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harness.c
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harness.c
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/* Test support code */
#include <setjmp.h>
#include <signal.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "report.h"
/* Our program needs to use regular malloc/free */
#define INTERNAL 1
#include "harness.h"
/** Special values **/
/* Value at start of every allocated block */
#define MAGICHEADER 0xdeadbeef
/* Value when deallocate block */
#define MAGICFREE 0xffffffff
/* Value at end of every block */
#define MAGICFOOTER 0xbeefdead
/* Byte to fill newly malloced space with */
#define FILLCHAR 0x55
/* Data structures used by our code */
/* Represent allocated blocks as doubly-linked list, with
* next and prev pointers at beginning
*/
typedef struct __block_element {
struct __block_element *next, *prev;
size_t payload_size;
size_t magic_header; /* Marker to see if block seems legitimate */
unsigned char payload[0];
/* Also place magic number at tail of every block */
} block_element_t;
static block_element_t *allocated = NULL;
static size_t allocated_count = 0;
/* Percent probability of malloc failure */
int fail_probability = 0;
static bool cautious_mode = true;
static bool noallocate_mode = false;
static bool error_occurred = false;
static char *error_message = "";
static int time_limit = 1;
/* Data for managing exceptions */
static jmp_buf env;
static volatile sig_atomic_t jmp_ready = false;
static bool time_limited = false;
/* For test_malloc and test_calloc */
typedef enum {
TEST_MALLOC,
TEST_CALLOC,
} alloc_t;
/* Internal functions */
/* Should this allocation fail? */
static bool fail_allocation()
{
double weight = (double) random() / RAND_MAX;
return (weight < 0.01 * fail_probability);
}
/* Find header of block, given its payload.
* Signal error if doesn't seem like legitimate block
*/
static block_element_t *find_header(void *p)
{
if (!p) {
report_event(MSG_ERROR, "Attempting to free null block");
error_occurred = true;
}
block_element_t *b =
(block_element_t *) ((size_t) p - sizeof(block_element_t));
if (cautious_mode) {
/* Make sure this is really an allocated block */
block_element_t *ab = allocated;
bool found = false;
while (ab && !found) {
found = ab == b;
ab = ab->next;
}
if (!found) {
report_event(MSG_ERROR,
"Attempted to free unallocated block. Address = %p",
p);
error_occurred = true;
}
}
if (b->magic_header != MAGICHEADER) {
report_event(
MSG_ERROR,
"Attempted to free unallocated or corrupted block. Address = %p",
p);
error_occurred = true;
}
return b;
}
/* Given pointer to block, find its footer */
static size_t *find_footer(block_element_t *b)
{
// cppcheck-suppress nullPointerRedundantCheck
size_t *p =
(size_t *) ((size_t) b + b->payload_size + sizeof(block_element_t));
return p;
}
static void *alloc(alloc_t alloc_type, size_t size)
{
if (noallocate_mode) {
char *msg_alloc_forbidden[] = {
"Calls to malloc are disallowed",
"Calls to calloc are disallowed",
};
report_event(MSG_FATAL, "%s", msg_alloc_forbidden[alloc_type]);
return NULL;
}
if (fail_allocation()) {
char *msg_alloc_failure[] = {
"Malloc returning NULL",
"Calloc returning NULL",
};
report_event(MSG_WARN, "%s", msg_alloc_failure[alloc_type]);
return NULL;
}
block_element_t *new_block =
malloc(size + sizeof(block_element_t) + sizeof(size_t));
if (!new_block) {
report_event(MSG_FATAL, "Couldn't allocate any more memory");
error_occurred = true;
}
// cppcheck-suppress nullPointerRedundantCheck
new_block->magic_header = MAGICHEADER;
// cppcheck-suppress nullPointerRedundantCheck
new_block->payload_size = size;
*find_footer(new_block) = MAGICFOOTER;
void *p = (void *) &new_block->payload;
memset(p, !alloc_type * FILLCHAR, size);
// cppcheck-suppress nullPointerRedundantCheck
new_block->next = allocated;
// cppcheck-suppress nullPointerRedundantCheck
new_block->prev = NULL;
if (allocated)
allocated->prev = new_block;
allocated = new_block;
allocated_count++;
return p;
}
/* Implementation of application functions */
void *test_malloc(size_t size)
{
return alloc(TEST_MALLOC, size);
}
// cppcheck-suppress unusedFunction
void *test_calloc(size_t nelem, size_t elsize)
{
/* Reference: Malloc tutorial
* https://danluu.com/malloc-tutorial/
*/
if (!nelem || !elsize || nelem > SIZE_MAX / elsize)
return NULL;
return alloc(TEST_CALLOC, nelem * elsize);
}
void test_free(void *p)
{
if (noallocate_mode) {
report_event(MSG_FATAL, "Calls to free disallowed");
return;
}
if (!p)
return;
block_element_t *b = find_header(p);
size_t footer = *find_footer(b);
if (footer != MAGICFOOTER) {
report_event(MSG_ERROR,
"Corruption detected in block with address %p when "
"attempting to free it",
p);
error_occurred = true;
}
b->magic_header = MAGICFREE;
*find_footer(b) = MAGICFREE;
memset(p, FILLCHAR, b->payload_size);
/* Unlink from list */
block_element_t *bn = b->next;
block_element_t *bp = b->prev;
if (bp)
bp->next = bn;
else
allocated = bn;
if (bn)
bn->prev = bp;
free(b);
allocated_count--;
}
// cppcheck-suppress unusedFunction
char *test_strdup(const char *s)
{
size_t len = strlen(s) + 1;
void *new = test_malloc(len);
if (!new)
return NULL;
return memcpy(new, s, len);
}
size_t allocation_check()
{
return allocated_count;
}
/* Implementation of functions for testing */
/* Set/unset cautious mode.
* In this mode, makes extra sure any block to be freed is currently allocated.
*/
void set_cautious_mode(bool cautious)
{
cautious_mode = cautious;
}
/* Set/unset restricted allocation mode.
* In this mode, calls to malloc and free are disallowed.
*/
void set_noallocate_mode(bool noallocate)
{
noallocate_mode = noallocate;
}
/* Return whether any errors have occurred since last time set error limit */
bool error_check()
{
bool e = error_occurred;
error_occurred = false;
return e;
}
/* Prepare for a risky operation using setjmp.
* Function returns true for initial return, false for error return
*/
bool exception_setup(bool limit_time)
{
if (sigsetjmp(env, 1)) {
/* Got here from longjmp */
jmp_ready = false;
if (time_limited) {
alarm(0);
time_limited = false;
}
if (error_message)
report_event(MSG_ERROR, error_message);
error_message = "";
return false;
}
/* Got here from initial call */
jmp_ready = true;
if (limit_time) {
alarm(time_limit);
time_limited = true;
}
return true;
}
/* Call once past risky code */
void exception_cancel()
{
if (time_limited) {
alarm(0);
time_limited = false;
}
jmp_ready = false;
error_message = "";
}
/* Use longjmp to return to most recent exception setup */
void trigger_exception(char *msg)
{
error_occurred = true;
error_message = msg;
if (jmp_ready)
siglongjmp(env, 1);
else
exit(1);
}