/* BEGIN_HEADER */ #include #include "psa/crypto.h" #include "psa/crypto_extra.h" typedef enum { ERR_NONE = 0, /* errors forced internally in the code */ ERR_INJECT_UNINITIALIZED_ACCESS, ERR_INJECT_DUPLICATE_SETUP, ERR_INJECT_SET_USER, ERR_INJECT_SET_PEER, ERR_INJECT_SET_ROLE, ERR_DUPLICATE_SET_USER, ERR_DUPLICATE_SET_PEER, ERR_INJECT_EMPTY_IO_BUFFER, ERR_INJECT_UNKNOWN_STEP, ERR_INJECT_INVALID_FIRST_STEP, ERR_INJECT_WRONG_BUFFER_SIZE, ERR_INJECT_WRONG_BUFFER_SIZE_2, ERR_INJECT_VALID_OPERATION_AFTER_FAILURE, ERR_INJECT_ANTICIPATE_KEY_DERIVATION_1, ERR_INJECT_ANTICIPATE_KEY_DERIVATION_2, ERR_INJECT_ROUND1_CLIENT_KEY_SHARE_PART1, ERR_INJECT_ROUND1_CLIENT_ZK_PUBLIC_PART1, ERR_INJECT_ROUND1_CLIENT_ZK_PROOF_PART1, ERR_INJECT_ROUND1_CLIENT_KEY_SHARE_PART2, ERR_INJECT_ROUND1_CLIENT_ZK_PUBLIC_PART2, ERR_INJECT_ROUND1_CLIENT_ZK_PROOF_PART2, ERR_INJECT_ROUND2_CLIENT_KEY_SHARE, ERR_INJECT_ROUND2_CLIENT_ZK_PUBLIC, ERR_INJECT_ROUND2_CLIENT_ZK_PROOF, ERR_INJECT_ROUND1_SERVER_KEY_SHARE_PART1, ERR_INJECT_ROUND1_SERVER_ZK_PUBLIC_PART1, ERR_INJECT_ROUND1_SERVER_ZK_PROOF_PART1, ERR_INJECT_ROUND1_SERVER_KEY_SHARE_PART2, ERR_INJECT_ROUND1_SERVER_ZK_PUBLIC_PART2, ERR_INJECT_ROUND1_SERVER_ZK_PROOF_PART2, ERR_INJECT_ROUND2_SERVER_KEY_SHARE, ERR_INJECT_ROUND2_SERVER_ZK_PUBLIC, ERR_INJECT_ROUND2_SERVER_ZK_PROOF, ERR_INJECT_EXTRA_OUTPUT, ERR_INJECT_EXTRA_INPUT, ERR_INJECT_EXTRA_OUTPUT_AT_END, ERR_INJECT_EXTRA_INPUT_AT_END, /* erros issued from the .data file */ ERR_IN_SETUP, ERR_IN_SET_USER, ERR_IN_SET_PEER, ERR_IN_SET_ROLE, ERR_IN_SET_PASSWORD_KEY, ERR_IN_INPUT, ERR_IN_OUTPUT, } ecjpake_error_stage_t; typedef enum { PAKE_ROUND_ONE, PAKE_ROUND_TWO } pake_round_t; /* The only two JPAKE user/peer identifiers supported for the time being. */ static const uint8_t jpake_server_id[] = { 's', 'e', 'r', 'v', 'e', 'r' }; static const uint8_t jpake_client_id[] = { 'c', 'l', 'i', 'e', 'n', 't' }; /* * Inject an error on the specified buffer ONLY it this is the correct stage. * Offset 7 is arbitrary, but chosen because it's "in the middle" of the part * we're corrupting. */ #define DO_ROUND_CONDITIONAL_INJECT(this_stage, buf) \ if (this_stage == err_stage) \ { \ *(buf + 7) ^= 1; \ } #define DO_ROUND_CONDITIONAL_CHECK_FAILURE(this_stage, function) \ if (this_stage == err_stage) \ { \ TEST_EQUAL(function, expected_error_arg); \ break; \ } #define DO_ROUND_UPDATE_OFFSETS(main_buf_offset, step_offset, step_size) \ { \ step_offset = main_buf_offset; \ main_buf_offset += step_size; \ } #define DO_ROUND_CHECK_FAILURE() \ if (err_stage != ERR_NONE && status != PSA_SUCCESS) \ { \ TEST_EQUAL(status, expected_error_arg); \ break; \ } \ else \ { \ TEST_EQUAL(status, PSA_SUCCESS); \ } #if defined(PSA_WANT_ALG_JPAKE) static void ecjpake_do_round(psa_algorithm_t alg, unsigned int primitive, psa_pake_operation_t *server, psa_pake_operation_t *client, int client_input_first, pake_round_t round, ecjpake_error_stage_t err_stage, int expected_error_arg) { unsigned char *buffer0 = NULL, *buffer1 = NULL; size_t buffer_length = ( PSA_PAKE_OUTPUT_SIZE(alg, primitive, PSA_PAKE_STEP_KEY_SHARE) + PSA_PAKE_OUTPUT_SIZE(alg, primitive, PSA_PAKE_STEP_ZK_PUBLIC) + PSA_PAKE_OUTPUT_SIZE(alg, primitive, PSA_PAKE_STEP_ZK_PROOF)) * 2; /* The output should be exactly this size according to the spec */ const size_t expected_size_key_share = PSA_PAKE_OUTPUT_SIZE(alg, primitive, PSA_PAKE_STEP_KEY_SHARE); /* The output should be exactly this size according to the spec */ const size_t expected_size_zk_public = PSA_PAKE_OUTPUT_SIZE(alg, primitive, PSA_PAKE_STEP_ZK_PUBLIC); /* The output can be smaller: the spec allows stripping leading zeroes */ const size_t max_expected_size_zk_proof = PSA_PAKE_OUTPUT_SIZE(alg, primitive, PSA_PAKE_STEP_ZK_PROOF); size_t buffer0_off = 0; size_t buffer1_off = 0; size_t s_g1_len, s_g2_len, s_a_len; size_t s_g1_off, s_g2_off, s_a_off; size_t s_x1_pk_len, s_x2_pk_len, s_x2s_pk_len; size_t s_x1_pk_off, s_x2_pk_off, s_x2s_pk_off; size_t s_x1_pr_len, s_x2_pr_len, s_x2s_pr_len; size_t s_x1_pr_off, s_x2_pr_off, s_x2s_pr_off; size_t c_g1_len, c_g2_len, c_a_len; size_t c_g1_off, c_g2_off, c_a_off; size_t c_x1_pk_len, c_x2_pk_len, c_x2s_pk_len; size_t c_x1_pk_off, c_x2_pk_off, c_x2s_pk_off; size_t c_x1_pr_len, c_x2_pr_len, c_x2s_pr_len; size_t c_x1_pr_off, c_x2_pr_off, c_x2s_pr_off; psa_status_t status; ASSERT_ALLOC(buffer0, buffer_length); ASSERT_ALLOC(buffer1, buffer_length); switch (round) { case PAKE_ROUND_ONE: /* Server first round Output */ PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_KEY_SHARE, buffer0 + buffer0_off, 512 - buffer0_off, &s_g1_len)); TEST_EQUAL(s_g1_len, expected_size_key_share); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_SERVER_KEY_SHARE_PART1, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_g1_off, s_g1_len); PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + buffer0_off, 512 - buffer0_off, &s_x1_pk_len)); TEST_EQUAL(s_x1_pk_len, expected_size_zk_public); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_SERVER_ZK_PUBLIC_PART1, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_x1_pk_off, s_x1_pk_len); PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_ZK_PROOF, buffer0 + buffer0_off, 512 - buffer0_off, &s_x1_pr_len)); TEST_LE_U(s_x1_pr_len, max_expected_size_zk_proof); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_SERVER_ZK_PROOF_PART1, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_x1_pr_off, s_x1_pr_len); PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_KEY_SHARE, buffer0 + buffer0_off, 512 - buffer0_off, &s_g2_len)); TEST_EQUAL(s_g2_len, expected_size_key_share); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_SERVER_KEY_SHARE_PART2, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_g2_off, s_g2_len); PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + buffer0_off, 512 - buffer0_off, &s_x2_pk_len)); TEST_EQUAL(s_x2_pk_len, expected_size_zk_public); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_SERVER_ZK_PUBLIC_PART2, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_x2_pk_off, s_x2_pk_len); PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_ZK_PROOF, buffer0 + buffer0_off, 512 - buffer0_off, &s_x2_pr_len)); TEST_LE_U(s_x2_pr_len, max_expected_size_zk_proof); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_SERVER_ZK_PROOF_PART2, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_x2_pr_off, s_x2_pr_len); size_t extra_output_len; DO_ROUND_CONDITIONAL_CHECK_FAILURE( ERR_INJECT_EXTRA_OUTPUT, psa_pake_output(server, PSA_PAKE_STEP_KEY_SHARE, buffer0 + s_g2_off, 512 - s_g2_off, &extra_output_len)); (void) extra_output_len; /* * When injecting errors in inputs, the implementation is * free to detect it right away of with a delay. * This permits delaying the error until the end of the input * sequence, if no error appears then, this will be treated * as an error. */ if (client_input_first == 1) { /* Client first round Input */ status = psa_pake_input(client, PSA_PAKE_STEP_KEY_SHARE, buffer0 + s_g1_off, s_g1_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + s_x1_pk_off, s_x1_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PROOF, buffer0 + s_x1_pr_off, s_x1_pr_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_KEY_SHARE, buffer0 + s_g2_off, s_g2_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + s_x2_pk_off, s_x2_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PROOF, buffer0 + s_x2_pr_off, s_x2_pr_len); DO_ROUND_CHECK_FAILURE(); /* Note: Must have client_input_first == 1 to inject extra input */ DO_ROUND_CONDITIONAL_CHECK_FAILURE( ERR_INJECT_EXTRA_INPUT, psa_pake_input(client, PSA_PAKE_STEP_KEY_SHARE, buffer0 + s_g2_off, s_g2_len)); /* Error didn't trigger, make test fail */ if ((err_stage >= ERR_INJECT_ROUND1_SERVER_KEY_SHARE_PART1) && (err_stage <= ERR_INJECT_ROUND1_SERVER_ZK_PROOF_PART2)) { TEST_ASSERT( !"One of the last psa_pake_input() calls should have returned the expected error."); } } /* Client first round Output */ PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_KEY_SHARE, buffer1 + buffer1_off, 512 - buffer1_off, &c_g1_len)); TEST_EQUAL(c_g1_len, expected_size_key_share); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_CLIENT_KEY_SHARE_PART1, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_g1_off, c_g1_len); PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer1 + buffer1_off, 512 - buffer1_off, &c_x1_pk_len)); TEST_EQUAL(c_x1_pk_len, expected_size_zk_public); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_CLIENT_ZK_PUBLIC_PART1, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_x1_pk_off, c_x1_pk_len); PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_ZK_PROOF, buffer1 + buffer1_off, 512 - buffer1_off, &c_x1_pr_len)); TEST_LE_U(c_x1_pr_len, max_expected_size_zk_proof); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_CLIENT_ZK_PROOF_PART1, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_x1_pr_off, c_x1_pr_len); PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_KEY_SHARE, buffer1 + buffer1_off, 512 - buffer1_off, &c_g2_len)); TEST_EQUAL(c_g2_len, expected_size_key_share); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_CLIENT_KEY_SHARE_PART2, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_g2_off, c_g2_len); PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer1 + buffer1_off, 512 - buffer1_off, &c_x2_pk_len)); TEST_EQUAL(c_x2_pk_len, expected_size_zk_public); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_CLIENT_ZK_PUBLIC_PART2, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_x2_pk_off, c_x2_pk_len); PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_ZK_PROOF, buffer1 + buffer1_off, 512 - buffer1_off, &c_x2_pr_len)); TEST_LE_U(c_x2_pr_len, max_expected_size_zk_proof); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND1_CLIENT_ZK_PROOF_PART2, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_x2_pr_off, buffer1_off); if (client_input_first == 0) { /* Client first round Input */ status = psa_pake_input(client, PSA_PAKE_STEP_KEY_SHARE, buffer0 + s_g1_off, s_g1_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + s_x1_pk_off, s_x1_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PROOF, buffer0 + s_x1_pr_off, s_x1_pr_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_KEY_SHARE, buffer0 + s_g2_off, s_g2_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + s_x2_pk_off, s_x2_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PROOF, buffer0 + s_x2_pr_off, s_x2_pr_len); DO_ROUND_CHECK_FAILURE(); /* Error didn't trigger, make test fail */ if ((err_stage >= ERR_INJECT_ROUND1_SERVER_KEY_SHARE_PART1) && (err_stage <= ERR_INJECT_ROUND1_SERVER_ZK_PROOF_PART2)) { TEST_ASSERT( !"One of the last psa_pake_input() calls should have returned the expected error."); } } /* Server first round Input */ status = psa_pake_input(server, PSA_PAKE_STEP_KEY_SHARE, buffer1 + c_g1_off, c_g1_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(server, PSA_PAKE_STEP_ZK_PUBLIC, buffer1 + c_x1_pk_off, c_x1_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(server, PSA_PAKE_STEP_ZK_PROOF, buffer1 + c_x1_pr_off, c_x1_pr_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(server, PSA_PAKE_STEP_KEY_SHARE, buffer1 + c_g2_off, c_g2_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(server, PSA_PAKE_STEP_ZK_PUBLIC, buffer1 + c_x2_pk_off, c_x2_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(server, PSA_PAKE_STEP_ZK_PROOF, buffer1 + c_x2_pr_off, c_x2_pr_len); DO_ROUND_CHECK_FAILURE(); /* Error didn't trigger, make test fail */ if ((err_stage >= ERR_INJECT_ROUND1_CLIENT_KEY_SHARE_PART1) && (err_stage <= ERR_INJECT_ROUND1_CLIENT_ZK_PROOF_PART2)) { TEST_ASSERT( !"One of the last psa_pake_input() calls should have returned the expected error."); } break; case PAKE_ROUND_TWO: /* Server second round Output */ buffer0_off = 0; PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_KEY_SHARE, buffer0 + buffer0_off, 512 - buffer0_off, &s_a_len)); TEST_EQUAL(s_a_len, expected_size_key_share); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND2_SERVER_KEY_SHARE, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_a_off, s_a_len); PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + buffer0_off, 512 - buffer0_off, &s_x2s_pk_len)); TEST_EQUAL(s_x2s_pk_len, expected_size_zk_public); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND2_SERVER_ZK_PUBLIC, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_x2s_pk_off, s_x2s_pk_len); PSA_ASSERT(psa_pake_output(server, PSA_PAKE_STEP_ZK_PROOF, buffer0 + buffer0_off, 512 - buffer0_off, &s_x2s_pr_len)); TEST_LE_U(s_x2s_pr_len, max_expected_size_zk_proof); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND2_SERVER_ZK_PROOF, buffer0 + buffer0_off); DO_ROUND_UPDATE_OFFSETS(buffer0_off, s_x2s_pr_off, s_x2s_pr_len); if (client_input_first == 1) { /* Client second round Input */ status = psa_pake_input(client, PSA_PAKE_STEP_KEY_SHARE, buffer0 + s_a_off, s_a_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + s_x2s_pk_off, s_x2s_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PROOF, buffer0 + s_x2s_pr_off, s_x2s_pr_len); DO_ROUND_CHECK_FAILURE(); /* Error didn't trigger, make test fail */ if ((err_stage >= ERR_INJECT_ROUND2_SERVER_KEY_SHARE) && (err_stage <= ERR_INJECT_ROUND2_SERVER_ZK_PROOF)) { TEST_ASSERT( !"One of the last psa_pake_input() calls should have returned the expected error."); } } /* Client second round Output */ buffer1_off = 0; PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_KEY_SHARE, buffer1 + buffer1_off, 512 - buffer1_off, &c_a_len)); TEST_EQUAL(c_a_len, expected_size_key_share); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND2_CLIENT_KEY_SHARE, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_a_off, c_a_len); PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer1 + buffer1_off, 512 - buffer1_off, &c_x2s_pk_len)); TEST_EQUAL(c_x2s_pk_len, expected_size_zk_public); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND2_CLIENT_ZK_PUBLIC, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_x2s_pk_off, c_x2s_pk_len); PSA_ASSERT(psa_pake_output(client, PSA_PAKE_STEP_ZK_PROOF, buffer1 + buffer1_off, 512 - buffer1_off, &c_x2s_pr_len)); TEST_LE_U(c_x2s_pr_len, max_expected_size_zk_proof); DO_ROUND_CONDITIONAL_INJECT( ERR_INJECT_ROUND2_CLIENT_ZK_PROOF, buffer1 + buffer1_off); DO_ROUND_UPDATE_OFFSETS(buffer1_off, c_x2s_pr_off, c_x2s_pr_len); if (client_input_first == 1) { size_t extra_output_at_end_len; DO_ROUND_CONDITIONAL_CHECK_FAILURE( ERR_INJECT_EXTRA_OUTPUT_AT_END, psa_pake_output(client, PSA_PAKE_STEP_KEY_SHARE, buffer1 + c_a_off, 512 - c_a_off, &extra_output_at_end_len)); (void) extra_output_at_end_len; } if (client_input_first == 0) { /* Client second round Input */ status = psa_pake_input(client, PSA_PAKE_STEP_KEY_SHARE, buffer0 + s_a_off, s_a_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PUBLIC, buffer0 + s_x2s_pk_off, s_x2s_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(client, PSA_PAKE_STEP_ZK_PROOF, buffer0 + s_x2s_pr_off, s_x2s_pr_len); DO_ROUND_CHECK_FAILURE(); /* Error didn't trigger, make test fail */ if ((err_stage >= ERR_INJECT_ROUND2_SERVER_KEY_SHARE) && (err_stage <= ERR_INJECT_ROUND2_SERVER_ZK_PROOF)) { TEST_ASSERT( !"One of the last psa_pake_input() calls should have returned the expected error."); } } /* Server second round Input */ status = psa_pake_input(server, PSA_PAKE_STEP_KEY_SHARE, buffer1 + c_a_off, c_a_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(server, PSA_PAKE_STEP_ZK_PUBLIC, buffer1 + c_x2s_pk_off, c_x2s_pk_len); DO_ROUND_CHECK_FAILURE(); status = psa_pake_input(server, PSA_PAKE_STEP_ZK_PROOF, buffer1 + c_x2s_pr_off, c_x2s_pr_len); DO_ROUND_CHECK_FAILURE(); DO_ROUND_CONDITIONAL_CHECK_FAILURE( ERR_INJECT_EXTRA_INPUT_AT_END, psa_pake_input(server, PSA_PAKE_STEP_KEY_SHARE, buffer1 + c_a_off, c_a_len)); /* Error didn't trigger, make test fail */ if ((err_stage >= ERR_INJECT_ROUND2_CLIENT_KEY_SHARE) && (err_stage <= ERR_INJECT_ROUND2_CLIENT_ZK_PROOF)) { TEST_ASSERT( !"One of the last psa_pake_input() calls should have returned the expected error."); } break; } exit: mbedtls_free(buffer0); mbedtls_free(buffer1); } #endif /* PSA_WANT_ALG_JPAKE */ /* * This check is used for functions that might either succeed or fail depending * on the parameters that are passed in from the *.data file: * - in case of success following functions depend on the current one * - in case of failure the test is always terminated. There are two options * here * - terminated successfully if this exact error was expected at this stage * - terminated with failure otherwise (either no error was expected at this * stage or a different error code was expected) */ #define SETUP_ALWAYS_CHECK_STEP(test_function, this_check_err_stage) \ status = test_function; \ if (err_stage != this_check_err_stage) \ { \ PSA_ASSERT(status); \ } \ else \ { \ TEST_EQUAL(status, expected_error); \ goto exit; \ } /* * This check is used for failures that are injected at code level. There's only * 1 input parameter that is relevant in this case and it's the stage at which * the error should be injected. * The check is conditional in this case because, once the error is triggered, * the pake's context structure is compromised and the setup function cannot * proceed further. As a consequence the test is terminated. * The test succeeds if the returned error is exactly the expected one, * otherwise it fails. */ #define SETUP_CONDITIONAL_CHECK_STEP(test_function, this_check_err_stage) \ if (err_stage == this_check_err_stage) \ { \ TEST_EQUAL(test_function, expected_error); \ goto exit; \ } /* END_HEADER */ /* BEGIN_DEPENDENCIES * depends_on:MBEDTLS_PSA_CRYPTO_C * END_DEPENDENCIES */ /* BEGIN_CASE depends_on:PSA_WANT_ALG_JPAKE */ void ecjpake_setup(int alg_arg, int key_type_pw_arg, int key_usage_pw_arg, int primitive_arg, int hash_arg, char *user_arg, char *peer_arg, int test_input, int err_stage_arg, int expected_error_arg) { psa_pake_cipher_suite_t cipher_suite = psa_pake_cipher_suite_init(); psa_pake_operation_t operation = psa_pake_operation_init(); psa_algorithm_t alg = alg_arg; psa_pake_primitive_t primitive = primitive_arg; psa_key_type_t key_type_pw = key_type_pw_arg; psa_key_usage_t key_usage_pw = key_usage_pw_arg; psa_algorithm_t hash_alg = hash_arg; mbedtls_svc_key_id_t key = MBEDTLS_SVC_KEY_ID_INIT; psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT; ecjpake_error_stage_t err_stage = err_stage_arg; psa_status_t expected_error = expected_error_arg; psa_status_t status; unsigned char *output_buffer = NULL; size_t output_len = 0; const uint8_t password[] = "abcd"; uint8_t *user = (uint8_t *) user_arg; uint8_t *peer = (uint8_t *) peer_arg; size_t user_len = strlen(user_arg); size_t peer_len = strlen(peer_arg); psa_key_derivation_operation_t key_derivation = PSA_KEY_DERIVATION_OPERATION_INIT; PSA_INIT(); size_t buf_size = PSA_PAKE_OUTPUT_SIZE(alg, primitive_arg, PSA_PAKE_STEP_KEY_SHARE); ASSERT_ALLOC(output_buffer, buf_size); psa_set_key_usage_flags(&attributes, key_usage_pw); psa_set_key_algorithm(&attributes, alg); psa_set_key_type(&attributes, key_type_pw); PSA_ASSERT(psa_import_key(&attributes, password, sizeof(password), &key)); psa_pake_cs_set_algorithm(&cipher_suite, alg); psa_pake_cs_set_primitive(&cipher_suite, primitive); psa_pake_cs_set_hash(&cipher_suite, hash_alg); PSA_ASSERT(psa_pake_abort(&operation)); if (err_stage == ERR_INJECT_UNINITIALIZED_ACCESS) { TEST_EQUAL(psa_pake_set_user(&operation, user, user_len), expected_error); TEST_EQUAL(psa_pake_set_peer(&operation, peer, peer_len), expected_error); TEST_EQUAL(psa_pake_set_password_key(&operation, key), expected_error); TEST_EQUAL(psa_pake_set_role(&operation, PSA_PAKE_ROLE_SERVER), expected_error); TEST_EQUAL(psa_pake_output(&operation, PSA_PAKE_STEP_KEY_SHARE, output_buffer, 0, &output_len), expected_error); TEST_EQUAL(psa_pake_input(&operation, PSA_PAKE_STEP_KEY_SHARE, output_buffer, 0), expected_error); TEST_EQUAL(psa_pake_get_implicit_key(&operation, &key_derivation), expected_error); goto exit; } SETUP_ALWAYS_CHECK_STEP(psa_pake_setup(&operation, &cipher_suite), ERR_IN_SETUP); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_setup(&operation, &cipher_suite), ERR_INJECT_DUPLICATE_SETUP); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_set_role(&operation, PSA_PAKE_ROLE_SERVER), ERR_INJECT_SET_ROLE); SETUP_ALWAYS_CHECK_STEP(psa_pake_set_role(&operation, PSA_PAKE_ROLE_NONE), ERR_IN_SET_ROLE); SETUP_ALWAYS_CHECK_STEP(psa_pake_set_user(&operation, user, user_len), ERR_IN_SET_USER); SETUP_ALWAYS_CHECK_STEP(psa_pake_set_peer(&operation, peer, peer_len), ERR_IN_SET_PEER); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_set_user(&operation, user, user_len), ERR_DUPLICATE_SET_USER); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_set_peer(&operation, peer, peer_len), ERR_DUPLICATE_SET_PEER); SETUP_ALWAYS_CHECK_STEP(psa_pake_set_password_key(&operation, key), ERR_IN_SET_PASSWORD_KEY); const size_t size_key_share = PSA_PAKE_INPUT_SIZE(alg, primitive, PSA_PAKE_STEP_KEY_SHARE); const size_t size_zk_public = PSA_PAKE_INPUT_SIZE(alg, primitive, PSA_PAKE_STEP_ZK_PUBLIC); const size_t size_zk_proof = PSA_PAKE_INPUT_SIZE(alg, primitive, PSA_PAKE_STEP_ZK_PROOF); if (test_input) { SETUP_CONDITIONAL_CHECK_STEP(psa_pake_input(&operation, PSA_PAKE_STEP_ZK_PROOF, output_buffer, 0), ERR_INJECT_EMPTY_IO_BUFFER); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_input(&operation, PSA_PAKE_STEP_ZK_PROOF + 10, output_buffer, size_zk_proof), ERR_INJECT_UNKNOWN_STEP); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_input(&operation, PSA_PAKE_STEP_ZK_PROOF, output_buffer, size_zk_proof), ERR_INJECT_INVALID_FIRST_STEP) SETUP_ALWAYS_CHECK_STEP(psa_pake_input(&operation, PSA_PAKE_STEP_KEY_SHARE, output_buffer, size_key_share), ERR_IN_INPUT); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_input(&operation, PSA_PAKE_STEP_ZK_PUBLIC, output_buffer, size_zk_public + 1), ERR_INJECT_WRONG_BUFFER_SIZE); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_input(&operation, PSA_PAKE_STEP_ZK_PROOF, output_buffer, size_zk_proof + 1), ERR_INJECT_WRONG_BUFFER_SIZE_2); SETUP_CONDITIONAL_CHECK_STEP( (psa_pake_input(&operation, PSA_PAKE_STEP_ZK_PUBLIC, output_buffer, size_zk_public + 1), psa_pake_input(&operation, PSA_PAKE_STEP_ZK_PUBLIC, output_buffer, size_zk_public)), ERR_INJECT_VALID_OPERATION_AFTER_FAILURE); } else { SETUP_CONDITIONAL_CHECK_STEP(psa_pake_output(&operation, PSA_PAKE_STEP_ZK_PROOF, output_buffer, 0, &output_len), ERR_INJECT_EMPTY_IO_BUFFER); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_output(&operation, PSA_PAKE_STEP_ZK_PROOF + 10, output_buffer, buf_size, &output_len), ERR_INJECT_UNKNOWN_STEP); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_output(&operation, PSA_PAKE_STEP_ZK_PROOF, output_buffer, buf_size, &output_len), ERR_INJECT_INVALID_FIRST_STEP); SETUP_ALWAYS_CHECK_STEP(psa_pake_output(&operation, PSA_PAKE_STEP_KEY_SHARE, output_buffer, buf_size, &output_len), ERR_IN_OUTPUT); TEST_ASSERT(output_len > 0); SETUP_CONDITIONAL_CHECK_STEP(psa_pake_output(&operation, PSA_PAKE_STEP_ZK_PUBLIC, output_buffer, size_zk_public - 1, &output_len), ERR_INJECT_WRONG_BUFFER_SIZE); SETUP_CONDITIONAL_CHECK_STEP( (psa_pake_output(&operation, PSA_PAKE_STEP_ZK_PUBLIC, output_buffer, size_zk_public - 1, &output_len), psa_pake_output(&operation, PSA_PAKE_STEP_ZK_PUBLIC, output_buffer, buf_size, &output_len)), ERR_INJECT_VALID_OPERATION_AFTER_FAILURE); } exit: PSA_ASSERT(psa_destroy_key(key)); PSA_ASSERT(psa_pake_abort(&operation)); mbedtls_free(output_buffer); PSA_DONE(); } /* END_CASE */ /* BEGIN_CASE depends_on:PSA_WANT_ALG_JPAKE */ void ecjpake_rounds_inject(int alg_arg, int primitive_arg, int hash_arg, int client_input_first, data_t *pw_data, int err_stage_arg, int expected_error_arg, int inject_in_second_round) { psa_pake_cipher_suite_t cipher_suite = psa_pake_cipher_suite_init(); psa_pake_operation_t server = psa_pake_operation_init(); psa_pake_operation_t client = psa_pake_operation_init(); psa_algorithm_t alg = alg_arg; psa_algorithm_t hash_alg = hash_arg; mbedtls_svc_key_id_t key = MBEDTLS_SVC_KEY_ID_INIT; psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT; ecjpake_error_stage_t err_stage = err_stage_arg; PSA_INIT(); psa_set_key_usage_flags(&attributes, PSA_KEY_USAGE_DERIVE); psa_set_key_algorithm(&attributes, alg); psa_set_key_type(&attributes, PSA_KEY_TYPE_PASSWORD); PSA_ASSERT(psa_import_key(&attributes, pw_data->x, pw_data->len, &key)); psa_pake_cs_set_algorithm(&cipher_suite, alg); psa_pake_cs_set_primitive(&cipher_suite, primitive_arg); psa_pake_cs_set_hash(&cipher_suite, hash_alg); PSA_ASSERT(psa_pake_setup(&server, &cipher_suite)); PSA_ASSERT(psa_pake_setup(&client, &cipher_suite)); PSA_ASSERT(psa_pake_set_user(&server, jpake_server_id, sizeof(jpake_server_id))); PSA_ASSERT(psa_pake_set_peer(&server, jpake_client_id, sizeof(jpake_client_id))); PSA_ASSERT(psa_pake_set_user(&client, jpake_client_id, sizeof(jpake_client_id))); PSA_ASSERT(psa_pake_set_peer(&client, jpake_server_id, sizeof(jpake_server_id))); PSA_ASSERT(psa_pake_set_password_key(&server, key)); PSA_ASSERT(psa_pake_set_password_key(&client, key)); ecjpake_do_round(alg, primitive_arg, &server, &client, client_input_first, PAKE_ROUND_ONE, inject_in_second_round ? ERR_NONE : err_stage, expected_error_arg); if (!inject_in_second_round && err_stage != ERR_NONE) { goto exit; } ecjpake_do_round(alg, primitive_arg, &server, &client, client_input_first, PAKE_ROUND_TWO, err_stage, expected_error_arg); exit: psa_destroy_key(key); psa_pake_abort(&server); psa_pake_abort(&client); PSA_DONE(); } /* END_CASE */ /* BEGIN_CASE depends_on:PSA_WANT_ALG_JPAKE */ void ecjpake_rounds(int alg_arg, int primitive_arg, int hash_arg, int derive_alg_arg, data_t *pw_data, int client_input_first, int destroy_key, int err_stage_arg) { psa_pake_cipher_suite_t cipher_suite = psa_pake_cipher_suite_init(); psa_pake_operation_t server = psa_pake_operation_init(); psa_pake_operation_t client = psa_pake_operation_init(); psa_algorithm_t alg = alg_arg; psa_algorithm_t hash_alg = hash_arg; psa_algorithm_t derive_alg = derive_alg_arg; mbedtls_svc_key_id_t key = MBEDTLS_SVC_KEY_ID_INIT; psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT; psa_key_derivation_operation_t server_derive = PSA_KEY_DERIVATION_OPERATION_INIT; psa_key_derivation_operation_t client_derive = PSA_KEY_DERIVATION_OPERATION_INIT; ecjpake_error_stage_t err_stage = err_stage_arg; PSA_INIT(); psa_set_key_usage_flags(&attributes, PSA_KEY_USAGE_DERIVE); psa_set_key_algorithm(&attributes, alg); psa_set_key_type(&attributes, PSA_KEY_TYPE_PASSWORD); PSA_ASSERT(psa_import_key(&attributes, pw_data->x, pw_data->len, &key)); psa_pake_cs_set_algorithm(&cipher_suite, alg); psa_pake_cs_set_primitive(&cipher_suite, primitive_arg); psa_pake_cs_set_hash(&cipher_suite, hash_alg); /* Get shared key */ PSA_ASSERT(psa_key_derivation_setup(&server_derive, derive_alg)); PSA_ASSERT(psa_key_derivation_setup(&client_derive, derive_alg)); if (PSA_ALG_IS_TLS12_PRF(derive_alg) || PSA_ALG_IS_TLS12_PSK_TO_MS(derive_alg)) { PSA_ASSERT(psa_key_derivation_input_bytes(&server_derive, PSA_KEY_DERIVATION_INPUT_SEED, (const uint8_t *) "", 0)); PSA_ASSERT(psa_key_derivation_input_bytes(&client_derive, PSA_KEY_DERIVATION_INPUT_SEED, (const uint8_t *) "", 0)); } PSA_ASSERT(psa_pake_setup(&server, &cipher_suite)); PSA_ASSERT(psa_pake_setup(&client, &cipher_suite)); PSA_ASSERT(psa_pake_set_user(&server, jpake_server_id, sizeof(jpake_server_id))); PSA_ASSERT(psa_pake_set_peer(&server, jpake_client_id, sizeof(jpake_client_id))); PSA_ASSERT(psa_pake_set_user(&client, jpake_client_id, sizeof(jpake_client_id))); PSA_ASSERT(psa_pake_set_peer(&client, jpake_server_id, sizeof(jpake_server_id))); PSA_ASSERT(psa_pake_set_password_key(&server, key)); PSA_ASSERT(psa_pake_set_password_key(&client, key)); if (destroy_key == 1) { psa_destroy_key(key); } if (err_stage == ERR_INJECT_ANTICIPATE_KEY_DERIVATION_1) { TEST_EQUAL(psa_pake_get_implicit_key(&server, &server_derive), PSA_ERROR_BAD_STATE); TEST_EQUAL(psa_pake_get_implicit_key(&client, &client_derive), PSA_ERROR_BAD_STATE); goto exit; } /* First round */ ecjpake_do_round(alg, primitive_arg, &server, &client, client_input_first, PAKE_ROUND_ONE, ERR_NONE, PSA_SUCCESS); if (err_stage == ERR_INJECT_ANTICIPATE_KEY_DERIVATION_2) { TEST_EQUAL(psa_pake_get_implicit_key(&server, &server_derive), PSA_ERROR_BAD_STATE); TEST_EQUAL(psa_pake_get_implicit_key(&client, &client_derive), PSA_ERROR_BAD_STATE); goto exit; } /* Second round */ ecjpake_do_round(alg, primitive_arg, &server, &client, client_input_first, PAKE_ROUND_TWO, ERR_NONE, PSA_SUCCESS); PSA_ASSERT(psa_pake_get_implicit_key(&server, &server_derive)); PSA_ASSERT(psa_pake_get_implicit_key(&client, &client_derive)); exit: psa_key_derivation_abort(&server_derive); psa_key_derivation_abort(&client_derive); psa_destroy_key(key); psa_pake_abort(&server); psa_pake_abort(&client); PSA_DONE(); } /* END_CASE */ /* BEGIN_CASE */ void ecjpake_size_macros() { const psa_algorithm_t alg = PSA_ALG_JPAKE; const size_t bits = 256; const psa_pake_primitive_t prim = PSA_PAKE_PRIMITIVE( PSA_PAKE_PRIMITIVE_TYPE_ECC, PSA_ECC_FAMILY_SECP_R1, bits); const psa_key_type_t key_type = PSA_KEY_TYPE_ECC_KEY_PAIR( PSA_ECC_FAMILY_SECP_R1); // https://armmbed.github.io/mbed-crypto/1.1_PAKE_Extension.0-bet.0/html/pake.html#pake-step-types /* The output for KEY_SHARE and ZK_PUBLIC is the same as a public key */ TEST_EQUAL(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_KEY_SHARE), PSA_EXPORT_PUBLIC_KEY_OUTPUT_SIZE(key_type, bits)); TEST_EQUAL(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PUBLIC), PSA_EXPORT_PUBLIC_KEY_OUTPUT_SIZE(key_type, bits)); /* The output for ZK_PROOF is the same bitsize as the curve */ TEST_EQUAL(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PROOF), PSA_BITS_TO_BYTES(bits)); /* Input sizes are the same as output sizes */ TEST_EQUAL(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_KEY_SHARE), PSA_PAKE_INPUT_SIZE(alg, prim, PSA_PAKE_STEP_KEY_SHARE)); TEST_EQUAL(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PUBLIC), PSA_PAKE_INPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PUBLIC)); TEST_EQUAL(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PROOF), PSA_PAKE_INPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PROOF)); /* These inequalities will always hold even when other PAKEs are added */ TEST_LE_U(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_KEY_SHARE), PSA_PAKE_OUTPUT_MAX_SIZE); TEST_LE_U(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PUBLIC), PSA_PAKE_OUTPUT_MAX_SIZE); TEST_LE_U(PSA_PAKE_OUTPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PROOF), PSA_PAKE_OUTPUT_MAX_SIZE); TEST_LE_U(PSA_PAKE_INPUT_SIZE(alg, prim, PSA_PAKE_STEP_KEY_SHARE), PSA_PAKE_INPUT_MAX_SIZE); TEST_LE_U(PSA_PAKE_INPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PUBLIC), PSA_PAKE_INPUT_MAX_SIZE); TEST_LE_U(PSA_PAKE_INPUT_SIZE(alg, prim, PSA_PAKE_STEP_ZK_PROOF), PSA_PAKE_INPUT_MAX_SIZE); } /* END_CASE */ /* BEGIN_CASE depends_on:PSA_WANT_ALG_JPAKE */ void pake_input_getters_password() { psa_pake_cipher_suite_t cipher_suite = psa_pake_cipher_suite_init(); psa_pake_operation_t operation = psa_pake_operation_init(); mbedtls_svc_key_id_t key = MBEDTLS_SVC_KEY_ID_INIT; psa_key_attributes_t attributes = PSA_KEY_ATTRIBUTES_INIT; const char *password = "password"; uint8_t password_ret[20] = { 0 }; // max key length is 20 bytes size_t password_len_ret = 0; size_t buffer_len_ret = 0; psa_pake_primitive_t primitive = PSA_PAKE_PRIMITIVE( PSA_PAKE_PRIMITIVE_TYPE_ECC, PSA_ECC_FAMILY_SECP_R1, 256); PSA_INIT(); psa_pake_cs_set_algorithm(&cipher_suite, PSA_ALG_JPAKE); psa_pake_cs_set_primitive(&cipher_suite, primitive); psa_pake_cs_set_hash(&cipher_suite, PSA_ALG_SHA_256); psa_set_key_usage_flags(&attributes, PSA_KEY_USAGE_DERIVE); psa_set_key_algorithm(&attributes, PSA_ALG_JPAKE); psa_set_key_type(&attributes, PSA_KEY_TYPE_PASSWORD); PSA_ASSERT(psa_pake_setup(&operation, &cipher_suite)); PSA_ASSERT(psa_import_key(&attributes, (uint8_t *) password, strlen(password), &key)); TEST_EQUAL(psa_crypto_driver_pake_get_password(&operation.data.inputs, (uint8_t *) &password_ret, 10, &buffer_len_ret), PSA_ERROR_BAD_STATE); TEST_EQUAL(psa_crypto_driver_pake_get_password_len(&operation.data.inputs, &password_len_ret), PSA_ERROR_BAD_STATE); PSA_ASSERT(psa_pake_set_password_key(&operation, key)); TEST_EQUAL(psa_crypto_driver_pake_get_password_len(&operation.data.inputs, &password_len_ret), PSA_SUCCESS); TEST_EQUAL(password_len_ret, strlen(password)); TEST_EQUAL(psa_crypto_driver_pake_get_password(&operation.data.inputs, (uint8_t *) &password_ret, password_len_ret - 1, &buffer_len_ret), PSA_ERROR_BUFFER_TOO_SMALL); TEST_EQUAL(psa_crypto_driver_pake_get_password(&operation.data.inputs, (uint8_t *) &password_ret, password_len_ret, &buffer_len_ret), PSA_SUCCESS); ASSERT_COMPARE(password_ret, buffer_len_ret, password, strlen(password)); exit: PSA_ASSERT(psa_destroy_key(key)); PSA_ASSERT(psa_pake_abort(&operation)); PSA_DONE(); } /* END_CASE */ /* BEGIN_CASE depends_on:PSA_WANT_ALG_JPAKE */ void pake_input_getters_cipher_suite() { psa_pake_cipher_suite_t cipher_suite = psa_pake_cipher_suite_init(); psa_pake_operation_t operation = psa_pake_operation_init(); psa_pake_cipher_suite_t cipher_suite_ret = psa_pake_cipher_suite_init(); psa_pake_primitive_t primitive = PSA_PAKE_PRIMITIVE( PSA_PAKE_PRIMITIVE_TYPE_ECC, PSA_ECC_FAMILY_SECP_R1, 256); PSA_INIT(); psa_pake_cs_set_algorithm(&cipher_suite, PSA_ALG_JPAKE); psa_pake_cs_set_primitive(&cipher_suite, primitive); psa_pake_cs_set_hash(&cipher_suite, PSA_ALG_SHA_256); TEST_EQUAL(psa_crypto_driver_pake_get_cipher_suite(&operation.data.inputs, &cipher_suite_ret), PSA_ERROR_BAD_STATE); PSA_ASSERT(psa_pake_setup(&operation, &cipher_suite)); TEST_EQUAL(psa_crypto_driver_pake_get_cipher_suite(&operation.data.inputs, &cipher_suite_ret), PSA_SUCCESS); ASSERT_COMPARE(&cipher_suite_ret, sizeof(cipher_suite_ret), &cipher_suite, sizeof(cipher_suite)); exit: PSA_ASSERT(psa_pake_abort(&operation)); PSA_DONE(); } /* END_CASE */ /* BEGIN_CASE depends_on:PSA_WANT_ALG_JPAKE */ void pake_input_getters_user() { psa_pake_cipher_suite_t cipher_suite = psa_pake_cipher_suite_init(); psa_pake_operation_t operation = psa_pake_operation_init(); const char *users[] = { "client", "server", "other" }; uint8_t user_ret[20] = { 0 }; // max user length is 20 bytes size_t user_len_ret = 0; size_t buffer_len_ret = 0; psa_pake_primitive_t primitive = PSA_PAKE_PRIMITIVE( PSA_PAKE_PRIMITIVE_TYPE_ECC, PSA_ECC_FAMILY_SECP_R1, 256); PSA_INIT(); psa_pake_cs_set_algorithm(&cipher_suite, PSA_ALG_JPAKE); psa_pake_cs_set_primitive(&cipher_suite, primitive); psa_pake_cs_set_hash(&cipher_suite, PSA_ALG_SHA_256); for (size_t i = 0; i < ARRAY_LENGTH(users); i++) { uint8_t *user = (uint8_t *) users[i]; uint8_t user_len = strlen(users[i]); PSA_ASSERT(psa_pake_abort(&operation)); PSA_ASSERT(psa_pake_setup(&operation, &cipher_suite)); TEST_EQUAL(psa_crypto_driver_pake_get_user(&operation.data.inputs, (uint8_t *) &user_ret, 10, &buffer_len_ret), PSA_ERROR_BAD_STATE); TEST_EQUAL(psa_crypto_driver_pake_get_user_len(&operation.data.inputs, &user_len_ret), PSA_ERROR_BAD_STATE); PSA_ASSERT(psa_pake_set_user(&operation, user, user_len)); TEST_EQUAL(psa_crypto_driver_pake_get_user_len(&operation.data.inputs, &user_len_ret), PSA_SUCCESS); TEST_EQUAL(user_len_ret, user_len); TEST_EQUAL(psa_crypto_driver_pake_get_user(&operation.data.inputs, (uint8_t *) &user_ret, user_len_ret - 1, &buffer_len_ret), PSA_ERROR_BUFFER_TOO_SMALL); TEST_EQUAL(psa_crypto_driver_pake_get_user(&operation.data.inputs, (uint8_t *) &user_ret, user_len_ret, &buffer_len_ret), PSA_SUCCESS); ASSERT_COMPARE(user_ret, buffer_len_ret, user, user_len); } exit: PSA_ASSERT(psa_pake_abort(&operation)); PSA_DONE(); } /* END_CASE */ /* BEGIN_CASE depends_on:PSA_WANT_ALG_JPAKE */ void pake_input_getters_peer() { psa_pake_cipher_suite_t cipher_suite = psa_pake_cipher_suite_init(); psa_pake_operation_t operation = psa_pake_operation_init(); const char *peers[] = { "client", "server", "other" }; uint8_t peer_ret[20] = { 0 }; // max peer length is 20 bytes size_t peer_len_ret = 0; size_t buffer_len_ret = 0; psa_pake_primitive_t primitive = PSA_PAKE_PRIMITIVE( PSA_PAKE_PRIMITIVE_TYPE_ECC, PSA_ECC_FAMILY_SECP_R1, 256); PSA_INIT(); psa_pake_cs_set_algorithm(&cipher_suite, PSA_ALG_JPAKE); psa_pake_cs_set_primitive(&cipher_suite, primitive); psa_pake_cs_set_hash(&cipher_suite, PSA_ALG_SHA_256); for (size_t i = 0; i < ARRAY_LENGTH(peers); i++) { uint8_t *peer = (uint8_t *) peers[i]; uint8_t peer_len = strlen(peers[i]); PSA_ASSERT(psa_pake_abort(&operation)); PSA_ASSERT(psa_pake_setup(&operation, &cipher_suite)); TEST_EQUAL(psa_crypto_driver_pake_get_peer(&operation.data.inputs, (uint8_t *) &peer_ret, 10, &buffer_len_ret), PSA_ERROR_BAD_STATE); TEST_EQUAL(psa_crypto_driver_pake_get_peer_len(&operation.data.inputs, &peer_len_ret), PSA_ERROR_BAD_STATE); PSA_ASSERT(psa_pake_set_peer(&operation, peer, peer_len)); TEST_EQUAL(psa_crypto_driver_pake_get_peer_len(&operation.data.inputs, &peer_len_ret), PSA_SUCCESS); TEST_EQUAL(peer_len_ret, peer_len); TEST_EQUAL(psa_crypto_driver_pake_get_peer(&operation.data.inputs, (uint8_t *) &peer_ret, peer_len_ret - 1, &buffer_len_ret), PSA_ERROR_BUFFER_TOO_SMALL); TEST_EQUAL(psa_crypto_driver_pake_get_peer(&operation.data.inputs, (uint8_t *) &peer_ret, peer_len_ret, &buffer_len_ret), PSA_SUCCESS); ASSERT_COMPARE(peer_ret, buffer_len_ret, peer, peer_len); } exit: PSA_ASSERT(psa_pake_abort(&operation)); PSA_DONE(); } /* END_CASE */