/* * Copyright (c) 2020 Nordic Semiconductor ASA * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include "zcbor_decode.h" #include "zcbor_common.h" /** Return value length from additional value. */ static size_t additional_len(uint8_t additional) { if (ZCBOR_VALUE_IS_1_BYTE <= additional && additional <= ZCBOR_VALUE_IS_8_BYTES) { /* 24 => 1 * 25 => 2 * 26 => 4 * 27 => 8 */ return 1U << (additional - ZCBOR_VALUE_IS_1_BYTE); } return 0; } /** Extract the major type, i.e. the first 3 bits of the header byte. */ #define MAJOR_TYPE(header_byte) ((zcbor_major_type_t)(((header_byte) >> 5) & 0x7)) /** Extract the additional info, i.e. the last 5 bits of the header byte. */ #define ADDITIONAL(header_byte) ((header_byte) & 0x1F) #define FAIL_AND_DECR_IF(expr, err) \ do {\ if (expr) { \ (state->payload)--; \ ZCBOR_ERR(err); \ } \ } while(0) static bool initial_checks(zcbor_state_t *state) { ZCBOR_CHECK_ERROR(); ZCBOR_CHECK_PAYLOAD(); return true; } static bool type_check(zcbor_state_t *state, zcbor_major_type_t exp_major_type) { if (!initial_checks(state)) { ZCBOR_FAIL(); } zcbor_major_type_t major_type = MAJOR_TYPE(*state->payload); if (major_type != exp_major_type) { ZCBOR_ERR(ZCBOR_ERR_WRONG_TYPE); } return true; } #define INITIAL_CHECKS() \ do {\ if (!initial_checks(state)) { \ ZCBOR_FAIL(); \ } \ } while(0) #define INITIAL_CHECKS_WITH_TYPE(exp_major_type) \ do {\ if (!type_check(state, exp_major_type)) { \ ZCBOR_FAIL(); \ } \ } while(0) static void err_restore(zcbor_state_t *state, int err) { state->payload = state->payload_bak; state->elem_count++; zcbor_error(state, err); } #define ERR_RESTORE(err) \ do { \ err_restore(state, err); \ ZCBOR_FAIL(); \ } while(0) #define FAIL_RESTORE() \ do { \ state->payload = state->payload_bak; \ state->elem_count++; \ ZCBOR_FAIL(); \ } while(0) /** Get a single value. * * @details @p ppayload must point to the header byte. This function will * retrieve the value (either from within the additional info, or from * the subsequent bytes) and return it in the result. The result can * have arbitrary length. * * The function will also validate * - Min/max constraints on the value. * - That @p payload doesn't overrun past @p payload_end. * - That @p elem_count has not been exhausted. * * @p ppayload and @p elem_count are updated if the function * succeeds. If not, they are left unchanged. * * CBOR values are always big-endian, so this function converts from * big to little-endian if necessary (@ref CONFIG_BIG_ENDIAN). */ static bool value_extract(zcbor_state_t *state, void *const result, size_t result_len) { zcbor_trace(); zcbor_assert_state(result_len != 0, "0-length result not supported.\r\n"); zcbor_assert_state(result != NULL, NULL); INITIAL_CHECKS(); ZCBOR_ERR_IF((state->elem_count == 0), ZCBOR_ERR_LOW_ELEM_COUNT); uint8_t *u8_result = (uint8_t *)result; uint8_t additional = ADDITIONAL(*state->payload); state->payload_bak = state->payload; (state->payload)++; memset(result, 0, result_len); if (additional <= ZCBOR_VALUE_IN_HEADER) { #ifdef CONFIG_BIG_ENDIAN u8_result[result_len - 1] = additional; #else u8_result[0] = additional; #endif /* CONFIG_BIG_ENDIAN */ } else { size_t len = additional_len(additional); FAIL_AND_DECR_IF(len > result_len, ZCBOR_ERR_INT_SIZE); FAIL_AND_DECR_IF(len == 0, ZCBOR_ERR_ADDITIONAL_INVAL); // additional_len() did not recognize the additional value. FAIL_AND_DECR_IF((state->payload + len) > state->payload_end, ZCBOR_ERR_NO_PAYLOAD); #ifdef CONFIG_BIG_ENDIAN memcpy(&u8_result[result_len - len], state->payload, len); #else for (size_t i = 0; i < len; i++) { u8_result[i] = (state->payload)[len - i - 1]; } #endif /* CONFIG_BIG_ENDIAN */ (state->payload) += len; } (state->elem_count)--; return true; } bool zcbor_int_decode(zcbor_state_t *state, void *result_int, size_t int_size) { INITIAL_CHECKS(); zcbor_major_type_t major_type = MAJOR_TYPE(*state->payload); uint8_t *result_uint8 = (uint8_t *)result_int; int8_t *result_int8 = (int8_t *)result_int; if (major_type != ZCBOR_MAJOR_TYPE_PINT && major_type != ZCBOR_MAJOR_TYPE_NINT) { /* Value to be read doesn't have the right type. */ ZCBOR_ERR(ZCBOR_ERR_WRONG_TYPE); } if (!value_extract(state, result_int, int_size)) { ZCBOR_FAIL(); } #ifdef CONFIG_BIG_ENDIAN if (result_int8[0] < 0) { #else if (result_int8[int_size - 1] < 0) { #endif /* Value is too large to fit in a signed integer. */ ERR_RESTORE(ZCBOR_ERR_INT_SIZE); } if (major_type == ZCBOR_MAJOR_TYPE_NINT) { /* Convert from CBOR's representation by flipping all bits. */ for (unsigned int i = 0; i < int_size; i++) { result_uint8[i] = (uint8_t)~result_uint8[i]; } } return true; } bool zcbor_int32_decode(zcbor_state_t *state, int32_t *result) { return zcbor_int_decode(state, result, sizeof(*result)); } bool zcbor_int64_decode(zcbor_state_t *state, int64_t *result) { return zcbor_int_decode(state, result, sizeof(*result)); } bool zcbor_uint_decode(zcbor_state_t *state, void *result_uint, size_t uint_size) { INITIAL_CHECKS_WITH_TYPE(ZCBOR_MAJOR_TYPE_PINT); if (!value_extract(state, result_uint, uint_size)) { zcbor_print("uint with size %d failed.\r\n", uint_size); ZCBOR_FAIL(); } return true; } bool zcbor_uint32_decode(zcbor_state_t *state, uint32_t *result) { return zcbor_uint_decode(state, result, sizeof(*result)); } bool zcbor_int32_expect_union(zcbor_state_t *state, int32_t result) { if (!zcbor_union_elem_code(state)) { ZCBOR_FAIL(); } return zcbor_int32_expect(state, result); } bool zcbor_int64_expect_union(zcbor_state_t *state, int64_t result) { if (!zcbor_union_elem_code(state)) { ZCBOR_FAIL(); } return zcbor_int64_expect(state, result); } bool zcbor_uint32_expect_union(zcbor_state_t *state, uint32_t result) { if (!zcbor_union_elem_code(state)) { ZCBOR_FAIL(); } return zcbor_uint32_expect(state, result); } bool zcbor_uint64_expect_union(zcbor_state_t *state, uint64_t result) { if (!zcbor_union_elem_code(state)) { ZCBOR_FAIL(); } return zcbor_uint64_expect(state, result); } bool zcbor_int32_expect(zcbor_state_t *state, int32_t result) { return zcbor_int64_expect(state, result); } bool zcbor_int64_expect(zcbor_state_t *state, int64_t result) { int64_t value; if (!zcbor_int64_decode(state, &value)) { ZCBOR_FAIL(); } if (value != result) { zcbor_print("%" PRIi64 " != %" PRIi64 "\r\n", value, result); ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } bool zcbor_uint64_decode(zcbor_state_t *state, uint64_t *result) { return zcbor_uint_decode(state, result, sizeof(*result)); } #ifdef ZCBOR_SUPPORTS_SIZE_T bool zcbor_size_decode(zcbor_state_t *state, size_t *result) { return zcbor_uint_decode(state, result, sizeof(*result)); } #endif bool zcbor_uint32_expect(zcbor_state_t *state, uint32_t result) { return zcbor_uint64_expect(state, result); } bool zcbor_uint64_expect(zcbor_state_t *state, uint64_t result) { uint64_t value; if (!zcbor_uint64_decode(state, &value)) { ZCBOR_FAIL(); } if (value != result) { zcbor_print("%" PRIu64 " != %" PRIu64 "\r\n", value, result); ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } #ifdef ZCBOR_SUPPORTS_SIZE_T bool zcbor_size_expect(zcbor_state_t *state, size_t result) { return zcbor_uint64_expect(state, result); } #endif static bool str_start_decode(zcbor_state_t *state, struct zcbor_string *result, zcbor_major_type_t exp_major_type) { INITIAL_CHECKS_WITH_TYPE(exp_major_type); if (!value_extract(state, &result->len, sizeof(result->len))) { ZCBOR_FAIL(); } result->value = state->payload; return true; } static bool str_start_decode_with_overflow_check(zcbor_state_t *state, struct zcbor_string *result, zcbor_major_type_t exp_major_type) { bool res = str_start_decode(state, result, exp_major_type); if (!res) { ZCBOR_FAIL(); } /* Casting to size_t is safe since str_start_decode() checks that * payload_end is bigger that payload. */ if (result->len > (size_t)(state->payload_end - state->payload)) { zcbor_print("error: 0x%zu > 0x%zu\r\n", result->len, (state->payload_end - state->payload)); ERR_RESTORE(ZCBOR_ERR_NO_PAYLOAD); } return true; } bool zcbor_bstr_start_decode(zcbor_state_t *state, struct zcbor_string *result) { struct zcbor_string dummy; if (result == NULL) { result = &dummy; } if(!str_start_decode_with_overflow_check(state, result, ZCBOR_MAJOR_TYPE_BSTR)) { ZCBOR_FAIL(); } if (!zcbor_new_backup(state, ZCBOR_MAX_ELEM_COUNT)) { FAIL_RESTORE(); } state->payload_end = result->value + result->len; return true; } bool zcbor_bstr_end_decode(zcbor_state_t *state) { ZCBOR_ERR_IF(state->payload != state->payload_end, ZCBOR_ERR_PAYLOAD_NOT_CONSUMED); if (!zcbor_process_backup(state, ZCBOR_FLAG_RESTORE | ZCBOR_FLAG_CONSUME | ZCBOR_FLAG_TRANSFER_PAYLOAD, ZCBOR_MAX_ELEM_COUNT)) { ZCBOR_FAIL(); } return true; } static void partition_fragment(const zcbor_state_t *state, struct zcbor_string_fragment *result) { result->fragment.len = MIN(result->fragment.len, (size_t)state->payload_end - (size_t)state->payload); } static bool start_decode_fragment(zcbor_state_t *state, struct zcbor_string_fragment *result, zcbor_major_type_t exp_major_type) { if(!str_start_decode(state, &result->fragment, exp_major_type)) { ZCBOR_FAIL(); } result->offset = 0; result->total_len = result->fragment.len; partition_fragment(state, result); state->payload_end = state->payload + result->fragment.len; return true; } bool zcbor_bstr_start_decode_fragment(zcbor_state_t *state, struct zcbor_string_fragment *result) { if (!start_decode_fragment(state, result, ZCBOR_MAJOR_TYPE_BSTR)) { ZCBOR_FAIL(); } if (!zcbor_new_backup(state, ZCBOR_MAX_ELEM_COUNT)) { FAIL_RESTORE(); } return true; } void zcbor_next_fragment(zcbor_state_t *state, struct zcbor_string_fragment *prev_fragment, struct zcbor_string_fragment *result) { memcpy(result, prev_fragment, sizeof(*result)); result->fragment.value = state->payload_mut; result->offset += prev_fragment->fragment.len; result->fragment.len = result->total_len - result->offset; partition_fragment(state, result); zcbor_print("New fragment length %zu\r\n", result->fragment.len); state->payload += result->fragment.len; } void zcbor_bstr_next_fragment(zcbor_state_t *state, struct zcbor_string_fragment *prev_fragment, struct zcbor_string_fragment *result) { memcpy(result, prev_fragment, sizeof(*result)); result->fragment.value = state->payload_mut; result->offset += prev_fragment->fragment.len; result->fragment.len = result->total_len - result->offset; partition_fragment(state, result); zcbor_print("fragment length %zu\r\n", result->fragment.len); state->payload_end = state->payload + result->fragment.len; } bool zcbor_is_last_fragment(const struct zcbor_string_fragment *fragment) { return (fragment->total_len == (fragment->offset + fragment->fragment.len)); } static bool str_decode(zcbor_state_t *state, struct zcbor_string *result, zcbor_major_type_t exp_major_type) { if (!str_start_decode_with_overflow_check(state, result, exp_major_type)) { ZCBOR_FAIL(); } state->payload += result->len; return true; } static bool str_decode_fragment(zcbor_state_t *state, struct zcbor_string_fragment *result, zcbor_major_type_t exp_major_type) { if (!start_decode_fragment(state, result, exp_major_type)) { ZCBOR_FAIL(); } (state->payload) += result->fragment.len; return true; } static bool str_expect(zcbor_state_t *state, struct zcbor_string *result, zcbor_major_type_t exp_major_type) { struct zcbor_string tmp_result; if (!str_decode(state, &tmp_result, exp_major_type)) { ZCBOR_FAIL(); } if (!zcbor_compare_strings(&tmp_result, result)) { ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } bool zcbor_bstr_decode(zcbor_state_t *state, struct zcbor_string *result) { return str_decode(state, result, ZCBOR_MAJOR_TYPE_BSTR); } bool zcbor_bstr_decode_fragment(zcbor_state_t *state, struct zcbor_string_fragment *result) { return str_decode_fragment(state, result, ZCBOR_MAJOR_TYPE_BSTR); } bool zcbor_bstr_expect(zcbor_state_t *state, struct zcbor_string *result) { return str_expect(state, result, ZCBOR_MAJOR_TYPE_BSTR); } bool zcbor_tstr_decode(zcbor_state_t *state, struct zcbor_string *result) { return str_decode(state, result, ZCBOR_MAJOR_TYPE_TSTR); } bool zcbor_tstr_decode_fragment(zcbor_state_t *state, struct zcbor_string_fragment *result) { return str_decode_fragment(state, result, ZCBOR_MAJOR_TYPE_TSTR); } bool zcbor_tstr_expect(zcbor_state_t *state, struct zcbor_string *result) { return str_expect(state, result, ZCBOR_MAJOR_TYPE_TSTR); } static bool list_map_start_decode(zcbor_state_t *state, zcbor_major_type_t exp_major_type) { size_t new_elem_count; bool indefinite_length_array = false; INITIAL_CHECKS_WITH_TYPE(exp_major_type); if (ADDITIONAL(*state->payload) == ZCBOR_VALUE_IS_INDEFINITE_LENGTH) { /* Indefinite length array. */ new_elem_count = ZCBOR_LARGE_ELEM_COUNT; ZCBOR_ERR_IF(state->elem_count == 0, ZCBOR_ERR_LOW_ELEM_COUNT); indefinite_length_array = true; state->payload++; state->elem_count--; } else { if (!value_extract(state, &new_elem_count, sizeof(new_elem_count))) { ZCBOR_FAIL(); } } if (!zcbor_new_backup(state, new_elem_count)) { FAIL_RESTORE(); } state->indefinite_length_array = indefinite_length_array; return true; } bool zcbor_list_start_decode(zcbor_state_t *state) { return list_map_start_decode(state, ZCBOR_MAJOR_TYPE_LIST); } bool zcbor_map_start_decode(zcbor_state_t *state) { bool ret = list_map_start_decode(state, ZCBOR_MAJOR_TYPE_MAP); if (ret && !state->indefinite_length_array) { if (state->elem_count >= (ZCBOR_MAX_ELEM_COUNT / 2)) { /* The new elem_count is too large. */ ERR_RESTORE(ZCBOR_ERR_INT_SIZE); } state->elem_count *= 2; } return ret; } static bool array_end_expect(zcbor_state_t *state) { INITIAL_CHECKS(); ZCBOR_ERR_IF(*state->payload != 0xFF, ZCBOR_ERR_WRONG_TYPE); state->payload++; return true; } static bool list_map_end_decode(zcbor_state_t *state) { size_t max_elem_count = 0; if (state->indefinite_length_array) { if (!array_end_expect(state)) { ZCBOR_FAIL(); } max_elem_count = ZCBOR_MAX_ELEM_COUNT; state->indefinite_length_array = false; } if (!zcbor_process_backup(state, ZCBOR_FLAG_RESTORE | ZCBOR_FLAG_CONSUME | ZCBOR_FLAG_TRANSFER_PAYLOAD, max_elem_count)) { ZCBOR_FAIL(); } return true; } bool zcbor_list_end_decode(zcbor_state_t *state) { return list_map_end_decode(state); } bool zcbor_map_end_decode(zcbor_state_t *state) { return list_map_end_decode(state); } bool zcbor_list_map_end_force_decode(zcbor_state_t *state) { if (!zcbor_process_backup(state, ZCBOR_FLAG_RESTORE | ZCBOR_FLAG_CONSUME | ZCBOR_FLAG_TRANSFER_PAYLOAD, ZCBOR_MAX_ELEM_COUNT)) { ZCBOR_FAIL(); } return true; } bool zcbor_simple_decode(zcbor_state_t *state, uint8_t *result) { INITIAL_CHECKS_WITH_TYPE(ZCBOR_MAJOR_TYPE_SIMPLE); /* Simple values must be 0-23 (additional is 0-23) or 24-255 (additional is 24). * Other additional values are not considered simple values. */ ZCBOR_ERR_IF(ADDITIONAL(*state->payload) > 24, ZCBOR_ERR_WRONG_TYPE); if (!value_extract(state, result, sizeof(*result))) { ZCBOR_FAIL(); } return true; } bool zcbor_simple_expect(zcbor_state_t *state, uint8_t result) { uint8_t value; if (!zcbor_simple_decode(state, &value)) { ZCBOR_FAIL(); } if (value != result) { zcbor_print("simple value %u != %u\r\n", value, result); ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } bool zcbor_nil_expect(zcbor_state_t *state, void *unused) { (void)unused; return zcbor_simple_expect(state, 22); } bool zcbor_undefined_expect(zcbor_state_t *state, void *unused) { (void)unused; return zcbor_simple_expect(state, 23); } bool zcbor_bool_decode(zcbor_state_t *state, bool *result) { uint8_t value; if (!zcbor_simple_decode(state, &value)) { ZCBOR_FAIL(); } value -= ZCBOR_BOOL_TO_SIMPLE; if (value > 1) { ERR_RESTORE(ZCBOR_ERR_WRONG_TYPE); } *result = value; zcbor_print("boolval: %u\r\n", *result); return true; } bool zcbor_bool_expect(zcbor_state_t *state, bool result) { return zcbor_simple_expect(state, (uint8_t)(!!result) + ZCBOR_BOOL_TO_SIMPLE); } static bool float_check(zcbor_state_t *state, uint8_t additional_val) { INITIAL_CHECKS_WITH_TYPE(ZCBOR_MAJOR_TYPE_SIMPLE); ZCBOR_ERR_IF(ADDITIONAL(*state->payload) != additional_val, ZCBOR_ERR_FLOAT_SIZE); return true; } bool zcbor_float16_bytes_decode(zcbor_state_t *state, uint16_t *result) { ZCBOR_FAIL_IF(!float_check(state, ZCBOR_VALUE_IS_2_BYTES)); if (!value_extract(state, result, sizeof(*result))) { ZCBOR_FAIL(); } return true; } bool zcbor_float16_bytes_expect(zcbor_state_t *state, uint16_t result) { uint16_t value; if (!zcbor_float16_bytes_decode(state, &value)) { ZCBOR_FAIL(); } if (value != result) { ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } /* Float16: */ #define F16_SIGN_OFFS 15 /* Bit offset of the sign bit. */ #define F16_EXPO_OFFS 10 /* Bit offset of the exponent. */ #define F16_EXPO_MSK 0x1F /* Bitmask for the exponent (right shifted by F16_EXPO_OFFS). */ #define F16_MANTISSA_MSK 0x3FF /* Bitmask for the mantissa. */ #define F16_MIN_EXPO 24 /* Negative exponent of the non-zero float16 value closest to 0 (2^-24) */ #define F16_MIN (1.0 / (1 << F16_MIN_EXPO)) /* The non-zero float16 value closest to 0 (2^-24) */ #define F16_BIAS 15 /* The exponent bias of normalized float16 values. */ /* Float32: */ #define F32_SIGN_OFFS 31 /* Bit offset of the sign bit. */ #define F32_EXPO_OFFS 23 /* Bit offset of the exponent. */ #define F32_EXPO_MSK 0xFF /* Bitmask for the exponent (right shifted by F32_EXPO_OFFS). */ #define F32_BIAS 127 /* The exponent bias of normalized float32 values. */ bool zcbor_float16_decode(zcbor_state_t *state, float *result) { uint16_t value16; if (!zcbor_float16_bytes_decode(state, &value16)) { ZCBOR_FAIL(); } uint32_t sign = value16 >> F16_SIGN_OFFS; uint32_t expo = (value16 >> F16_EXPO_OFFS) & F16_EXPO_MSK; uint32_t mantissa = value16 & F16_MANTISSA_MSK; if ((expo == 0) && (mantissa != 0)) { /* Subnormal float16 - convert to normalized float32 */ *result = ((float)mantissa * (float)F16_MIN) * (sign ? -1 : 1); } else { /* Normalized / zero / Infinity / NaN */ uint32_t new_expo = (expo == 0 /* zero */) ? 0 : (expo == F16_EXPO_MSK /* inf/NaN */) ? F32_EXPO_MSK : (expo + (F32_BIAS - F16_BIAS)); uint32_t value32 = (sign << F32_SIGN_OFFS) | (new_expo << F32_EXPO_OFFS) | (mantissa << (F32_EXPO_OFFS - F16_EXPO_OFFS)); memcpy(result, &value32, sizeof(*result)); } return true; } bool zcbor_float16_expect(zcbor_state_t *state, float result) { float value; if (!zcbor_float16_decode(state, &value)) { ZCBOR_FAIL(); } if (value != result) { ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } bool zcbor_float32_decode(zcbor_state_t *state, float *result) { ZCBOR_FAIL_IF(!float_check(state, ZCBOR_VALUE_IS_4_BYTES)); if (!value_extract(state, result, sizeof(*result))) { ZCBOR_FAIL(); } return true; } bool zcbor_float32_expect(zcbor_state_t *state, float result) { float value; if (!zcbor_float32_decode(state, &value)) { ZCBOR_FAIL(); } if (value != result) { ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } bool zcbor_float16_32_decode(zcbor_state_t *state, float *result) { if (zcbor_float16_decode(state, result)) { /* Do nothing */ } else if (!zcbor_float32_decode(state, result)) { ZCBOR_FAIL(); } return true; } bool zcbor_float16_32_expect(zcbor_state_t *state, float result) { if (zcbor_float16_expect(state, (float)result)) { /* Do nothing */ } else if (!zcbor_float32_expect(state, result)) { ZCBOR_FAIL(); } return true; } bool zcbor_float64_decode(zcbor_state_t *state, double *result) { ZCBOR_FAIL_IF(!float_check(state, ZCBOR_VALUE_IS_8_BYTES)); if (!value_extract(state, result, sizeof(*result))) { ZCBOR_FAIL(); } return true; } bool zcbor_float64_expect(zcbor_state_t *state, double result) { double value; if (!zcbor_float64_decode(state, &value)) { ZCBOR_FAIL(); } if (value != result) { ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } bool zcbor_float32_64_decode(zcbor_state_t *state, double *result) { float float_result; if (zcbor_float32_decode(state, &float_result)) { *result = (double)float_result; } else if (!zcbor_float64_decode(state, result)) { ZCBOR_FAIL(); } return true; } bool zcbor_float32_64_expect(zcbor_state_t *state, double result) { if (zcbor_float64_expect(state, result)) { /* Do nothing */ } else if (!zcbor_float32_expect(state, (float)result)) { ZCBOR_FAIL(); } return true; } bool zcbor_float_decode(zcbor_state_t *state, double *result) { float float_result; if (zcbor_float16_decode(state, &float_result)) { *result = (double)float_result; } else if (zcbor_float32_decode(state, &float_result)) { *result = (double)float_result; } else if (!zcbor_float64_decode(state, result)) { ZCBOR_FAIL(); } return true; } bool zcbor_float_expect(zcbor_state_t *state, double result) { if (zcbor_float16_expect(state, (float)result)) { /* Do nothing */ } else if (zcbor_float32_expect(state, (float)result)) { /* Do nothing */ } else if (!zcbor_float64_expect(state, result)) { ZCBOR_FAIL(); } return true; } bool zcbor_any_skip(zcbor_state_t *state, void *result) { zcbor_assert_state(result == NULL, "'any' type cannot be returned, only skipped.\r\n"); (void)result; INITIAL_CHECKS(); zcbor_major_type_t major_type = MAJOR_TYPE(*state->payload); uint8_t additional = ADDITIONAL(*state->payload); uint64_t value = 0; /* In case of indefinite_length_array. */ zcbor_state_t state_copy; memcpy(&state_copy, state, sizeof(zcbor_state_t)); while (major_type == ZCBOR_MAJOR_TYPE_TAG) { uint32_t tag_dummy; if (!zcbor_tag_decode(&state_copy, &tag_dummy)) { ZCBOR_FAIL(); } ZCBOR_ERR_IF(state_copy.payload >= state_copy.payload_end, ZCBOR_ERR_NO_PAYLOAD); major_type = MAJOR_TYPE(*state_copy.payload); additional = ADDITIONAL(*state_copy.payload); } const bool indefinite_length_array = ((additional == ZCBOR_VALUE_IS_INDEFINITE_LENGTH) && ((major_type == ZCBOR_MAJOR_TYPE_LIST) || (major_type == ZCBOR_MAJOR_TYPE_MAP))); if (!indefinite_length_array && !value_extract(&state_copy, &value, sizeof(value))) { /* Can happen because of elem_count (or payload_end) */ ZCBOR_FAIL(); } switch (major_type) { case ZCBOR_MAJOR_TYPE_BSTR: case ZCBOR_MAJOR_TYPE_TSTR: /* 'value' is the length of the BSTR or TSTR. * The cast to size_t is safe because value_extract() above * checks that payload_end is greater than payload. */ ZCBOR_ERR_IF( value > (uint64_t)(state_copy.payload_end - state_copy.payload), ZCBOR_ERR_NO_PAYLOAD); (state_copy.payload) += value; break; case ZCBOR_MAJOR_TYPE_MAP: ZCBOR_ERR_IF(value > (SIZE_MAX / 2), ZCBOR_ERR_INT_SIZE); value *= 2; /* fallthrough */ case ZCBOR_MAJOR_TYPE_LIST: if (indefinite_length_array) { state_copy.payload++; value = ZCBOR_LARGE_ELEM_COUNT; } state_copy.elem_count = (size_t)value; state_copy.indefinite_length_array = indefinite_length_array; while (!zcbor_array_at_end(&state_copy)) { if (!zcbor_any_skip(&state_copy, NULL)) { ZCBOR_FAIL(); } } if (indefinite_length_array && !array_end_expect(&state_copy)) { ZCBOR_FAIL(); } break; default: /* Do nothing */ break; } state->payload = state_copy.payload; state->elem_count--; return true; } bool zcbor_tag_decode(zcbor_state_t *state, uint32_t *result) { INITIAL_CHECKS_WITH_TYPE(ZCBOR_MAJOR_TYPE_TAG); if (!value_extract(state, result, sizeof(*result))) { ZCBOR_FAIL(); } state->elem_count++; return true; } bool zcbor_tag_expect(zcbor_state_t *state, uint32_t result) { uint32_t tag_val; if (!zcbor_tag_decode(state, &tag_val)) { ZCBOR_FAIL(); } if (tag_val != result) { ERR_RESTORE(ZCBOR_ERR_WRONG_VALUE); } return true; } bool zcbor_multi_decode(size_t min_decode, size_t max_decode, size_t *num_decode, zcbor_decoder_t decoder, zcbor_state_t *state, void *result, size_t result_len) { ZCBOR_CHECK_ERROR(); for (size_t i = 0; i < max_decode; i++) { uint8_t const *payload_bak = state->payload; size_t elem_count_bak = state->elem_count; if (!decoder(state, (uint8_t *)result + i*result_len)) { *num_decode = i; state->payload = payload_bak; state->elem_count = elem_count_bak; ZCBOR_ERR_IF(i < min_decode, ZCBOR_ERR_ITERATIONS); zcbor_print("Found %" PRIuFAST32 " elements.\r\n", i); return true; } } zcbor_print("Found %" PRIuFAST32 " elements.\r\n", max_decode); *num_decode = max_decode; return true; } bool zcbor_present_decode(bool *present, zcbor_decoder_t decoder, zcbor_state_t *state, void *result) { size_t num_decode; bool retval = zcbor_multi_decode(0, 1, &num_decode, decoder, state, result, 0); zcbor_assert_state(retval, "zcbor_multi_decode should not fail with these parameters.\r\n"); *present = !!num_decode; return retval; } void zcbor_new_decode_state(zcbor_state_t *state_array, size_t n_states, const uint8_t *payload, size_t payload_len, size_t elem_count) { zcbor_new_state(state_array, n_states, payload, payload_len, elem_count); }