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https://github.com/trezor/trezor-firmware.git
synced 2024-12-01 20:08:26 +00:00
6ca1182d85
[no changelog]
497 lines
15 KiB
C
497 lines
15 KiB
C
/*
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* This file is part of the Trezor project, https://trezor.io/
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*
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* Copyright (c) SatoshiLabs
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "optiga_prodtest.h"
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#include "aes/aes.h"
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#include "ecdsa.h"
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#include "memzero.h"
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#include "nist256p1.h"
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#include "optiga_commands.h"
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#include "optiga_transport.h"
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#include "prodtest_common.h"
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#include "rand.h"
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#include "secret.h"
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#include "sha2.h"
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typedef enum {
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OPTIGA_PAIRING_UNPAIRED = 0,
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OPTIGA_PAIRING_PAIRED,
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OPTIGA_PAIRING_ERR_RNG,
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OPTIGA_PAIRING_ERR_READ,
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OPTIGA_PAIRING_ERR_HANDSHAKE,
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} optiga_pairing;
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static optiga_pairing optiga_pairing_state = OPTIGA_PAIRING_UNPAIRED;
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// Data object access conditions.
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static const optiga_metadata_item ACCESS_PAIRED =
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OPTIGA_ACCESS_CONDITION(OPTIGA_ACCESS_COND_CONF, OID_KEY_PAIRING);
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static const optiga_metadata_item KEY_USE_SIGN = {
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(const uint8_t[]){OPTIGA_KEY_USAGE_SIGN}, 1};
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static const optiga_metadata_item TYPE_PTFBIND = {
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(const uint8_t[]){OPTIGA_DATA_TYPE_PTFBIND}, 1};
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static bool optiga_paired(void) {
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const char *details = "";
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switch (optiga_pairing_state) {
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case OPTIGA_PAIRING_PAIRED:
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return true;
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case OPTIGA_PAIRING_ERR_RNG:
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details = "optiga_get_random error";
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break;
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case OPTIGA_PAIRING_ERR_READ:
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details = "failed to read pairing secret";
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break;
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case OPTIGA_PAIRING_ERR_HANDSHAKE:
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details = "optiga_sec_chan_handshake";
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break;
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default:
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break;
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}
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vcp_println("ERROR Optiga not paired (%s).", details);
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return false;
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}
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static bool set_metadata(uint16_t oid, const optiga_metadata *metadata) {
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uint8_t serialized[OPTIGA_MAX_METADATA_SIZE] = {0};
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size_t size = 0;
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optiga_result ret = optiga_serialize_metadata(metadata, serialized,
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sizeof(serialized), &size);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_serialize_metadata error %d for OID 0x%04x.", ret,
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oid);
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return false;
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}
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optiga_set_data_object(oid, true, serialized, size);
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ret =
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optiga_get_data_object(oid, true, serialized, sizeof(serialized), &size);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_get_metadata error %d for OID 0x%04x.", ret, oid);
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return false;
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}
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optiga_metadata metadata_stored = {0};
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ret = optiga_parse_metadata(serialized, size, &metadata_stored);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_parse_metadata error %d.", ret);
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return false;
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}
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if (!optiga_compare_metadata(metadata, &metadata_stored)) {
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vcp_println("ERROR optiga_compare_metadata failed.");
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return false;
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}
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return true;
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}
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void pair_optiga(void) {
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// The pairing key may already be written and locked. The success of the
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// pairing procedure is determined by optiga_sec_chan_handshake(). Therefore
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// it is OK for some of the intermediate operations to fail.
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// Enable writing the pairing secret to OPTIGA.
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optiga_metadata metadata = {0};
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metadata.change = OPTIGA_META_ACCESS_ALWAYS;
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metadata.execute = OPTIGA_META_ACCESS_ALWAYS;
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metadata.data_type = TYPE_PTFBIND;
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set_metadata(OID_KEY_PAIRING, &metadata); // Ignore result.
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// Generate pairing secret.
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uint8_t secret[SECRET_OPTIGA_KEY_LEN] = {0};
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optiga_result ret = optiga_get_random(secret, sizeof(secret));
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if (OPTIGA_SUCCESS != ret) {
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optiga_pairing_state = OPTIGA_PAIRING_ERR_RNG;
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return;
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}
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// Store pairing secret.
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ret = optiga_set_data_object(OID_KEY_PAIRING, false, secret, sizeof(secret));
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if (OPTIGA_SUCCESS == ret) {
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secret_erase();
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secret_write_header();
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secret_write(secret, SECRET_OPTIGA_KEY_OFFSET, SECRET_OPTIGA_KEY_LEN);
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}
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// Verify whether the secret was stored correctly in flash and OPTIGA.
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memzero(secret, sizeof(secret));
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if (secret_read(secret, SECRET_OPTIGA_KEY_OFFSET, SECRET_OPTIGA_KEY_LEN) !=
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sectrue) {
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optiga_pairing_state = OPTIGA_PAIRING_ERR_READ;
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return;
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}
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ret = optiga_sec_chan_handshake(secret, sizeof(secret));
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memzero(secret, sizeof(secret));
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if (OPTIGA_SUCCESS != ret) {
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optiga_pairing_state = OPTIGA_PAIRING_ERR_HANDSHAKE;
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return;
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}
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optiga_pairing_state = OPTIGA_PAIRING_PAIRED;
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return;
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}
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void optiga_lock(void) {
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if (!optiga_paired()) return;
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// Delete trust anchor.
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optiga_result ret =
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optiga_set_data_object(OID_TRUST_ANCHOR, false, (const uint8_t *)"\0", 1);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_set_data error %d for 0x%04x.", ret,
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OID_TRUST_ANCHOR);
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return;
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}
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// Set data object metadata.
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optiga_metadata metadata = {0};
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// Set metadata for device certificate.
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memzero(&metadata, sizeof(metadata));
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metadata.lcso = OPTIGA_META_LCS_OPERATIONAL;
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metadata.change = OPTIGA_META_ACCESS_NEVER;
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metadata.read = OPTIGA_META_ACCESS_ALWAYS;
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metadata.execute = OPTIGA_META_ACCESS_ALWAYS;
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if (!set_metadata(OID_CERT_DEV, &metadata)) {
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return;
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}
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// Set metadata for FIDO attestation certificate.
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memzero(&metadata, sizeof(metadata));
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metadata.lcso = OPTIGA_META_LCS_OPERATIONAL;
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metadata.change = OPTIGA_META_ACCESS_NEVER;
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metadata.read = OPTIGA_META_ACCESS_ALWAYS;
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metadata.execute = OPTIGA_META_ACCESS_ALWAYS;
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if (!set_metadata(OID_CERT_FIDO, &metadata)) {
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return;
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}
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// Set metadata for device private key.
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memzero(&metadata, sizeof(metadata));
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metadata.lcso = OPTIGA_META_LCS_OPERATIONAL;
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metadata.change = OPTIGA_META_ACCESS_NEVER;
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metadata.read = OPTIGA_META_ACCESS_NEVER;
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metadata.execute = ACCESS_PAIRED;
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metadata.key_usage = KEY_USE_SIGN;
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if (!set_metadata(OID_KEY_DEV, &metadata)) {
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return;
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}
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// Set metadata for FIDO attestation private key.
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memzero(&metadata, sizeof(metadata));
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metadata.lcso = OPTIGA_META_LCS_OPERATIONAL;
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metadata.change = OPTIGA_META_ACCESS_NEVER;
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metadata.read = OPTIGA_META_ACCESS_NEVER;
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metadata.execute = ACCESS_PAIRED;
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metadata.key_usage = KEY_USE_SIGN;
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if (!set_metadata(OID_KEY_FIDO, &metadata)) {
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return;
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}
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// Set metadata for pairing key.
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memzero(&metadata, sizeof(metadata));
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metadata.lcso = OPTIGA_META_LCS_OPERATIONAL;
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metadata.change = OPTIGA_META_ACCESS_NEVER;
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metadata.read = OPTIGA_META_ACCESS_NEVER;
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metadata.execute = OPTIGA_META_ACCESS_ALWAYS;
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metadata.data_type = TYPE_PTFBIND;
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if (!set_metadata(OID_KEY_PAIRING, &metadata)) {
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return;
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}
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vcp_println("OK");
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}
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optiga_locked_status get_optiga_locked_status(void) {
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if (!optiga_paired()) return OPTIGA_LOCKED_ERROR;
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const uint16_t oids[] = {OID_CERT_DEV, OID_CERT_FIDO, OID_KEY_DEV,
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OID_KEY_FIDO, OID_KEY_PAIRING};
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optiga_metadata locked_metadata = {0};
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locked_metadata.lcso = OPTIGA_META_LCS_OPERATIONAL;
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for (size_t i = 0; i < sizeof(oids) / sizeof(oids[0]); ++i) {
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uint8_t metadata_buffer[OPTIGA_MAX_METADATA_SIZE] = {0};
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size_t metadata_size = 0;
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optiga_result ret =
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optiga_get_data_object(oids[i], true, metadata_buffer,
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sizeof(metadata_buffer), &metadata_size);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_get_metadata error %d for OID 0x%04x.", ret,
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oids[i]);
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return OPTIGA_LOCKED_ERROR;
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}
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optiga_metadata stored_metadata = {0};
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ret =
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optiga_parse_metadata(metadata_buffer, metadata_size, &stored_metadata);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_parse_metadata error %d.", ret);
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return OPTIGA_LOCKED_ERROR;
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}
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if (!optiga_compare_metadata(&locked_metadata, &stored_metadata)) {
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return OPTIGA_LOCKED_FALSE;
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}
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}
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return OPTIGA_LOCKED_TRUE;
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}
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void check_locked(void) {
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switch (get_optiga_locked_status()) {
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case OPTIGA_LOCKED_TRUE:
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vcp_println("OK YES");
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break;
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case OPTIGA_LOCKED_FALSE:
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vcp_println("OK NO");
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break;
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default:
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// Error reported by get_optiga_locked_status().
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break;
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}
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}
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void optigaid_read(void) {
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if (!optiga_paired()) return;
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uint8_t optiga_id[27] = {0};
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size_t optiga_id_size = 0;
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optiga_result ret =
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optiga_get_data_object(OPTIGA_OID_COPROC_UID, false, optiga_id,
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sizeof(optiga_id), &optiga_id_size);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_get_data_object error %d for 0x%04x.", ret,
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OPTIGA_OID_COPROC_UID);
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return;
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}
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vcp_print("OK ");
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vcp_println_hex(optiga_id, optiga_id_size);
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}
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void cert_read(uint16_t oid) {
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if (!optiga_paired()) return;
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static uint8_t cert[2048] = {0};
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size_t cert_size = 0;
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optiga_result ret =
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optiga_get_data_object(oid, false, cert, sizeof(cert), &cert_size);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_get_data_object error %d for 0x%04x.", ret, oid);
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return;
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}
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size_t offset = 0;
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if (cert[0] == 0xC0) {
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// TLS identity certificate chain.
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size_t tls_identity_size = (cert[1] << 8) + cert[2];
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size_t cert_chain_size = (cert[3] << 16) + (cert[4] << 8) + cert[5];
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size_t first_cert_size = (cert[6] << 16) + (cert[7] << 8) + cert[8];
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if (tls_identity_size + 3 > cert_size ||
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cert_chain_size + 3 > tls_identity_size ||
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first_cert_size > cert_chain_size) {
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vcp_println("ERROR invalid TLS identity in 0x%04x.", oid);
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return;
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}
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offset = 9;
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cert_size = first_cert_size;
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}
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if (cert_size == 0) {
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vcp_println("ERROR no certificate in 0x%04x.", oid);
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return;
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}
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vcp_print("OK ");
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vcp_println_hex(cert + offset, cert_size);
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}
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void cert_write(uint16_t oid, char *data) {
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if (!optiga_paired()) return;
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// Enable writing to the certificate slot.
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optiga_metadata metadata = {0};
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metadata.change = OPTIGA_META_ACCESS_ALWAYS;
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set_metadata(oid, &metadata); // Ignore result.
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uint8_t data_bytes[1024];
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int len = get_from_hex(data_bytes, sizeof(data_bytes), data);
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if (len < 0) {
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vcp_println("ERROR Hexadecimal decoding error %d.", len);
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return;
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}
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optiga_result ret = optiga_set_data_object(oid, false, data_bytes, len);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_set_data error %d for 0x%04x.", ret, oid);
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return;
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}
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vcp_println("OK");
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}
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void pubkey_read(uint16_t oid) {
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if (!optiga_paired()) return;
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// Enable key agreement usage.
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optiga_metadata metadata = {0};
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metadata.key_usage = OPTIGA_META_KEY_USE_KEYAGREE;
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metadata.execute = OPTIGA_META_ACCESS_ALWAYS;
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if (!set_metadata(oid, &metadata)) {
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return;
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}
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// Execute ECDH with base point to get the x-coordinate of the public key.
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static const uint8_t BASE_POINT[] = {
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0x03, 0x42, 0x00, 0x04, 0x6b, 0x17, 0xd1, 0xf2, 0xe1, 0x2c, 0x42, 0x47,
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0xf8, 0xbc, 0xe6, 0xe5, 0x63, 0xa4, 0x40, 0xf2, 0x77, 0x03, 0x7d, 0x81,
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0x2d, 0xeb, 0x33, 0xa0, 0xf4, 0xa1, 0x39, 0x45, 0xd8, 0x98, 0xc2, 0x96,
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0x4f, 0xe3, 0x42, 0xe2, 0xfe, 0x1a, 0x7f, 0x9b, 0x8e, 0xe7, 0xeb, 0x4a,
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0x7c, 0x0f, 0x9e, 0x16, 0x2b, 0xce, 0x33, 0x57, 0x6b, 0x31, 0x5e, 0xce,
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0xcb, 0xb6, 0x40, 0x68, 0x37, 0xbf, 0x51, 0xf5};
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uint8_t public_key[32] = {0};
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size_t public_key_size = 0;
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optiga_result ret =
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optiga_calc_ssec(OPTIGA_CURVE_P256, oid, BASE_POINT, sizeof(BASE_POINT),
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public_key, sizeof(public_key), &public_key_size);
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if (OPTIGA_SUCCESS != ret) {
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vcp_println("ERROR optiga_calc_ssec error %d.", ret);
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return;
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}
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vcp_print("OK ");
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vcp_println_hex(public_key, public_key_size);
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}
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void keyfido_write(char *data) {
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if (!optiga_paired()) return;
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const size_t EPH_PUB_KEY_SIZE = 33;
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const size_t PAYLOAD_SIZE = 32;
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const size_t CIPHERTEXT_OFFSET = EPH_PUB_KEY_SIZE;
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const size_t EXPECTED_SIZE = EPH_PUB_KEY_SIZE + PAYLOAD_SIZE;
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// Enable key agreement usage for device key.
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optiga_metadata metadata = {0};
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metadata.key_usage = OPTIGA_META_KEY_USE_KEYAGREE;
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metadata.execute = OPTIGA_META_ACCESS_ALWAYS;
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if (!set_metadata(OID_KEY_DEV, &metadata)) {
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return;
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}
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// Read encrypted FIDO attestation private key.
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uint8_t data_bytes[EXPECTED_SIZE];
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int len = get_from_hex(data_bytes, sizeof(data_bytes), data);
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if (len < 0) {
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vcp_println("ERROR Hexadecimal decoding error %d.", len);
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return;
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}
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if (len != EXPECTED_SIZE) {
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vcp_println("ERROR Unexpected input length.");
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return;
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}
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// Expand sender's ephemeral public key.
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uint8_t public_key[3 + 65] = {0x03, 0x42, 0x00};
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if (ecdsa_uncompress_pubkey(&nist256p1, data_bytes, &public_key[3]) != 1) {
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vcp_println("ERROR Failed to decode public key.");
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return;
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}
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// Execute ECDH with device private key.
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uint8_t secret[32] = {0};
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size_t secret_size = 0;
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optiga_result ret = optiga_calc_ssec(OPTIGA_CURVE_P256, OID_KEY_DEV,
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public_key, sizeof(public_key), secret,
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sizeof(secret), &secret_size);
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if (OPTIGA_SUCCESS != ret) {
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memzero(secret, sizeof(secret));
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vcp_println("ERROR optiga_calc_ssec error %d.", ret);
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return;
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}
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// Hash the shared secret. Use the result as the decryption key.
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sha256_Raw(secret, secret_size, secret);
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aes_decrypt_ctx ctx = {0};
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AES_RETURN aes_ret = aes_decrypt_key256(secret, &ctx);
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if (EXIT_SUCCESS != aes_ret) {
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vcp_println("ERROR aes_decrypt_key256 error.");
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memzero(&ctx, sizeof(ctx));
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memzero(secret, sizeof(secret));
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return;
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}
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// Decrypt the FIDO attestation key.
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uint8_t fido_key[PAYLOAD_SIZE];
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// The IV is intentionally all-zero, which is not a problem, because the
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// encryption key is unique for each ciphertext.
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uint8_t iv[AES_BLOCK_SIZE] = {0};
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aes_ret = aes_cbc_decrypt(&data_bytes[CIPHERTEXT_OFFSET], fido_key,
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sizeof(fido_key), iv, &ctx);
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memzero(&ctx, sizeof(ctx));
|
|
memzero(secret, sizeof(secret));
|
|
if (EXIT_SUCCESS != aes_ret) {
|
|
memzero(fido_key, sizeof(fido_key));
|
|
vcp_println("ERROR aes_cbc_decrypt error.");
|
|
return;
|
|
}
|
|
|
|
// Write trust anchor certificate to OID 0xE0E8
|
|
ret = optiga_set_trust_anchor();
|
|
if (OPTIGA_SUCCESS != ret) {
|
|
memzero(fido_key, sizeof(fido_key));
|
|
vcp_println("ERROR optiga_set_trust_anchor error %d.", ret);
|
|
return;
|
|
}
|
|
|
|
// Set change access condition for the FIDO key to Int(0xE0E8), so that we
|
|
// can write the FIDO key using the trust anchor in OID 0xE0E8.
|
|
memzero(&metadata, sizeof(metadata));
|
|
metadata.change.ptr = (const uint8_t *)"\x21\xe0\xe8";
|
|
metadata.change.len = 3;
|
|
if (!set_metadata(OID_KEY_FIDO, &metadata)) {
|
|
return;
|
|
}
|
|
|
|
// Store the FIDO attestation key.
|
|
ret = optiga_set_priv_key(OID_KEY_FIDO, fido_key);
|
|
memzero(fido_key, sizeof(fido_key));
|
|
if (OPTIGA_SUCCESS != ret) {
|
|
vcp_println("ERROR optiga_set_priv_key error %d.", ret);
|
|
return;
|
|
}
|
|
|
|
vcp_println("OK");
|
|
}
|