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Commit
2e4a168b
authored
Jul 02, 2020
by
KNOT team
Committed by
Enrico Pozzobon
Jul 05, 2020
Browse files
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Plain Diff
knot armcortexm_3
parent
32c03519
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Showing
16 changed files
with
1607 additions
and
0 deletions
+1607
-0
knot/Implementations/crypto_aead/knot128v1/armcortexm_3/api.h
+9
-0
knot/Implementations/crypto_aead/knot128v1/armcortexm_3/auxFormat.h
+68
-0
knot/Implementations/crypto_aead/knot128v1/armcortexm_3/crypto_aead.h
+18
-0
knot/Implementations/crypto_aead/knot128v1/armcortexm_3/encrypt.c
+246
-0
knot/Implementations/crypto_aead/knot128v2/armcortexm_3/api.h
+8
-0
knot/Implementations/crypto_aead/knot128v2/armcortexm_3/auxFormat.h
+142
-0
knot/Implementations/crypto_aead/knot128v2/armcortexm_3/crypto_aead.h
+17
-0
knot/Implementations/crypto_aead/knot128v2/armcortexm_3/encrypt.c
+263
-0
knot/Implementations/crypto_aead/knot192/armcortexm_3/api.h
+6
-0
knot/Implementations/crypto_aead/knot192/armcortexm_3/auxFormat.h
+128
-0
knot/Implementations/crypto_aead/knot192/armcortexm_3/crypto_aead.h
+18
-0
knot/Implementations/crypto_aead/knot192/armcortexm_3/encrypt.c
+214
-0
knot/Implementations/crypto_aead/knot256/armcortexm_3/api.h
+8
-0
knot/Implementations/crypto_aead/knot256/armcortexm_3/auxFormat.h
+114
-0
knot/Implementations/crypto_aead/knot256/armcortexm_3/crypto_aead.h
+17
-0
knot/Implementations/crypto_aead/knot256/armcortexm_3/encrypt.c
+331
-0
No files found.
knot/Implementations/crypto_aead/knot128v1/armcortexm_3/api.h
0 → 100644
View file @
2e4a168b
#define CRYPTO_KEYBYTES 16 //
#define CRYPTO_NSECBYTES 0
#define CRYPTO_NPUBBYTES 16
#define CRYPTO_ABYTES 16
#define CRYPTO_NOOVERLAP 1
knot/Implementations/crypto_aead/knot128v1/armcortexm_3/auxFormat.h
0 → 100644
View file @
2e4a168b
#include"crypto_aead.h"
#include"api.h"
#include <string.h>
#define U32BIG(x) (x)
#define ARR_SIZE(a) (sizeof((a))/sizeof((a[0])))
#define LOTR32(x,n) (((x)<<(n))|((x)>>(32-(n))))
#define sbox(a, b, c, d, e, f, g, h) \
{
\
t1
=
~
a
;
t2
=
b
&
t1
;
t3
=
c
^
t2
;
h
=
d
^
t3
;
t5
=
b
|
c
;
t6
=
d
^
t1
;
g
=
t5
^
t6
;
t8
=
b
^
d
;
t9
=
t3
&
t6
;
e
=
t8
^
t9
;
t11
=
g
&
t8
;
f
=
t3
^
t11
;
\
}
typedef
unsigned
char
u8
;
typedef
unsigned
int
u32
;
typedef
unsigned
long
long
u64
;
#define packFormat(out,in) {\
t1
=
U32BIG
(((
u32
*
)
in
)[
0
]);
\
t2
=
U32BIG
(((
u32
*
)
in
)[
1
]);
\
t3
=
(
t1
^
(
t1
>>
1
))
&
0x22222222
,
t1
^=
t3
^
(
t3
<<
1
);
\
t3
=
(
t1
^
(
t1
>>
2
))
&
0x0C0C0C0C
,
t1
^=
t3
^
(
t3
<<
2
);
\
t3
=
(
t1
^
(
t1
>>
4
))
&
0x00F000F0
,
t1
^=
t3
^
(
t3
<<
4
);
\
t3
=
(
t1
^
(
t1
>>
8
))
&
0x0000FF00
,
t1
^=
t3
^
(
t3
<<
8
);
\
t5
=
(
t2
^
(
t2
>>
1
))
&
0x22222222
,
t2
^=
t5
^
(
t5
<<
1
);
\
t5
=
(
t2
^
(
t2
>>
2
))
&
0x0C0C0C0C
,
t2
^=
t5
^
(
t5
<<
2
);
\
t5
=
(
t2
^
(
t2
>>
4
))
&
0x00F000F0
,
t2
^=
t5
^
(
t5
<<
4
);
\
t5
=
(
t2
^
(
t2
>>
8
))
&
0x0000FF00
,
t2
^=
t5
^
(
t5
<<
8
);
\
out
[
0
]
=
(
t2
&
0xFFFF0000
)
|
(
t1
>>
16
);
\
out
[
1
]
=
(
t2
<<
16
)
|
(
t1
&
0x0000FFFF
);
\
}
#define unpackFormat(out, in) {\
t2
=
(
in
[
0
]
&
0xFFFF0000
)
|
(
in
[
1
]
>>
16
);
\
t1
=
(
in
[
1
]
&
0x0000FFFF
)
|
(
in
[
0
]
<<
16
);
\
t3
=
(
t1
^
(
t1
>>
8
))
&
0x0000FF00
,
t1
^=
t3
^
(
t3
<<
8
);
\
t3
=
(
t1
^
(
t1
>>
4
))
&
0x00F000F0
,
t1
^=
t3
^
(
t3
<<
4
);
\
t3
=
(
t1
^
(
t1
>>
2
))
&
0x0C0C0C0C
,
t1
^=
t3
^
(
t3
<<
2
);
\
t3
=
(
t1
^
(
t1
>>
1
))
&
0x22222222
,
t1
^=
t3
^
(
t3
<<
1
);
\
t5
=
(
t2
^
(
t2
>>
8
))
&
0x0000FF00
,
t2
^=
t5
^
(
t5
<<
8
);
\
t5
=
(
t2
^
(
t2
>>
4
))
&
0x00F000F0
,
t2
^=
t5
^
(
t5
<<
4
);
\
t5
=
(
t2
^
(
t2
>>
2
))
&
0x0C0C0C0C
,
t2
^=
t5
^
(
t5
<<
2
);
\
t5
=
(
t2
^
(
t2
>>
1
))
&
0x22222222
,
t2
^=
t5
^
(
t5
<<
1
);
\
*
((
u64
*
)
out
)
=
((
u64
)
t2
<<
32
|
t1
);
\
}
#define getU32Format(out, in) {\
t1
,
t2
=
U32BIG
(((
u32
*
)
in
)[
0
]);
\
t1
=
(
t2
^
(
t2
>>
1
))
&
0x22222222
,
t2
^=
t1
^
(
t1
<<
1
);
\
t1
=
(
t2
^
(
t2
>>
2
))
&
0x0C0C0C0C
,
t2
^=
t1
^
(
t1
<<
2
);
\
t1
=
(
t2
^
(
t2
>>
4
))
&
0x00F000F0
,
t2
^=
t1
^
(
t1
<<
4
);
\
t1
=
(
t2
^
(
t2
>>
8
))
&
0x0000FF00
,
t2
^=
t1
^
(
t1
<<
8
);
\
*
out
=
t2
;
\
}
#define ROUND256( constant6Format,lunNum) {\
s
[
0
]
^=
constant6Format
[
lunNum
]
>>
4
;
\
s
[
1
]
^=
constant6Format
[
lunNum
]
&
0x0f
;
\
sbox
(
s
[
0
],
s
[
2
],
s
[
4
],
s
[
6
],
s_temp
[
0
],
s_temp
[
2
],
s_temp
[
4
],
s_temp
[
6
]);
\
sbox
(
s
[
1
],
s
[
3
],
s
[
5
],
s
[
7
],
s_temp
[
1
],
s_temp
[
3
],
s_temp
[
5
],
s_temp
[
7
]);
\
s
[
0
]
=
s_temp
[
0
];
\
s
[
1
]
=
s_temp
[
1
];
\
s
[
2
]
=
s_temp
[
3
];
\
s
[
3
]
=
LOTR32
(
s_temp
[
2
],
1
);
\
s
[
4
]
=
LOTR32
(
s_temp
[
4
],
4
);
\
s
[
5
]
=
LOTR32
(
s_temp
[
5
],
4
);
\
s
[
6
]
=
LOTR32
(
s_temp
[
7
],
12
);
\
s
[
7
]
=
LOTR32
(
s_temp
[
6
],
13
);
\
}
knot/Implementations/crypto_aead/knot128v1/armcortexm_3/crypto_aead.h
0 → 100644
View file @
2e4a168b
int
crypto_aead_encrypt
(
unsigned
char
*
c
,
unsigned
long
long
*
clen
,
const
unsigned
char
*
m
,
unsigned
long
long
mlen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
nsec
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
);
int
crypto_aead_decrypt
(
unsigned
char
*
m
,
unsigned
long
long
*
mlen
,
unsigned
char
*
nsec
,
const
unsigned
char
*
c
,
unsigned
long
long
clen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
);
knot/Implementations/crypto_aead/knot128v1/armcortexm_3/encrypt.c
0 → 100644
View file @
2e4a168b
#include"auxFormat.h"
#define RATE (64 / 8)
#define PR0_ROUNDS 52
#define PR_ROUNDS 28
#define PRF_ROUNDS 32
unsigned
char
constant6Format
[
63
]
=
{
/*constant6_aead_128v1:*/
0x1
,
0x10
,
0x2
,
0x20
,
0x4
,
0x41
,
0x11
,
0x12
,
0x22
,
0x24
,
0x45
,
0x50
,
0x3
,
0x30
,
0x6
,
0x61
,
0x15
,
0x53
,
0x33
,
0x36
,
0x67
,
0x74
,
0x46
,
0x60
,
0x5
,
0x51
,
0x13
,
0x32
,
0x26
,
0x65
,
0x54
,
0x42
,
0x21
,
0x14
,
0x43
,
0x31
,
0x16
,
0x63
,
0x35
,
0x57
,
0x72
,
0x27
,
0x75
,
0x56
,
0x62
,
0x25
,
0x55
,
0x52
,
0x23
,
0x34
,
0x47
,
0x70
,
0x7
,
0x71
,
0x17
,
0x73
,
0x37
,
0x77
,
0x76
,
0x66
,
0x64
,
0x44
,
0x40
,
};
int
crypto_aead_encrypt
(
unsigned
char
*
c
,
unsigned
long
long
*
clen
,
const
unsigned
char
*
m
,
unsigned
long
long
mlen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
nsec
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
)
{
unsigned
int
i
,
j
;
u32
s
[
8
]
=
{
0
};
u32
dataFormat
[
2
]
=
{
0
};
u8
tempData
[
8
];
u32
s_temp
[
8
]
=
{
0
};
u32
t1
,
t2
,
t3
,
t5
,
t6
,
t8
,
t9
,
t11
;
*
clen
=
mlen
+
CRYPTO_ABYTES
;
//initialization
packFormat
(
s
,
npub
);
packFormat
((
s
+
2
),
(
npub
+
8
));
packFormat
((
s
+
4
),
k
);
packFormat
((
s
+
6
),
(
k
+
8
));
for
(
i
=
0
;
i
<
PR0_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
// process associated data
if
(
adlen
)
{
//rlen = adlen;
while
(
adlen
>=
RATE
)
{
packFormat
(
dataFormat
,
ad
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
adlen
-=
RATE
;
ad
+=
RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
ad
,
adlen
*
sizeof
(
unsigned
char
));
tempData
[
adlen
]
=
0x01
;
packFormat
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
}
s
[
6
]
^=
0x80000000
;
if
(
mlen
)
{
while
(
mlen
>=
RATE
)
{
packFormat
(
dataFormat
,
m
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
unpackFormat
(
c
,
s
);
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
mlen
-=
RATE
;
m
+=
RATE
;
c
+=
RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
m
,
mlen
*
sizeof
(
unsigned
char
));
tempData
[
mlen
]
=
0x01
;
packFormat
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
unpackFormat
(
tempData
,
s
);
memcpy
(
c
,
tempData
,
mlen
*
sizeof
(
unsigned
char
));
c
+=
mlen
;
}
// finalization
for
(
i
=
0
;
i
<
PRF_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
// return tag
unpackFormat
(
tempData
,
s
);
memcpy
(
c
,
tempData
,
sizeof
(
tempData
));
unpackFormat
(
tempData
,(
s
+
2
));
memcpy
(
c
+
8
,
tempData
,
sizeof
(
tempData
));
// unpackFormat((c), s);
// unpackFormat((c+8),(s + 2));
return
0
;
}
int
crypto_aead_decrypt
(
unsigned
char
*
m
,
unsigned
long
long
*
mlen
,
unsigned
char
*
nsec
,
const
unsigned
char
*
c
,
unsigned
long
long
clen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
)
{
u8
i
,
j
;
// initialization
//256/32=8
u32
s
[
8
]
=
{
0
};
u32
dataFormat
[
4
]
=
{
0
};
u32
dataFormat_1
[
2
]
=
{
0
};
u8
tempU8
[
32
]
=
{
0
};
u8
tempData
[
8
];
u32
s_temp
[
8
]
=
{
0
};
u32
t1
,
t2
,
t3
,
t5
,
t6
,
t8
,
t9
,
t11
;
*
mlen
=
clen
-
CRYPTO_ABYTES
;
if
(
clen
<
CRYPTO_ABYTES
)
return
-
1
;
//initialization
packFormat
(
s
,
npub
);
packFormat
((
s
+
2
),
(
npub
+
8
));
packFormat
((
s
+
4
),
k
);
packFormat
((
s
+
6
),
(
k
+
8
));
for
(
i
=
0
;
i
<
PR0_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
// process associated data
if
(
adlen
)
{
while
(
adlen
>=
RATE
)
{
packFormat
(
dataFormat
,
ad
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
adlen
-=
RATE
;
ad
+=
RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
ad
,
adlen
*
sizeof
(
unsigned
char
));
tempData
[
adlen
]
=
0x01
;
packFormat
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
}
s
[
6
]
^=
0x80000000
;
// process c
clen
=
clen
-
CRYPTO_KEYBYTES
;
if
(
clen
)
{
while
(
clen
>=
RATE
)
{
packFormat
(
dataFormat
,
c
);
dataFormat_1
[
0
]
=
s
[
0
]
^
dataFormat
[
0
];
dataFormat_1
[
1
]
=
s
[
1
]
^
dataFormat
[
1
];
unpackFormat
(
m
,
dataFormat_1
);
s
[
0
]
=
dataFormat
[
0
];
s
[
1
]
=
dataFormat
[
1
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
clen
-=
RATE
;
m
+=
RATE
;
c
+=
RATE
;
}
unpackFormat
(
tempU8
,
s
);
for
(
i
=
0
;
i
<
clen
;
++
i
,
++
m
,
++
c
)
{
*
m
=
tempU8
[
i
]
^
*
c
;
tempU8
[
i
]
=
*
c
;
}
tempU8
[
i
]
^=
0x01
;
packFormat
(
s
,
tempU8
);
}
// finalization
for
(
i
=
0
;
i
<
PRF_ROUNDS
;
i
++
)
{
ROUND256
(
constant6Format
,
i
);
}
// return tag
packFormat
(
dataFormat
,
c
);
packFormat
((
dataFormat
+
2
),
(
c
+
8
));
if
(
dataFormat
[
0
]
!=
s
[
0
]
||
dataFormat
[
1
]
!=
s
[
1
]
||
dataFormat
[
2
]
!=
s
[
2
]
||
dataFormat
[
3
]
!=
s
[
3
])
{
return
-
1
;
}
return
0
;
}
knot/Implementations/crypto_aead/knot128v2/armcortexm_3/api.h
0 → 100644
View file @
2e4a168b
#define CRYPTO_KEYBYTES 16
#define CRYPTO_NSECBYTES 0
#define CRYPTO_NPUBBYTES 16
#define CRYPTO_ABYTES 16
#define CRYPTO_NOOVERLAP 1
knot/Implementations/crypto_aead/knot128v2/armcortexm_3/auxFormat.h
0 → 100644
View file @
2e4a168b
//#include<malloc.h>
#include"crypto_aead.h"
#include"api.h"
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#define U32BIG(x) (x)
typedef
unsigned
char
u8
;
typedef
unsigned
int
u32
;
typedef
unsigned
long
long
u64
;
#define ARR_SIZE(a) (sizeof((a))/sizeof((a[0])))
#define LOTR32(x,n) (((x)<<(n))|((x)>>(32-(n))))
#define puckU32ToThree(x){\
x
&=
0x92492492
;
\
x
=
(
x
|
(
x
<<
2
))
&
0xc30c30c3
;
\
x
=
(
x
|
(
x
<<
4
))
&
0xf00f00f0
;
\
x
=
(
x
|
(
x
<<
8
))
&
0xff0000ff
;
\
x
=
(
x
|
(
x
<<
16
))
&
0xfff00000
;
\
}
#define unpuckU32ToThree(x){\
x
&=
0xfff00000
;
\
x
=
(
x
|
(
x
>>
16
))
&
0xff0000ff
;
\
x
=
(
x
|
(
x
>>
8
))
&
0xf00f00f0
;
\
x
=
(
x
|
(
x
>>
4
))
&
0xc30c30c3
;
\
x
=
(
x
|
(
x
>>
2
))
&
0x92492492
;
\
}
#define packU32FormatToThreePacket( out, in) {\
t2
=
U32BIG
(((
u32
*
)
in
)[
0
]);
\
t2_64
=
(
in
[
3
]
&
0x80
)
>>
7
,
t2_65
=
(
in
[
3
]
&
0x40
)
>>
6
;
\
t2
=
t2
<<
2
;
\
temp2
[
0
]
=
t2
;
temp2
[
1
]
=
t2
<<
1
;
temp2
[
2
]
=
t2
<<
2
;
\
puckU32ToThree
(
temp2
[
0
]);
\
puckU32ToThree
(
temp2
[
1
]);
\
puckU32ToThree
(
temp2
[
2
]);
\
out
[
0
]
=
(
temp2
[
0
]
>>
22
);
\
out
[
1
]
=
(((
u32
)
t2_64
)
<<
10
)
|
(
temp2
[
1
]
>>
22
);
\
out
[
2
]
=
(((
u32
)
t2_65
)
<<
10
)
|
(
temp2
[
2
]
>>
22
);
\
}
#define packU96FormatToThreePacket(out, in) {\
t9
=
U32BIG
(((
u32
*
)
in
)[
2
]);
\
t1
=
U32BIG
(((
u32
*
)
in
)[
1
]);
\
t2
=
U32BIG
(((
u32
*
)
in
)[
0
]);
\
t1_32
=
(
in
[
7
]
&
0x80
)
>>
7
,
t2_64
=
(
in
[
3
]
&
0x80
)
>>
7
,
t2_65
=
(
in
[
3
]
&
0x40
)
>>
6
;
\
t1
=
t1
<<
1
;
\
t2
=
t2
<<
2
;
\
temp0
[
0
]
=
t9
;
temp0
[
1
]
=
t9
<<
1
;
temp0
[
2
]
=
t9
<<
2
;
\
puckU32ToThree
(
temp0
[
0
]);
\
puckU32ToThree
(
temp0
[
1
]);
\
puckU32ToThree
(
temp0
[
2
]);
\
temp1
[
0
]
=
t1
;
temp1
[
1
]
=
t1
<<
1
;
temp1
[
2
]
=
t1
<<
2
;
\
puckU32ToThree
(
temp1
[
0
]);
\
puckU32ToThree
(
temp1
[
1
]);
\
puckU32ToThree
(
temp1
[
2
]);
\
temp2
[
0
]
=
t2
;
temp2
[
1
]
=
t2
<<
1
;
temp2
[
2
]
=
t2
<<
2
;
\
puckU32ToThree
(
temp2
[
0
]);
\
puckU32ToThree
(
temp2
[
1
]);
\
puckU32ToThree
(
temp2
[
2
]);
\
out
[
0
]
=
(
temp0
[
0
])
|
(
temp1
[
0
]
>>
11
)
|
(
temp2
[
0
]
>>
22
);
\
out
[
1
]
=
(
temp0
[
1
])
|
(
temp1
[
1
]
>>
11
)
|
(((
u32
)
t2_64
)
<<
10
)
|
(
temp2
[
1
]
>>
22
);
\
out
[
2
]
=
(
temp0
[
2
])
|
(((
u32
)
t1_32
)
<<
21
)
|
(
temp1
[
2
]
>>
11
)
|
(((
u32
)
t2_65
)
<<
10
)
|
(
temp2
[
2
]
>>
22
);
\
}
#define unpackU32FormatToThreePacket(out, in) {\
temp2
[
0
]
=
(
in
[
0
]
&
0x000003ff
)
<<
22
;
\
t2_64
=
((
in
[
1
]
&
0x00000400
)
<<
21
);
\
temp2
[
1
]
=
(
in
[
1
]
&
0x000003ff
)
<<
22
;
\
t2_65
=
((
in
[
2
]
&
0x00000400
)
<<
20
);
\
temp2
[
2
]
=
(
in
[
2
]
&
0x000003ff
)
<<
22
;
\
unpuckU32ToThree
(
temp2
[
0
]);
\
unpuckU32ToThree
(
temp2
[
1
]);
\
unpuckU32ToThree
(
temp2
[
2
]);
\
t2
=
t2_65
|
t2_64
|
((
temp2
[
0
]
|
temp2
[
1
]
>>
1
|
temp2
[
2
]
>>
2
)
>>
2
);
\
*
(
u32
*
)(
out
)
=
U32BIG
(
t2
);
\
}
#define unpackU96FormatToThreePacket( out, in) {\
temp0
[
0
]
=
in
[
0
]
&
0xffe00000
;
\
temp1
[
0
]
=
(
in
[
0
]
&
0x001ffc00
)
<<
11
;
\
temp2
[
0
]
=
(
in
[
0
]
&
0x000003ff
)
<<
22
;
\
temp0
[
1
]
=
in
[
1
]
&
0xffe00000
;
\
temp1
[
1
]
=
(
in
[
1
]
&
0x001ff800
)
<<
11
;
\
t2_64
=
((
in
[
1
]
&
0x00000400
)
<<
21
);
\
temp2
[
1
]
=
(
in
[
1
]
&
0x000003ff
)
<<
22
;
\
temp0
[
2
]
=
in
[
2
]
&
0xffc00000
;
\
t1_32
=
((
in
[
2
]
&
0x00200000
)
<<
10
);
\
temp1
[
2
]
=
(
in
[
2
]
&
0x001ff800
)
<<
11
;
\
t2_65
=
((
in
[
2
]
&
0x00000400
)
<<
20
);
\
temp2
[
2
]
=
(
in
[
2
]
&
0x000003ff
)
<<
22
;
\
unpuckU32ToThree
(
temp0
[
0
]);
\
unpuckU32ToThree
(
temp0
[
1
]);
\
unpuckU32ToThree
(
temp0
[
2
]);
\
t9
=
temp0
[
0
]
|
temp0
[
1
]
>>
1
|
temp0
[
2
]
>>
2
;
\
unpuckU32ToThree
(
temp1
[
0
]);
\
unpuckU32ToThree
(
temp1
[
1
]);
\
unpuckU32ToThree
(
temp1
[
2
]);
\
t1
=
t1_32
|
((
temp1
[
0
]
|
temp1
[
1
]
>>
1
|
temp1
[
2
]
>>
2
)
>>
1
);
\
unpuckU32ToThree
(
temp2
[
0
]);
\
unpuckU32ToThree
(
temp2
[
1
]);
\
unpuckU32ToThree
(
temp2
[
2
]);
\
t2
=
t2_65
|
t2_64
|
((
temp2
[
0
]
|
temp2
[
1
]
>>
1
|
temp2
[
2
]
>>
2
)
>>
2
);
\
*
(
u32
*
)(
out
)
=
U32BIG
(
t2
);
\
*
(
u32
*
)(
out
+
4
)
=
U32BIG
(
t1
);
\
*
(
u32
*
)(
out
+
8
)
=
U32BIG
(
t9
);
\
}
#define ARR_SIZE(a) (sizeof((a))/sizeof((a[0])))
#define sbox(a, b, c, d, e, f, g, h) \
{
\
t1
=
~
a
;
t2
=
b
&
t1
;
t3
=
c
^
t2
;
h
=
d
^
t3
;
t5
=
b
|
c
;
t6
=
d
^
t1
;
g
=
t5
^
t6
;
t8
=
b
^
d
;
t9
=
t3
&
t6
;
e
=
t8
^
t9
;
t11
=
g
&
t8
;
f
=
t3
^
t11
;
\
}
#define U96_BIT_LOTR32_1(t0,t1,t2,t3,t4,t5){\
t3
=
t1
;
\
t4
=
t2
;
\
t5
=
LOTR32
(
t0
,
1
);
\
}
#define U96_BIT_LOTR32_8(t0,t1,t2,t3,t4,t5){\
t3
=
LOTR32
(
t2
,
2
);
\
t4
=
LOTR32
(
t0
,
3
);
\
t5
=
LOTR32
(
t1
,
3
);
\
}
#define U96_BIT_LOTR32_55(t0,t1,t2,t3,t4,t5){\
t3
=
LOTR32
(
t1
,
18
);
\
t4
=
LOTR32
(
t2
,
18
);
\
t5
=
LOTR32
(
t0
,
19
);
\
}
/*
s0 s1 s2
s3 s4 s5
s6 s7 s8
s9 s10 s11
*/
knot/Implementations/crypto_aead/knot128v2/armcortexm_3/crypto_aead.h
0 → 100644
View file @
2e4a168b
int
crypto_aead_encrypt
(
unsigned
char
*
c
,
unsigned
long
long
*
clen
,
const
unsigned
char
*
m
,
unsigned
long
long
mlen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
nsec
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
);
int
crypto_aead_decrypt
(
unsigned
char
*
m
,
unsigned
long
long
*
mlen
,
unsigned
char
*
nsec
,
const
unsigned
char
*
c
,
unsigned
long
long
clen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
);
knot/Implementations/crypto_aead/knot128v2/armcortexm_3/encrypt.c
0 → 100644
View file @
2e4a168b
#include"auxFormat.h"
#define aead_RATE (192 / 8)
#define PR0_ROUNDS 76
#define PR_ROUNDS 28
#define PRF_ROUNDS 32
unsigned
char
constant7Format
[
127
]
=
{
/*constant7Format[127]:*/
0x01
,
0x08
,
0x40
,
0x02
,
0x10
,
0x80
,
0x05
,
0x09
,
0x48
,
0x42
,
0x12
,
0x90
,
0x85
,
0x0c
,
0x41
,
0x0a
,
0x50
,
0x82
,
0x15
,
0x89
,
0x4d
,
0x4b
,
0x5a
,
0xd2
,
0x97
,
0x9c
,
0xc4
,
0x06
,
0x11
,
0x88
,
0x45
,
0x0b
,
0x58
,
0xc2
,
0x17
,
0x99
,
0xcd
,
0x4e
,
0x53
,
0x9a
,
0xd5
,
0x8e
,
0x54
,
0x83
,
0x1d
,
0xc9
,
0x4f
,
0x5b
,
0xda
,
0xd7
,
0x9e
,
0xd4
,
0x86
,
0x14
,
0x81
,
0x0d
,
0x49
,
0x4a
,
0x52
,
0x92
,
0x95
,
0x8c
,
0x44
,
0x03
,
0x18
,
0xc0
,
0x07
,
0x19
,
0xc8
,
0x47
,
0x1b
,
0xd8
,
0xc7
,
0x1e
,
0xd1
,
0x8f
,
0x5c
,
0xc3
,
0x1f
,
0xd9
,
0xcf
,
0x5e
,
0xd3
,
0x9f
,
0xdc
,
0xc6
,
0x16
,
0x91
,
0x8d
,
0x4c
,
0x43
,
0x1a
,
0xd0
,
0x87
,
0x1c
,
0xc1
,
0x0f
,
0x59
,
0xca
,
0x57
,
0x9b
,
0xdd
,
0xce
,
0x56
,
0x93
,
0x9d
,
0xcc
,
0x46
,
0x13
,
0x98
,
0xc5
,
0x0e
,
0x51
,
0x8a
,
0x55
,
0x8b
,
0x5d
,
0xcb
,
0x5f
,
0xdb
,
0xdf
,
0xde
,
0xd6
,
0x96
,
0x94
,
0x84
,
0x04
,
};
#define ROUND384(lunNum) {\
s
[
0
]
^=
(
constant7Format
[
lunNum
]
>>
6
)
&
0x3
;
\
s
[
1
]
^=
(
constant7Format
[
lunNum
]
>>
3
)
&
0x7
;
\
s
[
2
]
^=
constant7Format
[
lunNum
]
&
0x7
;
\
sbox
(
s
[
0
],
s
[
3
],
s
[
6
],
s
[
9
]
,
s_temp
[
0
],
s_temp
[
3
],
s_temp
[
6
],
s_temp
[
9
]);
\
sbox
(
s
[
1
],
s
[
4
],
s
[
7
],
s
[
10
],
s_temp
[
1
],
s_temp
[
4
],
s_temp
[
7
],
s_temp
[
10
]);
\
sbox
(
s
[
2
],
s
[
5
],
s
[
8
],
s
[
11
],
s_temp
[
2
],
s_temp
[
5
],
s_temp
[
8
],
s_temp
[
11
]);
\
s
[
0
]
=
s_temp
[
0
],
s
[
1
]
=
s_temp
[
1
],
s
[
2
]
=
s_temp
[
2
];
\
U96_BIT_LOTR32_1
(
s_temp
[
3
],
s_temp
[
4
],
s_temp
[
5
],
s
[
3
],
s
[
4
],
s
[
5
]);
\
U96_BIT_LOTR32_8
(
s_temp
[
6
],
s_temp
[
7
],
s_temp
[
8
],
s
[
6
],
s
[
7
],
s
[
8
]);
\
U96_BIT_LOTR32_55
(
s_temp
[
9
],
s_temp
[
10
],
s_temp
[
11
],
s
[
9
],
s
[
10
],
s
[
11
]);
\
}
int
crypto_aead_encrypt
(
unsigned
char
*
c
,
unsigned
long
long
*
clen
,
const
unsigned
char
*
m
,
unsigned
long
long
mlen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
nsec
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
)
{
u8
i
;
u32
s
[
12
]
=
{
0
};
u8
tempData
[
24
]
=
{
0
};
u32
dataFormat
[
6
]
=
{
0
};
u32
s_temp
[
12
]
=
{
0
};
u32
t1
,
t2
,
t3
,
t5
,
t6
,
t8
,
t9
,
t11
;
u32
t1_32
,
t2_64
,
t2_65
;
u32
temp0
[
3
]
=
{
0
};
u32
temp1
[
3
]
=
{
0
};
u32
temp2
[
3
]
=
{
0
};
*
clen
=
mlen
+
CRYPTO_ABYTES
;
// initialization
packU96FormatToThreePacket
(
s
,
npub
);
memcpy
(
tempData
,
npub
+
12
,
sizeof
(
unsigned
char
)
*
4
);
memcpy
(
tempData
+
4
,
k
,
sizeof
(
unsigned
char
)
*
16
);
packU96FormatToThreePacket
((
s
+
3
),
tempData
);
packU96FormatToThreePacket
((
s
+
6
),
(
tempData
+
12
));
s
[
9
]
=
0x80000000
;
for
(
i
=
0
;
i
<
PR0_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
// process associated data
if
(
adlen
)
{
// rlen = adlen;
while
(
adlen
>=
aead_RATE
)
{
packU96FormatToThreePacket
(
dataFormat
,
ad
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
packU96FormatToThreePacket
((
dataFormat
+
3
),
(
ad
+
12
));
s
[
3
]
^=
dataFormat
[
3
];
s
[
4
]
^=
dataFormat
[
4
];
s
[
5
]
^=
dataFormat
[
5
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
adlen
-=
aead_RATE
;
ad
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
ad
,
adlen
*
sizeof
(
unsigned
char
));
tempData
[
adlen
]
=
0x01
;
packU96FormatToThreePacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
packU96FormatToThreePacket
((
dataFormat
+
3
),
(
tempData
+
12
));
s
[
3
]
^=
dataFormat
[
3
];
s
[
4
]
^=
dataFormat
[
4
];
s
[
5
]
^=
dataFormat
[
5
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
}
s
[
9
]
^=
0x80000000
;
if
(
mlen
)
{
//rlen = mlen;
while
(
mlen
>=
aead_RATE
)
{
packU96FormatToThreePacket
(
dataFormat
,
m
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
packU96FormatToThreePacket
((
dataFormat
+
3
),
(
m
+
12
));
s
[
3
]
^=
dataFormat
[
3
];
s
[
4
]
^=
dataFormat
[
4
];
s
[
5
]
^=
dataFormat
[
5
];
unpackU96FormatToThreePacket
(
c
,
s
);
unpackU96FormatToThreePacket
((
c
+
12
),
(
s
+
3
));
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
mlen
-=
aead_RATE
;
m
+=
aead_RATE
;
c
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
m
,
mlen
*
sizeof
(
unsigned
char
));
tempData
[
mlen
]
=
0x01
;
packU96FormatToThreePacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
packU96FormatToThreePacket
((
dataFormat
+
3
),
(
tempData
+
12
));
s
[
3
]
^=
dataFormat
[
3
];
s
[
4
]
^=
dataFormat
[
4
];
s
[
5
]
^=
dataFormat
[
5
];
unpackU96FormatToThreePacket
(
tempData
,
s
);
unpackU96FormatToThreePacket
((
tempData
+
12
),
(
s
+
3
));
memcpy
(
c
,
tempData
,
mlen
*
sizeof
(
unsigned
char
));
c
+=
mlen
;
}
// finalization
for
(
i
=
0
;
i
<
PRF_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
// return tag
unpackU96FormatToThreePacket
(
c
,
s
);
unpackU96FormatToThreePacket
(
tempData
,
(
s
+
3
));
memcpy
(
c
+
12
,
tempData
,
sizeof
(
unsigned
char
)
*
4
);
return
0
;
}
int
crypto_aead_decrypt
(
unsigned
char
*
m
,
unsigned
long
long
*
mlen
,
unsigned
char
*
nsec
,
const
unsigned
char
*
c
,
unsigned
long
long
clen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
)
{
u8
i
,
j
;
u32
s
[
12
]
=
{
0
};
u32
s_temp
[
12
]
=
{
0
};
u32
dataFormat
[
12
]
=
{
0
};
u32
dataFormat_1
[
12
]
=
{
0
};
u8
tempData
[
24
]
=
{
0
};
u8
tempU8
[
24
]
=
{
0
};
u32
t1
,
t2
,
t3
,
t5
,
t6
,
t8
,
t9
,
t11
;
u32
t1_32
,
t2_64
,
t2_65
;
u32
temp0
[
3
]
=
{
0
};
u32
temp1
[
3
]
=
{
0
};
u32
temp2
[
3
]
=
{
0
};
*
mlen
=
clen
-
CRYPTO_ABYTES
;
if
(
clen
<
CRYPTO_ABYTES
)
return
-
1
;
// initialization
packU96FormatToThreePacket
(
s
,
npub
);
memcpy
(
tempData
,
npub
+
12
,
sizeof
(
unsigned
char
)
*
4
);
memcpy
(
tempData
+
4
,
k
,
sizeof
(
unsigned
char
)
*
16
);
packU96FormatToThreePacket
((
s
+
3
),
tempData
);
packU96FormatToThreePacket
((
s
+
6
),
(
tempData
+
12
));
s
[
9
]
=
0x80000000
;
for
(
i
=
0
;
i
<
PR0_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
// process associated data
if
(
adlen
)
{
// rlen = adlen;
while
(
adlen
>=
aead_RATE
)
{
packU96FormatToThreePacket
(
dataFormat
,
ad
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
packU96FormatToThreePacket
((
dataFormat
+
3
),
(
ad
+
12
));
s
[
3
]
^=
dataFormat
[
3
];
s
[
4
]
^=
dataFormat
[
4
];
s
[
5
]
^=
dataFormat
[
5
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
adlen
-=
aead_RATE
;
ad
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
ad
,
adlen
*
sizeof
(
unsigned
char
));
tempData
[
adlen
]
=
0x01
;
packU96FormatToThreePacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
packU96FormatToThreePacket
((
dataFormat
+
3
),
(
tempData
+
12
));
s
[
3
]
^=
dataFormat
[
3
];
s
[
4
]
^=
dataFormat
[
4
];
s
[
5
]
^=
dataFormat
[
5
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
}
s
[
9
]
^=
0x80000000
;
///////////
clen
-=
CRYPTO_ABYTES
;
if
(
clen
)
{
while
(
clen
>=
aead_RATE
)
{
packU96FormatToThreePacket
(
dataFormat
,
c
);
dataFormat_1
[
0
]
=
s
[
0
]
^
dataFormat
[
0
];
dataFormat_1
[
1
]
=
s
[
1
]
^
dataFormat
[
1
];
dataFormat_1
[
2
]
=
s
[
2
]
^
dataFormat
[
2
];
packU96FormatToThreePacket
((
dataFormat
+
3
),
(
c
+
12
));
dataFormat_1
[
3
]
=
s
[
3
]
^
dataFormat
[
3
];
dataFormat_1
[
4
]
=
s
[
4
]
^
dataFormat
[
4
];
dataFormat_1
[
5
]
=
s
[
5
]
^
dataFormat
[
5
];
unpackU96FormatToThreePacket
(
m
,
dataFormat_1
);
unpackU96FormatToThreePacket
((
m
+
12
),
(
dataFormat_1
+
3
));
s
[
0
]
=
dataFormat
[
0
];
s
[
1
]
=
dataFormat
[
1
];
s
[
2
]
=
dataFormat
[
2
];
s
[
3
]
=
dataFormat
[
3
];
s
[
4
]
=
dataFormat
[
4
];
s
[
5
]
=
dataFormat
[
5
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
clen
-=
aead_RATE
;
m
+=
aead_RATE
;
c
+=
aead_RATE
;
}
unpackU96FormatToThreePacket
(
tempU8
,
s
);
unpackU96FormatToThreePacket
((
tempU8
+
12
),
(
s
+
3
));
for
(
i
=
0
;
i
<
clen
;
++
i
,
++
m
,
++
c
)
{
*
m
=
tempU8
[
i
]
^
*
c
;
tempU8
[
i
]
=
*
c
;
}
tempU8
[
i
]
^=
0x01
;
packU96FormatToThreePacket
(
s
,
tempU8
);
packU96FormatToThreePacket
((
s
+
3
),
(
tempU8
+
12
));
}
// finalization
for
(
i
=
0
;
i
<
PRF_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
// return tag
unpackU96FormatToThreePacket
(
tempU8
,
s
);
unpackU96FormatToThreePacket
((
tempU8
+
12
),
(
s
+
3
));
if
(
U32BIG
(((
u32
*
)
tempU8
)[
0
])
!=
U32BIG
(((
u32
*
)
c
)[
0
])
||
U32BIG
(((
u32
*
)
tempU8
)[
1
])
!=
U32BIG
(((
u32
*
)
c
)[
1
])
||
U32BIG
(((
u32
*
)
tempU8
)[
2
])
!=
U32BIG
(((
u32
*
)
c
)[
2
])
||
U32BIG
(((
u32
*
)
tempU8
)[
3
])
!=
U32BIG
(((
u32
*
)
c
)[
3
])
){
return
-
1
;
}
return
0
;
}
knot/Implementations/crypto_aead/knot192/armcortexm_3/api.h
0 → 100644
View file @
2e4a168b
#define CRYPTO_KEYBYTES 24
#define CRYPTO_NSECBYTES 0
#define CRYPTO_NPUBBYTES 24
#define CRYPTO_ABYTES 24
#define CRYPTO_NOOVERLAP 1
knot/Implementations/crypto_aead/knot192/armcortexm_3/auxFormat.h
0 → 100644
View file @
2e4a168b
#include"crypto_aead.h"
#include"api.h"
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#define U32BIG(x) (x)
#define U16BIG(x) (x)
typedef
unsigned
char
u8
;
typedef
unsigned
short
u16
;
typedef
unsigned
int
u32
;
typedef
unsigned
long
long
u64
;
#define ARR_SIZE(a) (sizeof((a))/sizeof((a[0])))
#define LOTR32(x,n) (((x)<<(n))|((x)>>(32-(n))))
#define ARR_SIZE(a) (sizeof((a))/sizeof((a[0])))
#define sbox(a, b, c, d, e, f, g, h) \
{
\
t1
=
~
a
;
t2
=
b
&
t1
;
t3
=
c
^
t2
;
h
=
d
^
t3
;
t5
=
b
|
c
;
t6
=
d
^
t1
;
g
=
t5
^
t6
;
t8
=
b
^
d
;
t9
=
t3
&
t6
;
e
=
t8
^
t9
;
t11
=
g
&
t8
;
f
=
t3
^
t11
;
\
}
#define puckU32ToThree(x){\
x
&=
0x92492492
;
\
x
=
(
x
|
(
x
<<
2
))
&
0xc30c30c3
;
\
x
=
(
x
|
(
x
<<
4
))
&
0xf00f00f0
;
\
x
=
(
x
|
(
x
<<
8
))
&
0xff0000ff
;
\
x
=
(
x
|
(
x
<<
16
))
&
0xfff00000
;
\
}
#define unpuckU32ToThree(x){\
x
&=
0xfff00000
;
\
x
=
(
x
|
(
x
>>
16
))
&
0xff0000ff
;
\
x
=
(
x
|
(
x
>>
8
))
&
0xf00f00f0
;
\
x
=
(
x
|
(
x
>>
4
))
&
0xc30c30c3
;
\
x
=
(
x
|
(
x
>>
2
))
&
0x92492492
;
\
}
#define packU48FormatToThreePacket( out, in) {\
t1
=
(
u32
)
U16BIG
(
*
(
u16
*
)(
in
+
4
));
\
t2
=
U32BIG
(
*
(
u32
*
)(
in
));
\
t2_64
=
(
in
[
3
]
&
0x80
)
>>
7
,
t2_65
=
(
in
[
3
]
&
0x40
)
>>
6
;
\
t1
=
t1
<<
1
;
\
t2
=
t2
<<
2
;
\
temp1
[
0
]
=
t1
;
temp1
[
1
]
=
t1
<<
1
;
temp1
[
2
]
=
t1
<<
2
;
\
puckU32ToThree
(
temp1
[
0
]);
\
puckU32ToThree
(
temp1
[
1
]);
\
puckU32ToThree
(
temp1
[
2
]);
\
temp2
[
0
]
=
t2
;
temp2
[
1
]
=
t2
<<
1
;
temp2
[
2
]
=
t2
<<
2
;
\
puckU32ToThree
(
temp2
[
0
]);
\
puckU32ToThree
(
temp2
[
1
]);
\
puckU32ToThree
(
temp2
[
2
]);
\
out
[
0
]
=
(
temp1
[
0
]
>>
11
)
|
(
temp2
[
0
]
>>
22
);
\
out
[
1
]
=
(
temp1
[
1
]
>>
11
)
|
(((
u32
)
t2_64
)
<<
10
)
|
(
temp2
[
1
]
>>
22
);
\
out
[
2
]
=
(
temp1
[
2
]
>>
11
)
|
(((
u32
)
t2_65
)
<<
10
)
|
(
temp2
[
2
]
>>
22
);
\
}
#define packU96FormatToThreePacket(out, in) {\
t9
=
U32BIG
(((
u32
*
)
in
)[
2
]);
\
t1
=
U32BIG
(((
u32
*
)
in
)[
1
]);
\
t2
=
U32BIG
(((
u32
*
)
in
)[
0
]);
\
t1_32
=
(
in
[
7
]
&
0x80
)
>>
7
,
t2_64
=
(
in
[
3
]
&
0x80
)
>>
7
,
t2_65
=
(
in
[
3
]
&
0x40
)
>>
6
;
\
t1
=
t1
<<
1
;
\
t2
=
t2
<<
2
;
\
temp0
[
0
]
=
t9
;
temp0
[
1
]
=
t9
<<
1
;
temp0
[
2
]
=
t9
<<
2
;
\
puckU32ToThree
(
temp0
[
0
]);
\
puckU32ToThree
(
temp0
[
1
]);
\
puckU32ToThree
(
temp0
[
2
]);
\
temp1
[
0
]
=
t1
;
temp1
[
1
]
=
t1
<<
1
;
temp1
[
2
]
=
t1
<<
2
;
\
puckU32ToThree
(
temp1
[
0
]);
\
puckU32ToThree
(
temp1
[
1
]);
\
puckU32ToThree
(
temp1
[
2
]);
\
temp2
[
0
]
=
t2
;
temp2
[
1
]
=
t2
<<
1
;
temp2
[
2
]
=
t2
<<
2
;
\
puckU32ToThree
(
temp2
[
0
]);
\
puckU32ToThree
(
temp2
[
1
]);
\
puckU32ToThree
(
temp2
[
2
]);
\
out
[
0
]
=
(
temp0
[
0
])
|
(
temp1
[
0
]
>>
11
)
|
(
temp2
[
0
]
>>
22
);
\
out
[
1
]
=
(
temp0
[
1
])
|
(
temp1
[
1
]
>>
11
)
|
(((
u32
)
t2_64
)
<<
10
)
|
(
temp2
[
1
]
>>
22
);
\
out
[
2
]
=
(
temp0
[
2
])
|
(((
u32
)
t1_32
)
<<
21
)
|
(
temp1
[
2
]
>>
11
)
|
(((
u32
)
t2_65
)
<<
10
)
|
(
temp2
[
2
]
>>
22
);
\
}
#define unpackU96FormatToThreePacket( out, in) {\
temp0
[
0
]
=
in
[
0
]
&
0xffe00000
;
\
temp1
[
0
]
=
(
in
[
0
]
&
0x001ffc00
)
<<
11
;
\
temp2
[
0
]
=
(
in
[
0
]
&
0x000003ff
)
<<
22
;
\
temp0
[
1
]
=
in
[
1
]
&
0xffe00000
;
\
temp1
[
1
]
=
(
in
[
1
]
&
0x001ff800
)
<<
11
;
\
t2_64
=
((
in
[
1
]
&
0x00000400
)
<<
21
);
\
temp2
[
1
]
=
(
in
[
1
]
&
0x000003ff
)
<<
22
;
\
temp0
[
2
]
=
in
[
2
]
&
0xffc00000
;
\
t1_32
=
((
in
[
2
]
&
0x00200000
)
<<
10
);
\
temp1
[
2
]
=
(
in
[
2
]
&
0x001ff800
)
<<
11
;
\
t2_65
=
((
in
[
2
]
&
0x00000400
)
<<
20
);
\
temp2
[
2
]
=
(
in
[
2
]
&
0x000003ff
)
<<
22
;
\
unpuckU32ToThree
(
temp0
[
0
]);
\
unpuckU32ToThree
(
temp0
[
1
]);
\
unpuckU32ToThree
(
temp0
[
2
]);
\
t9
=
temp0
[
0
]
|
temp0
[
1
]
>>
1
|
temp0
[
2
]
>>
2
;
\
unpuckU32ToThree
(
temp1
[
0
]);
\
unpuckU32ToThree
(
temp1
[
1
]);
\
unpuckU32ToThree
(
temp1
[
2
]);
\
t1
=
t1_32
|
((
temp1
[
0
]
|
temp1
[
1
]
>>
1
|
temp1
[
2
]
>>
2
)
>>
1
);
\
unpuckU32ToThree
(
temp2
[
0
]);
\
unpuckU32ToThree
(
temp2
[
1
]);
\
unpuckU32ToThree
(
temp2
[
2
]);
\
t2
=
t2_65
|
t2_64
|
((
temp2
[
0
]
|
temp2
[
1
]
>>
1
|
temp2
[
2
]
>>
2
)
>>
2
);
\
*
(
u32
*
)(
out
)
=
U32BIG
(
t2
);
\
*
(
u32
*
)(
out
+
4
)
=
U32BIG
(
t1
);
\
*
(
u32
*
)(
out
+
8
)
=
U32BIG
(
t9
);
\
}
#define U96_BIT_LOTR32_1(t0,t1,t2,t3,t4,t5){\
t3
=
t1
;
\
t4
=
t2
;
\
t5
=
LOTR32
(
t0
,
1
);
\
}
#define U96_BIT_LOTR32_8(t0,t1,t2,t3,t4,t5){\
t3
=
LOTR32
(
t2
,
2
);
\
t4
=
LOTR32
(
t0
,
3
);
\
t5
=
LOTR32
(
t1
,
3
);
\
}
#define U96_BIT_LOTR32_55(t0,t1,t2,t3,t4,t5){\
t3
=
LOTR32
(
t1
,
18
);
\
t4
=
LOTR32
(
t2
,
18
);
\
t5
=
LOTR32
(
t0
,
19
);
\
}
knot/Implementations/crypto_aead/knot192/armcortexm_3/crypto_aead.h
0 → 100644
View file @
2e4a168b
int
crypto_aead_encrypt
(
unsigned
char
*
c
,
unsigned
long
long
*
clen
,
const
unsigned
char
*
m
,
unsigned
long
long
mlen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
nsec
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
);
int
crypto_aead_decrypt
(
unsigned
char
*
m
,
unsigned
long
long
*
mlen
,
unsigned
char
*
nsec
,
const
unsigned
char
*
c
,
unsigned
long
long
clen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
);
knot/Implementations/crypto_aead/knot192/armcortexm_3/encrypt.c
0 → 100644
View file @
2e4a168b
#include"auxFormat.h"
#define aead_RATE (96 / 8)
#define PR0_ROUNDS 76
#define PR_ROUNDS 40
#define PRF_ROUNDS 44
unsigned
char
constant7Format
[
127
]
=
{
/*constant7Format[127]:*/
0x01
,
0x08
,
0x40
,
0x02
,
0x10
,
0x80
,
0x05
,
0x09
,
0x48
,
0x42
,
0x12
,
0x90
,
0x85
,
0x0c
,
0x41
,
0x0a
,
0x50
,
0x82
,
0x15
,
0x89
,
0x4d
,
0x4b
,
0x5a
,
0xd2
,
0x97
,
0x9c
,
0xc4
,
0x06
,
0x11
,
0x88
,
0x45
,
0x0b
,
0x58
,
0xc2
,
0x17
,
0x99
,
0xcd
,
0x4e
,
0x53
,
0x9a
,
0xd5
,
0x8e
,
0x54
,
0x83
,
0x1d
,
0xc9
,
0x4f
,
0x5b
,
0xda
,
0xd7
,
0x9e
,
0xd4
,
0x86
,
0x14
,
0x81
,
0x0d
,
0x49
,
0x4a
,
0x52
,
0x92
,
0x95
,
0x8c
,
0x44
,
0x03
,
0x18
,
0xc0
,
0x07
,
0x19
,
0xc8
,
0x47
,
0x1b
,
0xd8
,
0xc7
,
0x1e
,
0xd1
,
0x8f
,
0x5c
,
0xc3
,
0x1f
,
0xd9
,
0xcf
,
0x5e
,
0xd3
,
0x9f
,
0xdc
,
0xc6
,
0x16
,
0x91
,
0x8d
,
0x4c
,
0x43
,
0x1a
,
0xd0
,
0x87
,
0x1c
,
0xc1
,
0x0f
,
0x59
,
0xca
,
0x57
,
0x9b
,
0xdd
,
0xce
,
0x56
,
0x93
,
0x9d
,
0xcc
,
0x46
,
0x13
,
0x98
,
0xc5
,
0x0e
,
0x51
,
0x8a
,
0x55
,
0x8b
,
0x5d
,
0xcb
,
0x5f
,
0xdb
,
0xdf
,
0xde
,
0xd6
,
0x96
,
0x94
,
0x84
,
0x04
,
};
#define ROUND384(lunNum) {\
s
[
0
]
^=
(
constant7Format
[
lunNum
]
>>
6
)
&
0x3
;
\
s
[
1
]
^=
(
constant7Format
[
lunNum
]
>>
3
)
&
0x7
;
\
s
[
2
]
^=
constant7Format
[
lunNum
]
&
0x7
;
\
sbox
(
s
[
0
],
s
[
3
],
s
[
6
],
s
[
9
]
,
s_temp
[
0
],
s_temp
[
3
],
s_temp
[
6
],
s_temp
[
9
]);
\
sbox
(
s
[
1
],
s
[
4
],
s
[
7
],
s
[
10
],
s_temp
[
1
],
s_temp
[
4
],
s_temp
[
7
],
s_temp
[
10
]);
\
sbox
(
s
[
2
],
s
[
5
],
s
[
8
],
s
[
11
],
s_temp
[
2
],
s_temp
[
5
],
s_temp
[
8
],
s_temp
[
11
]);
\
s
[
0
]
=
s_temp
[
0
],
s
[
1
]
=
s_temp
[
1
],
s
[
2
]
=
s_temp
[
2
];
\
U96_BIT_LOTR32_1
(
s_temp
[
3
],
s_temp
[
4
],
s_temp
[
5
],
s
[
3
],
s
[
4
],
s
[
5
]);
\
U96_BIT_LOTR32_8
(
s_temp
[
6
],
s_temp
[
7
],
s_temp
[
8
],
s
[
6
],
s
[
7
],
s
[
8
]);
\
U96_BIT_LOTR32_55
(
s_temp
[
9
],
s_temp
[
10
],
s_temp
[
11
],
s
[
9
],
s
[
10
],
s
[
11
]);
\
}
int
crypto_aead_encrypt
(
unsigned
char
*
c
,
unsigned
long
long
*
clen
,
const
unsigned
char
*
m
,
unsigned
long
long
mlen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
nsec
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
)
{
u8
i
;
u32
s
[
12
]
=
{
0
};
u32
dataFormat
[
3
]
=
{
0
};
u8
tempData
[
12
]
=
{
0
};
u32
s_temp
[
12
]
=
{
0
};
u32
t1
,
t2
,
t3
,
t5
,
t6
,
t8
,
t9
,
t11
;
u32
t1_32
,
t2_64
,
t2_65
;
u32
temp0
[
3
]
=
{
0
};
u32
temp1
[
3
]
=
{
0
};
u32
temp2
[
3
]
=
{
0
};
*
clen
=
mlen
+
CRYPTO_ABYTES
;
// initialization
packU96FormatToThreePacket
(
s
,
npub
);
packU96FormatToThreePacket
((
s
+
3
),
(
npub
+
12
));
packU96FormatToThreePacket
((
s
+
6
),
k
);
packU96FormatToThreePacket
((
s
+
9
),
(
k
+
12
));
for
(
i
=
0
;
i
<
PR0_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
// process associated data
if
(
adlen
)
{
// rlen = adlen;
while
(
adlen
>=
aead_RATE
)
{
packU96FormatToThreePacket
(
dataFormat
,
ad
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
adlen
-=
aead_RATE
;
ad
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
ad
,
adlen
);
tempData
[
adlen
]
=
0x01
;
packU96FormatToThreePacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
}
s
[
9
]
^=
0x80000000
;
if
(
mlen
)
{
//rlen = mlen;
while
(
mlen
>=
aead_RATE
)
{
packU96FormatToThreePacket
(
dataFormat
,
m
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
unpackU96FormatToThreePacket
(
c
,
s
);
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
mlen
-=
aead_RATE
;
m
+=
aead_RATE
;
c
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
m
,
mlen
);
tempData
[
mlen
]
=
0x01
;
packU96FormatToThreePacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
unpackU96FormatToThreePacket
(
tempData
,
s
);
memcpy
(
c
,
tempData
,
mlen
);
c
+=
mlen
;
}
// finalization
for
(
i
=
0
;
i
<
PRF_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
// return tag
unpackU96FormatToThreePacket
(
c
,
s
);
unpackU96FormatToThreePacket
((
c
+
12
),
(
s
+
3
));
return
0
;
}
int
crypto_aead_decrypt
(
unsigned
char
*
m
,
unsigned
long
long
*
mlen
,
unsigned
char
*
nsec
,
const
unsigned
char
*
c
,
unsigned
long
long
clen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
)
{
u8
i
,
j
;
u32
s
[
12
]
=
{
0
};
u32
dataFormat
[
6
]
=
{
0
};
u32
dataFormat_1
[
3
]
=
{
0
};
u8
tempData
[
12
]
=
{
0
};
u8
tempU8
[
48
]
=
{
0
};
u32
s_temp
[
12
]
=
{
0
};
u32
t1
,
t2
,
t3
,
t5
,
t6
,
t8
,
t9
,
t11
;
u32
t1_32
,
t2_64
,
t2_65
;
u32
temp0
[
3
]
=
{
0
};
u32
temp1
[
3
]
=
{
0
};
u32
temp2
[
3
]
=
{
0
};
*
mlen
=
clen
-
CRYPTO_ABYTES
;
if
(
clen
<
CRYPTO_ABYTES
)
return
-
1
;
// initialization
packU96FormatToThreePacket
(
s
,
npub
);
packU96FormatToThreePacket
((
s
+
3
),
(
npub
+
12
));
packU96FormatToThreePacket
((
s
+
6
),
k
);
packU96FormatToThreePacket
((
s
+
9
),
(
k
+
12
));
for
(
i
=
0
;
i
<
PR0_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
// process associated data
if
(
adlen
)
{
// rlen = adlen;
while
(
adlen
>=
aead_RATE
)
{
packU96FormatToThreePacket
(
dataFormat
,
ad
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
adlen
-=
aead_RATE
;
ad
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
ad
,
adlen
);
tempData
[
adlen
]
=
0x01
;
packU96FormatToThreePacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
}
s
[
9
]
^=
0x80000000
;
clen
-=
CRYPTO_ABYTES
;
if
(
clen
)
{
while
(
clen
>=
aead_RATE
)
{
packU96FormatToThreePacket
(
dataFormat
,
c
);
dataFormat_1
[
0
]
=
s
[
0
]
^
dataFormat
[
0
];
dataFormat_1
[
1
]
=
s
[
1
]
^
dataFormat
[
1
];
dataFormat_1
[
2
]
=
s
[
2
]
^
dataFormat
[
2
];
unpackU96FormatToThreePacket
(
m
,
dataFormat_1
);
s
[
0
]
=
dataFormat
[
0
];
s
[
1
]
=
dataFormat
[
1
];
s
[
2
]
=
dataFormat
[
2
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
clen
-=
aead_RATE
;
m
+=
aead_RATE
;
c
+=
aead_RATE
;
}
unpackU96FormatToThreePacket
(
tempU8
,
s
);
for
(
i
=
0
;
i
<
clen
;
++
i
,
++
m
,
++
c
)
{
*
m
=
tempU8
[
i
]
^
*
c
;
tempU8
[
i
]
=
*
c
;
}
tempU8
[
i
]
^=
0x01
;
packU96FormatToThreePacket
(
s
,
tempU8
);
}
// finalization
for
(
i
=
0
;
i
<
PRF_ROUNDS
;
i
++
)
{
ROUND384
(
i
);
}
// return tag
packU96FormatToThreePacket
(
dataFormat
,
c
);
packU96FormatToThreePacket
((
dataFormat
+
3
),
(
c
+
12
));
if
(
dataFormat
[
0
]
!=
s
[
0
]
||
dataFormat
[
1
]
!=
s
[
1
]
||
dataFormat
[
2
]
!=
s
[
2
]
||
dataFormat
[
3
]
!=
s
[
3
]
||
dataFormat
[
4
]
!=
s
[
4
]
||
dataFormat
[
5
]
!=
s
[
5
])
{
return
-
1
;
}
//////////
return
0
;
}
knot/Implementations/crypto_aead/knot256/armcortexm_3/api.h
0 → 100644
View file @
2e4a168b
#define CRYPTO_KEYBYTES 32
#define CRYPTO_NSECBYTES 0
#define CRYPTO_NPUBBYTES 32
#define CRYPTO_ABYTES 32
#define CRYPTO_NOOVERLAP 1
knot/Implementations/crypto_aead/knot256/armcortexm_3/auxFormat.h
0 → 100644
View file @
2e4a168b
#include"crypto_aead.h"
#include"api.h"
#include <string.h>
#define U32BIG(x) (x)
#define ARR_SIZE(a) (sizeof((a))/sizeof((a[0])))
#define LOTR32(x,n) (((x)<<(n))|((x)>>(32-(n))))
#define sbox(a, b, c, d, e, f, g, h) \
{
\
t1
=
~
a
;
t2
=
b
&
t1
;
t3
=
c
^
t2
;
h
=
d
^
t3
;
t5
=
b
|
c
;
t6
=
d
^
t1
;
g
=
t5
^
t6
;
t8
=
b
^
d
;
t9
=
t3
&
t6
;
e
=
t8
^
t9
;
t11
=
g
&
t8
;
f
=
t3
^
t11
;
\
}
typedef
unsigned
char
u8
;
typedef
unsigned
int
u32
;
typedef
unsigned
long
long
u64
;
void
printU8
(
char
name
[],
u8
var
[],
long
len
,
int
offset
);
#define puck32(in)\
{
\
t9
=
(
in
^
(
in
>>
1
))
&
0x22222222
;
in
^=
t9
^
(
t9
<<
1
);
\
t9
=
(
in
^
(
in
>>
2
))
&
0x0C0C0C0C
;
in
^=
t9
^
(
t9
<<
2
);
\
t9
=
(
in
^
(
in
>>
4
))
&
0x00F000F0
;
in
^=
t9
^
(
t9
<<
4
);
\
t9
=
(
in
^
(
in
>>
8
))
&
0x0000FF00
;
in
^=
t9
^
(
t9
<<
8
);
\
}
#define unpuck32(t0){\
t9
=
(
t0
^
(
t0
>>
8
))
&
0x0000FF00
,
t0
^=
t9
^
(
t9
<<
8
);
\
t9
=
(
t0
^
(
t0
>>
4
))
&
0x00F000F0
,
t0
^=
t9
^
(
t9
<<
4
);
\
t9
=
(
t0
^
(
t0
>>
2
))
&
0x0C0C0C0C
,
t0
^=
t9
^
(
t9
<<
2
);
\
t9
=
(
t0
^
(
t0
>>
1
))
&
0x22222222
,
t0
^=
t9
^
(
t9
<<
1
);
\
}
#define packU128FormatToFourPacket(out,in) {\
t8
=
U32BIG
(((
u32
*
)
in
)[
0
]);
\
t1
=
U32BIG
(((
u32
*
)
in
)[
1
]);
\
t2
=
U32BIG
(((
u32
*
)
in
)[
2
]);
\
t3
=
U32BIG
(((
u32
*
)
in
)[
3
]);
\
puck32
(
t8
);
puck32
(
t8
);
\
puck32
(
t1
);
puck32
(
t1
);
\
puck32
(
t2
);
puck32
(
t2
);
\
puck32
(
t3
);
puck32
(
t3
);
\
out
[
3
]
=
t3
&
0xff000000
|
((
t2
>>
8
)
&
0x00ff0000
)
|
((
t1
>>
16
)
&
0x0000ff00
)
|
(
t8
>>
24
);
\
out
[
2
]
=
((
t3
<<
8
)
&
0xff000000
)
|
(
t2
&
0x00ff0000
)
|
((
t1
>>
8
)
&
0x0000ff00
)
|
((
t8
>>
16
)
&
0x000000ff
);
\
out
[
1
]
=
((
t3
<<
16
)
&
0xff000000
)
|
((
t2
<<
8
)
&
0x00ff0000
)
|
(
t1
&
0x0000ff00
)
|
((
t8
>>
8
)
&
0x000000ff
);
\
out
[
0
]
=
((
t3
<<
24
)
&
0xff000000
)
|
((
t2
<<
16
)
&
0x00ff0000
)
|
((
t1
<<
8
)
&
0x0000ff00
)
|
(
t8
&
0x000000ff
);
\
}
#define unpackU128FormatToFourPacket( out, in) {\
memcpy
(
dataFormat
,
in
,
sizeof
(
unsigned
int
)
*
4
);
\
t3
=
dataFormat
[
3
]
&
0xff000000
|
((
dataFormat
[
2
]
>>
8
)
&
0x00ff0000
)
|
((
dataFormat
[
1
]
>>
16
)
&
0x0000ff00
)
|
(
dataFormat
[
0
]
>>
24
);
\
t2
=
((
dataFormat
[
3
]
<<
8
)
&
0xff000000
)
|
(
dataFormat
[
2
]
&
0x00ff0000
)
|
((
dataFormat
[
1
]
>>
8
)
&
0x0000ff00
)
|
((
dataFormat
[
0
]
>>
16
)
&
0x000000ff
);
\
t1
=
((
dataFormat
[
3
]
<<
16
)
&
0xff000000
)
|
((
dataFormat
[
2
]
<<
8
)
&
0x00ff0000
)
|
(
dataFormat
[
1
]
&
0x0000ff00
)
|
((
dataFormat
[
0
]
>>
8
)
&
0x000000ff
);
\
t8
=
((
dataFormat
[
3
]
<<
24
)
&
0xff000000
)
|
((
dataFormat
[
2
]
<<
16
)
&
0x00ff0000
)
|
((
dataFormat
[
1
]
<<
8
)
&
0x0000ff00
)
|
(
dataFormat
[
0
]
&
0x000000ff
);
\
unpuck32
(
t8
);
unpuck32
(
t8
);
\
unpuck32
(
t1
);
unpuck32
(
t1
);
\
unpuck32
(
t2
);
unpuck32
(
t2
);
\
unpuck32
(
t3
);
unpuck32
(
t3
);
\
((
u32
*
)
out
)[
0
]
=
U32BIG
(
t8
);
\
((
u32
*
)
out
)[
1
]
=
U32BIG
(
t1
);
\
((
u32
*
)
out
)[
2
]
=
U32BIG
(
t2
);
\
((
u32
*
)
out
)[
3
]
=
U32BIG
(
t3
);
\
}
#define packU64FormatToFourPacket( out, in) {\
t1
=
U32BIG
(((
u32
*
)
in
)[
0
]);
\
t2
=
U32BIG
(((
u32
*
)
in
)[
1
]);
\
puck32
(
t1
);
\
puck32
(
t1
);
\
puck32
(
t2
);
\
puck32
(
t2
);
\
out
[
3
]
=
((
t2
>>
16
)
&
0x0000ff00
)
|
((
t1
>>
24
));
\
out
[
2
]
=
((
t2
>>
8
)
&
0x0000ff00
)
|
((
t1
>>
16
)
&
0x000000ff
);
\
out
[
1
]
=
(
t2
&
0x0000ff00
)
|
((
t1
>>
8
)
&
0x000000ff
);
\
out
[
0
]
=
((
t2
<<
8
)
&
0x0000ff00
)
|
(
t1
&
0x000000ff
);
\
}
#define BIT_LOTR32_1(t0,t1,t2,t3,t4,t5,t6,t7){\
t4
=
LOTR32
(
t3
,
1
);
\
t5
=
t0
;
\
t6
=
t1
;
\
t7
=
t2
;
\
}
#define BIT_LOTR32_16(t0,t1,t2,t3,t4,t5,t6,t7){\
t4
=
LOTR32
(
t0
,
4
);
\
t5
=
LOTR32
(
t1
,
4
);
\
t6
=
LOTR32
(
t2
,
4
);
\
t7
=
LOTR32
(
t3
,
4
);
\
}
#define BIT_LOTR32_25(t0,t1,t2,t3,t4,t5,t6,t7){\
t4
=
LOTR32
(
t3
,
7
);
\
t5
=
LOTR32
(
t0
,
6
);
\
t6
=
LOTR32
(
t1
,
6
);
\
t7
=
LOTR32
(
t2
,
6
);
\
}
#define ROUND512( arr,lunNum) {\
s
[
3
]
^=
(
arr
[
lunNum
]
>>
6
)
&
0x3
;
\
s
[
2
]
^=
(
arr
[
lunNum
]
>>
4
)
&
0x3
;
\
s
[
1
]
^=
(
arr
[
lunNum
]
>>
2
)
&
0x3
;
\
s
[
0
]
^=
arr
[
lunNum
]
&
0x3
;
\
sbox
(
s
[
0
],
s
[
4
],
s
[
8
],
s
[
12
],
s_temp
[
0
],
s_temp
[
4
],
s_temp
[
8
],
s_temp
[
12
]);
\
sbox
(
s
[
1
],
s
[
5
],
s
[
9
],
s
[
13
],
s_temp
[
1
],
s_temp
[
5
],
s_temp
[
9
],
s_temp
[
13
]);
\
sbox
(
s
[
2
],
s
[
6
],
s
[
10
],
s
[
14
],
s_temp
[
2
],
s_temp
[
6
],
s_temp
[
10
],
s_temp
[
14
]);
\
sbox
(
s
[
3
],
s
[
7
],
s
[
11
],
s
[
15
],
s_temp
[
3
],
s_temp
[
7
],
s_temp
[
11
],
s_temp
[
15
]);
\
s
[
0
]
=
s_temp
[
0
],
s
[
1
]
=
s_temp
[
1
],
s
[
2
]
=
s_temp
[
2
],
s
[
3
]
=
s_temp
[
3
];
\
BIT_LOTR32_1
(
s_temp
[
4
],
s_temp
[
5
],
s_temp
[
6
],
s_temp
[
7
],
s
[
4
],
s
[
5
],
s
[
6
],
s
[
7
]);
\
BIT_LOTR32_16
(
s_temp
[
8
],
s_temp
[
9
],
s_temp
[
10
],
s_temp
[
11
],
s
[
8
],
s
[
9
],
s
[
10
],
s
[
11
]);
\
BIT_LOTR32_25
(
s_temp
[
12
],
s_temp
[
13
],
s_temp
[
14
],
s_temp
[
15
],
s
[
12
],
s
[
13
],
s
[
14
],
s
[
15
]);
\
}
knot/Implementations/crypto_aead/knot256/armcortexm_3/crypto_aead.h
0 → 100644
View file @
2e4a168b
int
crypto_aead_encrypt
(
unsigned
char
*
c
,
unsigned
long
long
*
clen
,
const
unsigned
char
*
m
,
unsigned
long
long
mlen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
nsec
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
);
int
crypto_aead_decrypt
(
unsigned
char
*
m
,
unsigned
long
long
*
mlen
,
unsigned
char
*
nsec
,
const
unsigned
char
*
c
,
unsigned
long
long
clen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
);
knot/Implementations/crypto_aead/knot256/armcortexm_3/encrypt.c
0 → 100644
View file @
2e4a168b
#include"auxFormat.h"
#define aead_RATE (128 / 8)
#define PR0_ROUNDS 100
#define PR_ROUNDS 52
#define PRF_ROUNDS 56
unsigned
char
constant7Format_aead
[
127
]
=
{
/*constant7_aead_256*/
0x1
,
0x4
,
0x10
,
0x40
,
0x2
,
0x8
,
0x21
,
0x5
,
0x14
,
0x50
,
0x42
,
0xa
,
0x29
,
0x24
,
0x11
,
0x44
,
0x12
,
0x48
,
0x23
,
0xd
,
0x35
,
0x55
,
0x56
,
0x5a
,
0x6b
,
0x2e
,
0x38
,
0x60
,
0x3
,
0xc
,
0x31
,
0x45
,
0x16
,
0x58
,
0x63
,
0xf
,
0x3d
,
0x74
,
0x53
,
0x4e
,
0x3b
,
0x6c
,
0x32
,
0x49
,
0x27
,
0x1d
,
0x75
,
0x57
,
0x5e
,
0x7b
,
0x6e
,
0x3a
,
0x68
,
0x22
,
0x9
,
0x25
,
0x15
,
0x54
,
0x52
,
0x4a
,
0x2b
,
0x2c
,
0x30
,
0x41
,
0x6
,
0x18
,
0x61
,
0x7
,
0x1c
,
0x71
,
0x47
,
0x1e
,
0x79
,
0x66
,
0x1b
,
0x6d
,
0x36
,
0x59
,
0x67
,
0x1f
,
0x7d
,
0x76
,
0x5b
,
0x6f
,
0x3e
,
0x78
,
0x62
,
0xb
,
0x2d
,
0x34
,
0x51
,
0x46
,
0x1a
,
0x69
,
0x26
,
0x19
,
0x65
,
0x17
,
0x5c
,
0x73
,
0x4f
,
0x3f
,
0x7c
,
0x72
,
0x4b
,
0x2f
,
0x3c
,
0x70
,
0x43
,
0xe
,
0x39
,
0x64
,
0x13
,
0x4c
,
0x33
,
0x4d
,
0x37
,
0x5d
,
0x77
,
0x5f
,
0x7f
,
0x7e
,
0x7a
,
0x6a
,
0x2a
,
0x28
,
0x20
,
};
int
crypto_aead_encrypt
(
unsigned
char
*
c
,
unsigned
long
long
*
clen
,
const
unsigned
char
*
m
,
unsigned
long
long
mlen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
nsec
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
)
{
u32
i
,
j
;
u32
s_temp
[
16
]
=
{
0
};
u32
t1
,
t2
,
t3
,
t5
,
t6
,
t8
,
t9
,
t11
;
// initialization
u32
s
[
16
]
=
{
0
};
u32
dataFormat
[
4
]
=
{
0
};
u8
tempData
[
16
]
=
{
0
};
*
clen
=
mlen
+
CRYPTO_ABYTES
;
//initialization
packU128FormatToFourPacket
(
s
,
npub
);
packU128FormatToFourPacket
((
s
+
4
),
(
npub
+
16
));
packU128FormatToFourPacket
((
s
+
8
),
k
);
packU128FormatToFourPacket
((
s
+
12
),
(
k
+
16
));
for
(
i
=
0
;
i
<
PR0_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
// process associated data
if
(
adlen
)
{
while
(
adlen
>=
aead_RATE
)
{
packU128FormatToFourPacket
(
dataFormat
,
ad
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
s
[
3
]
^=
dataFormat
[
3
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
adlen
-=
aead_RATE
;
ad
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
ad
,
adlen
*
sizeof
(
unsigned
char
));
tempData
[
adlen
]
=
0x01
;
packU128FormatToFourPacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
s
[
3
]
^=
dataFormat
[
3
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
}
s
[
15
]
^=
0x80000000
;
if
(
mlen
)
{
while
(
mlen
>=
aead_RATE
)
{
packU128FormatToFourPacket
(
dataFormat
,
m
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
s
[
3
]
^=
dataFormat
[
3
];
unpackU128FormatToFourPacket
(
c
,
s
);
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
mlen
-=
aead_RATE
;
m
+=
aead_RATE
;
c
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
m
,
mlen
*
sizeof
(
unsigned
char
));
tempData
[
mlen
]
=
0x01
;
packU128FormatToFourPacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
s
[
3
]
^=
dataFormat
[
3
];
unpackU128FormatToFourPacket
(
tempData
,
s
);
memcpy
(
c
,
tempData
,
mlen
*
sizeof
(
unsigned
char
));
c
+=
mlen
;
}
// finalization
for
(
i
=
0
;
i
<
PRF_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
// return tag
unpackU128FormatToFourPacket
(
c
,
s
);
unpackU128FormatToFourPacket
((
c
+
16
),
(
s
+
4
));
return
0
;
}
int
crypto_aead_decrypt
(
unsigned
char
*
m
,
unsigned
long
long
*
mlen
,
unsigned
char
*
nsec
,
const
unsigned
char
*
c
,
unsigned
long
long
clen
,
const
unsigned
char
*
ad
,
unsigned
long
long
adlen
,
const
unsigned
char
*
npub
,
const
unsigned
char
*
k
){
u32
s_temp
[
16
]
=
{
0
};
u32
t1
,
t2
,
t3
,
t5
,
t6
,
t8
,
t9
,
t11
;
u8
i
,
j
;
// initialization
u32
s
[
16
]
=
{
0
};
u32
dataFormat
[
4
]
=
{
0
};
u32
dataFormat_1
[
4
]
=
{
0
};
u32
dataFormat_2
[
4
]
=
{
0
};
u8
tempData
[
16
]
=
{
0
};
u8
tempU8
[
64
]
=
{
0
};
if
(
clen
<
CRYPTO_ABYTES
)
return
-
1
;
*
mlen
=
clen
-
CRYPTO_ABYTES
;
//initialization
packU128FormatToFourPacket
(
s
,
npub
);
packU128FormatToFourPacket
((
s
+
4
),
(
npub
+
16
));
packU128FormatToFourPacket
((
s
+
8
),
k
);
packU128FormatToFourPacket
((
s
+
12
),
(
k
+
16
));
for
(
i
=
0
;
i
<
PR0_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
// process associated data
if
(
adlen
)
{
while
(
adlen
>=
aead_RATE
)
{
packU128FormatToFourPacket
(
dataFormat
,
ad
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
s
[
3
]
^=
dataFormat
[
3
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
adlen
-=
aead_RATE
;
ad
+=
aead_RATE
;
}
memset
(
tempData
,
0
,
sizeof
(
tempData
));
memcpy
(
tempData
,
ad
,
adlen
*
sizeof
(
unsigned
char
));
tempData
[
adlen
]
=
0x01
;
packU128FormatToFourPacket
(
dataFormat
,
tempData
);
s
[
0
]
^=
dataFormat
[
0
];
s
[
1
]
^=
dataFormat
[
1
];
s
[
2
]
^=
dataFormat
[
2
];
s
[
3
]
^=
dataFormat
[
3
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
}
s
[
15
]
^=
0x80000000
;
clen
=
clen
-
CRYPTO_KEYBYTES
;
if
(
clen
)
{
while
(
clen
>=
aead_RATE
)
{
packU128FormatToFourPacket
(
dataFormat_2
,
c
);
dataFormat_1
[
0
]
=
s
[
0
]
^
dataFormat_2
[
0
];
dataFormat_1
[
1
]
=
s
[
1
]
^
dataFormat_2
[
1
];
dataFormat_1
[
2
]
=
s
[
2
]
^
dataFormat_2
[
2
];
dataFormat_1
[
3
]
=
s
[
3
]
^
dataFormat_2
[
3
];
unpackU128FormatToFourPacket
(
m
,
dataFormat_1
);
s
[
0
]
=
dataFormat_2
[
0
];
s
[
1
]
=
dataFormat_2
[
1
];
s
[
2
]
=
dataFormat_2
[
2
];
s
[
3
]
=
dataFormat_2
[
3
];
for
(
i
=
0
;
i
<
PR_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
clen
-=
aead_RATE
;
m
+=
aead_RATE
;
c
+=
aead_RATE
;
}
unpackU128FormatToFourPacket
(
tempU8
,
s
);
for
(
i
=
0
;
i
<
clen
;
++
i
,
++
m
,
++
c
)
{
*
m
=
tempU8
[
i
]
^
*
c
;
tempU8
[
i
]
=
*
c
;
}
tempU8
[
i
]
^=
0x01
;
packU128FormatToFourPacket
(
s
,
tempU8
);
}
// finalization
for
(
i
=
0
;
i
<
PRF_ROUNDS
;
i
++
)
{
ROUND512
(
constant7Format_aead
,
i
);
}
// return tag
packU128FormatToFourPacket
(
dataFormat
,
c
);
packU128FormatToFourPacket
(
dataFormat_1
,
(
c
+
16
));
if
(
dataFormat
[
0
]
!=
s
[
0
]
||
dataFormat
[
1
]
!=
s
[
1
]
||
dataFormat
[
2
]
!=
s
[
2
]
||
dataFormat
[
3
]
!=
s
[
3
]
||
dataFormat_1
[
0
]
!=
s
[
4
]
||
dataFormat_1
[
1
]
!=
s
[
5
]
||
dataFormat_1
[
2
]
!=
s
[
6
]
||
dataFormat_1
[
3
]
!=
s
[
7
])
{
return
-
1
;
}
return
0
;
}
\ No newline at end of file
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