CryptoEngine.h - platform/external/tpm2 - Gitiles

 // This file was extracted from the TCG Published
 // Trusted Platform Module Library
 // Part 4: Supporting Routines
 // Family "2.0"
 // Level 00 Revision 01.16
 // October 30, 2014

 #ifndef _CRYPT_PRI_H
 #define _CRYPT_PRI_H
 #include     <stddef.h>
 #include     "TpmBuildSwitches.h"
 #include     "BaseTypes.h"
 #include     "TpmError.h"
 #include     "swap.h"
 #include     "Implementation.h"
 #include     "TPM_Types.h"
 //#include     "TPMB.h"
 #include     "bool.h"
 #include     "Platform.h"
 #ifndef NULL
 #define NULL     0
 #endif
 typedef UINT16 NUMBYTES;          // When a size is a number of bytes
 typedef UINT32 NUMDIGITS;         // When a size is a number of "digits"
 //        General Purpose Macros
 //
 #ifndef MAX
 #   define MAX(a, b) ((a) > (b) ? (a) : b)
 #endif
 //
 //     This is the definition of a bit array with one bit per algorithm
 //
 typedef BYTE         ALGORITHM_VECTOR[(ALG_LAST_VALUE + 7) / 8];
 //
 //
 //        Self-test
 //
 //     This structure is used to contain self-test tracking information for the crypto engine. Each of the major
 //     modules is given a 32-bit value in which it may maintain its own self test information. The convention for
 //     this state is that when all of the bits in this structure are 0, all functions need to be tested.
 //
 typedef struct {
    UINT32       rng;
    UINT32       hash;
    UINT32       sym;
 #ifdef TPM_ALG_RSA
    UINT32       rsa;
 #endif
 #ifdef TPM_ALG_ECC
    UINT32       ecc;
 #endif
 } CRYPTO_SELF_TEST_STATE;
 //
 //
 //        Hash-related Structures
 //
 typedef struct {
    const TPM_ALG_ID              alg;
    const NUMBYTES                digestSize;
    const NUMBYTES                blockSize;
    const NUMBYTES                derSize;
    const BYTE                    der[20];
 } HASH_INFO;
 //
 //     This value will change with each implementation. The value of 16 is used to account for any slop in the
 //     context values. The overall size needs to be as large as any of the hash contexts. The structure needs to
 //     start on an alignment boundary and be an even multiple of the alignment
 //
 #define ALIGNED_SIZE(x, b) ((((x) + (b) - 1) / (b)) * (b))
 #define MAX_HASH_STATE_SIZE ((2 * MAX_HASH_BLOCK_SIZE) + 16)
 #define MAX_HASH_STATE_SIZE_ALIGNED                                                              \
                    ALIGNED_SIZE(MAX_HASH_STATE_SIZE, CRYPTO_ALIGNMENT)
 //
 //     This is an byte array that will hold any of the hash contexts.
 //
 typedef CRYPTO_ALIGNED BYTE ALIGNED_HASH_STATE[MAX_HASH_STATE_SIZE_ALIGNED];
 //
 //     Macro to align an address to the next higher size
 //
 #define AlignPointer(address, align)                                                             \
   ((((intptr_t)&(address)) + (align - 1)) & ~(align - 1))
 //
 //     Macro to test alignment
 //
 #define IsAddressAligned(address, align)                                                         \
                    (((intptr_t)(address) & (align - 1)) == 0)
 //
 //     This is the structure that is used for passing a context into the hashing functions. It should be the same
 //     size as the function context used within the hashing functions. This is checked when the hash function is
 //     initialized. This version uses a new layout for the contexts and a different definition. The state buffer is an
 //     array of HASH_UNIT values so that a decent compiler will put the structure on a HASH_UNIT boundary.
 //     If the structure is not properly aligned, the code that manipulates the structure will copy to a properly
 //     aligned structure before it is used and copy the result back. This just makes things slower.
 //
 typedef struct _HASH_STATE
 {
    ALIGNED_HASH_STATE       state;
    TPM_ALG_ID               hashAlg;
 } CPRI_HASH_STATE, *PCPRI_HASH_STATE;
 extern const HASH_INFO   g_hashData[HASH_COUNT + 1];
 //
 //     This is for the external hash state. This implementation assumes that the size of the exported hash state
 //     is no larger than the internal hash state. There is a compile-time check to make sure that this is true.
 //
 typedef struct {
    ALIGNED_HASH_STATE             buffer;
    TPM_ALG_ID                     hashAlg;
 } EXPORT_HASH_STATE;
 typedef enum {
    IMPORT_STATE,             // Converts externally formatted state to internal
    EXPORT_STATE              // Converts internal formatted state to external
 } IMPORT_EXPORT;
 //
 //     Values and structures for the random number generator. These values are defined in this header file so
 //     that the size of the RNG state can be known to TPM.lib. This allows the allocation of some space in NV
 //     memory for the state to be stored on an orderly shutdown. The GET_PUT enum is used by
 //     _cpri__DrbgGetPutState() to indicate the direction of data flow.
 //
 typedef enum {
    GET_STATE,           // Get the state to save to NV
    PUT_STATE            // Restore the state from NV
 } GET_PUT;
 //
 //     The DRBG based on a symmetric block cipher is defined by three values,
 //     a) the key size
 //     b) the block size (the IV size)
 //     c) the symmetric algorithm
 //
 #define DRBG_KEY_SIZE_BITS       MAX_AES_KEY_BITS
 #define DRBG_IV_SIZE_BITS        (MAX_AES_BLOCK_SIZE_BYTES * 8)
 #define DRBG_ALGORITHM           TPM_ALG_AES
 #if ((DRBG_KEY_SIZE_BITS % 8) != 0) || ((DRBG_IV_SIZE_BITS % 8) != 0)
 #error "Key size and IV for DRBG must be even multiples of 8"
 #endif
 #if (DRBG_KEY_SIZE_BITS % DRBG_IV_SIZE_BITS) != 0
 #error "Key size for DRBG must be even multiple of the cypher block size"
 #endif
 typedef UINT32     DRBG_SEED[(DRBG_KEY_SIZE_BITS + DRBG_IV_SIZE_BITS) / 32];
 typedef struct {
    UINT64       reseedCounter;
    UINT32       magic;
    DRBG_SEED    seed; // contains the key and IV for the counter mode DRBG
    UINT32       lastValue[4];   // used when the TPM does continuous self-test
                                 // for FIPS compliance of DRBG
 } DRBG_STATE, *pDRBG_STATE;
 //
 //
 //           Asymmetric Structures and Values
 //
 #ifdef TPM_ALG_ECC
 //
 //
 //          ECC-related Structures
 //
 //      This structure replicates the structure definition in TPM_Types.h. It is duplicated to avoid inclusion of all of
 //      TPM_Types.h This structure is similar to the RSA_KEY structure below. The purpose of these structures
 //      is to reduce the overhead of a function call and to make the code less dependent on key types as much
 //      as possible.
 //
 typedef struct {
    UINT32                        curveID;            // The curve identifier
    TPMS_ECC_POINT               *publicPoint;        // Pointer to the public point
    TPM2B_ECC_PARAMETER          *privateKey;         // Pointer to the private key
 } ECC_KEY;
 #endif // TPM_ALG_ECC
 #ifdef TPM_ALG_RSA
 //
 //
 //          RSA-related Structures
 //
 //      This structure is a succinct representation of the cryptographic components of an RSA key.
 //
 typedef struct {
    UINT32        exponent;                 // The public exponent pointer
    TPM2B        *publicKey;                // Pointer to the public modulus
    TPM2B        *privateKey;               // The private exponent (not a prime)
 } RSA_KEY;
 #endif // TPM_ALG_RSA
 //
 //
 //           Miscelaneous
 //
 #ifdef TPM_ALG_RSA
 #   ifdef TPM_ALG_ECC
 #       if    MAX_RSA_KEY_BYTES > MAX_ECC_KEY_BYTES
 #            define MAX_NUMBER_SIZE          MAX_RSA_KEY_BYTES
 #       else
 #            define MAX_NUMBER_SIZE          MAX_ECC_KEY_BYTES
 #       endif
 #   else // RSA but no ECC
 #       define MAX_NUMBER_SIZE               MAX_RSA_KEY_BYTES
 #   endif
 #elif defined TPM_ALG_ECC
 #   define MAX_NUMBER_SIZE                  MAX_ECC_KEY_BYTES
 #else
 #   error No assymmetric algorithm implemented.
 #endif
 typedef INT16      CRYPT_RESULT;
 #define CRYPT_RESULT_MIN     INT16_MIN
 #define CRYPT_RESULT_MAX     INT16_MAX
 //
 //
 //      <0                                recoverable error
 //
 //      0                                 success
 //      >0                                command specific return value (generally a digest size)
 //
 #define CRYPT_FAIL                  ((CRYPT_RESULT) 1)
 #define CRYPT_SUCCESS               ((CRYPT_RESULT) 0)
 #define CRYPT_NO_RESULT             ((CRYPT_RESULT) -1)
 //
 #define CRYPT_SCHEME        ((CRYPT_RESULT) -2)
 #define CRYPT_PARAMETER     ((CRYPT_RESULT) -3)
 #define CRYPT_UNDERFLOW     ((CRYPT_RESULT) -4)
 #define CRYPT_POINT         ((CRYPT_RESULT) -5)
 #define CRYPT_CANCEL        ((CRYPT_RESULT) -6)
 typedef UINT64              HASH_CONTEXT[MAX_HASH_STATE_SIZE/sizeof(UINT64)];
 #include    "CpriCryptPri_fp.h"
 #ifdef TPM_ALG_ECC
 #   include "CpriDataEcc.h"
 #   include "CpriECC_fp.h"
 #endif
 #include    "MathFunctions_fp.h"
 #include    "CpriRNG_fp.h"
 #include    "CpriHash_fp.h"
 #include    "CpriSym_fp.h"
 #ifdef TPM_ALG_RSA
 #   include    "CpriRSA_fp.h"
 #endif
 #endif // !_CRYPT_PRI_H
	// This file was extracted from the TCG Published
	// Trusted Platform Module Library
	// Part 4: Supporting Routines
	// Family "2.0"
	// Level 00 Revision 01.16
	// October 30, 2014

	#ifndef _CRYPT_PRI_H
	#define _CRYPT_PRI_H
	#include <stddef.h>
	#include "TpmBuildSwitches.h"
	#include "BaseTypes.h"
	#include "TpmError.h"
	#include "swap.h"
	#include "Implementation.h"
	#include "TPM_Types.h"
	//#include "TPMB.h"
	#include "bool.h"
	#include "Platform.h"
	#ifndef NULL
	#define NULL 0
	#endif
	typedef UINT16 NUMBYTES; // When a size is a number of bytes
	typedef UINT32 NUMDIGITS; // When a size is a number of "digits"
	// General Purpose Macros
	//
	#ifndef MAX
	# define MAX(a, b) ((a) > (b) ? (a) : b)
	#endif
	//
	// This is the definition of a bit array with one bit per algorithm
	//
	typedef BYTE ALGORITHM_VECTOR[(ALG_LAST_VALUE + 7) / 8];
	//
	//
	// Self-test
	//
	// This structure is used to contain self-test tracking information for the crypto engine. Each of the major
	// modules is given a 32-bit value in which it may maintain its own self test information. The convention for
	// this state is that when all of the bits in this structure are 0, all functions need to be tested.
	//
	typedef struct {
	UINT32 rng;
	UINT32 hash;
	UINT32 sym;
	#ifdef TPM_ALG_RSA
	UINT32 rsa;
	#endif
	#ifdef TPM_ALG_ECC
	UINT32 ecc;
	#endif
	} CRYPTO_SELF_TEST_STATE;
	//
	//
	// Hash-related Structures
	//
	typedef struct {
	const TPM_ALG_ID alg;
	const NUMBYTES digestSize;
	const NUMBYTES blockSize;
	const NUMBYTES derSize;
	const BYTE der[20];
	} HASH_INFO;
	//
	// This value will change with each implementation. The value of 16 is used to account for any slop in the
	// context values. The overall size needs to be as large as any of the hash contexts. The structure needs to
	// start on an alignment boundary and be an even multiple of the alignment
	//
	#define ALIGNED_SIZE(x, b) ((((x) + (b) - 1) / (b)) * (b))
	#define MAX_HASH_STATE_SIZE ((2 * MAX_HASH_BLOCK_SIZE) + 16)
	#define MAX_HASH_STATE_SIZE_ALIGNED \
	ALIGNED_SIZE(MAX_HASH_STATE_SIZE, CRYPTO_ALIGNMENT)
	//
	// This is an byte array that will hold any of the hash contexts.
	//
	typedef CRYPTO_ALIGNED BYTE ALIGNED_HASH_STATE[MAX_HASH_STATE_SIZE_ALIGNED];
	//
	// Macro to align an address to the next higher size
	//
	#define AlignPointer(address, align) \
	((((intptr_t)&(address)) + (align - 1)) & ~(align - 1))
	//
	// Macro to test alignment
	//
	#define IsAddressAligned(address, align) \
	(((intptr_t)(address) & (align - 1)) == 0)
	//
	// This is the structure that is used for passing a context into the hashing functions. It should be the same
	// size as the function context used within the hashing functions. This is checked when the hash function is
	// initialized. This version uses a new layout for the contexts and a different definition. The state buffer is an
	// array of HASH_UNIT values so that a decent compiler will put the structure on a HASH_UNIT boundary.
	// If the structure is not properly aligned, the code that manipulates the structure will copy to a properly
	// aligned structure before it is used and copy the result back. This just makes things slower.
	//
	typedef struct _HASH_STATE
	{
	ALIGNED_HASH_STATE state;
	TPM_ALG_ID hashAlg;
	} CPRI_HASH_STATE, *PCPRI_HASH_STATE;
	extern const HASH_INFO g_hashData[HASH_COUNT + 1];
	//
	// This is for the external hash state. This implementation assumes that the size of the exported hash state
	// is no larger than the internal hash state. There is a compile-time check to make sure that this is true.
	//
	typedef struct {
	ALIGNED_HASH_STATE buffer;
	TPM_ALG_ID hashAlg;
	} EXPORT_HASH_STATE;
	typedef enum {
	IMPORT_STATE, // Converts externally formatted state to internal
	EXPORT_STATE // Converts internal formatted state to external
	} IMPORT_EXPORT;
	//
	// Values and structures for the random number generator. These values are defined in this header file so
	// that the size of the RNG state can be known to TPM.lib. This allows the allocation of some space in NV
	// memory for the state to be stored on an orderly shutdown. The GET_PUT enum is used by
	// _cpri__DrbgGetPutState() to indicate the direction of data flow.
	//
	typedef enum {
	GET_STATE, // Get the state to save to NV
	PUT_STATE // Restore the state from NV
	} GET_PUT;
	//
	// The DRBG based on a symmetric block cipher is defined by three values,
	// a) the key size
	// b) the block size (the IV size)
	// c) the symmetric algorithm
	//
	#define DRBG_KEY_SIZE_BITS MAX_AES_KEY_BITS
	#define DRBG_IV_SIZE_BITS (MAX_AES_BLOCK_SIZE_BYTES * 8)
	#define DRBG_ALGORITHM TPM_ALG_AES
	#if ((DRBG_KEY_SIZE_BITS % 8) != 0) \|\| ((DRBG_IV_SIZE_BITS % 8) != 0)
	#error "Key size and IV for DRBG must be even multiples of 8"
	#endif
	#if (DRBG_KEY_SIZE_BITS % DRBG_IV_SIZE_BITS) != 0
	#error "Key size for DRBG must be even multiple of the cypher block size"
	#endif
	typedef UINT32 DRBG_SEED[(DRBG_KEY_SIZE_BITS + DRBG_IV_SIZE_BITS) / 32];
	typedef struct {
	UINT64 reseedCounter;
	UINT32 magic;
	DRBG_SEED seed; // contains the key and IV for the counter mode DRBG
	UINT32 lastValue[4]; // used when the TPM does continuous self-test
	// for FIPS compliance of DRBG
	} DRBG_STATE, *pDRBG_STATE;
	//
	//
	// Asymmetric Structures and Values
	//
	#ifdef TPM_ALG_ECC
	//
	//
	// ECC-related Structures
	//
	// This structure replicates the structure definition in TPM_Types.h. It is duplicated to avoid inclusion of all of
	// TPM_Types.h This structure is similar to the RSA_KEY structure below. The purpose of these structures
	// is to reduce the overhead of a function call and to make the code less dependent on key types as much
	// as possible.
	//
	typedef struct {
	UINT32 curveID; // The curve identifier
	TPMS_ECC_POINT *publicPoint; // Pointer to the public point
	TPM2B_ECC_PARAMETER *privateKey; // Pointer to the private key
	} ECC_KEY;
	#endif // TPM_ALG_ECC
	#ifdef TPM_ALG_RSA
	//
	//
	// RSA-related Structures
	//
	// This structure is a succinct representation of the cryptographic components of an RSA key.
	//
	typedef struct {
	UINT32 exponent; // The public exponent pointer
	TPM2B *publicKey; // Pointer to the public modulus
	TPM2B *privateKey; // The private exponent (not a prime)
	} RSA_KEY;
	#endif // TPM_ALG_RSA
	//
	//
	// Miscelaneous
	//
	#ifdef TPM_ALG_RSA
	# ifdef TPM_ALG_ECC
	# if MAX_RSA_KEY_BYTES > MAX_ECC_KEY_BYTES
	# define MAX_NUMBER_SIZE MAX_RSA_KEY_BYTES
	# else
	# define MAX_NUMBER_SIZE MAX_ECC_KEY_BYTES
	# endif
	# else // RSA but no ECC
	# define MAX_NUMBER_SIZE MAX_RSA_KEY_BYTES
	# endif
	#elif defined TPM_ALG_ECC
	# define MAX_NUMBER_SIZE MAX_ECC_KEY_BYTES
	#else
	# error No assymmetric algorithm implemented.
	#endif
	typedef INT16 CRYPT_RESULT;
	#define CRYPT_RESULT_MIN INT16_MIN
	#define CRYPT_RESULT_MAX INT16_MAX
	//
	//
	// <0 recoverable error
	//
	// 0 success
	// >0 command specific return value (generally a digest size)
	//
	#define CRYPT_FAIL ((CRYPT_RESULT) 1)
	#define CRYPT_SUCCESS ((CRYPT_RESULT) 0)
	#define CRYPT_NO_RESULT ((CRYPT_RESULT) -1)
	//
	#define CRYPT_SCHEME ((CRYPT_RESULT) -2)
	#define CRYPT_PARAMETER ((CRYPT_RESULT) -3)
	#define CRYPT_UNDERFLOW ((CRYPT_RESULT) -4)
	#define CRYPT_POINT ((CRYPT_RESULT) -5)
	#define CRYPT_CANCEL ((CRYPT_RESULT) -6)
	typedef UINT64 HASH_CONTEXT[MAX_HASH_STATE_SIZE/sizeof(UINT64)];
	#include "CpriCryptPri_fp.h"
	#ifdef TPM_ALG_ECC
	# include "CpriDataEcc.h"
	# include "CpriECC_fp.h"
	#endif
	#include "MathFunctions_fp.h"
	#include "CpriRNG_fp.h"
	#include "CpriHash_fp.h"
	#include "CpriSym_fp.h"
	#ifdef TPM_ALG_RSA
	# include "CpriRSA_fp.h"
	#endif
	#endif // !_CRYPT_PRI_H