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test_heatshrink_dynamic_theft.c
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test_heatshrink_dynamic_theft.c
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#include "heatshrink_config.h"
#ifdef HEATSHRINK_HAS_THEFT
#include <stdint.h>
#include <ctype.h>
#include <assert.h>
#include <string.h>
#include <sys/time.h>
#include "heatshrink_encoder.h"
#include "heatshrink_decoder.h"
#include "greatest.h"
#include "theft.h"
#if !HEATSHRINK_DYNAMIC_ALLOC
#error Must set HEATSHRINK_DYNAMIC_ALLOC to 1 for this test suite.
#endif
SUITE(properties);
// Buffers, 16 MB each
#define BUF_SIZE (16 * 1024L * 1024)
/* static uint8_t *input; */
static uint8_t *output;
static uint8_t *output2;
typedef struct {
int limit;
int fails;
int dots;
uint16_t decoder_buffer_size;
} test_env;
typedef struct {
size_t size;
uint8_t buf[];
} rbuf;
static void *rbuf_alloc_cb(struct theft *t, theft_hash seed, void *env) {
test_env *te = (test_env *)env;
//printf("seed is 0x%016llx\n", seed);
size_t sz = (size_t)(seed % te->limit) + 1;
rbuf *r = malloc(sizeof(rbuf) + sz);
if (r == NULL) { return THEFT_ERROR; }
r->size = sz;
for (size_t i = 0; i < sz; i += sizeof(theft_hash)) {
theft_hash s = theft_random(t);
for (uint8_t b = 0; b < sizeof(theft_hash); b++) {
if (i + b >= sz) { break; }
r->buf[i + b] = (uint8_t) (s >> (8*b)) & 0xff;
}
}
return r;
}
static void rbuf_free_cb(void *instance, void *env) {
free(instance);
(void)env;
}
static uint64_t rbuf_hash_cb(void *instance, void *env) {
rbuf *r = (rbuf *)instance;
(void)env;
return theft_hash_onepass(r->buf, r->size);
}
/* Make a copy of a buffer, keeping NEW_SZ bytes starting at OFFSET. */
static void *copy_rbuf_subset(rbuf *cur, size_t new_sz, size_t byte_offset) {
if (new_sz == 0) { return THEFT_DEAD_END; }
rbuf *nr = malloc(sizeof(rbuf) + new_sz);
if (nr == NULL) { return THEFT_ERROR; }
nr->size = new_sz;
memcpy(nr->buf, &cur->buf[byte_offset], new_sz);
/* printf("%zu -> %zu\n", cur->size, new_sz); */
return nr;
}
/* Make a copy of a buffer, but only PORTION, starting OFFSET in
* (e.g. the third quarter is (0.25 at +0.75). Rounds to ints. */
static void *copy_rbuf_percent(rbuf *cur, float portion, float offset) {
size_t new_sz = cur->size * portion;
size_t byte_offset = (size_t)(cur->size * offset);
return copy_rbuf_subset(cur, new_sz, byte_offset);
}
/* How to shrink a random buffer to a simpler one. */
static void *rbuf_shrink_cb(void *instance, uint32_t tactic, void *env) {
rbuf *cur = (rbuf *)instance;
if (tactic == 0) { /* first half */
return copy_rbuf_percent(cur, 0.5, 0);
} else if (tactic == 1) { /* second half */
return copy_rbuf_percent(cur, 0.5, 0.5);
} else if (tactic <= 18) { /* drop 1-16 bytes at start */
const int last_tactic = 1;
const size_t drop = tactic - last_tactic;
if (cur->size < drop) { return THEFT_DEAD_END; }
return copy_rbuf_subset(cur, cur->size - drop, drop);
} else if (tactic <= 34) { /* drop 1-16 bytes at end */
const int last_tactic = 18;
const size_t drop = tactic - last_tactic;
if (cur->size < drop) { return THEFT_DEAD_END; }
return copy_rbuf_subset(cur, cur->size - drop, 0);
} else if (tactic == 35) {
/* Divide every byte by 2, saturating at 0 */
rbuf *cp = copy_rbuf_percent(cur, 1, 0);
if (cp == NULL) { return THEFT_ERROR; }
for (size_t i = 0; i < cp->size; i++) { cp->buf[i] /= 2; }
return cp;
} else if (tactic == 36) {
/* subtract 1 from every byte, saturating at 0 */
rbuf *cp = copy_rbuf_percent(cur, 1, 0);
if (cp == NULL) { return THEFT_ERROR; }
for (size_t i = 0; i < cp->size; i++) {
if (cp->buf[i] > 0) { cp->buf[i]--; }
}
return cp;
} else {
(void)env;
return THEFT_NO_MORE_TACTICS;
}
return THEFT_NO_MORE_TACTICS;
}
static void rbuf_print_cb(FILE *f, void *instance, void *env) {
rbuf *r = (rbuf *)instance;
(void)env;
fprintf(f, "buf[%zd]:\n ", r->size);
uint8_t bytes = 0;
for (size_t i = 0; i < r->size; i++) {
fprintf(f, "%02x", r->buf[i]);
bytes++;
if (bytes == 16) {
fprintf(f, "\n ");
bytes = 0;
}
}
fprintf(f, "\n");
}
static struct theft_type_info rbuf_info = {
.alloc = rbuf_alloc_cb,
.free = rbuf_free_cb,
.hash = rbuf_hash_cb,
.shrink = rbuf_shrink_cb,
.print = rbuf_print_cb,
};
static void *window_alloc_cb(struct theft *t, theft_seed seed, void *env) {
uint8_t *window = malloc(sizeof(uint8_t));
if (window == NULL) { return THEFT_ERROR; }
*window = (seed % (HEATSHRINK_MAX_WINDOW_BITS - HEATSHRINK_MIN_WINDOW_BITS))
+ HEATSHRINK_MIN_WINDOW_BITS;
(void)t;
(void)env;
return window;
}
static void window_free_cb(void *instance, void *env) {
free(instance);
(void)env;
}
static theft_hash window_hash_cb(void *instance, void *env) {
(void)env;
return *(uint8_t *)instance;
}
static void window_print_cb(FILE *f, void *instance, void *env) {
fprintf(f, "%u", (*(uint8_t *)instance));
(void)env;
}
static struct theft_type_info window_info = {
.alloc = window_alloc_cb,
.free = window_free_cb,
.hash = window_hash_cb,
.print = window_print_cb,
};
static void *lookahead_alloc_cb(struct theft *t, theft_seed seed, void *env) {
uint8_t *window = malloc(sizeof(uint8_t));
if (window == NULL) { return THEFT_ERROR; }
*window = (seed % (HEATSHRINK_MAX_WINDOW_BITS - HEATSHRINK_MIN_LOOKAHEAD_BITS))
+ HEATSHRINK_MIN_LOOKAHEAD_BITS;
(void)t;
(void)env;
return window;
}
static void lookahead_free_cb(void *instance, void *env) {
free(instance);
(void)env;
}
static theft_hash lookahead_hash_cb(void *instance, void *env) {
(void)env;
return *(uint8_t *)instance;
}
static void lookahead_print_cb(FILE *f, void *instance, void *env) {
fprintf(f, "%u", (*(uint8_t *)instance));
(void)env;
}
static struct theft_type_info lookahead_info = {
.alloc = lookahead_alloc_cb,
.free = lookahead_free_cb,
.hash = lookahead_hash_cb,
.print = lookahead_print_cb,
};
static void *decoder_buf_alloc_cb(struct theft *t, theft_seed seed, void *env) {
uint16_t *size = malloc(sizeof(uint16_t));
if (size == NULL) { return THEFT_ERROR; }
/* Get a random uint16_t, and only keep bottom 0-15 bits at random,
* to bias towards smaller buffers. */
*size = seed & 0xFFFF;
*size &= (1 << (theft_random(t) & 0xF)) - 1;
if (*size == 0) { *size = 1; } // round up to 1
(void)t;
(void)env;
return size;
}
static void decoder_buf_free_cb(void *instance, void *env) {
free(instance);
(void)env;
}
static theft_hash decoder_buf_hash_cb(void *instance, void *env) {
(void)env;
return *(uint16_t *)instance;
}
static void decoder_buf_print_cb(FILE *f, void *instance, void *env) {
fprintf(f, "%u", (*(uint16_t *)instance));
(void)env;
}
static struct theft_type_info decoder_buf_info = {
.alloc = decoder_buf_alloc_cb,
.free = decoder_buf_free_cb,
.hash = decoder_buf_hash_cb,
.print = decoder_buf_print_cb,
};
static theft_progress_callback_res
progress_cb(struct theft_trial_info *info, void *env) {
test_env *te = (test_env *)env;
if ((info->trial & 0xff) == 0) {
printf(".");
fflush(stdout);
te->dots++;
if (te->dots == 64) {
printf("\n");
te->dots = 0;
}
}
if (info->status == THEFT_TRIAL_FAIL) {
te->fails++;
rbuf *cur = info->args[0];
if (cur->size < 5) { return THEFT_PROGRESS_HALT; }
}
if (te->fails > 10) {
return THEFT_PROGRESS_HALT;
}
return THEFT_PROGRESS_CONTINUE;
}
/* For an arbitrary input buffer, it should never get stuck in a
* state where the data has been sunk but no data can be polled. */
static theft_trial_res
prop_should_not_get_stuck(void *input, void *window, void *lookahead) {
assert(window);
uint8_t window_sz2 = *(uint8_t *)window;
assert(lookahead);
uint8_t lookahead_sz2 = *(uint8_t *)lookahead;
if (lookahead_sz2 >= window_sz2) { return THEFT_TRIAL_SKIP; }
heatshrink_decoder *hsd = heatshrink_decoder_alloc((64 * 1024L) - 1,
window_sz2, lookahead_sz2);
if (hsd == NULL) { return THEFT_TRIAL_ERROR; }
rbuf *r = (rbuf *)input;
size_t count = 0;
HSD_sink_res sres = heatshrink_decoder_sink(hsd, r->buf, r->size, &count);
if (sres != HSDR_SINK_OK) { return THEFT_TRIAL_ERROR; }
size_t out_sz = 0;
HSD_poll_res pres = heatshrink_decoder_poll(hsd, output, BUF_SIZE, &out_sz);
if (pres != HSDR_POLL_EMPTY) { return THEFT_TRIAL_FAIL; }
HSD_finish_res fres = heatshrink_decoder_finish(hsd);
heatshrink_decoder_free(hsd);
if (fres != HSDR_FINISH_DONE) { return THEFT_TRIAL_FAIL; }
return THEFT_TRIAL_PASS;
}
static bool get_time_seed(theft_seed *seed)
{
struct timeval tv;
if (-1 == gettimeofday(&tv, NULL)) { return false; }
*seed = (theft_seed)((tv.tv_sec << 32) | tv.tv_usec);
/* printf("seed is 0x%016llx\n", *seed); */
return true;
}
TEST decoder_fuzzing_should_not_detect_stuck_state(void) {
// Get a random number seed based on the time
theft_seed seed;
if (!get_time_seed(&seed)) { FAIL(); }
/* Pass the max buffer size for this property (4 KB) in a closure */
test_env env = { .limit = 1 << 12 };
theft_seed always_seeds = { 0xe87bb1f61032a061 };
struct theft *t = theft_init(0);
struct theft_cfg cfg = {
.name = __func__,
.fun = prop_should_not_get_stuck,
.type_info = { &rbuf_info, &window_info, &lookahead_info },
.seed = seed,
.trials = 100000,
.progress_cb = progress_cb,
.env = &env,
.always_seeds = &always_seeds,
.always_seed_count = 1,
};
theft_run_res res = theft_run(t, &cfg);
theft_free(t);
printf("\n");
GREATEST_ASSERT_EQm("should_not_get_stuck", THEFT_RUN_PASS, res);
PASS();
}
static bool do_compress(heatshrink_encoder *hse,
uint8_t *input, size_t input_size,
uint8_t *output, size_t output_buf_size, size_t *output_used_size) {
size_t sunk = 0;
size_t polled = 0;
while (sunk < input_size) {
size_t sunk_size = 0;
HSE_sink_res esres = heatshrink_encoder_sink(hse,
&input[sunk], input_size - sunk, &sunk_size);
if (esres != HSER_SINK_OK) { return false; }
sunk += sunk_size;
HSE_poll_res epres = HSER_POLL_ERROR_NULL;
do {
size_t poll_size = 0;
epres = heatshrink_encoder_poll(hse,
&output[polled], output_buf_size - polled, &poll_size);
if (epres < 0) { return false; }
polled += poll_size;
} while (epres == HSER_POLL_MORE);
}
HSE_finish_res efres = heatshrink_encoder_finish(hse);
while (efres == HSER_FINISH_MORE) {
size_t poll_size = 0;
HSE_poll_res epres = heatshrink_encoder_poll(hse,
&output[polled], output_buf_size - polled, &poll_size);
if (epres < 0) { return false; }
polled += poll_size;
efres = heatshrink_encoder_finish(hse);
}
*output_used_size = polled;
return efres == HSER_FINISH_DONE;
}
static bool do_decompress(heatshrink_decoder *hsd,
uint8_t *input, size_t input_size,
uint8_t *output, size_t output_buf_size, size_t *output_used_size) {
size_t sunk = 0;
size_t polled = 0;
while (sunk < input_size) {
size_t sunk_size = 0;
HSD_sink_res dsres = heatshrink_decoder_sink(hsd,
&input[sunk], input_size - sunk, &sunk_size);
if (dsres != HSDR_SINK_OK) { return false; }
sunk += sunk_size;
HSD_poll_res dpres = HSDR_POLL_ERROR_NULL;
do {
size_t poll_size = 0;
dpres = heatshrink_decoder_poll(hsd,
&output[polled], output_buf_size - polled, &poll_size);
if (dpres < 0) { return false; }
polled += poll_size;
} while (dpres == HSDR_POLL_MORE);
}
HSD_finish_res dfres = heatshrink_decoder_finish(hsd);
while (dfres == HSDR_FINISH_MORE) {
size_t poll_size = 0;
HSD_poll_res dpres = heatshrink_decoder_poll(hsd,
&output[polled], output_buf_size - polled, &poll_size);
if (dpres < 0) { return false; }
polled += poll_size;
dfres = heatshrink_decoder_finish(hsd);
}
*output_used_size = polled;
return dfres == HSDR_FINISH_DONE;
}
static theft_trial_res
prop_encoded_and_decoded_data_should_match(void *input,
void *window, void *lookahead, void *decoder_buffer_size) {
assert(window);
uint8_t window_sz2 = *(uint8_t *)window;
assert(lookahead);
uint8_t lookahead_sz2 = *(uint8_t *)lookahead;
if (lookahead_sz2 >= window_sz2) { return THEFT_TRIAL_SKIP; }
heatshrink_encoder *hse = heatshrink_encoder_alloc(window_sz2, lookahead_sz2);
if (hse == NULL) { return THEFT_TRIAL_ERROR; }
assert(decoder_buffer_size);
uint16_t buf_size = *(uint16_t *)decoder_buffer_size;
heatshrink_decoder *hsd = heatshrink_decoder_alloc(buf_size, window_sz2, lookahead_sz2);
if (hsd == NULL) { return THEFT_TRIAL_ERROR; }
rbuf *r = (rbuf *)input;
size_t compressed_size = 0;
if (!do_compress(hse, r->buf, r->size, output,
BUF_SIZE, &compressed_size)) {
return THEFT_TRIAL_ERROR;
}
size_t decompressed_size = 0;
if (!do_decompress(hsd, output, compressed_size, output2,
BUF_SIZE, &decompressed_size)) {
return THEFT_TRIAL_ERROR;
}
// verify decompressed output matches original input
if (r->size != decompressed_size) {
return THEFT_TRIAL_FAIL;
}
if (0 != memcmp(output2, r->buf, decompressed_size)) {
return THEFT_TRIAL_FAIL;
}
heatshrink_encoder_free(hse);
heatshrink_decoder_free(hsd);
return THEFT_TRIAL_PASS;
}
TEST encoded_and_decoded_data_should_match(void) {
test_env env = { .limit = 1 << 11 };
theft_seed seed;
if (!get_time_seed(&seed)) { FAIL(); }
struct theft *t = theft_init(0);
struct theft_cfg cfg = {
.name = __func__,
.fun = prop_encoded_and_decoded_data_should_match,
.type_info = { &rbuf_info, &window_info, &lookahead_info, &decoder_buf_info, },
.seed = seed,
.trials = 1000000,
.env = &env,
.progress_cb = progress_cb,
};
theft_run_res res = theft_run(t, &cfg);
theft_free(t);
printf("\n");
ASSERT_EQ(THEFT_RUN_PASS, res);
PASS();
}
static size_t ceil_nine_eighths(size_t sz) {
return sz + sz/8 + (sz & 0x07 ? 1 : 0);
}
static theft_trial_res
prop_encoding_data_should_never_increase_it_by_more_than_an_eighth_at_worst(void *input,
void *window, void *lookahead) {
assert(window);
uint8_t window_sz2 = *(uint8_t *)window;
assert(lookahead);
uint8_t lookahead_sz2 = *(uint8_t *)lookahead;
if (lookahead_sz2 >= window_sz2) { return THEFT_TRIAL_SKIP; }
heatshrink_encoder *hse = heatshrink_encoder_alloc(window_sz2, lookahead_sz2);
if (hse == NULL) { return THEFT_TRIAL_ERROR; }
rbuf *r = (rbuf *)input;
size_t compressed_size = 0;
if (!do_compress(hse, r->buf, r->size, output,
BUF_SIZE, &compressed_size)) {
return THEFT_TRIAL_ERROR;
}
size_t ceil_9_8s = ceil_nine_eighths(r->size);
if (compressed_size > ceil_9_8s) {
return THEFT_TRIAL_FAIL;
}
heatshrink_encoder_free(hse);
return THEFT_TRIAL_PASS;
}
TEST encoding_data_should_never_increase_it_by_more_than_an_eighth_at_worst(void) {
test_env env = { .limit = 1 << 11 };
theft_seed seed;
if (!get_time_seed(&seed)) { FAIL(); }
struct theft *t = theft_init(0);
struct theft_cfg cfg = {
.name = __func__,
.fun = prop_encoding_data_should_never_increase_it_by_more_than_an_eighth_at_worst,
.type_info = { &rbuf_info, &window_info, &lookahead_info },
.seed = seed,
.trials = 10000,
.env = &env,
.progress_cb = progress_cb,
};
theft_run_res res = theft_run(t, &cfg);
theft_free(t);
printf("\n");
ASSERT_EQ(THEFT_RUN_PASS, res);
PASS();
}
static theft_trial_res
prop_encoder_should_always_make_progress(void *instance, void *window, void *lookahead) {
assert(window);
uint8_t window_sz2 = *(uint8_t *)window;
assert(lookahead);
uint8_t lookahead_sz2 = *(uint8_t *)lookahead;
if (lookahead_sz2 >= window_sz2) { return THEFT_TRIAL_SKIP; }
heatshrink_encoder *hse = heatshrink_encoder_alloc(window_sz2, lookahead_sz2);
if (hse == NULL) { return THEFT_TRIAL_ERROR; }
rbuf *r = (rbuf *)instance;
size_t sunk = 0;
int no_progress = 0;
while (1) {
if (sunk < r->size) {
size_t input_size = 0;
HSE_sink_res esres = heatshrink_encoder_sink(hse,
&r->buf[sunk], r->size - sunk, &input_size);
if (esres != HSER_SINK_OK) { return THEFT_TRIAL_ERROR; }
sunk += input_size;
} else {
HSE_finish_res efres = heatshrink_encoder_finish(hse);
if (efres == HSER_FINISH_DONE) {
break;
} else if (efres != HSER_FINISH_MORE) {
printf("FAIL %d\n", __LINE__);
return THEFT_TRIAL_FAIL;
}
}
size_t output_size = 0;
HSE_poll_res epres = heatshrink_encoder_poll(hse,
output, BUF_SIZE, &output_size);
if (epres < 0) { return THEFT_TRIAL_ERROR; }
if (output_size == 0 && sunk == r->size) {
no_progress++;
if (no_progress > 2) {
return THEFT_TRIAL_FAIL;
}
} else {
no_progress = 0;
}
}
heatshrink_encoder_free(hse);
return THEFT_TRIAL_PASS;
}
TEST encoder_should_always_make_progress(void) {
test_env env = { .limit = 1 << 15 };
theft_seed seed;
if (!get_time_seed(&seed)) { FAIL(); }
struct theft *t = theft_init(0);
struct theft_cfg cfg = {
.name = __func__,
.fun = prop_encoder_should_always_make_progress,
.type_info = { &rbuf_info, &window_info, &lookahead_info },
.seed = seed,
.trials = 10000,
.env = &env,
.progress_cb = progress_cb,
};
theft_run_res res = theft_run(t, &cfg);
theft_free(t);
printf("\n");
ASSERT_EQ(THEFT_RUN_PASS, res);
PASS();
}
static theft_trial_res
prop_decoder_should_always_make_progress(void *instance, void *window, void *lookahead) {
assert(window);
uint8_t window_sz2 = *(uint8_t *)window;
assert(lookahead);
uint8_t lookahead_sz2 = *(uint8_t *)lookahead;
if (lookahead_sz2 >= window_sz2) { return THEFT_TRIAL_SKIP; }
heatshrink_decoder *hsd = heatshrink_decoder_alloc(512, window_sz2, lookahead_sz2);
if (hsd == NULL) {
fprintf(stderr, "Failed to alloc decoder\n");
return THEFT_TRIAL_ERROR;
}
rbuf *r = (rbuf *)instance;
size_t sunk = 0;
int no_progress = 0;
while (1) {
if (sunk < r->size) {
size_t input_size = 0;
HSD_sink_res sres = heatshrink_decoder_sink(hsd,
&r->buf[sunk], r->size - sunk, &input_size);
if (sres < 0) {
fprintf(stderr, "Sink error %d\n", sres);
return THEFT_TRIAL_ERROR;
}
sunk += input_size;
} else {
HSD_finish_res fres = heatshrink_decoder_finish(hsd);
if (fres == HSDR_FINISH_DONE) {
break;
} else if (fres != HSDR_FINISH_MORE) {
printf("FAIL %d\n", __LINE__);
return THEFT_TRIAL_FAIL;
}
}
size_t output_size = 0;
HSD_poll_res pres = heatshrink_decoder_poll(hsd,
output, sizeof(output), &output_size);
if (pres < 0) {
fprintf(stderr, "poll error: %d\n", pres);
return THEFT_TRIAL_ERROR;
}
if (output_size == 0 && sunk == r->size) {
no_progress++;
if (no_progress > 2) {
return THEFT_TRIAL_FAIL;
}
} else {
no_progress = 0;
}
}
heatshrink_decoder_free(hsd);
return THEFT_TRIAL_PASS;
}
TEST decoder_should_always_make_progress(void) {
test_env env = { .limit = 1 << 15 };
theft_seed seed;
if (!get_time_seed(&seed)) { FAIL(); }
struct theft *t = theft_init(0);
struct theft_cfg cfg = {
.name = __func__,
.fun = prop_decoder_should_always_make_progress,
.type_info = { &rbuf_info, &window_info, &lookahead_info },
.seed = seed,
.trials = 10000,
.env = &env,
.progress_cb = progress_cb,
};
theft_run_res res = theft_run(t, &cfg);
theft_free(t);
printf("\n");
ASSERT_EQ(THEFT_RUN_PASS, res);
PASS();
}
static void setup_cb(void *udata) {
(void)udata;
memset(output, 0, BUF_SIZE);
memset(output2, 0, BUF_SIZE);
}
SUITE(properties) {
output = malloc(BUF_SIZE);
assert(output);
output2 = malloc(BUF_SIZE);
assert(output2);
GREATEST_SET_SETUP_CB(setup_cb, NULL);
RUN_TEST(decoder_fuzzing_should_not_detect_stuck_state);
RUN_TEST(encoded_and_decoded_data_should_match);
RUN_TEST(encoding_data_should_never_increase_it_by_more_than_an_eighth_at_worst);
RUN_TEST(encoder_should_always_make_progress);
RUN_TEST(decoder_should_always_make_progress);
free(output);
free(output2);
}
#else
struct because_iso_c_requires_at_least_one_declaration;
#endif