cmd/amlogic/cmd_bootctl_avb.c - u-boot - Git at Google

 /*
  * (C) Copyright 2013 Amlogic, Inc
  *
  * This file is used to run commands from misc partition
  * More detail to check the command "run bcb_cmd" usage
  *
  * cheng.wang@amlogic.com,
  * 2015-04-23 @ Shenzhen
  *
  */
 #include <common.h>
 #include <command.h>
 #include <environment.h>
 #include <malloc.h>
 #include <asm/byteorder.h>
 #include <config.h>
 #include <asm/arch/io.h>
 #include <partition_table.h>
 #include <libavb/libavb.h>
 #include <version.h>
 #include <amlogic/storage.h>

 #ifdef CONFIG_BOOTLOADER_CONTROL_BLOCK

 #define AB_METADATA_MISC_PARTITION_OFFSET 2048

 #define MISCBUF_SIZE  2080


 /* Magic for the A/B struct when serialized. */
 #define AVB_AB_MAGIC "\0AB0"
 #define AVB_AB_MAGIC_LEN 4

 /* Versioning for the on-disk A/B metadata - keep in sync with avbtool. */
 #define AVB_AB_MAJOR_VERSION 1
 #define AVB_AB_MINOR_VERSION 0

 /* Size of AvbABData struct. */
 #define AVB_AB_DATA_SIZE 32

 /* Maximum values for slot data */
 #define AVB_AB_MAX_PRIORITY 15
 #define AVB_AB_MAX_TRIES_REMAINING 7

 /* Struct used for recording per-slot metadata.
  *
  * When serialized, data is stored in network byte-order.
  */
 typedef struct AvbABSlotData {
   /* Slot priority. Valid values range from 0 to AVB_AB_MAX_PRIORITY,
    * both inclusive with 1 being the lowest and AVB_AB_MAX_PRIORITY
    * being the highest. The special value 0 is used to indicate the
    * slot is unbootable.
    */
   uint8_t priority;

   /* Number of times left attempting to boot this slot ranging from 0
    * to AVB_AB_MAX_TRIES_REMAINING.
    */
   uint8_t tries_remaining;

   /* Non-zero if this slot has booted successfully, 0 otherwise. */
   uint8_t successful_boot;

   /* Reserved for future use. */
   uint8_t reserved[1];
 } AvbABSlotData;

 /* Struct used for recording A/B metadata.
  *
  * When serialized, data is stored in network byte-order.
  */
 typedef struct AvbABData {
   /* Magic number used for identification - see AVB_AB_MAGIC. */
   uint8_t magic[AVB_AB_MAGIC_LEN];

   /* Version of on-disk struct - see AVB_AB_{MAJOR,MINOR}_VERSION. */
   uint8_t version_major;
   uint8_t version_minor;

   /* Padding to ensure |slots| field start eight bytes in. */
   uint8_t reserved1[2];

   /* Per-slot metadata. */
   AvbABSlotData slots[2];

   /* Reserved for future use. */
   uint8_t reserved2[12];

   /* CRC32 of all 28 bytes preceding this field. */
   uint32_t crc32;
 }AvbABData;

 /*static int clear_misc_partition(char *clearbuf, int size)
 {
     char *partition = "misc";

     memset(clearbuf, 0, size);
     if (store_write((unsigned char *)partition,
         0, size, (unsigned char *)clearbuf) < 0) {
         printf("failed to clear %s.\n", partition);
         return -1;
     }

     return 0;
 }*/

 bool boot_info_validate(AvbABData* info)
 {
     if (memcmp(info->magic, AVB_AB_MAGIC, AVB_AB_MAGIC_LEN) != 0) {
         printf("Magic %s is incorrect.\n", info->magic);
         return false;
     }
     if (info->version_major > AVB_AB_MAJOR_VERSION) {
         printf("No support for given major version.\n");
         return false;
     }
     return true;
 }

 void boot_info_reset(AvbABData* info)
 {
     memset(info, '\0', sizeof(AvbABData));
     memcpy(info->magic, AVB_AB_MAGIC, AVB_AB_MAGIC_LEN);
     info->version_major = AVB_AB_MAJOR_VERSION;
     info->version_minor = AVB_AB_MINOR_VERSION;
     info->slots[0].priority = AVB_AB_MAX_PRIORITY;
     info->slots[0].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
     info->slots[0].successful_boot = 0;
     info->slots[1].priority = AVB_AB_MAX_PRIORITY - 1;
     info->slots[1].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
     info->slots[1].successful_boot = 0;
 }

 void dump_boot_info(AvbABData* info)
 {
     printf("info->magic = %s\n", info->magic);
     printf("info->version_major = %d\n", info->version_major);
     printf("info->version_minor = %d\n", info->version_minor);
     printf("info->slots[0].priority = %d\n", info->slots[0].priority);
     printf("info->slots[0].tries_remaining = %d\n", info->slots[0].tries_remaining);
     printf("info->slots[0].successful_boot = %d\n", info->slots[0].successful_boot);
     printf("info->slots[1].priority = %d\n", info->slots[1].priority);
     printf("info->slots[1].tries_remaining = %d\n", info->slots[1].tries_remaining);
     printf("info->slots[1].successful_boot = %d\n", info->slots[1].successful_boot);

     printf("info->crc32 = %d\n", info->crc32);
 }

 static bool slot_is_bootable(AvbABSlotData* slot) {
   return slot->priority > 0 &&
          (slot->successful_boot || (slot->tries_remaining > 0));
 }

 int get_active_slot(AvbABData* info) {
     if (info->slots[0].priority > info->slots[1].priority)
         return 0;
     else
         return 1;
 }


 int boot_info_set_active_slot(AvbABData* info, int slot)
 {
     unsigned int other_slot_number;

     /* Make requested slot top priority, unsuccessful, and with max tries. */
     info->slots[slot].priority = AVB_AB_MAX_PRIORITY;
     info->slots[slot].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
     info->slots[slot].successful_boot = 0;

     /* Ensure other slot doesn't have as high a priority. */
     other_slot_number = 1 - slot;
     if (info->slots[other_slot_number].priority == AVB_AB_MAX_PRIORITY) {
         info->slots[other_slot_number].priority = AVB_AB_MAX_PRIORITY - 1;
     }

     dump_boot_info(info);

     return 0;
 }

 int boot_info_open_partition(char *miscbuf)
 {
     char *partition = "misc";
     //int i;
     printf("Start read %s partition datas!\n", partition);
     if (store_read((unsigned char *)partition,
         0, MISCBUF_SIZE, (unsigned char *)miscbuf) < 0) {
         printf("failed to store read %s.\n", partition);
         return -1;
     }

     /*for (i = AB_METADATA_MISC_PARTITION_OFFSET;i < (AB_METADATA_MISC_PARTITION_OFFSET+AVB_AB_DATA_SIZE);i++)
         printf("buf: %c \n", miscbuf[i]);*/
     return 0;
 }

 bool boot_info_load(AvbABData *out_info, char *miscbuf)
 {
     memcpy(out_info, miscbuf+AB_METADATA_MISC_PARTITION_OFFSET, AVB_AB_DATA_SIZE);
     dump_boot_info(out_info);
     return true;
 }

 bool boot_info_save(AvbABData *info, char *miscbuf)
 {
     char *partition = "misc";
     printf("save boot-info \n");
     info->crc32 = avb_htobe32(
       avb_crc32((const uint8_t*)info, sizeof(AvbABData) - sizeof(uint32_t)));

     memcpy(miscbuf+AB_METADATA_MISC_PARTITION_OFFSET, info, AVB_AB_DATA_SIZE);
     dump_boot_info(info);
     store_write((unsigned char *)partition, 0, MISCBUF_SIZE, (unsigned char *)miscbuf);
     return true;
 }

 static int do_GetValidSlot(
     cmd_tbl_t * cmdtp,
     int flag,
     int argc,
     char * const argv[])
 {
     char miscbuf[MISCBUF_SIZE] = {0};
     AvbABData info;
     int slot;
     bool bootable_a, bootable_b;

     if (argc != 1) {
         return cmd_usage(cmdtp);
     }

     boot_info_open_partition(miscbuf);
     boot_info_load(&info, miscbuf);

     if (!boot_info_validate(&info)) {
         printf("boot-info is invalid. Resetting.\n");
         boot_info_reset(&info);
         boot_info_save(&info, miscbuf);
     }

     slot = get_active_slot(&info);
     printf("active slot = %d\n", slot);

     bootable_a = slot_is_bootable(&(info.slots[0]));
     bootable_b = slot_is_bootable(&(info.slots[1]));

     if ((slot == 0) && (bootable_a)) {
         if (has_boot_slot == 1) {
             env_set("active_slot","_a");
             env_set("boot_part","boot_a");
             env_set("slot-suffixes","0");
         }
         else {
             env_set("active_slot","normal");
             env_set("boot_part","boot");
         }
         return 0;
     }

     if ((slot == 1) && (bootable_b)) {
         if (has_boot_slot == 1) {
             env_set("active_slot","_b");
             env_set("boot_part","boot_b");
             env_set("slot-suffixes","1");
         }
         else {
             env_set("active_slot","normal");
             env_set("boot_part","boot");
         }
         return 0;
     }

     return 0;
 }

 static int do_SetActiveSlot(
     cmd_tbl_t * cmdtp,
     int flag,
     int argc,
     char * const argv[])
 {
     char miscbuf[MISCBUF_SIZE] = {0};
     AvbABData info;

     if (argc != 2) {
         return cmd_usage(cmdtp);
     }

     if (has_boot_slot == 0) {
         printf("device is not ab mode\n");
         return -1;
     }

     boot_info_open_partition(miscbuf);
     boot_info_load(&info, miscbuf);

     if (!boot_info_validate(&info)) {
         printf("boot-info is invalid. Resetting.\n");
         boot_info_reset(&info);
         boot_info_save(&info, miscbuf);
     }

     if (strcmp(argv[1], "a") == 0) {
         env_set("active_slot","_a");
         env_set("slot-suffixes","0");
         env_set("boot_part","boot_a");
         printf("set active slot a \n");
         boot_info_set_active_slot(&info, 0);
     } else if (strcmp(argv[1], "b") == 0) {
         env_set("active_slot","_b");
         env_set("slot-suffixes","1");
         env_set("boot_part","boot_b");
         printf("set active slot b \n");
         boot_info_set_active_slot(&info, 1);
     } else {
         printf("error input slot\n");
         return -1;
     }

     boot_info_save(&info, miscbuf);

     return 0;
 }

 int do_GetSystemMode (cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[])
 {
     char* system;
 #ifdef CONFIG_SYSTEM_AS_ROOT
     system = CONFIG_SYSTEM_AS_ROOT;
     strcpy(system, CONFIG_SYSTEM_AS_ROOT);
     printf("CONFIG_SYSTEM_AS_ROOT: %s \n", CONFIG_SYSTEM_AS_ROOT);
     if (strcmp(system, "systemroot") == 0) {
         env_set("system_mode","1");
     }
     else {
         env_set("system_mode","0");
     }
 #else
     env_set("system_mode","0");
 #endif

     return 0;
 }

 int do_GetAvbMode (cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[])
 {
 #ifdef CONFIG_AVB2
     char* avbmode;
     avbmode = CONFIG_AVB2;
     strcpy(avbmode, CONFIG_AVB2);
     printf("CONFIG_AVB2: %s \n", CONFIG_AVB2);
     if (strcmp(avbmode, "avb2") == 0) {
         env_set("avb2","1");
     }
     else {
         env_set("avb2","0");
     }
 #else
     env_set("avb2","0");
 #endif

     return 0;
 }


 #endif /* CONFIG_BOOTLOADER_CONTROL_BLOCK */

 U_BOOT_CMD(
     get_valid_slot, 2, 0, do_GetValidSlot,
     "get_valid_slot",
     "\nThis command will choose valid slot to boot up which saved in misc\n"
     "partition by mark to decide whether execute command!\n"
     "So you can execute command: get_valid_slot"
 );

 U_BOOT_CMD(
     set_active_slot, 2, 1, do_SetActiveSlot,
     "set_active_slot",
     "\nThis command will set active slot\n"
     "So you can execute command: set_active_slot a"
 );

 U_BOOT_CMD(
     get_system_as_root_mode, 1,	0, do_GetSystemMode,
     "get_system_as_root_mode",
     "\nThis command will get system_as_root_mode\n"
     "So you can execute command: get_system_as_root_mode"
 );

 U_BOOT_CMD(
     get_avb_mode, 1,	0, do_GetAvbMode,
     "get_avb_mode",
     "\nThis command will get avb mode\n"
     "So you can execute command: get_avb_mode"
 );
	/*
	* (C) Copyright 2013 Amlogic, Inc
	*
	* This file is used to run commands from misc partition
	* More detail to check the command "run bcb_cmd" usage
	*
	* cheng.wang@amlogic.com,
	* 2015-04-23 @ Shenzhen
	*
	*/
	#include <common.h>
	#include <command.h>
	#include <environment.h>
	#include <malloc.h>
	#include <asm/byteorder.h>
	#include <config.h>
	#include <asm/arch/io.h>
	#include <partition_table.h>
	#include <libavb/libavb.h>
	#include <version.h>
	#include <amlogic/storage.h>

	#ifdef CONFIG_BOOTLOADER_CONTROL_BLOCK

	#define AB_METADATA_MISC_PARTITION_OFFSET 2048

	#define MISCBUF_SIZE 2080


	/* Magic for the A/B struct when serialized. */
	#define AVB_AB_MAGIC "\0AB0"
	#define AVB_AB_MAGIC_LEN 4

	/* Versioning for the on-disk A/B metadata - keep in sync with avbtool. */
	#define AVB_AB_MAJOR_VERSION 1
	#define AVB_AB_MINOR_VERSION 0

	/* Size of AvbABData struct. */
	#define AVB_AB_DATA_SIZE 32

	/* Maximum values for slot data */
	#define AVB_AB_MAX_PRIORITY 15
	#define AVB_AB_MAX_TRIES_REMAINING 7

	/* Struct used for recording per-slot metadata.
	*
	* When serialized, data is stored in network byte-order.
	*/
	typedef struct AvbABSlotData {
	/* Slot priority. Valid values range from 0 to AVB_AB_MAX_PRIORITY,
	* both inclusive with 1 being the lowest and AVB_AB_MAX_PRIORITY
	* being the highest. The special value 0 is used to indicate the
	* slot is unbootable.
	*/
	uint8_t priority;

	/* Number of times left attempting to boot this slot ranging from 0
	* to AVB_AB_MAX_TRIES_REMAINING.
	*/
	uint8_t tries_remaining;

	/* Non-zero if this slot has booted successfully, 0 otherwise. */
	uint8_t successful_boot;

	/* Reserved for future use. */
	uint8_t reserved[1];
	} AvbABSlotData;

	/* Struct used for recording A/B metadata.
	*
	* When serialized, data is stored in network byte-order.
	*/
	typedef struct AvbABData {
	/* Magic number used for identification - see AVB_AB_MAGIC. */
	uint8_t magic[AVB_AB_MAGIC_LEN];

	/* Version of on-disk struct - see AVB_AB_{MAJOR,MINOR}_VERSION. */
	uint8_t version_major;
	uint8_t version_minor;

	/* Padding to ensure \|slots\| field start eight bytes in. */
	uint8_t reserved1[2];

	/* Per-slot metadata. */
	AvbABSlotData slots[2];

	/* Reserved for future use. */
	uint8_t reserved2[12];

	/* CRC32 of all 28 bytes preceding this field. */
	uint32_t crc32;
	}AvbABData;

	/static int clear_misc_partition(char clearbuf, int size)
	{
	char *partition = "misc";

	memset(clearbuf, 0, size);
	if (store_write((unsigned char *)partition,
	0, size, (unsigned char *)clearbuf) < 0) {
	printf("failed to clear %s.\n", partition);
	return -1;
	}

	return 0;
	}*/

	bool boot_info_validate(AvbABData* info)
	{
	if (memcmp(info->magic, AVB_AB_MAGIC, AVB_AB_MAGIC_LEN) != 0) {
	printf("Magic %s is incorrect.\n", info->magic);
	return false;
	}
	if (info->version_major > AVB_AB_MAJOR_VERSION) {
	printf("No support for given major version.\n");
	return false;
	}
	return true;
	}

	void boot_info_reset(AvbABData* info)
	{
	memset(info, '\0', sizeof(AvbABData));
	memcpy(info->magic, AVB_AB_MAGIC, AVB_AB_MAGIC_LEN);
	info->version_major = AVB_AB_MAJOR_VERSION;
	info->version_minor = AVB_AB_MINOR_VERSION;
	info->slots[0].priority = AVB_AB_MAX_PRIORITY;
	info->slots[0].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
	info->slots[0].successful_boot = 0;
	info->slots[1].priority = AVB_AB_MAX_PRIORITY - 1;
	info->slots[1].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
	info->slots[1].successful_boot = 0;
	}

	void dump_boot_info(AvbABData* info)
	{
	printf("info->magic = %s\n", info->magic);
	printf("info->version_major = %d\n", info->version_major);
	printf("info->version_minor = %d\n", info->version_minor);
	printf("info->slots[0].priority = %d\n", info->slots[0].priority);
	printf("info->slots[0].tries_remaining = %d\n", info->slots[0].tries_remaining);
	printf("info->slots[0].successful_boot = %d\n", info->slots[0].successful_boot);
	printf("info->slots[1].priority = %d\n", info->slots[1].priority);
	printf("info->slots[1].tries_remaining = %d\n", info->slots[1].tries_remaining);
	printf("info->slots[1].successful_boot = %d\n", info->slots[1].successful_boot);

	printf("info->crc32 = %d\n", info->crc32);
	}

	static bool slot_is_bootable(AvbABSlotData* slot) {
	return slot->priority > 0 &&
	(slot->successful_boot \|\| (slot->tries_remaining > 0));
	}

	int get_active_slot(AvbABData* info) {
	if (info->slots[0].priority > info->slots[1].priority)
	return 0;
	else
	return 1;
	}


	int boot_info_set_active_slot(AvbABData* info, int slot)
	{
	unsigned int other_slot_number;

	/* Make requested slot top priority, unsuccessful, and with max tries. */
	info->slots[slot].priority = AVB_AB_MAX_PRIORITY;
	info->slots[slot].tries_remaining = AVB_AB_MAX_TRIES_REMAINING;
	info->slots[slot].successful_boot = 0;

	/* Ensure other slot doesn't have as high a priority. */
	other_slot_number = 1 - slot;
	if (info->slots[other_slot_number].priority == AVB_AB_MAX_PRIORITY) {
	info->slots[other_slot_number].priority = AVB_AB_MAX_PRIORITY - 1;
	}

	dump_boot_info(info);

	return 0;
	}

	int boot_info_open_partition(char *miscbuf)
	{
	char *partition = "misc";
	//int i;
	printf("Start read %s partition datas!\n", partition);
	if (store_read((unsigned char *)partition,
	0, MISCBUF_SIZE, (unsigned char *)miscbuf) < 0) {
	printf("failed to store read %s.\n", partition);
	return -1;
	}

	/*for (i = AB_METADATA_MISC_PARTITION_OFFSET;i < (AB_METADATA_MISC_PARTITION_OFFSET+AVB_AB_DATA_SIZE);i++)
	printf("buf: %c \n", miscbuf[i]);*/
	return 0;
	}

	bool boot_info_load(AvbABData out_info, char miscbuf)
	{
	memcpy(out_info, miscbuf+AB_METADATA_MISC_PARTITION_OFFSET, AVB_AB_DATA_SIZE);
	dump_boot_info(out_info);
	return true;
	}

	bool boot_info_save(AvbABData info, char miscbuf)
	{
	char *partition = "misc";
	printf("save boot-info \n");
	info->crc32 = avb_htobe32(
	avb_crc32((const uint8_t*)info, sizeof(AvbABData) - sizeof(uint32_t)));

	memcpy(miscbuf+AB_METADATA_MISC_PARTITION_OFFSET, info, AVB_AB_DATA_SIZE);
	dump_boot_info(info);
	store_write((unsigned char )partition, 0, MISCBUF_SIZE, (unsigned char )miscbuf);
	return true;
	}

	static int do_GetValidSlot(
	cmd_tbl_t * cmdtp,
	int flag,
	int argc,
	char * const argv[])
	{
	char miscbuf[MISCBUF_SIZE] = {0};
	AvbABData info;
	int slot;
	bool bootable_a, bootable_b;

	if (argc != 1) {
	return cmd_usage(cmdtp);
	}

	boot_info_open_partition(miscbuf);
	boot_info_load(&info, miscbuf);

	if (!boot_info_validate(&info)) {
	printf("boot-info is invalid. Resetting.\n");
	boot_info_reset(&info);
	boot_info_save(&info, miscbuf);
	}

	slot = get_active_slot(&info);
	printf("active slot = %d\n", slot);

	bootable_a = slot_is_bootable(&(info.slots[0]));
	bootable_b = slot_is_bootable(&(info.slots[1]));

	if ((slot == 0) && (bootable_a)) {
	if (has_boot_slot == 1) {
	env_set("active_slot","_a");
	env_set("boot_part","boot_a");
	env_set("slot-suffixes","0");
	}
	else {
	env_set("active_slot","normal");
	env_set("boot_part","boot");
	}
	return 0;
	}

	if ((slot == 1) && (bootable_b)) {
	if (has_boot_slot == 1) {
	env_set("active_slot","_b");
	env_set("boot_part","boot_b");
	env_set("slot-suffixes","1");
	}
	else {
	env_set("active_slot","normal");
	env_set("boot_part","boot");
	}
	return 0;
	}

	return 0;
	}

	static int do_SetActiveSlot(
	cmd_tbl_t * cmdtp,
	int flag,
	int argc,
	char * const argv[])
	{
	char miscbuf[MISCBUF_SIZE] = {0};
	AvbABData info;

	if (argc != 2) {
	return cmd_usage(cmdtp);
	}

	if (has_boot_slot == 0) {
	printf("device is not ab mode\n");
	return -1;
	}

	boot_info_open_partition(miscbuf);
	boot_info_load(&info, miscbuf);

	if (!boot_info_validate(&info)) {
	printf("boot-info is invalid. Resetting.\n");
	boot_info_reset(&info);
	boot_info_save(&info, miscbuf);
	}

	if (strcmp(argv[1], "a") == 0) {
	env_set("active_slot","_a");
	env_set("slot-suffixes","0");
	env_set("boot_part","boot_a");
	printf("set active slot a \n");
	boot_info_set_active_slot(&info, 0);
	} else if (strcmp(argv[1], "b") == 0) {
	env_set("active_slot","_b");
	env_set("slot-suffixes","1");
	env_set("boot_part","boot_b");
	printf("set active slot b \n");
	boot_info_set_active_slot(&info, 1);
	} else {
	printf("error input slot\n");
	return -1;
	}

	boot_info_save(&info, miscbuf);

	return 0;
	}

	int do_GetSystemMode (cmd_tbl_t cmdtp, int flag, int argc, char const argv[])
	{
	char* system;
	#ifdef CONFIG_SYSTEM_AS_ROOT
	system = CONFIG_SYSTEM_AS_ROOT;
	strcpy(system, CONFIG_SYSTEM_AS_ROOT);
	printf("CONFIG_SYSTEM_AS_ROOT: %s \n", CONFIG_SYSTEM_AS_ROOT);
	if (strcmp(system, "systemroot") == 0) {
	env_set("system_mode","1");
	}
	else {
	env_set("system_mode","0");
	}
	#else
	env_set("system_mode","0");
	#endif

	return 0;
	}

	int do_GetAvbMode (cmd_tbl_t cmdtp, int flag, int argc, char const argv[])
	{
	#ifdef CONFIG_AVB2
	char* avbmode;
	avbmode = CONFIG_AVB2;
	strcpy(avbmode, CONFIG_AVB2);
	printf("CONFIG_AVB2: %s \n", CONFIG_AVB2);
	if (strcmp(avbmode, "avb2") == 0) {
	env_set("avb2","1");
	}
	else {
	env_set("avb2","0");
	}
	#else
	env_set("avb2","0");
	#endif

	return 0;
	}


	#endif /* CONFIG_BOOTLOADER_CONTROL_BLOCK */

	U_BOOT_CMD(
	get_valid_slot, 2, 0, do_GetValidSlot,
	"get_valid_slot",
	"\nThis command will choose valid slot to boot up which saved in misc\n"
	"partition by mark to decide whether execute command!\n"
	"So you can execute command: get_valid_slot"
	);

	U_BOOT_CMD(
	set_active_slot, 2, 1, do_SetActiveSlot,
	"set_active_slot",
	"\nThis command will set active slot\n"
	"So you can execute command: set_active_slot a"
	);

	U_BOOT_CMD(
	get_system_as_root_mode, 1, 0, do_GetSystemMode,
	"get_system_as_root_mode",
	"\nThis command will get system_as_root_mode\n"
	"So you can execute command: get_system_as_root_mode"
	);

	U_BOOT_CMD(
	get_avb_mode, 1, 0, do_GetAvbMode,
	"get_avb_mode",
	"\nThis command will get avb mode\n"
	"So you can execute command: get_avb_mode"
	);