modules/canopennode/canopen_program.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2020 Vestas Wind Systems A/S
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #include <CANopen.h>

 #include <canopennode.h>
 #include <zephyr/dfu/flash_img.h>
 #include <zephyr/dfu/mcuboot.h>
 #include <zephyr/storage/flash_map.h>
 #include <zephyr/sys/crc.h>

 #define LOG_LEVEL CONFIG_CANOPEN_LOG_LEVEL
 #include <zephyr/logging/log.h>
 LOG_MODULE_REGISTER(canopen_program);

 /* Object dictionary indexes */
 #define OD_H1F50_PROGRAM_DATA 0x1F50
 #define OD_H1F51_PROGRAM_CTRL 0x1F51
 #define OD_H1F56_PROGRAM_SWID 0x1F56
 #define OD_H1F57_FLASH_STATUS 0x1F57

 /* Common program control commands and status */
 #define PROGRAM_CTRL_STOP           0x00
 #define PROGRAM_CTRL_START          0x01
 #define PROGRAM_CTRL_RESET          0x02
 #define PROGRAM_CTRL_CLEAR          0x03
 /* Zephyr specific program control and status */
 #define PROGRAM_CTRL_ZEPHYR_CONFIRM 0x80

 /* Flash status bits */
 #define FLASH_STATUS_IN_PROGRESS          BIT(0)
 /* Flash common error bits values */
 #define FLASH_STATUS_NO_ERROR            (0U << 1U)
 #define FLASH_STATUS_NO_VALID_PROGRAM    (1U << 1U)
 #define FLASH_STATUS_DATA_FORMAT_UNKNOWN (2U << 1U)
 #define FLASH_STATUS_DATA_FORMAT_ERROR   (3U << 1U)
 #define FLASH_STATUS_FLASH_NOT_CLEARED   (4U << 1U)
 #define FLASH_STATUS_FLASH_WRITE_ERROR   (5U << 1U)
 #define FLASH_STATUS_GENERAL_ADDR_ERROR  (6U << 1U)
 #define FLASH_STATUS_FLASH_SECURED       (7U << 1U)
 #define FLASH_STATUS_UNSPECIFIED_ERROR   (63U << 1)

 struct canopen_program_context {
 	uint32_t flash_status;
 	size_t total;
 	CO_NMT_t *nmt;
 	CO_EM_t *em;
 	struct flash_img_context flash_img_ctx;
 	uint8_t program_status;
 	bool flash_written;
 };

 static struct canopen_program_context ctx;

 static void canopen_program_set_status(uint32_t status)
 {
 	ctx.program_status = status;
 }

 static uint32_t canopen_program_get_status(void)
 {
 	/*
 	 * Non-confirmed boot image takes precedence over other
 	 * status. This must be checked on every invocation since the
 	 * app may be using other means of confirming the image.
 	 */
 	if (!boot_is_img_confirmed()) {
 		return PROGRAM_CTRL_ZEPHYR_CONFIRM;
 	}

 	return ctx.program_status;
 }

 static CO_SDO_abortCode_t canopen_odf_1f50(CO_ODF_arg_t *odf_arg)
 {
 	int err;

 	if (odf_arg->subIndex != 1U) {
 		return CO_SDO_AB_NONE;
 	}

 	if (odf_arg->reading) {
 		return CO_SDO_AB_WRITEONLY;
 	}

 	if (canopen_program_get_status() != PROGRAM_CTRL_CLEAR) {
 		ctx.flash_status = FLASH_STATUS_FLASH_NOT_CLEARED;
 		return CO_SDO_AB_DATA_DEV_STATE;
 	}

 	if (odf_arg->firstSegment) {
 		err = flash_img_init(&ctx.flash_img_ctx);
 		if (err) {
 			LOG_ERR("failed to initialize flash img (err %d)", err);
 			CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
 				       CO_EMC_HARDWARE, err);
 			ctx.flash_status = FLASH_STATUS_FLASH_WRITE_ERROR;
 			return CO_SDO_AB_HW;
 		}
 		ctx.flash_status = FLASH_STATUS_IN_PROGRESS;
 		if (IS_ENABLED(CONFIG_CANOPENNODE_LEDS)) {
 			canopen_leds_program_download(true);
 		}
 		ctx.total = odf_arg->dataLengthTotal;
 		LOG_DBG("total = %d", ctx.total);
 	}

 	err = flash_img_buffered_write(&ctx.flash_img_ctx, odf_arg->data,
 				       odf_arg->dataLength,
 				       odf_arg->lastSegment);
 	if (err) {
 		CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
 			       CO_EMC_HARDWARE, err);
 		ctx.flash_status = FLASH_STATUS_FLASH_WRITE_ERROR;
 		canopen_leds_program_download(false);
 		return CO_SDO_AB_HW;
 	}

 	if (odf_arg->lastSegment) {
 		/* ctx.total is zero if not provided by download process */
 		if (ctx.total != 0 &&
 		    ctx.total != flash_img_bytes_written(&ctx.flash_img_ctx)) {
 			LOG_WRN("premature end of program download");
 			ctx.flash_status = FLASH_STATUS_DATA_FORMAT_ERROR;
 		} else {
 			LOG_DBG("program downloaded");
 			ctx.flash_written = true;
 			ctx.flash_status = FLASH_STATUS_NO_ERROR;
 		}

 		canopen_program_set_status(PROGRAM_CTRL_STOP);
 		canopen_leds_program_download(false);
 	}

 	return CO_SDO_AB_NONE;
 }

 static inline CO_SDO_abortCode_t canopen_program_cmd_stop(void)
 {
 	if (canopen_program_get_status() == PROGRAM_CTRL_ZEPHYR_CONFIRM) {
 		return CO_SDO_AB_DATA_DEV_STATE;
 	}

 	LOG_DBG("program stopped");
 	canopen_program_set_status(PROGRAM_CTRL_STOP);

 	return CO_SDO_AB_NONE;
 }

 static inline CO_SDO_abortCode_t canopen_program_cmd_start(void)
 {
 	int err;

 	if (canopen_program_get_status() == PROGRAM_CTRL_ZEPHYR_CONFIRM) {
 		return CO_SDO_AB_DATA_DEV_STATE;
 	}

 	if (ctx.flash_written) {
 		LOG_DBG("requesting upgrade and reset");

 		err = boot_request_upgrade(BOOT_UPGRADE_TEST);
 		if (err) {
 			LOG_ERR("failed to request upgrade (err %d)", err);
 			CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
 				       CO_EMC_HARDWARE, err);
 			return CO_SDO_AB_HW;
 		}

 		ctx.nmt->resetCommand = CO_RESET_APP;
 	} else {
 		LOG_DBG("program started");
 		canopen_program_set_status(PROGRAM_CTRL_START);
 	}

 	return CO_SDO_AB_NONE;
 }

 static inline CO_SDO_abortCode_t canopen_program_cmd_clear(void)
 {
 	int err;

 	if (canopen_program_get_status() != PROGRAM_CTRL_STOP) {
 		return CO_SDO_AB_DATA_DEV_STATE;
 	}

 	if (!IS_ENABLED(CONFIG_IMG_ERASE_PROGRESSIVELY)) {
 		LOG_DBG("erasing flash area");

 		err = boot_erase_img_bank(FIXED_PARTITION_ID(slot1_partition));
 		if (err) {
 			LOG_ERR("failed to erase image bank (err %d)", err);
 			CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
 				       CO_EMC_HARDWARE, err);
 			return CO_SDO_AB_HW;
 		}
 	}

 	LOG_DBG("program cleared");
 	canopen_program_set_status(PROGRAM_CTRL_CLEAR);
 	ctx.flash_status = FLASH_STATUS_NO_ERROR;
 	ctx.flash_written = false;

 	return CO_SDO_AB_NONE;
 }

 static inline CO_SDO_abortCode_t canopen_program_cmd_confirm(void)
 {
 	int err;

 	if (canopen_program_get_status() == PROGRAM_CTRL_ZEPHYR_CONFIRM) {
 		err = boot_write_img_confirmed();
 		if (err) {
 			LOG_ERR("failed to confirm image (err %d)", err);
 			CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
 				       CO_EMC_HARDWARE, err);
 			return CO_SDO_AB_HW;
 		}

 		LOG_DBG("program confirmed");
 		canopen_program_set_status(PROGRAM_CTRL_START);
 	}

 	return CO_SDO_AB_NONE;
 }

 static CO_SDO_abortCode_t canopen_odf_1f51(CO_ODF_arg_t *odf_arg)
 {
 	CO_SDO_abortCode_t ab;
 	uint8_t cmd;

 	if (odf_arg->subIndex != 1U) {
 		return CO_SDO_AB_NONE;
 	}

 	if (odf_arg->reading) {
 		odf_arg->data[0] = canopen_program_get_status();
 		return CO_SDO_AB_NONE;
 	}

 	if (CO_NMT_getInternalState(ctx.nmt) != CO_NMT_PRE_OPERATIONAL) {
 		LOG_DBG("not in pre-operational state");
 		return CO_SDO_AB_DATA_DEV_STATE;
 	}

 	/* Preserve old value */
 	cmd = odf_arg->data[0];
 	memcpy(odf_arg->data, odf_arg->ODdataStorage, sizeof(uint8_t));

 	LOG_DBG("program status = %d, cmd = %d", canopen_program_get_status(),
 		cmd);

 	switch (cmd) {
 	case PROGRAM_CTRL_STOP:
 		ab = canopen_program_cmd_stop();
 		break;
 	case PROGRAM_CTRL_START:
 		ab = canopen_program_cmd_start();
 		break;
 	case PROGRAM_CTRL_CLEAR:
 		ab = canopen_program_cmd_clear();
 		break;
 	case PROGRAM_CTRL_ZEPHYR_CONFIRM:
 		ab = canopen_program_cmd_confirm();
 		break;
 	case PROGRAM_CTRL_RESET:
 		__fallthrough;
 	default:
 		LOG_DBG("unsupported command '%d'", cmd);
 		ab = CO_SDO_AB_INVALID_VALUE;
 	}

 	return ab;
 }

 #ifdef CONFIG_BOOTLOADER_MCUBOOT
 /** @brief Calculate crc for region in flash
  *
  * @param flash_area Flash area to read from, must be open
  * @offset Offset to read from
  * @size Number of bytes to include in calculation
  * @pcrc Pointer to uint32_t where crc will be written if return value is 0
  *
  * @return 0 if successful, negative errno on failure
  */
 static int flash_crc(const struct flash_area *flash_area,
 		off_t offset, size_t size, uint32_t *pcrc)
 {
 	uint32_t crc = 0;
 	uint8_t buffer[32];

 	while (size > 0) {
 		size_t len = MIN(size, sizeof(buffer));

 		int err = flash_area_read(flash_area, offset, buffer, len);

 		if (err) {
 			return err;
 		}

 		crc = crc32_ieee_update(crc, buffer, len);

 		offset += len;
 		size -= len;
 	}

 	*pcrc = crc;

 	return 0;
 }

 static CO_SDO_abortCode_t canopen_odf_1f56(CO_ODF_arg_t *odf_arg)
 {
 	const struct flash_area *flash_area;
 	struct mcuboot_img_header header;
 	off_t offset = 0;
 	uint32_t crc = 0;
 	uint8_t fa_id;
 	uint32_t len;
 	int err;

 	if (odf_arg->subIndex != 1U) {
 		return CO_SDO_AB_NONE;
 	}

 	if (!odf_arg->reading) {
 		/* Preserve old value */
 		memcpy(odf_arg->data, odf_arg->ODdataStorage, sizeof(uint32_t));
 		return CO_SDO_AB_READONLY;
 	}

 	/* Reading from flash and calculating crc can take 100ms or more, and
 	 * this function is called with the can od lock taken.
 	 *
 	 * Release the lock before performing time consuming work, and reacquire
 	 * before return.
 	 */
 	CO_UNLOCK_OD();

 	/*
 	 * Calculate the CRC32 of the image that is running or will be
 	 * started upon receiveing the next 'start' command.
 	 */
 	if (ctx.flash_written) {
 		fa_id = FIXED_PARTITION_ID(slot1_partition);
 	} else {
 		fa_id = FIXED_PARTITION_ID(slot0_partition);
 	}

 	err = boot_read_bank_header(fa_id, &header, sizeof(header));
 	if (err) {
 		LOG_WRN("failed to read bank header (err %d)", err);
 		CO_setUint32(odf_arg->data, 0U);

 		CO_LOCK_OD();
 		return CO_SDO_AB_NONE;
 	}

 	if (header.mcuboot_version != 1) {
 		LOG_WRN("unsupported mcuboot header version %d",
 			header.mcuboot_version);
 		CO_setUint32(odf_arg->data, 0U);

 		CO_LOCK_OD();
 		return CO_SDO_AB_NONE;
 	}
 	len = header.h.v1.image_size;

 	err = flash_area_open(fa_id, &flash_area);
 	if (err) {
 		LOG_ERR("failed to open flash area (err %d)", err);
 		CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
 			       CO_EMC_HARDWARE, err);

 		CO_LOCK_OD();
 		return CO_SDO_AB_HW;
 	}

 	err = flash_crc(flash_area, offset, len, &crc);

 	flash_area_close(flash_area);

 	if (err) {
 		LOG_ERR("failed to read flash (err %d)", err);
 		CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
 			       CO_EMC_HARDWARE, err);

 		CO_LOCK_OD();
 		return CO_SDO_AB_HW;
 	}

 	CO_setUint32(odf_arg->data, crc);

 	CO_LOCK_OD();
 	return CO_SDO_AB_NONE;
 }
 #endif /* CONFIG_BOOTLOADER_MCUBOOT */

 static CO_SDO_abortCode_t canopen_odf_1f57(CO_ODF_arg_t *odf_arg)
 {
 	if (odf_arg->subIndex != 1U) {
 		return CO_SDO_AB_NONE;
 	}

 	if (!odf_arg->reading) {
 		/* Preserve old value */
 		memcpy(odf_arg->data, odf_arg->ODdataStorage, sizeof(uint32_t));
 		return CO_SDO_AB_READONLY;
 	}

 	CO_setUint32(odf_arg->data, ctx.flash_status);

 	return CO_SDO_AB_NONE;
 }

 void canopen_program_download_attach(CO_NMT_t *nmt, CO_SDO_t *sdo, CO_EM_t *em)
 {
 	canopen_program_set_status(PROGRAM_CTRL_START);
 	ctx.flash_status = FLASH_STATUS_NO_ERROR;
 	ctx.flash_written = false;
 	ctx.nmt = nmt;
 	ctx.em = em;

 	CO_OD_configure(sdo, OD_H1F50_PROGRAM_DATA, canopen_odf_1f50,
 			NULL, 0U, 0U);

 	CO_OD_configure(sdo, OD_H1F51_PROGRAM_CTRL, canopen_odf_1f51,
 			NULL, 0U, 0U);

 	if (IS_ENABLED(CONFIG_BOOTLOADER_MCUBOOT)) {
 		CO_OD_configure(sdo, OD_H1F56_PROGRAM_SWID, canopen_odf_1f56,
 				NULL, 0U, 0U);
 	}

 	CO_OD_configure(sdo, OD_H1F57_FLASH_STATUS, canopen_odf_1f57,
 			NULL, 0U, 0U);
 }
	/*
	* Copyright (c) 2020 Vestas Wind Systems A/S
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#include <CANopen.h>

	#include <canopennode.h>
	#include <zephyr/dfu/flash_img.h>
	#include <zephyr/dfu/mcuboot.h>
	#include <zephyr/storage/flash_map.h>
	#include <zephyr/sys/crc.h>

	#define LOG_LEVEL CONFIG_CANOPEN_LOG_LEVEL
	#include <zephyr/logging/log.h>
	LOG_MODULE_REGISTER(canopen_program);

	/* Object dictionary indexes */
	#define OD_H1F50_PROGRAM_DATA 0x1F50
	#define OD_H1F51_PROGRAM_CTRL 0x1F51
	#define OD_H1F56_PROGRAM_SWID 0x1F56
	#define OD_H1F57_FLASH_STATUS 0x1F57

	/* Common program control commands and status */
	#define PROGRAM_CTRL_STOP 0x00
	#define PROGRAM_CTRL_START 0x01
	#define PROGRAM_CTRL_RESET 0x02
	#define PROGRAM_CTRL_CLEAR 0x03
	/* Zephyr specific program control and status */
	#define PROGRAM_CTRL_ZEPHYR_CONFIRM 0x80

	/* Flash status bits */
	#define FLASH_STATUS_IN_PROGRESS BIT(0)
	/* Flash common error bits values */
	#define FLASH_STATUS_NO_ERROR (0U << 1U)
	#define FLASH_STATUS_NO_VALID_PROGRAM (1U << 1U)
	#define FLASH_STATUS_DATA_FORMAT_UNKNOWN (2U << 1U)
	#define FLASH_STATUS_DATA_FORMAT_ERROR (3U << 1U)
	#define FLASH_STATUS_FLASH_NOT_CLEARED (4U << 1U)
	#define FLASH_STATUS_FLASH_WRITE_ERROR (5U << 1U)
	#define FLASH_STATUS_GENERAL_ADDR_ERROR (6U << 1U)
	#define FLASH_STATUS_FLASH_SECURED (7U << 1U)
	#define FLASH_STATUS_UNSPECIFIED_ERROR (63U << 1)

	struct canopen_program_context {
	uint32_t flash_status;
	size_t total;
	CO_NMT_t *nmt;
	CO_EM_t *em;
	struct flash_img_context flash_img_ctx;
	uint8_t program_status;
	bool flash_written;
	};

	static struct canopen_program_context ctx;

	static void canopen_program_set_status(uint32_t status)
	{
	ctx.program_status = status;
	}

	static uint32_t canopen_program_get_status(void)
	{
	/*
	* Non-confirmed boot image takes precedence over other
	* status. This must be checked on every invocation since the
	* app may be using other means of confirming the image.
	*/
	if (!boot_is_img_confirmed()) {
	return PROGRAM_CTRL_ZEPHYR_CONFIRM;
	}

	return ctx.program_status;
	}

	static CO_SDO_abortCode_t canopen_odf_1f50(CO_ODF_arg_t *odf_arg)
	{
	int err;

	if (odf_arg->subIndex != 1U) {
	return CO_SDO_AB_NONE;
	}

	if (odf_arg->reading) {
	return CO_SDO_AB_WRITEONLY;
	}

	if (canopen_program_get_status() != PROGRAM_CTRL_CLEAR) {
	ctx.flash_status = FLASH_STATUS_FLASH_NOT_CLEARED;
	return CO_SDO_AB_DATA_DEV_STATE;
	}

	if (odf_arg->firstSegment) {
	err = flash_img_init(&ctx.flash_img_ctx);
	if (err) {
	LOG_ERR("failed to initialize flash img (err %d)", err);
	CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
	CO_EMC_HARDWARE, err);
	ctx.flash_status = FLASH_STATUS_FLASH_WRITE_ERROR;
	return CO_SDO_AB_HW;
	}
	ctx.flash_status = FLASH_STATUS_IN_PROGRESS;
	if (IS_ENABLED(CONFIG_CANOPENNODE_LEDS)) {
	canopen_leds_program_download(true);
	}
	ctx.total = odf_arg->dataLengthTotal;
	LOG_DBG("total = %d", ctx.total);
	}

	err = flash_img_buffered_write(&ctx.flash_img_ctx, odf_arg->data,
	odf_arg->dataLength,
	odf_arg->lastSegment);
	if (err) {
	CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
	CO_EMC_HARDWARE, err);
	ctx.flash_status = FLASH_STATUS_FLASH_WRITE_ERROR;
	canopen_leds_program_download(false);
	return CO_SDO_AB_HW;
	}

	if (odf_arg->lastSegment) {
	/* ctx.total is zero if not provided by download process */
	if (ctx.total != 0 &&
	ctx.total != flash_img_bytes_written(&ctx.flash_img_ctx)) {
	LOG_WRN("premature end of program download");
	ctx.flash_status = FLASH_STATUS_DATA_FORMAT_ERROR;
	} else {
	LOG_DBG("program downloaded");
	ctx.flash_written = true;
	ctx.flash_status = FLASH_STATUS_NO_ERROR;
	}

	canopen_program_set_status(PROGRAM_CTRL_STOP);
	canopen_leds_program_download(false);
	}

	return CO_SDO_AB_NONE;
	}

	static inline CO_SDO_abortCode_t canopen_program_cmd_stop(void)
	{
	if (canopen_program_get_status() == PROGRAM_CTRL_ZEPHYR_CONFIRM) {
	return CO_SDO_AB_DATA_DEV_STATE;
	}

	LOG_DBG("program stopped");
	canopen_program_set_status(PROGRAM_CTRL_STOP);

	return CO_SDO_AB_NONE;
	}

	static inline CO_SDO_abortCode_t canopen_program_cmd_start(void)
	{
	int err;

	if (canopen_program_get_status() == PROGRAM_CTRL_ZEPHYR_CONFIRM) {
	return CO_SDO_AB_DATA_DEV_STATE;
	}

	if (ctx.flash_written) {
	LOG_DBG("requesting upgrade and reset");

	err = boot_request_upgrade(BOOT_UPGRADE_TEST);
	if (err) {
	LOG_ERR("failed to request upgrade (err %d)", err);
	CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
	CO_EMC_HARDWARE, err);
	return CO_SDO_AB_HW;
	}

	ctx.nmt->resetCommand = CO_RESET_APP;
	} else {
	LOG_DBG("program started");
	canopen_program_set_status(PROGRAM_CTRL_START);
	}

	return CO_SDO_AB_NONE;
	}

	static inline CO_SDO_abortCode_t canopen_program_cmd_clear(void)
	{
	int err;

	if (canopen_program_get_status() != PROGRAM_CTRL_STOP) {
	return CO_SDO_AB_DATA_DEV_STATE;
	}

	if (!IS_ENABLED(CONFIG_IMG_ERASE_PROGRESSIVELY)) {
	LOG_DBG("erasing flash area");

	err = boot_erase_img_bank(FIXED_PARTITION_ID(slot1_partition));
	if (err) {
	LOG_ERR("failed to erase image bank (err %d)", err);
	CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
	CO_EMC_HARDWARE, err);
	return CO_SDO_AB_HW;
	}
	}

	LOG_DBG("program cleared");
	canopen_program_set_status(PROGRAM_CTRL_CLEAR);
	ctx.flash_status = FLASH_STATUS_NO_ERROR;
	ctx.flash_written = false;

	return CO_SDO_AB_NONE;
	}

	static inline CO_SDO_abortCode_t canopen_program_cmd_confirm(void)
	{
	int err;

	if (canopen_program_get_status() == PROGRAM_CTRL_ZEPHYR_CONFIRM) {
	err = boot_write_img_confirmed();
	if (err) {
	LOG_ERR("failed to confirm image (err %d)", err);
	CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
	CO_EMC_HARDWARE, err);
	return CO_SDO_AB_HW;
	}

	LOG_DBG("program confirmed");
	canopen_program_set_status(PROGRAM_CTRL_START);
	}

	return CO_SDO_AB_NONE;
	}

	static CO_SDO_abortCode_t canopen_odf_1f51(CO_ODF_arg_t *odf_arg)
	{
	CO_SDO_abortCode_t ab;
	uint8_t cmd;

	if (odf_arg->subIndex != 1U) {
	return CO_SDO_AB_NONE;
	}

	if (odf_arg->reading) {
	odf_arg->data[0] = canopen_program_get_status();
	return CO_SDO_AB_NONE;
	}

	if (CO_NMT_getInternalState(ctx.nmt) != CO_NMT_PRE_OPERATIONAL) {
	LOG_DBG("not in pre-operational state");
	return CO_SDO_AB_DATA_DEV_STATE;
	}

	/* Preserve old value */
	cmd = odf_arg->data[0];
	memcpy(odf_arg->data, odf_arg->ODdataStorage, sizeof(uint8_t));

	LOG_DBG("program status = %d, cmd = %d", canopen_program_get_status(),
	cmd);

	switch (cmd) {
	case PROGRAM_CTRL_STOP:
	ab = canopen_program_cmd_stop();
	break;
	case PROGRAM_CTRL_START:
	ab = canopen_program_cmd_start();
	break;
	case PROGRAM_CTRL_CLEAR:
	ab = canopen_program_cmd_clear();
	break;
	case PROGRAM_CTRL_ZEPHYR_CONFIRM:
	ab = canopen_program_cmd_confirm();
	break;
	case PROGRAM_CTRL_RESET:
	__fallthrough;
	default:
	LOG_DBG("unsupported command '%d'", cmd);
	ab = CO_SDO_AB_INVALID_VALUE;
	}

	return ab;
	}

	#ifdef CONFIG_BOOTLOADER_MCUBOOT
	/** @brief Calculate crc for region in flash
	*
	* @param flash_area Flash area to read from, must be open
	* @offset Offset to read from
	* @size Number of bytes to include in calculation
	* @pcrc Pointer to uint32_t where crc will be written if return value is 0
	*
	* @return 0 if successful, negative errno on failure
	*/
	static int flash_crc(const struct flash_area *flash_area,
	off_t offset, size_t size, uint32_t *pcrc)
	{
	uint32_t crc = 0;
	uint8_t buffer[32];

	while (size > 0) {
	size_t len = MIN(size, sizeof(buffer));

	int err = flash_area_read(flash_area, offset, buffer, len);

	if (err) {
	return err;
	}

	crc = crc32_ieee_update(crc, buffer, len);

	offset += len;
	size -= len;
	}

	*pcrc = crc;

	return 0;
	}

	static CO_SDO_abortCode_t canopen_odf_1f56(CO_ODF_arg_t *odf_arg)
	{
	const struct flash_area *flash_area;
	struct mcuboot_img_header header;
	off_t offset = 0;
	uint32_t crc = 0;
	uint8_t fa_id;
	uint32_t len;
	int err;

	if (odf_arg->subIndex != 1U) {
	return CO_SDO_AB_NONE;
	}

	if (!odf_arg->reading) {
	/* Preserve old value */
	memcpy(odf_arg->data, odf_arg->ODdataStorage, sizeof(uint32_t));
	return CO_SDO_AB_READONLY;
	}

	/* Reading from flash and calculating crc can take 100ms or more, and
	* this function is called with the can od lock taken.
	*
	* Release the lock before performing time consuming work, and reacquire
	* before return.
	*/
	CO_UNLOCK_OD();

	/*
	* Calculate the CRC32 of the image that is running or will be
	* started upon receiveing the next 'start' command.
	*/
	if (ctx.flash_written) {
	fa_id = FIXED_PARTITION_ID(slot1_partition);
	} else {
	fa_id = FIXED_PARTITION_ID(slot0_partition);
	}

	err = boot_read_bank_header(fa_id, &header, sizeof(header));
	if (err) {
	LOG_WRN("failed to read bank header (err %d)", err);
	CO_setUint32(odf_arg->data, 0U);

	CO_LOCK_OD();
	return CO_SDO_AB_NONE;
	}

	if (header.mcuboot_version != 1) {
	LOG_WRN("unsupported mcuboot header version %d",
	header.mcuboot_version);
	CO_setUint32(odf_arg->data, 0U);

	CO_LOCK_OD();
	return CO_SDO_AB_NONE;
	}
	len = header.h.v1.image_size;

	err = flash_area_open(fa_id, &flash_area);
	if (err) {
	LOG_ERR("failed to open flash area (err %d)", err);
	CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
	CO_EMC_HARDWARE, err);

	CO_LOCK_OD();
	return CO_SDO_AB_HW;
	}

	err = flash_crc(flash_area, offset, len, &crc);

	flash_area_close(flash_area);

	if (err) {
	LOG_ERR("failed to read flash (err %d)", err);
	CO_errorReport(ctx.em, CO_EM_NON_VOLATILE_MEMORY,
	CO_EMC_HARDWARE, err);

	CO_LOCK_OD();
	return CO_SDO_AB_HW;
	}

	CO_setUint32(odf_arg->data, crc);

	CO_LOCK_OD();
	return CO_SDO_AB_NONE;
	}
	#endif /* CONFIG_BOOTLOADER_MCUBOOT */

	static CO_SDO_abortCode_t canopen_odf_1f57(CO_ODF_arg_t *odf_arg)
	{
	if (odf_arg->subIndex != 1U) {
	return CO_SDO_AB_NONE;
	}

	if (!odf_arg->reading) {
	/* Preserve old value */
	memcpy(odf_arg->data, odf_arg->ODdataStorage, sizeof(uint32_t));
	return CO_SDO_AB_READONLY;
	}

	CO_setUint32(odf_arg->data, ctx.flash_status);

	return CO_SDO_AB_NONE;
	}

	void canopen_program_download_attach(CO_NMT_t nmt, CO_SDO_t sdo, CO_EM_t *em)
	{
	canopen_program_set_status(PROGRAM_CTRL_START);
	ctx.flash_status = FLASH_STATUS_NO_ERROR;
	ctx.flash_written = false;
	ctx.nmt = nmt;
	ctx.em = em;

	CO_OD_configure(sdo, OD_H1F50_PROGRAM_DATA, canopen_odf_1f50,
	NULL, 0U, 0U);

	CO_OD_configure(sdo, OD_H1F51_PROGRAM_CTRL, canopen_odf_1f51,
	NULL, 0U, 0U);

	if (IS_ENABLED(CONFIG_BOOTLOADER_MCUBOOT)) {
	CO_OD_configure(sdo, OD_H1F56_PROGRAM_SWID, canopen_odf_1f56,
	NULL, 0U, 0U);
	}

	CO_OD_configure(sdo, OD_H1F57_FLASH_STATUS, canopen_odf_1f57,
	NULL, 0U, 0U);
	}