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mdriver.c
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mdriver.c
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/*
* mdriver.c - Autolab version of the CS:APP Malloc Lab Driver
*
* Uses a collection of trace files to tests a malloc/free
* implementation in mm.c.
*
* Copyright (c) 2004-2015, R. Bryant and D. O'Hallaron, All rights
* reserved. May not be used, modified, or copied without permission.
*/
#include <assert.h>
#include <errno.h>
#include <float.h>
#include <setjmp.h>
#include <signal.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include "mm.h"
#include "memlib.h"
#include "fsecs.h"
#include "config.h"
/**********************
* Constants and macros
**********************/
/* Misc */
#define MAXLINE 1024 /* max string size */
#define HDRLINES 4 /* number of header lines in a trace file */
#define LINENUM(i) (i+5) /* cnvt trace request nums to linenums (origin 1) */
/* Returns true if p is ALIGNMENT-byte aligned */
#define IS_ALIGNED(p) ((((unsigned long)(p)) % ALIGNMENT) == 0)
/* weights */
#define WNONE 0
#define WALL 1
#define WUTIL 2
#define WPERF 3
/******************************
* The key compound data types
*****************************/
/*
* There are two different, easily-confusable concepts:
* - opnum: which line in the file.
* - index: the block number ; corresponds to something allocated.
* Remember that index (-1) is the null pointer.
*/
/* Records the extent of each block's payload */
typedef struct range_t {
char *lo; /* low payload address */
char *hi; /* high payload address */
struct range_t *next; /* next list element */
int index; /* same index as free; for debugging */
} range_t;
/* Characterizes a single trace operation (allocator request) */
typedef struct {
enum { ALLOC, FREE, REALLOC } type; /* type of request */
int index; /* index for free() to use later */
size_t size; /* byte size of alloc/realloc request */
} traceop_t;
/* Holds the information for one trace file*/
typedef struct {
char filename[MAXLINE];
int ignore_ranges; /* don't check ranges (i.e. this is too big) */
int num_ids; /* number of alloc/realloc ids */
int num_ops; /* number of distinct requests */
int weight; /* weight for this trace (unused) */
traceop_t *ops; /* array of requests */
char **blocks; /* array of ptrs returned by malloc/realloc... */
size_t *block_sizes; /* ... and a corresponding array of payload sizes */
int *block_rand_base;/* index into random_data, if debug is on */
} trace_t;
/*
* Holds the params to the xxx_speed functions, which are timed by fcyc.
* This struct is necessary because fcyc accepts only a pointer array
* as input.
*/
typedef struct {
trace_t *trace;
range_t *ranges;
} speed_t;
/* Summarizes the important stats for some malloc function on some trace */
typedef struct {
/* set in read_trace */
char filename[MAXLINE];
int weight;
double ops; /* number of ops (malloc/free/realloc) in the trace */
/* run-time stats defined for both libc and student */
int valid; /* was the trace processed correctly by the allocator? */
double secs; /* number of secs needed to run the trace */
/* defined only for the student malloc package */
double util; /* space utilization for this trace (always 0 for libc) */
/* Note: secs and util are only defined if valid is true */
} stats_t;
/* Summarizes the key statistics for a set of traces */
typedef struct {
double util; /* average utilization expressed as a percentage */
double ops; /* total number of operations */
double secs; /* total number of elapsed seconds */
double tput; /* average throughput expressed in Kops/s */
} sum_stats_t;
/********************
* For debugging. If debug-mode is on, then we have each block start
* at a "random" place (a hash of the index), and copy random data
* into it. With DBG_CHEAP, we check that the data survived when we
* realloc and when we free. With DBG_EXPENSIVE, we check every block
* every operation.
* randint_t should be a byte, in case students return unaligned memory.
*******************/
#define RANDOM_DATA_LEN (1<<16)
typedef unsigned char randint_t;
static const char randint_t_name[] = "byte";
static randint_t random_data[RANDOM_DATA_LEN];
/********************
* Global variables
*******************/
static enum { DBG_NONE, DBG_CHEAP, DBG_EXPENSIVE } debug_mode = DBG_CHEAP;
int verbose = 1; /* global flag for verbose output */
static int errors = 0; /* number of errs found when running student malloc */
int onetime_flag = 0;
/* by default, no timeouts */
static int set_timeout = 0;
/* Directory where default tracefiles are found */
static char tracedir[MAXLINE] = TRACEDIR;
/* The filenames of the default tracefiles */
static char *default_tracefiles[] = {
DEFAULT_TRACEFILES, NULL
};
char autoresult[MAXLINE]; /* autoresult string */
/* Summary statistics for libc and student's mm.c submissions */
sum_stats_t global_libc_sum_stats;
sum_stats_t global_mm_sum_stats;
/*********************
* Function prototypes
*********************/
/* these functions manipulate range lists */
static int add_range(range_t **ranges, char *lo, int size,
const trace_t *trace, int opnum, int index);
static void remove_range(range_t **ranges, char *lo);
static void clear_ranges(range_t **ranges);
/* These functions implement the debugging code */
static void init_random_data(void);
static void check_index(const trace_t *trace, int opnum, int index);
static void randomize_block(trace_t *trace, int index);
/* These functions read, allocate, and free storage for traces */
static trace_t *read_trace(stats_t *stats, const char *tracedir,
const char *filename);
static void reinit_trace(trace_t *trace);
static void free_trace(trace_t *trace);
/* Routines for evaluating the correctness and speed of libc malloc */
static int eval_libc_valid(trace_t *trace);
static void eval_libc_speed(void *ptr);
/* Routines for evaluating correctnes, space utilization, and speed
of the student's malloc package in mm.c */
static int eval_mm_valid(trace_t *trace, range_t **ranges);
static double eval_mm_util(trace_t *trace, int tracenum);
static void eval_mm_speed(void *ptr);
/* Various helper routines */
static void printresults(int n, stats_t *stats, sum_stats_t *sumstats);
static void usage(void);
static void malloc_error(const trace_t *trace, int opnum, const char *fmt, ...)
__attribute__((format(printf, 3,4)));
static void unix_error(const char *fmt, ...)
__attribute__((format(printf, 1,2), noreturn));
static void app_error(const char *fmt, ...)
__attribute__((format(printf, 1,2), noreturn));
static sigjmp_buf timeout_jmpbuf;
/* Timeout signal handler */
static void timeout_handler(int sig __attribute__((unused))) {
fprintf(stderr, "The driver timed out after %d secs\n", set_timeout);
errors = 1;
longjmp(timeout_jmpbuf, 1);
}
/* Run the tests; return the number of tests run (may be less than
num_tracefiles, if there's a timeout) */
static void run_tests(int num_tracefiles, const char *tracedir,
char **tracefiles,
stats_t *mm_stats, range_t *ranges, speed_t *speed_params) {
volatile int i;
volatile int timed_out = 0;
for (i=0; i < num_tracefiles; i++) {
/* initialize simulated memory system in memlib.c *
* start each trace with a clean system */
mem_init();
/* handle timeouts */
if(setjmp(timeout_jmpbuf) != 0) {
timed_out = 1;
}
trace_t *trace;
trace = read_trace(&mm_stats[i], tracedir, tracefiles[i]);
strcpy(mm_stats[i].filename, trace->filename);
mm_stats[i].ops = trace->num_ops;
if(timed_out) {
mm_stats[i].valid = 0;
} else {
if (verbose > 1)
printf("Checking mm_malloc for correctness, ");
mm_stats[i].valid = eval_mm_valid(trace, &ranges);
if (onetime_flag) {
free_trace(trace);
return;
}
}
if (mm_stats[i].valid) {
if (verbose > 1)
printf("efficiency, ");
mm_stats[i].util = eval_mm_util(trace, i);
speed_params->trace = trace;
speed_params->ranges = ranges;
if (verbose > 1)
printf("and performance.\n");
mm_stats[i].secs = fsecs(eval_mm_speed, speed_params);
}
free_trace(trace);
/* clean up memory system */
mem_deinit();
}
}
/**************
* Main routine
**************/
int main(int argc, char **argv)
{
int i;
char c;
char **tracefiles = NULL; /* null-terminated array of trace file names */
int num_tracefiles = 0; /* the number of traces in that array */
range_t *ranges = NULL; /* keeps track of block extents for one trace */
stats_t *libc_stats = NULL;/* libc stats for each trace */
stats_t *mm_stats = NULL; /* mm (i.e. student) stats for each trace */
speed_t speed_params; /* input parameters to the xx_speed routines */
int run_libc = 0; /* If set, run libc malloc (set by -l) */
int autograder = 0; /* if set then called by autograder (-A) */
/* temporaries used to compute the performance index */
double secs, ops, util, avg_mm_util, avg_mm_throughput = 0, p1, p2, perfindex;
double util_weight = 0, perf_weight = 0;
int numcorrect;
setbuf(stdout, 0);
setbuf(stderr, 0);
/*
* Read and interpret the command line arguments
*/
while ((c = getopt(argc, argv, "d:f:c:s:t:v:hVAlD")) != EOF) {
switch (c) {
case 'A': /* Hidden Autolab driver argument */
autograder = 1;
break;
case 'f': /* Use one specific trace file only (relative to curr dir) */
num_tracefiles = 1;
if ((tracefiles = realloc(tracefiles, 2 * sizeof(char *))) == NULL)
unix_error("ERROR: realloc failed in main");
strcpy(tracedir, "./");
tracefiles[0] = strdup(optarg);
tracefiles[1] = NULL;
break;
case 'c': /* Use one specific trace file and run only once */
num_tracefiles = 1;
onetime_flag = 1;
if ((tracefiles = realloc(tracefiles, 2 * sizeof(char *))) == NULL)
unix_error("ERROR: realloc failed in main");
strcpy(tracedir, "./");
tracefiles[0] = strdup(optarg);
tracefiles[1] = NULL;
break;
case 't': /* Directory where the traces are located */
if (num_tracefiles == 1) /* ignore if -f already encountered */
break;
strcpy(tracedir, optarg);
if (tracedir[strlen(tracedir)-1] != '/')
strcat(tracedir, "/"); /* path always ends with "/" */
break;
case 'l': /* Run libc malloc */
run_libc = 1;
break;
case 'V': /* Increase verbosity level */
verbose += 1;
break;
case 'v': /* Set verbosity level */
verbose = atoi(optarg);
break;
case 'd':
debug_mode = atoi(optarg);
break;
case 'D':
debug_mode = DBG_EXPENSIVE;
break;
case 's':
set_timeout = atoi(optarg);
break;
case 'h': /* Print this message */
usage();
exit(0);
default:
usage();
exit(1);
}
}
if (tracefiles == NULL) {
tracefiles = default_tracefiles;
num_tracefiles = sizeof(default_tracefiles) / sizeof(char *) - 1;
printf("Using default tracefiles in %s\n", tracedir);
}
if(debug_mode != DBG_NONE) {
init_random_data();
}
/* Initialize the timing package */
init_fsecs();
/* Initialize the timeout */
if (set_timeout > 0) {
signal(SIGALRM, timeout_handler);
alarm(set_timeout);
}
/*
* Optionally run and evaluate the libc malloc package
*/
if (run_libc) {
if (verbose > 1)
printf("\nTesting libc malloc\n");
/* Allocate libc stats array, with one stats_t struct per tracefile */
libc_stats = (stats_t *)calloc(num_tracefiles, sizeof(stats_t));
if (libc_stats == NULL)
unix_error("libc_stats calloc in main failed");
/* Evaluate the libc malloc package using the K-best scheme */
for (i=0; i < num_tracefiles; i++) {
trace_t *trace = read_trace(&libc_stats[i], tracedir, tracefiles[i]);
if (verbose > 1)
printf("Checking libc malloc for correctness, ");
libc_stats[i].valid = eval_libc_valid(trace);
if (libc_stats[i].valid) {
speed_params.trace = trace;
if (verbose > 1)
printf("and performance.\n");
libc_stats[i].secs = fsecs(eval_libc_speed, &speed_params);
}
free_trace(trace);
}
/* Display the libc results in a compact table and return the
summary statistics */
if (verbose) {
printf("\nResults for libc malloc:\n");
printresults(num_tracefiles, libc_stats, &global_libc_sum_stats);
}
}
/*
* Always run and evaluate the student's mm package
*/
if (verbose > 1)
printf("\nTesting mm malloc\n");
/* Allocate the mm stats array, with one stats_t struct per tracefile */
mm_stats = (stats_t *)calloc(num_tracefiles, sizeof(stats_t));
if (mm_stats == NULL)
unix_error("mm_stats calloc in main failed");
run_tests(num_tracefiles, tracedir, tracefiles, mm_stats,
ranges, &speed_params);
/* Display the mm results in a compact table */
if (verbose) {
if (onetime_flag) {
printf("\n\ncorrectness check finished, by running tracefile \"%s\".\n", tracefiles[num_tracefiles-1]);
if (mm_stats[num_tracefiles-1].valid) {
printf(" => correct.\n\n");
} else {
printf(" => incorrect.\n\n");
}
} else {
printf("\nResults for mm malloc:\n");
printresults(num_tracefiles, mm_stats, &global_mm_sum_stats);
printf("\n");
}
}
/* Optionally compare the performance of mm and libc */
if (run_libc) {
printf("Comparison with libc malloc: mm/libc = %.0f Kops / %.0f Kops = %.2f\n\n",
(float)global_mm_sum_stats.tput, (float)global_libc_sum_stats.tput,
(float)(global_mm_sum_stats.tput/global_libc_sum_stats.tput));
}
/*
* Accumulate the aggregate statistics for the student's mm package
*/
secs = 0;
ops = 0;
util = 0;
numcorrect = 0;
/*
* trace weight:
* weight 1 => count both util and perf
* 2 => count only util
* 3 => count only perf
*/
for (i=0; i < num_tracefiles; i++) {
if(mm_stats[i].weight == WALL || mm_stats[i].weight == WPERF)
{
secs += mm_stats[i].secs;
ops += mm_stats[i].ops;
perf_weight++;
}
if(mm_stats[i].weight == WALL || mm_stats[i].weight == WUTIL)
{
util += mm_stats[i].util;
util_weight++;
}
if (mm_stats[i].valid)
numcorrect++;
}
if(util_weight == 0)
avg_mm_util = 0;
else
avg_mm_util = util/util_weight;
/*
* Compute and print the performance index
*/
if (errors == 0) {
if(perf_weight == 0) {
avg_mm_throughput = 0;
}
else {
avg_mm_throughput = (secs == 0) ? 0 : ops/secs;
}
#ifdef ALT_GRADING
if (avg_mm_throughput < MIN_SPEED) {
p2 = 0.0;
} else if (avg_mm_throughput > MAX_SPEED) {
p2 = 1.0;
} else {
p2 = (avg_mm_throughput - MIN_SPEED) / (MAX_SPEED - MIN_SPEED);
}
if (avg_mm_util < MIN_SPACE) {
p1 = 0.0;
} else if (avg_mm_util > MAX_SPACE) {
p1 = 1.0;
} else {
p1 = (avg_mm_util - MIN_SPACE) / (MAX_SPACE - MIN_SPACE);
}
perfindex = p1 < p2 ? p1 * 100.0 : p2 * 100.0;
if(perfindex < 0.0) perfindex = 0.0;
if(perfindex > 100.0) perfindex = 100.0;
#else
if (avg_mm_util < MIN_SPACE) {
p1 = 0.0;
} else if (avg_mm_util > MAX_SPACE) {
p1 = UTIL_WEIGHT;
} else {
p1 = (avg_mm_util - MIN_SPACE) / (MAX_SPACE - MIN_SPACE) * UTIL_WEIGHT;
}
if (avg_mm_throughput < MIN_SPEED) {
p2 = 0.0;
} else if (avg_mm_throughput > MAX_SPEED) {
p2 = 1.0 - UTIL_WEIGHT;
} else {
p2 = (avg_mm_throughput - MIN_SPEED) / (MAX_SPEED - MIN_SPEED) * (1.0 - UTIL_WEIGHT);
}
perfindex = (p1 + p2)*100.0;
#endif
printf("Perf index = %.0f (util) & %.0f (thru) = %.0f/100\n",
p1*100,
p2*100,
perfindex);
}
else { /* There were errors */
perfindex = 0.0;
printf("Terminated with %d errors\n", errors);
}
/* Optionally emit autoresult string */
double raw_score = perfindex;
if (raw_score < PERF_THRESHHOLD) {
raw_score = 0.0;
}
if (autograder) {
sprintf(autoresult, "{\"scores\": {\"Autograded Score\": %.0f}, \"scoreboard\": [%.0f, %.0f, %.0f, %0.f\
]}",
(float)raw_score, (float)raw_score, (float)perfindex,
avg_mm_throughput/1000.0, avg_mm_util*100);
printf("%s\n", autoresult);
}
exit(0);
}
/*****************************************************************
* The following routines manipulate the range list, which keeps
* track of the extent of every allocated block payload. We use the
* range list to detect any overlapping allocated blocks.
****************************************************************/
/*
* add_range - As directed by request opnum in trace tracenum,
* we've just called the student's mm_malloc to allocate a block of
* size bytes at addr lo. After checking the block for correctness,
* we create a range struct for this block and add it to the range list.
*/
static int add_range(range_t **ranges, char *lo, int size,
const trace_t *trace, int opnum, int index)
{
char *hi = lo + size - 1;
range_t *p;
assert(size > 0);
/* Payload addresses must be ALIGNMENT-byte aligned */
if (!IS_ALIGNED(lo)) {
malloc_error(trace, opnum,
"Payload address (%p) not aligned to %d bytes", lo, ALIGNMENT);
return 0;
}
/* The payload must lie within the extent of the heap */
if ((lo < (char *)mem_heap_lo()) || (lo > (char *)mem_heap_hi()) ||
(hi < (char *)mem_heap_lo()) || (hi > (char *)mem_heap_hi())) {
malloc_error(trace, opnum,
"Payload (%p:%p) lies outside heap (%p:%p)",
lo, hi, mem_heap_lo(), mem_heap_hi());
return 0;
}
/* If we can't afford the linear-time loop, we check less thoroughly and
just assume the overlap will be caught by writing random bits. */
if(trace->ignore_ranges || debug_mode == DBG_NONE) return 1;
/* The payload must not overlap any other payloads */
for (p = *ranges; p != NULL; p = p->next) {
if ((lo >= p->lo && lo <= p-> hi) ||
(hi >= p->lo && hi <= p->hi)) {
malloc_error(trace, opnum,
"Payload (%p:%p) overlaps another payload (%p:%p)\n",
lo, hi, p->lo, p->hi);
return 0;
}
}
/*
* Everything looks OK, so remember the extent of this block
* by creating a range struct and adding it the range list.
*/
if ((p = (range_t *)malloc(sizeof(range_t))) == NULL)
unix_error("malloc error in add_range");
p->next = *ranges;
p->lo = lo;
p->hi = hi;
p->index = index;
*ranges = p;
return 1;
}
/*
* remove_range - Free the range record of block whose payload starts at lo
*/
static void remove_range(range_t **ranges, char *lo)
{
range_t *p;
range_t **prevpp = ranges;
for (p = *ranges; p != NULL; p = p->next) {
if (p->lo == lo) {
*prevpp = p->next;
free(p);
break;
}
prevpp = &(p->next);
}
}
/*
* clear_ranges - free all of the range records for a trace
*/
static void clear_ranges(range_t **ranges)
{
range_t *p;
range_t *pnext;
for (p = *ranges; p != NULL; p = pnext) {
pnext = p->next;
free(p);
}
*ranges = NULL;
}
/**********************************************
* The following routines handle the random data used for
* checking memory access.
*********************************************/
static void init_random_data(void) {
int len;
if(debug_mode == DBG_NONE) return;
for(len = 0; len < RANDOM_DATA_LEN; ++len) {
random_data[len] = random();
}
}
static void randomize_block(trace_t *traces, int index) {
size_t size;
size_t i;
randint_t *block;
int base;
if(debug_mode == DBG_NONE) return;
traces->block_rand_base[index] = random();
block = (randint_t*)traces->blocks[index];
size = traces->block_sizes[index] / sizeof(*block);
base = traces->block_rand_base[index];
for(i = 0; i < size; i++) {
block[i] = random_data[(base + i) % RANDOM_DATA_LEN];
}
}
static void check_index(const trace_t *trace, int opnum, int index) {
size_t size;
size_t i;
randint_t *block;
int base;
int ngarbled = 0;
int firstgarbled = -1;
if(index < 0) return; /* we're doing free(NULL) */
if(debug_mode == DBG_NONE) return;
block = (randint_t*)trace->blocks[index];
size = trace->block_sizes[index] / sizeof(*block);
base = trace->block_rand_base[index];
for(i = 0; i < size; i++) {
if(block[i] != random_data[(base + i) % RANDOM_DATA_LEN]) {
if(firstgarbled == -1) firstgarbled = i;
ngarbled++;
}
}
if(ngarbled != 0) {
malloc_error(trace, opnum, "block %d has %d garbled %s%s, "
"starting at byte %zu", index, ngarbled, randint_t_name,
ngarbled > 1 ? "s" : "", sizeof(randint_t) * firstgarbled);
}
}
/**********************************************
* The following routines manipulate tracefiles
*********************************************/
/*
* read_trace - read a trace file and store it in memory
*/
static trace_t *read_trace(stats_t *stats, const char *tracedir,
const char *filename)
{
FILE *tracefile;
trace_t *trace;
char type[MAXLINE];
int index, size;
int max_index = 0;
int op_index;
if (verbose > 1)
printf("Reading tracefile: %s\n", filename);
/* Allocate the trace record */
if ((trace = (trace_t *) malloc(sizeof(trace_t))) == NULL)
unix_error("malloc 1 failed in read_trace");
/* Read the trace file header */
strcpy(trace->filename, tracedir);
strcat(trace->filename, filename);
if ((tracefile = fopen(trace->filename, "r")) == NULL) {
unix_error("Could not open %s in read_trace", trace->filename);
}
fscanf(tracefile, "%d", &trace->weight);
fscanf(tracefile, "%d", &trace->num_ids);
fscanf(tracefile, "%d", &trace->num_ops);
fscanf(tracefile, "%d", &trace->ignore_ranges);
if(trace->weight < 0 || trace->weight > 3) {
app_error("%s: weight can only be in {0, 1, 2 3}", trace->filename);
}
if(trace->ignore_ranges != 0 && trace->ignore_ranges != 1) {
app_error("%s: ignore-ranges can only be zero or one", trace->filename);
}
/* We'll store each request line in the trace in this array */
if ((trace->ops =
(traceop_t *)malloc(trace->num_ops * sizeof(traceop_t))) == NULL)
unix_error("malloc 2 failed in read_trace");
/* We'll keep an array of pointers to the allocated blocks here... */
if ((trace->blocks =
(char **)calloc(trace->num_ids, sizeof(char *))) == NULL)
unix_error("malloc 3 failed in read_trace");
/* ... along with the corresponding byte sizes of each block */
if ((trace->block_sizes =
(size_t *)calloc(trace->num_ids, sizeof(size_t))) == NULL)
unix_error("malloc 4 failed in read_trace");
/* and, if we're debugging, the offset into the random data */
if ((trace->block_rand_base =
calloc(trace->num_ids, sizeof(*trace->block_rand_base))) == NULL)
unix_error("malloc 5 failed in read_trace");
/* read every request line in the trace file */
index = 0;
op_index = 0;
while (fscanf(tracefile, "%s", type) != EOF) {
switch(type[0]) {
case 'a':
fscanf(tracefile, "%u %u", &index, &size);
trace->ops[op_index].type = ALLOC;
trace->ops[op_index].index = index;
trace->ops[op_index].size = size;
max_index = (index > max_index) ? index : max_index;
break;
case 'r':
fscanf(tracefile, "%u %u", &index, &size);
trace->ops[op_index].type = REALLOC;
trace->ops[op_index].index = index;
trace->ops[op_index].size = size;
max_index = (index > max_index) ? index : max_index;
break;
case 'f':
fscanf(tracefile, "%ud", &index);
trace->ops[op_index].type = FREE;
trace->ops[op_index].index = index;
break;
default:
app_error("Bogus type character (%c) in tracefile %s\n",
type[0], trace->filename);
}
op_index++;
if(op_index == trace->num_ops) break;
}
fclose(tracefile);
assert(max_index == trace->num_ids - 1);
assert(trace->num_ops == op_index);
/* fill in the stats */
strcpy(stats->filename, trace->filename);
stats->weight = trace->weight;
stats->ops = trace->num_ops;
return trace;
}
/*
* reinit_trace - get the trace ready for another run.
*/
static void reinit_trace(trace_t *trace)
{
memset(trace->blocks, 0, trace->num_ids * sizeof(*trace->blocks));
memset(trace->block_sizes, 0, trace->num_ids * sizeof(*trace->block_sizes));
/* block_rand_base is unused if size is zero */
}
/*
* free_trace - Free the trace record and the four arrays it points
* to, all of which were allocated in read_trace().
*/
static void free_trace(trace_t *trace)
{
free(trace->ops); /* free the three arrays... */
free(trace->blocks);
free(trace->block_sizes);
free(trace->block_rand_base);
free(trace); /* and the trace record itself... */
}
/**********************************************************************
* The following functions evaluate the correctness, space utilization,
* and throughput of the libc and mm malloc packages.
**********************************************************************/
/*
* eval_mm_valid - Check the mm malloc package for correctness
*/
static int eval_mm_valid(trace_t *trace, range_t **ranges)
{
int i;
int index;
size_t size;
char *newp;
char *oldp;
char *p;
/* Reset the heap and free any records in the range list */
mem_reset_brk();
clear_ranges(ranges);
reinit_trace(trace);
/* Call the mm package's init function */
if (mm_init() < 0) {
malloc_error(trace, 0, "mm_init failed.");
return 0;
}
/* Interpret each operation in the trace in order */
for (i = 0; i < trace->num_ops; i++) {
index = trace->ops[i].index;
size = trace->ops[i].size;
if(debug_mode == DBG_EXPENSIVE) {
range_t *r;
/* Let the students check their own heap */
mm_checkheap(verbose);
/* Now check that all our allocated blocks have the right data */
r = *ranges;
while(r) {
check_index(trace, i, r->index);
r = r->next;
}
}
switch (trace->ops[i].type) {
case ALLOC: /* mm_malloc */
/* Call the student's malloc */
if ((p = mm_malloc(size)) == NULL) {
malloc_error(trace, i, "mm_malloc failed.");
return 0;
}
/*
* Test the range of the new block for correctness and add it
* to the range list if OK. The block must be be aligned properly,
* and must not overlap any currently allocated block.
*/
if (add_range(ranges, p, size, trace, i, index) == 0)
return 0;
/* Remember region */
trace->blocks[index] = p;
trace->block_sizes[index] = size;
/* Set to random data, for debugging. */
randomize_block(trace, index);
break;
case REALLOC: /* mm_realloc */
check_index(trace, i, index);
/* Call the student's realloc */
oldp = trace->blocks[index];
newp = mm_realloc(oldp, size);
if( (newp == NULL) && (size != 0) ) {
malloc_error(trace, i, "mm_realloc failed.");
return 0;
}
if( (newp != NULL) && (size == 0) ) {
malloc_error(trace, i, "mm_realloc with size 0 returned "
"non-NULL.");
return 0;
}
/* Remove the old region from the range list */
remove_range(ranges, oldp);
/* Check new block for correctness and add it to range list */
if (size > 0) {
if(add_range(ranges, newp, size, trace, i, index) == 0)
return 0;
}
/* Move the region from where it was.
* Check up to min(size, oldsize) for correct copying. */
trace->blocks[index] = newp;
if(size < trace->block_sizes[index]) {
trace->block_sizes[index] = size;
}
check_index(trace, i, index);
trace->block_sizes[index] = size;
/* Set to random data, for debugging. */
randomize_block(trace, index);
break;
case FREE: /* mm_free */
check_index(trace, i, index);
/* Remove region from list and call student's free function */
if(index == -1) {
p = 0;
} else {
p = trace->blocks[index];
remove_range(ranges, p);
}
mm_free(p);
break;
default:
app_error("Nonexistent request type in eval_mm_valid");
}
}
/* As far as we know, this is a valid malloc package */
return 1;
}
/*
* eval_mm_util - Evaluate the space utilization of the student's package
* The idea is to remember the high water mark "hwm" of the heap for