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libkernaux/tests/test_memmap.c

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#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#define KERNAUX_ACCESS_PRIVATE
#include <kernaux/assert.h>
#include <kernaux/macro.h>
#include <kernaux/memmap.h>
#include <assert.h>
#include <stdbool.h>
#include <stddef.h>
#include <string.h>
static KernAux_MemMap memmap;
static unsigned int assert_count_exp = 0;
static unsigned int assert_count_ctr = 0;
static const char *assert_last_file = NULL;
static void assert_cb(
const char *const file,
const int line KERNAUX_UNUSED,
const char *const msg KERNAUX_UNUSED
) {
++assert_count_ctr;
assert_last_file = file;
}
static void before_assert()
{
assert(assert_count_ctr == assert_count_exp);
}
static void expect_assert()
{
#ifdef ENABLE_DEBUG
assert(assert_count_ctr == ++assert_count_exp);
assert(strstr(assert_last_file, "src/memmap.c") != NULL);
assert_last_file = NULL;
#else
assert(assert_count_ctr == 0);
assert(assert_last_file == NULL);
#endif
}
#define MEMSET memset(memmap, 0xff, sizeof(memmap))
#define MEMMAP (*memmap)
void test_main()
{
kernaux_assert_cb = assert_cb;
{
MEMSET;
KernAux_MemMap_init(memmap, 0);
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 0);
assert(MEMMAP.entries_count == 0);
assert(KernAux_MemMap_finish(memmap));
assert(MEMMAP.is_finished);
assert(MEMMAP.memory_size == 0);
assert(MEMMAP.entries_count == 0);
assert(KernAux_MemMap_entry_by_index(memmap, 0) == NULL);
before_assert();
assert(!KernAux_MemMap_finish(memmap));
expect_assert();
}
{
MEMSET;
KernAux_MemMap_init(memmap, 0);
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 0);
assert(MEMMAP.entries_count == 0);
assert(!KernAux_MemMap_add_entry(memmap, false, NULL, 0, 0));
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 0);
assert(MEMMAP.entries_count == 0);
assert(KernAux_MemMap_finish(memmap));
assert(MEMMAP.is_finished);
assert(MEMMAP.memory_size == 0);
assert(MEMMAP.entries_count == 0);
assert(KernAux_MemMap_entry_by_index(memmap, 0) == NULL);
}
{
MEMSET;
KernAux_MemMap_init(memmap, 1);
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 1);
assert(MEMMAP.entries_count == 0);
assert(KernAux_MemMap_add_entry(memmap, false, NULL, 0, 1));
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 1);
assert(MEMMAP.entries_count == 1);
assert(KernAux_MemMap_finish(memmap));
assert(MEMMAP.is_finished);
assert(MEMMAP.memory_size == 1);
assert(MEMMAP.entries_count == 1);
assert(MEMMAP.entries[0].is_available == false);
assert(MEMMAP.entries[0].tag[0] == '\0');
assert(MEMMAP.entries[0].start == 0);
assert(MEMMAP.entries[0].size == 1);
assert(MEMMAP.entries[0].end == 0);
assert(MEMMAP.entries[0].limit == 1);
assert(KernAux_MemMap_entry_by_index(memmap, 0) == &MEMMAP.entries[0]);
}
{
MEMSET;
KernAux_MemMap_init(memmap, 2);
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 2);
assert(MEMMAP.entries_count == 0);
assert(KernAux_MemMap_add_entry(memmap, false, NULL, 0, 2));
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 2);
assert(MEMMAP.entries_count == 1);
assert(KernAux_MemMap_finish(memmap));
assert(MEMMAP.is_finished);
assert(MEMMAP.memory_size == 2);
assert(MEMMAP.entries_count == 1);
assert(MEMMAP.entries[0].is_available == false);
assert(MEMMAP.entries[0].tag[0] == '\0');
assert(MEMMAP.entries[0].start == 0);
assert(MEMMAP.entries[0].size == 2);
assert(MEMMAP.entries[0].end == 1);
assert(MEMMAP.entries[0].limit == 2);
assert(KernAux_MemMap_entry_by_index(memmap, 0) == &MEMMAP.entries[0]);
}
{
MEMSET;
KernAux_MemMap_init(memmap, 1);
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 1);
assert(MEMMAP.entries_count == 0);
assert(KernAux_MemMap_add_entry(memmap, false, NULL, 0, 2));
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 1);
assert(MEMMAP.entries_count == 1);
assert(!KernAux_MemMap_finish(memmap));
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 1);
assert(MEMMAP.entries_count == 1);
assert(MEMMAP.entries[0].is_available == false);
assert(MEMMAP.entries[0].tag[0] == '\0');
assert(MEMMAP.entries[0].start == 0);
assert(MEMMAP.entries[0].size == 2);
assert(MEMMAP.entries[0].end == 1);
assert(MEMMAP.entries[0].limit == 2);
before_assert();
assert(KernAux_MemMap_entry_by_index(memmap, 0) == NULL);
expect_assert();
}
{
MEMSET;
KernAux_MemMap_init(memmap, 2);
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 2);
assert(MEMMAP.entries_count == 0);
assert(KernAux_MemMap_add_entry(memmap, false, NULL, 0, 1));
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 2);
assert(MEMMAP.entries_count == 1);
assert(KernAux_MemMap_add_entry(memmap, false, NULL, 1, 1));
assert(MEMMAP.is_finished == false);
assert(MEMMAP.memory_size == 2);
assert(MEMMAP.entries_count == 2);
assert(KernAux_MemMap_finish(memmap));
assert(MEMMAP.is_finished);
assert(MEMMAP.memory_size == 2);
assert(MEMMAP.entries_count == 2);
assert(MEMMAP.entries[0].is_available == false);
assert(MEMMAP.entries[0].tag[0] == '\0');
assert(MEMMAP.entries[0].start == 0);
assert(MEMMAP.entries[0].size == 1);
assert(MEMMAP.entries[0].end == 0);
assert(MEMMAP.entries[0].limit == 1);
assert(MEMMAP.entries[1].is_available == false);
assert(MEMMAP.entries[1].tag[0] == '\0');
assert(MEMMAP.entries[1].start == 1);
assert(MEMMAP.entries[1].size == 1);
assert(MEMMAP.entries[1].end == 1);
assert(MEMMAP.entries[1].limit == 2);
assert(KernAux_MemMap_entry_by_index(memmap, 0) == &MEMMAP.entries[0]);
assert(KernAux_MemMap_entry_by_index(memmap, 1) == &MEMMAP.entries[1]);
}
assert(assert_count_ctr == assert_count_exp);
}
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