/* Copyright 2018 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. */ #ifndef __CROS_EC_INCLUDE_PINWEAVER_H #define __CROS_EC_INCLUDE_PINWEAVER_H /* This is required before pinweaver_types.h to provide __packed and __aligned * while preserving the ability of pinweaver_types.h to be used in code outside * of src/platform/ec. */ #include #include #ifdef __cplusplus extern "C" { #endif #define PW_STORAGE_VERSION 0 #define BITS_PER_LEVEL_MIN 1 #define BITS_PER_LEVEL_MAX 5 #define HEIGHT_MIN 1 /* This will crash for logk == 0 so that condition must not be allowed when * using this. */ #define HEIGHT_MAX(logk) ((sizeof(struct label_t) * 8) / logk) #define PW_LOG_ENTRY_COUNT 2 /* Persistent information used by this feature. */ struct merkle_tree_t { /* log2(Fan out). */ struct bits_per_level_t bits_per_level; /* Height of the tree or param_l / bits_per_level. */ struct height_t height; /* Root hash of the Merkle tree. */ uint8_t root[PW_HASH_SIZE]; /* Random bits used as part of the key derivation process. */ uint8_t key_derivation_nonce[16]; /* Key used to compute the HMACs of the metadata of the leaves. */ uint8_t PW_ALIGN_TO_WRD hmac_key[32]; /* Key used to encrypt and decrypt the metadata of the leaves. */ uint8_t PW_ALIGN_TO_WRD wrap_key[32]; }; /* Long term flash storage for tree metadata. */ struct PW_PACKED pw_long_term_storage_t { uint16_t storage_version; /* log2(Fan out). */ struct bits_per_level_t bits_per_level; /* Height of the tree or param_l / bits_per_level. */ struct height_t height; /* Random bits used as part of the key derivation process. */ uint8_t key_derivation_nonce[16]; }; struct PW_PACKED pw_log_storage_t { uint16_t storage_version; uint32_t restart_count; struct pw_get_log_entry_t entries[PW_LOG_ENTRY_COUNT]; }; /* Do not remove fields within the same PW_LEAF_MAJOR_VERSION. */ /* Encrypted part of the leaf data. */ struct PW_PACKED PW_ALIGN_TO_BLK leaf_sensitive_data_t { uint8_t low_entropy_secret[PW_SECRET_SIZE]; uint8_t high_entropy_secret[PW_SECRET_SIZE]; uint8_t reset_secret[PW_SECRET_SIZE]; }; /* Represents leaf data in a form that can be exported for storage. */ struct PW_PACKED wrapped_leaf_data_t { /* This is first so that head.leaf_version will be the first field * in the struct to keep the meaning of the struct from becoming * ambiguous across versions. */ struct leaf_header_t head; /* Covers .head, .pub, and .cipher_text. */ uint8_t hmac[PW_HASH_SIZE]; uint8_t iv[PW_WRAP_BLOCK_SIZE]; struct leaf_public_data_t pub; uint8_t cipher_text[sizeof(struct leaf_sensitive_data_t)]; }; /* Represents encrypted leaf data after the lengths and version in the header * have been validated. */ struct imported_leaf_data_t { /* This is first so that head.leaf_version will be the first field * in the struct to keep the meaning of the struct from becoming * ambiguous across versions. */ const struct leaf_header_t *head; /* Covers .head, .pub, and .cipher_text. */ const uint8_t *hmac; const uint8_t *iv; const struct leaf_public_data_t *pub; const uint8_t *cipher_text; const uint8_t (*hashes)[PW_HASH_SIZE]; }; /* The leaf data in a clear text working format. */ struct leaf_data_t { struct leaf_public_data_t pub; struct leaf_sensitive_data_t sec; }; /* Key names for nvmem_vars */ #define PW_TREE_VAR "pwT0" #define PW_LOG_VAR0 "pwL0" /* The maximum key-value pair space allowed for the values of PinWeaver until * the Cr50 NVRAM implementation is updated to use a separate object per * key value pair. */ #define PW_MAX_VAR_USAGE 192 /* Initializes the PinWeaver feature. * * This needs to be called prior to handling any messages. */ void pinweaver_init(void); /* Handler for incoming messages after they have been reconstructed. * * merkle_tree->root needs to be updated with new_root outside of this function. */ int pw_handle_request(struct merkle_tree_t *merkle_tree, struct pw_request_t *request, struct pw_response_t *response); /******************************************************************************/ /* Struct helper functions. */ /* Sets up pointers to the relevant fields inside an wrapped leaf based on the * length fields in the header. These fields should be validated prior to * calling this function. */ void import_leaf(const struct unimported_leaf_data_t *unimported, struct imported_leaf_data_t *imported); /* Calculate how much is needed to add to the size of structs containing * an struct unimported_leaf_data_t because the variable length fields at the * end of the struct are not included by sizeof(). */ #define PW_LEAF_PAYLOAD_SIZE (sizeof(struct wrapped_leaf_data_t) - \ sizeof(struct unimported_leaf_data_t)) /******************************************************************************/ /* Utility functions exported for better test coverage. */ /* Computes the total number of the sibling hashes along a path. */ int get_path_auxiliary_hash_count(const struct merkle_tree_t *merkle_tree); /* Computes the parent hash for an array of child hashes. */ void compute_hash(const uint8_t hashes[][PW_HASH_SIZE], uint16_t num_hashes, struct index_t location, const uint8_t child_hash[PW_HASH_SIZE], uint8_t result[PW_HASH_SIZE]); /* This should only be used in tests. */ void force_restart_count(uint32_t mock_value); /* NV RAM log functions exported for use in test code. */ int store_log_data(const struct pw_log_storage_t *log); int store_merkle_tree(const struct merkle_tree_t *merkle_tree); int log_insert_leaf(struct label_t label, const uint8_t root[PW_HASH_SIZE], const uint8_t hmac[PW_HASH_SIZE]); int log_remove_leaf(struct label_t label, const uint8_t root[PW_HASH_SIZE]); int log_auth(struct label_t label, const uint8_t root[PW_HASH_SIZE], int code, struct pw_timestamp_t timestamp); #ifdef __cplusplus } #endif #endif /* __CROS_EC_INCLUDE_PINWEAVER_H */