README - platform/external/avb - Gitiles

 This directory contains avbtool, libavb, and libavb_ab.

 The main job of avbtool is to create vbmeta.img which is the
 top-level object for verified boot. This image is designed to go into
 the vbmeta partition (or, if using A/B, the slot in question
 e.g. vbmeta_a or vbmeta_b) and be of minimal size (for out-of-band
 updates). The vbmeta image is cryptographically signed and contains
 verification data (e.g. cryptographic digests) for verifying boot.img,
 system.img, and other partitions/images.

 The vbmeta image can also contain references to other partitions where
 verification data is stored as well as a public key indicating who
 should sign the verification data. This indirection provides
 delegation, that is, it allows a 3rd party to control content on a given
 partition by including the public key said 3rd party is using to sign
 the data with, in vbmeta.img. By design, this authority can be easily
 revoked by simply updating vbmeta.img with new descriptors for the
 partition in question.

 Storing signed verification data on other images - for example
 boot.img and system.img - is also done with avbtool.

 In addition to avbtool, a library - libavb - is provided. This library
 performs all verification on the device side e.g. it starts by loading
 the vbmeta partition, checks the signature, and then goes on to load
 the boot partition for verification.

 The libavb library is intended to be used in both boot loaders and
 inside Android. It has a simple abstraction for system dependencies
 (see libavb/avb_sysdeps.h) as well as operations that the boot loader
 or OS is expected to implement (see libavb/avb_ops.h). The main entry
 point for verification is avb_slot_verify().

 It is expected that most devices will use A/B (e.g. multiple copies of
 the OS in separate so-called 'slots') in addition to AVB. While
 managing A/B metadata and associated metadata (e.g. managing
 stored_rollback_index[n] locations) is outside the scope of libavb,
 enough interfaces are exposed so the boot loader can integrate its A/B
 stack with libavb. In particular avb_slot_verify() takes a
 |slot_suffix| parameter and its result struct |AvbSlotVerifyData|
 convey the rollback indexes in the image that was verified.

 AVB also includes an A/B implementation that boot loaders may
 optionally use. This implementation is in the libavb_ab library and
 integrates with image verification including updating the
 stored_rollback_index[n] locations on the device as needed. The
 bootloader can use this through the avb_ab_flow() function. This
 library is built on top of libavb.

 In libavb_ab, A/B metadata is stored in the 'misc' partition using a
 format private to libavb_ab in the location on 'misc' reserved for
 this. For more information about the misc.img file format see the
 bootable/recovery/bootloader.h file. A/B metadata can be written to
 misc.img using the set_ab_metadata sub-command of avbtool. A/B
 metadata is comprised of (for each slot) a priority field (0 to 15),
 number of tries remaining for attempting to boot the slot (0 to 7),
 and a flag to indicate whether the slot has successfully booted.

 A/B metadata integrity is provided by a simple magic marker and a
 CRC-32 checksum. If invalid A/B metadata is detected, the behavior is
 to reset the A/B metadata to a known state where both slots are given
 seven boot tries.

 An implementation of a boot_control HAL using AVB-specific A/B
 metadata is also provided.

 -- FILES AND DIRECTORIES

  libavb/

    An implementation of image verification. This code is designed to
    be highly portable so it can be used in as many contexts as
    possible. This code requires a C99-compliant C compiler.

    Part of this code is considered internal to the implementation and
    should not be used outside it. For example, this applies to the
    avb_rsa.[ch] and avb_sha.[ch] files.

    System dependencies expected to be provided by the platform is
    defined in avb_sysdeps.h. If the platform provides the standard C
    runtime avb_sysdeps_posix.c can be used.

  libavb_ab/

    An A/B implementation for use in boot loaders. This is built on top
    of libavb.


  boot_control/

    An implemementation of the Android boot_control HAL for use with
    boot loaders using libavb_ab.

  Android.mk

    Build instructions for building libavb (a static library for use on
    the device), host-side libraries (for unit tests), and unit tests.

  avbtool

    A tool written in Python for working with images related to
    verified boot.

  test/

    Contains unit tests for abvtool, libavb, and libavb_ab.

 -- AUDIENCE AND PORTABILITY NOTES

 This code is intended to be used in bootloaders in devices running
 Android. The suggested approach is to copy the appropriate header and
 C files mentioned in the previous section into the boot loader and
 integrate as appropriate.

 The libavb/ and libavb_ab/ codebase will evolve over time so
 integration should be as non-invasive as possible. The intention is to
 keep the API of the library stable however it will be broken if
 necessary.

 As for portability, the library is intended to be highly portable,
 work on both little- and big-endian architectures and 32- and
 64-bit. It's also intended to work in non-standard environments
 without the standard C library and runtime.

 If the AVB_ENABLE_DEBUG preprocessor symbol is set, the code will
 include useful debug information and run-time checks. Production
 builds should not use this.

 The preprocessor symbol AVB_COMPILATION should be set only when
 compiling the libraries. The code must be compiled into a separate
 libraries.

 Applications using the compiled libavb library must only include the
 libavb/libavb.h file (which will include all public interfaces) and
 must not have the AVB_COMPILATION preprocessor symbol set. This is to
 ensure that internal code that may be change in the future (for
 example avb_sha.[ch] and avb_rsa.[ch]) will not be visible to
 application code.

 Applications using the compiled libavb_ab library must only include
 the libavb_ab/libavb_ab.h file for similar reasons.

 -- COMPATIBILITY NOTES

 The VBMeta structure (as defined in libavb/avb_vbmeta_header.h)
 guarantees forwards- and backwards-compatibility provided the major
 version does not change.

 When backwards-compatible changes are made - for example, when a new
 field is added to AvbVBMetaImageHeader - the minor version will be
 bumped. At the same time, libavb will also be modified to test for the
 appropriate minor version before attempting to access the newly added
 field. This ensures that version 1.N of the library is able to read an
 old vbmeta image header produced with version 1.M where N > M.

 The usual scenario is that the code parsing the AvbVBMetaImageHeader
 rarely changes (it's usually in the firmware of a device and this
 firmware is rarely updated if ever), let's say it's fixed at version
 1.N. At the same time, the version of the avbtool used to produce the
 vbmeta image is rolling forward and is at version 1.M where M > N. The
 problem with this scenario is that version 1.M may easily and
 inadvertently introduce a seemingly compatible change that isn't. For
 example, consider if a new verification algorithm is added - in this
 case version 1.N of the reference implementation will fail at
 verification time when validating the |algorithm_field| of a 1.M image
 if it's set to the new algorithm.

 The best approach for dealing with this problem is to always used a
 pinned version of avbtool (say, use version 1.N to generate images
 targeted for devices running version 1.N) for generating and signing
 images but sometimes this is not always possible nor
 desirable. Therefore, to avoid this compatibility problem, avbtool is
 designed to always take such input as a command-line argument so it
 can be kept constant by the caller. In other words, as long as you
 keep your command-line options passed to the avb tool the same, images
 produced by newer versions of avb will continue to work on the same
 version of the reference implementation.

 -- USAGE

 The content for the vbmeta partition can be generated as follows:

  $ avbtool make_vbmeta_image                                                \
      --output OUTPUT                                                        \
      [--algorithm ALGORITHM] [--key /path/to/key_used_for_signing]          \
      [--public_key_metadata /path/to/pkmd.bin] [--rollback_index NUMBER]    \
      [--include_descriptors_from_footer /path/to/image.bin]                 \
      [--generate_dm_verity_cmdline_from_footer /path/to/image.bin]          \
      [--chain_partition part_name:rollback_index_location:/path/to/key1.bin]

 An integrity footer containing the hash for an entire partition can be
 added to an existing image as follows:

  $ avbtool add_hash_footer                                               \
      --image IMAGE                                                       \
      --partition_name PARTNAME --partition_size SIZE                     \
      [--algorithm ALGORITHM] [--key /path/to/key_used_for_signing]       \
      [--public_key_metadata /path/to/pkmd.bin] [--rollback_index NUMBER] \
      [--hash_algorithm HASH_ALG] [--salt HEX]                            \
      [--include_descriptors_from_footer /path/to/image.bin]              \
      [--generate_dm_verity_cmdline_from_footer /path/to/image.bin]

 An integrity footer containing the root digest and salt for a hashtree
 for a partition can be added to an existing image as follows. The
 hashtree is also appended to the image.

   $ avbtool add_hashtree_footer                                          \
      --image IMAGE                                                       \
      --partition_name PARTNAME --partition_size SIZE                     \
      [--algorithm ALGORITHM] [--key /path/to/key_used_for_signing]       \
      [--public_key_metadata /path/to/pkmd.bin] [--rollback_index NUMBER] \
      [--hash_algorithm HASH_ALG] [--salt HEX] [--block_size SIZE]        \
      [--include_descriptors_from_footer /path/to/image.bin]              \
      [--generate_dm_verity_cmdline_from_footer /path/to/image.bin]

 The integrity footer on an image can be removed from an image. The
 hashtree can optionally be kept in place.

   $ avbtool erase_footer --image IMAGE [--keep_hashtree]

 To calculate the maximum size of an image that will fit in a partition
 of a given size after having used the 'avbtool add_hashtree_footer'
 command on it, use the --calc_max_image_size option:

   $ avbtool add_hashtree_footer --partition_size $((10*1024*1024)) \
      --calc_max_image_size
   10330112

 -- BUILD SYSTEM INTEGRATION NOTES

 Android Verified Boot is enabled by the BOARD_AVB_ENABLE variable

  BOARD_AVB_ENABLE := true

 This will make the build system create vbmeta.img which will contain a
 hash descriptor for boot.img, a hashtree descriptor for system.img, a
 kernel-cmdline descriptor for setting up dm-verity for system.img and
 append a hash-tree to system.img.

 By default, the algorithm SHA256_RSA4096 is used with a test key from
 this directory. This can be overriden by the BOARD_AVB_ALGORITHM and
 BOARD_AVB_KEY_PATH variables to use e.g. a 4096-bit RSA key and
 SHA-512:

  BOARD_AVB_ALGORITHM := SHA512_RSA4096
  BOARD_AVB_KEY_PATH := /path/to/rsa_key_4096bits.pem

 Remember that the public part of this key needs to be available to the
 bootloader of the device expected to verify resulting images. Use
 'avbtool extract_public_key' to extract the key in the expected format
 ("AVB_pk" in the following). If the device is using a different root
 of trust than AVB_pk the --public_key_metadata option can be used to
 embed a blob ("AVB_pkmd" in the following) that can be used to
 e.g. derive AVB_pk. Both AVB_pk and AVB_pkmd is passed to the
 bootloader for validation as part of verifying a slot.

 To prevent rollback attakcs, the rollback index should be increased on
 a regular basis. The rollback index can be set with the
 BOARD_AVB_ROLLBACK_INDEX variable:

  BOARD_AVB_ROLLBACK_INDEX := 5

 If this is not set, the rollback index defaults to 0.

 The variable BOARD_AVB_MAKE_VBMETA_IMAGE_ARGS can be used to specify
 additional options passed to 'avbtool make_vbmeta_image'. Typical
 options to be used here include '--prop', '--prop_from_file', and
 '--chain_partition'.

 The variable BOARD_AVBTOOL_BOOT_ADD_HASH_FOOTER_ARGS can be used to
 specify additional options passed to 'avbtool add_hash_footer' for
 boot.img. Typical options to be used here include '--hash_algorithm'
 and '--salt'.

 The variable BOARD_AVBTOOL_SYSTEM_ADD_HASHTREE_FOOTER_ARGS can be used
 to specify additional options passed to 'avbtool add_hashtree_footer'
 for systems.img. Typical options to be used here include
 '--hash_algorithm', '--salt', and '--block_size'.
	This directory contains avbtool, libavb, and libavb_ab.

	The main job of avbtool is to create vbmeta.img which is the
	top-level object for verified boot. This image is designed to go into
	the vbmeta partition (or, if using A/B, the slot in question
	e.g. vbmeta_a or vbmeta_b) and be of minimal size (for out-of-band
	updates). The vbmeta image is cryptographically signed and contains
	verification data (e.g. cryptographic digests) for verifying boot.img,
	system.img, and other partitions/images.

	The vbmeta image can also contain references to other partitions where
	verification data is stored as well as a public key indicating who
	should sign the verification data. This indirection provides
	delegation, that is, it allows a 3rd party to control content on a given
	partition by including the public key said 3rd party is using to sign
	the data with, in vbmeta.img. By design, this authority can be easily
	revoked by simply updating vbmeta.img with new descriptors for the
	partition in question.

	Storing signed verification data on other images - for example
	boot.img and system.img - is also done with avbtool.

	In addition to avbtool, a library - libavb - is provided. This library
	performs all verification on the device side e.g. it starts by loading
	the vbmeta partition, checks the signature, and then goes on to load
	the boot partition for verification.

	The libavb library is intended to be used in both boot loaders and
	inside Android. It has a simple abstraction for system dependencies
	(see libavb/avb_sysdeps.h) as well as operations that the boot loader
	or OS is expected to implement (see libavb/avb_ops.h). The main entry
	point for verification is avb_slot_verify().

	It is expected that most devices will use A/B (e.g. multiple copies of
	the OS in separate so-called 'slots') in addition to AVB. While
	managing A/B metadata and associated metadata (e.g. managing
	stored_rollback_index[n] locations) is outside the scope of libavb,
	enough interfaces are exposed so the boot loader can integrate its A/B
	stack with libavb. In particular avb_slot_verify() takes a
	\|slot_suffix\| parameter and its result struct \|AvbSlotVerifyData\|
	convey the rollback indexes in the image that was verified.

	AVB also includes an A/B implementation that boot loaders may
	optionally use. This implementation is in the libavb_ab library and
	integrates with image verification including updating the
	stored_rollback_index[n] locations on the device as needed. The
	bootloader can use this through the avb_ab_flow() function. This
	library is built on top of libavb.

	In libavb_ab, A/B metadata is stored in the 'misc' partition using a
	format private to libavb_ab in the location on 'misc' reserved for
	this. For more information about the misc.img file format see the
	bootable/recovery/bootloader.h file. A/B metadata can be written to
	misc.img using the set_ab_metadata sub-command of avbtool. A/B
	metadata is comprised of (for each slot) a priority field (0 to 15),
	number of tries remaining for attempting to boot the slot (0 to 7),
	and a flag to indicate whether the slot has successfully booted.

	A/B metadata integrity is provided by a simple magic marker and a
	CRC-32 checksum. If invalid A/B metadata is detected, the behavior is
	to reset the A/B metadata to a known state where both slots are given
	seven boot tries.

	An implementation of a boot_control HAL using AVB-specific A/B
	metadata is also provided.

	-- FILES AND DIRECTORIES

	libavb/

	An implementation of image verification. This code is designed to
	be highly portable so it can be used in as many contexts as
	possible. This code requires a C99-compliant C compiler.

	Part of this code is considered internal to the implementation and
	should not be used outside it. For example, this applies to the
	avb_rsa.[ch] and avb_sha.[ch] files.

	System dependencies expected to be provided by the platform is
	defined in avb_sysdeps.h. If the platform provides the standard C
	runtime avb_sysdeps_posix.c can be used.

	libavb_ab/

	An A/B implementation for use in boot loaders. This is built on top
	of libavb.


	boot_control/

	An implemementation of the Android boot_control HAL for use with
	boot loaders using libavb_ab.

	Android.mk

	Build instructions for building libavb (a static library for use on
	the device), host-side libraries (for unit tests), and unit tests.

	avbtool

	A tool written in Python for working with images related to
	verified boot.

	test/

	Contains unit tests for abvtool, libavb, and libavb_ab.

	-- AUDIENCE AND PORTABILITY NOTES

	This code is intended to be used in bootloaders in devices running
	Android. The suggested approach is to copy the appropriate header and
	C files mentioned in the previous section into the boot loader and
	integrate as appropriate.

	The libavb/ and libavb_ab/ codebase will evolve over time so
	integration should be as non-invasive as possible. The intention is to
	keep the API of the library stable however it will be broken if
	necessary.

	As for portability, the library is intended to be highly portable,
	work on both little- and big-endian architectures and 32- and
	64-bit. It's also intended to work in non-standard environments
	without the standard C library and runtime.

	If the AVB_ENABLE_DEBUG preprocessor symbol is set, the code will
	include useful debug information and run-time checks. Production
	builds should not use this.

	The preprocessor symbol AVB_COMPILATION should be set only when
	compiling the libraries. The code must be compiled into a separate
	libraries.

	Applications using the compiled libavb library must only include the
	libavb/libavb.h file (which will include all public interfaces) and
	must not have the AVB_COMPILATION preprocessor symbol set. This is to
	ensure that internal code that may be change in the future (for
	example avb_sha.[ch] and avb_rsa.[ch]) will not be visible to
	application code.

	Applications using the compiled libavb_ab library must only include
	the libavb_ab/libavb_ab.h file for similar reasons.

	-- COMPATIBILITY NOTES

	The VBMeta structure (as defined in libavb/avb_vbmeta_header.h)
	guarantees forwards- and backwards-compatibility provided the major
	version does not change.

	When backwards-compatible changes are made - for example, when a new
	field is added to AvbVBMetaImageHeader - the minor version will be
	bumped. At the same time, libavb will also be modified to test for the
	appropriate minor version before attempting to access the newly added
	field. This ensures that version 1.N of the library is able to read an
	old vbmeta image header produced with version 1.M where N > M.

	The usual scenario is that the code parsing the AvbVBMetaImageHeader
	rarely changes (it's usually in the firmware of a device and this
	firmware is rarely updated if ever), let's say it's fixed at version
	1.N. At the same time, the version of the avbtool used to produce the
	vbmeta image is rolling forward and is at version 1.M where M > N. The
	problem with this scenario is that version 1.M may easily and
	inadvertently introduce a seemingly compatible change that isn't. For
	example, consider if a new verification algorithm is added - in this
	case version 1.N of the reference implementation will fail at
	verification time when validating the \|algorithm_field\| of a 1.M image
	if it's set to the new algorithm.

	The best approach for dealing with this problem is to always used a
	pinned version of avbtool (say, use version 1.N to generate images
	targeted for devices running version 1.N) for generating and signing
	images but sometimes this is not always possible nor
	desirable. Therefore, to avoid this compatibility problem, avbtool is
	designed to always take such input as a command-line argument so it
	can be kept constant by the caller. In other words, as long as you
	keep your command-line options passed to the avb tool the same, images
	produced by newer versions of avb will continue to work on the same
	version of the reference implementation.

	-- USAGE

	The content for the vbmeta partition can be generated as follows:

	$ avbtool make_vbmeta_image \
	--output OUTPUT \
	[--algorithm ALGORITHM] [--key /path/to/key_used_for_signing] \
	[--public_key_metadata /path/to/pkmd.bin] [--rollback_index NUMBER] \
	[--include_descriptors_from_footer /path/to/image.bin] \
	[--generate_dm_verity_cmdline_from_footer /path/to/image.bin] \
	[--chain_partition part_name:rollback_index_location:/path/to/key1.bin]

	An integrity footer containing the hash for an entire partition can be
	added to an existing image as follows:

	$ avbtool add_hash_footer \
	--image IMAGE \
	--partition_name PARTNAME --partition_size SIZE \
	[--algorithm ALGORITHM] [--key /path/to/key_used_for_signing] \
	[--public_key_metadata /path/to/pkmd.bin] [--rollback_index NUMBER] \
	[--hash_algorithm HASH_ALG] [--salt HEX] \
	[--include_descriptors_from_footer /path/to/image.bin] \
	[--generate_dm_verity_cmdline_from_footer /path/to/image.bin]

	An integrity footer containing the root digest and salt for a hashtree
	for a partition can be added to an existing image as follows. The
	hashtree is also appended to the image.

	$ avbtool add_hashtree_footer \
	--image IMAGE \
	--partition_name PARTNAME --partition_size SIZE \
	[--algorithm ALGORITHM] [--key /path/to/key_used_for_signing] \
	[--public_key_metadata /path/to/pkmd.bin] [--rollback_index NUMBER] \
	[--hash_algorithm HASH_ALG] [--salt HEX] [--block_size SIZE] \
	[--include_descriptors_from_footer /path/to/image.bin] \
	[--generate_dm_verity_cmdline_from_footer /path/to/image.bin]

	The integrity footer on an image can be removed from an image. The
	hashtree can optionally be kept in place.

	$ avbtool erase_footer --image IMAGE [--keep_hashtree]

	To calculate the maximum size of an image that will fit in a partition
	of a given size after having used the 'avbtool add_hashtree_footer'
	command on it, use the --calc_max_image_size option:

	$ avbtool add_hashtree_footer --partition_size $((1010241024)) \
	--calc_max_image_size
	10330112

	-- BUILD SYSTEM INTEGRATION NOTES

	Android Verified Boot is enabled by the BOARD_AVB_ENABLE variable

	BOARD_AVB_ENABLE := true

	This will make the build system create vbmeta.img which will contain a
	hash descriptor for boot.img, a hashtree descriptor for system.img, a
	kernel-cmdline descriptor for setting up dm-verity for system.img and
	append a hash-tree to system.img.

	By default, the algorithm SHA256_RSA4096 is used with a test key from
	this directory. This can be overriden by the BOARD_AVB_ALGORITHM and
	BOARD_AVB_KEY_PATH variables to use e.g. a 4096-bit RSA key and
	SHA-512:

	BOARD_AVB_ALGORITHM := SHA512_RSA4096
	BOARD_AVB_KEY_PATH := /path/to/rsa_key_4096bits.pem

	Remember that the public part of this key needs to be available to the
	bootloader of the device expected to verify resulting images. Use
	'avbtool extract_public_key' to extract the key in the expected format
	("AVB_pk" in the following). If the device is using a different root
	of trust than AVB_pk the --public_key_metadata option can be used to
	embed a blob ("AVB_pkmd" in the following) that can be used to
	e.g. derive AVB_pk. Both AVB_pk and AVB_pkmd is passed to the
	bootloader for validation as part of verifying a slot.

	To prevent rollback attakcs, the rollback index should be increased on
	a regular basis. The rollback index can be set with the
	BOARD_AVB_ROLLBACK_INDEX variable:

	BOARD_AVB_ROLLBACK_INDEX := 5

	If this is not set, the rollback index defaults to 0.

	The variable BOARD_AVB_MAKE_VBMETA_IMAGE_ARGS can be used to specify
	additional options passed to 'avbtool make_vbmeta_image'. Typical
	options to be used here include '--prop', '--prop_from_file', and
	'--chain_partition'.

	The variable BOARD_AVBTOOL_BOOT_ADD_HASH_FOOTER_ARGS can be used to
	specify additional options passed to 'avbtool add_hash_footer' for
	boot.img. Typical options to be used here include '--hash_algorithm'
	and '--salt'.

	The variable BOARD_AVBTOOL_SYSTEM_ADD_HASHTREE_FOOTER_ARGS can be used
	to specify additional options passed to 'avbtool add_hashtree_footer'
	for systems.img. Typical options to be used here include
	'--hash_algorithm', '--salt', and '--block_size'.