/********************************************************************** Copyright(c) 2011-2019 Intel Corporation All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of Intel Corporation nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **********************************************************************/ #define ISAL_UNIT_TEST #include #include #include "sm3_mb.h" #include "endian_helper.h" #define TEST_LEN (1024*1024) #define TEST_BUFS 100 #ifndef RANDOMS # define RANDOMS 10 #endif #ifndef TEST_SEED # define TEST_SEED 0x1234 #endif #define UPDATE_SIZE 13*SM3_BLOCK_SIZE #define MAX_RAND_UPDATE_BLOCKS (TEST_LEN/(16*SM3_BLOCK_SIZE)) #ifdef DEBUG # define debug_char(x) putchar(x) #else # define debug_char(x) do {} while (0) #endif /* Reference digest global to reduce stack usage */ static uint8_t digest_ref[TEST_BUFS][4 * SM3_DIGEST_NWORDS]; extern void sm3_ossl(const unsigned char *buf, size_t length, unsigned char *digest); // Generates pseudo-random data static void rand_buffer(unsigned char *buf, const long buffer_size) { long i; for (i = 0; i < buffer_size; i++) buf[i] = rand(); } int main(void) { SM3_HASH_CTX_MGR *mgr = NULL; SM3_HASH_CTX ctxpool[TEST_BUFS], *ctx = NULL; uint32_t i, j, fail = 0; int len_done, len_rem, len_rand; unsigned char *bufs[TEST_BUFS]; unsigned char *buf_ptr[TEST_BUFS]; uint32_t lens[TEST_BUFS]; unsigned int joblen, jobs, t; int ret; printf("multibinary_sm3_update test, %d sets of %dx%d max: ", RANDOMS, TEST_BUFS, TEST_LEN); srand(TEST_SEED); ret = posix_memalign((void *)&mgr, 16, sizeof(SM3_HASH_CTX_MGR)); if ((ret != 0) || (mgr == NULL)) { printf("posix_memalign failed test aborted\n"); return 1; } sm3_ctx_mgr_init(mgr); for (i = 0; i < TEST_BUFS; i++) { // Allocte and fill buffer bufs[i] = (unsigned char *)malloc(TEST_LEN); buf_ptr[i] = bufs[i]; if (bufs[i] == NULL) { printf("malloc failed test aborted\n"); return 1; } rand_buffer(bufs[i], TEST_LEN); // Init ctx contents hash_ctx_init(&ctxpool[i]); ctxpool[i].user_data = (void *)((uint64_t) i); // Run reference test sm3_ossl(bufs[i], TEST_LEN, digest_ref[i]); } // Run sb_sm3 tests for (i = 0; i < TEST_BUFS;) { len_done = (int)((unsigned long)buf_ptr[i] - (unsigned long)bufs[i]); len_rem = TEST_LEN - len_done; if (len_done == 0) ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], UPDATE_SIZE, HASH_FIRST); else if (len_rem <= UPDATE_SIZE) ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], len_rem, HASH_LAST); else ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], UPDATE_SIZE, HASH_UPDATE); // Add jobs while available or finished if ((ctx == NULL) || hash_ctx_complete(ctx)) { i++; continue; } // Resubmit unfinished job i = (unsigned long)(ctx->user_data); buf_ptr[i] += UPDATE_SIZE; } // Start flushing finished jobs, end on last flushed ctx = sm3_ctx_mgr_flush(mgr); while (ctx) { if (hash_ctx_complete(ctx)) { debug_char('-'); ctx = sm3_ctx_mgr_flush(mgr); continue; } // Resubmit unfinished job i = (unsigned long)(ctx->user_data); buf_ptr[i] += UPDATE_SIZE; len_done = (int)((unsigned long)buf_ptr[i] - (unsigned long)bufs[i]); len_rem = TEST_LEN - len_done; if (len_rem <= UPDATE_SIZE) ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], len_rem, HASH_LAST); else ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], UPDATE_SIZE, HASH_UPDATE); if (ctx == NULL) ctx = sm3_ctx_mgr_flush(mgr); } // Check digests for (i = 0; i < TEST_BUFS; i++) { for (j = 0; j < SM3_DIGEST_NWORDS; j++) { if (ctxpool[i].job.result_digest[j] != to_le32(((uint32_t *) digest_ref[i])[j])) { fail++; printf("Test%d fixed size, digest%d fail %8X <=> %8X", i, j, ctxpool[i].job.result_digest[j], to_le32(((uint32_t *) digest_ref[i])[j])); } } } putchar('.'); // Run tests with random size and number of jobs for (t = 0; t < RANDOMS; t++) { jobs = rand() % (TEST_BUFS); for (i = 0; i < jobs; i++) { joblen = rand() % (TEST_LEN); rand_buffer(bufs[i], joblen); lens[i] = joblen; buf_ptr[i] = bufs[i]; sm3_ossl(bufs[i], lens[i], digest_ref[i]); } sm3_ctx_mgr_init(mgr); // Run sm3_sb jobs i = 0; while (i < jobs) { // Submit a new job len_rand = SM3_BLOCK_SIZE + SM3_BLOCK_SIZE * (rand() % MAX_RAND_UPDATE_BLOCKS); if (lens[i] > len_rand) ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], len_rand, HASH_FIRST); else ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], lens[i], HASH_ENTIRE); // Returned ctx could be: // - null context (we are just getting started and lanes aren't full yet), or // - finished already (an ENTIRE we submitted or a previous LAST is returned), or // - an unfinished ctx, we will resubmit if ((ctx == NULL) || hash_ctx_complete(ctx)) { i++; continue; } else { // unfinished ctx returned, choose another random update length and submit either // UPDATE or LAST depending on the amount of buffer remaining while ((ctx != NULL) && !(hash_ctx_complete(ctx))) { j = (unsigned long)(ctx->user_data); // Get index of the returned ctx buf_ptr[j] = bufs[j] + ctx->total_length; len_rand = (rand() % SM3_BLOCK_SIZE) * (rand() % MAX_RAND_UPDATE_BLOCKS); len_rem = lens[j] - ctx->total_length; if (len_rem <= len_rand) // submit the rest of the job as LAST ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[j], buf_ptr[j], len_rem, HASH_LAST); else // submit the random update length as UPDATE ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[j], buf_ptr[j], len_rand, HASH_UPDATE); } // Either continue submitting any contexts returned here as UPDATE/LAST, or // go back to submitting new jobs using the index i. i++; } } // Start flushing finished jobs, end on last flushed ctx = sm3_ctx_mgr_flush(mgr); while (ctx) { if (hash_ctx_complete(ctx)) { debug_char('-'); ctx = sm3_ctx_mgr_flush(mgr); continue; } // Resubmit unfinished job i = (unsigned long)(ctx->user_data); buf_ptr[i] = bufs[i] + ctx->total_length; // update buffer pointer len_rem = lens[i] - ctx->total_length; len_rand = (rand() % SM3_BLOCK_SIZE) * (rand() % MAX_RAND_UPDATE_BLOCKS); debug_char('+'); if (len_rem <= len_rand) ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], len_rem, HASH_LAST); else ctx = sm3_ctx_mgr_submit(mgr, &ctxpool[i], buf_ptr[i], len_rand, HASH_UPDATE); if (ctx == NULL) ctx = sm3_ctx_mgr_flush(mgr); } // Check result digest for (i = 0; i < jobs; i++) { for (j = 0; j < SM3_DIGEST_NWORDS; j++) { if (ctxpool[i].job.result_digest[j] != to_le32(((uint32_t *) digest_ref[i])[j])) { fail++; printf("Test%d, digest%d fail %8X <=> %8X\n", i, j, ctxpool[i].job.result_digest[j], to_le32(((uint32_t *) digest_ref[i])[j])); } } } if (fail) { printf("Test failed function check %d\n", fail); return fail; } putchar('.'); fflush(0); } // random test t if (fail) printf("Test failed function check %d\n", fail); else printf(" multibinary_sm3_update rand: Pass\n"); return fail; }