/* * Copyright (c) 2022, Arm Limited. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause * */ #include #include #include #include #include #include "measured_boot_private.h" static void print_byte_array(const uint8_t *array __unused, size_t len __unused) { #if LOG_LEVEL >= LOG_LEVEL_INFO size_t i; if (array == NULL || len == 0U) { (void)printf("\n"); } else { for (i = 0U; i < len; ++i) { (void)printf(" %02x", array[i]); if ((i & U(0xF)) == U(0xF)) { (void)printf("\n"); if (i < (len - 1U)) { INFO("\t\t:"); } } } } #endif } static void log_measurement(uint8_t index, const uint8_t *signer_id, size_t signer_id_size, const uint8_t *version, /* string */ size_t version_size, const uint8_t *sw_type, /* string */ size_t sw_type_size, uint32_t measurement_algo, const uint8_t *measurement_value, size_t measurement_value_size, bool lock_measurement) { INFO("Measured boot extend measurement:\n"); INFO(" - slot : %u\n", index); INFO(" - signer_id :"); print_byte_array(signer_id, signer_id_size); INFO(" - version : %s\n", version); INFO(" - version_size: %zu\n", version_size); INFO(" - sw_type : %s\n", sw_type); INFO(" - sw_type_size: %zu\n", sw_type_size); INFO(" - algorithm : %x\n", measurement_algo); INFO(" - measurement :"); print_byte_array(measurement_value, measurement_value_size); INFO(" - locking : %s\n", lock_measurement ? "true" : "false"); } #if !PLAT_RSS_NOT_SUPPORTED psa_status_t rss_measured_boot_extend_measurement(uint8_t index, const uint8_t *signer_id, size_t signer_id_size, const uint8_t *version, size_t version_size, uint32_t measurement_algo, const uint8_t *sw_type, size_t sw_type_size, const uint8_t *measurement_value, size_t measurement_value_size, bool lock_measurement) { struct measured_boot_extend_iovec_t extend_iov = { .index = index, .lock_measurement = lock_measurement, .measurement_algo = measurement_algo, .sw_type = {0}, /* Removing \0 */ .sw_type_size = (sw_type_size > 0) ? (sw_type_size - 1) : 0, }; psa_invec in_vec[] = { {.base = &extend_iov, .len = sizeof(struct measured_boot_extend_iovec_t)}, {.base = signer_id, .len = signer_id_size}, {.base = version, .len = (version_size > 0) ? (version_size - 1) : 0}, {.base = measurement_value, .len = measurement_value_size} }; if (sw_type != NULL) { if (extend_iov.sw_type_size > SW_TYPE_MAX_SIZE) { return PSA_ERROR_INVALID_ARGUMENT; } memcpy(extend_iov.sw_type, sw_type, extend_iov.sw_type_size); } log_measurement(index, signer_id, signer_id_size, version, version_size, sw_type, sw_type_size, measurement_algo, measurement_value, measurement_value_size, lock_measurement); return psa_call(RSS_MEASURED_BOOT_HANDLE, RSS_MEASURED_BOOT_EXTEND, in_vec, IOVEC_LEN(in_vec), NULL, 0); } psa_status_t rss_measured_boot_read_measurement(uint8_t index, uint8_t *signer_id, size_t signer_id_size, size_t *signer_id_len, uint8_t *version, size_t version_size, size_t *version_len, uint32_t *measurement_algo, uint8_t *sw_type, size_t sw_type_size, size_t *sw_type_len, uint8_t *measurement_value, size_t measurement_value_size, size_t *measurement_value_len, bool *is_locked) { psa_status_t status; struct measured_boot_read_iovec_in_t read_iov_in = { .index = index, .sw_type_size = sw_type_size, .version_size = version_size, }; struct measured_boot_read_iovec_out_t read_iov_out; psa_invec in_vec[] = { {.base = &read_iov_in, .len = sizeof(struct measured_boot_read_iovec_in_t)}, }; psa_outvec out_vec[] = { {.base = &read_iov_out, .len = sizeof(struct measured_boot_read_iovec_out_t)}, {.base = signer_id, .len = signer_id_size}, {.base = measurement_value, .len = measurement_value_size} }; status = psa_call(RSS_MEASURED_BOOT_HANDLE, RSS_MEASURED_BOOT_READ, in_vec, IOVEC_LEN(in_vec), out_vec, IOVEC_LEN(out_vec)); if (status == PSA_SUCCESS) { *is_locked = read_iov_out.is_locked; *measurement_algo = read_iov_out.measurement_algo; *sw_type_len = read_iov_out.sw_type_len; *version_len = read_iov_out.version_len; memcpy(sw_type, read_iov_out.sw_type, read_iov_out.sw_type_len); memcpy(version, read_iov_out.version, read_iov_out.version_len); *signer_id_len = out_vec[1].len; *measurement_value_len = out_vec[2].len; } return status; } #else /* !PLAT_RSS_NOT_SUPPORTED */ psa_status_t rss_measured_boot_extend_measurement(uint8_t index, const uint8_t *signer_id, size_t signer_id_size, const uint8_t *version, size_t version_size, uint32_t measurement_algo, const uint8_t *sw_type, size_t sw_type_size, const uint8_t *measurement_value, size_t measurement_value_size, bool lock_measurement) { log_measurement(index, signer_id, signer_id_size, version, version_size, sw_type, sw_type_size, measurement_algo, measurement_value, measurement_value_size, lock_measurement); return PSA_SUCCESS; } psa_status_t rss_measured_boot_read_measurement(uint8_t index, uint8_t *signer_id, size_t signer_id_size, size_t *signer_id_len, uint8_t *version, size_t version_size, size_t *version_len, uint32_t *measurement_algo, uint8_t *sw_type, size_t sw_type_size, size_t *sw_type_len, uint8_t *measurement_value, size_t measurement_value_size, size_t *measurement_value_len, bool *is_locked) { return PSA_SUCCESS; } #endif /* !PLAT_RSS_NOT_SUPPORTED */