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375 lines
11 KiB
C
375 lines
11 KiB
C
#include <assert.h>
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#include <data-pool.h>
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#include <inttypes.h>
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#include "libtap/tap.h"
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#include <math.h>
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#include "maxminddb_test_helper.h"
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static void test_data_pool_new(void);
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static void test_data_pool_destroy(void);
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static void test_data_pool_alloc(void);
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static void test_data_pool_to_list(void);
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static bool create_and_check_list(size_t const,
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size_t const);
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static void check_block_count(MMDB_entry_data_list_s const *const,
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size_t const);
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int main(void)
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{
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plan(NO_PLAN);
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test_data_pool_new();
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test_data_pool_destroy();
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test_data_pool_alloc();
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test_data_pool_to_list();
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done_testing();
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}
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static void test_data_pool_new(void)
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{
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{
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MMDB_data_pool_s *const pool = data_pool_new(0);
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ok(!pool, "size 0 is not valid");
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}
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{
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MMDB_data_pool_s *const pool = data_pool_new(SIZE_MAX - 10);
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ok(!pool, "very large size is not valid");
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}
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{
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MMDB_data_pool_s *const pool = data_pool_new(512);
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ok(pool != NULL, "size 512 is valid");
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cmp_ok(pool->size, "==", 512, "size is 512");
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cmp_ok(pool->used, "==", 0, "used size is 0");
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data_pool_destroy(pool);
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}
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}
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static void test_data_pool_destroy(void)
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{
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{
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data_pool_destroy(NULL);
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}
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{
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MMDB_data_pool_s *const pool = data_pool_new(512);
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ok(pool != NULL, "created pool");
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data_pool_destroy(pool);
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}
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}
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static void test_data_pool_alloc(void)
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{
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{
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MMDB_data_pool_s *const pool = data_pool_new(1);
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ok(pool != NULL, "created pool");
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cmp_ok(pool->used, "==", 0, "used size starts at 0");
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MMDB_entry_data_list_s *const entry1 = data_pool_alloc(pool);
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ok(entry1 != NULL, "allocated first entry");
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// Arbitrary so that we can recognize it.
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entry1->entry_data.offset = (uint32_t)123;
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cmp_ok(pool->size, "==", 1, "size is still 1");
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cmp_ok(pool->used, "==", 1, "used size is 1 after taking one");
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MMDB_entry_data_list_s *const entry2 = data_pool_alloc(pool);
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ok(entry2 != NULL, "got another entry");
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ok(entry1 != entry2, "second entry is different from first entry");
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cmp_ok(pool->size, "==", 2, "size is 2 (new block)");
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cmp_ok(pool->used, "==", 1, "used size is 1 in current block");
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ok(entry1->entry_data.offset == 123,
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"accessing the original entry's memory is ok");
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data_pool_destroy(pool);
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}
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{
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size_t const initial_size = 10;
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MMDB_data_pool_s *const pool = data_pool_new(initial_size);
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ok(pool != NULL, "created pool");
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MMDB_entry_data_list_s *entry1 = NULL;
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for (size_t i = 0; i < initial_size; i++) {
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MMDB_entry_data_list_s *const entry = data_pool_alloc(pool);
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ok(entry != NULL, "got an entry");
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// Give each a unique number so we can check it.
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entry->entry_data.offset = (uint32_t)i;
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if (i == 0) {
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entry1 = entry;
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}
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}
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cmp_ok(pool->size, "==", initial_size, "size is the initial size");
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cmp_ok(pool->used, "==", initial_size, "used size is as expected");
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MMDB_entry_data_list_s *const entry = data_pool_alloc(pool);
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ok(entry != NULL, "got an entry");
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entry->entry_data.offset = (uint32_t)initial_size;
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cmp_ok(pool->size, "==", initial_size * 2,
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"size is the initial size*2");
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cmp_ok(pool->used, "==", 1, "used size is as expected");
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MMDB_entry_data_list_s *const list = data_pool_to_list(pool);
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MMDB_entry_data_list_s *element = list;
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for (size_t i = 0; i < initial_size + 1; i++) {
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ok(
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element->entry_data.offset == (uint32_t)i,
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"found offset %" PRIu32 ", should have %zu",
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element->entry_data.offset,
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i
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);
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element = element->next;
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}
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ok(entry1->entry_data.offset == (uint32_t)0,
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"accessing entry1's original memory is ok after growing the pool");
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data_pool_destroy(pool);
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}
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}
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static void test_data_pool_to_list(void)
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{
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{
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size_t const initial_size = 16;
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MMDB_data_pool_s *const pool = data_pool_new(initial_size);
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ok(pool != NULL, "created pool");
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MMDB_entry_data_list_s *const entry1 = data_pool_alloc(pool);
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ok(entry1 != NULL, "got an entry");
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MMDB_entry_data_list_s *const list_one_element
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= data_pool_to_list(pool);
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ok(list_one_element != NULL, "got a list");
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ok(list_one_element == entry1,
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"list's first element is the first we retrieved");
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ok(list_one_element->next == NULL, "list is one element in size");
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MMDB_entry_data_list_s *const entry2 = data_pool_alloc(pool);
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ok(entry2 != NULL, "got another entry");
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MMDB_entry_data_list_s *const list_two_elements
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= data_pool_to_list(pool);
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ok(list_two_elements != NULL, "got a list");
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ok(list_two_elements == entry1,
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"list's first element is the first we retrieved");
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ok(list_two_elements->next != NULL, "list has a second element");
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MMDB_entry_data_list_s *const second_element = list_two_elements->next;
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ok(second_element == entry2,
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"second item in list is second we retrieved");
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ok(second_element->next == NULL, "list ends with the second element");
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data_pool_destroy(pool);
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}
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{
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size_t const initial_size = 1;
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MMDB_data_pool_s *const pool = data_pool_new(initial_size);
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ok(pool != NULL, "created pool");
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MMDB_entry_data_list_s *const entry1 = data_pool_alloc(pool);
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ok(entry1 != NULL, "got an entry");
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MMDB_entry_data_list_s *const list_one_element
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= data_pool_to_list(pool);
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ok(list_one_element != NULL, "got a list");
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ok(list_one_element == entry1,
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"list's first element is the first we retrieved");
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ok(list_one_element->next == NULL, "list ends with this element");
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data_pool_destroy(pool);
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}
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{
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size_t const initial_size = 2;
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MMDB_data_pool_s *const pool = data_pool_new(initial_size);
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ok(pool != NULL, "created pool");
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MMDB_entry_data_list_s *const entry1 = data_pool_alloc(pool);
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ok(entry1 != NULL, "got an entry");
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MMDB_entry_data_list_s *const entry2 = data_pool_alloc(pool);
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ok(entry2 != NULL, "got an entry");
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ok(entry1 != entry2, "second entry is different from the first");
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MMDB_entry_data_list_s *const list_element1 = data_pool_to_list(pool);
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ok(list_element1 != NULL, "got a list");
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ok(list_element1 == entry1,
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"list's first element is the first we retrieved");
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MMDB_entry_data_list_s *const list_element2 = list_element1->next;
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ok(list_element2 == entry2,
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"second element is the second we retrieved");
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ok(list_element2->next == NULL, "list ends with this element");
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data_pool_destroy(pool);
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}
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{
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diag("starting test: fill one block save for one spot");
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ok(
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create_and_check_list(3, 2),
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"fill one block save for one spot"
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);
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}
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{
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diag("starting test: fill one block");
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ok(
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create_and_check_list(3, 3),
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"fill one block"
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);
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}
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{
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diag("starting test: fill one block and use one spot in the next block");
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ok(
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create_and_check_list(3, 3 + 1),
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"fill one block and use one spot in the next block"
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);
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}
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{
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diag("starting test: fill two blocks save for one spot");
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ok(
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create_and_check_list(3, 3 + 3 * 2 - 1),
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"fill two blocks save for one spot"
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);
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}
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{
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diag("starting test: fill two blocks");
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ok(
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create_and_check_list(3, 3 + 3 * 2),
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"fill two blocks"
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);
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}
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{
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diag("starting test: fill two blocks and use one spot in the next");
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ok(
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create_and_check_list(3, 3 + 3 * 2 + 1),
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"fill two blocks and use one spot in the next"
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);
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}
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{
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diag("starting test: fill three blocks save for one spot");
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ok(
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create_and_check_list(3, 3 + 3 * 2 + 3 * 2 * 2 - 1),
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"fill three blocks save for one spot"
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);
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}
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{
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diag("starting test: fill three blocks");
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ok(
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create_and_check_list(3, 3 + 3 * 2 + 3 * 2 * 2),
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"fill three blocks"
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);
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}
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// It would be nice to have a larger number of these, but it's expensive to
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// run many. We currently hardcode what this will be anyway, so varying
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// this is not very interesting.
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size_t const initial_sizes[] = { 1, 2, 32, 64, 128, 256 };
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size_t const max_element_count = 4096;
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for (size_t i = 0; i < sizeof(initial_sizes) / sizeof(initial_sizes[0]);
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i++) {
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size_t const initial_size = initial_sizes[i];
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for (size_t element_count = 0; element_count < max_element_count;
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element_count++) {
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assert(create_and_check_list(initial_size, element_count));
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}
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}
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}
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// Use assert() rather than libtap as libtap is significantly slower and we run
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// this frequently.
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static bool create_and_check_list(size_t const initial_size,
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size_t const element_count)
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{
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MMDB_data_pool_s *const pool = data_pool_new(initial_size);
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assert(pool != NULL);
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assert(pool->used == 0);
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// Hold on to the pointers as we initially see them so that we can check
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// they are still valid after building the list.
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MMDB_entry_data_list_s **const entry_array
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= calloc(element_count, sizeof(MMDB_entry_data_list_s *));
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assert(entry_array != NULL);
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for (size_t i = 0; i < element_count; i++) {
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MMDB_entry_data_list_s *const entry = data_pool_alloc(pool);
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assert(entry != NULL);
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entry->entry_data.offset = (uint32_t)i;
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entry_array[i] = entry;
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}
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MMDB_entry_data_list_s *const list = data_pool_to_list(pool);
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if (element_count == 0) {
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assert(list == NULL);
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data_pool_destroy(pool);
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free(entry_array);
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return true;
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}
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assert(list != NULL);
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MMDB_entry_data_list_s *element = list;
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for (size_t i = 0; i < element_count; i++) {
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assert(element->entry_data.offset == (uint32_t)i);
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assert(element == entry_array[i]);
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element = element->next;
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}
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assert(element == NULL);
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check_block_count(list, initial_size);
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data_pool_destroy(pool);
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free(entry_array);
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return true;
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}
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// Use assert() rather than libtap as libtap is significantly slower and we run
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// this frequently.
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static void check_block_count(MMDB_entry_data_list_s const *const list,
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size_t const initial_size)
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{
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size_t got_block_count = 0;
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size_t got_element_count = 0;
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MMDB_entry_data_list_s const *element = list;
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while (element) {
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got_element_count++;
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if (element->pool) {
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got_block_count++;
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}
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element = element->next;
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}
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// Because <number of elements> = <initial size> * 2^(number of blocks)
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double const a = ceil((double)got_element_count / (double)initial_size);
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double const b = log2(a);
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size_t const expected_block_count = ((size_t)b) + 1;
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assert(got_block_count == expected_block_count);
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}
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