firmware/include/vboot_struct.h - third_party/vboot_reference - Git at Google

 /* Copyright (c) 2011 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.
  *
  * Data structure definitions for verified boot, for on-disk / in-eeprom
  * data.
  */

 #ifndef VBOOT_REFERENCE_VBOOT_STRUCT_H_
 #define VBOOT_REFERENCE_VBOOT_STRUCT_H_

 #include "sysincludes.h"

 __pragma(pack(push, 1)) /* Support packing for MSVC. */

 /* Public key data */
 typedef struct VbPublicKey {
   uint64_t key_offset;     /* Offset of key data from start of this struct */
   uint64_t key_size;       /* Size of key data in bytes (NOT strength of key
                            * in bits) */
   uint64_t algorithm;      /* Signature algorithm used by the key */
   uint64_t key_version;    /* Key version */
 } __attribute__((packed)) VbPublicKey;

 #define EXPECTED_VBPUBLICKEY_SIZE 32


 /* Signature data (a secure hash, possibly signed) */
 typedef struct VbSignature {
   uint64_t sig_offset;  /* Offset of signature data from start of this
                          * struct */
   uint64_t sig_size;    /* Size of signature data in bytes */
   uint64_t data_size;   /* Size of the data block which was signed in bytes */
 } __attribute__((packed)) VbSignature;

 #define EXPECTED_VBSIGNATURE_SIZE 24


 #define KEY_BLOCK_MAGIC "CHROMEOS"
 #define KEY_BLOCK_MAGIC_SIZE 8

 #define KEY_BLOCK_HEADER_VERSION_MAJOR 2
 #define KEY_BLOCK_HEADER_VERSION_MINOR 1

 /* Flags for key_block_flags */
 /* The following flags set where the key is valid */
 #define KEY_BLOCK_FLAG_DEVELOPER_0  UINT64_C(0x01)  /* Developer switch off */
 #define KEY_BLOCK_FLAG_DEVELOPER_1  UINT64_C(0x02)  /* Developer switch on */
 #define KEY_BLOCK_FLAG_RECOVERY_0   UINT64_C(0x04)  /* Not recovery mode */
 #define KEY_BLOCK_FLAG_RECOVERY_1   UINT64_C(0x08)  /* Recovery mode */

 /* Key block, containing the public key used to sign some other chunk
  * of data. */
 typedef struct VbKeyBlockHeader {
   uint8_t magic[KEY_BLOCK_MAGIC_SIZE];  /* Magic number */
   uint32_t header_version_major;     /* Version of this header format */
   uint32_t header_version_minor;     /* Version of this header format */
   uint64_t key_block_size;           /* Length of this entire key block,
                                       * including keys, signatures, and
                                       * padding, in bytes */
   VbSignature key_block_signature;   /* Signature for this key block
                                       * (header + data pointed to by data_key)
                                       * For use with signed data keys*/
   VbSignature key_block_checksum;    /* SHA-512 checksum for this key block
                                       * (header + data pointed to by data_key)
                                       * For use with unsigned data keys */
   uint64_t key_block_flags;          /* Flags for key (KEY_BLOCK_FLAG_*) */
   VbPublicKey data_key;              /* Key to verify the chunk of data */
 } __attribute__((packed)) VbKeyBlockHeader;
 /* This should be followed by:
  *   1) The data_key key data, pointed to by data_key.key_offset.
  *   2) The checksum data for (VBKeyBlockHeader + data_key data), pointed to
  *      by key_block_checksum.sig_offset.
  *   3) The signature data for (VBKeyBlockHeader + data_key data), pointed to
  *      by key_block_signature.sig_offset. */

 #define EXPECTED_VBKEYBLOCKHEADER_SIZE 112


 #define FIRMWARE_PREAMBLE_HEADER_VERSION_MAJOR 2
 #define FIRMWARE_PREAMBLE_HEADER_VERSION_MINOR 0

 /* Preamble block for rewritable firmware */
 typedef struct VbFirmwarePreambleHeader {
   uint64_t preamble_size;            /* Size of this preamble, including keys,
                                       * signatures, and padding, in bytes */
   VbSignature preamble_signature;    /* Signature for this preamble
                                       * (header + kernel subkey +
                                       * body signature) */
   uint32_t header_version_major;     /* Version of this header format */
   uint32_t header_version_minor;     /* Version of this header format */

   uint64_t firmware_version;         /* Firmware version */
   VbPublicKey kernel_subkey;         /* Key to verify kernel key block */
   VbSignature body_signature;        /* Signature for the firmware body */
 } __attribute__((packed)) VbFirmwarePreambleHeader;
 /* This should be followed by:
  *   1) The kernel_subkey key data, pointed to by kernel_subkey.key_offset.
  *   2) The signature data for the firmware body, pointed to by
  *      body_signature.sig_offset.
  *   3) The signature data for (VBFirmwarePreambleHeader + kernel_subkey data
  *      + body signature data), pointed to by
  *      preamble_signature.sig_offset. */

 #define EXPECTED_VBFIRMWAREPREAMBLEHEADER_SIZE 104

 #define KERNEL_PREAMBLE_HEADER_VERSION_MAJOR 2
 #define KERNEL_PREAMBLE_HEADER_VERSION_MINOR 0

 /* Preamble block for kernel */
 typedef struct VbKernelPreambleHeader {
   uint64_t preamble_size;            /* Size of this preamble, including keys,
                                       * signatures, and padding, in bytes */
   VbSignature preamble_signature;    /* Signature for this preamble
                                       * (header + body signature) */
   uint32_t header_version_major;     /* Version of this header format */
   uint32_t header_version_minor;     /* Version of this header format */

   uint64_t kernel_version;           /* Kernel version */
   uint64_t body_load_address;        /* Load address for kernel body */
   uint64_t bootloader_address;       /* Address of bootloader, after body is
                                       * loaded at body_load_address */
   uint64_t bootloader_size;          /* Size of bootloader in bytes */
   VbSignature body_signature;        /* Signature for the kernel body */
 } __attribute__((packed)) VbKernelPreambleHeader;
 /* This should be followed by:
  *   2) The signature data for the kernel body, pointed to by
  *      body_signature.sig_offset.
  *   3) The signature data for (VBFirmwarePreambleHeader + body signature
  *      data), pointed to by preamble_signature.sig_offset. */

 #define EXPECTED_VBKERNELPREAMBLEHEADER_SIZE 96

 /* Constants and sub-structures for VbSharedDataHeader */

 /* Magic number for recognizing VbSharedDataHeader ("VbSD") */
 #define VB_SHARED_DATA_MAGIC 0x44536256

 /* Minimum and recommended size of shared_data_blob in bytes. */
 #define VB_SHARED_DATA_MIN_SIZE 3072
 #define VB_SHARED_DATA_REC_SIZE 16384

 /* Flags for VbSharedDataHeader */
 /* LoadFirmware() tried firmware B because of VbNvStorage firmware B tries */
 #define VBSD_FWB_TRIED                  0x00000001
 /* LoadKernel() verified the good kernel keyblock using the kernel subkey from
  * the firmware.  If this flag is not present, it just used the hash of the
  * kernel keyblock. */
 #define VBSD_KERNEL_KEY_VERIFIED        0x00000002
 /* LoadFirmware() was told the developer switch was on */
 #define VBSD_LF_DEV_SWITCH_ON           0x00000004

 /* Result codes for VbSharedDataHeader.check_fw_a_result (and b_result) */
 #define VBSD_LF_CHECK_NOT_DONE          0
 #define VBSD_LF_CHECK_DEV_MISMATCH      1
 #define VBSD_LF_CHECK_REC_MISMATCH      2
 #define VBSD_LF_CHECK_VERIFY_KEYBLOCK   3
 #define VBSD_LF_CHECK_KEY_ROLLBACK      4
 #define VBSD_LF_CHECK_DATA_KEY_PARSE    5
 #define VBSD_LF_CHECK_VERIFY_PREAMBLE   6
 #define VBSD_LF_CHECK_FW_ROLLBACK       7
 #define VBSD_LF_CHECK_HEADER_VALID      8
 #define VBSD_LF_CHECK_GET_FW_BODY       9
 #define VBSD_LF_CHECK_HASH_WRONG_SIZE   10
 #define VBSD_LF_CHECK_VERIFY_BODY       11
 #define VBSD_LF_CHECK_VALID             12

 /* Boot mode for VbSharedDataHeader.lk_boot_mode */
 #define VBSD_LK_BOOT_MODE_RECOVERY      0
 #define VBSD_LK_BOOT_MODE_NORMAL        1
 #define VBSD_LK_BOOT_MODE_DEVELOPER     2

 /* Flags for VbSharedDataKernelPart.flags */
 #define VBSD_LKP_FLAG_KEY_BLOCK_VALID   0x01

 /* Result codes for VbSharedDataKernelPart.check_result */
 #define VBSD_LKP_CHECK_NOT_DONE           0
 #define VBSD_LKP_CHECK_TOO_SMALL          1
 #define VBSD_LKP_CHECK_READ_START         2
 #define VBSD_LKP_CHECK_KEY_BLOCK_SIG      3
 #define VBSD_LKP_CHECK_KEY_BLOCK_HASH     4
 #define VBSD_LKP_CHECK_DEV_MISMATCH       5
 #define VBSD_LKP_CHECK_REC_MISMATCH       6
 #define VBSD_LKP_CHECK_KEY_ROLLBACK       7
 #define VBSD_LKP_CHECK_DATA_KEY_PARSE     8
 #define VBSD_LKP_CHECK_VERIFY_PREAMBLE    9
 #define VBSD_LKP_CHECK_KERNEL_ROLLBACK    10
 #define VBSD_LKP_CHECK_PREAMBLE_VALID     11
 #define VBSD_LKP_CHECK_BODY_ADDRESS       12
 #define VBSD_LKP_CHECK_BODY_OFFSET        13
 #define VBSD_LKP_CHECK_BODY_EXCEEDS_MEM   15
 #define VBSD_LKP_CHECK_BODY_EXCEEDS_PART  16
 #define VBSD_LKP_CHECK_READ_DATA          17
 #define VBSD_LKP_CHECK_VERIFY_DATA        18
 #define VBSD_LKP_CHECK_KERNEL_GOOD        19


 /* Information about a single kernel partition check in LoadKernel() */
 typedef struct VbSharedDataKernelPart {
   uint64_t sector_start;              /* Start sector of partition */
   uint64_t sector_count;              /* Sector count of partition */
   uint32_t combined_version;          /* Combined key+kernel version */
   uint8_t gpt_index;                  /* Index of partition in GPT */
   uint8_t check_result;               /* Check result; see VBSD_LKP_CHECK_* */
   uint8_t flags;                      /* Flags (see VBSD_LKP_FLAG_* */
   uint8_t reserved0;                  /* Reserved for padding */
 } VbSharedDataKernelPart;

 /* Number of kernel partitions to track per call.  Must be power of 2. */
 #define VBSD_MAX_KERNEL_PARTS 8

 /* Flags for VbSharedDataKernelCall.flags */
 /* Error initializing TPM in recovery mode */
 #define VBSD_LK_FLAG_REC_TPM_INIT_ERROR 0x00000001

 /* Result codes for VbSharedDataKernelCall.check_result */
 #define VBSD_LKC_CHECK_NOT_DONE            0
 #define VBSD_LKC_CHECK_DEV_SWITCH_MISMATCH 1
 #define VBSD_LKC_CHECK_GPT_READ_ERROR      2
 #define VBSD_LKC_CHECK_GPT_PARSE_ERROR     3
 #define VBSD_LKC_CHECK_GOOD_PARTITION      4
 #define VBSD_LKC_CHECK_INVALID_PARTITIONS  5
 #define VBSD_LKC_CHECK_NO_PARTITIONS       6

 /* Information about a single call to LoadKernel() */
 typedef struct VbSharedDataKernelCall {
   uint32_t boot_flags;                /* Bottom 32 bits of flags passed in
                                        * LoadKernelParams.boot_flags */
   uint32_t flags;                     /* Debug flags; see VBSD_LK_FLAG_* */
   uint64_t sector_count;              /* Number of sectors on drive */
   uint32_t sector_size;               /* Sector size in bytes */
   uint8_t check_result;               /* Check result; see VBSD_LKC_CHECK_* */
   uint8_t boot_mode;                  /* Boot mode for LoadKernel(); see
                                        * VBSD_LK_BOOT_MODE_* constants */
   uint8_t test_error_num;             /* Test error number, if non-zero */
   uint8_t return_code;                /* Return code from LoadKernel() */
   uint8_t kernel_parts_found;         /* Number of kernel partitions found */
   uint8_t reserved0[7];               /* Reserved for padding */
   VbSharedDataKernelPart parts[VBSD_MAX_KERNEL_PARTS]; /* Data on kernels */
 } VbSharedDataKernelCall;

 /* Number of kernel calls to track.  Must be power of 2. */
 #define VBSD_MAX_KERNEL_CALLS 4

 /* Data shared between LoadFirmware(), LoadKernel(), and OS.
  *
  * The boot process is:
  *   1) Caller allocates buffer, at least VB_SHARED_DATA_MIN bytes, ideally
  *      VB_SHARED_DATA_REC_SIZE bytes.
  *   2) If non-recovery boot, this is passed to LoadFirmware(), which
  *      initializes the buffer, adding this header and some data.
  *   3) Buffer is passed to LoadKernel().  If this is a recovery boot,
  *      LoadKernel() initializes the buffer, adding this header.  Regardless
  *      of boot type, LoadKernel() adds some data to the buffer.
  *   4) Caller makes data available to the OS in a platform-dependent manner.
  *      For example, via ACPI or ATAGs. */
 typedef struct VbSharedDataHeader {
   /* Fields present in version 1 */
   uint32_t magic;                     /* Magic number for struct
                                        * (VB_SHARED_DATA_MAGIC) */
   uint32_t struct_version;            /* Version of this structure */
   uint64_t struct_size;               /* Size of this structure in bytes */
   uint64_t data_size;                 /* Size of shared data buffer in bytes */
   uint64_t data_used;                 /* Amount of shared data used so far */
   uint32_t flags;                     /* Flags */
   uint32_t reserved0;                 /* Reserved for padding */

   VbPublicKey kernel_subkey;          /* Kernel subkey, from firmware */
   uint64_t kernel_subkey_data_offset; /* Offset of kernel subkey data from
                                        * start of this struct */
   uint64_t kernel_subkey_data_size;   /* Size of kernel subkey data */

   /* Timer values from VbGetTimer().  Unused values are set to 0.  If a
    * function is called mutiple times, these are the times from the
    * most recent call. */
   uint64_t timer_load_firmware_start_enter;  /* LoadFirmwareStart() - enter */
   uint64_t timer_load_firmware_start_exit;   /* LoadFirmwareStart() - exit */
   uint64_t timer_load_firmware_enter;        /* LoadFirmware() - enter */
   uint64_t timer_load_firmware_exit;         /* LoadFirmware() - exit */
   uint64_t timer_load_kernel_enter;          /* LoadKernel() - enter */
   uint64_t timer_load_kernel_exit;           /* LoadKernel() - exit */

   /* Information stored in TPM, as retrieved by firmware */
   uint32_t fw_version_tpm;            /* Current firmware version in TPM */
   uint32_t kernel_version_tpm;        /* Current kernel version in TPM */

   /* Debugging information from LoadFirmware() */
   uint8_t check_fw_a_result;          /* Result of checking RW firmware A */
   uint8_t check_fw_b_result;          /* Result of checking RW firmware B */
   uint8_t firmware_index;             /* Firmware index returned by
                                        * LoadFirmware() or 0xFF if failure */
   uint8_t reserved1;                  /* Reserved for padding */
   uint32_t fw_version_tpm_start;      /* Firmware TPM version at start of
                                        * LoadFirmware() */
   uint32_t fw_version_lowest;         /* Firmware lowest version found */

   /* Debugging information from LoadKernel() */
   uint32_t lk_call_count;             /* Number of times LoadKernel() called */
   VbSharedDataKernelCall lk_calls[VBSD_MAX_KERNEL_CALLS];  /* Info on calls */

   /* Offset and size of supplemental kernel data.  Reserve space for these
    * fields now, so that future LoadKernel() versions can store information
    * there without needing to shift down whatever data the original
    * LoadFirmware() might have put immediately following its
    * VbSharedDataHeader. */
   uint64_t kernel_supplemental_offset;
   uint64_t kernel_supplemental_size;

   /* After read-only firmware which uses version 1 is released, any additional
    * fields must be added below, and the struct version must be increased.
    * Before reading/writing those fields, make sure that the struct being
    * accessed is at least version 2.
    *
    * It's always ok for an older firmware to access a newer struct, since all
    * the fields it knows about are present.  Newer firmware needs to use
    * reasonable defaults when accessing older structs. */

 } __attribute__((packed)) VbSharedDataHeader;

 #define VB_SHARED_DATA_VERSION 1      /* Version for struct_version */

 __pragma(pack(pop)) /* Support packing for MSVC. */

 #endif  /* VBOOT_REFERENCE_VBOOT_STRUCT_H_ */
	/* Copyright (c) 2011 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.
	*
	* Data structure definitions for verified boot, for on-disk / in-eeprom
	* data.
	*/

	#ifndef VBOOT_REFERENCE_VBOOT_STRUCT_H_
	#define VBOOT_REFERENCE_VBOOT_STRUCT_H_

	#include "sysincludes.h"

	__pragma(pack(push, 1)) /* Support packing for MSVC. */

	/* Public key data */
	typedef struct VbPublicKey {
	uint64_t key_offset; /* Offset of key data from start of this struct */
	uint64_t key_size; /* Size of key data in bytes (NOT strength of key
	* in bits) */
	uint64_t algorithm; /* Signature algorithm used by the key */
	uint64_t key_version; /* Key version */
	} __attribute__((packed)) VbPublicKey;

	#define EXPECTED_VBPUBLICKEY_SIZE 32


	/* Signature data (a secure hash, possibly signed) */
	typedef struct VbSignature {
	uint64_t sig_offset; /* Offset of signature data from start of this
	* struct */
	uint64_t sig_size; /* Size of signature data in bytes */
	uint64_t data_size; /* Size of the data block which was signed in bytes */
	} __attribute__((packed)) VbSignature;

	#define EXPECTED_VBSIGNATURE_SIZE 24


	#define KEY_BLOCK_MAGIC "CHROMEOS"
	#define KEY_BLOCK_MAGIC_SIZE 8

	#define KEY_BLOCK_HEADER_VERSION_MAJOR 2
	#define KEY_BLOCK_HEADER_VERSION_MINOR 1

	/* Flags for key_block_flags */
	/* The following flags set where the key is valid */
	#define KEY_BLOCK_FLAG_DEVELOPER_0 UINT64_C(0x01) /* Developer switch off */
	#define KEY_BLOCK_FLAG_DEVELOPER_1 UINT64_C(0x02) /* Developer switch on */
	#define KEY_BLOCK_FLAG_RECOVERY_0 UINT64_C(0x04) /* Not recovery mode */
	#define KEY_BLOCK_FLAG_RECOVERY_1 UINT64_C(0x08) /* Recovery mode */

	/* Key block, containing the public key used to sign some other chunk
	* of data. */
	typedef struct VbKeyBlockHeader {
	uint8_t magic[KEY_BLOCK_MAGIC_SIZE]; /* Magic number */
	uint32_t header_version_major; /* Version of this header format */
	uint32_t header_version_minor; /* Version of this header format */
	uint64_t key_block_size; /* Length of this entire key block,
	* including keys, signatures, and
	* padding, in bytes */
	VbSignature key_block_signature; /* Signature for this key block
	* (header + data pointed to by data_key)
	* For use with signed data keys*/
	VbSignature key_block_checksum; /* SHA-512 checksum for this key block
	* (header + data pointed to by data_key)
	* For use with unsigned data keys */
	uint64_t key_block_flags; /* Flags for key (KEY_BLOCK_FLAG_) /
	VbPublicKey data_key; /* Key to verify the chunk of data */
	} __attribute__((packed)) VbKeyBlockHeader;
	/* This should be followed by:
	* 1) The data_key key data, pointed to by data_key.key_offset.
	* 2) The checksum data for (VBKeyBlockHeader + data_key data), pointed to
	* by key_block_checksum.sig_offset.
	* 3) The signature data for (VBKeyBlockHeader + data_key data), pointed to
	* by key_block_signature.sig_offset. */

	#define EXPECTED_VBKEYBLOCKHEADER_SIZE 112


	#define FIRMWARE_PREAMBLE_HEADER_VERSION_MAJOR 2
	#define FIRMWARE_PREAMBLE_HEADER_VERSION_MINOR 0

	/* Preamble block for rewritable firmware */
	typedef struct VbFirmwarePreambleHeader {
	uint64_t preamble_size; /* Size of this preamble, including keys,
	* signatures, and padding, in bytes */
	VbSignature preamble_signature; /* Signature for this preamble
	* (header + kernel subkey +
	* body signature) */
	uint32_t header_version_major; /* Version of this header format */
	uint32_t header_version_minor; /* Version of this header format */

	uint64_t firmware_version; /* Firmware version */
	VbPublicKey kernel_subkey; /* Key to verify kernel key block */
	VbSignature body_signature; /* Signature for the firmware body */
	} __attribute__((packed)) VbFirmwarePreambleHeader;
	/* This should be followed by:
	* 1) The kernel_subkey key data, pointed to by kernel_subkey.key_offset.
	* 2) The signature data for the firmware body, pointed to by
	* body_signature.sig_offset.
	* 3) The signature data for (VBFirmwarePreambleHeader + kernel_subkey data
	* + body signature data), pointed to by
	* preamble_signature.sig_offset. */

	#define EXPECTED_VBFIRMWAREPREAMBLEHEADER_SIZE 104

	#define KERNEL_PREAMBLE_HEADER_VERSION_MAJOR 2
	#define KERNEL_PREAMBLE_HEADER_VERSION_MINOR 0

	/* Preamble block for kernel */
	typedef struct VbKernelPreambleHeader {
	uint64_t preamble_size; /* Size of this preamble, including keys,
	* signatures, and padding, in bytes */
	VbSignature preamble_signature; /* Signature for this preamble
	* (header + body signature) */
	uint32_t header_version_major; /* Version of this header format */
	uint32_t header_version_minor; /* Version of this header format */

	uint64_t kernel_version; /* Kernel version */
	uint64_t body_load_address; /* Load address for kernel body */
	uint64_t bootloader_address; /* Address of bootloader, after body is
	* loaded at body_load_address */
	uint64_t bootloader_size; /* Size of bootloader in bytes */
	VbSignature body_signature; /* Signature for the kernel body */
	} __attribute__((packed)) VbKernelPreambleHeader;
	/* This should be followed by:
	* 2) The signature data for the kernel body, pointed to by
	* body_signature.sig_offset.
	* 3) The signature data for (VBFirmwarePreambleHeader + body signature
	* data), pointed to by preamble_signature.sig_offset. */

	#define EXPECTED_VBKERNELPREAMBLEHEADER_SIZE 96

	/* Constants and sub-structures for VbSharedDataHeader */

	/* Magic number for recognizing VbSharedDataHeader ("VbSD") */
	#define VB_SHARED_DATA_MAGIC 0x44536256

	/* Minimum and recommended size of shared_data_blob in bytes. */
	#define VB_SHARED_DATA_MIN_SIZE 3072
	#define VB_SHARED_DATA_REC_SIZE 16384

	/* Flags for VbSharedDataHeader */
	/* LoadFirmware() tried firmware B because of VbNvStorage firmware B tries */
	#define VBSD_FWB_TRIED 0x00000001
	/* LoadKernel() verified the good kernel keyblock using the kernel subkey from
	* the firmware. If this flag is not present, it just used the hash of the
	* kernel keyblock. */
	#define VBSD_KERNEL_KEY_VERIFIED 0x00000002
	/* LoadFirmware() was told the developer switch was on */
	#define VBSD_LF_DEV_SWITCH_ON 0x00000004

	/* Result codes for VbSharedDataHeader.check_fw_a_result (and b_result) */
	#define VBSD_LF_CHECK_NOT_DONE 0
	#define VBSD_LF_CHECK_DEV_MISMATCH 1
	#define VBSD_LF_CHECK_REC_MISMATCH 2
	#define VBSD_LF_CHECK_VERIFY_KEYBLOCK 3
	#define VBSD_LF_CHECK_KEY_ROLLBACK 4
	#define VBSD_LF_CHECK_DATA_KEY_PARSE 5
	#define VBSD_LF_CHECK_VERIFY_PREAMBLE 6
	#define VBSD_LF_CHECK_FW_ROLLBACK 7
	#define VBSD_LF_CHECK_HEADER_VALID 8
	#define VBSD_LF_CHECK_GET_FW_BODY 9
	#define VBSD_LF_CHECK_HASH_WRONG_SIZE 10
	#define VBSD_LF_CHECK_VERIFY_BODY 11
	#define VBSD_LF_CHECK_VALID 12

	/* Boot mode for VbSharedDataHeader.lk_boot_mode */
	#define VBSD_LK_BOOT_MODE_RECOVERY 0
	#define VBSD_LK_BOOT_MODE_NORMAL 1
	#define VBSD_LK_BOOT_MODE_DEVELOPER 2

	/* Flags for VbSharedDataKernelPart.flags */
	#define VBSD_LKP_FLAG_KEY_BLOCK_VALID 0x01

	/* Result codes for VbSharedDataKernelPart.check_result */
	#define VBSD_LKP_CHECK_NOT_DONE 0
	#define VBSD_LKP_CHECK_TOO_SMALL 1
	#define VBSD_LKP_CHECK_READ_START 2
	#define VBSD_LKP_CHECK_KEY_BLOCK_SIG 3
	#define VBSD_LKP_CHECK_KEY_BLOCK_HASH 4
	#define VBSD_LKP_CHECK_DEV_MISMATCH 5
	#define VBSD_LKP_CHECK_REC_MISMATCH 6
	#define VBSD_LKP_CHECK_KEY_ROLLBACK 7
	#define VBSD_LKP_CHECK_DATA_KEY_PARSE 8
	#define VBSD_LKP_CHECK_VERIFY_PREAMBLE 9
	#define VBSD_LKP_CHECK_KERNEL_ROLLBACK 10
	#define VBSD_LKP_CHECK_PREAMBLE_VALID 11
	#define VBSD_LKP_CHECK_BODY_ADDRESS 12
	#define VBSD_LKP_CHECK_BODY_OFFSET 13
	#define VBSD_LKP_CHECK_BODY_EXCEEDS_MEM 15
	#define VBSD_LKP_CHECK_BODY_EXCEEDS_PART 16
	#define VBSD_LKP_CHECK_READ_DATA 17
	#define VBSD_LKP_CHECK_VERIFY_DATA 18
	#define VBSD_LKP_CHECK_KERNEL_GOOD 19


	/* Information about a single kernel partition check in LoadKernel() */
	typedef struct VbSharedDataKernelPart {
	uint64_t sector_start; /* Start sector of partition */
	uint64_t sector_count; /* Sector count of partition */
	uint32_t combined_version; /* Combined key+kernel version */
	uint8_t gpt_index; /* Index of partition in GPT */
	uint8_t check_result; /* Check result; see VBSD_LKP_CHECK_* */
	uint8_t flags; /* Flags (see VBSD_LKP_FLAG_* */
	uint8_t reserved0; /* Reserved for padding */
	} VbSharedDataKernelPart;

	/* Number of kernel partitions to track per call. Must be power of 2. */
	#define VBSD_MAX_KERNEL_PARTS 8

	/* Flags for VbSharedDataKernelCall.flags */
	/* Error initializing TPM in recovery mode */
	#define VBSD_LK_FLAG_REC_TPM_INIT_ERROR 0x00000001

	/* Result codes for VbSharedDataKernelCall.check_result */
	#define VBSD_LKC_CHECK_NOT_DONE 0
	#define VBSD_LKC_CHECK_DEV_SWITCH_MISMATCH 1
	#define VBSD_LKC_CHECK_GPT_READ_ERROR 2
	#define VBSD_LKC_CHECK_GPT_PARSE_ERROR 3
	#define VBSD_LKC_CHECK_GOOD_PARTITION 4
	#define VBSD_LKC_CHECK_INVALID_PARTITIONS 5
	#define VBSD_LKC_CHECK_NO_PARTITIONS 6

	/* Information about a single call to LoadKernel() */
	typedef struct VbSharedDataKernelCall {
	uint32_t boot_flags; /* Bottom 32 bits of flags passed in
	* LoadKernelParams.boot_flags */
	uint32_t flags; /* Debug flags; see VBSD_LK_FLAG_* */
	uint64_t sector_count; /* Number of sectors on drive */
	uint32_t sector_size; /* Sector size in bytes */
	uint8_t check_result; /* Check result; see VBSD_LKC_CHECK_* */
	uint8_t boot_mode; /* Boot mode for LoadKernel(); see
	* VBSD_LK_BOOT_MODE_* constants */
	uint8_t test_error_num; /* Test error number, if non-zero */
	uint8_t return_code; /* Return code from LoadKernel() */
	uint8_t kernel_parts_found; /* Number of kernel partitions found */
	uint8_t reserved0[7]; /* Reserved for padding */
	VbSharedDataKernelPart parts[VBSD_MAX_KERNEL_PARTS]; /* Data on kernels */
	} VbSharedDataKernelCall;

	/* Number of kernel calls to track. Must be power of 2. */
	#define VBSD_MAX_KERNEL_CALLS 4

	/* Data shared between LoadFirmware(), LoadKernel(), and OS.
	*
	* The boot process is:
	* 1) Caller allocates buffer, at least VB_SHARED_DATA_MIN bytes, ideally
	* VB_SHARED_DATA_REC_SIZE bytes.
	* 2) If non-recovery boot, this is passed to LoadFirmware(), which
	* initializes the buffer, adding this header and some data.
	* 3) Buffer is passed to LoadKernel(). If this is a recovery boot,
	* LoadKernel() initializes the buffer, adding this header. Regardless
	* of boot type, LoadKernel() adds some data to the buffer.
	* 4) Caller makes data available to the OS in a platform-dependent manner.
	* For example, via ACPI or ATAGs. */
	typedef struct VbSharedDataHeader {
	/* Fields present in version 1 */
	uint32_t magic; /* Magic number for struct
	* (VB_SHARED_DATA_MAGIC) */
	uint32_t struct_version; /* Version of this structure */
	uint64_t struct_size; /* Size of this structure in bytes */
	uint64_t data_size; /* Size of shared data buffer in bytes */
	uint64_t data_used; /* Amount of shared data used so far */
	uint32_t flags; /* Flags */
	uint32_t reserved0; /* Reserved for padding */

	VbPublicKey kernel_subkey; /* Kernel subkey, from firmware */
	uint64_t kernel_subkey_data_offset; /* Offset of kernel subkey data from
	* start of this struct */
	uint64_t kernel_subkey_data_size; /* Size of kernel subkey data */

	/* Timer values from VbGetTimer(). Unused values are set to 0. If a
	* function is called mutiple times, these are the times from the
	* most recent call. */
	uint64_t timer_load_firmware_start_enter; /* LoadFirmwareStart() - enter */
	uint64_t timer_load_firmware_start_exit; /* LoadFirmwareStart() - exit */
	uint64_t timer_load_firmware_enter; /* LoadFirmware() - enter */
	uint64_t timer_load_firmware_exit; /* LoadFirmware() - exit */
	uint64_t timer_load_kernel_enter; /* LoadKernel() - enter */
	uint64_t timer_load_kernel_exit; /* LoadKernel() - exit */

	/* Information stored in TPM, as retrieved by firmware */
	uint32_t fw_version_tpm; /* Current firmware version in TPM */
	uint32_t kernel_version_tpm; /* Current kernel version in TPM */

	/* Debugging information from LoadFirmware() */
	uint8_t check_fw_a_result; /* Result of checking RW firmware A */
	uint8_t check_fw_b_result; /* Result of checking RW firmware B */
	uint8_t firmware_index; /* Firmware index returned by
	* LoadFirmware() or 0xFF if failure */
	uint8_t reserved1; /* Reserved for padding */
	uint32_t fw_version_tpm_start; /* Firmware TPM version at start of
	* LoadFirmware() */
	uint32_t fw_version_lowest; /* Firmware lowest version found */

	/* Debugging information from LoadKernel() */
	uint32_t lk_call_count; /* Number of times LoadKernel() called */
	VbSharedDataKernelCall lk_calls[VBSD_MAX_KERNEL_CALLS]; /* Info on calls */

	/* Offset and size of supplemental kernel data. Reserve space for these
	* fields now, so that future LoadKernel() versions can store information
	* there without needing to shift down whatever data the original
	* LoadFirmware() might have put immediately following its
	* VbSharedDataHeader. */
	uint64_t kernel_supplemental_offset;
	uint64_t kernel_supplemental_size;

	/* After read-only firmware which uses version 1 is released, any additional
	* fields must be added below, and the struct version must be increased.
	* Before reading/writing those fields, make sure that the struct being
	* accessed is at least version 2.
	*
	* It's always ok for an older firmware to access a newer struct, since all
	* the fields it knows about are present. Newer firmware needs to use
	* reasonable defaults when accessing older structs. */

	} __attribute__((packed)) VbSharedDataHeader;

	#define VB_SHARED_DATA_VERSION 1 /* Version for struct_version */

	__pragma(pack(pop)) /* Support packing for MSVC. */

	#endif /* VBOOT_REFERENCE_VBOOT_STRUCT_H_ */