/* * Copyright (c) 2018-2023 O.S.Systems * * SPDX-License-Identifier: Apache-2.0 */ #include LOG_MODULE_REGISTER(updatehub, CONFIG_UPDATEHUB_LOG_LEVEL); #include #include #include #include #include #include #include #include #include #include #include "updatehub_priv.h" #include "updatehub_firmware.h" #include "updatehub_device.h" #include "updatehub_timer.h" #include "updatehub_integrity.h" #include "updatehub_storage.h" #if defined(CONFIG_UPDATEHUB_DTLS) #define CA_CERTIFICATE_TAG 1 #include #endif #define NETWORK_TIMEOUT (2 * MSEC_PER_SEC) #define UPDATEHUB_POLL_INTERVAL K_MINUTES(CONFIG_UPDATEHUB_POLL_INTERVAL) #define MAX_PATH_SIZE 255 /* MAX_PAYLOAD_SIZE must reflect size COAP_BLOCK_x option */ #define MAX_PAYLOAD_SIZE 1024 /* MAX_DOWNLOAD_DATA must be equal or bigger than: * MAX_PAYLOAD_SIZE + (len + header + options) * otherwise download size will be less than real size. */ #define MAX_DOWNLOAD_DATA (MAX_PAYLOAD_SIZE + 32) #define MAX_IP_SIZE 30 #if defined(CONFIG_UPDATEHUB_CE) #define UPDATEHUB_SERVER CONFIG_UPDATEHUB_SERVER #else #define UPDATEHUB_SERVER "coap.updatehub.io" #endif #ifdef CONFIG_UPDATEHUB_DOWNLOAD_SHA256_VERIFICATION #define _DOWNLOAD_SHA256_VERIFICATION #elif defined(CONFIG_UPDATEHUB_DOWNLOAD_STORAGE_SHA256_VERIFICATION) #define _DOWNLOAD_SHA256_VERIFICATION #define _STORAGE_SHA256_VERIFICATION #elif defined(CONFIG_UPDATEHUB_STORAGE_SHA256_VERIFICATION) #define _STORAGE_SHA256_VERIFICATION #endif static struct updatehub_context { struct coap_block_context block; struct k_sem semaphore; struct updatehub_storage_context storage_ctx; updatehub_crypto_context_t crypto_ctx; enum updatehub_response code_status; uint8_t hash[SHA256_BIN_DIGEST_SIZE]; uint8_t uri_path[MAX_PATH_SIZE]; uint8_t payload[MAX_PAYLOAD_SIZE]; int downloaded_size; struct zsock_pollfd fds[1]; int sock; int nfds; } ctx; static struct update_info { char package_uid[SHA256_HEX_DIGEST_SIZE]; char sha256sum_image[SHA256_HEX_DIGEST_SIZE]; int image_size; } update_info; static struct k_work_delayable updatehub_work_handle; static int bin2hex_str(uint8_t *bin, size_t bin_len, char *str, size_t str_buf_len) { if (bin == NULL || str == NULL) { return -1; } /* ensures at least an empty string */ if (str_buf_len < 1) { return -2; } memset(str, 0, str_buf_len); bin2hex(bin, bin_len, str, str_buf_len); return 0; } static void wait_fds(void) { if (zsock_poll(ctx.fds, ctx.nfds, NETWORK_TIMEOUT) < 0) { LOG_ERR("Error in poll"); } } static void prepare_fds(void) { ctx.fds[ctx.nfds].fd = ctx.sock; ctx.fds[ctx.nfds].events = ZSOCK_POLLIN; ctx.nfds++; } static int metadata_hash_get(char *metadata) { updatehub_crypto_context_t local_crypto_ctx; if (updatehub_integrity_init(&local_crypto_ctx)) { return -1; } if (updatehub_integrity_update(&local_crypto_ctx, metadata, strlen(metadata))) { return -1; } if (updatehub_integrity_finish(&local_crypto_ctx, ctx.hash, sizeof(ctx.hash))) { return -1; } if (bin2hex_str(ctx.hash, SHA256_BIN_DIGEST_SIZE, update_info.package_uid, SHA256_HEX_DIGEST_SIZE)) { return -1; } return 0; } static bool is_compatible_hardware(struct resp_probe_some_boards *metadata_some_boards) { int i; for (i = 0; i < metadata_some_boards->supported_hardware_len; i++) { if (strncmp(metadata_some_boards->supported_hardware[i], CONFIG_BOARD, strlen(CONFIG_BOARD)) == 0) { return true; } } return false; } static void cleanup_connection(void) { int i; if (zsock_close(ctx.sock) < 0) { LOG_ERR("Could not close the socket"); } for (i = 0; i < ctx.nfds; i++) { memset(&ctx.fds[i], 0, sizeof(ctx.fds[i])); } ctx.nfds = 0; ctx.sock = 0; } static bool start_coap_client(void) { struct zsock_addrinfo *addr; struct zsock_addrinfo hints; int resolve_attempts = 10; int ret = -1; memset(&hints, 0, sizeof(hints)); if (IS_ENABLED(CONFIG_NET_IPV6)) { hints.ai_family = AF_INET6; hints.ai_socktype = SOCK_STREAM; } else if (IS_ENABLED(CONFIG_NET_IPV4)) { hints.ai_family = AF_INET; hints.ai_socktype = SOCK_STREAM; } #if defined(CONFIG_UPDATEHUB_DTLS) int verify = TLS_PEER_VERIFY_REQUIRED; sec_tag_t sec_list[] = { CA_CERTIFICATE_TAG }; int protocol = IPPROTO_DTLS_1_2; char port[] = "5684"; #else int protocol = IPPROTO_UDP; char port[] = "5683"; #endif while (resolve_attempts--) { ret = zsock_getaddrinfo(UPDATEHUB_SERVER, port, &hints, &addr); if (ret == 0) { break; } k_sleep(K_SECONDS(1)); } if (ret < 0) { LOG_ERR("Could not resolve dns"); return false; } ret = 1; ctx.sock = zsock_socket(addr->ai_family, SOCK_DGRAM, protocol); if (ctx.sock < 0) { LOG_ERR("Failed to create UDP socket"); goto error; } ret = -1; #if defined(CONFIG_UPDATEHUB_DTLS) if (zsock_setsockopt(ctx.sock, SOL_TLS, TLS_SEC_TAG_LIST, sec_list, sizeof(sec_list)) < 0) { LOG_ERR("Failed to set TLS_TAG option"); goto error; } if (zsock_setsockopt(ctx.sock, SOL_TLS, TLS_PEER_VERIFY, &verify, sizeof(int)) < 0) { LOG_ERR("Failed to set TLS_PEER_VERIFY option"); goto error; } #endif if (zsock_connect(ctx.sock, addr->ai_addr, addr->ai_addrlen) < 0) { LOG_ERR("Cannot connect to UDP remote"); goto error; } prepare_fds(); ret = 0; error: zsock_freeaddrinfo(addr); if (ret > 0) { cleanup_connection(); } return (ret == 0) ? true : false; } static int send_request(enum coap_msgtype msgtype, enum coap_method method, enum updatehub_uri_path type) { struct coap_packet request_packet; int ret = -1; uint8_t *data = k_malloc(MAX_PAYLOAD_SIZE); if (data == NULL) { LOG_ERR("Could not alloc data memory"); goto error; } ret = coap_packet_init(&request_packet, data, MAX_PAYLOAD_SIZE, COAP_VERSION_1, COAP_TYPE_CON, COAP_TOKEN_MAX_LEN, coap_next_token(), method, coap_next_id()); if (ret < 0) { LOG_ERR("Could not init packet"); goto error; } switch (method) { case COAP_METHOD_GET: snprintk(ctx.uri_path, MAX_PATH_SIZE, "%s/%s/packages/%s/objects/%s", uri_path(type), CONFIG_UPDATEHUB_PRODUCT_UID, update_info.package_uid, update_info.sha256sum_image); ret = coap_packet_append_option(&request_packet, COAP_OPTION_URI_PATH, ctx.uri_path, strlen(ctx.uri_path)); if (ret < 0) { LOG_ERR("Unable add option to request path"); goto error; } ret = coap_append_block2_option(&request_packet, &ctx.block); if (ret < 0) { LOG_ERR("Unable coap append block 2"); goto error; } ret = coap_packet_append_option(&request_packet, 2048, UPDATEHUB_API_HEADER, strlen(UPDATEHUB_API_HEADER)); if (ret < 0) { LOG_ERR("Unable add option to add updatehub header"); goto error; } break; case COAP_METHOD_POST: ret = coap_packet_append_option(&request_packet, COAP_OPTION_URI_PATH, uri_path(type), strlen(uri_path(type))); if (ret < 0) { LOG_ERR("Unable add option to request path"); goto error; } ret = coap_append_option_int(&request_packet, COAP_OPTION_CONTENT_FORMAT, COAP_CONTENT_FORMAT_APP_JSON); if (ret < 0) { LOG_ERR("Unable add option to request format"); goto error; } ret = coap_packet_append_option(&request_packet, 2048, UPDATEHUB_API_HEADER, strlen(UPDATEHUB_API_HEADER)); if (ret < 0) { LOG_ERR("Unable add option to add updatehub header"); goto error; } ret = coap_packet_append_payload_marker(&request_packet); if (ret < 0) { LOG_ERR("Unable to append payload marker"); goto error; } ret = coap_packet_append_payload(&request_packet, ctx.payload, strlen(ctx.payload)); if (ret < 0) { LOG_ERR("Not able to append payload"); goto error; } break; default: LOG_ERR("Invalid method"); ret = -1; goto error; } ret = zsock_send(ctx.sock, request_packet.data, request_packet.offset, 0); if (ret < 0) { LOG_ERR("Could not send request"); goto error; } error: k_free(data); return ret; } #ifdef _DOWNLOAD_SHA256_VERIFICATION static bool install_update_cb_sha256(void) { char sha256[SHA256_HEX_DIGEST_SIZE]; if (updatehub_integrity_finish(&ctx.crypto_ctx, ctx.hash, sizeof(ctx.hash))) { LOG_ERR("Could not finish sha256sum"); return false; } if (bin2hex_str(ctx.hash, SHA256_BIN_DIGEST_SIZE, sha256, SHA256_HEX_DIGEST_SIZE)) { LOG_ERR("Could not create sha256sum hex representation"); return false; } if (strncmp(sha256, update_info.sha256sum_image, SHA256_HEX_DIGEST_SIZE) != 0) { LOG_ERR("SHA256SUM of image are not the same"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; return false; } return true; } #endif static int install_update_cb_check_blk_num(const struct coap_packet *resp) { int blk_num; int blk2_opt; uint16_t payload_len; blk2_opt = coap_get_option_int(resp, COAP_OPTION_BLOCK2); (void)coap_packet_get_payload(resp, &payload_len); if ((payload_len == 0) || (blk2_opt < 0)) { LOG_DBG("Invalid data received or block number is < 0"); return -ENOENT; } blk_num = GET_BLOCK_NUM(blk2_opt); if (blk_num == updatehub_blk_get(UPDATEHUB_BLK_INDEX)) { updatehub_blk_inc(UPDATEHUB_BLK_INDEX); return 0; } return -EAGAIN; } static void install_update_cb(void) { struct coap_packet response_packet; uint8_t *data = k_malloc(MAX_DOWNLOAD_DATA); const uint8_t *payload_start; uint16_t payload_len; int rcvd = -1; if (data == NULL) { LOG_ERR("Could not alloc data memory"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } wait_fds(); rcvd = zsock_recv(ctx.sock, data, MAX_DOWNLOAD_DATA, ZSOCK_MSG_DONTWAIT); if (rcvd <= 0) { ctx.code_status = UPDATEHUB_NETWORKING_ERROR; LOG_ERR("Could not receive data"); goto cleanup; } if (coap_packet_parse(&response_packet, data, rcvd, NULL, 0) < 0) { LOG_ERR("Invalid data received"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } if (install_update_cb_check_blk_num(&response_packet) < 0) { ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } /* payload_len is > 0, checked at install_update_cb_check_blk_num */ payload_start = coap_packet_get_payload(&response_packet, &payload_len); updatehub_tmr_stop(); updatehub_blk_set(UPDATEHUB_BLK_ATTEMPT, 0); updatehub_blk_set(UPDATEHUB_BLK_TX_AVAILABLE, 1); ctx.downloaded_size = ctx.downloaded_size + payload_len; #ifdef _DOWNLOAD_SHA256_VERIFICATION if (updatehub_integrity_update(&ctx.crypto_ctx, payload_start, payload_len)) { LOG_ERR("Could not update sha256sum"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } #endif if (updatehub_storage_write(&ctx.storage_ctx, payload_start, payload_len, ctx.downloaded_size == ctx.block.total_size)) { LOG_ERR("Error to write on the flash"); ctx.code_status = UPDATEHUB_INSTALL_ERROR; goto cleanup; } if (coap_update_from_block(&response_packet, &ctx.block) < 0) { ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } if (coap_next_block(&response_packet, &ctx.block) == 0) { if (ctx.downloaded_size != ctx.block.total_size) { LOG_ERR("Could not get the next coap block"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } LOG_INF("Firmware download complete"); #ifdef _DOWNLOAD_SHA256_VERIFICATION if (!install_update_cb_sha256()) { LOG_ERR("Firmware - download validation has failed"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } #else if (hex2bin(update_info.sha256sum_image, SHA256_HEX_DIGEST_SIZE - 1, ctx.hash, SHA256_BIN_DIGEST_SIZE) != SHA256_BIN_DIGEST_SIZE) { LOG_ERR("Firmware - metadata validation has failed"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } #endif #ifdef _STORAGE_SHA256_VERIFICATION if (updatehub_storage_check(&ctx.storage_ctx, UPDATEHUB_SLOT_PARTITION_1, ctx.hash, ctx.downloaded_size)) { LOG_ERR("Firmware - flash validation has failed"); ctx.code_status = UPDATEHUB_INSTALL_ERROR; goto cleanup; } #endif } ctx.code_status = UPDATEHUB_OK; cleanup: k_free(data); } static enum updatehub_response install_update(void) { #ifdef _DOWNLOAD_SHA256_VERIFICATION if (updatehub_integrity_init(&ctx.crypto_ctx)) { LOG_ERR("Could not start sha256sum"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto error; } #endif if (!start_coap_client()) { ctx.code_status = UPDATEHUB_NETWORKING_ERROR; goto error; } if (coap_block_transfer_init(&ctx.block, CONFIG_UPDATEHUB_COAP_BLOCK_SIZE_EXP, update_info.image_size) < 0) { LOG_ERR("Unable init block transfer"); ctx.code_status = UPDATEHUB_NETWORKING_ERROR; goto cleanup; } if (updatehub_storage_init(&ctx.storage_ctx, UPDATEHUB_SLOT_PARTITION_1)) { LOG_ERR("Unable init flash"); ctx.code_status = UPDATEHUB_FLASH_INIT_ERROR; goto cleanup; } ctx.downloaded_size = 0; updatehub_blk_set(UPDATEHUB_BLK_ATTEMPT, 0); updatehub_blk_set(UPDATEHUB_BLK_INDEX, 0); updatehub_blk_set(UPDATEHUB_BLK_TX_AVAILABLE, 1); while (ctx.downloaded_size != ctx.block.total_size) { if (updatehub_blk_get(UPDATEHUB_BLK_TX_AVAILABLE)) { if (send_request(COAP_TYPE_CON, COAP_METHOD_GET, UPDATEHUB_DOWNLOAD) < 0) { ctx.code_status = UPDATEHUB_NETWORKING_ERROR; goto cleanup; } updatehub_blk_set(UPDATEHUB_BLK_TX_AVAILABLE, 0); updatehub_blk_inc(UPDATEHUB_BLK_ATTEMPT); updatehub_tmr_start(); } install_update_cb(); if (ctx.code_status == UPDATEHUB_OK) { continue; } if (ctx.code_status != UPDATEHUB_DOWNLOAD_ERROR && ctx.code_status != UPDATEHUB_NETWORKING_ERROR) { LOG_DBG("status: %d", ctx.code_status); goto cleanup; } if (updatehub_blk_get(UPDATEHUB_BLK_ATTEMPT) == CONFIG_UPDATEHUB_COAP_MAX_RETRY) { updatehub_tmr_stop(); LOG_ERR("Could not get the packet"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; goto cleanup; } } cleanup: cleanup_connection(); error: ctx.downloaded_size = 0; return ctx.code_status; } static int report(enum updatehub_state state) { struct report report; int ret = -1; const char *exec = state_name(state); char *device_id = k_malloc(DEVICE_ID_HEX_MAX_SIZE); char *firmware_version = k_malloc(FIRMWARE_IMG_VER_STRLEN_MAX); if (device_id == NULL || firmware_version == NULL) { LOG_ERR("Could not alloc device_id or firmware_version memory"); goto error; } if (!updatehub_get_device_identity(device_id, DEVICE_ID_HEX_MAX_SIZE)) { goto error; } if (!updatehub_get_firmware_version(UPDATEHUB_SLOT_PARTITION_0, firmware_version, FIRMWARE_IMG_VER_STRLEN_MAX)) { goto error; } memset(&report, 0, sizeof(report)); report.product_uid = CONFIG_UPDATEHUB_PRODUCT_UID; report.device_identity.id = device_id; report.version = firmware_version; report.hardware = CONFIG_BOARD; report.status = exec; report.package_uid = update_info.package_uid; switch (ctx.code_status) { case UPDATEHUB_INSTALL_ERROR: report.previous_state = state_name(UPDATEHUB_STATE_INSTALLING); break; case UPDATEHUB_DOWNLOAD_ERROR: report.previous_state = state_name(UPDATEHUB_STATE_DOWNLOADING); break; case UPDATEHUB_FLASH_INIT_ERROR: report.previous_state = state_name(UPDATEHUB_FLASH_INIT_ERROR); break; default: report.previous_state = ""; break; } if (strncmp(report.previous_state, "", sizeof("") - 1) != 0) { report.error_message = updatehub_response(ctx.code_status); } else { report.error_message = ""; } memset(&ctx.payload, 0, MAX_PAYLOAD_SIZE); ret = json_obj_encode_buf(send_report_descr, ARRAY_SIZE(send_report_descr), &report, ctx.payload, MAX_PAYLOAD_SIZE - 1); if (ret < 0) { LOG_ERR("Could not encode metadata"); goto error; } if (!start_coap_client()) { goto error; } ret = send_request(COAP_TYPE_NON_CON, COAP_METHOD_POST, UPDATEHUB_REPORT); if (ret < 0) { goto cleanup; } wait_fds(); cleanup: cleanup_connection(); error: k_free(firmware_version); k_free(device_id); return ret; } static void probe_cb(char *metadata, size_t metadata_size) { struct coap_packet reply; char tmp[MAX_DOWNLOAD_DATA]; const uint8_t *payload_start; uint16_t payload_len; size_t tmp_len; int rcvd = -1; wait_fds(); rcvd = zsock_recv(ctx.sock, tmp, MAX_DOWNLOAD_DATA, ZSOCK_MSG_DONTWAIT); if (rcvd <= 0) { LOG_ERR("Could not receive data"); ctx.code_status = UPDATEHUB_NETWORKING_ERROR; return; } if (coap_packet_parse(&reply, tmp, rcvd, NULL, 0) < 0) { LOG_ERR("Invalid data received"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; return; } if (coap_header_get_code(&reply) == COAP_RESPONSE_CODE_NOT_FOUND) { LOG_INF("No update available"); ctx.code_status = UPDATEHUB_NO_UPDATE; return; } payload_start = coap_packet_get_payload(&reply, &payload_len); if (payload_len == 0) { LOG_ERR("Invalid payload received"); ctx.code_status = UPDATEHUB_DOWNLOAD_ERROR; return; } if (metadata_size < payload_len) { LOG_ERR("There is no buffer available"); ctx.code_status = UPDATEHUB_METADATA_ERROR; return; } memset(metadata, 0, metadata_size); memcpy(metadata, payload_start, payload_len); /* ensures payload have a valid string with size lower * than metadata_size */ tmp_len = strlen(metadata); if (tmp_len >= metadata_size) { LOG_ERR("Invalid metadata data received"); ctx.code_status = UPDATEHUB_METADATA_ERROR; return; } ctx.code_status = UPDATEHUB_OK; LOG_INF("Probe metadata received"); } int z_impl_updatehub_confirm(void) { return updatehub_storage_mark_partition_as_confirmed(UPDATEHUB_SLOT_PARTITION_0); } int z_impl_updatehub_reboot(void) { sys_reboot(SYS_REBOOT_WARM); return 0; } enum updatehub_response z_impl_updatehub_probe(void) { struct probe request; struct resp_probe_some_boards metadata_some_boards = { 0 }; struct resp_probe_any_boards metadata_any_boards = { 0 }; char *metadata = k_malloc(MAX_DOWNLOAD_DATA); char *metadata_copy = k_malloc(MAX_DOWNLOAD_DATA); char *device_id = k_malloc(DEVICE_ID_HEX_MAX_SIZE); char *firmware_version = k_malloc(FIRMWARE_IMG_VER_STRLEN_MAX); size_t sha256size; if (device_id == NULL || firmware_version == NULL || metadata == NULL || metadata_copy == NULL) { LOG_ERR("Could not alloc probe memory"); ctx.code_status = UPDATEHUB_METADATA_ERROR; goto error; } if (!updatehub_storage_is_partition_good(&ctx.storage_ctx)) { LOG_ERR("The current image is not confirmed"); ctx.code_status = UPDATEHUB_UNCONFIRMED_IMAGE; goto error; } if (!updatehub_get_firmware_version(UPDATEHUB_SLOT_PARTITION_0, firmware_version, FIRMWARE_IMG_VER_STRLEN_MAX)) { ctx.code_status = UPDATEHUB_METADATA_ERROR; goto error; } if (!updatehub_get_device_identity(device_id, DEVICE_ID_HEX_MAX_SIZE)) { ctx.code_status = UPDATEHUB_METADATA_ERROR; goto error; } memset(&request, 0, sizeof(request)); request.product_uid = CONFIG_UPDATEHUB_PRODUCT_UID; request.device_identity.id = device_id; request.version = firmware_version; request.hardware = CONFIG_BOARD; memset(&ctx.payload, 0, MAX_PAYLOAD_SIZE); if (json_obj_encode_buf(send_probe_descr, ARRAY_SIZE(send_probe_descr), &request, ctx.payload, MAX_PAYLOAD_SIZE - 1) < 0) { LOG_ERR("Could not encode metadata"); ctx.code_status = UPDATEHUB_METADATA_ERROR; goto error; } ctx.nfds = 0; if (!start_coap_client()) { ctx.code_status = UPDATEHUB_NETWORKING_ERROR; goto error; } if (send_request(COAP_TYPE_CON, COAP_METHOD_POST, UPDATEHUB_PROBE) < 0) { ctx.code_status = UPDATEHUB_NETWORKING_ERROR; goto cleanup; } probe_cb(metadata, MAX_DOWNLOAD_DATA); if (ctx.code_status != UPDATEHUB_OK) { goto cleanup; } memset(&update_info, 0, sizeof(update_info)); if (metadata_hash_get(metadata) < 0) { LOG_ERR("Could not get metadata hash"); ctx.code_status = UPDATEHUB_METADATA_ERROR; goto cleanup; } LOG_DBG("metadata size: %d", strlen(metadata)); LOG_HEXDUMP_DBG(metadata, MAX_DOWNLOAD_DATA, "metadata"); memcpy(metadata_copy, metadata, strlen(metadata)); if (json_obj_parse(metadata, strlen(metadata), recv_probe_sh_array_descr, ARRAY_SIZE(recv_probe_sh_array_descr), &metadata_some_boards) < 0) { if (json_obj_parse(metadata_copy, strlen(metadata_copy), recv_probe_sh_string_descr, ARRAY_SIZE(recv_probe_sh_string_descr), &metadata_any_boards) < 0) { LOG_ERR("Could not parse the json"); ctx.code_status = UPDATEHUB_METADATA_ERROR; goto cleanup; } LOG_DBG("elements: %d", metadata_any_boards.objects_len); for (size_t i = 0; i < metadata_any_boards.objects_len; ++i) { LOG_DBG("obj[%d].elements: %d", i, metadata_any_boards.objects[i].objects_len); for (size_t j = 0; j < metadata_any_boards.objects[i].objects_len; ++j) { struct resp_probe_objects *obj = &metadata_any_boards.objects[i].objects[j].objects; LOG_DBG("\tMode: %s\n\tSHA: %s\n\tSize: %d", obj->mode, obj->sha256sum, obj->size); } } if (metadata_any_boards.objects_len != 2) { LOG_ERR("Object length of type 'any metadata' is incorrect"); ctx.code_status = UPDATEHUB_METADATA_ERROR; goto cleanup; } sha256size = strlen( metadata_any_boards.objects[1].objects[0].objects.sha256sum) + 1; if (sha256size != SHA256_HEX_DIGEST_SIZE) { LOG_ERR("SHA256 size is invalid"); ctx.code_status = UPDATEHUB_METADATA_ERROR; goto cleanup; } memcpy(update_info.sha256sum_image, metadata_any_boards.objects[1].objects[0].objects.sha256sum, SHA256_HEX_DIGEST_SIZE); update_info.image_size = metadata_any_boards.objects[1].objects[0].objects.size; LOG_DBG("metadata_any: %s", update_info.sha256sum_image); } else { LOG_DBG("elements: %d\n", metadata_some_boards.objects_len); for (size_t i = 0; i < metadata_some_boards.objects_len; ++i) { LOG_DBG("obj[%d].elements: %d\n", i, metadata_some_boards.objects[i].objects_len); for (size_t j = 0; j < metadata_some_boards.objects[i].objects_len; ++j) { struct resp_probe_objects *obj = &metadata_some_boards.objects[i].objects[j].objects; LOG_DBG("\tMode: %s\n\tSHA: %s\n\tSize: %d\n", obj->mode, obj->sha256sum, obj->size); } } if (metadata_some_boards.objects_len != 2) { LOG_ERR("Object length of type 'some metadata' is incorrect"); ctx.code_status = UPDATEHUB_METADATA_ERROR; goto cleanup; } if (!is_compatible_hardware(&metadata_some_boards)) { LOG_ERR("Incompatible hardware"); ctx.code_status = UPDATEHUB_INCOMPATIBLE_HARDWARE; goto cleanup; } sha256size = strlen( metadata_some_boards.objects[1].objects[0].objects.sha256sum) + 1; if (sha256size != SHA256_HEX_DIGEST_SIZE) { LOG_ERR("SHA256 size is invalid"); ctx.code_status = UPDATEHUB_METADATA_ERROR; goto cleanup; } memcpy(update_info.sha256sum_image, metadata_some_boards.objects[1].objects[0].objects.sha256sum, SHA256_HEX_DIGEST_SIZE); update_info.image_size = metadata_some_boards.objects[1].objects[0].objects.size; LOG_DBG("metadata_some: %s", update_info.sha256sum_image); } ctx.code_status = UPDATEHUB_HAS_UPDATE; cleanup: cleanup_connection(); error: k_free(metadata); k_free(metadata_copy); k_free(firmware_version); k_free(device_id); return ctx.code_status; } enum updatehub_response z_impl_updatehub_update(void) { if (report(UPDATEHUB_STATE_DOWNLOADING) < 0) { LOG_ERR("Could not reporting downloading state"); goto error; } if (report(UPDATEHUB_STATE_INSTALLING) < 0) { LOG_ERR("Could not reporting installing state"); goto error; } if (install_update() != UPDATEHUB_OK) { goto error; } if (report(UPDATEHUB_STATE_DOWNLOADED) < 0) { LOG_ERR("Could not reporting downloaded state"); goto error; } if (updatehub_storage_mark_partition_to_upgrade(&ctx.storage_ctx, UPDATEHUB_SLOT_PARTITION_1)) { LOG_ERR("Could not mark partition to upgrade"); ctx.code_status = UPDATEHUB_INSTALL_ERROR; goto error; } if (report(UPDATEHUB_STATE_INSTALLED) < 0) { LOG_ERR("Could not reporting installed state"); goto error; } if (report(UPDATEHUB_STATE_REBOOTING) < 0) { LOG_ERR("Could not reporting rebooting state"); goto error; } LOG_INF("Image flashed successfully, you can reboot now"); return ctx.code_status; error: if (ctx.code_status != UPDATEHUB_NETWORKING_ERROR) { if (report(UPDATEHUB_STATE_ERROR) < 0) { LOG_ERR("Could not reporting error state"); } } return ctx.code_status; } static void autohandler(struct k_work *work) { switch (updatehub_probe()) { case UPDATEHUB_UNCONFIRMED_IMAGE: LOG_ERR("Image is unconfirmed. Rebooting to revert back to previous" "confirmed image."); LOG_PANIC(); updatehub_reboot(); break; case UPDATEHUB_HAS_UPDATE: switch (updatehub_update()) { case UPDATEHUB_OK: LOG_PANIC(); updatehub_reboot(); break; default: break; } break; case UPDATEHUB_NO_UPDATE: break; default: break; } k_work_reschedule(&updatehub_work_handle, UPDATEHUB_POLL_INTERVAL); } void z_impl_updatehub_autohandler(void) { #if defined(CONFIG_UPDATEHUB_DOWNLOAD_SHA256_VERIFICATION) LOG_INF("SHA-256 verification on download only"); #endif #if defined(CONFIG_UPDATEHUB_STORAGE_SHA256_VERIFICATION) LOG_INF("SHA-256 verification from flash only"); #endif #if defined(CONFIG_UPDATEHUB_DOWNLOAD_STORAGE_SHA256_VERIFICATION) LOG_INF("SHA-256 verification on download and from flash"); #endif k_work_init_delayable(&updatehub_work_handle, autohandler); k_work_reschedule(&updatehub_work_handle, K_NO_WAIT); }