/* 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 data structures. * * Note: Many of the structs have pairs of 32-bit fields and reserved fields. * This is to be backwards-compatible with older verified boot data which used * 64-bit fields (when we thought that hey, UEFI is 64-bit so all our fields * should be too). * * Offsets should be padded to 32-bit boundaries, since some architectures * have trouble with accessing unaligned integers. */ #ifndef VBOOT_REFERENCE_2STRUCT_H_ #define VBOOT_REFERENCE_2STRUCT_H_ #include "2api.h" #include "2constants.h" #include "2crypto.h" #include "2sysincludes.h" /* Flags for vb2_shared_data.flags */ enum vb2_shared_data_flags { /* User has explicitly and physically requested recovery */ VB2_SD_FLAG_MANUAL_RECOVERY = (1 << 0), /* Developer mode is enabled */ VB2_SD_FLAG_DEV_MODE_ENABLED = (1 << 1), /* * TODO: might be nice to add flags for why dev mode is enabled - via * gbb, virtual dev switch, or forced on for testing. */ /* Kernel keyblock was verified by signature (not just hash) */ VB2_SD_FLAG_KERNEL_SIGNED = (1 << 2), /* Software sync needs to update EC-RO or EC-RW */ VB2_SD_FLAG_ECSYNC_EC_RO = (1 << 3), VB2_SD_FLAG_ECSYNC_EC_RW = (1 << 4), /* * VB2_SD_FLAG_ECSYNC_PD_RW (1 << 5) is deprecated. Vboot no * longer supports updating "PD" devices running CrOS EC code. */ /* Software sync says EC running RW */ VB2_SD_FLAG_ECSYNC_EC_IN_RW = (1 << 6), /* * VB2_SD_FLAG_ECSYNC_PD_IN_RW (1 << 7) is deprecated. Vboot * no longer supports updating "PD" devices running CrOS EC * code. */ /* Display is available on this boot */ VB2_SD_FLAG_DISPLAY_AVAILABLE = (1 << 8), }; /* Flags for vb2_shared_data.status */ enum vb2_shared_data_status { /* Reinitialized NV data due to invalid checksum */ VB2_SD_STATUS_NV_REINIT = (1 << 0), /* NV data has been initialized */ VB2_SD_STATUS_NV_INIT = (1 << 1), /* Secure data initialized */ VB2_SD_STATUS_SECDATA_FIRMWARE_INIT = (1 << 2), /* Chose a firmware slot */ VB2_SD_STATUS_CHOSE_SLOT = (1 << 3), /* Secure data kernel version space initialized */ VB2_SD_STATUS_SECDATA_KERNEL_INIT = (1 << 4), /* FWMP secure data initialized */ VB2_SD_STATUS_SECDATA_FWMP_INIT = (1 << 5), /* EC Sync completed successfully */ VB2_SD_STATUS_EC_SYNC_COMPLETE = (1 << 6), }; /* "V2SD" = vb2_shared_data.magic */ #define VB2_SHARED_DATA_MAGIC 0x44533256 /* Current version of vb2_shared_data struct */ #define VB2_SHARED_DATA_VERSION_MAJOR 2 #define VB2_SHARED_DATA_VERSION_MINOR 0 #define VB2_CONTEXT_MAX_SIZE 192 /* * Data shared between vboot API calls. Stored at the start of the work * buffer. */ struct vb2_shared_data { /* Magic number for struct (VB2_SHARED_DATA_MAGIC) */ uint32_t magic; /* Version of this structure */ uint16_t struct_version_major; uint16_t struct_version_minor; /* Public fields are stored in the context object */ struct vb2_context ctx; /* Padding for adding future vb2_context fields */ uint8_t padding[VB2_CONTEXT_MAX_SIZE - sizeof(struct vb2_context)]; /* Work buffer length in bytes. */ uint32_t workbuf_size; /* * Amount of work buffer used so far. Verified boot sub-calls use * this to know where the unused work area starts. */ uint32_t workbuf_used; /* Flags; see enum vb2_shared_data_flags */ uint32_t flags; /* * Reason we are in recovery mode this boot (enum vb2_nv_recovery), or * 0 if we aren't. */ uint32_t recovery_reason; /* Firmware slot used last boot (0=A, 1=B) */ uint32_t last_fw_slot; /* Result of last boot (enum vb2_fw_result) */ uint32_t last_fw_result; /* Firmware slot used this boot */ uint32_t fw_slot; /* * Version for this slot (top 16 bits = key, lower 16 bits = firmware). * * TODO: Make this a union to allow getting/setting those versions * separately? */ uint32_t fw_version; /* Version from secdata_firmware (must be <= fw_version to boot). */ uint32_t fw_version_secdata; /* * Status flags for this boot; see enum vb2_shared_data_status. Status * is "what we've done"; flags above are "decisions we've made". */ uint32_t status; /* Offset from start of this struct to GBB header */ uint32_t gbb_offset; /********************************************************************** * Data from kernel verification stage. * * TODO: shouldn't be part of the main struct, since that needlessly * uses more memory during firmware verification. */ /* * Version for the current kernel (top 16 bits = key, lower 16 bits = * kernel preamble). * * TODO: Make this a union to allow getting/setting those versions * separately? */ uint32_t kernel_version; /* Version from secdata_kernel (must be <= kernel_version to boot) */ uint32_t kernel_version_secdata; /********************************************************************** * Temporary variables used during firmware verification. These don't * really need to persist through to the OS, but there's nowhere else * we can put them. */ /* Offset of preamble from start of vblock */ uint32_t vblock_preamble_offset; /* * Offset and size of packed data key in work buffer. Size is 0 if * data key is not stored in the work buffer. */ uint32_t data_key_offset; uint32_t data_key_size; /* * Offset and size of firmware preamble in work buffer. Size is 0 if * preamble is not stored in the work buffer. */ uint32_t preamble_offset; uint32_t preamble_size; /* * Offset and size of hash context in work buffer. Size is 0 if * hash context is not stored in the work buffer. */ uint32_t hash_offset; uint32_t hash_size; /* * Current tag we're hashing * * For new structs, this is the offset of the vb2_signature struct * in the work buffer. * * TODO: rename to hash_sig_offset when vboot1 structs are deprecated. */ uint32_t hash_tag; /* Amount of data we still expect to hash */ uint32_t hash_remaining_size; /********************************************************************** * Temporary variables used during kernel verification. These don't * really need to persist through to the OS, but there's nowhere else * we can put them. * * TODO: make a union with the firmware verification temp variables, * or make both of them workbuf-allocated sub-structs, so that we can * overlap them so kernel variables don't bloat firmware verification * stage memory requirements. */ /* * Vboot1 shared data header. This data should eventually get folded * directly into the kernel portion of this struct. */ struct VbSharedDataHeader *vbsd; /* * Offset and size of packed kernel key in work buffer. Size is 0 if * subkey is not stored in the work buffer. Note that kernel key may * be inside the firmware preamble. */ uint32_t kernel_key_offset; uint32_t kernel_key_size; } __attribute__((packed)); /****************************************************************************/ /* Signature at start of the GBB * Note that if you compile in the signature as is, you are likely to break any * tools that search for the signature. */ #define VB2_GBB_SIGNATURE "$GBB" #define VB2_GBB_SIGNATURE_SIZE 4 #define VB2_GBB_XOR_CHARS "****" /* TODO: can we write a macro to produce this at compile time? */ #define VB2_GBB_XOR_SIGNATURE { 0x0e, 0x6d, 0x68, 0x68 } #define VB2_GBB_HWID_DIGEST_SIZE 32 /* VB2 GBB struct version */ #define VB2_GBB_MAJOR_VER 1 #define VB2_GBB_MINOR_VER 2 /* v1.2 - added fields for sha256 digest of the HWID */ struct vb2_gbb_header { /* Fields present in version 1.1 */ uint8_t signature[VB2_GBB_SIGNATURE_SIZE]; /* VB2_GBB_SIGNATURE */ uint16_t major_version; /* See VB2_GBB_MAJOR_VER */ uint16_t minor_version; /* See VB2_GBB_MINOR_VER */ uint32_t header_size; /* Size of GBB header in bytes */ /* Flags (see enum vb2_gbb_flag in 2gbb_flags.h) */ vb2_gbb_flags_t flags; /* Offsets (from start of header) and sizes (in bytes) of components */ uint32_t hwid_offset; /* HWID */ uint32_t hwid_size; uint32_t rootkey_offset; /* Root key */ uint32_t rootkey_size; uint32_t bmpfv_offset; /* BMP FV; deprecated in current FW */ uint32_t bmpfv_size; uint32_t recovery_key_offset; /* Recovery key */ uint32_t recovery_key_size; /* Added in version 1.2 */ uint8_t hwid_digest[VB2_GBB_HWID_DIGEST_SIZE]; /* SHA-256 of HWID */ /* Pad to match EXPECTED_VB2_GBB_HEADER_SIZE. Initialize to 0. */ uint8_t pad[48]; } __attribute__((packed)); #define EXPECTED_VB2_GBB_HEADER_SIZE 128 /* VB2_GBB_FLAGS_OFFSET exposed in 2constants.h */ _Static_assert(VB2_GBB_FLAGS_OFFSET == offsetof(struct vb2_gbb_header, flags), "VB2_GBB_FLAGS_OFFSET set incorrectly"); /****************************************************************************/ /* * Root key hash for Ryu devices only. Contains the hash of the root key. * This will be embedded somewhere inside the RO part of the firmware, so that * it can verify the GBB contains only the official root key. */ #define RYU_ROOT_KEY_HASH_MAGIC "RtKyHash" #define RYU_ROOT_KEY_HASH_MAGIC_INVCASE "rTkYhASH" #define RYU_ROOT_KEY_HASH_MAGIC_SIZE 8 #define RYU_ROOT_KEY_HASH_VERSION_MAJOR 1 #define RYU_ROOT_KEY_HASH_VERSION_MINOR 0 struct vb2_ryu_root_key_hash { /* Magic number (RYU_ROOT_KEY_HASH_MAGIC) */ uint8_t magic[RYU_ROOT_KEY_HASH_MAGIC_SIZE]; /* Version of this struct */ uint16_t header_version_major; uint16_t header_version_minor; /* * Length of this struct, in bytes, including any variable length data * which follows (there is none, yet). */ uint32_t struct_size; /* * SHA-256 hash digest of the entire root key section from the GBB. If * all 0 bytes, all root keys will be treated as if matching. */ uint8_t root_key_hash_digest[32]; }; #define EXPECTED_VB2_RYU_ROOT_KEY_HASH_SIZE 48 /****************************************************************************/ /* Packed public key data */ struct vb2_packed_key { /* Offset of key data from start of this struct */ uint32_t key_offset; uint32_t reserved0; /* Size of key data in bytes (NOT strength of key in bits) */ uint32_t key_size; uint32_t reserved1; /* Signature algorithm used by the key (enum vb2_crypto_algorithm) */ uint32_t algorithm; uint32_t reserved2; /* Key version */ uint32_t key_version; uint32_t reserved3; /* TODO: when redoing this struct, add a text description of the key */ } __attribute__((packed)); #define EXPECTED_VB2_PACKED_KEY_SIZE 32 /****************************************************************************/ /* Signature data (a secure hash, possibly signed) */ struct vb2_signature { /* Offset of signature data from start of this struct */ uint32_t sig_offset; uint32_t reserved0; /* Size of signature data in bytes */ uint32_t sig_size; uint32_t reserved1; /* Size of the data block which was signed in bytes */ uint32_t data_size; uint32_t reserved2; } __attribute__((packed)); #define EXPECTED_VB2_SIGNATURE_SIZE 24 /****************************************************************************/ #define VB2_KEYBLOCK_MAGIC "CHROMEOS" #define VB2_KEYBLOCK_MAGIC_SIZE 8 #define VB2_KEYBLOCK_VERSION_MAJOR 2 #define VB2_KEYBLOCK_VERSION_MINOR 1 /* * Keyblock flags. * * The following flags set where the key is valid. Not used by firmware * verification; only kernel verification. */ #define VB2_KEYBLOCK_FLAG_DEVELOPER_0 0x1 /* Developer switch off */ #define VB2_KEYBLOCK_FLAG_DEVELOPER_1 0x2 /* Developer switch on */ #define VB2_KEYBLOCK_FLAG_RECOVERY_0 0x4 /* Not recovery mode */ #define VB2_KEYBLOCK_FLAG_RECOVERY_1 0x8 /* Recovery mode */ /* * Keyblock, containing the public key used to sign some other chunk of data. * * This should be followed by: * 1) The data_key key data, pointed to by data_key.key_offset. * 2) The checksum data for (vb2_keyblock + data_key data), pointed to * by keyblock_checksum.sig_offset. * 3) The signature data for (vb2_keyblock + data_key data), pointed to * by keyblock_signature.sig_offset. */ struct vb2_keyblock { /* Magic number */ uint8_t magic[VB2_KEYBLOCK_MAGIC_SIZE]; /* Version of this header format */ uint32_t header_version_major; uint32_t header_version_minor; /* * Length of this entire keyblock, including keys, signatures, and * padding, in bytes */ uint32_t keyblock_size; uint32_t reserved0; /* * Signature for this keyblock (header + data pointed to by data_key) * For use with signed data keys */ struct vb2_signature keyblock_signature; /* * SHA-512 hash for this keyblock (header + data pointed to by * data_key) For use with unsigned data keys. * * Only supported for kernel keyblocks, not firmware keyblocks. */ struct vb2_signature keyblock_hash; /* Flags for key (VB2_KEYBLOCK_FLAG_*) */ uint32_t keyblock_flags; uint32_t reserved1; /* Key to verify the chunk of data */ struct vb2_packed_key data_key; } __attribute__((packed)); #define EXPECTED_VB2_KEYBLOCK_SIZE 112 /****************************************************************************/ /* * Rollback protection currently uses a 32-bit value comprised of the bottom 16 * bits of the (firmware or kernel) preamble version and the bottom 16 bits of * the key version. So each of those versions is effectively limited to 16 * bits even though they get stored in 32-bit fields. */ #define VB2_MAX_KEY_VERSION 0xffff #define VB2_MAX_PREAMBLE_VERSION 0xffff /****************************************************************************/ /* Firmware preamble header */ #define VB2_FIRMWARE_PREAMBLE_HEADER_VERSION_MAJOR 2 #define VB2_FIRMWARE_PREAMBLE_HEADER_VERSION_MINOR 1 /* Flags for vb2_fw_preamble.flags */ /* Use RO-normal firmware (deprecated; do not use) */ #define VB2_FIRMWARE_PREAMBLE_USE_RO_NORMAL 0x00000001 /* Do not allow use of any hardware crypto accelerators. */ #define VB2_FIRMWARE_PREAMBLE_DISALLOW_HWCRYPTO 0x00000002 /* Premable block for rewritable firmware, vboot1 version 2.1. * * The firmware preamble header 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 (header + kernel_subkey data + body signature * data), pointed to by preamble_signature.sig_offset. */ struct vb2_fw_preamble { /* * Size of this preamble, including keys, signatures, and padding, in * bytes */ uint32_t preamble_size; uint32_t reserved0; /* * Signature for this preamble (header + kernel subkey + body * signature) */ struct vb2_signature preamble_signature; /* Version of this header format */ uint32_t header_version_major; uint32_t header_version_minor; /* Firmware version */ uint32_t firmware_version; uint32_t reserved1; /* Key to verify kernel keyblock */ struct vb2_packed_key kernel_subkey; /* Signature for the firmware body */ struct vb2_signature body_signature; /* * Fields added in header version 2.1. You must verify the header * version before reading these fields! */ /* * Flags; see VB2_FIRMWARE_PREAMBLE_*. Readers should return 0 for * header version < 2.1. */ uint32_t flags; } __attribute__((packed)); #define EXPECTED_VB2_FW_PREAMBLE_SIZE 108 _Static_assert(EXPECTED_VB2_FW_PREAMBLE_SIZE == sizeof(struct vb2_fw_preamble), "EXPECTED_VB2_FW_PREAMBLE_SIZE incorrect"); /****************************************************************************/ /* Kernel preamble header */ #define VB2_KERNEL_PREAMBLE_HEADER_VERSION_MAJOR 2 #define VB2_KERNEL_PREAMBLE_HEADER_VERSION_MINOR 2 /* Flags for vb2_kernel_preamble.flags */ /* Kernel image type = bits 1:0 */ #define VB2_KERNEL_PREAMBLE_KERNEL_TYPE_MASK 0x00000003 #define VB2_KERNEL_PREAMBLE_KERNEL_TYPE_CROS 0 #define VB2_KERNEL_PREAMBLE_KERNEL_TYPE_BOOTIMG 1 #define VB2_KERNEL_PREAMBLE_KERNEL_TYPE_MULTIBOOT 2 /* Kernel type 3 is reserved for future use */ /* * Preamble block for kernel, version 2.2 * * This should be followed by: * 1) The signature data for the kernel body, pointed to by * body_signature.sig_offset. * 2) The signature data for (vb2_kernel_preamble + body signature data), * pointed to by preamble_signature.sig_offset. * 3) The 16-bit vmlinuz header, which is used for reconstruction of * vmlinuz image. */ struct vb2_kernel_preamble { /* * Size of this preamble, including keys, signatures, vmlinuz header, * and padding, in bytes */ uint32_t preamble_size; uint32_t reserved0; /* Signature for this preamble (header + body signature) */ struct vb2_signature preamble_signature; /* Version of this header format */ uint32_t header_version_major; uint32_t header_version_minor; /* Kernel version */ uint32_t kernel_version; uint32_t reserved1; /* Load address for kernel body */ uint64_t body_load_address; /* TODO (vboot 2.1): we never used that */ /* Address of bootloader, after body is loaded at body_load_address */ uint64_t bootloader_address; /* TODO (vboot 2.1): should be a 32-bit offset */ /* Size of bootloader in bytes */ uint32_t bootloader_size; uint32_t reserved2; /* Signature for the kernel body */ struct vb2_signature body_signature; /* * TODO (vboot 2.1): fields for kernel offset and size. Right now the * size is implicitly the same as the size of data signed by the body * signature, and the offset is implicitly at the end of the preamble. * But that forces us to pad the preamble to 64KB rather than just * having a tiny preamble and an offset field. */ /* * Fields added in header version 2.1. You must verify the header * version before reading these fields! */ /* * Address of 16-bit header for vmlinuz reassembly. Readers should * return 0 for header version < 2.1. */ uint64_t vmlinuz_header_address; /* Size of 16-bit header for vmlinuz in bytes. Readers should return 0 for header version < 2.1 */ uint32_t vmlinuz_header_size; uint32_t reserved3; /* * Fields added in header version 2.2. You must verify the header * version before reading these fields! */ /* * Flags; see VB2_KERNEL_PREAMBLE_*. Readers should return 0 for * header version < 2.2. Flags field is currently defined as: * [31:2] - Reserved (for future use) * [1:0] - Kernel image type (0b00 - CrOS, * 0b01 - bootimg, * 0b10 - multiboot) */ uint32_t flags; } __attribute__((packed)); #define EXPECTED_VB2_KERNEL_PREAMBLE_2_0_SIZE 96 #define EXPECTED_VB2_KERNEL_PREAMBLE_2_1_SIZE 112 #define EXPECTED_VB2_KERNEL_PREAMBLE_2_2_SIZE 116 _Static_assert(EXPECTED_VB2_KERNEL_PREAMBLE_2_0_SIZE == offsetof(struct vb2_kernel_preamble, vmlinuz_header_address), "EXPECTED_VB2_KERNEL_PREAMBLE_2_0_SIZE incorrect"); _Static_assert(EXPECTED_VB2_KERNEL_PREAMBLE_2_1_SIZE == offsetof(struct vb2_kernel_preamble, flags), "EXPECTED_VB2_KERNEL_PREAMBLE_2_1_SIZE incorrect"); _Static_assert(EXPECTED_VB2_KERNEL_PREAMBLE_2_2_SIZE == sizeof(struct vb2_kernel_preamble), "EXPECTED_VB2_KERNEL_PREAMBLE_2_2_SIZE incorrect"); #endif /* VBOOT_REFERENCE_2STRUCT_H_ */