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171
openssl-1.0.2f/crypto/aes/Makefile Normal file
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#
# crypto/aes/Makefile
#
DIR= aes
TOP= ../..
CC= cc
CPP= $(CC) -E
INCLUDES=
CFLAG=-g
MAKEFILE= Makefile
AR= ar r
AES_ENC=aes_core.o aes_cbc.o
CFLAGS= $(INCLUDES) $(CFLAG)
ASFLAGS= $(INCLUDES) $(ASFLAG)
AFLAGS= $(ASFLAGS)
GENERAL=Makefile
#TEST=aestest.c
TEST=
APPS=
LIB=$(TOP)/libcrypto.a
LIBSRC=aes_core.c aes_misc.c aes_ecb.c aes_cbc.c aes_cfb.c aes_ofb.c \
aes_ctr.c aes_ige.c aes_wrap.c
LIBOBJ=aes_misc.o aes_ecb.o aes_cfb.o aes_ofb.o aes_ctr.o aes_ige.o aes_wrap.o \
$(AES_ENC)
SRC= $(LIBSRC)
EXHEADER= aes.h
HEADER= aes_locl.h $(EXHEADER)
ALL= $(GENERAL) $(SRC) $(HEADER)
top:
(cd ../..; $(MAKE) DIRS=crypto SDIRS=$(DIR) sub_all)
all: lib
lib: $(LIBOBJ)
$(AR) $(LIB) $(LIBOBJ)
$(RANLIB) $(LIB) || echo Never mind.
@touch lib
aes-ia64.s: asm/aes-ia64.S
$(CC) $(CFLAGS) -E asm/aes-ia64.S > $@
aes-586.s: asm/aes-586.pl ../perlasm/x86asm.pl
$(PERL) asm/aes-586.pl $(PERLASM_SCHEME) $(CFLAGS) $(PROCESSOR) > $@
vpaes-x86.s: asm/vpaes-x86.pl ../perlasm/x86asm.pl
$(PERL) asm/vpaes-x86.pl $(PERLASM_SCHEME) $(CFLAGS) $(PROCESSOR) > $@
aesni-x86.s: asm/aesni-x86.pl ../perlasm/x86asm.pl
$(PERL) asm/aesni-x86.pl $(PERLASM_SCHEME) $(CFLAGS) $(PROCESSOR) > $@
aes-x86_64.s: asm/aes-x86_64.pl
$(PERL) asm/aes-x86_64.pl $(PERLASM_SCHEME) > $@
vpaes-x86_64.s: asm/vpaes-x86_64.pl
$(PERL) asm/vpaes-x86_64.pl $(PERLASM_SCHEME) > $@
bsaes-x86_64.s: asm/bsaes-x86_64.pl
$(PERL) asm/bsaes-x86_64.pl $(PERLASM_SCHEME) > $@
aesni-x86_64.s: asm/aesni-x86_64.pl
$(PERL) asm/aesni-x86_64.pl $(PERLASM_SCHEME) > $@
aesni-sha1-x86_64.s: asm/aesni-sha1-x86_64.pl
$(PERL) asm/aesni-sha1-x86_64.pl $(PERLASM_SCHEME) > $@
aesni-sha256-x86_64.s: asm/aesni-sha256-x86_64.pl
$(PERL) asm/aesni-sha256-x86_64.pl $(PERLASM_SCHEME) > $@
aesni-mb-x86_64.s: asm/aesni-mb-x86_64.pl
$(PERL) asm/aesni-mb-x86_64.pl $(PERLASM_SCHEME) > $@
aes-sparcv9.s: asm/aes-sparcv9.pl
$(PERL) asm/aes-sparcv9.pl $(CFLAGS) > $@
aest4-sparcv9.s: asm/aest4-sparcv9.pl ../perlasm/sparcv9_modes.pl
$(PERL) asm/aest4-sparcv9.pl $(CFLAGS) > $@
aes-ppc.s: asm/aes-ppc.pl
$(PERL) asm/aes-ppc.pl $(PERLASM_SCHEME) $@
vpaes-ppc.s: asm/vpaes-ppc.pl
$(PERL) asm/vpaes-ppc.pl $(PERLASM_SCHEME) $@
aesp8-ppc.s: asm/aesp8-ppc.pl
$(PERL) asm/aesp8-ppc.pl $(PERLASM_SCHEME) $@
aes-parisc.s: asm/aes-parisc.pl
$(PERL) asm/aes-parisc.pl $(PERLASM_SCHEME) $@
aes-mips.S: asm/aes-mips.pl
$(PERL) asm/aes-mips.pl $(PERLASM_SCHEME) $@
aesv8-armx.S: asm/aesv8-armx.pl
$(PERL) asm/aesv8-armx.pl $(PERLASM_SCHEME) $@
aesv8-armx.o: aesv8-armx.S
# GNU make "catch all"
aes-%.S: asm/aes-%.pl; $(PERL) $< $(PERLASM_SCHEME) > $@
aes-armv4.o: aes-armv4.S
bsaes-%.S: asm/bsaes-%.pl; $(PERL) $< $(PERLASM_SCHEME) $@
bsaes-armv7.o: bsaes-armv7.S
files:
$(PERL) $(TOP)/util/files.pl "AES_ENC=$(AES_ENC)" Makefile >> $(TOP)/MINFO
links:
@$(PERL) $(TOP)/util/mklink.pl ../../include/openssl $(EXHEADER)
@$(PERL) $(TOP)/util/mklink.pl ../../test $(TEST)
@$(PERL) $(TOP)/util/mklink.pl ../../apps $(APPS)
install:
@[ -n "$(INSTALLTOP)" ] # should be set by top Makefile...
@headerlist="$(EXHEADER)"; for i in $$headerlist ; \
do \
(cp $$i $(INSTALL_PREFIX)$(INSTALLTOP)/include/openssl/$$i; \
chmod 644 $(INSTALL_PREFIX)$(INSTALLTOP)/include/openssl/$$i ); \
done;
tags:
ctags $(SRC)
tests:
lint:
lint -DLINT $(INCLUDES) $(SRC)>fluff
update: depend
depend:
@[ -n "$(MAKEDEPEND)" ] # should be set by upper Makefile...
$(MAKEDEPEND) -- $(CFLAG) $(INCLUDES) $(DEPFLAG) -- $(PROGS) $(LIBSRC)
dclean:
$(PERL) -pe 'if (/^# DO NOT DELETE THIS LINE/) {print; exit(0);}' $(MAKEFILE) >Makefile.new
mv -f Makefile.new $(MAKEFILE)
clean:
rm -f *.s *.o *.obj lib tags core .pure .nfs* *.old *.bak fluff
# DO NOT DELETE THIS LINE -- make depend depends on it.
aes_cbc.o: ../../include/openssl/aes.h ../../include/openssl/modes.h
aes_cbc.o: ../../include/openssl/opensslconf.h aes_cbc.c
aes_cfb.o: ../../include/openssl/aes.h ../../include/openssl/modes.h
aes_cfb.o: ../../include/openssl/opensslconf.h aes_cfb.c
aes_core.o: ../../include/openssl/aes.h ../../include/openssl/e_os2.h
aes_core.o: ../../include/openssl/opensslconf.h aes_core.c aes_locl.h
aes_ctr.o: ../../include/openssl/aes.h ../../include/openssl/modes.h
aes_ctr.o: ../../include/openssl/opensslconf.h aes_ctr.c
aes_ecb.o: ../../include/openssl/aes.h ../../include/openssl/e_os2.h
aes_ecb.o: ../../include/openssl/opensslconf.h aes_ecb.c aes_locl.h
aes_ige.o: ../../e_os.h ../../include/openssl/aes.h ../../include/openssl/bio.h
aes_ige.o: ../../include/openssl/buffer.h ../../include/openssl/crypto.h
aes_ige.o: ../../include/openssl/e_os2.h ../../include/openssl/err.h
aes_ige.o: ../../include/openssl/lhash.h ../../include/openssl/opensslconf.h
aes_ige.o: ../../include/openssl/opensslv.h ../../include/openssl/ossl_typ.h
aes_ige.o: ../../include/openssl/safestack.h ../../include/openssl/stack.h
aes_ige.o: ../../include/openssl/symhacks.h ../cryptlib.h aes_ige.c aes_locl.h
aes_misc.o: ../../include/openssl/aes.h ../../include/openssl/crypto.h
aes_misc.o: ../../include/openssl/e_os2.h ../../include/openssl/opensslconf.h
aes_misc.o: ../../include/openssl/opensslv.h ../../include/openssl/ossl_typ.h
aes_misc.o: ../../include/openssl/safestack.h ../../include/openssl/stack.h
aes_misc.o: ../../include/openssl/symhacks.h aes_locl.h aes_misc.c
aes_ofb.o: ../../include/openssl/aes.h ../../include/openssl/modes.h
aes_ofb.o: ../../include/openssl/opensslconf.h aes_ofb.c
aes_wrap.o: ../../e_os.h ../../include/openssl/aes.h
aes_wrap.o: ../../include/openssl/bio.h ../../include/openssl/buffer.h
aes_wrap.o: ../../include/openssl/crypto.h ../../include/openssl/e_os2.h
aes_wrap.o: ../../include/openssl/err.h ../../include/openssl/lhash.h
aes_wrap.o: ../../include/openssl/modes.h ../../include/openssl/opensslconf.h
aes_wrap.o: ../../include/openssl/opensslv.h ../../include/openssl/ossl_typ.h
aes_wrap.o: ../../include/openssl/safestack.h ../../include/openssl/stack.h
aes_wrap.o: ../../include/openssl/symhacks.h ../cryptlib.h aes_wrap.c

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This is an OpenSSL-compatible version of AES (also called Rijndael).
aes_core.c is basically the same as rijndael-alg-fst.c but with an
API that looks like the rest of the OpenSSL symmetric cipher suite.

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openssl-1.0.2f/crypto/aes/aes-x86_64.o Normal file
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openssl-1.0.2f/crypto/aes/aes.h Normal file
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/* crypto/aes/aes.h */
/* ====================================================================
* Copyright (c) 1998-2002 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
* openssl-core@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.
* ====================================================================
*
*/
#ifndef HEADER_AES_H
# define HEADER_AES_H
# include <openssl/opensslconf.h>
# ifdef OPENSSL_NO_AES
# error AES is disabled.
# endif
# include <stddef.h>
# define AES_ENCRYPT 1
# define AES_DECRYPT 0
/*
* Because array size can't be a const in C, the following two are macros.
* Both sizes are in bytes.
*/
# define AES_MAXNR 14
# define AES_BLOCK_SIZE 16
#ifdef __cplusplus
extern "C" {
#endif
/* This should be a hidden type, but EVP requires that the size be known */
struct aes_key_st {
# ifdef AES_LONG
unsigned long rd_key[4 * (AES_MAXNR + 1)];
# else
unsigned int rd_key[4 * (AES_MAXNR + 1)];
# endif
int rounds;
};
typedef struct aes_key_st AES_KEY;
const char *AES_options(void);
int AES_set_encrypt_key(const unsigned char *userKey, const int bits,
AES_KEY *key);
int AES_set_decrypt_key(const unsigned char *userKey, const int bits,
AES_KEY *key);
int private_AES_set_encrypt_key(const unsigned char *userKey, const int bits,
AES_KEY *key);
int private_AES_set_decrypt_key(const unsigned char *userKey, const int bits,
AES_KEY *key);
void AES_encrypt(const unsigned char *in, unsigned char *out,
const AES_KEY *key);
void AES_decrypt(const unsigned char *in, unsigned char *out,
const AES_KEY *key);
void AES_ecb_encrypt(const unsigned char *in, unsigned char *out,
const AES_KEY *key, const int enc);
void AES_cbc_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, const int enc);
void AES_cfb128_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, int *num, const int enc);
void AES_cfb1_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, int *num, const int enc);
void AES_cfb8_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, int *num, const int enc);
void AES_ofb128_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, int *num);
void AES_ctr128_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char ivec[AES_BLOCK_SIZE],
unsigned char ecount_buf[AES_BLOCK_SIZE],
unsigned int *num);
/* NB: the IV is _two_ blocks long */
void AES_ige_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, const int enc);
/* NB: the IV is _four_ blocks long */
void AES_bi_ige_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
const AES_KEY *key2, const unsigned char *ivec,
const int enc);
int AES_wrap_key(AES_KEY *key, const unsigned char *iv,
unsigned char *out,
const unsigned char *in, unsigned int inlen);
int AES_unwrap_key(AES_KEY *key, const unsigned char *iv,
unsigned char *out,
const unsigned char *in, unsigned int inlen);
#ifdef __cplusplus
}
#endif
#endif /* !HEADER_AES_H */

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/* crypto/aes/aes_cbc.c */
/* ====================================================================
* Copyright (c) 1998-2002 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
* openssl-core@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.
* ====================================================================
*
*/
#include <openssl/aes.h>
#include <openssl/modes.h>
void AES_cbc_encrypt(const unsigned char *in, unsigned char *out,
size_t len, const AES_KEY *key,
unsigned char *ivec, const int enc)
{
if (enc)
CRYPTO_cbc128_encrypt(in, out, len, key, ivec,
(block128_f) AES_encrypt);
else
CRYPTO_cbc128_decrypt(in, out, len, key, ivec,
(block128_f) AES_decrypt);
}

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/* crypto/aes/aes_cfb.c */
/* ====================================================================
* Copyright (c) 2002-2006 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
* openssl-core@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.
* ====================================================================
*
*/
#include <openssl/aes.h>
#include <openssl/modes.h>
/*
* The input and output encrypted as though 128bit cfb mode is being used.
* The extra state information to record how much of the 128bit block we have
* used is contained in *num;
*/
void AES_cfb128_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, int *num, const int enc)
{
CRYPTO_cfb128_encrypt(in, out, length, key, ivec, num, enc,
(block128_f) AES_encrypt);
}
/* N.B. This expects the input to be packed, MS bit first */
void AES_cfb1_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, int *num, const int enc)
{
CRYPTO_cfb128_1_encrypt(in, out, length, key, ivec, num, enc,
(block128_f) AES_encrypt);
}
void AES_cfb8_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, int *num, const int enc)
{
CRYPTO_cfb128_8_encrypt(in, out, length, key, ivec, num, enc,
(block128_f) AES_encrypt);
}

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/* crypto/aes/aes_ctr.c */
/* ====================================================================
* Copyright (c) 1998-2002 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
* openssl-core@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.
* ====================================================================
*
*/
#include <openssl/aes.h>
#include <openssl/modes.h>
void AES_ctr128_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char ivec[AES_BLOCK_SIZE],
unsigned char ecount_buf[AES_BLOCK_SIZE],
unsigned int *num)
{
CRYPTO_ctr128_encrypt(in, out, length, key, ivec, ecount_buf, num,
(block128_f) AES_encrypt);
}

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/* crypto/aes/aes_ecb.c */
/* ====================================================================
* Copyright (c) 1998-2002 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
* openssl-core@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.
* ====================================================================
*
*/
#ifndef AES_DEBUG
# ifndef NDEBUG
# define NDEBUG
# endif
#endif
#include <assert.h>
#include <openssl/aes.h>
#include "aes_locl.h"
void AES_ecb_encrypt(const unsigned char *in, unsigned char *out,
const AES_KEY *key, const int enc)
{
assert(in && out && key);
assert((AES_ENCRYPT == enc) || (AES_DECRYPT == enc));
if (AES_ENCRYPT == enc)
AES_encrypt(in, out, key);
else
AES_decrypt(in, out, key);
}

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/* crypto/aes/aes_ige.c */
/* ====================================================================
* Copyright (c) 2006 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
* openssl-core@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.
* ====================================================================
*
*/
#include "cryptlib.h"
#include <openssl/aes.h>
#include "aes_locl.h"
#define N_WORDS (AES_BLOCK_SIZE / sizeof(unsigned long))
typedef struct {
unsigned long data[N_WORDS];
} aes_block_t;
/* XXX: probably some better way to do this */
#if defined(__i386__) || defined(__x86_64__)
# define UNALIGNED_MEMOPS_ARE_FAST 1
#else
# define UNALIGNED_MEMOPS_ARE_FAST 0
#endif
#if UNALIGNED_MEMOPS_ARE_FAST
# define load_block(d, s) (d) = *(const aes_block_t *)(s)
# define store_block(d, s) *(aes_block_t *)(d) = (s)
#else
# define load_block(d, s) memcpy((d).data, (s), AES_BLOCK_SIZE)
# define store_block(d, s) memcpy((d), (s).data, AES_BLOCK_SIZE)
#endif
/* N.B. The IV for this mode is _twice_ the block size */
void AES_ige_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, const int enc)
{
size_t n;
size_t len = length;
OPENSSL_assert(in && out && key && ivec);
OPENSSL_assert((AES_ENCRYPT == enc) || (AES_DECRYPT == enc));
OPENSSL_assert((length % AES_BLOCK_SIZE) == 0);
len = length / AES_BLOCK_SIZE;
if (AES_ENCRYPT == enc) {
if (in != out &&
(UNALIGNED_MEMOPS_ARE_FAST
|| ((size_t)in | (size_t)out | (size_t)ivec) % sizeof(long) ==
0)) {
aes_block_t *ivp = (aes_block_t *) ivec;
aes_block_t *iv2p = (aes_block_t *) (ivec + AES_BLOCK_SIZE);
while (len) {
aes_block_t *inp = (aes_block_t *) in;
aes_block_t *outp = (aes_block_t *) out;
for (n = 0; n < N_WORDS; ++n)
outp->data[n] = inp->data[n] ^ ivp->data[n];
AES_encrypt((unsigned char *)outp->data,
(unsigned char *)outp->data, key);
for (n = 0; n < N_WORDS; ++n)
outp->data[n] ^= iv2p->data[n];
ivp = outp;
iv2p = inp;
--len;
in += AES_BLOCK_SIZE;
out += AES_BLOCK_SIZE;
}
memcpy(ivec, ivp->data, AES_BLOCK_SIZE);
memcpy(ivec + AES_BLOCK_SIZE, iv2p->data, AES_BLOCK_SIZE);
} else {
aes_block_t tmp, tmp2;
aes_block_t iv;
aes_block_t iv2;
load_block(iv, ivec);
load_block(iv2, ivec + AES_BLOCK_SIZE);
while (len) {
load_block(tmp, in);
for (n = 0; n < N_WORDS; ++n)
tmp2.data[n] = tmp.data[n] ^ iv.data[n];
AES_encrypt((unsigned char *)tmp2.data,
(unsigned char *)tmp2.data, key);
for (n = 0; n < N_WORDS; ++n)
tmp2.data[n] ^= iv2.data[n];
store_block(out, tmp2);
iv = tmp2;
iv2 = tmp;
--len;
in += AES_BLOCK_SIZE;
out += AES_BLOCK_SIZE;
}
memcpy(ivec, iv.data, AES_BLOCK_SIZE);
memcpy(ivec + AES_BLOCK_SIZE, iv2.data, AES_BLOCK_SIZE);
}
} else {
if (in != out &&
(UNALIGNED_MEMOPS_ARE_FAST
|| ((size_t)in | (size_t)out | (size_t)ivec) % sizeof(long) ==
0)) {
aes_block_t *ivp = (aes_block_t *) ivec;
aes_block_t *iv2p = (aes_block_t *) (ivec + AES_BLOCK_SIZE);
while (len) {
aes_block_t tmp;
aes_block_t *inp = (aes_block_t *) in;
aes_block_t *outp = (aes_block_t *) out;
for (n = 0; n < N_WORDS; ++n)
tmp.data[n] = inp->data[n] ^ iv2p->data[n];
AES_decrypt((unsigned char *)tmp.data,
(unsigned char *)outp->data, key);
for (n = 0; n < N_WORDS; ++n)
outp->data[n] ^= ivp->data[n];
ivp = inp;
iv2p = outp;
--len;
in += AES_BLOCK_SIZE;
out += AES_BLOCK_SIZE;
}
memcpy(ivec, ivp->data, AES_BLOCK_SIZE);
memcpy(ivec + AES_BLOCK_SIZE, iv2p->data, AES_BLOCK_SIZE);
} else {
aes_block_t tmp, tmp2;
aes_block_t iv;
aes_block_t iv2;
load_block(iv, ivec);
load_block(iv2, ivec + AES_BLOCK_SIZE);
while (len) {
load_block(tmp, in);
tmp2 = tmp;
for (n = 0; n < N_WORDS; ++n)
tmp.data[n] ^= iv2.data[n];
AES_decrypt((unsigned char *)tmp.data,
(unsigned char *)tmp.data, key);
for (n = 0; n < N_WORDS; ++n)
tmp.data[n] ^= iv.data[n];
store_block(out, tmp);
iv = tmp2;
iv2 = tmp;
--len;
in += AES_BLOCK_SIZE;
out += AES_BLOCK_SIZE;
}
memcpy(ivec, iv.data, AES_BLOCK_SIZE);
memcpy(ivec + AES_BLOCK_SIZE, iv2.data, AES_BLOCK_SIZE);
}
}
}
/*
* Note that its effectively impossible to do biIGE in anything other
* than a single pass, so no provision is made for chaining.
*/
/* N.B. The IV for this mode is _four times_ the block size */
void AES_bi_ige_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
const AES_KEY *key2, const unsigned char *ivec,
const int enc)
{
size_t n;
size_t len = length;
unsigned char tmp[AES_BLOCK_SIZE];
unsigned char tmp2[AES_BLOCK_SIZE];
unsigned char tmp3[AES_BLOCK_SIZE];
unsigned char prev[AES_BLOCK_SIZE];
const unsigned char *iv;
const unsigned char *iv2;
OPENSSL_assert(in && out && key && ivec);
OPENSSL_assert((AES_ENCRYPT == enc) || (AES_DECRYPT == enc));
OPENSSL_assert((length % AES_BLOCK_SIZE) == 0);
if (AES_ENCRYPT == enc) {
/*
* XXX: Do a separate case for when in != out (strictly should check
* for overlap, too)
*/
/* First the forward pass */
iv = ivec;
iv2 = ivec + AES_BLOCK_SIZE;
while (len >= AES_BLOCK_SIZE) {
for (n = 0; n < AES_BLOCK_SIZE; ++n)
out[n] = in[n] ^ iv[n];
AES_encrypt(out, out, key);
for (n = 0; n < AES_BLOCK_SIZE; ++n)
out[n] ^= iv2[n];
iv = out;
memcpy(prev, in, AES_BLOCK_SIZE);
iv2 = prev;
len -= AES_BLOCK_SIZE;
in += AES_BLOCK_SIZE;
out += AES_BLOCK_SIZE;
}
/* And now backwards */
iv = ivec + AES_BLOCK_SIZE * 2;
iv2 = ivec + AES_BLOCK_SIZE * 3;
len = length;
while (len >= AES_BLOCK_SIZE) {
out -= AES_BLOCK_SIZE;
/*
* XXX: reduce copies by alternating between buffers
*/
memcpy(tmp, out, AES_BLOCK_SIZE);
for (n = 0; n < AES_BLOCK_SIZE; ++n)
out[n] ^= iv[n];
/*
* hexdump(stdout, "out ^ iv", out, AES_BLOCK_SIZE);
*/
AES_encrypt(out, out, key);
/*
* hexdump(stdout,"enc", out, AES_BLOCK_SIZE);
*/
/*
* hexdump(stdout,"iv2", iv2, AES_BLOCK_SIZE);
*/
for (n = 0; n < AES_BLOCK_SIZE; ++n)
out[n] ^= iv2[n];
/*
* hexdump(stdout,"out", out, AES_BLOCK_SIZE);
*/
iv = out;
memcpy(prev, tmp, AES_BLOCK_SIZE);
iv2 = prev;
len -= AES_BLOCK_SIZE;
}
} else {
/* First backwards */
iv = ivec + AES_BLOCK_SIZE * 2;
iv2 = ivec + AES_BLOCK_SIZE * 3;
in += length;
out += length;
while (len >= AES_BLOCK_SIZE) {
in -= AES_BLOCK_SIZE;
out -= AES_BLOCK_SIZE;
memcpy(tmp, in, AES_BLOCK_SIZE);
memcpy(tmp2, in, AES_BLOCK_SIZE);
for (n = 0; n < AES_BLOCK_SIZE; ++n)
tmp[n] ^= iv2[n];
AES_decrypt(tmp, out, key);
for (n = 0; n < AES_BLOCK_SIZE; ++n)
out[n] ^= iv[n];
memcpy(tmp3, tmp2, AES_BLOCK_SIZE);
iv = tmp3;
iv2 = out;
len -= AES_BLOCK_SIZE;
}
/* And now forwards */
iv = ivec;
iv2 = ivec + AES_BLOCK_SIZE;
len = length;
while (len >= AES_BLOCK_SIZE) {
memcpy(tmp, out, AES_BLOCK_SIZE);
memcpy(tmp2, out, AES_BLOCK_SIZE);
for (n = 0; n < AES_BLOCK_SIZE; ++n)
tmp[n] ^= iv2[n];
AES_decrypt(tmp, out, key);
for (n = 0; n < AES_BLOCK_SIZE; ++n)
out[n] ^= iv[n];
memcpy(tmp3, tmp2, AES_BLOCK_SIZE);
iv = tmp3;
iv2 = out;
len -= AES_BLOCK_SIZE;
in += AES_BLOCK_SIZE;
out += AES_BLOCK_SIZE;
}
}
}

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/* crypto/aes/aes.h */
/* ====================================================================
* Copyright (c) 1998-2002 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
* openssl-core@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.
* ====================================================================
*
*/
#ifndef HEADER_AES_LOCL_H
# define HEADER_AES_LOCL_H
# include <openssl/e_os2.h>
# ifdef OPENSSL_NO_AES
# error AES is disabled.
# endif
# include <stdio.h>
# include <stdlib.h>
# include <string.h>
# if defined(_MSC_VER) && (defined(_M_IX86) || defined(_M_AMD64) || defined(_M_X64))
# define SWAP(x) (_lrotl(x, 8) & 0x00ff00ff | _lrotr(x, 8) & 0xff00ff00)
# define GETU32(p) SWAP(*((u32 *)(p)))
# define PUTU32(ct, st) { *((u32 *)(ct)) = SWAP((st)); }
# else
# define GETU32(pt) (((u32)(pt)[0] << 24) ^ ((u32)(pt)[1] << 16) ^ ((u32)(pt)[2] << 8) ^ ((u32)(pt)[3]))
# define PUTU32(ct, st) { (ct)[0] = (u8)((st) >> 24); (ct)[1] = (u8)((st) >> 16); (ct)[2] = (u8)((st) >> 8); (ct)[3] = (u8)(st); }
# endif
# ifdef AES_LONG
typedef unsigned long u32;
# else
typedef unsigned int u32;
# endif
typedef unsigned short u16;
typedef unsigned char u8;
# define MAXKC (256/32)
# define MAXKB (256/8)
# define MAXNR 14
/* This controls loop-unrolling in aes_core.c */
# undef FULL_UNROLL
#endif /* !HEADER_AES_LOCL_H */

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/* crypto/aes/aes_misc.c */
/* ====================================================================
* Copyright (c) 1998-2002 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
* openssl-core@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.
* ====================================================================
*
*/
#include <openssl/opensslv.h>
#include <openssl/crypto.h>
#include <openssl/aes.h>
#include "aes_locl.h"
const char AES_version[] = "AES" OPENSSL_VERSION_PTEXT;
const char *AES_options(void)
{
#ifdef FULL_UNROLL
return "aes(full)";
#else
return "aes(partial)";
#endif
}
/* FIPS wrapper functions to block low level AES calls in FIPS mode */
int AES_set_encrypt_key(const unsigned char *userKey, const int bits,
AES_KEY *key)
{
#ifdef OPENSSL_FIPS
fips_cipher_abort(AES);
#endif
return private_AES_set_encrypt_key(userKey, bits, key);
}
int AES_set_decrypt_key(const unsigned char *userKey, const int bits,
AES_KEY *key)
{
#ifdef OPENSSL_FIPS
fips_cipher_abort(AES);
#endif
return private_AES_set_decrypt_key(userKey, bits, key);
}

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/* crypto/aes/aes_ofb.c */
/* ====================================================================
* Copyright (c) 2002-2006 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
* openssl-core@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.
* ====================================================================
*
*/
#include <openssl/aes.h>
#include <openssl/modes.h>
void AES_ofb128_encrypt(const unsigned char *in, unsigned char *out,
size_t length, const AES_KEY *key,
unsigned char *ivec, int *num)
{
CRYPTO_ofb128_encrypt(in, out, length, key, ivec, num,
(block128_f) AES_encrypt);
}

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/* crypto/aes/aes_wrap.c */
/*
* Written by Dr Stephen N Henson (steve@openssl.org) for the OpenSSL
* project.
*/
/* ====================================================================
* Copyright (c) 2008 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.
* ====================================================================
*/
#include "cryptlib.h"
#include <openssl/aes.h>
#include <openssl/modes.h>
int AES_wrap_key(AES_KEY *key, const unsigned char *iv,
unsigned char *out,
const unsigned char *in, unsigned int inlen)
{
return CRYPTO_128_wrap(key, iv, out, in, inlen, (block128_f) AES_encrypt);
}
int AES_unwrap_key(AES_KEY *key, const unsigned char *iv,
unsigned char *out,
const unsigned char *in, unsigned int inlen)
{
return CRYPTO_128_unwrap(key, iv, out, in, inlen,
(block128_f) AES_decrypt);
}

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#!/usr/bin/env perl
# ====================================================================
# Written by David S. Miller <davem@devemloft.net> and Andy Polyakov
# <appro@openssl.org>. The module is licensed under 2-clause BSD
# license. October 2012. All rights reserved.
# ====================================================================
######################################################################
# AES for SPARC T4.
#
# AES round instructions complete in 3 cycles and can be issued every
# cycle. It means that round calculations should take 4*rounds cycles,
# because any given round instruction depends on result of *both*
# previous instructions:
#
# |0 |1 |2 |3 |4
# |01|01|01|
# |23|23|23|
# |01|01|...
# |23|...
#
# Provided that fxor [with IV] takes 3 cycles to complete, critical
# path length for CBC encrypt would be 3+4*rounds, or in other words
# it should process one byte in at least (3+4*rounds)/16 cycles. This
# estimate doesn't account for "collateral" instructions, such as
# fetching input from memory, xor-ing it with zero-round key and
# storing the result. Yet, *measured* performance [for data aligned
# at 64-bit boundary!] deviates from this equation by less than 0.5%:
#
# 128-bit key 192- 256-
# CBC encrypt 2.70/2.90(*) 3.20/3.40 3.70/3.90
# (*) numbers after slash are for
# misaligned data.
#
# Out-of-order execution logic managed to fully overlap "collateral"
# instructions with those on critical path. Amazing!
#
# As with Intel AES-NI, question is if it's possible to improve
# performance of parallelizeable modes by interleaving round
# instructions. Provided round instruction latency and throughput
# optimal interleave factor is 2. But can we expect 2x performance
# improvement? Well, as round instructions can be issued one per
# cycle, they don't saturate the 2-way issue pipeline and therefore
# there is room for "collateral" calculations... Yet, 2x speed-up
# over CBC encrypt remains unattaintable:
#
# 128-bit key 192- 256-
# CBC decrypt 1.64/2.11 1.89/2.37 2.23/2.61
# CTR 1.64/2.08(*) 1.89/2.33 2.23/2.61
# (*) numbers after slash are for
# misaligned data.
#
# Estimates based on amount of instructions under assumption that
# round instructions are not pairable with any other instruction
# suggest that latter is the actual case and pipeline runs
# underutilized. It should be noted that T4 out-of-order execution
# logic is so capable that performance gain from 2x interleave is
# not even impressive, ~7-13% over non-interleaved code, largest
# for 256-bit keys.
# To anchor to something else, software implementation processes
# one byte in 29 cycles with 128-bit key on same processor. Intel
# Sandy Bridge encrypts byte in 5.07 cycles in CBC mode and decrypts
# in 0.93, naturally with AES-NI.
$0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
push(@INC,"${dir}","${dir}../../perlasm");
require "sparcv9_modes.pl";
&asm_init(@ARGV);
$::evp=1; # if $evp is set to 0, script generates module with
# AES_[en|de]crypt, AES_set_[en|de]crypt_key and AES_cbc_encrypt entry
# points. These however are not fully compatible with openssl/aes.h,
# because they expect AES_KEY to be aligned at 64-bit boundary. When
# used through EVP, alignment is arranged at EVP layer. Second thing
# that is arranged by EVP is at least 32-bit alignment of IV.
######################################################################
# single-round subroutines
#
{
my ($inp,$out,$key,$rounds,$tmp,$mask)=map("%o$_",(0..5));
$code.=<<___ if ($::abibits==64);
.register %g2,#scratch
.register %g3,#scratch
___
$code.=<<___;
.text
.globl aes_t4_encrypt
.align 32
aes_t4_encrypt:
andcc $inp, 7, %g1 ! is input aligned?
andn $inp, 7, $inp
ldx [$key + 0], %g4
ldx [$key + 8], %g5
ldx [$inp + 0], %o4
bz,pt %icc, 1f
ldx [$inp + 8], %o5
ldx [$inp + 16], $inp
sll %g1, 3, %g1
sub %g0, %g1, %o3
sllx %o4, %g1, %o4
sllx %o5, %g1, %g1
srlx %o5, %o3, %o5
srlx $inp, %o3, %o3
or %o5, %o4, %o4
or %o3, %g1, %o5
1:
ld [$key + 240], $rounds
ldd [$key + 16], %f12
ldd [$key + 24], %f14
xor %g4, %o4, %o4
xor %g5, %o5, %o5
movxtod %o4, %f0
movxtod %o5, %f2
srl $rounds, 1, $rounds
ldd [$key + 32], %f16
sub $rounds, 1, $rounds
ldd [$key + 40], %f18
add $key, 48, $key
.Lenc:
aes_eround01 %f12, %f0, %f2, %f4
aes_eround23 %f14, %f0, %f2, %f2
ldd [$key + 0], %f12
ldd [$key + 8], %f14
sub $rounds,1,$rounds
aes_eround01 %f16, %f4, %f2, %f0
aes_eround23 %f18, %f4, %f2, %f2
ldd [$key + 16], %f16
ldd [$key + 24], %f18
brnz,pt $rounds, .Lenc
add $key, 32, $key
andcc $out, 7, $tmp ! is output aligned?
aes_eround01 %f12, %f0, %f2, %f4
aes_eround23 %f14, %f0, %f2, %f2
aes_eround01_l %f16, %f4, %f2, %f0
aes_eround23_l %f18, %f4, %f2, %f2
bnz,pn %icc, 2f
nop
std %f0, [$out + 0]
retl
std %f2, [$out + 8]
2: alignaddrl $out, %g0, $out
mov 0xff, $mask
srl $mask, $tmp, $mask
faligndata %f0, %f0, %f4
faligndata %f0, %f2, %f6
faligndata %f2, %f2, %f8
stda %f4, [$out + $mask]0xc0 ! partial store
std %f6, [$out + 8]
add $out, 16, $out
orn %g0, $mask, $mask
retl
stda %f8, [$out + $mask]0xc0 ! partial store
.type aes_t4_encrypt,#function
.size aes_t4_encrypt,.-aes_t4_encrypt
.globl aes_t4_decrypt
.align 32
aes_t4_decrypt:
andcc $inp, 7, %g1 ! is input aligned?
andn $inp, 7, $inp
ldx [$key + 0], %g4
ldx [$key + 8], %g5
ldx [$inp + 0], %o4
bz,pt %icc, 1f
ldx [$inp + 8], %o5
ldx [$inp + 16], $inp
sll %g1, 3, %g1
sub %g0, %g1, %o3
sllx %o4, %g1, %o4
sllx %o5, %g1, %g1
srlx %o5, %o3, %o5
srlx $inp, %o3, %o3
or %o5, %o4, %o4
or %o3, %g1, %o5
1:
ld [$key + 240], $rounds
ldd [$key + 16], %f12
ldd [$key + 24], %f14
xor %g4, %o4, %o4
xor %g5, %o5, %o5
movxtod %o4, %f0
movxtod %o5, %f2
srl $rounds, 1, $rounds
ldd [$key + 32], %f16
sub $rounds, 1, $rounds
ldd [$key + 40], %f18
add $key, 48, $key
.Ldec:
aes_dround01 %f12, %f0, %f2, %f4
aes_dround23 %f14, %f0, %f2, %f2
ldd [$key + 0], %f12
ldd [$key + 8], %f14
sub $rounds,1,$rounds
aes_dround01 %f16, %f4, %f2, %f0
aes_dround23 %f18, %f4, %f2, %f2
ldd [$key + 16], %f16
ldd [$key + 24], %f18
brnz,pt $rounds, .Ldec
add $key, 32, $key
andcc $out, 7, $tmp ! is output aligned?
aes_dround01 %f12, %f0, %f2, %f4
aes_dround23 %f14, %f0, %f2, %f2
aes_dround01_l %f16, %f4, %f2, %f0
aes_dround23_l %f18, %f4, %f2, %f2
bnz,pn %icc, 2f
nop
std %f0, [$out + 0]
retl
std %f2, [$out + 8]
2: alignaddrl $out, %g0, $out
mov 0xff, $mask
srl $mask, $tmp, $mask
faligndata %f0, %f0, %f4
faligndata %f0, %f2, %f6
faligndata %f2, %f2, %f8
stda %f4, [$out + $mask]0xc0 ! partial store
std %f6, [$out + 8]
add $out, 16, $out
orn %g0, $mask, $mask
retl
stda %f8, [$out + $mask]0xc0 ! partial store
.type aes_t4_decrypt,#function
.size aes_t4_decrypt,.-aes_t4_decrypt
___
}
######################################################################
# key setup subroutines
#
{
my ($inp,$bits,$out,$tmp)=map("%o$_",(0..5));
$code.=<<___;
.globl aes_t4_set_encrypt_key
.align 32
aes_t4_set_encrypt_key:
.Lset_encrypt_key:
and $inp, 7, $tmp
alignaddr $inp, %g0, $inp
cmp $bits, 192
ldd [$inp + 0], %f0
bl,pt %icc,.L128
ldd [$inp + 8], %f2
be,pt %icc,.L192
ldd [$inp + 16], %f4
brz,pt $tmp, .L256aligned
ldd [$inp + 24], %f6
ldd [$inp + 32], %f8
faligndata %f0, %f2, %f0
faligndata %f2, %f4, %f2
faligndata %f4, %f6, %f4
faligndata %f6, %f8, %f6
.L256aligned:
___
for ($i=0; $i<6; $i++) {
$code.=<<___;
std %f0, [$out + `32*$i+0`]
aes_kexpand1 %f0, %f6, $i, %f0
std %f2, [$out + `32*$i+8`]
aes_kexpand2 %f2, %f0, %f2
std %f4, [$out + `32*$i+16`]
aes_kexpand0 %f4, %f2, %f4
std %f6, [$out + `32*$i+24`]
aes_kexpand2 %f6, %f4, %f6
___
}
$code.=<<___;
std %f0, [$out + `32*$i+0`]
aes_kexpand1 %f0, %f6, $i, %f0
std %f2, [$out + `32*$i+8`]
aes_kexpand2 %f2, %f0, %f2
std %f4, [$out + `32*$i+16`]
std %f6, [$out + `32*$i+24`]
std %f0, [$out + `32*$i+32`]
std %f2, [$out + `32*$i+40`]
mov 14, $tmp
st $tmp, [$out + 240]
retl
xor %o0, %o0, %o0
.align 16
.L192:
brz,pt $tmp, .L192aligned
nop
ldd [$inp + 24], %f6
faligndata %f0, %f2, %f0
faligndata %f2, %f4, %f2
faligndata %f4, %f6, %f4
.L192aligned:
___
for ($i=0; $i<7; $i++) {
$code.=<<___;
std %f0, [$out + `24*$i+0`]
aes_kexpand1 %f0, %f4, $i, %f0
std %f2, [$out + `24*$i+8`]
aes_kexpand2 %f2, %f0, %f2
std %f4, [$out + `24*$i+16`]
aes_kexpand2 %f4, %f2, %f4
___
}
$code.=<<___;
std %f0, [$out + `24*$i+0`]
aes_kexpand1 %f0, %f4, $i, %f0
std %f2, [$out + `24*$i+8`]
aes_kexpand2 %f2, %f0, %f2
std %f4, [$out + `24*$i+16`]
std %f0, [$out + `24*$i+24`]
std %f2, [$out + `24*$i+32`]
mov 12, $tmp
st $tmp, [$out + 240]
retl
xor %o0, %o0, %o0
.align 16
.L128:
brz,pt $tmp, .L128aligned
nop
ldd [$inp + 16], %f4
faligndata %f0, %f2, %f0
faligndata %f2, %f4, %f2
.L128aligned:
___
for ($i=0; $i<10; $i++) {
$code.=<<___;
std %f0, [$out + `16*$i+0`]
aes_kexpand1 %f0, %f2, $i, %f0
std %f2, [$out + `16*$i+8`]
aes_kexpand2 %f2, %f0, %f2
___
}
$code.=<<___;
std %f0, [$out + `16*$i+0`]
std %f2, [$out + `16*$i+8`]
mov 10, $tmp
st $tmp, [$out + 240]
retl
xor %o0, %o0, %o0
.type aes_t4_set_encrypt_key,#function
.size aes_t4_set_encrypt_key,.-aes_t4_set_encrypt_key
.globl aes_t4_set_decrypt_key
.align 32
aes_t4_set_decrypt_key:
mov %o7, %o5
call .Lset_encrypt_key
nop
mov %o5, %o7
sll $tmp, 4, $inp ! $tmp is number of rounds
add $tmp, 2, $tmp
add $out, $inp, $inp ! $inp=$out+16*rounds
srl $tmp, 2, $tmp ! $tmp=(rounds+2)/4
.Lkey_flip:
ldd [$out + 0], %f0
ldd [$out + 8], %f2
ldd [$out + 16], %f4
ldd [$out + 24], %f6
ldd [$inp + 0], %f8
ldd [$inp + 8], %f10
ldd [$inp - 16], %f12
ldd [$inp - 8], %f14
sub $tmp, 1, $tmp
std %f0, [$inp + 0]
std %f2, [$inp + 8]
std %f4, [$inp - 16]
std %f6, [$inp - 8]
std %f8, [$out + 0]
std %f10, [$out + 8]
std %f12, [$out + 16]
std %f14, [$out + 24]
add $out, 32, $out
brnz $tmp, .Lkey_flip
sub $inp, 32, $inp
retl
xor %o0, %o0, %o0
.type aes_t4_set_decrypt_key,#function
.size aes_t4_set_decrypt_key,.-aes_t4_set_decrypt_key
___
}
{{{
my ($inp,$out,$len,$key,$ivec,$enc)=map("%i$_",(0..5));
my ($ileft,$iright,$ooff,$omask,$ivoff)=map("%l$_",(1..7));
$code.=<<___;
.align 32
_aes128_encrypt_1x:
___
for ($i=0; $i<4; $i++) {
$code.=<<___;
aes_eround01 %f`16+8*$i+0`, %f0, %f2, %f4
aes_eround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_eround01 %f`16+8*$i+4`, %f4, %f2, %f0
aes_eround23 %f`16+8*$i+6`, %f4, %f2, %f2
___
}
$code.=<<___;
aes_eround01 %f48, %f0, %f2, %f4
aes_eround23 %f50, %f0, %f2, %f2
aes_eround01_l %f52, %f4, %f2, %f0
retl
aes_eround23_l %f54, %f4, %f2, %f2
.type _aes128_encrypt_1x,#function
.size _aes128_encrypt_1x,.-_aes128_encrypt_1x
.align 32
_aes128_encrypt_2x:
___
for ($i=0; $i<4; $i++) {
$code.=<<___;
aes_eround01 %f`16+8*$i+0`, %f0, %f2, %f8
aes_eround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_eround01 %f`16+8*$i+0`, %f4, %f6, %f10
aes_eround23 %f`16+8*$i+2`, %f4, %f6, %f6
aes_eround01 %f`16+8*$i+4`, %f8, %f2, %f0
aes_eround23 %f`16+8*$i+6`, %f8, %f2, %f2
aes_eround01 %f`16+8*$i+4`, %f10, %f6, %f4
aes_eround23 %f`16+8*$i+6`, %f10, %f6, %f6
___
}
$code.=<<___;
aes_eround01 %f48, %f0, %f2, %f8
aes_eround23 %f50, %f0, %f2, %f2
aes_eround01 %f48, %f4, %f6, %f10
aes_eround23 %f50, %f4, %f6, %f6
aes_eround01_l %f52, %f8, %f2, %f0
aes_eround23_l %f54, %f8, %f2, %f2
aes_eround01_l %f52, %f10, %f6, %f4
retl
aes_eround23_l %f54, %f10, %f6, %f6
.type _aes128_encrypt_2x,#function
.size _aes128_encrypt_2x,.-_aes128_encrypt_2x
.align 32
_aes128_loadkey:
ldx [$key + 0], %g4
ldx [$key + 8], %g5
___
for ($i=2; $i<22;$i++) { # load key schedule
$code.=<<___;
ldd [$key + `8*$i`], %f`12+2*$i`
___
}
$code.=<<___;
retl
nop
.type _aes128_loadkey,#function
.size _aes128_loadkey,.-_aes128_loadkey
_aes128_load_enckey=_aes128_loadkey
_aes128_load_deckey=_aes128_loadkey
___
&alg_cbc_encrypt_implement("aes",128);
if ($::evp) {
&alg_ctr32_implement("aes",128);
&alg_xts_implement("aes",128,"en");
&alg_xts_implement("aes",128,"de");
}
&alg_cbc_decrypt_implement("aes",128);
$code.=<<___;
.align 32
_aes128_decrypt_1x:
___
for ($i=0; $i<4; $i++) {
$code.=<<___;
aes_dround01 %f`16+8*$i+0`, %f0, %f2, %f4
aes_dround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_dround01 %f`16+8*$i+4`, %f4, %f2, %f0
aes_dround23 %f`16+8*$i+6`, %f4, %f2, %f2
___
}
$code.=<<___;
aes_dround01 %f48, %f0, %f2, %f4
aes_dround23 %f50, %f0, %f2, %f2
aes_dround01_l %f52, %f4, %f2, %f0
retl
aes_dround23_l %f54, %f4, %f2, %f2
.type _aes128_decrypt_1x,#function
.size _aes128_decrypt_1x,.-_aes128_decrypt_1x
.align 32
_aes128_decrypt_2x:
___
for ($i=0; $i<4; $i++) {
$code.=<<___;
aes_dround01 %f`16+8*$i+0`, %f0, %f2, %f8
aes_dround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_dround01 %f`16+8*$i+0`, %f4, %f6, %f10
aes_dround23 %f`16+8*$i+2`, %f4, %f6, %f6
aes_dround01 %f`16+8*$i+4`, %f8, %f2, %f0
aes_dround23 %f`16+8*$i+6`, %f8, %f2, %f2
aes_dround01 %f`16+8*$i+4`, %f10, %f6, %f4
aes_dround23 %f`16+8*$i+6`, %f10, %f6, %f6
___
}
$code.=<<___;
aes_dround01 %f48, %f0, %f2, %f8
aes_dround23 %f50, %f0, %f2, %f2
aes_dround01 %f48, %f4, %f6, %f10
aes_dround23 %f50, %f4, %f6, %f6
aes_dround01_l %f52, %f8, %f2, %f0
aes_dround23_l %f54, %f8, %f2, %f2
aes_dround01_l %f52, %f10, %f6, %f4
retl
aes_dround23_l %f54, %f10, %f6, %f6
.type _aes128_decrypt_2x,#function
.size _aes128_decrypt_2x,.-_aes128_decrypt_2x
___
$code.=<<___;
.align 32
_aes192_encrypt_1x:
___
for ($i=0; $i<5; $i++) {
$code.=<<___;
aes_eround01 %f`16+8*$i+0`, %f0, %f2, %f4
aes_eround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_eround01 %f`16+8*$i+4`, %f4, %f2, %f0
aes_eround23 %f`16+8*$i+6`, %f4, %f2, %f2
___
}
$code.=<<___;
aes_eround01 %f56, %f0, %f2, %f4
aes_eround23 %f58, %f0, %f2, %f2
aes_eround01_l %f60, %f4, %f2, %f0
retl
aes_eround23_l %f62, %f4, %f2, %f2
.type _aes192_encrypt_1x,#function
.size _aes192_encrypt_1x,.-_aes192_encrypt_1x
.align 32
_aes192_encrypt_2x:
___
for ($i=0; $i<5; $i++) {
$code.=<<___;
aes_eround01 %f`16+8*$i+0`, %f0, %f2, %f8
aes_eround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_eround01 %f`16+8*$i+0`, %f4, %f6, %f10
aes_eround23 %f`16+8*$i+2`, %f4, %f6, %f6
aes_eround01 %f`16+8*$i+4`, %f8, %f2, %f0
aes_eround23 %f`16+8*$i+6`, %f8, %f2, %f2
aes_eround01 %f`16+8*$i+4`, %f10, %f6, %f4
aes_eround23 %f`16+8*$i+6`, %f10, %f6, %f6
___
}
$code.=<<___;
aes_eround01 %f56, %f0, %f2, %f8
aes_eround23 %f58, %f0, %f2, %f2
aes_eround01 %f56, %f4, %f6, %f10
aes_eround23 %f58, %f4, %f6, %f6
aes_eround01_l %f60, %f8, %f2, %f0
aes_eround23_l %f62, %f8, %f2, %f2
aes_eround01_l %f60, %f10, %f6, %f4
retl
aes_eround23_l %f62, %f10, %f6, %f6
.type _aes192_encrypt_2x,#function
.size _aes192_encrypt_2x,.-_aes192_encrypt_2x
.align 32
_aes256_encrypt_1x:
aes_eround01 %f16, %f0, %f2, %f4
aes_eround23 %f18, %f0, %f2, %f2
ldd [$key + 208], %f16
ldd [$key + 216], %f18
aes_eround01 %f20, %f4, %f2, %f0
aes_eround23 %f22, %f4, %f2, %f2
ldd [$key + 224], %f20
ldd [$key + 232], %f22
___
for ($i=1; $i<6; $i++) {
$code.=<<___;
aes_eround01 %f`16+8*$i+0`, %f0, %f2, %f4
aes_eround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_eround01 %f`16+8*$i+4`, %f4, %f2, %f0
aes_eround23 %f`16+8*$i+6`, %f4, %f2, %f2
___
}
$code.=<<___;
aes_eround01 %f16, %f0, %f2, %f4
aes_eround23 %f18, %f0, %f2, %f2
ldd [$key + 16], %f16
ldd [$key + 24], %f18
aes_eround01_l %f20, %f4, %f2, %f0
aes_eround23_l %f22, %f4, %f2, %f2
ldd [$key + 32], %f20
retl
ldd [$key + 40], %f22
.type _aes256_encrypt_1x,#function
.size _aes256_encrypt_1x,.-_aes256_encrypt_1x
.align 32
_aes256_encrypt_2x:
aes_eround01 %f16, %f0, %f2, %f8
aes_eround23 %f18, %f0, %f2, %f2
aes_eround01 %f16, %f4, %f6, %f10
aes_eround23 %f18, %f4, %f6, %f6
ldd [$key + 208], %f16
ldd [$key + 216], %f18
aes_eround01 %f20, %f8, %f2, %f0
aes_eround23 %f22, %f8, %f2, %f2
aes_eround01 %f20, %f10, %f6, %f4
aes_eround23 %f22, %f10, %f6, %f6
ldd [$key + 224], %f20
ldd [$key + 232], %f22
___
for ($i=1; $i<6; $i++) {
$code.=<<___;
aes_eround01 %f`16+8*$i+0`, %f0, %f2, %f8
aes_eround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_eround01 %f`16+8*$i+0`, %f4, %f6, %f10
aes_eround23 %f`16+8*$i+2`, %f4, %f6, %f6
aes_eround01 %f`16+8*$i+4`, %f8, %f2, %f0
aes_eround23 %f`16+8*$i+6`, %f8, %f2, %f2
aes_eround01 %f`16+8*$i+4`, %f10, %f6, %f4
aes_eround23 %f`16+8*$i+6`, %f10, %f6, %f6
___
}
$code.=<<___;
aes_eround01 %f16, %f0, %f2, %f8
aes_eround23 %f18, %f0, %f2, %f2
aes_eround01 %f16, %f4, %f6, %f10
aes_eround23 %f18, %f4, %f6, %f6
ldd [$key + 16], %f16
ldd [$key + 24], %f18
aes_eround01_l %f20, %f8, %f2, %f0
aes_eround23_l %f22, %f8, %f2, %f2
aes_eround01_l %f20, %f10, %f6, %f4
aes_eround23_l %f22, %f10, %f6, %f6
ldd [$key + 32], %f20
retl
ldd [$key + 40], %f22
.type _aes256_encrypt_2x,#function
.size _aes256_encrypt_2x,.-_aes256_encrypt_2x
.align 32
_aes192_loadkey:
ldx [$key + 0], %g4
ldx [$key + 8], %g5
___
for ($i=2; $i<26;$i++) { # load key schedule
$code.=<<___;
ldd [$key + `8*$i`], %f`12+2*$i`
___
}
$code.=<<___;
retl
nop
.type _aes192_loadkey,#function
.size _aes192_loadkey,.-_aes192_loadkey
_aes256_loadkey=_aes192_loadkey
_aes192_load_enckey=_aes192_loadkey
_aes192_load_deckey=_aes192_loadkey
_aes256_load_enckey=_aes192_loadkey
_aes256_load_deckey=_aes192_loadkey
___
&alg_cbc_encrypt_implement("aes",256);
&alg_cbc_encrypt_implement("aes",192);
if ($::evp) {
&alg_ctr32_implement("aes",256);
&alg_xts_implement("aes",256,"en");
&alg_xts_implement("aes",256,"de");
&alg_ctr32_implement("aes",192);
}
&alg_cbc_decrypt_implement("aes",192);
&alg_cbc_decrypt_implement("aes",256);
$code.=<<___;
.align 32
_aes256_decrypt_1x:
aes_dround01 %f16, %f0, %f2, %f4
aes_dround23 %f18, %f0, %f2, %f2
ldd [$key + 208], %f16
ldd [$key + 216], %f18
aes_dround01 %f20, %f4, %f2, %f0
aes_dround23 %f22, %f4, %f2, %f2
ldd [$key + 224], %f20
ldd [$key + 232], %f22
___
for ($i=1; $i<6; $i++) {
$code.=<<___;
aes_dround01 %f`16+8*$i+0`, %f0, %f2, %f4
aes_dround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_dround01 %f`16+8*$i+4`, %f4, %f2, %f0
aes_dround23 %f`16+8*$i+6`, %f4, %f2, %f2
___
}
$code.=<<___;
aes_dround01 %f16, %f0, %f2, %f4
aes_dround23 %f18, %f0, %f2, %f2
ldd [$key + 16], %f16
ldd [$key + 24], %f18
aes_dround01_l %f20, %f4, %f2, %f0
aes_dround23_l %f22, %f4, %f2, %f2
ldd [$key + 32], %f20
retl
ldd [$key + 40], %f22
.type _aes256_decrypt_1x,#function
.size _aes256_decrypt_1x,.-_aes256_decrypt_1x
.align 32
_aes256_decrypt_2x:
aes_dround01 %f16, %f0, %f2, %f8
aes_dround23 %f18, %f0, %f2, %f2
aes_dround01 %f16, %f4, %f6, %f10
aes_dround23 %f18, %f4, %f6, %f6
ldd [$key + 208], %f16
ldd [$key + 216], %f18
aes_dround01 %f20, %f8, %f2, %f0
aes_dround23 %f22, %f8, %f2, %f2
aes_dround01 %f20, %f10, %f6, %f4
aes_dround23 %f22, %f10, %f6, %f6
ldd [$key + 224], %f20
ldd [$key + 232], %f22
___
for ($i=1; $i<6; $i++) {
$code.=<<___;
aes_dround01 %f`16+8*$i+0`, %f0, %f2, %f8
aes_dround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_dround01 %f`16+8*$i+0`, %f4, %f6, %f10
aes_dround23 %f`16+8*$i+2`, %f4, %f6, %f6
aes_dround01 %f`16+8*$i+4`, %f8, %f2, %f0
aes_dround23 %f`16+8*$i+6`, %f8, %f2, %f2
aes_dround01 %f`16+8*$i+4`, %f10, %f6, %f4
aes_dround23 %f`16+8*$i+6`, %f10, %f6, %f6
___
}
$code.=<<___;
aes_dround01 %f16, %f0, %f2, %f8
aes_dround23 %f18, %f0, %f2, %f2
aes_dround01 %f16, %f4, %f6, %f10
aes_dround23 %f18, %f4, %f6, %f6
ldd [$key + 16], %f16
ldd [$key + 24], %f18
aes_dround01_l %f20, %f8, %f2, %f0
aes_dround23_l %f22, %f8, %f2, %f2
aes_dround01_l %f20, %f10, %f6, %f4
aes_dround23_l %f22, %f10, %f6, %f6
ldd [$key + 32], %f20
retl
ldd [$key + 40], %f22
.type _aes256_decrypt_2x,#function
.size _aes256_decrypt_2x,.-_aes256_decrypt_2x
.align 32
_aes192_decrypt_1x:
___
for ($i=0; $i<5; $i++) {
$code.=<<___;
aes_dround01 %f`16+8*$i+0`, %f0, %f2, %f4
aes_dround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_dround01 %f`16+8*$i+4`, %f4, %f2, %f0
aes_dround23 %f`16+8*$i+6`, %f4, %f2, %f2
___
}
$code.=<<___;
aes_dround01 %f56, %f0, %f2, %f4
aes_dround23 %f58, %f0, %f2, %f2
aes_dround01_l %f60, %f4, %f2, %f0
retl
aes_dround23_l %f62, %f4, %f2, %f2
.type _aes192_decrypt_1x,#function
.size _aes192_decrypt_1x,.-_aes192_decrypt_1x
.align 32
_aes192_decrypt_2x:
___
for ($i=0; $i<5; $i++) {
$code.=<<___;
aes_dround01 %f`16+8*$i+0`, %f0, %f2, %f8
aes_dround23 %f`16+8*$i+2`, %f0, %f2, %f2
aes_dround01 %f`16+8*$i+0`, %f4, %f6, %f10
aes_dround23 %f`16+8*$i+2`, %f4, %f6, %f6
aes_dround01 %f`16+8*$i+4`, %f8, %f2, %f0
aes_dround23 %f`16+8*$i+6`, %f8, %f2, %f2
aes_dround01 %f`16+8*$i+4`, %f10, %f6, %f4
aes_dround23 %f`16+8*$i+6`, %f10, %f6, %f6
___
}
$code.=<<___;
aes_dround01 %f56, %f0, %f2, %f8
aes_dround23 %f58, %f0, %f2, %f2
aes_dround01 %f56, %f4, %f6, %f10
aes_dround23 %f58, %f4, %f6, %f6
aes_dround01_l %f60, %f8, %f2, %f0
aes_dround23_l %f62, %f8, %f2, %f2
aes_dround01_l %f60, %f10, %f6, %f4
retl
aes_dround23_l %f62, %f10, %f6, %f6
.type _aes192_decrypt_2x,#function
.size _aes192_decrypt_2x,.-_aes192_decrypt_2x
___
}}}
if (!$::evp) {
$code.=<<___;
.global AES_encrypt
AES_encrypt=aes_t4_encrypt
.global AES_decrypt
AES_decrypt=aes_t4_decrypt
.global AES_set_encrypt_key
.align 32
AES_set_encrypt_key:
andcc %o2, 7, %g0 ! check alignment
bnz,a,pn %icc, 1f
mov -1, %o0
brz,a,pn %o0, 1f
mov -1, %o0
brz,a,pn %o2, 1f
mov -1, %o0
andncc %o1, 0x1c0, %g0
bnz,a,pn %icc, 1f
mov -2, %o0
cmp %o1, 128
bl,a,pn %icc, 1f
mov -2, %o0
b aes_t4_set_encrypt_key
nop
1: retl
nop
.type AES_set_encrypt_key,#function
.size AES_set_encrypt_key,.-AES_set_encrypt_key
.global AES_set_decrypt_key
.align 32
AES_set_decrypt_key:
andcc %o2, 7, %g0 ! check alignment
bnz,a,pn %icc, 1f
mov -1, %o0
brz,a,pn %o0, 1f
mov -1, %o0
brz,a,pn %o2, 1f
mov -1, %o0
andncc %o1, 0x1c0, %g0
bnz,a,pn %icc, 1f
mov -2, %o0
cmp %o1, 128
bl,a,pn %icc, 1f
mov -2, %o0
b aes_t4_set_decrypt_key
nop
1: retl
nop
.type AES_set_decrypt_key,#function
.size AES_set_decrypt_key,.-AES_set_decrypt_key
___
my ($inp,$out,$len,$key,$ivec,$enc)=map("%o$_",(0..5));
$code.=<<___;
.globl AES_cbc_encrypt
.align 32
AES_cbc_encrypt:
ld [$key + 240], %g1
nop
brz $enc, .Lcbc_decrypt
cmp %g1, 12
bl,pt %icc, aes128_t4_cbc_encrypt
nop
be,pn %icc, aes192_t4_cbc_encrypt
nop
ba aes256_t4_cbc_encrypt
nop
.Lcbc_decrypt:
bl,pt %icc, aes128_t4_cbc_decrypt
nop
be,pn %icc, aes192_t4_cbc_decrypt
nop
ba aes256_t4_cbc_decrypt
nop
.type AES_cbc_encrypt,#function
.size AES_cbc_encrypt,.-AES_cbc_encrypt
___
}
$code.=<<___;
.asciz "AES for SPARC T4, David S. Miller, Andy Polyakov"
.align 4
___
&emit_assembler();
close STDOUT;

989
openssl-1.0.2f/crypto/aes/asm/aesv8-armx.pl Executable file
View File

@@ -0,0 +1,989 @@
#!/usr/bin/env perl
#
# ====================================================================
# Written by Andy Polyakov <appro@openssl.org> for the OpenSSL
# project. The module is, however, dual licensed under OpenSSL and
# CRYPTOGAMS licenses depending on where you obtain it. For further
# details see http://www.openssl.org/~appro/cryptogams/.
# ====================================================================
#
# This module implements support for ARMv8 AES instructions. The
# module is endian-agnostic in sense that it supports both big- and
# little-endian cases. As does it support both 32- and 64-bit modes
# of operation. Latter is achieved by limiting amount of utilized
# registers to 16, which implies additional NEON load and integer
# instructions. This has no effect on mighty Apple A7, where results
# are literally equal to the theoretical estimates based on AES
# instruction latencies and issue rates. On Cortex-A53, an in-order
# execution core, this costs up to 10-15%, which is partially
# compensated by implementing dedicated code path for 128-bit
# CBC encrypt case. On Cortex-A57 parallelizable mode performance
# seems to be limited by sheer amount of NEON instructions...
#
# Performance in cycles per byte processed with 128-bit key:
#
# CBC enc CBC dec CTR
# Apple A7 2.39 1.20 1.20
# Cortex-A53 1.32 1.29 1.46
# Cortex-A57(*) 1.95 0.85 0.93
# Denver 1.96 0.86 0.80
#
# (*) original 3.64/1.34/1.32 results were for r0p0 revision
# and are still same even for updated module;
$flavour = shift;
open STDOUT,">".shift;
$prefix="aes_v8";
$code=<<___;
#include "arm_arch.h"
#if __ARM_MAX_ARCH__>=7
.text
___
$code.=".arch armv8-a+crypto\n" if ($flavour =~ /64/);
$code.=".arch armv7-a\n.fpu neon\n.code 32\n" if ($flavour !~ /64/);
#^^^^^^ this is done to simplify adoption by not depending
# on latest binutils.
# Assembler mnemonics are an eclectic mix of 32- and 64-bit syntax,
# NEON is mostly 32-bit mnemonics, integer - mostly 64. Goal is to
# maintain both 32- and 64-bit codes within single module and
# transliterate common code to either flavour with regex vodoo.
#
{{{
my ($inp,$bits,$out,$ptr,$rounds)=("x0","w1","x2","x3","w12");
my ($zero,$rcon,$mask,$in0,$in1,$tmp,$key)=
$flavour=~/64/? map("q$_",(0..6)) : map("q$_",(0..3,8..10));
$code.=<<___;
.align 5
rcon:
.long 0x01,0x01,0x01,0x01
.long 0x0c0f0e0d,0x0c0f0e0d,0x0c0f0e0d,0x0c0f0e0d // rotate-n-splat
.long 0x1b,0x1b,0x1b,0x1b
.globl ${prefix}_set_encrypt_key
.type ${prefix}_set_encrypt_key,%function
.align 5
${prefix}_set_encrypt_key:
.Lenc_key:
___
$code.=<<___ if ($flavour =~ /64/);
stp x29,x30,[sp,#-16]!
add x29,sp,#0
___
$code.=<<___;
mov $ptr,#-1
cmp $inp,#0
b.eq .Lenc_key_abort
cmp $out,#0
b.eq .Lenc_key_abort
mov $ptr,#-2
cmp $bits,#128
b.lt .Lenc_key_abort
cmp $bits,#256
b.gt .Lenc_key_abort
tst $bits,#0x3f
b.ne .Lenc_key_abort
adr $ptr,rcon
cmp $bits,#192
veor $zero,$zero,$zero
vld1.8 {$in0},[$inp],#16
mov $bits,#8 // reuse $bits
vld1.32 {$rcon,$mask},[$ptr],#32
b.lt .Loop128
b.eq .L192
b .L256
.align 4
.Loop128:
vtbl.8 $key,{$in0},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in0},[$out],#16
aese $key,$zero
subs $bits,$bits,#1
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $key,$key,$rcon
veor $in0,$in0,$tmp
vshl.u8 $rcon,$rcon,#1
veor $in0,$in0,$key
b.ne .Loop128
vld1.32 {$rcon},[$ptr]
vtbl.8 $key,{$in0},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in0},[$out],#16
aese $key,$zero
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $key,$key,$rcon
veor $in0,$in0,$tmp
vshl.u8 $rcon,$rcon,#1
veor $in0,$in0,$key
vtbl.8 $key,{$in0},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in0},[$out],#16
aese $key,$zero
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $key,$key,$rcon
veor $in0,$in0,$tmp
veor $in0,$in0,$key
vst1.32 {$in0},[$out]
add $out,$out,#0x50
mov $rounds,#10
b .Ldone
.align 4
.L192:
vld1.8 {$in1},[$inp],#8
vmov.i8 $key,#8 // borrow $key
vst1.32 {$in0},[$out],#16
vsub.i8 $mask,$mask,$key // adjust the mask
.Loop192:
vtbl.8 $key,{$in1},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in1},[$out],#8
aese $key,$zero
subs $bits,$bits,#1
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vdup.32 $tmp,${in0}[3]
veor $tmp,$tmp,$in1
veor $key,$key,$rcon
vext.8 $in1,$zero,$in1,#12
vshl.u8 $rcon,$rcon,#1
veor $in1,$in1,$tmp
veor $in0,$in0,$key
veor $in1,$in1,$key
vst1.32 {$in0},[$out],#16
b.ne .Loop192
mov $rounds,#12
add $out,$out,#0x20
b .Ldone
.align 4
.L256:
vld1.8 {$in1},[$inp]
mov $bits,#7
mov $rounds,#14
vst1.32 {$in0},[$out],#16
.Loop256:
vtbl.8 $key,{$in1},$mask
vext.8 $tmp,$zero,$in0,#12
vst1.32 {$in1},[$out],#16
aese $key,$zero
subs $bits,$bits,#1
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in0,$in0,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $key,$key,$rcon
veor $in0,$in0,$tmp
vshl.u8 $rcon,$rcon,#1
veor $in0,$in0,$key
vst1.32 {$in0},[$out],#16
b.eq .Ldone
vdup.32 $key,${in0}[3] // just splat
vext.8 $tmp,$zero,$in1,#12
aese $key,$zero
veor $in1,$in1,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in1,$in1,$tmp
vext.8 $tmp,$zero,$tmp,#12
veor $in1,$in1,$tmp
veor $in1,$in1,$key
b .Loop256
.Ldone:
str $rounds,[$out]
mov $ptr,#0
.Lenc_key_abort:
mov x0,$ptr // return value
`"ldr x29,[sp],#16" if ($flavour =~ /64/)`
ret
.size ${prefix}_set_encrypt_key,.-${prefix}_set_encrypt_key
.globl ${prefix}_set_decrypt_key
.type ${prefix}_set_decrypt_key,%function
.align 5
${prefix}_set_decrypt_key:
___
$code.=<<___ if ($flavour =~ /64/);
stp x29,x30,[sp,#-16]!
add x29,sp,#0
___
$code.=<<___ if ($flavour !~ /64/);
stmdb sp!,{r4,lr}
___
$code.=<<___;
bl .Lenc_key
cmp x0,#0
b.ne .Ldec_key_abort
sub $out,$out,#240 // restore original $out
mov x4,#-16
add $inp,$out,x12,lsl#4 // end of key schedule
vld1.32 {v0.16b},[$out]
vld1.32 {v1.16b},[$inp]
vst1.32 {v0.16b},[$inp],x4
vst1.32 {v1.16b},[$out],#16
.Loop_imc:
vld1.32 {v0.16b},[$out]
vld1.32 {v1.16b},[$inp]
aesimc v0.16b,v0.16b
aesimc v1.16b,v1.16b
vst1.32 {v0.16b},[$inp],x4
vst1.32 {v1.16b},[$out],#16
cmp $inp,$out
b.hi .Loop_imc
vld1.32 {v0.16b},[$out]
aesimc v0.16b,v0.16b
vst1.32 {v0.16b},[$inp]
eor x0,x0,x0 // return value
.Ldec_key_abort:
___
$code.=<<___ if ($flavour !~ /64/);
ldmia sp!,{r4,pc}
___
$code.=<<___ if ($flavour =~ /64/);
ldp x29,x30,[sp],#16
ret
___
$code.=<<___;
.size ${prefix}_set_decrypt_key,.-${prefix}_set_decrypt_key
___
}}}
{{{
sub gen_block () {
my $dir = shift;
my ($e,$mc) = $dir eq "en" ? ("e","mc") : ("d","imc");
my ($inp,$out,$key)=map("x$_",(0..2));
my $rounds="w3";
my ($rndkey0,$rndkey1,$inout)=map("q$_",(0..3));
$code.=<<___;
.globl ${prefix}_${dir}crypt
.type ${prefix}_${dir}crypt,%function
.align 5
${prefix}_${dir}crypt:
ldr $rounds,[$key,#240]
vld1.32 {$rndkey0},[$key],#16
vld1.8 {$inout},[$inp]
sub $rounds,$rounds,#2
vld1.32 {$rndkey1},[$key],#16
.Loop_${dir}c:
aes$e $inout,$rndkey0
aes$mc $inout,$inout
vld1.32 {$rndkey0},[$key],#16
subs $rounds,$rounds,#2
aes$e $inout,$rndkey1
aes$mc $inout,$inout
vld1.32 {$rndkey1},[$key],#16
b.gt .Loop_${dir}c
aes$e $inout,$rndkey0
aes$mc $inout,$inout
vld1.32 {$rndkey0},[$key]
aes$e $inout,$rndkey1
veor $inout,$inout,$rndkey0
vst1.8 {$inout},[$out]
ret
.size ${prefix}_${dir}crypt,.-${prefix}_${dir}crypt
___
}
&gen_block("en");
&gen_block("de");
}}}
{{{
my ($inp,$out,$len,$key,$ivp)=map("x$_",(0..4)); my $enc="w5";
my ($rounds,$cnt,$key_,$step,$step1)=($enc,"w6","x7","x8","x12");
my ($dat0,$dat1,$in0,$in1,$tmp0,$tmp1,$ivec,$rndlast)=map("q$_",(0..7));
my ($dat,$tmp,$rndzero_n_last)=($dat0,$tmp0,$tmp1);
my ($key4,$key5,$key6,$key7)=("x6","x12","x14",$key);
### q8-q15 preloaded key schedule
$code.=<<___;
.globl ${prefix}_cbc_encrypt
.type ${prefix}_cbc_encrypt,%function
.align 5
${prefix}_cbc_encrypt:
___
$code.=<<___ if ($flavour =~ /64/);
stp x29,x30,[sp,#-16]!
add x29,sp,#0
___
$code.=<<___ if ($flavour !~ /64/);
mov ip,sp
stmdb sp!,{r4-r8,lr}
vstmdb sp!,{d8-d15} @ ABI specification says so
ldmia ip,{r4-r5} @ load remaining args
___
$code.=<<___;
subs $len,$len,#16
mov $step,#16
b.lo .Lcbc_abort
cclr $step,eq
cmp $enc,#0 // en- or decrypting?
ldr $rounds,[$key,#240]
and $len,$len,#-16
vld1.8 {$ivec},[$ivp]
vld1.8 {$dat},[$inp],$step
vld1.32 {q8-q9},[$key] // load key schedule...
sub $rounds,$rounds,#6
add $key_,$key,x5,lsl#4 // pointer to last 7 round keys
sub $rounds,$rounds,#2
vld1.32 {q10-q11},[$key_],#32
vld1.32 {q12-q13},[$key_],#32
vld1.32 {q14-q15},[$key_],#32
vld1.32 {$rndlast},[$key_]
add $key_,$key,#32
mov $cnt,$rounds
b.eq .Lcbc_dec
cmp $rounds,#2
veor $dat,$dat,$ivec
veor $rndzero_n_last,q8,$rndlast
b.eq .Lcbc_enc128
vld1.32 {$in0-$in1},[$key_]
add $key_,$key,#16
add $key4,$key,#16*4
add $key5,$key,#16*5
aese $dat,q8
aesmc $dat,$dat
add $key6,$key,#16*6
add $key7,$key,#16*7
b .Lenter_cbc_enc
.align 4
.Loop_cbc_enc:
aese $dat,q8
aesmc $dat,$dat
vst1.8 {$ivec},[$out],#16
.Lenter_cbc_enc:
aese $dat,q9
aesmc $dat,$dat
aese $dat,$in0
aesmc $dat,$dat
vld1.32 {q8},[$key4]
cmp $rounds,#4
aese $dat,$in1
aesmc $dat,$dat
vld1.32 {q9},[$key5]
b.eq .Lcbc_enc192
aese $dat,q8
aesmc $dat,$dat
vld1.32 {q8},[$key6]
aese $dat,q9
aesmc $dat,$dat
vld1.32 {q9},[$key7]
nop
.Lcbc_enc192:
aese $dat,q8
aesmc $dat,$dat
subs $len,$len,#16
aese $dat,q9
aesmc $dat,$dat
cclr $step,eq
aese $dat,q10
aesmc $dat,$dat
aese $dat,q11
aesmc $dat,$dat
vld1.8 {q8},[$inp],$step
aese $dat,q12
aesmc $dat,$dat
veor q8,q8,$rndzero_n_last
aese $dat,q13
aesmc $dat,$dat
vld1.32 {q9},[$key_] // re-pre-load rndkey[1]
aese $dat,q14
aesmc $dat,$dat
aese $dat,q15
veor $ivec,$dat,$rndlast
b.hs .Loop_cbc_enc
vst1.8 {$ivec},[$out],#16
b .Lcbc_done
.align 5
.Lcbc_enc128:
vld1.32 {$in0-$in1},[$key_]
aese $dat,q8
aesmc $dat,$dat
b .Lenter_cbc_enc128
.Loop_cbc_enc128:
aese $dat,q8
aesmc $dat,$dat
vst1.8 {$ivec},[$out],#16
.Lenter_cbc_enc128:
aese $dat,q9
aesmc $dat,$dat
subs $len,$len,#16
aese $dat,$in0
aesmc $dat,$dat
cclr $step,eq
aese $dat,$in1
aesmc $dat,$dat
aese $dat,q10
aesmc $dat,$dat
aese $dat,q11
aesmc $dat,$dat
vld1.8 {q8},[$inp],$step
aese $dat,q12
aesmc $dat,$dat
aese $dat,q13
aesmc $dat,$dat
aese $dat,q14
aesmc $dat,$dat
veor q8,q8,$rndzero_n_last
aese $dat,q15
veor $ivec,$dat,$rndlast
b.hs .Loop_cbc_enc128
vst1.8 {$ivec},[$out],#16
b .Lcbc_done
___
{
my ($dat2,$in2,$tmp2)=map("q$_",(10,11,9));
$code.=<<___;
.align 5
.Lcbc_dec:
vld1.8 {$dat2},[$inp],#16
subs $len,$len,#32 // bias
add $cnt,$rounds,#2
vorr $in1,$dat,$dat
vorr $dat1,$dat,$dat
vorr $in2,$dat2,$dat2
b.lo .Lcbc_dec_tail
vorr $dat1,$dat2,$dat2
vld1.8 {$dat2},[$inp],#16
vorr $in0,$dat,$dat
vorr $in1,$dat1,$dat1
vorr $in2,$dat2,$dat2
.Loop3x_cbc_dec:
aesd $dat0,q8
aesimc $dat0,$dat0
aesd $dat1,q8
aesimc $dat1,$dat1
aesd $dat2,q8
aesimc $dat2,$dat2
vld1.32 {q8},[$key_],#16
subs $cnt,$cnt,#2
aesd $dat0,q9
aesimc $dat0,$dat0
aesd $dat1,q9
aesimc $dat1,$dat1
aesd $dat2,q9
aesimc $dat2,$dat2
vld1.32 {q9},[$key_],#16
b.gt .Loop3x_cbc_dec
aesd $dat0,q8
aesimc $dat0,$dat0
aesd $dat1,q8
aesimc $dat1,$dat1
aesd $dat2,q8
aesimc $dat2,$dat2
veor $tmp0,$ivec,$rndlast
subs $len,$len,#0x30
veor $tmp1,$in0,$rndlast
mov.lo x6,$len // x6, $cnt, is zero at this point
aesd $dat0,q9
aesimc $dat0,$dat0
aesd $dat1,q9
aesimc $dat1,$dat1
aesd $dat2,q9
aesimc $dat2,$dat2
veor $tmp2,$in1,$rndlast
add $inp,$inp,x6 // $inp is adjusted in such way that
// at exit from the loop $dat1-$dat2
// are loaded with last "words"
vorr $ivec,$in2,$in2
mov $key_,$key
aesd $dat0,q12
aesimc $dat0,$dat0
aesd $dat1,q12
aesimc $dat1,$dat1
aesd $dat2,q12
aesimc $dat2,$dat2
vld1.8 {$in0},[$inp],#16
aesd $dat0,q13
aesimc $dat0,$dat0
aesd $dat1,q13
aesimc $dat1,$dat1
aesd $dat2,q13
aesimc $dat2,$dat2
vld1.8 {$in1},[$inp],#16
aesd $dat0,q14
aesimc $dat0,$dat0
aesd $dat1,q14
aesimc $dat1,$dat1
aesd $dat2,q14
aesimc $dat2,$dat2
vld1.8 {$in2},[$inp],#16
aesd $dat0,q15
aesd $dat1,q15
aesd $dat2,q15
vld1.32 {q8},[$key_],#16 // re-pre-load rndkey[0]
add $cnt,$rounds,#2
veor $tmp0,$tmp0,$dat0
veor $tmp1,$tmp1,$dat1
veor $dat2,$dat2,$tmp2
vld1.32 {q9},[$key_],#16 // re-pre-load rndkey[1]
vst1.8 {$tmp0},[$out],#16
vorr $dat0,$in0,$in0
vst1.8 {$tmp1},[$out],#16
vorr $dat1,$in1,$in1
vst1.8 {$dat2},[$out],#16
vorr $dat2,$in2,$in2
b.hs .Loop3x_cbc_dec
cmn $len,#0x30
b.eq .Lcbc_done
nop
.Lcbc_dec_tail:
aesd $dat1,q8
aesimc $dat1,$dat1
aesd $dat2,q8
aesimc $dat2,$dat2
vld1.32 {q8},[$key_],#16
subs $cnt,$cnt,#2
aesd $dat1,q9
aesimc $dat1,$dat1
aesd $dat2,q9
aesimc $dat2,$dat2
vld1.32 {q9},[$key_],#16
b.gt .Lcbc_dec_tail
aesd $dat1,q8
aesimc $dat1,$dat1
aesd $dat2,q8
aesimc $dat2,$dat2
aesd $dat1,q9
aesimc $dat1,$dat1
aesd $dat2,q9
aesimc $dat2,$dat2
aesd $dat1,q12
aesimc $dat1,$dat1
aesd $dat2,q12
aesimc $dat2,$dat2
cmn $len,#0x20
aesd $dat1,q13
aesimc $dat1,$dat1
aesd $dat2,q13
aesimc $dat2,$dat2
veor $tmp1,$ivec,$rndlast
aesd $dat1,q14
aesimc $dat1,$dat1
aesd $dat2,q14
aesimc $dat2,$dat2
veor $tmp2,$in1,$rndlast
aesd $dat1,q15
aesd $dat2,q15
b.eq .Lcbc_dec_one
veor $tmp1,$tmp1,$dat1
veor $tmp2,$tmp2,$dat2
vorr $ivec,$in2,$in2
vst1.8 {$tmp1},[$out],#16
vst1.8 {$tmp2},[$out],#16
b .Lcbc_done
.Lcbc_dec_one:
veor $tmp1,$tmp1,$dat2
vorr $ivec,$in2,$in2
vst1.8 {$tmp1},[$out],#16
.Lcbc_done:
vst1.8 {$ivec},[$ivp]
.Lcbc_abort:
___
}
$code.=<<___ if ($flavour !~ /64/);
vldmia sp!,{d8-d15}
ldmia sp!,{r4-r8,pc}
___
$code.=<<___ if ($flavour =~ /64/);
ldr x29,[sp],#16
ret
___
$code.=<<___;
.size ${prefix}_cbc_encrypt,.-${prefix}_cbc_encrypt
___
}}}
{{{
my ($inp,$out,$len,$key,$ivp)=map("x$_",(0..4));
my ($rounds,$cnt,$key_)=("w5","w6","x7");
my ($ctr,$tctr0,$tctr1,$tctr2)=map("w$_",(8..10,12));
my $step="x12"; # aliases with $tctr2
my ($dat0,$dat1,$in0,$in1,$tmp0,$tmp1,$ivec,$rndlast)=map("q$_",(0..7));
my ($dat2,$in2,$tmp2)=map("q$_",(10,11,9));
my ($dat,$tmp)=($dat0,$tmp0);
### q8-q15 preloaded key schedule
$code.=<<___;
.globl ${prefix}_ctr32_encrypt_blocks
.type ${prefix}_ctr32_encrypt_blocks,%function
.align 5
${prefix}_ctr32_encrypt_blocks:
___
$code.=<<___ if ($flavour =~ /64/);
stp x29,x30,[sp,#-16]!
add x29,sp,#0
___
$code.=<<___ if ($flavour !~ /64/);
mov ip,sp
stmdb sp!,{r4-r10,lr}
vstmdb sp!,{d8-d15} @ ABI specification says so
ldr r4, [ip] @ load remaining arg
___
$code.=<<___;
ldr $rounds,[$key,#240]
ldr $ctr, [$ivp, #12]
vld1.32 {$dat0},[$ivp]
vld1.32 {q8-q9},[$key] // load key schedule...
sub $rounds,$rounds,#4
mov $step,#16
cmp $len,#2
add $key_,$key,x5,lsl#4 // pointer to last 5 round keys
sub $rounds,$rounds,#2
vld1.32 {q12-q13},[$key_],#32
vld1.32 {q14-q15},[$key_],#32
vld1.32 {$rndlast},[$key_]
add $key_,$key,#32
mov $cnt,$rounds
cclr $step,lo
#ifndef __ARMEB__
rev $ctr, $ctr
#endif
vorr $dat1,$dat0,$dat0
add $tctr1, $ctr, #1
vorr $dat2,$dat0,$dat0
add $ctr, $ctr, #2
vorr $ivec,$dat0,$dat0
rev $tctr1, $tctr1
vmov.32 ${dat1}[3],$tctr1
b.ls .Lctr32_tail
rev $tctr2, $ctr
sub $len,$len,#3 // bias
vmov.32 ${dat2}[3],$tctr2
b .Loop3x_ctr32
.align 4
.Loop3x_ctr32:
aese $dat0,q8
aesmc $dat0,$dat0
aese $dat1,q8
aesmc $dat1,$dat1
aese $dat2,q8
aesmc $dat2,$dat2
vld1.32 {q8},[$key_],#16
subs $cnt,$cnt,#2
aese $dat0,q9
aesmc $dat0,$dat0
aese $dat1,q9
aesmc $dat1,$dat1
aese $dat2,q9
aesmc $dat2,$dat2
vld1.32 {q9},[$key_],#16
b.gt .Loop3x_ctr32
aese $dat0,q8
aesmc $tmp0,$dat0
aese $dat1,q8
aesmc $tmp1,$dat1
vld1.8 {$in0},[$inp],#16
vorr $dat0,$ivec,$ivec
aese $dat2,q8
aesmc $dat2,$dat2
vld1.8 {$in1},[$inp],#16
vorr $dat1,$ivec,$ivec
aese $tmp0,q9
aesmc $tmp0,$tmp0
aese $tmp1,q9
aesmc $tmp1,$tmp1
vld1.8 {$in2},[$inp],#16
mov $key_,$key
aese $dat2,q9
aesmc $tmp2,$dat2
vorr $dat2,$ivec,$ivec
add $tctr0,$ctr,#1
aese $tmp0,q12
aesmc $tmp0,$tmp0
aese $tmp1,q12
aesmc $tmp1,$tmp1
veor $in0,$in0,$rndlast
add $tctr1,$ctr,#2
aese $tmp2,q12
aesmc $tmp2,$tmp2
veor $in1,$in1,$rndlast
add $ctr,$ctr,#3
aese $tmp0,q13
aesmc $tmp0,$tmp0
aese $tmp1,q13
aesmc $tmp1,$tmp1
veor $in2,$in2,$rndlast
rev $tctr0,$tctr0
aese $tmp2,q13
aesmc $tmp2,$tmp2
vmov.32 ${dat0}[3], $tctr0
rev $tctr1,$tctr1
aese $tmp0,q14
aesmc $tmp0,$tmp0
aese $tmp1,q14
aesmc $tmp1,$tmp1
vmov.32 ${dat1}[3], $tctr1
rev $tctr2,$ctr
aese $tmp2,q14
aesmc $tmp2,$tmp2
vmov.32 ${dat2}[3], $tctr2
subs $len,$len,#3
aese $tmp0,q15
aese $tmp1,q15
aese $tmp2,q15
veor $in0,$in0,$tmp0
vld1.32 {q8},[$key_],#16 // re-pre-load rndkey[0]
vst1.8 {$in0},[$out],#16
veor $in1,$in1,$tmp1
mov $cnt,$rounds
vst1.8 {$in1},[$out],#16
veor $in2,$in2,$tmp2
vld1.32 {q9},[$key_],#16 // re-pre-load rndkey[1]
vst1.8 {$in2},[$out],#16
b.hs .Loop3x_ctr32
adds $len,$len,#3
b.eq .Lctr32_done
cmp $len,#1
mov $step,#16
cclr $step,eq
.Lctr32_tail:
aese $dat0,q8
aesmc $dat0,$dat0
aese $dat1,q8
aesmc $dat1,$dat1
vld1.32 {q8},[$key_],#16
subs $cnt,$cnt,#2
aese $dat0,q9
aesmc $dat0,$dat0
aese $dat1,q9
aesmc $dat1,$dat1
vld1.32 {q9},[$key_],#16
b.gt .Lctr32_tail
aese $dat0,q8
aesmc $dat0,$dat0
aese $dat1,q8
aesmc $dat1,$dat1
aese $dat0,q9
aesmc $dat0,$dat0
aese $dat1,q9
aesmc $dat1,$dat1
vld1.8 {$in0},[$inp],$step
aese $dat0,q12
aesmc $dat0,$dat0
aese $dat1,q12
aesmc $dat1,$dat1
vld1.8 {$in1},[$inp]
aese $dat0,q13
aesmc $dat0,$dat0
aese $dat1,q13
aesmc $dat1,$dat1
veor $in0,$in0,$rndlast
aese $dat0,q14
aesmc $dat0,$dat0
aese $dat1,q14
aesmc $dat1,$dat1
veor $in1,$in1,$rndlast
aese $dat0,q15
aese $dat1,q15
cmp $len,#1
veor $in0,$in0,$dat0
veor $in1,$in1,$dat1
vst1.8 {$in0},[$out],#16
b.eq .Lctr32_done
vst1.8 {$in1},[$out]
.Lctr32_done:
___
$code.=<<___ if ($flavour !~ /64/);
vldmia sp!,{d8-d15}
ldmia sp!,{r4-r10,pc}
___
$code.=<<___ if ($flavour =~ /64/);
ldr x29,[sp],#16
ret
___
$code.=<<___;
.size ${prefix}_ctr32_encrypt_blocks,.-${prefix}_ctr32_encrypt_blocks
___
}}}
$code.=<<___;
#endif
___
########################################
if ($flavour =~ /64/) { ######## 64-bit code
my %opcode = (
"aesd" => 0x4e285800, "aese" => 0x4e284800,
"aesimc"=> 0x4e287800, "aesmc" => 0x4e286800 );
local *unaes = sub {
my ($mnemonic,$arg)=@_;
$arg =~ m/[qv]([0-9]+)[^,]*,\s*[qv]([0-9]+)/o &&
sprintf ".inst\t0x%08x\t//%s %s",
$opcode{$mnemonic}|$1|($2<<5),
$mnemonic,$arg;
};
foreach(split("\n",$code)) {
s/\`([^\`]*)\`/eval($1)/geo;
s/\bq([0-9]+)\b/"v".($1<8?$1:$1+8).".16b"/geo; # old->new registers
s/@\s/\/\//o; # old->new style commentary
#s/[v]?(aes\w+)\s+([qv].*)/unaes($1,$2)/geo or
s/cclr\s+([wx])([^,]+),\s*([a-z]+)/csel $1$2,$1zr,$1$2,$3/o or
s/mov\.([a-z]+)\s+([wx][0-9]+),\s*([wx][0-9]+)/csel $2,$3,$2,$1/o or
s/vmov\.i8/movi/o or # fix up legacy mnemonics
s/vext\.8/ext/o or
s/vrev32\.8/rev32/o or
s/vtst\.8/cmtst/o or
s/vshr/ushr/o or
s/^(\s+)v/$1/o or # strip off v prefix
s/\bbx\s+lr\b/ret/o;
# fix up remainig legacy suffixes
s/\.[ui]?8//o;
m/\],#8/o and s/\.16b/\.8b/go;
s/\.[ui]?32//o and s/\.16b/\.4s/go;
s/\.[ui]?64//o and s/\.16b/\.2d/go;
s/\.[42]([sd])\[([0-3])\]/\.$1\[$2\]/o;
print $_,"\n";
}
} else { ######## 32-bit code
my %opcode = (
"aesd" => 0xf3b00340, "aese" => 0xf3b00300,
"aesimc"=> 0xf3b003c0, "aesmc" => 0xf3b00380 );
local *unaes = sub {
my ($mnemonic,$arg)=@_;
if ($arg =~ m/[qv]([0-9]+)[^,]*,\s*[qv]([0-9]+)/o) {
my $word = $opcode{$mnemonic}|(($1&7)<<13)|(($1&8)<<19)
|(($2&7)<<1) |(($2&8)<<2);
# since ARMv7 instructions are always encoded little-endian.
# correct solution is to use .inst directive, but older
# assemblers don't implement it:-(
sprintf ".byte\t0x%02x,0x%02x,0x%02x,0x%02x\t@ %s %s",
$word&0xff,($word>>8)&0xff,
($word>>16)&0xff,($word>>24)&0xff,
$mnemonic,$arg;
}
};
sub unvtbl {
my $arg=shift;
$arg =~ m/q([0-9]+),\s*\{q([0-9]+)\},\s*q([0-9]+)/o &&
sprintf "vtbl.8 d%d,{q%d},d%d\n\t".
"vtbl.8 d%d,{q%d},d%d", 2*$1,$2,2*$3, 2*$1+1,$2,2*$3+1;
}
sub unvdup32 {
my $arg=shift;
$arg =~ m/q([0-9]+),\s*q([0-9]+)\[([0-3])\]/o &&
sprintf "vdup.32 q%d,d%d[%d]",$1,2*$2+($3>>1),$3&1;
}
sub unvmov32 {
my $arg=shift;
$arg =~ m/q([0-9]+)\[([0-3])\],(.*)/o &&
sprintf "vmov.32 d%d[%d],%s",2*$1+($2>>1),$2&1,$3;
}
foreach(split("\n",$code)) {
s/\`([^\`]*)\`/eval($1)/geo;
s/\b[wx]([0-9]+)\b/r$1/go; # new->old registers
s/\bv([0-9])\.[12468]+[bsd]\b/q$1/go; # new->old registers
s/\/\/\s?/@ /o; # new->old style commentary
# fix up remainig new-style suffixes
s/\{q([0-9]+)\},\s*\[(.+)\],#8/sprintf "{d%d},[$2]!",2*$1/eo or
s/\],#[0-9]+/]!/o;
s/[v]?(aes\w+)\s+([qv].*)/unaes($1,$2)/geo or
s/cclr\s+([^,]+),\s*([a-z]+)/mov$2 $1,#0/o or
s/vtbl\.8\s+(.*)/unvtbl($1)/geo or
s/vdup\.32\s+(.*)/unvdup32($1)/geo or
s/vmov\.32\s+(.*)/unvmov32($1)/geo or
s/^(\s+)b\./$1b/o or
s/^(\s+)mov\./$1mov/o or
s/^(\s+)ret/$1bx\tlr/o;
print $_,"\n";
}
}
close STDOUT;

2469
openssl-1.0.2f/crypto/aes/asm/bsaes-armv7.pl Normal file
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openssl-1.0.2f/crypto/aes/asm/bsaes-x86_64.pl Normal file
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#!/usr/bin/env perl
######################################################################
## Constant-time SSSE3 AES core implementation.
## version 0.1
##
## By Mike Hamburg (Stanford University), 2009
## Public domain.
##
## For details see http://shiftleft.org/papers/vector_aes/ and
## http://crypto.stanford.edu/vpaes/.
######################################################################
# September 2011.
#
# Port vpaes-x86_64.pl as 32-bit "almost" drop-in replacement for
# aes-586.pl. "Almost" refers to the fact that AES_cbc_encrypt
# doesn't handle partial vectors (doesn't have to if called from
# EVP only). "Drop-in" implies that this module doesn't share key
# schedule structure with the original nor does it make assumption
# about its alignment...
#
# Performance summary. aes-586.pl column lists large-block CBC
# encrypt/decrypt/with-hyper-threading-off(*) results in cycles per
# byte processed with 128-bit key, and vpaes-x86.pl column - [also
# large-block CBC] encrypt/decrypt.
#
# aes-586.pl vpaes-x86.pl
#
# Core 2(**) 28.1/41.4/18.3 21.9/25.2(***)
# Nehalem 27.9/40.4/18.1 10.2/11.9
# Atom 70.7/92.1/60.1 61.1/75.4(***)
# Silvermont 45.4/62.9/24.1 49.2/61.1(***)
#
# (*) "Hyper-threading" in the context refers rather to cache shared
# among multiple cores, than to specifically Intel HTT. As vast
# majority of contemporary cores share cache, slower code path
# is common place. In other words "with-hyper-threading-off"
# results are presented mostly for reference purposes.
#
# (**) "Core 2" refers to initial 65nm design, a.k.a. Conroe.
#
# (***) Less impressive improvement on Core 2 and Atom is due to slow
# pshufb, yet it's respectable +28%/64% improvement on Core 2
# and +15% on Atom (as implied, over "hyper-threading-safe"
# code path).
#
# <appro@openssl.org>
$0 =~ m/(.*[\/\\])[^\/\\]+$/; $dir=$1;
push(@INC,"${dir}","${dir}../../perlasm");
require "x86asm.pl";
&asm_init($ARGV[0],"vpaes-x86.pl",$x86only = $ARGV[$#ARGV] eq "386");
$PREFIX="vpaes";
my ($round, $base, $magic, $key, $const, $inp, $out)=
("eax", "ebx", "ecx", "edx","ebp", "esi","edi");
&static_label("_vpaes_consts");
&static_label("_vpaes_schedule_low_round");
&set_label("_vpaes_consts",64);
$k_inv=-0x30; # inv, inva
&data_word(0x0D080180,0x0E05060F,0x0A0B0C02,0x04070309);
&data_word(0x0F0B0780,0x01040A06,0x02050809,0x030D0E0C);
$k_s0F=-0x10; # s0F
&data_word(0x0F0F0F0F,0x0F0F0F0F,0x0F0F0F0F,0x0F0F0F0F);
$k_ipt=0x00; # input transform (lo, hi)
&data_word(0x5A2A7000,0xC2B2E898,0x52227808,0xCABAE090);
&data_word(0x317C4D00,0x4C01307D,0xB0FDCC81,0xCD80B1FC);
$k_sb1=0x20; # sb1u, sb1t
&data_word(0xCB503E00,0xB19BE18F,0x142AF544,0xA5DF7A6E);
&data_word(0xFAE22300,0x3618D415,0x0D2ED9EF,0x3BF7CCC1);
$k_sb2=0x40; # sb2u, sb2t
&data_word(0x0B712400,0xE27A93C6,0xBC982FCD,0x5EB7E955);
&data_word(0x0AE12900,0x69EB8840,0xAB82234A,0xC2A163C8);
$k_sbo=0x60; # sbou, sbot
&data_word(0x6FBDC700,0xD0D26D17,0xC502A878,0x15AABF7A);
&data_word(0x5FBB6A00,0xCFE474A5,0x412B35FA,0x8E1E90D1);
$k_mc_forward=0x80; # mc_forward
&data_word(0x00030201,0x04070605,0x080B0A09,0x0C0F0E0D);
&data_word(0x04070605,0x080B0A09,0x0C0F0E0D,0x00030201);
&data_word(0x080B0A09,0x0C0F0E0D,0x00030201,0x04070605);
&data_word(0x0C0F0E0D,0x00030201,0x04070605,0x080B0A09);
$k_mc_backward=0xc0; # mc_backward
&data_word(0x02010003,0x06050407,0x0A09080B,0x0E0D0C0F);
&data_word(0x0E0D0C0F,0x02010003,0x06050407,0x0A09080B);
&data_word(0x0A09080B,0x0E0D0C0F,0x02010003,0x06050407);
&data_word(0x06050407,0x0A09080B,0x0E0D0C0F,0x02010003);
$k_sr=0x100; # sr
&data_word(0x03020100,0x07060504,0x0B0A0908,0x0F0E0D0C);
&data_word(0x0F0A0500,0x030E0904,0x07020D08,0x0B06010C);
&data_word(0x0B020900,0x0F060D04,0x030A0108,0x070E050C);
&data_word(0x070A0D00,0x0B0E0104,0x0F020508,0x0306090C);
$k_rcon=0x140; # rcon
&data_word(0xAF9DEEB6,0x1F8391B9,0x4D7C7D81,0x702A9808);
$k_s63=0x150; # s63: all equal to 0x63 transformed
&data_word(0x5B5B5B5B,0x5B5B5B5B,0x5B5B5B5B,0x5B5B5B5B);
$k_opt=0x160; # output transform
&data_word(0xD6B66000,0xFF9F4929,0xDEBE6808,0xF7974121);
&data_word(0x50BCEC00,0x01EDBD51,0xB05C0CE0,0xE10D5DB1);
$k_deskew=0x180; # deskew tables: inverts the sbox's "skew"
&data_word(0x47A4E300,0x07E4A340,0x5DBEF91A,0x1DFEB95A);
&data_word(0x83EA6900,0x5F36B5DC,0xF49D1E77,0x2841C2AB);
##
## Decryption stuff
## Key schedule constants
##
$k_dksd=0x1a0; # decryption key schedule: invskew x*D
&data_word(0xA3E44700,0xFEB91A5D,0x5A1DBEF9,0x0740E3A4);
&data_word(0xB5368300,0x41C277F4,0xAB289D1E,0x5FDC69EA);
$k_dksb=0x1c0; # decryption key schedule: invskew x*B
&data_word(0x8550D500,0x9A4FCA1F,0x1CC94C99,0x03D65386);
&data_word(0xB6FC4A00,0x115BEDA7,0x7E3482C8,0xD993256F);
$k_dkse=0x1e0; # decryption key schedule: invskew x*E + 0x63
&data_word(0x1FC9D600,0xD5031CCA,0x994F5086,0x53859A4C);
&data_word(0x4FDC7BE8,0xA2319605,0x20B31487,0xCD5EF96A);
$k_dks9=0x200; # decryption key schedule: invskew x*9
&data_word(0x7ED9A700,0xB6116FC8,0x82255BFC,0x4AED9334);
&data_word(0x27143300,0x45765162,0xE9DAFDCE,0x8BB89FAC);
##
## Decryption stuff
## Round function constants
##
$k_dipt=0x220; # decryption input transform
&data_word(0x0B545F00,0x0F505B04,0x114E451A,0x154A411E);
&data_word(0x60056500,0x86E383E6,0xF491F194,0x12771772);
$k_dsb9=0x240; # decryption sbox output *9*u, *9*t
&data_word(0x9A86D600,0x851C0353,0x4F994CC9,0xCAD51F50);
&data_word(0xECD74900,0xC03B1789,0xB2FBA565,0x725E2C9E);
$k_dsbd=0x260; # decryption sbox output *D*u, *D*t
&data_word(0xE6B1A200,0x7D57CCDF,0x882A4439,0xF56E9B13);
&data_word(0x24C6CB00,0x3CE2FAF7,0x15DEEFD3,0x2931180D);
$k_dsbb=0x280; # decryption sbox output *B*u, *B*t
&data_word(0x96B44200,0xD0226492,0xB0F2D404,0x602646F6);
&data_word(0xCD596700,0xC19498A6,0x3255AA6B,0xF3FF0C3E);
$k_dsbe=0x2a0; # decryption sbox output *E*u, *E*t
&data_word(0x26D4D000,0x46F29296,0x64B4F6B0,0x22426004);
&data_word(0xFFAAC100,0x0C55A6CD,0x98593E32,0x9467F36B);
$k_dsbo=0x2c0; # decryption sbox final output
&data_word(0x7EF94000,0x1387EA53,0xD4943E2D,0xC7AA6DB9);
&data_word(0x93441D00,0x12D7560F,0xD8C58E9C,0xCA4B8159);
&asciz ("Vector Permutation AES for x86/SSSE3, Mike Hamburg (Stanford University)");
&align (64);
&function_begin_B("_vpaes_preheat");
&add ($const,&DWP(0,"esp"));
&movdqa ("xmm7",&QWP($k_inv,$const));
&movdqa ("xmm6",&QWP($k_s0F,$const));
&ret ();
&function_end_B("_vpaes_preheat");
##
## _aes_encrypt_core
##
## AES-encrypt %xmm0.
##
## Inputs:
## %xmm0 = input
## %xmm6-%xmm7 as in _vpaes_preheat
## (%edx) = scheduled keys
##
## Output in %xmm0
## Clobbers %xmm1-%xmm5, %eax, %ebx, %ecx, %edx
##
##
&function_begin_B("_vpaes_encrypt_core");
&mov ($magic,16);
&mov ($round,&DWP(240,$key));
&movdqa ("xmm1","xmm6")
&movdqa ("xmm2",&QWP($k_ipt,$const));
&pandn ("xmm1","xmm0");
&pand ("xmm0","xmm6");
&movdqu ("xmm5",&QWP(0,$key));
&pshufb ("xmm2","xmm0");
&movdqa ("xmm0",&QWP($k_ipt+16,$const));
&pxor ("xmm2","xmm5");
&psrld ("xmm1",4);
&add ($key,16);
&pshufb ("xmm0","xmm1");
&lea ($base,&DWP($k_mc_backward,$const));
&pxor ("xmm0","xmm2");
&jmp (&label("enc_entry"));
&set_label("enc_loop",16);
# middle of middle round
&movdqa ("xmm4",&QWP($k_sb1,$const)); # 4 : sb1u
&movdqa ("xmm0",&QWP($k_sb1+16,$const));# 0 : sb1t
&pshufb ("xmm4","xmm2"); # 4 = sb1u
&pshufb ("xmm0","xmm3"); # 0 = sb1t
&pxor ("xmm4","xmm5"); # 4 = sb1u + k
&movdqa ("xmm5",&QWP($k_sb2,$const)); # 4 : sb2u
&pxor ("xmm0","xmm4"); # 0 = A
&movdqa ("xmm1",&QWP(-0x40,$base,$magic));# .Lk_mc_forward[]
&pshufb ("xmm5","xmm2"); # 4 = sb2u
&movdqa ("xmm2",&QWP($k_sb2+16,$const));# 2 : sb2t
&movdqa ("xmm4",&QWP(0,$base,$magic)); # .Lk_mc_backward[]
&pshufb ("xmm2","xmm3"); # 2 = sb2t
&movdqa ("xmm3","xmm0"); # 3 = A
&pxor ("xmm2","xmm5"); # 2 = 2A
&pshufb ("xmm0","xmm1"); # 0 = B
&add ($key,16); # next key
&pxor ("xmm0","xmm2"); # 0 = 2A+B
&pshufb ("xmm3","xmm4"); # 3 = D
&add ($magic,16); # next mc
&pxor ("xmm3","xmm0"); # 3 = 2A+B+D
&pshufb ("xmm0","xmm1"); # 0 = 2B+C
&and ($magic,0x30); # ... mod 4
&sub ($round,1); # nr--
&pxor ("xmm0","xmm3"); # 0 = 2A+3B+C+D
&set_label("enc_entry");
# top of round
&movdqa ("xmm1","xmm6"); # 1 : i
&movdqa ("xmm5",&QWP($k_inv+16,$const));# 2 : a/k
&pandn ("xmm1","xmm0"); # 1 = i<<4
&psrld ("xmm1",4); # 1 = i
&pand ("xmm0","xmm6"); # 0 = k
&pshufb ("xmm5","xmm0"); # 2 = a/k
&movdqa ("xmm3","xmm7"); # 3 : 1/i
&pxor ("xmm0","xmm1"); # 0 = j
&pshufb ("xmm3","xmm1"); # 3 = 1/i
&movdqa ("xmm4","xmm7"); # 4 : 1/j
&pxor ("xmm3","xmm5"); # 3 = iak = 1/i + a/k
&pshufb ("xmm4","xmm0"); # 4 = 1/j
&movdqa ("xmm2","xmm7"); # 2 : 1/iak
&pxor ("xmm4","xmm5"); # 4 = jak = 1/j + a/k
&pshufb ("xmm2","xmm3"); # 2 = 1/iak
&movdqa ("xmm3","xmm7"); # 3 : 1/jak
&pxor ("xmm2","xmm0"); # 2 = io
&pshufb ("xmm3","xmm4"); # 3 = 1/jak
&movdqu ("xmm5",&QWP(0,$key));
&pxor ("xmm3","xmm1"); # 3 = jo
&jnz (&label("enc_loop"));
# middle of last round
&movdqa ("xmm4",&QWP($k_sbo,$const)); # 3 : sbou .Lk_sbo
&movdqa ("xmm0",&QWP($k_sbo+16,$const));# 3 : sbot .Lk_sbo+16
&pshufb ("xmm4","xmm2"); # 4 = sbou
&pxor ("xmm4","xmm5"); # 4 = sb1u + k
&pshufb ("xmm0","xmm3"); # 0 = sb1t
&movdqa ("xmm1",&QWP(0x40,$base,$magic));# .Lk_sr[]
&pxor ("xmm0","xmm4"); # 0 = A
&pshufb ("xmm0","xmm1");
&ret ();
&function_end_B("_vpaes_encrypt_core");
##
## Decryption core
##
## Same API as encryption core.
##
&function_begin_B("_vpaes_decrypt_core");
&lea ($base,&DWP($k_dsbd,$const));
&mov ($round,&DWP(240,$key));
&movdqa ("xmm1","xmm6");
&movdqa ("xmm2",&QWP($k_dipt-$k_dsbd,$base));
&pandn ("xmm1","xmm0");
&mov ($magic,$round);
&psrld ("xmm1",4)
&movdqu ("xmm5",&QWP(0,$key));
&shl ($magic,4);
&pand ("xmm0","xmm6");
&pshufb ("xmm2","xmm0");
&movdqa ("xmm0",&QWP($k_dipt-$k_dsbd+16,$base));
&xor ($magic,0x30);
&pshufb ("xmm0","xmm1");
&and ($magic,0x30);
&pxor ("xmm2","xmm5");
&movdqa ("xmm5",&QWP($k_mc_forward+48,$const));
&pxor ("xmm0","xmm2");
&add ($key,16);
&lea ($magic,&DWP($k_sr-$k_dsbd,$base,$magic));
&jmp (&label("dec_entry"));
&set_label("dec_loop",16);
##
## Inverse mix columns
##
&movdqa ("xmm4",&QWP(-0x20,$base)); # 4 : sb9u
&movdqa ("xmm1",&QWP(-0x10,$base)); # 0 : sb9t
&pshufb ("xmm4","xmm2"); # 4 = sb9u
&pshufb ("xmm1","xmm3"); # 0 = sb9t
&pxor ("xmm0","xmm4");
&movdqa ("xmm4",&QWP(0,$base)); # 4 : sbdu
&pxor ("xmm0","xmm1"); # 0 = ch
&movdqa ("xmm1",&QWP(0x10,$base)); # 0 : sbdt
&pshufb ("xmm4","xmm2"); # 4 = sbdu
&pshufb ("xmm0","xmm5"); # MC ch
&pshufb ("xmm1","xmm3"); # 0 = sbdt
&pxor ("xmm0","xmm4"); # 4 = ch
&movdqa ("xmm4",&QWP(0x20,$base)); # 4 : sbbu
&pxor ("xmm0","xmm1"); # 0 = ch
&movdqa ("xmm1",&QWP(0x30,$base)); # 0 : sbbt
&pshufb ("xmm4","xmm2"); # 4 = sbbu
&pshufb ("xmm0","xmm5"); # MC ch
&pshufb ("xmm1","xmm3"); # 0 = sbbt
&pxor ("xmm0","xmm4"); # 4 = ch
&movdqa ("xmm4",&QWP(0x40,$base)); # 4 : sbeu
&pxor ("xmm0","xmm1"); # 0 = ch
&movdqa ("xmm1",&QWP(0x50,$base)); # 0 : sbet
&pshufb ("xmm4","xmm2"); # 4 = sbeu
&pshufb ("xmm0","xmm5"); # MC ch
&pshufb ("xmm1","xmm3"); # 0 = sbet
&pxor ("xmm0","xmm4"); # 4 = ch
&add ($key,16); # next round key
&palignr("xmm5","xmm5",12);
&pxor ("xmm0","xmm1"); # 0 = ch
&sub ($round,1); # nr--
&set_label("dec_entry");
# top of round
&movdqa ("xmm1","xmm6"); # 1 : i
&movdqa ("xmm2",&QWP($k_inv+16,$const));# 2 : a/k
&pandn ("xmm1","xmm0"); # 1 = i<<4
&pand ("xmm0","xmm6"); # 0 = k
&psrld ("xmm1",4); # 1 = i
&pshufb ("xmm2","xmm0"); # 2 = a/k
&movdqa ("xmm3","xmm7"); # 3 : 1/i
&pxor ("xmm0","xmm1"); # 0 = j
&pshufb ("xmm3","xmm1"); # 3 = 1/i
&movdqa ("xmm4","xmm7"); # 4 : 1/j
&pxor ("xmm3","xmm2"); # 3 = iak = 1/i + a/k
&pshufb ("xmm4","xmm0"); # 4 = 1/j
&pxor ("xmm4","xmm2"); # 4 = jak = 1/j + a/k
&movdqa ("xmm2","xmm7"); # 2 : 1/iak
&pshufb ("xmm2","xmm3"); # 2 = 1/iak
&movdqa ("xmm3","xmm7"); # 3 : 1/jak
&pxor ("xmm2","xmm0"); # 2 = io
&pshufb ("xmm3","xmm4"); # 3 = 1/jak
&movdqu ("xmm0",&QWP(0,$key));
&pxor ("xmm3","xmm1"); # 3 = jo
&jnz (&label("dec_loop"));
# middle of last round
&movdqa ("xmm4",&QWP(0x60,$base)); # 3 : sbou
&pshufb ("xmm4","xmm2"); # 4 = sbou
&pxor ("xmm4","xmm0"); # 4 = sb1u + k
&movdqa ("xmm0",&QWP(0x70,$base)); # 0 : sbot
&movdqa ("xmm2",&QWP(0,$magic));
&pshufb ("xmm0","xmm3"); # 0 = sb1t
&pxor ("xmm0","xmm4"); # 0 = A
&pshufb ("xmm0","xmm2");
&ret ();
&function_end_B("_vpaes_decrypt_core");
########################################################
## ##
## AES key schedule ##
## ##
########################################################
&function_begin_B("_vpaes_schedule_core");
&add ($const,&DWP(0,"esp"));
&movdqu ("xmm0",&QWP(0,$inp)); # load key (unaligned)
&movdqa ("xmm2",&QWP($k_rcon,$const)); # load rcon
# input transform
&movdqa ("xmm3","xmm0");
&lea ($base,&DWP($k_ipt,$const));
&movdqa (&QWP(4,"esp"),"xmm2"); # xmm8
&call ("_vpaes_schedule_transform");
&movdqa ("xmm7","xmm0");
&test ($out,$out);
&jnz (&label("schedule_am_decrypting"));
# encrypting, output zeroth round key after transform
&movdqu (&QWP(0,$key),"xmm0");
&jmp (&label("schedule_go"));
&set_label("schedule_am_decrypting");
# decrypting, output zeroth round key after shiftrows
&movdqa ("xmm1",&QWP($k_sr,$const,$magic));
&pshufb ("xmm3","xmm1");
&movdqu (&QWP(0,$key),"xmm3");
&xor ($magic,0x30);
&set_label("schedule_go");
&cmp ($round,192);
&ja (&label("schedule_256"));
&je (&label("schedule_192"));
# 128: fall though
##
## .schedule_128
##
## 128-bit specific part of key schedule.
##
## This schedule is really simple, because all its parts
## are accomplished by the subroutines.
##
&set_label("schedule_128");
&mov ($round,10);
&set_label("loop_schedule_128");
&call ("_vpaes_schedule_round");
&dec ($round);
&jz (&label("schedule_mangle_last"));
&call ("_vpaes_schedule_mangle"); # write output
&jmp (&label("loop_schedule_128"));
##
## .aes_schedule_192
##
## 192-bit specific part of key schedule.
##
## The main body of this schedule is the same as the 128-bit
## schedule, but with more smearing. The long, high side is
## stored in %xmm7 as before, and the short, low side is in
## the high bits of %xmm6.
##
## This schedule is somewhat nastier, however, because each
## round produces 192 bits of key material, or 1.5 round keys.
## Therefore, on each cycle we do 2 rounds and produce 3 round
## keys.
##
&set_label("schedule_192",16);
&movdqu ("xmm0",&QWP(8,$inp)); # load key part 2 (very unaligned)
&call ("_vpaes_schedule_transform"); # input transform
&movdqa ("xmm6","xmm0"); # save short part
&pxor ("xmm4","xmm4"); # clear 4
&movhlps("xmm6","xmm4"); # clobber low side with zeros
&mov ($round,4);
&set_label("loop_schedule_192");
&call ("_vpaes_schedule_round");
&palignr("xmm0","xmm6",8);
&call ("_vpaes_schedule_mangle"); # save key n
&call ("_vpaes_schedule_192_smear");
&call ("_vpaes_schedule_mangle"); # save key n+1
&call ("_vpaes_schedule_round");
&dec ($round);
&jz (&label("schedule_mangle_last"));
&call ("_vpaes_schedule_mangle"); # save key n+2
&call ("_vpaes_schedule_192_smear");
&jmp (&label("loop_schedule_192"));
##
## .aes_schedule_256
##
## 256-bit specific part of key schedule.
##
## The structure here is very similar to the 128-bit
## schedule, but with an additional "low side" in
## %xmm6. The low side's rounds are the same as the
## high side's, except no rcon and no rotation.
##
&set_label("schedule_256",16);
&movdqu ("xmm0",&QWP(16,$inp)); # load key part 2 (unaligned)
&call ("_vpaes_schedule_transform"); # input transform
&mov ($round,7);
&set_label("loop_schedule_256");
&call ("_vpaes_schedule_mangle"); # output low result
&movdqa ("xmm6","xmm0"); # save cur_lo in xmm6
# high round
&call ("_vpaes_schedule_round");
&dec ($round);
&jz (&label("schedule_mangle_last"));
&call ("_vpaes_schedule_mangle");
# low round. swap xmm7 and xmm6
&pshufd ("xmm0","xmm0",0xFF);
&movdqa (&QWP(20,"esp"),"xmm7");
&movdqa ("xmm7","xmm6");
&call ("_vpaes_schedule_low_round");
&movdqa ("xmm7",&QWP(20,"esp"));
&jmp (&label("loop_schedule_256"));
##
## .aes_schedule_mangle_last
##
## Mangler for last round of key schedule
## Mangles %xmm0
## when encrypting, outputs out(%xmm0) ^ 63
## when decrypting, outputs unskew(%xmm0)
##
## Always called right before return... jumps to cleanup and exits
##
&set_label("schedule_mangle_last",16);
# schedule last round key from xmm0
&lea ($base,&DWP($k_deskew,$const));
&test ($out,$out);
&jnz (&label("schedule_mangle_last_dec"));
# encrypting
&movdqa ("xmm1",&QWP($k_sr,$const,$magic));
&pshufb ("xmm0","xmm1"); # output permute
&lea ($base,&DWP($k_opt,$const)); # prepare to output transform
&add ($key,32);
&set_label("schedule_mangle_last_dec");
&add ($key,-16);
&pxor ("xmm0",&QWP($k_s63,$const));
&call ("_vpaes_schedule_transform"); # output transform
&movdqu (&QWP(0,$key),"xmm0"); # save last key
# cleanup
&pxor ("xmm0","xmm0");
&pxor ("xmm1","xmm1");
&pxor ("xmm2","xmm2");
&pxor ("xmm3","xmm3");
&pxor ("xmm4","xmm4");
&pxor ("xmm5","xmm5");
&pxor ("xmm6","xmm6");
&pxor ("xmm7","xmm7");
&ret ();
&function_end_B("_vpaes_schedule_core");
##
## .aes_schedule_192_smear
##
## Smear the short, low side in the 192-bit key schedule.
##
## Inputs:
## %xmm7: high side, b a x y
## %xmm6: low side, d c 0 0
## %xmm13: 0
##
## Outputs:
## %xmm6: b+c+d b+c 0 0
## %xmm0: b+c+d b+c b a
##
&function_begin_B("_vpaes_schedule_192_smear");
&pshufd ("xmm1","xmm6",0x80); # d c 0 0 -> c 0 0 0
&pshufd ("xmm0","xmm7",0xFE); # b a _ _ -> b b b a
&pxor ("xmm6","xmm1"); # -> c+d c 0 0
&pxor ("xmm1","xmm1");
&pxor ("xmm6","xmm0"); # -> b+c+d b+c b a
&movdqa ("xmm0","xmm6");
&movhlps("xmm6","xmm1"); # clobber low side with zeros
&ret ();
&function_end_B("_vpaes_schedule_192_smear");
##
## .aes_schedule_round
##
## Runs one main round of the key schedule on %xmm0, %xmm7
##
## Specifically, runs subbytes on the high dword of %xmm0
## then rotates it by one byte and xors into the low dword of
## %xmm7.
##
## Adds rcon from low byte of %xmm8, then rotates %xmm8 for
## next rcon.
##
## Smears the dwords of %xmm7 by xoring the low into the
## second low, result into third, result into highest.
##
## Returns results in %xmm7 = %xmm0.
## Clobbers %xmm1-%xmm5.
##
&function_begin_B("_vpaes_schedule_round");
# extract rcon from xmm8
&movdqa ("xmm2",&QWP(8,"esp")); # xmm8
&pxor ("xmm1","xmm1");
&palignr("xmm1","xmm2",15);
&palignr("xmm2","xmm2",15);
&pxor ("xmm7","xmm1");
# rotate
&pshufd ("xmm0","xmm0",0xFF);
&palignr("xmm0","xmm0",1);
# fall through...
&movdqa (&QWP(8,"esp"),"xmm2"); # xmm8
# low round: same as high round, but no rotation and no rcon.
&set_label("_vpaes_schedule_low_round");
# smear xmm7
&movdqa ("xmm1","xmm7");
&pslldq ("xmm7",4);
&pxor ("xmm7","xmm1");
&movdqa ("xmm1","xmm7");
&pslldq ("xmm7",8);
&pxor ("xmm7","xmm1");
&pxor ("xmm7",&QWP($k_s63,$const));
# subbyte
&movdqa ("xmm4",&QWP($k_s0F,$const));
&movdqa ("xmm5",&QWP($k_inv,$const)); # 4 : 1/j
&movdqa ("xmm1","xmm4");
&pandn ("xmm1","xmm0");
&psrld ("xmm1",4); # 1 = i
&pand ("xmm0","xmm4"); # 0 = k
&movdqa ("xmm2",&QWP($k_inv+16,$const));# 2 : a/k
&pshufb ("xmm2","xmm0"); # 2 = a/k
&pxor ("xmm0","xmm1"); # 0 = j
&movdqa ("xmm3","xmm5"); # 3 : 1/i
&pshufb ("xmm3","xmm1"); # 3 = 1/i
&pxor ("xmm3","xmm2"); # 3 = iak = 1/i + a/k
&movdqa ("xmm4","xmm5"); # 4 : 1/j
&pshufb ("xmm4","xmm0"); # 4 = 1/j
&pxor ("xmm4","xmm2"); # 4 = jak = 1/j + a/k
&movdqa ("xmm2","xmm5"); # 2 : 1/iak
&pshufb ("xmm2","xmm3"); # 2 = 1/iak
&pxor ("xmm2","xmm0"); # 2 = io
&movdqa ("xmm3","xmm5"); # 3 : 1/jak
&pshufb ("xmm3","xmm4"); # 3 = 1/jak
&pxor ("xmm3","xmm1"); # 3 = jo
&movdqa ("xmm4",&QWP($k_sb1,$const)); # 4 : sbou
&pshufb ("xmm4","xmm2"); # 4 = sbou
&movdqa ("xmm0",&QWP($k_sb1+16,$const));# 0 : sbot
&pshufb ("xmm0","xmm3"); # 0 = sb1t
&pxor ("xmm0","xmm4"); # 0 = sbox output
# add in smeared stuff
&pxor ("xmm0","xmm7");
&movdqa ("xmm7","xmm0");
&ret ();
&function_end_B("_vpaes_schedule_round");
##
## .aes_schedule_transform
##
## Linear-transform %xmm0 according to tables at (%ebx)
##
## Output in %xmm0
## Clobbers %xmm1, %xmm2
##
&function_begin_B("_vpaes_schedule_transform");
&movdqa ("xmm2",&QWP($k_s0F,$const));
&movdqa ("xmm1","xmm2");
&pandn ("xmm1","xmm0");
&psrld ("xmm1",4);
&pand ("xmm0","xmm2");
&movdqa ("xmm2",&QWP(0,$base));
&pshufb ("xmm2","xmm0");
&movdqa ("xmm0",&QWP(16,$base));
&pshufb ("xmm0","xmm1");
&pxor ("xmm0","xmm2");
&ret ();
&function_end_B("_vpaes_schedule_transform");
##
## .aes_schedule_mangle
##
## Mangle xmm0 from (basis-transformed) standard version
## to our version.
##
## On encrypt,
## xor with 0x63
## multiply by circulant 0,1,1,1
## apply shiftrows transform
##
## On decrypt,
## xor with 0x63
## multiply by "inverse mixcolumns" circulant E,B,D,9
## deskew
## apply shiftrows transform
##
##
## Writes out to (%edx), and increments or decrements it
## Keeps track of round number mod 4 in %ecx
## Preserves xmm0
## Clobbers xmm1-xmm5
##
&function_begin_B("_vpaes_schedule_mangle");
&movdqa ("xmm4","xmm0"); # save xmm0 for later
&movdqa ("xmm5",&QWP($k_mc_forward,$const));
&test ($out,$out);
&jnz (&label("schedule_mangle_dec"));
# encrypting
&add ($key,16);
&pxor ("xmm4",&QWP($k_s63,$const));
&pshufb ("xmm4","xmm5");
&movdqa ("xmm3","xmm4");
&pshufb ("xmm4","xmm5");
&pxor ("xmm3","xmm4");
&pshufb ("xmm4","xmm5");
&pxor ("xmm3","xmm4");
&jmp (&label("schedule_mangle_both"));
&set_label("schedule_mangle_dec",16);
# inverse mix columns
&movdqa ("xmm2",&QWP($k_s0F,$const));
&lea ($inp,&DWP($k_dksd,$const));
&movdqa ("xmm1","xmm2");
&pandn ("xmm1","xmm4");
&psrld ("xmm1",4); # 1 = hi
&pand ("xmm4","xmm2"); # 4 = lo
&movdqa ("xmm2",&QWP(0,$inp));
&pshufb ("xmm2","xmm4");
&movdqa ("xmm3",&QWP(0x10,$inp));
&pshufb ("xmm3","xmm1");
&pxor ("xmm3","xmm2");
&pshufb ("xmm3","xmm5");
&movdqa ("xmm2",&QWP(0x20,$inp));
&pshufb ("xmm2","xmm4");
&pxor ("xmm2","xmm3");
&movdqa ("xmm3",&QWP(0x30,$inp));
&pshufb ("xmm3","xmm1");
&pxor ("xmm3","xmm2");
&pshufb ("xmm3","xmm5");
&movdqa ("xmm2",&QWP(0x40,$inp));
&pshufb ("xmm2","xmm4");
&pxor ("xmm2","xmm3");
&movdqa ("xmm3",&QWP(0x50,$inp));
&pshufb ("xmm3","xmm1");
&pxor ("xmm3","xmm2");
&pshufb ("xmm3","xmm5");
&movdqa ("xmm2",&QWP(0x60,$inp));
&pshufb ("xmm2","xmm4");
&pxor ("xmm2","xmm3");
&movdqa ("xmm3",&QWP(0x70,$inp));
&pshufb ("xmm3","xmm1");
&pxor ("xmm3","xmm2");
&add ($key,-16);
&set_label("schedule_mangle_both");
&movdqa ("xmm1",&QWP($k_sr,$const,$magic));
&pshufb ("xmm3","xmm1");
&add ($magic,-16);
&and ($magic,0x30);
&movdqu (&QWP(0,$key),"xmm3");
&ret ();
&function_end_B("_vpaes_schedule_mangle");
#
# Interface to OpenSSL
#
&function_begin("${PREFIX}_set_encrypt_key");
&mov ($inp,&wparam(0)); # inp
&lea ($base,&DWP(-56,"esp"));
&mov ($round,&wparam(1)); # bits
&and ($base,-16);
&mov ($key,&wparam(2)); # key
&xchg ($base,"esp"); # alloca
&mov (&DWP(48,"esp"),$base);
&mov ($base,$round);
&shr ($base,5);
&add ($base,5);
&mov (&DWP(240,$key),$base); # AES_KEY->rounds = nbits/32+5;
&mov ($magic,0x30);
&mov ($out,0);
&lea ($const,&DWP(&label("_vpaes_consts")."+0x30-".&label("pic_point")));
&call ("_vpaes_schedule_core");
&set_label("pic_point");
&mov ("esp",&DWP(48,"esp"));
&xor ("eax","eax");
&function_end("${PREFIX}_set_encrypt_key");
&function_begin("${PREFIX}_set_decrypt_key");
&mov ($inp,&wparam(0)); # inp
&lea ($base,&DWP(-56,"esp"));
&mov ($round,&wparam(1)); # bits
&and ($base,-16);
&mov ($key,&wparam(2)); # key
&xchg ($base,"esp"); # alloca
&mov (&DWP(48,"esp"),$base);
&mov ($base,$round);
&shr ($base,5);
&add ($base,5);
&mov (&DWP(240,$key),$base); # AES_KEY->rounds = nbits/32+5;
&shl ($base,4);
&lea ($key,&DWP(16,$key,$base));
&mov ($out,1);
&mov ($magic,$round);
&shr ($magic,1);
&and ($magic,32);
&xor ($magic,32); # nbist==192?0:32;
&lea ($const,&DWP(&label("_vpaes_consts")."+0x30-".&label("pic_point")));
&call ("_vpaes_schedule_core");
&set_label("pic_point");
&mov ("esp",&DWP(48,"esp"));
&xor ("eax","eax");
&function_end("${PREFIX}_set_decrypt_key");
&function_begin("${PREFIX}_encrypt");
&lea ($const,&DWP(&label("_vpaes_consts")."+0x30-".&label("pic_point")));
&call ("_vpaes_preheat");
&set_label("pic_point");
&mov ($inp,&wparam(0)); # inp
&lea ($base,&DWP(-56,"esp"));
&mov ($out,&wparam(1)); # out
&and ($base,-16);
&mov ($key,&wparam(2)); # key
&xchg ($base,"esp"); # alloca
&mov (&DWP(48,"esp"),$base);
&movdqu ("xmm0",&QWP(0,$inp));
&call ("_vpaes_encrypt_core");
&movdqu (&QWP(0,$out),"xmm0");
&mov ("esp",&DWP(48,"esp"));
&function_end("${PREFIX}_encrypt");
&function_begin("${PREFIX}_decrypt");
&lea ($const,&DWP(&label("_vpaes_consts")."+0x30-".&label("pic_point")));
&call ("_vpaes_preheat");
&set_label("pic_point");
&mov ($inp,&wparam(0)); # inp
&lea ($base,&DWP(-56,"esp"));
&mov ($out,&wparam(1)); # out
&and ($base,-16);
&mov ($key,&wparam(2)); # key
&xchg ($base,"esp"); # alloca
&mov (&DWP(48,"esp"),$base);
&movdqu ("xmm0",&QWP(0,$inp));
&call ("_vpaes_decrypt_core");
&movdqu (&QWP(0,$out),"xmm0");
&mov ("esp",&DWP(48,"esp"));
&function_end("${PREFIX}_decrypt");
&function_begin("${PREFIX}_cbc_encrypt");
&mov ($inp,&wparam(0)); # inp
&mov ($out,&wparam(1)); # out
&mov ($round,&wparam(2)); # len
&mov ($key,&wparam(3)); # key
&sub ($round,16);
&jc (&label("cbc_abort"));
&lea ($base,&DWP(-56,"esp"));
&mov ($const,&wparam(4)); # ivp
&and ($base,-16);
&mov ($magic,&wparam(5)); # enc
&xchg ($base,"esp"); # alloca
&movdqu ("xmm1",&QWP(0,$const)); # load IV
&sub ($out,$inp);
&mov (&DWP(48,"esp"),$base);
&mov (&DWP(0,"esp"),$out); # save out
&mov (&DWP(4,"esp"),$key) # save key
&mov (&DWP(8,"esp"),$const); # save ivp
&mov ($out,$round); # $out works as $len
&lea ($const,&DWP(&label("_vpaes_consts")."+0x30-".&label("pic_point")));
&call ("_vpaes_preheat");
&set_label("pic_point");
&cmp ($magic,0);
&je (&label("cbc_dec_loop"));
&jmp (&label("cbc_enc_loop"));
&set_label("cbc_enc_loop",16);
&movdqu ("xmm0",&QWP(0,$inp)); # load input
&pxor ("xmm0","xmm1"); # inp^=iv
&call ("_vpaes_encrypt_core");
&mov ($base,&DWP(0,"esp")); # restore out
&mov ($key,&DWP(4,"esp")); # restore key
&movdqa ("xmm1","xmm0");
&movdqu (&QWP(0,$base,$inp),"xmm0"); # write output
&lea ($inp,&DWP(16,$inp));
&sub ($out,16);
&jnc (&label("cbc_enc_loop"));
&jmp (&label("cbc_done"));
&set_label("cbc_dec_loop",16);
&movdqu ("xmm0",&QWP(0,$inp)); # load input
&movdqa (&QWP(16,"esp"),"xmm1"); # save IV
&movdqa (&QWP(32,"esp"),"xmm0"); # save future IV
&call ("_vpaes_decrypt_core");
&mov ($base,&DWP(0,"esp")); # restore out
&mov ($key,&DWP(4,"esp")); # restore key
&pxor ("xmm0",&QWP(16,"esp")); # out^=iv
&movdqa ("xmm1",&QWP(32,"esp")); # load next IV
&movdqu (&QWP(0,$base,$inp),"xmm0"); # write output
&lea ($inp,&DWP(16,$inp));
&sub ($out,16);
&jnc (&label("cbc_dec_loop"));
&set_label("cbc_done");
&mov ($base,&DWP(8,"esp")); # restore ivp
&mov ("esp",&DWP(48,"esp"));
&movdqu (&QWP(0,$base),"xmm1"); # write IV
&set_label("cbc_abort");
&function_end("${PREFIX}_cbc_encrypt");
&asm_finish();

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.text
.type _vpaes_encrypt_core,@function
.align 16
_vpaes_encrypt_core:
movq %rdx,%r9
movq $16,%r11
movl 240(%rdx),%eax
movdqa %xmm9,%xmm1
movdqa .Lk_ipt(%rip),%xmm2
pandn %xmm0,%xmm1
movdqu (%r9),%xmm5
psrld $4,%xmm1
pand %xmm9,%xmm0
.byte 102,15,56,0,208
movdqa .Lk_ipt+16(%rip),%xmm0
.byte 102,15,56,0,193
pxor %xmm5,%xmm2
addq $16,%r9
pxor %xmm2,%xmm0
leaq .Lk_mc_backward(%rip),%r10
jmp .Lenc_entry
.align 16
.Lenc_loop:
movdqa %xmm13,%xmm4
movdqa %xmm12,%xmm0
.byte 102,15,56,0,226
.byte 102,15,56,0,195
pxor %xmm5,%xmm4
movdqa %xmm15,%xmm5
pxor %xmm4,%xmm0
movdqa -64(%r11,%r10,1),%xmm1
.byte 102,15,56,0,234
movdqa (%r11,%r10,1),%xmm4
movdqa %xmm14,%xmm2
.byte 102,15,56,0,211
movdqa %xmm0,%xmm3
pxor %xmm5,%xmm2
.byte 102,15,56,0,193
addq $16,%r9
pxor %xmm2,%xmm0
.byte 102,15,56,0,220
addq $16,%r11
pxor %xmm0,%xmm3
.byte 102,15,56,0,193
andq $48,%r11
subq $1,%rax
pxor %xmm3,%xmm0
.Lenc_entry:
movdqa %xmm9,%xmm1
movdqa %xmm11,%xmm5
pandn %xmm0,%xmm1
psrld $4,%xmm1
pand %xmm9,%xmm0
.byte 102,15,56,0,232
movdqa %xmm10,%xmm3
pxor %xmm1,%xmm0
.byte 102,15,56,0,217
movdqa %xmm10,%xmm4
pxor %xmm5,%xmm3
.byte 102,15,56,0,224
movdqa %xmm10,%xmm2
pxor %xmm5,%xmm4
.byte 102,15,56,0,211
movdqa %xmm10,%xmm3
pxor %xmm0,%xmm2
.byte 102,15,56,0,220
movdqu (%r9),%xmm5
pxor %xmm1,%xmm3
jnz .Lenc_loop
movdqa -96(%r10),%xmm4
movdqa -80(%r10),%xmm0
.byte 102,15,56,0,226
pxor %xmm5,%xmm4
.byte 102,15,56,0,195
movdqa 64(%r11,%r10,1),%xmm1
pxor %xmm4,%xmm0
.byte 102,15,56,0,193
.byte 0xf3,0xc3
.size _vpaes_encrypt_core,.-_vpaes_encrypt_core
.type _vpaes_decrypt_core,@function
.align 16
_vpaes_decrypt_core:
movq %rdx,%r9
movl 240(%rdx),%eax
movdqa %xmm9,%xmm1
movdqa .Lk_dipt(%rip),%xmm2
pandn %xmm0,%xmm1
movq %rax,%r11
psrld $4,%xmm1
movdqu (%r9),%xmm5
shlq $4,%r11
pand %xmm9,%xmm0
.byte 102,15,56,0,208
movdqa .Lk_dipt+16(%rip),%xmm0
xorq $48,%r11
leaq .Lk_dsbd(%rip),%r10
.byte 102,15,56,0,193
andq $48,%r11
pxor %xmm5,%xmm2
movdqa .Lk_mc_forward+48(%rip),%xmm5
pxor %xmm2,%xmm0
addq $16,%r9
addq %r10,%r11
jmp .Ldec_entry
.align 16
.Ldec_loop:
movdqa -32(%r10),%xmm4
movdqa -16(%r10),%xmm1
.byte 102,15,56,0,226
.byte 102,15,56,0,203
pxor %xmm4,%xmm0
movdqa 0(%r10),%xmm4
pxor %xmm1,%xmm0
movdqa 16(%r10),%xmm1
.byte 102,15,56,0,226
.byte 102,15,56,0,197
.byte 102,15,56,0,203
pxor %xmm4,%xmm0
movdqa 32(%r10),%xmm4
pxor %xmm1,%xmm0
movdqa 48(%r10),%xmm1
.byte 102,15,56,0,226
.byte 102,15,56,0,197
.byte 102,15,56,0,203
pxor %xmm4,%xmm0
movdqa 64(%r10),%xmm4
pxor %xmm1,%xmm0
movdqa 80(%r10),%xmm1
.byte 102,15,56,0,226
.byte 102,15,56,0,197
.byte 102,15,56,0,203
pxor %xmm4,%xmm0
addq $16,%r9
.byte 102,15,58,15,237,12
pxor %xmm1,%xmm0
subq $1,%rax
.Ldec_entry:
movdqa %xmm9,%xmm1
pandn %xmm0,%xmm1
movdqa %xmm11,%xmm2
psrld $4,%xmm1
pand %xmm9,%xmm0
.byte 102,15,56,0,208
movdqa %xmm10,%xmm3
pxor %xmm1,%xmm0
.byte 102,15,56,0,217
movdqa %xmm10,%xmm4
pxor %xmm2,%xmm3
.byte 102,15,56,0,224
pxor %xmm2,%xmm4
movdqa %xmm10,%xmm2
.byte 102,15,56,0,211
movdqa %xmm10,%xmm3
pxor %xmm0,%xmm2
.byte 102,15,56,0,220
movdqu (%r9),%xmm0
pxor %xmm1,%xmm3
jnz .Ldec_loop
movdqa 96(%r10),%xmm4
.byte 102,15,56,0,226
pxor %xmm0,%xmm4
movdqa 112(%r10),%xmm0
movdqa -352(%r11),%xmm2
.byte 102,15,56,0,195
pxor %xmm4,%xmm0
.byte 102,15,56,0,194
.byte 0xf3,0xc3
.size _vpaes_decrypt_core,.-_vpaes_decrypt_core
.type _vpaes_schedule_core,@function
.align 16
_vpaes_schedule_core:
call _vpaes_preheat
movdqa .Lk_rcon(%rip),%xmm8
movdqu (%rdi),%xmm0
movdqa %xmm0,%xmm3
leaq .Lk_ipt(%rip),%r11
call _vpaes_schedule_transform
movdqa %xmm0,%xmm7
leaq .Lk_sr(%rip),%r10
testq %rcx,%rcx
jnz .Lschedule_am_decrypting
movdqu %xmm0,(%rdx)
jmp .Lschedule_go
.Lschedule_am_decrypting:
movdqa (%r8,%r10,1),%xmm1
.byte 102,15,56,0,217
movdqu %xmm3,(%rdx)
xorq $48,%r8
.Lschedule_go:
cmpl $192,%esi
ja .Lschedule_256
je .Lschedule_192
.Lschedule_128:
movl $10,%esi
.Loop_schedule_128:
call _vpaes_schedule_round
decq %rsi
jz .Lschedule_mangle_last
call _vpaes_schedule_mangle
jmp .Loop_schedule_128
.align 16
.Lschedule_192:
movdqu 8(%rdi),%xmm0
call _vpaes_schedule_transform
movdqa %xmm0,%xmm6
pxor %xmm4,%xmm4
movhlps %xmm4,%xmm6
movl $4,%esi
.Loop_schedule_192:
call _vpaes_schedule_round
.byte 102,15,58,15,198,8
call _vpaes_schedule_mangle
call _vpaes_schedule_192_smear
call _vpaes_schedule_mangle
call _vpaes_schedule_round
decq %rsi
jz .Lschedule_mangle_last
call _vpaes_schedule_mangle
call _vpaes_schedule_192_smear
jmp .Loop_schedule_192
.align 16
.Lschedule_256:
movdqu 16(%rdi),%xmm0
call _vpaes_schedule_transform
movl $7,%esi
.Loop_schedule_256:
call _vpaes_schedule_mangle
movdqa %xmm0,%xmm6
call _vpaes_schedule_round
decq %rsi
jz .Lschedule_mangle_last
call _vpaes_schedule_mangle
pshufd $255,%xmm0,%xmm0
movdqa %xmm7,%xmm5
movdqa %xmm6,%xmm7
call _vpaes_schedule_low_round
movdqa %xmm5,%xmm7
jmp .Loop_schedule_256
.align 16
.Lschedule_mangle_last:
leaq .Lk_deskew(%rip),%r11
testq %rcx,%rcx
jnz .Lschedule_mangle_last_dec
movdqa (%r8,%r10,1),%xmm1
.byte 102,15,56,0,193
leaq .Lk_opt(%rip),%r11
addq $32,%rdx
.Lschedule_mangle_last_dec:
addq $-16,%rdx
pxor .Lk_s63(%rip),%xmm0
call _vpaes_schedule_transform
movdqu %xmm0,(%rdx)
pxor %xmm0,%xmm0
pxor %xmm1,%xmm1
pxor %xmm2,%xmm2
pxor %xmm3,%xmm3
pxor %xmm4,%xmm4
pxor %xmm5,%xmm5
pxor %xmm6,%xmm6
pxor %xmm7,%xmm7
.byte 0xf3,0xc3
.size _vpaes_schedule_core,.-_vpaes_schedule_core
.type _vpaes_schedule_192_smear,@function
.align 16
_vpaes_schedule_192_smear:
pshufd $128,%xmm6,%xmm1
pshufd $254,%xmm7,%xmm0
pxor %xmm1,%xmm6
pxor %xmm1,%xmm1
pxor %xmm0,%xmm6
movdqa %xmm6,%xmm0
movhlps %xmm1,%xmm6
.byte 0xf3,0xc3
.size _vpaes_schedule_192_smear,.-_vpaes_schedule_192_smear
.type _vpaes_schedule_round,@function
.align 16
_vpaes_schedule_round:
pxor %xmm1,%xmm1
.byte 102,65,15,58,15,200,15
.byte 102,69,15,58,15,192,15
pxor %xmm1,%xmm7
pshufd $255,%xmm0,%xmm0
.byte 102,15,58,15,192,1
_vpaes_schedule_low_round:
movdqa %xmm7,%xmm1
pslldq $4,%xmm7
pxor %xmm1,%xmm7
movdqa %xmm7,%xmm1
pslldq $8,%xmm7
pxor %xmm1,%xmm7
pxor .Lk_s63(%rip),%xmm7
movdqa %xmm9,%xmm1
pandn %xmm0,%xmm1
psrld $4,%xmm1
pand %xmm9,%xmm0
movdqa %xmm11,%xmm2
.byte 102,15,56,0,208
pxor %xmm1,%xmm0
movdqa %xmm10,%xmm3
.byte 102,15,56,0,217
pxor %xmm2,%xmm3
movdqa %xmm10,%xmm4
.byte 102,15,56,0,224
pxor %xmm2,%xmm4
movdqa %xmm10,%xmm2
.byte 102,15,56,0,211
pxor %xmm0,%xmm2
movdqa %xmm10,%xmm3
.byte 102,15,56,0,220
pxor %xmm1,%xmm3
movdqa %xmm13,%xmm4
.byte 102,15,56,0,226
movdqa %xmm12,%xmm0
.byte 102,15,56,0,195
pxor %xmm4,%xmm0
pxor %xmm7,%xmm0
movdqa %xmm0,%xmm7
.byte 0xf3,0xc3
.size _vpaes_schedule_round,.-_vpaes_schedule_round
.type _vpaes_schedule_transform,@function
.align 16
_vpaes_schedule_transform:
movdqa %xmm9,%xmm1
pandn %xmm0,%xmm1
psrld $4,%xmm1
pand %xmm9,%xmm0
movdqa (%r11),%xmm2
.byte 102,15,56,0,208
movdqa 16(%r11),%xmm0
.byte 102,15,56,0,193
pxor %xmm2,%xmm0
.byte 0xf3,0xc3
.size _vpaes_schedule_transform,.-_vpaes_schedule_transform
.type _vpaes_schedule_mangle,@function
.align 16
_vpaes_schedule_mangle:
movdqa %xmm0,%xmm4
movdqa .Lk_mc_forward(%rip),%xmm5
testq %rcx,%rcx
jnz .Lschedule_mangle_dec
addq $16,%rdx
pxor .Lk_s63(%rip),%xmm4
.byte 102,15,56,0,229
movdqa %xmm4,%xmm3
.byte 102,15,56,0,229
pxor %xmm4,%xmm3
.byte 102,15,56,0,229
pxor %xmm4,%xmm3
jmp .Lschedule_mangle_both
.align 16
.Lschedule_mangle_dec:
leaq .Lk_dksd(%rip),%r11
movdqa %xmm9,%xmm1
pandn %xmm4,%xmm1
psrld $4,%xmm1
pand %xmm9,%xmm4
movdqa 0(%r11),%xmm2
.byte 102,15,56,0,212
movdqa 16(%r11),%xmm3
.byte 102,15,56,0,217
pxor %xmm2,%xmm3
.byte 102,15,56,0,221
movdqa 32(%r11),%xmm2
.byte 102,15,56,0,212
pxor %xmm3,%xmm2
movdqa 48(%r11),%xmm3
.byte 102,15,56,0,217
pxor %xmm2,%xmm3
.byte 102,15,56,0,221
movdqa 64(%r11),%xmm2
.byte 102,15,56,0,212
pxor %xmm3,%xmm2
movdqa 80(%r11),%xmm3
.byte 102,15,56,0,217
pxor %xmm2,%xmm3
.byte 102,15,56,0,221
movdqa 96(%r11),%xmm2
.byte 102,15,56,0,212
pxor %xmm3,%xmm2
movdqa 112(%r11),%xmm3
.byte 102,15,56,0,217
pxor %xmm2,%xmm3
addq $-16,%rdx
.Lschedule_mangle_both:
movdqa (%r8,%r10,1),%xmm1
.byte 102,15,56,0,217
addq $-16,%r8
andq $48,%r8
movdqu %xmm3,(%rdx)
.byte 0xf3,0xc3
.size _vpaes_schedule_mangle,.-_vpaes_schedule_mangle
.globl vpaes_set_encrypt_key
.type vpaes_set_encrypt_key,@function
.align 16
vpaes_set_encrypt_key:
movl %esi,%eax
shrl $5,%eax
addl $5,%eax
movl %eax,240(%rdx)
movl $0,%ecx
movl $48,%r8d
call _vpaes_schedule_core
xorl %eax,%eax
.byte 0xf3,0xc3
.size vpaes_set_encrypt_key,.-vpaes_set_encrypt_key
.globl vpaes_set_decrypt_key
.type vpaes_set_decrypt_key,@function
.align 16
vpaes_set_decrypt_key:
movl %esi,%eax
shrl $5,%eax
addl $5,%eax
movl %eax,240(%rdx)
shll $4,%eax
leaq 16(%rdx,%rax,1),%rdx
movl $1,%ecx
movl %esi,%r8d
shrl $1,%r8d
andl $32,%r8d
xorl $32,%r8d
call _vpaes_schedule_core
xorl %eax,%eax
.byte 0xf3,0xc3
.size vpaes_set_decrypt_key,.-vpaes_set_decrypt_key
.globl vpaes_encrypt
.type vpaes_encrypt,@function
.align 16
vpaes_encrypt:
movdqu (%rdi),%xmm0
call _vpaes_preheat
call _vpaes_encrypt_core
movdqu %xmm0,(%rsi)
.byte 0xf3,0xc3
.size vpaes_encrypt,.-vpaes_encrypt
.globl vpaes_decrypt
.type vpaes_decrypt,@function
.align 16
vpaes_decrypt:
movdqu (%rdi),%xmm0
call _vpaes_preheat
call _vpaes_decrypt_core
movdqu %xmm0,(%rsi)
.byte 0xf3,0xc3
.size vpaes_decrypt,.-vpaes_decrypt
.globl vpaes_cbc_encrypt
.type vpaes_cbc_encrypt,@function
.align 16
vpaes_cbc_encrypt:
xchgq %rcx,%rdx
subq $16,%rcx
jc .Lcbc_abort
movdqu (%r8),%xmm6
subq %rdi,%rsi
call _vpaes_preheat
cmpl $0,%r9d
je .Lcbc_dec_loop
jmp .Lcbc_enc_loop
.align 16
.Lcbc_enc_loop:
movdqu (%rdi),%xmm0
pxor %xmm6,%xmm0
call _vpaes_encrypt_core
movdqa %xmm0,%xmm6
movdqu %xmm0,(%rsi,%rdi,1)
leaq 16(%rdi),%rdi
subq $16,%rcx
jnc .Lcbc_enc_loop
jmp .Lcbc_done
.align 16
.Lcbc_dec_loop:
movdqu (%rdi),%xmm0
movdqa %xmm0,%xmm7
call _vpaes_decrypt_core
pxor %xmm6,%xmm0
movdqa %xmm7,%xmm6
movdqu %xmm0,(%rsi,%rdi,1)
leaq 16(%rdi),%rdi
subq $16,%rcx
jnc .Lcbc_dec_loop
.Lcbc_done:
movdqu %xmm6,(%r8)
.Lcbc_abort:
.byte 0xf3,0xc3
.size vpaes_cbc_encrypt,.-vpaes_cbc_encrypt
.type _vpaes_preheat,@function
.align 16
_vpaes_preheat:
leaq .Lk_s0F(%rip),%r10
movdqa -32(%r10),%xmm10
movdqa -16(%r10),%xmm11
movdqa 0(%r10),%xmm9
movdqa 48(%r10),%xmm13
movdqa 64(%r10),%xmm12
movdqa 80(%r10),%xmm15
movdqa 96(%r10),%xmm14
.byte 0xf3,0xc3
.size _vpaes_preheat,.-_vpaes_preheat
.type _vpaes_consts,@object
.align 64
_vpaes_consts:
.Lk_inv:
.quad 0x0E05060F0D080180, 0x040703090A0B0C02
.quad 0x01040A060F0B0780, 0x030D0E0C02050809
.Lk_s0F:
.quad 0x0F0F0F0F0F0F0F0F, 0x0F0F0F0F0F0F0F0F
.Lk_ipt:
.quad 0xC2B2E8985A2A7000, 0xCABAE09052227808
.quad 0x4C01307D317C4D00, 0xCD80B1FCB0FDCC81
.Lk_sb1:
.quad 0xB19BE18FCB503E00, 0xA5DF7A6E142AF544
.quad 0x3618D415FAE22300, 0x3BF7CCC10D2ED9EF
.Lk_sb2:
.quad 0xE27A93C60B712400, 0x5EB7E955BC982FCD
.quad 0x69EB88400AE12900, 0xC2A163C8AB82234A
.Lk_sbo:
.quad 0xD0D26D176FBDC700, 0x15AABF7AC502A878
.quad 0xCFE474A55FBB6A00, 0x8E1E90D1412B35FA
.Lk_mc_forward:
.quad 0x0407060500030201, 0x0C0F0E0D080B0A09
.quad 0x080B0A0904070605, 0x000302010C0F0E0D
.quad 0x0C0F0E0D080B0A09, 0x0407060500030201
.quad 0x000302010C0F0E0D, 0x080B0A0904070605
.Lk_mc_backward:
.quad 0x0605040702010003, 0x0E0D0C0F0A09080B
.quad 0x020100030E0D0C0F, 0x0A09080B06050407
.quad 0x0E0D0C0F0A09080B, 0x0605040702010003
.quad 0x0A09080B06050407, 0x020100030E0D0C0F
.Lk_sr:
.quad 0x0706050403020100, 0x0F0E0D0C0B0A0908
.quad 0x030E09040F0A0500, 0x0B06010C07020D08
.quad 0x0F060D040B020900, 0x070E050C030A0108
.quad 0x0B0E0104070A0D00, 0x0306090C0F020508
.Lk_rcon:
.quad 0x1F8391B9AF9DEEB6, 0x702A98084D7C7D81
.Lk_s63:
.quad 0x5B5B5B5B5B5B5B5B, 0x5B5B5B5B5B5B5B5B
.Lk_opt:
.quad 0xFF9F4929D6B66000, 0xF7974121DEBE6808
.quad 0x01EDBD5150BCEC00, 0xE10D5DB1B05C0CE0
.Lk_deskew:
.quad 0x07E4A34047A4E300, 0x1DFEB95A5DBEF91A
.quad 0x5F36B5DC83EA6900, 0x2841C2ABF49D1E77
.Lk_dksd:
.quad 0xFEB91A5DA3E44700, 0x0740E3A45A1DBEF9
.quad 0x41C277F4B5368300, 0x5FDC69EAAB289D1E
.Lk_dksb:
.quad 0x9A4FCA1F8550D500, 0x03D653861CC94C99
.quad 0x115BEDA7B6FC4A00, 0xD993256F7E3482C8
.Lk_dkse:
.quad 0xD5031CCA1FC9D600, 0x53859A4C994F5086
.quad 0xA23196054FDC7BE8, 0xCD5EF96A20B31487
.Lk_dks9:
.quad 0xB6116FC87ED9A700, 0x4AED933482255BFC
.quad 0x4576516227143300, 0x8BB89FACE9DAFDCE
.Lk_dipt:
.quad 0x0F505B040B545F00, 0x154A411E114E451A
.quad 0x86E383E660056500, 0x12771772F491F194
.Lk_dsb9:
.quad 0x851C03539A86D600, 0xCAD51F504F994CC9
.quad 0xC03B1789ECD74900, 0x725E2C9EB2FBA565
.Lk_dsbd:
.quad 0x7D57CCDFE6B1A200, 0xF56E9B13882A4439
.quad 0x3CE2FAF724C6CB00, 0x2931180D15DEEFD3
.Lk_dsbb:
.quad 0xD022649296B44200, 0x602646F6B0F2D404
.quad 0xC19498A6CD596700, 0xF3FF0C3E3255AA6B
.Lk_dsbe:
.quad 0x46F2929626D4D000, 0x2242600464B4F6B0
.quad 0x0C55A6CDFFAAC100, 0x9467F36B98593E32
.Lk_dsbo:
.quad 0x1387EA537EF94000, 0xC7AA6DB9D4943E2D
.quad 0x12D7560F93441D00, 0xCA4B8159D8C58E9C
.byte 86,101,99,116,111,114,32,80,101,114,109,117,116,97,116,105,111,110,32,65,69,83,32,102,111,114,32,120,56,54,95,54,52,47,83,83,83,69,51,44,32,77,105,107,101,32,72,97,109,98,117,114,103,32,40,83,116,97,110,102,111,114,100,32,85,110,105,118,101,114,115,105,116,121,41,0
.align 64
.size _vpaes_consts,.-_vpaes_consts