SPREAD 100
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#define INTERVAL_SPREAD 10
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for (int i = 0; i < EN_TEK_ROLLING_PERIOD; i++) {
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// create infected record
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@ -339,10 +339,13 @@ void setup_test_data() {
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printk("period %d\n", i);
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}
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#define INFECTED_INTERVALS_COUNT 500
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#define INFECTED_INTERVALS_COUNT 100
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// setup our ordered array with infected RPIs
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static infected_for_period_key_ctx_t infectedIntervals[INFECTED_INTERVALS_COUNT];
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printk("Starting measurements with %d RPIs to seach and an infection rate of every %d. interval\n",
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INFECTED_INTERVALS_COUNT, INTERVAL_SPREAD);
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// measure_perf(get_number_of_infected_for_multiple_intervals_dumb, "dumb", infectedIntervals,
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// INFECTED_INTERVALS_COUNT);
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// measure_perf(get_number_of_infected_for_multiple_intervals_simple, "simple", infectedIntervals,
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