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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. **********************************************************************/ #include #include #include #include // for memcmp #include #include "gcm_vectors.h" #include "types.h" #ifndef TEST_SEED # define TEST_SEED 0x1234 #endif int check_data(uint8_t * test, uint8_t * expected, uint64_t len, char *data_name) { int mismatch; int OK = 0; mismatch = memcmp(test, expected, len); if (mismatch) { OK = 1; printf(" expected results don't match %s \t\t", data_name); { uint64_t a; for (a = 0; a < len; a++) { if (test[a] != expected[a]) { printf(" '%x' != '%x' at %lx of %lx\n", test[a], expected[a], a, len); break; } } } } return OK; } int test_gcm128_std_vectors(gcm_vector const *vector) { struct gcm_data gdata; int OK = 0; // Temporary array for the calculated vectors uint8_t *ct_test = NULL; uint8_t *pt_test = NULL; uint8_t *IV_c = NULL; uint8_t *T_test = NULL; uint8_t *T2_test = NULL; uint8_t const IVend[] = GCM_IV_END_MARK; uint64_t IV_alloc_len = 0; // Allocate space for the calculated ciphertext ct_test = malloc(vector->Plen); if (ct_test == NULL) { fprintf(stderr, "Can't allocate ciphertext memory\n"); return 1; } // Allocate space for the calculated ciphertext pt_test = malloc(vector->Plen); if (pt_test == NULL) { fprintf(stderr, "Can't allocate plaintext memory\n"); return 1; } IV_alloc_len = vector->IVlen + sizeof(IVend); // Allocate space for the calculated ciphertext IV_c = malloc(IV_alloc_len); if (IV_c == NULL) { fprintf(stderr, "Can't allocate ciphertext memory\n"); return 1; } //Add end marker to the IV data for ISA-L memcpy(IV_c, vector->IV, vector->IVlen); memcpy(&IV_c[vector->IVlen], IVend, sizeof(IVend)); T_test = malloc(vector->Tlen); T2_test = malloc(vector->Tlen); if ((T_test == NULL) || (T2_test == NULL)) { fprintf(stderr, "Can't allocate tag memory\n"); return 1; } // This is only required once for a given key aesni_gcm128_pre(vector->K, &gdata); //// // ISA-l Encrypt //// aesni_gcm128_enc(&gdata, ct_test, vector->P, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); OK |= check_data(ct_test, vector->C, vector->Plen, "ISA-L encrypted cypher text (C)"); OK |= check_data(T_test, vector->T, vector->Tlen, "ISA-L tag (T)"); // test of in-place encrypt memcpy(pt_test, vector->P, vector->Plen); aesni_gcm128_enc(&gdata, pt_test, pt_test, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); OK |= check_data(pt_test, vector->C, vector->Plen, "ISA-L encrypted cypher text(in-place)"); memset(ct_test, 0, vector->Plen); memset(T_test, 0, vector->Tlen); //// // ISA-l Decrypt //// aesni_gcm128_dec(&gdata, pt_test, vector->C, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); OK |= check_data(pt_test, vector->P, vector->Plen, "ISA-L decrypted plain text (P)"); // GCM decryption outputs a 16 byte tag value that must be verified against the expected tag value OK |= check_data(T_test, vector->T, vector->Tlen, "ISA-L decrypted tag (T)"); // test in in-place decrypt memcpy(ct_test, vector->C, vector->Plen); aesni_gcm128_dec(&gdata, ct_test, ct_test, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); OK |= check_data(ct_test, vector->P, vector->Plen, "ISA-L plain text (P) - in-place"); OK |= check_data(T_test, vector->T, vector->Tlen, "ISA-L decrypted tag (T) - in-place"); // ISA-L enc -> ISA-L dec aesni_gcm128_enc(&gdata, ct_test, vector->P, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); memset(pt_test, 0, vector->Plen); aesni_gcm128_dec(&gdata, pt_test, ct_test, vector->Plen, IV_c, vector->A, vector->Alen, T2_test, vector->Tlen); OK |= check_data(pt_test, vector->P, vector->Plen, "ISA-L self decrypted plain text (P)"); OK |= check_data(T_test, T2_test, vector->Tlen, "ISA-L self decrypted tag (T)"); memset(pt_test, 0, vector->Plen); if (NULL != ct_test) free(ct_test); if (NULL != pt_test) free(pt_test); if (NULL != IV_c) free(IV_c); if (NULL != T_test) free(T_test); if (NULL != T2_test) free(T2_test); return OK; } int test_gcm256_std_vectors(gcm_vector const *vector) { struct gcm_data gdata; int OK = 0; // Temporary array for the calculated vectors uint8_t *ct_test = NULL; uint8_t *pt_test = NULL; uint8_t *IV_c = NULL; uint8_t *T_test = NULL; uint8_t *T2_test = NULL; uint8_t const IVend[] = GCM_IV_END_MARK; uint64_t IV_alloc_len = 0; // Allocate space for the calculated ciphertext ct_test = malloc(vector->Plen); // Allocate space for the calculated ciphertext pt_test = malloc(vector->Plen); if ((ct_test == NULL) || (pt_test == NULL)) { fprintf(stderr, "Can't allocate ciphertext or plaintext memory\n"); return 1; } IV_alloc_len = vector->IVlen + sizeof(IVend); // Allocate space for the calculated ciphertext IV_c = malloc(IV_alloc_len); if (IV_c == NULL) { fprintf(stderr, "Can't allocate ciphertext memory\n"); return 1; } //Add end marker to the IV data for ISA-L memcpy(IV_c, vector->IV, vector->IVlen); memcpy(&IV_c[vector->IVlen], IVend, sizeof(IVend)); T_test = malloc(vector->Tlen); T2_test = malloc(vector->Tlen); if (T_test == NULL) { fprintf(stderr, "Can't allocate tag memory\n"); return 1; } // This is only required once for a given key aesni_gcm256_pre(vector->K, &gdata); //// // ISA-l Encrypt //// memset(ct_test, 0, vector->Plen); aesni_gcm256_enc(&gdata, ct_test, vector->P, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); OK |= check_data(ct_test, vector->C, vector->Plen, "ISA-L encrypted cypher text (C)"); OK |= check_data(T_test, vector->T, vector->Tlen, "ISA-L tag (T)"); // test of in-place encrypt memcpy(pt_test, vector->P, vector->Plen); aesni_gcm256_enc(&gdata, pt_test, pt_test, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); OK |= check_data(pt_test, vector->C, vector->Plen, "ISA-L encrypted cypher text(in-place)"); memset(ct_test, 0, vector->Plen); memset(T_test, 0, vector->Tlen); //// // ISA-l Decrypt //// aesni_gcm256_dec(&gdata, pt_test, vector->C, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); OK |= check_data(pt_test, vector->P, vector->Plen, "ISA-L decrypted plain text (P)"); // GCM decryption outputs a 16 byte tag value that must be verified against the expected tag value OK |= check_data(T_test, vector->T, vector->Tlen, "ISA-L decrypted tag (T)"); // test in in-place decrypt memcpy(ct_test, vector->C, vector->Plen); aesni_gcm256_dec(&gdata, ct_test, ct_test, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); OK |= check_data(ct_test, vector->P, vector->Plen, "ISA-L plain text (P) - in-place"); OK |= check_data(T_test, vector->T, vector->Tlen, "ISA-L decrypted tag (T) - in-place"); // ISA-L enc -> ISA-L dec aesni_gcm256_enc(&gdata, ct_test, vector->P, vector->Plen, IV_c, vector->A, vector->Alen, T_test, vector->Tlen); memset(pt_test, 0, vector->Plen); aesni_gcm256_dec(&gdata, pt_test, ct_test, vector->Plen, IV_c, vector->A, vector->Alen, T2_test, vector->Tlen); OK |= check_data(pt_test, vector->P, vector->Plen, "ISA-L self decrypted plain text (P)"); OK |= check_data(T_test, T2_test, vector->Tlen, "ISA-L self decrypted tag (T)"); if (NULL != ct_test) free(ct_test); if (NULL != pt_test) free(pt_test); if (NULL != IV_c) free(IV_c); if (NULL != T_test) free(T_test); if (NULL != T2_test) free(T2_test); return OK; } int test_gcm_std_vectors(void) { int const vectors_cnt = sizeof(gcm_vectors) / sizeof(gcm_vectors[0]); int vect; int OK = 0; printf("AES-GCM standard test vectors:\n"); for (vect = 0; ((vect < vectors_cnt) /*&& (1 == OK) */ ); vect++) { #ifdef DEBUG printf ("Standard vector %d/%d Keylen:%d IVlen:%d PTLen:%d AADlen:%d Tlen:%d\n", vect, vectors_cnt - 1, (int)gcm_vectors[vect].Klen, (int)gcm_vectors[vect].IVlen, (int)gcm_vectors[vect].Plen, (int)gcm_vectors[vect].Alen, (int)gcm_vectors[vect].Tlen); #else printf("."); #endif if (BITS_128 == gcm_vectors[vect].Klen) { OK |= test_gcm128_std_vectors(&gcm_vectors[vect]); } else { OK |= test_gcm256_std_vectors(&gcm_vectors[vect]); } if (0 != OK) return OK; } printf("\n"); return OK; } int main(int argc, char **argv) { int errors = 0; int seed; if (argc == 1) seed = TEST_SEED; else seed = atoi(argv[1]); srand(seed); printf("SEED: %d\n", seed); errors = test_gcm_std_vectors(); if (0 == errors) printf("...Pass\n"); else printf("...Fail\n"); return errors; }