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/*************************************************
* SHA-160 Source File *
* (C) 1999-2006 The Botan Project *
*************************************************/
#include <botan/asm_macr.h>
START_LISTING(sha1core.S)
FUNCTION(sha160_core)
PUSH(EBP)
PUSH(EDI)
PUSH(ESI)
PUSH(EBX)
#define PUSHED 4
ASSIGN(EBP, ARG(2))
ASSIGN(EDI, ARG(3))
ZEROIZE(ESI)
START_LOOP(.LOAD_INPUT)
ADD_IMM(ESI, 4)
ASSIGN(EAX, ARRAY(EBP, 0))
ASSIGN(EBX, ARRAY(EBP, 1))
ASSIGN(ECX, ARRAY(EBP, 2))
ASSIGN(EDX, ARRAY(EBP, 3))
ADD_IMM(EBP, 16)
BSWAP(EAX)
BSWAP(EBX)
BSWAP(ECX)
BSWAP(EDX)
ASSIGN(-16(EDI,ESI,4), EAX)
ASSIGN(-12(EDI,ESI,4), EBX)
ASSIGN( -8(EDI,ESI,4), ECX)
ASSIGN( -4(EDI,ESI,4), EDX)
LOOP_UNTIL(ESI, IMM(16), .LOAD_INPUT)
ADD2_IMM(EBP, EDI, 64)
START_LOOP(.EXPANSION)
ADD_IMM(ESI, 4)
ZEROIZE(EAX)
ASSIGN(EBX, ARRAY(EBP, -1))
ASSIGN(ECX, ARRAY(EBP, -2))
ASSIGN(EDX, ARRAY(EBP, -3))
XOR(ARRAY(EBP, -5), EAX)
XOR(ARRAY(EBP, -6), EBX)
XOR(ARRAY(EBP, -7), ECX)
XOR(ARRAY(EBP, -8), EDX)
XOR(ARRAY(EBP, -11), EAX)
XOR(ARRAY(EBP, -12), EBX)
XOR(ARRAY(EBP, -13), ECX)
XOR(ARRAY(EBP, -14), EDX)
XOR(ARRAY(EBP, -13), EAX)
XOR(ARRAY(EBP, -14), EBX)
XOR(ARRAY(EBP, -15), ECX)
XOR(ARRAY(EBP, -16), EDX)
ROTL_IMM(EDX, 1)
ROTL_IMM(ECX, 1)
ROTL_IMM(EBX, 1)
XOR(EDX, EAX)
ROTL_IMM(EAX, 1)
ASSIGN(ARRAY(EBP, 0), EDX)
ASSIGN(ARRAY(EBP, 1), ECX)
ASSIGN(ARRAY(EBP, 2), EBX)
ASSIGN(ARRAY(EBP, 3), EAX)
ADD_IMM(EBP, 16)
LOOP_UNTIL(ESI, IMM(80), .EXPANSION)
ASSIGN(EBP, ARG(1))
ASSIGN(EAX, ARRAY(EBP, 0))
ASSIGN(EBX, ARRAY(EBP, 1))
ASSIGN(ECX, ARRAY(EBP, 2))
ASSIGN(EDX, ARRAY(EBP, 3))
ASSIGN(ESI, ARRAY(EBP, 4))
#define MAGIC1 0x5A827999
#define MAGIC2 0x6ED9EBA1
#define MAGIC3 0x8F1BBCDC
#define MAGIC4 0xCA62C1D6
#define F1(A, B, C, D, E, TEMP, MSG) \
ADD(ARRAY(EDI, MSG), E) ; \
ASSIGN(TEMP, C) ; \
ROTL_IMM(A, 5) ; \
XOR(D, TEMP) ; \
ADD(A, E) ; \
AND(B, TEMP) ; \
ROTR_IMM(B, 2) ; \
XOR(D, TEMP) ; \
leal MAGIC1(E,TEMP,1), E ; \
ROTR_IMM(A, 5) ;
#define F2_OR_F4(A, B, C, D, E, TEMP, MSG, MAGIC) \
ADD(ARRAY(EDI, MSG), E) ; \
ASSIGN(TEMP, B) ; \
ROTL_IMM(A, 5) ; \
XOR(D, TEMP) ; \
ADD(A, E) ; \
XOR(C, TEMP) ; \
ROTR_IMM(B, 2) ; \
leal MAGIC(E,TEMP,1), E ; \
ROTR_IMM(A, 5) ;
#define F3(A, B, C, D, E, TEMP, MSG) \
ADD(ARRAY(EDI, MSG), E) ; \
ASSIGN(TEMP, B) ; \
ROTL_IMM(A, 5) ; \
OR(C, TEMP) ; \
ASSIGN(ARRAY(EDI, MSG), B) ; \
AND(D, TEMP) ; \
AND(C, ARRAY(EDI, MSG)) ; \
OR(ARRAY(EDI, MSG), TEMP) ; \
ADD(A, E) ; \
leal MAGIC3(E,TEMP,1), E ; \
ROTR_IMM(B, 2) ; \
ROTR_IMM(A, 5) ;
#define F2(A, B, C, D, E, TEMP, MSG) \
F2_OR_F4(A, B, C, D, E, TEMP, MSG, MAGIC2)
#define F4(A, B, C, D, E, TEMP, MSG) \
F2_OR_F4(A, B, C, D, E, TEMP, MSG, MAGIC4)
#define F_BLOCK(F, MSG) \
F(EAX, EBX, ECX, EDX, ESI, EBP, (MSG+0)) \
F(ESI, EAX, EBX, ECX, EDX, EBP, (MSG+1)) \
F(EDX, ESI, EAX, EBX, ECX, EBP, (MSG+2)) \
F(ECX, EDX, ESI, EAX, EBX, EBP, (MSG+3)) \
F(EBX, ECX, EDX, ESI, EAX, EBP, (MSG+4))
F_BLOCK(F1, 0)
F_BLOCK(F1, 5)
F_BLOCK(F1, 10)
F_BLOCK(F1, 15)
F_BLOCK(F2, 20)
F_BLOCK(F2, 25)
F_BLOCK(F2, 30)
F_BLOCK(F2, 35)
F_BLOCK(F3, 40)
F_BLOCK(F3, 45)
F_BLOCK(F3, 50)
F_BLOCK(F3, 55)
F_BLOCK(F4, 60)
F_BLOCK(F4, 65)
F_BLOCK(F4, 70)
F_BLOCK(F4, 75)
ASSIGN(EBP, ARG(1))
ADD(EAX, ARRAY(EBP, 0))
ADD(EBX, ARRAY(EBP, 1))
ADD(ECX, ARRAY(EBP, 2))
ADD(EDX, ARRAY(EBP, 3))
ADD(ESI, ARRAY(EBP, 4))
POP(EBX)
POP(ESI)
POP(EDI)
POP(EBP)
ret
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