doc/README.mxc_hab - github/trini/u-boot - Gitiles

 High Assurance Boot (HAB) for i.MX6 CPUs

 To enable the authenticated or encrypted boot mode of U-Boot, it is
 required to set the proper configuration for the target board. This
 is done by adding the following configuration in in the proper config
 file (e.g. include/configs/mx6qarm2.h)

 #define CONFIG_SECURE_BOOT

 In addition, the U-Boot image to be programmed into the
 boot media needs to be properly constructed, i.e. it must contain a
 proper Command Sequence File (CSF).

 The Initial Vector Table contains a pointer to the CSF. Please see
 doc/README.imximage for how to prepare u-boot.imx.

 The CSF itself is being generated by Freescale HAB tools.

 mkimage will output additional information about "HAB Blocks"
 which can be used in the Freescale tooling to authenticate U-Boot
 (entries in the CSF file).

 Image Type:   Freescale IMX Boot Image
 Image Ver:    2 (i.MX53/6 compatible)
 Data Size:    327680 Bytes = 320.00 kB = 0.31 MB
 Load Address: 177ff420
 Entry Point:  17800000
 HAB Blocks:   177ff400 00000000 0004dc00
 	      ^^^^^^^^ ^^^^^^^^ ^^^^^^^^
 		|	|	   |
 		|	|	   -------- (1)
 		|	|
 		|	------------------- (2)
 		|
 		--------------------------- (3)

 (1)	Size of area in file u-boot.imx to sign
 	This area should include the IVT, the Boot Data the DCD
 	and U-Boot itself.
 (2)	Start of area in u-boot.imx to sign
 (3)	Start of area in RAM to authenticate

 CONFIG_SECURE_BOOT currently enables only an additional command
 'hab_status' in U-Boot to retrieve the HAB status and events. This
 can be useful while developing and testing HAB.

 Commands to generate a signed U-Boot using Freescale HAB tools:
 cst --o U-Boot_CSF.bin < U-Boot.CSF
 objcopy -I binary -O binary --pad-to 0x2000 --gap-fill=0x00 \
 	U-Boot_CSF.bin U-Boot_CSF_pad.bin
 cat u-boot.imx U-Boot_CSF_pad.bin > u-boot-signed.imx

 NOTE: U-Boot_CSF.bin needs to be padded to the value specified in
 the imximage.cfg file.

 Setup U-Boot Image for Encrypted Boot
 -------------------------------------
 An authenticated U-Boot image is used as starting point for
 Encrypted Boot. The image is encrypted by Freescale's Code
 Signing Tool (CST). The CST replaces only the image data of
 u-boot.imx with the encrypted data. The Initial Vector Table,
 DCD, and Boot data, remains in plaintext.

 The image data is encrypted with a Encryption Key (DEK).
 Therefore, this key is needed to decrypt the data during the
 booting process. The DEK is protected by wrapping it in a Blob,
 which needs to be appended to the U-Boot image and specified in
 the CSF file.

 The DEK blob is generated by an authenticated U-Boot image with
 the dek_blob cmd enabled. The image used for DEK blob generation
 needs to have the following configurations enabled:

 CONFIG_SECURE_BOOT
 CONFIG_SYS_FSL_SEC_COMPAT    4 /* HAB version */
 CONFIG_FSL_CAAM
 CONFIG_CMD_DEKBLOB
 CONFIG_SYS_FSL_SEC_LE

 Note: The encrypted boot feature is only supported by HABv4 or
 greater.

 The dek_blob command then can be used to generate the DEK blob of
 a DEK previously loaded in memory. The command is used as follows:

 dek_blob <DEK address> <Output Address> <Key Size in Bits>
 example: dek_blob 0x10800000 0x10801000 192

 The resulting DEK blob then is used to construct the encrypted
 U-Boot image. Note that the blob needs to be transferred back
 to the host.Then the following commands are used to construct
 the final image.

 objcopy -I binary -O binary --pad-to 0x2000 --gap-fill=0x00 \
     U-Boot_CSF.bin U-Boot_CSF_pad.bin
 cat u-boot.imx U-Boot_CSF_pad.bin > u-boot-signed.imx
 objcopy -I binary -O binary --pad-to <blob_dst> --gap-fill=0x00 \
     u-boot-signed.imx u-boot-signed-pad.bin
 cat u-boot-signed-pad.imx DEK_blob.bin > u-boot-encrypted.imx

     NOTE: u-boot-signed.bin needs to be padded to the value
     equivalent to the address in which the DEK blob is specified
     in the CSF.
	High Assurance Boot (HAB) for i.MX6 CPUs

	To enable the authenticated or encrypted boot mode of U-Boot, it is
	required to set the proper configuration for the target board. This
	is done by adding the following configuration in in the proper config
	file (e.g. include/configs/mx6qarm2.h)

	#define CONFIG_SECURE_BOOT

	In addition, the U-Boot image to be programmed into the
	boot media needs to be properly constructed, i.e. it must contain a
	proper Command Sequence File (CSF).

	The Initial Vector Table contains a pointer to the CSF. Please see
	doc/README.imximage for how to prepare u-boot.imx.

	The CSF itself is being generated by Freescale HAB tools.

	mkimage will output additional information about "HAB Blocks"
	which can be used in the Freescale tooling to authenticate U-Boot
	(entries in the CSF file).

	Image Type: Freescale IMX Boot Image
	Image Ver: 2 (i.MX53/6 compatible)
	Data Size: 327680 Bytes = 320.00 kB = 0.31 MB
	Load Address: 177ff420
	Entry Point: 17800000
	HAB Blocks: 177ff400 00000000 0004dc00
	^^^^^^^^ ^^^^^^^^ ^^^^^^^^
	\| \| \|
	\| \| -------- (1)
	\| \|
	\| ------------------- (2)
	\|
	--------------------------- (3)

	(1) Size of area in file u-boot.imx to sign
	This area should include the IVT, the Boot Data the DCD
	and U-Boot itself.
	(2) Start of area in u-boot.imx to sign
	(3) Start of area in RAM to authenticate

	CONFIG_SECURE_BOOT currently enables only an additional command
	'hab_status' in U-Boot to retrieve the HAB status and events. This
	can be useful while developing and testing HAB.

	Commands to generate a signed U-Boot using Freescale HAB tools:
	cst --o U-Boot_CSF.bin < U-Boot.CSF
	objcopy -I binary -O binary --pad-to 0x2000 --gap-fill=0x00 \
	U-Boot_CSF.bin U-Boot_CSF_pad.bin
	cat u-boot.imx U-Boot_CSF_pad.bin > u-boot-signed.imx

	NOTE: U-Boot_CSF.bin needs to be padded to the value specified in
	the imximage.cfg file.

	Setup U-Boot Image for Encrypted Boot
	-------------------------------------
	An authenticated U-Boot image is used as starting point for
	Encrypted Boot. The image is encrypted by Freescale's Code
	Signing Tool (CST). The CST replaces only the image data of
	u-boot.imx with the encrypted data. The Initial Vector Table,
	DCD, and Boot data, remains in plaintext.

	The image data is encrypted with a Encryption Key (DEK).
	Therefore, this key is needed to decrypt the data during the
	booting process. The DEK is protected by wrapping it in a Blob,
	which needs to be appended to the U-Boot image and specified in
	the CSF file.

	The DEK blob is generated by an authenticated U-Boot image with
	the dek_blob cmd enabled. The image used for DEK blob generation
	needs to have the following configurations enabled:

	CONFIG_SECURE_BOOT
	CONFIG_SYS_FSL_SEC_COMPAT 4 /* HAB version */
	CONFIG_FSL_CAAM
	CONFIG_CMD_DEKBLOB
	CONFIG_SYS_FSL_SEC_LE

	Note: The encrypted boot feature is only supported by HABv4 or
	greater.

	The dek_blob command then can be used to generate the DEK blob of
	a DEK previously loaded in memory. The command is used as follows:

	dek_blob <DEK address> <Output Address> <Key Size in Bits>
	example: dek_blob 0x10800000 0x10801000 192

	The resulting DEK blob then is used to construct the encrypted
	U-Boot image. Note that the blob needs to be transferred back
	to the host.Then the following commands are used to construct
	the final image.

	objcopy -I binary -O binary --pad-to 0x2000 --gap-fill=0x00 \
	U-Boot_CSF.bin U-Boot_CSF_pad.bin
	cat u-boot.imx U-Boot_CSF_pad.bin > u-boot-signed.imx
	objcopy -I binary -O binary --pad-to <blob_dst> --gap-fill=0x00 \
	u-boot-signed.imx u-boot-signed-pad.bin
	cat u-boot-signed-pad.imx DEK_blob.bin > u-boot-encrypted.imx

	NOTE: u-boot-signed.bin needs to be padded to the value
	equivalent to the address in which the DEK blob is specified
	in the CSF.