_vboot_reference/firmware/lib21/include/vb2_struct.h - chromiumos/platform/vboot - Git at Google

 /* Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  *
  * Vboot 2.1 data structures
  *
  * Offsets should be padded to 32-bit boundaries, since some architectures
  * have trouble with accessing unaligned integers.
  */

 #ifndef VBOOT_REFERENCE_VB2_STRUCT_H_
 #define VBOOT_REFERENCE_VB2_STRUCT_H_
 #include <stdint.h>

 #include "2id.h"

 /*
  * Magic numbers used by vb2_struct_common.magic.
  *
  * All valid numbers should be listed here to avoid accidental overlap.
  * Numbers start at a large value, so that previous parsers (which stored
  * things like lengths and offsets at that field) will detect and reject new
  * structs as invalid.
  */
 enum vb2_struct_common_magic {
 	/* "Vb2B" = vb2_keyblock.c.magic */
 	VB2_MAGIC_KEYBLOCK		= 0x42326256,

 	/* "Vb2F" = vb2_fw_preamble.c.magic */
 	VB2_MAGIC_FW_PREAMBLE		= 0x46326256,

 	/* "Vb2I" = vb2_packed_private_key.c.magic */
 	VB2_MAGIC_PACKED_PRIVATE_KEY	= 0x49326256,

 	/* "Vb2K" = vb2_kernel_preamble.c.magic */
 	VB2_MAGIC_KERNEL_PREAMBLE	= 0x4b326256,

 	/* "Vb2P" = vb2_packed_key.c.magic */
 	VB2_MAGIC_PACKED_KEY		= 0x50326256,

 	/* "Vb2S" = vb2_signature.c.magic */
 	VB2_MAGIC_SIGNATURE		= 0x53326256,
 };


 /*
  * Generic struct header for all vboot2 structs.  This makes it easy to
  * automatically parse and identify vboot structs (e.g., in futility).  This
  * must be the first member of the parent vboot2 struct.
  */
 struct vb2_struct_common {
 	/* Magic number; see vb2_struct_common_magic for expected values */
 	uint32_t magic;

 	/*
 	 * Parent struct version; see each struct for the expected value.
 	 *
 	 * How to handle struct version mismatches, if the parser is version
 	 * A.b and the data is version C.d:
 	 *     1) If A.b == C.d, we're good.
 	 *     2) If A != C, the data cannot be parsed at all.
 	 *     3) If b < d, C.d is a newer version of data which is backwards-
 	 *        compatible to old parsers.  We're good.
 	 *     4) If b > d, C.d is an older version of data.  The parser should
 	 *        use default values for fields added after version d.  We're
 	 *        good.
 	 *
 	 * Struct versions start at 3.0, since the highest version of the old
 	 * structures was 2.1.  This way, there is no possibility of collision
 	 * for old code which depends on the version number.
 	 */
 	uint16_t struct_version_major;
 	uint16_t struct_version_minor;

 	/*
 	 * Size of the parent structure and all its data, including the
 	 * description and any necessary padding.  That is, all data must lie
 	 * in a contiguous region of <total_size> bytes starting at the first
 	 * byte of this header.
 	 */
 	uint32_t total_size;

 	/*
 	 * Size of the fixed portion of the parent structure.  If a description
 	 * is present, it must start at this offset.
 	 */
 	uint32_t fixed_size;

 	/*
 	 * The object may contain an ASCII description following the fixed
 	 * portion of the structure.  If it is present, it must be
 	 * null-terminated, and padded with 0 (null) bytes to a multiple of 32
 	 * bits.
 	 *
 	 * Size of ASCII description in bytes, counting null terminator and
 	 * padding (if any).  Set 0 if no description is present.  If non-zero,
 	 * there must be a null terminator (0) at offset (fixed_size +
 	 * desc_size - 1).
 	 */
 	uint32_t desc_size;
 } __attribute__((packed));

 #define EXPECTED_VB2_STRUCT_COMMON_SIZE 20

 /* Current version of vb2_packed_key struct */
 #define VB2_PACKED_KEY_VERSION_MAJOR 3
 #define VB2_PACKED_KEY_VERSION_MINOR 0

 /*
  * Packed public key data
  *
  * The key data must be arranged like this:
  *     1) vb2_packed_key header struct h
  *     2) Key description (pointed to by h.c.fixed_size)
  *     3) Key data key (pointed to by h.key_offset)
  */
 struct vb2_packed_key {
 	/* Common header fields */
 	struct vb2_struct_common c;

 	/* Offset of key data from start of this struct */
 	uint32_t key_offset;

 	/* Size of key data in bytes (NOT strength of key in bits) */
 	uint32_t key_size;

 	/* Signature algorithm used by the key (enum vb2_signature_algorithm) */
 	uint16_t sig_alg;

 	/*
 	 * Hash digest algorithm used with the key (enum vb2_hash_algorithm).
 	 * This is explicitly specified as part of the key to prevent use of a
 	 * strong key with a weak hash.
 	 */
 	uint16_t hash_alg;

 	/* Key version */
 	uint32_t key_version;

 	/* Key ID */
 	struct vb2_id id;
 } __attribute__((packed));

 #define EXPECTED_VB2_PACKED_KEY_SIZE					\
 	(EXPECTED_VB2_STRUCT_COMMON_SIZE + 16 + EXPECTED_ID_SIZE)

 /* Current version of vb2_packed_private_key struct */
 #define VB2_PACKED_PRIVATE_KEY_VERSION_MAJOR 3
 #define VB2_PACKED_PRIVATE_KEY_VERSION_MINOR 0

 /*
  * Packed private key data
  *
  * The key data must be arranged like this:
  *     1) vb2_packed_private_key header struct h
  *     2) Key description (pointed to by h.c.fixed_size)
  *     3) Key data key (pointed to by h.key_offset)
  */
 struct vb2_packed_private_key {
 	/* Common header fields */
 	struct vb2_struct_common c;

 	/* Offset of key data from start of this struct */
 	uint32_t key_offset;

 	/* Size of key data in bytes (NOT strength of key in bits) */
 	uint32_t key_size;

 	/* Signature algorithm used by the key (enum vb2_signature_algorithm) */
 	uint16_t sig_alg;

 	/*
 	 * Hash digest algorithm used with the key (enum vb2_hash_algorithm).
 	 * This is explicitly specified as part of the key to prevent use of a
 	 * strong key with a weak hash.
 	 */
 	uint16_t hash_alg;

 	/* Key ID */
 	struct vb2_id id;
 } __attribute__((packed));

 #define EXPECTED_VB2_PACKED_PRIVATE_KEY_SIZE				\
 	(EXPECTED_VB2_STRUCT_COMMON_SIZE + 12 + EXPECTED_ID_SIZE)

 /* Current version of vb2_signature struct */
 #define VB2_SIGNATURE_VERSION_MAJOR 3
 #define VB2_SIGNATURE_VERSION_MINOR 0

 /*
  * Signature data
  *
  * The signature data must be arranged like this:
  *     1) vb2_signature header struct h
  *     2) Signature description (pointed to by h.c.fixed_size)
  *     3) Signature data (pointed to by h.sig_offset)
  */
 struct vb2_signature {
 	/* Common header fields */
 	struct vb2_struct_common c;

 	/* Offset of signature data from start of this struct */
 	uint32_t sig_offset;

 	/* Size of signature data in bytes */
 	uint32_t sig_size;

 	/* Size of the data block which was signed in bytes */
 	uint32_t data_size;

 	/* Signature algorithm used (enum vb2_signature_algorithm) */
 	uint16_t sig_alg;

 	/* Hash digest algorithm used (enum vb2_hash_algorithm) */
 	uint16_t hash_alg;

 	/*
 	 * ID for the signature.
 	 *
 	 * If this is a keyblock signature entry, this is the ID of the key
 	 * used to generate this signature.  This allows the firmware to
 	 * quickly determine which signature block (if any) goes with the key
 	 * being used by the firmware.
 	 *
 	 * If this is a preamble hash entry, this is the ID of the data type
 	 * being hashed.  There is no key ID, because sig_alg=VB2_ALG_NONE.
 	 */
 	struct vb2_id id;
 } __attribute__((packed));

 #define EXPECTED_VB2_SIGNATURE_SIZE					\
 	(EXPECTED_VB2_STRUCT_COMMON_SIZE + 16 + EXPECTED_ID_SIZE)


 /* Current version of vb2_keyblock struct */
 #define VB2_KEYBLOCK_VERSION_MAJOR 3
 #define VB2_KEYBLOCK_VERSION_MINOR 0

 /*
  * Key block.  This contains a signed, versioned key for use in the next stage
  * of verified boot.
  *
  * The key block data must be arranged like this:
  *     1) vb2_keyblock header struct h
  *     2) Keyblock description (pointed to by h.c.fixed_size)
  *     3) Data key (pointed to by h.data_key_offset)
  *     4) Signatures (first signature pointed to by h.sig_offset)
  *
  * The signatures from 4) must cover all the data from 1), 2), 3).  That is,
  * signatures must sign all data up to sig_offset.
  */
 struct vb2_keyblock {
 	/* Common header fields */
 	struct vb2_struct_common c;

 	/* Flags (VB2_KEY_BLOCK_FLAG_*) */
 	uint32_t flags;

 	/*
 	 * Offset of key (struct vb2_packed_key) to use in next stage of
 	 * verification, from start of the keyblock.
 	 */
 	uint32_t key_offset;

 	/* Number of keyblock signatures which follow */
 	uint32_t sig_count;

 	/*
 	 * Offset of the first signature (struct vb2_signature) from the start
 	 * of the keyblock.
 	 *
 	 * Signatures sign the contents of this struct and the data pointed to
 	 * by data_key_offset, but not themselves or other signatures.
 	 *
 	 * For the firmware, there may be only one signature.
 	 *
 	 * Kernels often have at least two signatures - one using the kernel
 	 * subkey from the RW firmware (for signed kernels) and one which is
 	 * simply a SHA-512 hash (for unsigned developer kernels).
 	 *
 	 * The ID for each signature indicates which key was used to generate
 	 * the signature.
 	 */
 	uint32_t sig_offset;
 } __attribute__((packed));

 #define EXPECTED_VB2_KEYBLOCK_SIZE (EXPECTED_VB2_STRUCT_COMMON_SIZE + 16)


 /* Current version of vb2_fw_preamble struct */
 #define VB2_FW_PREAMBLE_VERSION_MAJOR 3
 #define VB2_FW_PREAMBLE_VERSION_MINOR 0

 /* Flags for vb2_fw_preamble.flags */
 /* Reserved; do not use */
 #define VB2_FIRMWARE_PREAMBLE_RESERVED0 0x00000001
 /* Do not allow use of any hardware crypto accelerators. */
 #define VB2_FIRMWARE_PREAMBLE_DISALLOW_HWCRYPTO 0x00000002

 /*
  * Firmware preamble
  *
  * The preamble data must be arranged like this:
  *     1) vb2_fw_preamble header struct h
  *     2) Preamble description (pointed to by h.c.fixed_size)
  *     3) Hashes (pointed to by h.hash_offset)
  *     4) Signature (pointed to by h.sig_offset)
  *
  * The signature 4) must cover all the data from 1), 2), 3).
  */
 struct vb2_fw_preamble {
 	/* Common header fields */
 	struct vb2_struct_common c;

 	/* Flags; see VB2_FIRMWARE_PREAMBLE_* */
 	uint32_t flags;

 	/* Firmware version */
 	uint32_t fw_version;

 	/* Offset of signature (struct vb2_signature) for this preamble */
 	uint32_t sig_offset;

 	/*
 	 * The preamble contains a list of hashes (struct vb2_signature) for
 	 * the various firmware components.  These have sig_alg=VB2_SIG_NONE,
 	 * and the ID for each hash identifies the component being hashed.
 	 * The calling firmware is responsible for knowing where to find those
 	 * components, which may be on a different storage device than this
 	 * preamble.
 	 */

 	/* Number of hash entries */
 	uint32_t hash_count;

 	/* Offset of first hash entry from start of preamble */
 	uint32_t hash_offset;
 } __attribute__((packed));

 #define EXPECTED_VB2_FW_PREAMBLE_SIZE (EXPECTED_VB2_STRUCT_COMMON_SIZE + 20)

 #endif  /* VBOOT_REFERENCE_VB2_STRUCT_H_ */
	/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*
	* Vboot 2.1 data structures
	*
	* Offsets should be padded to 32-bit boundaries, since some architectures
	* have trouble with accessing unaligned integers.
	*/

	#ifndef VBOOT_REFERENCE_VB2_STRUCT_H_
	#define VBOOT_REFERENCE_VB2_STRUCT_H_
	#include <stdint.h>

	#include "2id.h"

	/*
	* Magic numbers used by vb2_struct_common.magic.
	*
	* All valid numbers should be listed here to avoid accidental overlap.
	* Numbers start at a large value, so that previous parsers (which stored
	* things like lengths and offsets at that field) will detect and reject new
	* structs as invalid.
	*/
	enum vb2_struct_common_magic {
	/* "Vb2B" = vb2_keyblock.c.magic */
	VB2_MAGIC_KEYBLOCK = 0x42326256,

	/* "Vb2F" = vb2_fw_preamble.c.magic */
	VB2_MAGIC_FW_PREAMBLE = 0x46326256,

	/* "Vb2I" = vb2_packed_private_key.c.magic */
	VB2_MAGIC_PACKED_PRIVATE_KEY = 0x49326256,

	/* "Vb2K" = vb2_kernel_preamble.c.magic */
	VB2_MAGIC_KERNEL_PREAMBLE = 0x4b326256,

	/* "Vb2P" = vb2_packed_key.c.magic */
	VB2_MAGIC_PACKED_KEY = 0x50326256,

	/* "Vb2S" = vb2_signature.c.magic */
	VB2_MAGIC_SIGNATURE = 0x53326256,
	};


	/*
	* Generic struct header for all vboot2 structs. This makes it easy to
	* automatically parse and identify vboot structs (e.g., in futility). This
	* must be the first member of the parent vboot2 struct.
	*/
	struct vb2_struct_common {
	/* Magic number; see vb2_struct_common_magic for expected values */
	uint32_t magic;

	/*
	* Parent struct version; see each struct for the expected value.
	*
	* How to handle struct version mismatches, if the parser is version
	* A.b and the data is version C.d:
	* 1) If A.b == C.d, we're good.
	* 2) If A != C, the data cannot be parsed at all.
	* 3) If b < d, C.d is a newer version of data which is backwards-
	* compatible to old parsers. We're good.
	* 4) If b > d, C.d is an older version of data. The parser should
	* use default values for fields added after version d. We're
	* good.
	*
	* Struct versions start at 3.0, since the highest version of the old
	* structures was 2.1. This way, there is no possibility of collision
	* for old code which depends on the version number.
	*/
	uint16_t struct_version_major;
	uint16_t struct_version_minor;

	/*
	* Size of the parent structure and all its data, including the
	* description and any necessary padding. That is, all data must lie
	* in a contiguous region of <total_size> bytes starting at the first
	* byte of this header.
	*/
	uint32_t total_size;

	/*
	* Size of the fixed portion of the parent structure. If a description
	* is present, it must start at this offset.
	*/
	uint32_t fixed_size;

	/*
	* The object may contain an ASCII description following the fixed
	* portion of the structure. If it is present, it must be
	* null-terminated, and padded with 0 (null) bytes to a multiple of 32
	* bits.
	*
	* Size of ASCII description in bytes, counting null terminator and
	* padding (if any). Set 0 if no description is present. If non-zero,
	* there must be a null terminator (0) at offset (fixed_size +
	* desc_size - 1).
	*/
	uint32_t desc_size;
	} __attribute__((packed));

	#define EXPECTED_VB2_STRUCT_COMMON_SIZE 20

	/* Current version of vb2_packed_key struct */
	#define VB2_PACKED_KEY_VERSION_MAJOR 3
	#define VB2_PACKED_KEY_VERSION_MINOR 0

	/*
	* Packed public key data
	*
	* The key data must be arranged like this:
	* 1) vb2_packed_key header struct h
	* 2) Key description (pointed to by h.c.fixed_size)
	* 3) Key data key (pointed to by h.key_offset)
	*/
	struct vb2_packed_key {
	/* Common header fields */
	struct vb2_struct_common c;

	/* Offset of key data from start of this struct */
	uint32_t key_offset;

	/* Size of key data in bytes (NOT strength of key in bits) */
	uint32_t key_size;

	/* Signature algorithm used by the key (enum vb2_signature_algorithm) */
	uint16_t sig_alg;

	/*
	* Hash digest algorithm used with the key (enum vb2_hash_algorithm).
	* This is explicitly specified as part of the key to prevent use of a
	* strong key with a weak hash.
	*/
	uint16_t hash_alg;

	/* Key version */
	uint32_t key_version;

	/* Key ID */
	struct vb2_id id;
	} __attribute__((packed));

	#define EXPECTED_VB2_PACKED_KEY_SIZE \
	(EXPECTED_VB2_STRUCT_COMMON_SIZE + 16 + EXPECTED_ID_SIZE)

	/* Current version of vb2_packed_private_key struct */
	#define VB2_PACKED_PRIVATE_KEY_VERSION_MAJOR 3
	#define VB2_PACKED_PRIVATE_KEY_VERSION_MINOR 0

	/*
	* Packed private key data
	*
	* The key data must be arranged like this:
	* 1) vb2_packed_private_key header struct h
	* 2) Key description (pointed to by h.c.fixed_size)
	* 3) Key data key (pointed to by h.key_offset)
	*/
	struct vb2_packed_private_key {
	/* Common header fields */
	struct vb2_struct_common c;

	/* Offset of key data from start of this struct */
	uint32_t key_offset;

	/* Size of key data in bytes (NOT strength of key in bits) */
	uint32_t key_size;

	/* Signature algorithm used by the key (enum vb2_signature_algorithm) */
	uint16_t sig_alg;

	/*
	* Hash digest algorithm used with the key (enum vb2_hash_algorithm).
	* This is explicitly specified as part of the key to prevent use of a
	* strong key with a weak hash.
	*/
	uint16_t hash_alg;

	/* Key ID */
	struct vb2_id id;
	} __attribute__((packed));

	#define EXPECTED_VB2_PACKED_PRIVATE_KEY_SIZE \
	(EXPECTED_VB2_STRUCT_COMMON_SIZE + 12 + EXPECTED_ID_SIZE)

	/* Current version of vb2_signature struct */
	#define VB2_SIGNATURE_VERSION_MAJOR 3
	#define VB2_SIGNATURE_VERSION_MINOR 0

	/*
	* Signature data
	*
	* The signature data must be arranged like this:
	* 1) vb2_signature header struct h
	* 2) Signature description (pointed to by h.c.fixed_size)
	* 3) Signature data (pointed to by h.sig_offset)
	*/
	struct vb2_signature {
	/* Common header fields */
	struct vb2_struct_common c;

	/* Offset of signature data from start of this struct */
	uint32_t sig_offset;

	/* Size of signature data in bytes */
	uint32_t sig_size;

	/* Size of the data block which was signed in bytes */
	uint32_t data_size;

	/* Signature algorithm used (enum vb2_signature_algorithm) */
	uint16_t sig_alg;

	/* Hash digest algorithm used (enum vb2_hash_algorithm) */
	uint16_t hash_alg;

	/*
	* ID for the signature.
	*
	* If this is a keyblock signature entry, this is the ID of the key
	* used to generate this signature. This allows the firmware to
	* quickly determine which signature block (if any) goes with the key
	* being used by the firmware.
	*
	* If this is a preamble hash entry, this is the ID of the data type
	* being hashed. There is no key ID, because sig_alg=VB2_ALG_NONE.
	*/
	struct vb2_id id;
	} __attribute__((packed));

	#define EXPECTED_VB2_SIGNATURE_SIZE \
	(EXPECTED_VB2_STRUCT_COMMON_SIZE + 16 + EXPECTED_ID_SIZE)


	/* Current version of vb2_keyblock struct */
	#define VB2_KEYBLOCK_VERSION_MAJOR 3
	#define VB2_KEYBLOCK_VERSION_MINOR 0

	/*
	* Key block. This contains a signed, versioned key for use in the next stage
	* of verified boot.
	*
	* The key block data must be arranged like this:
	* 1) vb2_keyblock header struct h
	* 2) Keyblock description (pointed to by h.c.fixed_size)
	* 3) Data key (pointed to by h.data_key_offset)
	* 4) Signatures (first signature pointed to by h.sig_offset)
	*
	* The signatures from 4) must cover all the data from 1), 2), 3). That is,
	* signatures must sign all data up to sig_offset.
	*/
	struct vb2_keyblock {
	/* Common header fields */
	struct vb2_struct_common c;

	/* Flags (VB2_KEY_BLOCK_FLAG_) /
	uint32_t flags;

	/*
	* Offset of key (struct vb2_packed_key) to use in next stage of
	* verification, from start of the keyblock.
	*/
	uint32_t key_offset;

	/* Number of keyblock signatures which follow */
	uint32_t sig_count;

	/*
	* Offset of the first signature (struct vb2_signature) from the start
	* of the keyblock.
	*
	* Signatures sign the contents of this struct and the data pointed to
	* by data_key_offset, but not themselves or other signatures.
	*
	* For the firmware, there may be only one signature.
	*
	* Kernels often have at least two signatures - one using the kernel
	* subkey from the RW firmware (for signed kernels) and one which is
	* simply a SHA-512 hash (for unsigned developer kernels).
	*
	* The ID for each signature indicates which key was used to generate
	* the signature.
	*/
	uint32_t sig_offset;
	} __attribute__((packed));

	#define EXPECTED_VB2_KEYBLOCK_SIZE (EXPECTED_VB2_STRUCT_COMMON_SIZE + 16)


	/* Current version of vb2_fw_preamble struct */
	#define VB2_FW_PREAMBLE_VERSION_MAJOR 3
	#define VB2_FW_PREAMBLE_VERSION_MINOR 0

	/* Flags for vb2_fw_preamble.flags */
	/* Reserved; do not use */
	#define VB2_FIRMWARE_PREAMBLE_RESERVED0 0x00000001
	/* Do not allow use of any hardware crypto accelerators. */
	#define VB2_FIRMWARE_PREAMBLE_DISALLOW_HWCRYPTO 0x00000002

	/*
	* Firmware preamble
	*
	* The preamble data must be arranged like this:
	* 1) vb2_fw_preamble header struct h
	* 2) Preamble description (pointed to by h.c.fixed_size)
	* 3) Hashes (pointed to by h.hash_offset)
	* 4) Signature (pointed to by h.sig_offset)
	*
	* The signature 4) must cover all the data from 1), 2), 3).
	*/
	struct vb2_fw_preamble {
	/* Common header fields */
	struct vb2_struct_common c;

	/* Flags; see VB2_FIRMWARE_PREAMBLE_* */
	uint32_t flags;

	/* Firmware version */
	uint32_t fw_version;

	/* Offset of signature (struct vb2_signature) for this preamble */
	uint32_t sig_offset;

	/*
	* The preamble contains a list of hashes (struct vb2_signature) for
	* the various firmware components. These have sig_alg=VB2_SIG_NONE,
	* and the ID for each hash identifies the component being hashed.
	* The calling firmware is responsible for knowing where to find those
	* components, which may be on a different storage device than this
	* preamble.
	*/

	/* Number of hash entries */
	uint32_t hash_count;

	/* Offset of first hash entry from start of preamble */
	uint32_t hash_offset;
	} __attribute__((packed));

	#define EXPECTED_VB2_FW_PREAMBLE_SIZE (EXPECTED_VB2_STRUCT_COMMON_SIZE + 20)

	#endif /* VBOOT_REFERENCE_VB2_STRUCT_H_ */