e_padlock.c 20.7 KB
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/* 
 * Support for VIA PadLock Advanced Cryptography Engine (ACE)
 * Written by Michal Ludvig <michal@logix.cz>
 *            http://www.logix.cz/michal
 *
 * Big thanks to Andy Polyakov for a help with optimization, 
 * assembler fixes, port to MS Windows and a lot of other 
 * valuable work on this engine!
 */

/* ====================================================================
 * Copyright (c) 1999-2001 The OpenSSL Project.  All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in
 *    the documentation and/or other materials provided with the
 *    distribution.
 *
 * 3. All advertising materials mentioning features or use of this
 *    software must display the following acknowledgment:
 *    "This product includes software developed by the OpenSSL Project
 *    for use in the OpenSSL Toolkit. (http://www.OpenSSL.org/)"
 *
 * 4. The names "OpenSSL Toolkit" and "OpenSSL Project" must not be used to
 *    endorse or promote products derived from this software without
 *    prior written permission. For written permission, please contact
 *    licensing@OpenSSL.org.
 *
 * 5. Products derived from this software may not be called "OpenSSL"
 *    nor may "OpenSSL" appear in their names without prior written
 *    permission of the OpenSSL Project.
 *
 * 6. Redistributions of any form whatsoever must retain the following
 *    acknowledgment:
 *    "This product includes software developed by the OpenSSL Project
 *    for use in the OpenSSL Toolkit (http://www.OpenSSL.org/)"
 *
 * THIS SOFTWARE IS PROVIDED BY THE OpenSSL PROJECT ``AS IS'' AND ANY
 * EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE OpenSSL PROJECT OR
 * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
 * OF THE POSSIBILITY OF SUCH DAMAGE.
 * ====================================================================
 *
 * This product includes cryptographic software written by Eric Young
 * (eay@cryptsoft.com).  This product includes software written by Tim
 * Hudson (tjh@cryptsoft.com).
 *
 */


#include <stdio.h>
#include <string.h>

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#include <openssl/opensslconf.h>
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#include <openssl/crypto.h>
#include <openssl/dso.h>
#include <openssl/engine.h>
#include <openssl/evp.h>
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#ifndef OPENSSL_NO_AES
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#include <openssl/aes.h>
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#endif
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#include <openssl/rand.h>
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#include <openssl/err.h>
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#include <openssl/modes.h>
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#ifndef OPENSSL_NO_HW
#ifndef OPENSSL_NO_HW_PADLOCK

/* Attempt to have a single source for both 0.9.7 and 0.9.8 :-) */
#if (OPENSSL_VERSION_NUMBER >= 0x00908000L)
#  ifndef OPENSSL_NO_DYNAMIC_ENGINE
#    define DYNAMIC_ENGINE
#  endif
#elif (OPENSSL_VERSION_NUMBER >= 0x00907000L)
#  ifdef ENGINE_DYNAMIC_SUPPORT
#    define DYNAMIC_ENGINE
#  endif
#else
#  error "Only OpenSSL >= 0.9.7 is supported"
#endif

/* VIA PadLock AES is available *ONLY* on some x86 CPUs.
   Not only that it doesn't exist elsewhere, but it
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   even can't be compiled on other platforms! */
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#undef COMPILE_HW_PADLOCK
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#if !defined(I386_ONLY) && !defined(OPENSSL_NO_ASM)
# if	defined(__i386__) || defined(__i386) || \
	defined(__x86_64__) || defined(__x86_64) || \
	defined(_M_IX86) || defined(_M_AMD64) || defined(_M_X64) || \
	defined(__INTEL__)
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#  define COMPILE_HW_PADLOCK
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#  ifdef OPENSSL_NO_DYNAMIC_ENGINE
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static ENGINE *ENGINE_padlock (void);
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#  endif
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# endif
#endif

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#ifdef OPENSSL_NO_DYNAMIC_ENGINE

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void ENGINE_load_padlock (void)
{
/* On non-x86 CPUs it just returns. */
#ifdef COMPILE_HW_PADLOCK
	ENGINE *toadd = ENGINE_padlock ();
	if (!toadd) return;
	ENGINE_add (toadd);
	ENGINE_free (toadd);
	ERR_clear_error ();
#endif
}

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#endif

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#ifdef COMPILE_HW_PADLOCK
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/* Function for ENGINE detection and control */
static int padlock_available(void);
static int padlock_init(ENGINE *e);

/* RNG Stuff */
static RAND_METHOD padlock_rand;

/* Cipher Stuff */
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#ifndef OPENSSL_NO_AES
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static int padlock_ciphers(ENGINE *e, const EVP_CIPHER **cipher, const int **nids, int nid);
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#endif
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/* Engine names */
static const char *padlock_id = "padlock";
static char padlock_name[100];

/* Available features */
static int padlock_use_ace = 0;	/* Advanced Cryptography Engine */
static int padlock_use_rng = 0;	/* Random Number Generator */

/* ===== Engine "management" functions ===== */

/* Prepare the ENGINE structure for registration */
static int
padlock_bind_helper(ENGINE *e)
{
	/* Check available features */
	padlock_available();

#if 1	/* disable RNG for now, see commentary in vicinity of RNG code */
	padlock_use_rng=0;
#endif

	/* Generate a nice engine name with available features */
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	BIO_snprintf(padlock_name, sizeof(padlock_name),
		"VIA PadLock (%s, %s)", 
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		 padlock_use_rng ? "RNG" : "no-RNG",
		 padlock_use_ace ? "ACE" : "no-ACE");

	/* Register everything or return with an error */ 
	if (!ENGINE_set_id(e, padlock_id) ||
	    !ENGINE_set_name(e, padlock_name) ||

	    !ENGINE_set_init_function(e, padlock_init) ||
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#ifndef OPENSSL_NO_AES
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	    (padlock_use_ace && !ENGINE_set_ciphers (e, padlock_ciphers)) ||
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#endif
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	    (padlock_use_rng && !ENGINE_set_RAND (e, &padlock_rand))) {
		return 0;
	}

	/* Everything looks good */
	return 1;
}

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#ifdef OPENSSL_NO_DYNAMIC_ENGINE
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/* Constructor */
static ENGINE *
ENGINE_padlock(void)
{
	ENGINE *eng = ENGINE_new();

	if (!eng) {
		return NULL;
	}

	if (!padlock_bind_helper(eng)) {
		ENGINE_free(eng);
		return NULL;
	}

	return eng;
}
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#endif
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/* Check availability of the engine */
static int
padlock_init(ENGINE *e)
{
	return (padlock_use_rng || padlock_use_ace);
}

/* This stuff is needed if this ENGINE is being compiled into a self-contained
 * shared-library.
 */
#ifdef DYNAMIC_ENGINE
static int
padlock_bind_fn(ENGINE *e, const char *id)
{
	if (id && (strcmp(id, padlock_id) != 0)) {
		return 0;
	}

	if (!padlock_bind_helper(e))  {
		return 0;
	}

	return 1;
}

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IMPLEMENT_DYNAMIC_CHECK_FN()
IMPLEMENT_DYNAMIC_BIND_FN (padlock_bind_fn)
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#endif /* DYNAMIC_ENGINE */

/* ===== Here comes the "real" engine ===== */

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#ifndef OPENSSL_NO_AES
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/* Some AES-related constants */
#define AES_BLOCK_SIZE		16
#define AES_KEY_SIZE_128	16
#define AES_KEY_SIZE_192	24
#define AES_KEY_SIZE_256	32

/* Here we store the status information relevant to the 
   current context. */
/* BIG FAT WARNING:
 * 	Inline assembler in PADLOCK_XCRYPT_ASM()
 * 	depends on the order of items in this structure.
 * 	Don't blindly modify, reorder, etc!
 */
struct padlock_cipher_data
{
	unsigned char iv[AES_BLOCK_SIZE];	/* Initialization vector */
	union {	unsigned int pad[4];
		struct {
			int rounds:4;
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			int dgst:1;	/* n/a in C3 */
			int align:1;	/* n/a in C3 */
			int ciphr:1;	/* n/a in C3 */
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			unsigned int keygen:1;
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			int interm:1;
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			unsigned int encdec:1;
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			int ksize:2;
		} b;
	} cword;		/* Control word */
	AES_KEY ks;		/* Encryption key */
};
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#endif

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/* Interface to assembler module */
unsigned int padlock_capability();
void padlock_key_bswap(AES_KEY *key);
void padlock_verify_context(struct padlock_cipher_data *ctx);
void padlock_reload_key();
void padlock_aes_block(void *out, const void *inp,
		struct padlock_cipher_data *ctx);
int  padlock_ecb_encrypt(void *out, const void *inp,
		struct padlock_cipher_data *ctx, size_t len);
int  padlock_cbc_encrypt(void *out, const void *inp,
		struct padlock_cipher_data *ctx, size_t len);
int  padlock_cfb_encrypt(void *out, const void *inp,
		struct padlock_cipher_data *ctx, size_t len);
int  padlock_ofb_encrypt(void *out, const void *inp,
		struct padlock_cipher_data *ctx, size_t len);
int  padlock_ctr32_encrypt(void *out, const void *inp,
		struct padlock_cipher_data *ctx, size_t len);
int  padlock_xstore(void *out,int edx);
void padlock_sha1_oneshot(void *ctx,const void *inp,size_t len);
void padlock_sha1(void *ctx,const void *inp,size_t len);
void padlock_sha256_oneshot(void *ctx,const void *inp,size_t len);
void padlock_sha256(void *ctx,const void *inp,size_t len);
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/* Load supported features of the CPU to see if
   the PadLock is available. */
static int
padlock_available(void)
{
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	unsigned int edx = padlock_capability();
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	/* Fill up some flags */
	padlock_use_ace = ((edx & (0x3<<6)) == (0x3<<6));
	padlock_use_rng = ((edx & (0x3<<2)) == (0x3<<2));

	return padlock_use_ace + padlock_use_rng;
}

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/* ===== AES encryption/decryption ===== */
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#ifndef OPENSSL_NO_AES
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#if defined(NID_aes_128_cfb128) && ! defined (NID_aes_128_cfb)
#define NID_aes_128_cfb	NID_aes_128_cfb128
#endif

#if defined(NID_aes_128_ofb128) && ! defined (NID_aes_128_ofb)
#define NID_aes_128_ofb	NID_aes_128_ofb128
#endif

#if defined(NID_aes_192_cfb128) && ! defined (NID_aes_192_cfb)
#define NID_aes_192_cfb	NID_aes_192_cfb128
#endif

#if defined(NID_aes_192_ofb128) && ! defined (NID_aes_192_ofb)
#define NID_aes_192_ofb	NID_aes_192_ofb128
#endif

#if defined(NID_aes_256_cfb128) && ! defined (NID_aes_256_cfb)
#define NID_aes_256_cfb	NID_aes_256_cfb128
#endif

#if defined(NID_aes_256_ofb128) && ! defined (NID_aes_256_ofb)
#define NID_aes_256_ofb	NID_aes_256_ofb128
#endif

/* List of supported ciphers. */
static int padlock_cipher_nids[] = {
	NID_aes_128_ecb,
	NID_aes_128_cbc,
	NID_aes_128_cfb,
	NID_aes_128_ofb,
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	NID_aes_128_ctr,
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	NID_aes_192_ecb,
	NID_aes_192_cbc,
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	NID_aes_192_cfb,
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	NID_aes_192_ofb,
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	NID_aes_192_ctr,
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	NID_aes_256_ecb,
	NID_aes_256_cbc,
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	NID_aes_256_cfb,
	NID_aes_256_ofb,
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	NID_aes_256_ctr
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};
static int padlock_cipher_nids_num = (sizeof(padlock_cipher_nids)/
				      sizeof(padlock_cipher_nids[0]));

/* Function prototypes ... */
static int padlock_aes_init_key(EVP_CIPHER_CTX *ctx, const unsigned char *key,
				const unsigned char *iv, int enc);

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#define NEAREST_ALIGNED(ptr) ( (unsigned char *)(ptr) +		\
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	( (0x10 - ((size_t)(ptr) & 0x0F)) & 0x0F )	)
#define ALIGNED_CIPHER_DATA(ctx) ((struct padlock_cipher_data *)\
	NEAREST_ALIGNED(ctx->cipher_data))
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static int
padlock_ecb_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out_arg,
		   const unsigned char *in_arg, size_t nbytes)
{
	return padlock_ecb_encrypt(out_arg,in_arg,
			ALIGNED_CIPHER_DATA(ctx),nbytes);
}
static int
padlock_cbc_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out_arg,
		   const unsigned char *in_arg, size_t nbytes)
{
	struct padlock_cipher_data *cdata = ALIGNED_CIPHER_DATA(ctx);
	int ret;

	memcpy(cdata->iv, ctx->iv, AES_BLOCK_SIZE);
	if ((ret = padlock_cbc_encrypt(out_arg,in_arg,cdata,nbytes)))
		memcpy(ctx->iv, cdata->iv, AES_BLOCK_SIZE);
	return ret;
}

static int
padlock_cfb_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out_arg,
		   const unsigned char *in_arg, size_t nbytes)
{
	struct padlock_cipher_data *cdata = ALIGNED_CIPHER_DATA(ctx);
	size_t chunk;

	if ((chunk = ctx->num)) { /* borrow chunk variable */
		unsigned char *ivp=ctx->iv;

		if (chunk >= AES_BLOCK_SIZE)
			return 0; /* bogus value */

		if (ctx->encrypt)
			while (chunk<AES_BLOCK_SIZE && nbytes!=0) {
				ivp[chunk] = *(out_arg++) = *(in_arg++) ^ ivp[chunk];
				chunk++, nbytes--;
			}
		else	while (chunk<AES_BLOCK_SIZE && nbytes!=0) {
				unsigned char c = *(in_arg++);
				*(out_arg++) = c ^ ivp[chunk];
				ivp[chunk++] = c, nbytes--;
			}

		ctx->num = chunk%AES_BLOCK_SIZE;
	}

	if (nbytes == 0)
		return 1;

	memcpy (cdata->iv, ctx->iv, AES_BLOCK_SIZE);

	if ((chunk = nbytes & ~(AES_BLOCK_SIZE-1))) {
		if (!padlock_cfb_encrypt(out_arg,in_arg,cdata,chunk))
			return 0;
		nbytes  -= chunk;
	}

	if (nbytes) {
		unsigned char *ivp = cdata->iv;

		out_arg += chunk;
		in_arg  += chunk;
		ctx->num = nbytes;
		if (cdata->cword.b.encdec) {
			cdata->cword.b.encdec=0;
			padlock_reload_key();
			padlock_aes_block(ivp,ivp,cdata);
			cdata->cword.b.encdec=1;
			padlock_reload_key();
			while(nbytes) {
				unsigned char c = *(in_arg++);
				*(out_arg++) = c ^ *ivp;
				*(ivp++) = c, nbytes--;
			}
		}
		else {	padlock_reload_key();
			padlock_aes_block(ivp,ivp,cdata);
			padlock_reload_key();
			while (nbytes) {
				*ivp = *(out_arg++) = *(in_arg++) ^ *ivp;
				ivp++, nbytes--;
			}
		}
	}

	memcpy(ctx->iv, cdata->iv, AES_BLOCK_SIZE);

	return 1;
}

static int
padlock_ofb_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out_arg,
		   const unsigned char *in_arg, size_t nbytes)
{
	struct padlock_cipher_data *cdata = ALIGNED_CIPHER_DATA(ctx);
	size_t chunk;

	/* ctx->num is maintained in byte-oriented modes,
	   such as CFB and OFB... */
	if ((chunk = ctx->num)) { /* borrow chunk variable */
		unsigned char *ivp=ctx->iv;

		if (chunk >= AES_BLOCK_SIZE)
			return 0; /* bogus value */

		while (chunk<AES_BLOCK_SIZE && nbytes!=0) {
			*(out_arg++) = *(in_arg++) ^ ivp[chunk];
			chunk++, nbytes--;
		}

		ctx->num = chunk%AES_BLOCK_SIZE;
	}

	if (nbytes == 0)
		return 1;

	memcpy(cdata->iv, ctx->iv, AES_BLOCK_SIZE);

	if ((chunk = nbytes & ~(AES_BLOCK_SIZE-1))) {
		if (!padlock_ofb_encrypt(out_arg,in_arg,cdata,chunk))
			return 0;
		nbytes -= chunk;
	}

	if (nbytes) {
		unsigned char *ivp = cdata->iv;

		out_arg += chunk;
		in_arg  += chunk;
		ctx->num = nbytes;
		padlock_reload_key();	/* empirically found */
		padlock_aes_block(ivp,ivp,cdata);
		padlock_reload_key();	/* empirically found */
		while (nbytes) {
			*(out_arg++) = *(in_arg++) ^ *ivp;
			ivp++, nbytes--;
		}
	}

	memcpy(ctx->iv, cdata->iv, AES_BLOCK_SIZE);

	return 1;
}

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static void padlock_ctr32_encrypt_glue(const unsigned char *in,
			unsigned char *out, size_t blocks,
			struct padlock_cipher_data *ctx,
			const unsigned char *ivec)
{
	memcpy(ctx->iv,ivec,AES_BLOCK_SIZE);
	padlock_ctr32_encrypt(out,in,ctx,AES_BLOCK_SIZE*blocks);
}

static int
padlock_ctr_cipher(EVP_CIPHER_CTX *ctx, unsigned char *out_arg,
		   const unsigned char *in_arg, size_t nbytes)
{
	struct padlock_cipher_data *cdata = ALIGNED_CIPHER_DATA(ctx);
	unsigned int num = ctx->num;

	CRYPTO_ctr128_encrypt_ctr32(in_arg,out_arg,nbytes,
			cdata,ctx->iv,ctx->buf,&num,
			(ctr128_f)padlock_ctr32_encrypt_glue);

	ctx->num = (size_t)num;
	return 1;
}

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#define EVP_CIPHER_block_size_ECB	AES_BLOCK_SIZE
#define EVP_CIPHER_block_size_CBC	AES_BLOCK_SIZE
#define EVP_CIPHER_block_size_OFB	1
#define EVP_CIPHER_block_size_CFB	1
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#define EVP_CIPHER_block_size_CTR	1
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/* Declaring so many ciphers by hand would be a pain.
   Instead introduce a bit of preprocessor magic :-) */
#define	DECLARE_AES_EVP(ksize,lmode,umode)	\
static const EVP_CIPHER padlock_aes_##ksize##_##lmode = {	\
	NID_aes_##ksize##_##lmode,		\
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	EVP_CIPHER_block_size_##umode,	\
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	AES_KEY_SIZE_##ksize,		\
	AES_BLOCK_SIZE,			\
	0 | EVP_CIPH_##umode##_MODE,	\
	padlock_aes_init_key,		\
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	padlock_##lmode##_cipher,	\
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	NULL,				\
	sizeof(struct padlock_cipher_data) + 16,	\
	EVP_CIPHER_set_asn1_iv,		\
	EVP_CIPHER_get_asn1_iv,		\
	NULL,				\
	NULL				\
}

DECLARE_AES_EVP(128,ecb,ECB);
DECLARE_AES_EVP(128,cbc,CBC);
DECLARE_AES_EVP(128,cfb,CFB);
DECLARE_AES_EVP(128,ofb,OFB);
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DECLARE_AES_EVP(128,ctr,CTR);
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DECLARE_AES_EVP(192,ecb,ECB);
DECLARE_AES_EVP(192,cbc,CBC);
DECLARE_AES_EVP(192,cfb,CFB);
DECLARE_AES_EVP(192,ofb,OFB);
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DECLARE_AES_EVP(192,ctr,CTR);
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DECLARE_AES_EVP(256,ecb,ECB);
DECLARE_AES_EVP(256,cbc,CBC);
DECLARE_AES_EVP(256,cfb,CFB);
DECLARE_AES_EVP(256,ofb,OFB);
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DECLARE_AES_EVP(256,ctr,CTR);
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static int
padlock_ciphers (ENGINE *e, const EVP_CIPHER **cipher, const int **nids, int nid)
{
	/* No specific cipher => return a list of supported nids ... */
	if (!cipher) {
		*nids = padlock_cipher_nids;
		return padlock_cipher_nids_num;
	}

	/* ... or the requested "cipher" otherwise */
	switch (nid) {
	  case NID_aes_128_ecb:
	    *cipher = &padlock_aes_128_ecb;
	    break;
	  case NID_aes_128_cbc:
	    *cipher = &padlock_aes_128_cbc;
	    break;
	  case NID_aes_128_cfb:
	    *cipher = &padlock_aes_128_cfb;
	    break;
	  case NID_aes_128_ofb:
	    *cipher = &padlock_aes_128_ofb;
	    break;
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	  case NID_aes_128_ctr:
	    *cipher = &padlock_aes_128_ctr;
	    break;
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	  case NID_aes_192_ecb:
	    *cipher = &padlock_aes_192_ecb;
	    break;
	  case NID_aes_192_cbc:
	    *cipher = &padlock_aes_192_cbc;
	    break;
	  case NID_aes_192_cfb:
	    *cipher = &padlock_aes_192_cfb;
	    break;
	  case NID_aes_192_ofb:
	    *cipher = &padlock_aes_192_ofb;
	    break;
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	  case NID_aes_192_ctr:
	    *cipher = &padlock_aes_192_ctr;
	    break;
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	  case NID_aes_256_ecb:
	    *cipher = &padlock_aes_256_ecb;
	    break;
	  case NID_aes_256_cbc:
	    *cipher = &padlock_aes_256_cbc;
	    break;
	  case NID_aes_256_cfb:
	    *cipher = &padlock_aes_256_cfb;
	    break;
	  case NID_aes_256_ofb:
	    *cipher = &padlock_aes_256_ofb;
	    break;
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	  case NID_aes_256_ctr:
	    *cipher = &padlock_aes_256_ctr;
	    break;
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	  default:
	    /* Sorry, we don't support this NID */
	    *cipher = NULL;
	    return 0;
	}

	return 1;
}

/* Prepare the encryption key for PadLock usage */
static int
padlock_aes_init_key (EVP_CIPHER_CTX *ctx, const unsigned char *key,
		      const unsigned char *iv, int enc)
{
	struct padlock_cipher_data *cdata;
	int key_len = EVP_CIPHER_CTX_key_length(ctx) * 8;
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	unsigned long mode = EVP_CIPHER_CTX_mode(ctx);
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	if (key==NULL) return 0;	/* ERROR */

	cdata = ALIGNED_CIPHER_DATA(ctx);
	memset(cdata, 0, sizeof(struct padlock_cipher_data));

	/* Prepare Control word. */
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	if (mode == EVP_CIPH_OFB_MODE || mode == EVP_CIPH_CTR_MODE)
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		cdata->cword.b.encdec = 0;
	else
		cdata->cword.b.encdec = (ctx->encrypt == 0);
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	cdata->cword.b.rounds = 10 + (key_len - 128) / 32;
	cdata->cword.b.ksize = (key_len - 128) / 64;

	switch(key_len) {
		case 128:
			/* PadLock can generate an extended key for
			   AES128 in hardware */
			memcpy(cdata->ks.rd_key, key, AES_KEY_SIZE_128);
			cdata->cword.b.keygen = 0;
			break;

		case 192:
		case 256:
			/* Generate an extended AES key in software.
			   Needed for AES192/AES256 */
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			/* Well, the above applies to Stepping 8 CPUs
			   and is listed as hardware errata. They most
			   likely will fix it at some point and then
			   a check for stepping would be due here. */
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			if ((mode == EVP_CIPH_ECB_MODE ||
			     mode == EVP_CIPH_CBC_MODE)
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			    && !enc)
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				AES_set_decrypt_key(key, key_len, &cdata->ks);
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			else
				AES_set_encrypt_key(key, key_len, &cdata->ks);
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#ifndef AES_ASM
			/* OpenSSL C functions use byte-swapped extended key. */
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			padlock_key_bswap(&cdata->ks);
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#endif
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			cdata->cword.b.keygen = 1;
			break;

		default:
			/* ERROR */
			return 0;
	}

	/*
	 * This is done to cover for cases when user reuses the
	 * context for new key. The catch is that if we don't do
	 * this, padlock_eas_cipher might proceed with old key...
	 */
	padlock_reload_key ();

	return 1;
}

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#endif /* OPENSSL_NO_AES */

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/* ===== Random Number Generator ===== */
/*
 * This code is not engaged. The reason is that it does not comply
 * with recommendations for VIA RNG usage for secure applications
 * (posted at http://www.via.com.tw/en/viac3/c3.jsp) nor does it
 * provide meaningful error control...
 */
/* Wrapper that provides an interface between the API and 
   the raw PadLock RNG */
static int
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padlock_rand_bytes(unsigned char *output, int count)
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{
	unsigned int eax, buf;

	while (count >= 8) {
		eax = padlock_xstore(output, 0);
		if (!(eax&(1<<6)))	return 0; /* RNG disabled */
		/* this ---vv--- covers DC bias, Raw Bits and String Filter */
		if (eax&(0x1F<<10))	return 0;
		if ((eax&0x1F)==0)	continue; /* no data, retry... */
		if ((eax&0x1F)!=8)	return 0; /* fatal failure...  */
		output += 8;
		count  -= 8;
	}
	while (count > 0) {
		eax = padlock_xstore(&buf, 3);
		if (!(eax&(1<<6)))	return 0; /* RNG disabled */
		/* this ---vv--- covers DC bias, Raw Bits and String Filter */
		if (eax&(0x1F<<10))	return 0;
		if ((eax&0x1F)==0)	continue; /* no data, retry... */
		if ((eax&0x1F)!=1)	return 0; /* fatal failure...  */
		*output++ = (unsigned char)buf;
		count--;
	}
	*(volatile unsigned int *)&buf=0;

	return 1;
}

/* Dummy but necessary function */
static int
padlock_rand_status(void)
{
	return 1;
}

/* Prepare structure for registration */
static RAND_METHOD padlock_rand = {
	NULL,			/* seed */
	padlock_rand_bytes,	/* bytes */
	NULL,			/* cleanup */
	NULL,			/* add */
	padlock_rand_bytes,	/* pseudorand */
	padlock_rand_status,	/* rand status */
};

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#else  /* !COMPILE_HW_PADLOCK */
#ifndef OPENSSL_NO_DYNAMIC_ENGINE
OPENSSL_EXPORT
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int bind_engine(ENGINE *e, const char *id, const dynamic_fns *fns);
OPENSSL_EXPORT
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int bind_engine(ENGINE *e, const char *id, const dynamic_fns *fns) { return 0; }
IMPLEMENT_DYNAMIC_CHECK_FN()
#endif
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#endif /* COMPILE_HW_PADLOCK */
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#endif /* !OPENSSL_NO_HW_PADLOCK */
#endif /* !OPENSSL_NO_HW */