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authordaniel0916 <theschokolps@gmail.com>2014-04-07 20:12:17 +0200
committerdaniel0916 <theschokolps@gmail.com>2014-04-07 20:12:17 +0200
commit2e9754ac1cf0537c12ab7974cf55c451c0724540 (patch)
tree713c5b8c8f22f77893b30b9c8cefca4a7c491483 /lib/cryptopp/vmac.cpp
parentFixed merge conflict (diff)
parentFixed some more minor issues with the redstone simulator. (diff)
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Diffstat (limited to 'lib/cryptopp/vmac.cpp')
-rw-r--r--lib/cryptopp/vmac.cpp832
1 files changed, 0 insertions, 832 deletions
diff --git a/lib/cryptopp/vmac.cpp b/lib/cryptopp/vmac.cpp
deleted file mode 100644
index 6b490f904..000000000
--- a/lib/cryptopp/vmac.cpp
+++ /dev/null
@@ -1,832 +0,0 @@
-// vmac.cpp - written and placed in the public domain by Wei Dai
-// based on Ted Krovetz's public domain vmac.c and draft-krovetz-vmac-01.txt
-
-#include "pch.h"
-#include "vmac.h"
-#include "argnames.h"
-#include "cpu.h"
-
-NAMESPACE_BEGIN(CryptoPP)
-
-#if defined(_MSC_VER) && !CRYPTOPP_BOOL_SLOW_WORD64
-#include <intrin.h>
-#endif
-
-#define VMAC_BOOL_WORD128 (defined(CRYPTOPP_WORD128_AVAILABLE) && !defined(CRYPTOPP_X64_ASM_AVAILABLE))
-#ifdef __BORLANDC__
-#define const // Turbo C++ 2006 workaround
-#endif
-static const word64 p64 = W64LIT(0xfffffffffffffeff); /* 2^64 - 257 prime */
-static const word64 m62 = W64LIT(0x3fffffffffffffff); /* 62-bit mask */
-static const word64 m63 = W64LIT(0x7fffffffffffffff); /* 63-bit mask */
-static const word64 m64 = W64LIT(0xffffffffffffffff); /* 64-bit mask */
-static const word64 mpoly = W64LIT(0x1fffffff1fffffff); /* Poly key mask */
-#ifdef __BORLANDC__
-#undef const
-#endif
-#if VMAC_BOOL_WORD128
-#ifdef __powerpc__
-// workaround GCC Bug 31690: ICE with const __uint128_t and C++ front-end
-#define m126 ((word128(m62)<<64)|m64)
-#else
-static const word128 m126 = (word128(m62)<<64)|m64; /* 126-bit mask */
-#endif
-#endif
-
-void VMAC_Base::UncheckedSetKey(const byte *userKey, unsigned int keylength, const NameValuePairs &params)
-{
- int digestLength = params.GetIntValueWithDefault(Name::DigestSize(), DefaultDigestSize());
- if (digestLength != 8 && digestLength != 16)
- throw InvalidArgument("VMAC: DigestSize must be 8 or 16");
- m_is128 = digestLength == 16;
-
- m_L1KeyLength = params.GetIntValueWithDefault(Name::L1KeyLength(), 128);
- if (m_L1KeyLength <= 0 || m_L1KeyLength % 128 != 0)
- throw InvalidArgument("VMAC: L1KeyLength must be a positive multiple of 128");
-
- AllocateBlocks();
-
- BlockCipher &cipher = AccessCipher();
- cipher.SetKey(userKey, keylength, params);
- unsigned int blockSize = cipher.BlockSize();
- unsigned int blockSizeInWords = blockSize / sizeof(word64);
- SecBlock<word64> out(blockSizeInWords);
- SecByteBlock in;
- in.CleanNew(blockSize);
- size_t i;
-
- /* Fill nh key */
- in[0] = 0x80;
- cipher.AdvancedProcessBlocks(in, NULL, (byte *)m_nhKey(), m_nhKeySize()*sizeof(word64), cipher.BT_InBlockIsCounter);
- ConditionalByteReverse<word64>(BIG_ENDIAN_ORDER, m_nhKey(), m_nhKey(), m_nhKeySize()*sizeof(word64));
-
- /* Fill poly key */
- in[0] = 0xC0;
- in[15] = 0;
- for (i = 0; i <= (size_t)m_is128; i++)
- {
- cipher.ProcessBlock(in, out.BytePtr());
- m_polyState()[i*4+2] = GetWord<word64>(true, BIG_ENDIAN_ORDER, out.BytePtr()) & mpoly;
- m_polyState()[i*4+3] = GetWord<word64>(true, BIG_ENDIAN_ORDER, out.BytePtr()+8) & mpoly;
- in[15]++;
- }
-
- /* Fill ip key */
- in[0] = 0xE0;
- in[15] = 0;
- word64 *l3Key = m_l3Key();
- for (i = 0; i <= (size_t)m_is128; i++)
- do
- {
- cipher.ProcessBlock(in, out.BytePtr());
- l3Key[i*2+0] = GetWord<word64>(true, BIG_ENDIAN_ORDER, out.BytePtr());
- l3Key[i*2+1] = GetWord<word64>(true, BIG_ENDIAN_ORDER, out.BytePtr()+8);
- in[15]++;
- } while ((l3Key[i*2+0] >= p64) || (l3Key[i*2+1] >= p64));
-
- m_padCached = false;
- size_t nonceLength;
- const byte *nonce = GetIVAndThrowIfInvalid(params, nonceLength);
- Resynchronize(nonce, (int)nonceLength);
-}
-
-void VMAC_Base::GetNextIV(RandomNumberGenerator &rng, byte *IV)
-{
- SimpleKeyingInterface::GetNextIV(rng, IV);
- IV[0] &= 0x7f;
-}
-
-void VMAC_Base::Resynchronize(const byte *nonce, int len)
-{
- size_t length = ThrowIfInvalidIVLength(len);
- size_t s = IVSize();
- byte *storedNonce = m_nonce();
-
- if (m_is128)
- {
- memset(storedNonce, 0, s-length);
- memcpy(storedNonce+s-length, nonce, length);
- AccessCipher().ProcessBlock(storedNonce, m_pad());
- }
- else
- {
- if (m_padCached && (storedNonce[s-1] | 1) == (nonce[length-1] | 1))
- {
- m_padCached = VerifyBufsEqual(storedNonce+s-length, nonce, length-1);
- for (size_t i=0; m_padCached && i<s-length; i++)
- m_padCached = (storedNonce[i] == 0);
- }
- if (!m_padCached)
- {
- memset(storedNonce, 0, s-length);
- memcpy(storedNonce+s-length, nonce, length-1);
- storedNonce[s-1] = nonce[length-1] & 0xfe;
- AccessCipher().ProcessBlock(storedNonce, m_pad());
- m_padCached = true;
- }
- storedNonce[s-1] = nonce[length-1];
- }
- m_isFirstBlock = true;
- Restart();
-}
-
-void VMAC_Base::HashEndianCorrectedBlock(const word64 *data)
-{
- assert(false);
- throw 0;
-}
-
-#if CRYPTOPP_BOOL_SSE2_ASM_AVAILABLE && CRYPTOPP_BOOL_X86
-#pragma warning(disable: 4731) // frame pointer register 'ebp' modified by inline assembly code
-void
-#ifdef __GNUC__
-__attribute__ ((noinline)) // Intel Compiler 9.1 workaround
-#endif
-VMAC_Base::VHASH_Update_SSE2(const word64 *data, size_t blocksRemainingInWord64, int tagPart)
-{
- const word64 *nhK = m_nhKey();
- word64 *polyS = m_polyState();
- word32 L1KeyLength = m_L1KeyLength;
-
-#ifdef __GNUC__
- word32 temp;
- __asm__ __volatile__
- (
- AS2( mov %%ebx, %0)
- AS2( mov %1, %%ebx)
- ".intel_syntax noprefix;"
-#else
- #if _MSC_VER < 1300 || defined(__INTEL_COMPILER)
- char isFirstBlock = m_isFirstBlock;
- AS2( mov ebx, [L1KeyLength])
- AS2( mov dl, [isFirstBlock])
- #else
- AS2( mov ecx, this)
- AS2( mov ebx, [ecx+m_L1KeyLength])
- AS2( mov dl, [ecx+m_isFirstBlock])
- #endif
- AS2( mov eax, tagPart)
- AS2( shl eax, 4)
- AS2( mov edi, nhK)
- AS2( add edi, eax)
- AS2( add eax, eax)
- AS2( add eax, polyS)
-
- AS2( mov esi, data)
- AS2( mov ecx, blocksRemainingInWord64)
-#endif
-
- AS2( shr ebx, 3)
- AS1( push ebp)
- AS2( sub esp, 12)
- ASL(4)
- AS2( mov ebp, ebx)
- AS2( cmp ecx, ebx)
- AS2( cmovl ebp, ecx)
- AS2( sub ecx, ebp)
- AS2( lea ebp, [edi+8*ebp]) // end of nhK
- AS2( movq mm6, [esi])
- AS2( paddq mm6, [edi])
- AS2( movq mm5, [esi+8])
- AS2( paddq mm5, [edi+8])
- AS2( add esi, 16)
- AS2( add edi, 16)
- AS2( movq mm4, mm6)
- ASS( pshufw mm2, mm6, 1, 0, 3, 2)
- AS2( pmuludq mm6, mm5)
- ASS( pshufw mm3, mm5, 1, 0, 3, 2)
- AS2( pmuludq mm5, mm2)
- AS2( pmuludq mm2, mm3)
- AS2( pmuludq mm3, mm4)
- AS2( pxor mm7, mm7)
- AS2( movd [esp], mm6)
- AS2( psrlq mm6, 32)
- AS2( movd [esp+4], mm5)
- AS2( psrlq mm5, 32)
- AS2( cmp edi, ebp)
- ASJ( je, 1, f)
- ASL(0)
- AS2( movq mm0, [esi])
- AS2( paddq mm0, [edi])
- AS2( movq mm1, [esi+8])
- AS2( paddq mm1, [edi+8])
- AS2( add esi, 16)
- AS2( add edi, 16)
- AS2( movq mm4, mm0)
- AS2( paddq mm5, mm2)
- ASS( pshufw mm2, mm0, 1, 0, 3, 2)
- AS2( pmuludq mm0, mm1)
- AS2( movd [esp+8], mm3)
- AS2( psrlq mm3, 32)
- AS2( paddq mm5, mm3)
- ASS( pshufw mm3, mm1, 1, 0, 3, 2)
- AS2( pmuludq mm1, mm2)
- AS2( pmuludq mm2, mm3)
- AS2( pmuludq mm3, mm4)
- AS2( movd mm4, [esp])
- AS2( paddq mm7, mm4)
- AS2( movd mm4, [esp+4])
- AS2( paddq mm6, mm4)
- AS2( movd mm4, [esp+8])
- AS2( paddq mm6, mm4)
- AS2( movd [esp], mm0)
- AS2( psrlq mm0, 32)
- AS2( paddq mm6, mm0)
- AS2( movd [esp+4], mm1)
- AS2( psrlq mm1, 32)
- AS2( paddq mm5, mm1)
- AS2( cmp edi, ebp)
- ASJ( jne, 0, b)
- ASL(1)
- AS2( paddq mm5, mm2)
- AS2( movd [esp+8], mm3)
- AS2( psrlq mm3, 32)
- AS2( paddq mm5, mm3)
- AS2( movd mm4, [esp])
- AS2( paddq mm7, mm4)
- AS2( movd mm4, [esp+4])
- AS2( paddq mm6, mm4)
- AS2( movd mm4, [esp+8])
- AS2( paddq mm6, mm4)
- AS2( lea ebp, [8*ebx])
- AS2( sub edi, ebp) // reset edi to start of nhK
-
- AS2( movd [esp], mm7)
- AS2( psrlq mm7, 32)
- AS2( paddq mm6, mm7)
- AS2( movd [esp+4], mm6)
- AS2( psrlq mm6, 32)
- AS2( paddq mm5, mm6)
- AS2( psllq mm5, 2)
- AS2( psrlq mm5, 2)
-
-#define a0 [eax+2*4]
-#define a1 [eax+3*4]
-#define a2 [eax+0*4]
-#define a3 [eax+1*4]
-#define k0 [eax+2*8+2*4]
-#define k1 [eax+2*8+3*4]
-#define k2 [eax+2*8+0*4]
-#define k3 [eax+2*8+1*4]
- AS2( test dl, dl)
- ASJ( jz, 2, f)
- AS2( movd mm1, k0)
- AS2( movd mm0, [esp])
- AS2( paddq mm0, mm1)
- AS2( movd a0, mm0)
- AS2( psrlq mm0, 32)
- AS2( movd mm1, k1)
- AS2( movd mm2, [esp+4])
- AS2( paddq mm1, mm2)
- AS2( paddq mm0, mm1)
- AS2( movd a1, mm0)
- AS2( psrlq mm0, 32)
- AS2( paddq mm5, k2)
- AS2( paddq mm0, mm5)
- AS2( movq a2, mm0)
- AS2( xor edx, edx)
- ASJ( jmp, 3, f)
- ASL(2)
- AS2( movd mm0, a3)
- AS2( movq mm4, mm0)
- AS2( pmuludq mm0, k3) // a3*k3
- AS2( movd mm1, a0)
- AS2( pmuludq mm1, k2) // a0*k2
- AS2( movd mm2, a1)
- AS2( movd mm6, k1)
- AS2( pmuludq mm2, mm6) // a1*k1
- AS2( movd mm3, a2)
- AS2( psllq mm0, 1)
- AS2( paddq mm0, mm5)
- AS2( movq mm5, mm3)
- AS2( movd mm7, k0)
- AS2( pmuludq mm3, mm7) // a2*k0
- AS2( pmuludq mm4, mm7) // a3*k0
- AS2( pmuludq mm5, mm6) // a2*k1
- AS2( paddq mm0, mm1)
- AS2( movd mm1, a1)
- AS2( paddq mm4, mm5)
- AS2( movq mm5, mm1)
- AS2( pmuludq mm1, k2) // a1*k2
- AS2( paddq mm0, mm2)
- AS2( movd mm2, a0)
- AS2( paddq mm0, mm3)
- AS2( movq mm3, mm2)
- AS2( pmuludq mm2, k3) // a0*k3
- AS2( pmuludq mm3, mm7) // a0*k0
- AS2( movd [esp+8], mm0)
- AS2( psrlq mm0, 32)
- AS2( pmuludq mm7, mm5) // a1*k0
- AS2( pmuludq mm5, k3) // a1*k3
- AS2( paddq mm0, mm1)
- AS2( movd mm1, a2)
- AS2( pmuludq mm1, k2) // a2*k2
- AS2( paddq mm0, mm2)
- AS2( paddq mm0, mm4)
- AS2( movq mm4, mm0)
- AS2( movd mm2, a3)
- AS2( pmuludq mm2, mm6) // a3*k1
- AS2( pmuludq mm6, a0) // a0*k1
- AS2( psrlq mm0, 31)
- AS2( paddq mm0, mm3)
- AS2( movd mm3, [esp])
- AS2( paddq mm0, mm3)
- AS2( movd mm3, a2)
- AS2( pmuludq mm3, k3) // a2*k3
- AS2( paddq mm5, mm1)
- AS2( movd mm1, a3)
- AS2( pmuludq mm1, k2) // a3*k2
- AS2( paddq mm5, mm2)
- AS2( movd mm2, [esp+4])
- AS2( psllq mm5, 1)
- AS2( paddq mm0, mm5)
- AS2( psllq mm4, 33)
- AS2( movd a0, mm0)
- AS2( psrlq mm0, 32)
- AS2( paddq mm6, mm7)
- AS2( movd mm7, [esp+8])
- AS2( paddq mm0, mm6)
- AS2( paddq mm0, mm2)
- AS2( paddq mm3, mm1)
- AS2( psllq mm3, 1)
- AS2( paddq mm0, mm3)
- AS2( psrlq mm4, 1)
- AS2( movd a1, mm0)
- AS2( psrlq mm0, 32)
- AS2( por mm4, mm7)
- AS2( paddq mm0, mm4)
- AS2( movq a2, mm0)
-#undef a0
-#undef a1
-#undef a2
-#undef a3
-#undef k0
-#undef k1
-#undef k2
-#undef k3
-
- ASL(3)
- AS2( test ecx, ecx)
- ASJ( jnz, 4, b)
-
- AS2( add esp, 12)
- AS1( pop ebp)
- AS1( emms)
-#ifdef __GNUC__
- ".att_syntax prefix;"
- AS2( mov %0, %%ebx)
- : "=m" (temp)
- : "m" (L1KeyLength), "c" (blocksRemainingInWord64), "S" (data), "D" (nhK+tagPart*2), "d" (m_isFirstBlock), "a" (polyS+tagPart*4)
- : "memory", "cc"
- );
-#endif
-}
-#endif
-
-#if VMAC_BOOL_WORD128
- #define DeclareNH(a) word128 a=0
- #define MUL64(rh,rl,i1,i2) {word128 p = word128(i1)*(i2); rh = word64(p>>64); rl = word64(p);}
- #define AccumulateNH(a, b, c) a += word128(b)*(c)
- #define Multiply128(r, i1, i2) r = word128(word64(i1)) * word64(i2)
-#else
- #if _MSC_VER >= 1400 && !defined(__INTEL_COMPILER)
- #define MUL32(a, b) __emulu(word32(a), word32(b))
- #else
- #define MUL32(a, b) ((word64)((word32)(a)) * (word32)(b))
- #endif
- #if defined(CRYPTOPP_X64_ASM_AVAILABLE)
- #define DeclareNH(a) word64 a##0=0, a##1=0
- #define MUL64(rh,rl,i1,i2) asm ("mulq %3" : "=a"(rl), "=d"(rh) : "a"(i1), "g"(i2) : "cc");
- #define AccumulateNH(a, b, c) asm ("mulq %3; addq %%rax, %0; adcq %%rdx, %1" : "+r"(a##0), "+r"(a##1) : "a"(b), "g"(c) : "%rdx", "cc");
- #define ADD128(rh,rl,ih,il) asm ("addq %3, %1; adcq %2, %0" : "+r"(rh),"+r"(rl) : "r"(ih),"r"(il) : "cc");
- #elif defined(_MSC_VER) && !CRYPTOPP_BOOL_SLOW_WORD64
- #define DeclareNH(a) word64 a##0=0, a##1=0
- #define MUL64(rh,rl,i1,i2) (rl) = _umul128(i1,i2,&(rh));
- #define AccumulateNH(a, b, c) {\
- word64 ph, pl;\
- pl = _umul128(b,c,&ph);\
- a##0 += pl;\
- a##1 += ph + (a##0 < pl);}
- #else
- #define VMAC_BOOL_32BIT 1
- #define DeclareNH(a) word64 a##0=0, a##1=0, a##2=0
- #define MUL64(rh,rl,i1,i2) \
- { word64 _i1 = (i1), _i2 = (i2); \
- word64 m1= MUL32(_i1,_i2>>32); \
- word64 m2= MUL32(_i1>>32,_i2); \
- rh = MUL32(_i1>>32,_i2>>32); \
- rl = MUL32(_i1,_i2); \
- ADD128(rh,rl,(m1 >> 32),(m1 << 32)); \
- ADD128(rh,rl,(m2 >> 32),(m2 << 32)); \
- }
- #define AccumulateNH(a, b, c) {\
- word64 p = MUL32(b, c);\
- a##1 += word32((p)>>32);\
- a##0 += word32(p);\
- p = MUL32((b)>>32, c);\
- a##2 += word32((p)>>32);\
- a##1 += word32(p);\
- p = MUL32((b)>>32, (c)>>32);\
- a##2 += p;\
- p = MUL32(b, (c)>>32);\
- a##1 += word32(p);\
- a##2 += word32(p>>32);}
- #endif
-#endif
-#ifndef VMAC_BOOL_32BIT
- #define VMAC_BOOL_32BIT 0
-#endif
-#ifndef ADD128
- #define ADD128(rh,rl,ih,il) \
- { word64 _il = (il); \
- (rl) += (_il); \
- (rh) += (ih) + ((rl) < (_il)); \
- }
-#endif
-
-#if !(defined(_MSC_VER) && _MSC_VER < 1300)
-template <bool T_128BitTag>
-#endif
-void VMAC_Base::VHASH_Update_Template(const word64 *data, size_t blocksRemainingInWord64)
-{
- #define INNER_LOOP_ITERATION(j) {\
- word64 d0 = ConditionalByteReverse(LITTLE_ENDIAN_ORDER, data[i+2*j+0]);\
- word64 d1 = ConditionalByteReverse(LITTLE_ENDIAN_ORDER, data[i+2*j+1]);\
- AccumulateNH(nhA, d0+nhK[i+2*j+0], d1+nhK[i+2*j+1]);\
- if (T_128BitTag)\
- AccumulateNH(nhB, d0+nhK[i+2*j+2], d1+nhK[i+2*j+3]);\
- }
-
-#if (defined(_MSC_VER) && _MSC_VER < 1300)
- bool T_128BitTag = m_is128;
-#endif
- size_t L1KeyLengthInWord64 = m_L1KeyLength / 8;
- size_t innerLoopEnd = L1KeyLengthInWord64;
- const word64 *nhK = m_nhKey();
- word64 *polyS = m_polyState();
- bool isFirstBlock = true;
- size_t i;
-
- #if !VMAC_BOOL_32BIT
- #if VMAC_BOOL_WORD128
- word128 a1, a2;
- #else
- word64 ah1, al1, ah2, al2;
- #endif
- word64 kh1, kl1, kh2, kl2;
- kh1=(polyS+0*4+2)[0]; kl1=(polyS+0*4+2)[1];
- if (T_128BitTag)
- {
- kh2=(polyS+1*4+2)[0]; kl2=(polyS+1*4+2)[1];
- }
- #endif
-
- do
- {
- DeclareNH(nhA);
- DeclareNH(nhB);
-
- i = 0;
- if (blocksRemainingInWord64 < L1KeyLengthInWord64)
- {
- if (blocksRemainingInWord64 % 8)
- {
- innerLoopEnd = blocksRemainingInWord64 % 8;
- for (; i<innerLoopEnd; i+=2)
- INNER_LOOP_ITERATION(0);
- }
- innerLoopEnd = blocksRemainingInWord64;
- }
- for (; i<innerLoopEnd; i+=8)
- {
- INNER_LOOP_ITERATION(0);
- INNER_LOOP_ITERATION(1);
- INNER_LOOP_ITERATION(2);
- INNER_LOOP_ITERATION(3);
- }
- blocksRemainingInWord64 -= innerLoopEnd;
- data += innerLoopEnd;
-
- #if VMAC_BOOL_32BIT
- word32 nh0[2], nh1[2];
- word64 nh2[2];
-
- nh0[0] = word32(nhA0);
- nhA1 += (nhA0 >> 32);
- nh1[0] = word32(nhA1);
- nh2[0] = (nhA2 + (nhA1 >> 32)) & m62;
-
- if (T_128BitTag)
- {
- nh0[1] = word32(nhB0);
- nhB1 += (nhB0 >> 32);
- nh1[1] = word32(nhB1);
- nh2[1] = (nhB2 + (nhB1 >> 32)) & m62;
- }
-
- #define a0 (((word32 *)(polyS+i*4))[2+NativeByteOrder::ToEnum()])
- #define a1 (*(((word32 *)(polyS+i*4))+3-NativeByteOrder::ToEnum())) // workaround for GCC 3.2
- #define a2 (((word32 *)(polyS+i*4))[0+NativeByteOrder::ToEnum()])
- #define a3 (*(((word32 *)(polyS+i*4))+1-NativeByteOrder::ToEnum()))
- #define aHi ((polyS+i*4)[0])
- #define k0 (((word32 *)(polyS+i*4+2))[2+NativeByteOrder::ToEnum()])
- #define k1 (*(((word32 *)(polyS+i*4+2))+3-NativeByteOrder::ToEnum()))
- #define k2 (((word32 *)(polyS+i*4+2))[0+NativeByteOrder::ToEnum()])
- #define k3 (*(((word32 *)(polyS+i*4+2))+1-NativeByteOrder::ToEnum()))
- #define kHi ((polyS+i*4+2)[0])
-
- if (isFirstBlock)
- {
- isFirstBlock = false;
- if (m_isFirstBlock)
- {
- m_isFirstBlock = false;
- for (i=0; i<=(size_t)T_128BitTag; i++)
- {
- word64 t = (word64)nh0[i] + k0;
- a0 = (word32)t;
- t = (t >> 32) + nh1[i] + k1;
- a1 = (word32)t;
- aHi = (t >> 32) + nh2[i] + kHi;
- }
- continue;
- }
- }
- for (i=0; i<=(size_t)T_128BitTag; i++)
- {
- word64 p, t;
- word32 t2;
-
- p = MUL32(a3, 2*k3);
- p += nh2[i];
- p += MUL32(a0, k2);
- p += MUL32(a1, k1);
- p += MUL32(a2, k0);
- t2 = (word32)p;
- p >>= 32;
- p += MUL32(a0, k3);
- p += MUL32(a1, k2);
- p += MUL32(a2, k1);
- p += MUL32(a3, k0);
- t = (word64(word32(p) & 0x7fffffff) << 32) | t2;
- p >>= 31;
- p += nh0[i];
- p += MUL32(a0, k0);
- p += MUL32(a1, 2*k3);
- p += MUL32(a2, 2*k2);
- p += MUL32(a3, 2*k1);
- t2 = (word32)p;
- p >>= 32;
- p += nh1[i];
- p += MUL32(a0, k1);
- p += MUL32(a1, k0);
- p += MUL32(a2, 2*k3);
- p += MUL32(a3, 2*k2);
- a0 = t2;
- a1 = (word32)p;
- aHi = (p >> 32) + t;
- }
-
- #undef a0
- #undef a1
- #undef a2
- #undef a3
- #undef aHi
- #undef k0
- #undef k1
- #undef k2
- #undef k3
- #undef kHi
- #else // #if VMAC_BOOL_32BIT
- if (isFirstBlock)
- {
- isFirstBlock = false;
- if (m_isFirstBlock)
- {
- m_isFirstBlock = false;
- #if VMAC_BOOL_WORD128
- #define first_poly_step(a, kh, kl, m) a = (m & m126) + ((word128(kh) << 64) | kl)
-
- first_poly_step(a1, kh1, kl1, nhA);
- if (T_128BitTag)
- first_poly_step(a2, kh2, kl2, nhB);
- #else
- #define first_poly_step(ah, al, kh, kl, mh, ml) {\
- mh &= m62;\
- ADD128(mh, ml, kh, kl); \
- ah = mh; al = ml;}
-
- first_poly_step(ah1, al1, kh1, kl1, nhA1, nhA0);
- if (T_128BitTag)
- first_poly_step(ah2, al2, kh2, kl2, nhB1, nhB0);
- #endif
- continue;
- }
- else
- {
- #if VMAC_BOOL_WORD128
- a1 = (word128((polyS+0*4)[0]) << 64) | (polyS+0*4)[1];
- #else
- ah1=(polyS+0*4)[0]; al1=(polyS+0*4)[1];
- #endif
- if (T_128BitTag)
- {
- #if VMAC_BOOL_WORD128
- a2 = (word128((polyS+1*4)[0]) << 64) | (polyS+1*4)[1];
- #else
- ah2=(polyS+1*4)[0]; al2=(polyS+1*4)[1];
- #endif
- }
- }
- }
-
- #if VMAC_BOOL_WORD128
- #define poly_step(a, kh, kl, m) \
- { word128 t1, t2, t3, t4;\
- Multiply128(t2, a>>64, kl);\
- Multiply128(t3, a, kh);\
- Multiply128(t1, a, kl);\
- Multiply128(t4, a>>64, 2*kh);\
- t2 += t3;\
- t4 += t1;\
- t2 += t4>>64;\
- a = (word128(word64(t2)&m63) << 64) | word64(t4);\
- t2 *= 2;\
- a += m & m126;\
- a += t2>>64;}
-
- poly_step(a1, kh1, kl1, nhA);
- if (T_128BitTag)
- poly_step(a2, kh2, kl2, nhB);
- #else
- #define poly_step(ah, al, kh, kl, mh, ml) \
- { word64 t1h, t1l, t2h, t2l, t3h, t3l, z=0; \
- /* compute ab*cd, put bd into result registers */ \
- MUL64(t2h,t2l,ah,kl); \
- MUL64(t3h,t3l,al,kh); \
- MUL64(t1h,t1l,ah,2*kh); \
- MUL64(ah,al,al,kl); \
- /* add together ad + bc */ \
- ADD128(t2h,t2l,t3h,t3l); \
- /* add 2 * ac to result */ \
- ADD128(ah,al,t1h,t1l); \
- /* now (ah,al), (t2l,2*t2h) need summing */ \
- /* first add the high registers, carrying into t2h */ \
- ADD128(t2h,ah,z,t2l); \
- /* double t2h and add top bit of ah */ \
- t2h += t2h + (ah >> 63); \
- ah &= m63; \
- /* now add the low registers */ \
- mh &= m62; \
- ADD128(ah,al,mh,ml); \
- ADD128(ah,al,z,t2h); \
- }
-
- poly_step(ah1, al1, kh1, kl1, nhA1, nhA0);
- if (T_128BitTag)
- poly_step(ah2, al2, kh2, kl2, nhB1, nhB0);
- #endif
- #endif // #if VMAC_BOOL_32BIT
- } while (blocksRemainingInWord64);
-
- #if VMAC_BOOL_WORD128
- (polyS+0*4)[0]=word64(a1>>64); (polyS+0*4)[1]=word64(a1);
- if (T_128BitTag)
- {
- (polyS+1*4)[0]=word64(a2>>64); (polyS+1*4)[1]=word64(a2);
- }
- #elif !VMAC_BOOL_32BIT
- (polyS+0*4)[0]=ah1; (polyS+0*4)[1]=al1;
- if (T_128BitTag)
- {
- (polyS+1*4)[0]=ah2; (polyS+1*4)[1]=al2;
- }
- #endif
-}
-
-inline void VMAC_Base::VHASH_Update(const word64 *data, size_t blocksRemainingInWord64)
-{
-#if CRYPTOPP_BOOL_SSE2_ASM_AVAILABLE && CRYPTOPP_BOOL_X86
- if (HasSSE2())
- {
- VHASH_Update_SSE2(data, blocksRemainingInWord64, 0);
- if (m_is128)
- VHASH_Update_SSE2(data, blocksRemainingInWord64, 1);
- m_isFirstBlock = false;
- }
- else
-#endif
- {
-#if defined(_MSC_VER) && _MSC_VER < 1300
- VHASH_Update_Template(data, blocksRemainingInWord64);
-#else
- if (m_is128)
- VHASH_Update_Template<true>(data, blocksRemainingInWord64);
- else
- VHASH_Update_Template<false>(data, blocksRemainingInWord64);
-#endif
- }
-}
-
-size_t VMAC_Base::HashMultipleBlocks(const word64 *data, size_t length)
-{
- size_t remaining = ModPowerOf2(length, m_L1KeyLength);
- VHASH_Update(data, (length-remaining)/8);
- return remaining;
-}
-
-static word64 L3Hash(const word64 *input, const word64 *l3Key, size_t len)
-{
- word64 rh, rl, t, z=0;
- word64 p1 = input[0], p2 = input[1];
- word64 k1 = l3Key[0], k2 = l3Key[1];
-
- /* fully reduce (p1,p2)+(len,0) mod p127 */
- t = p1 >> 63;
- p1 &= m63;
- ADD128(p1, p2, len, t);
- /* At this point, (p1,p2) is at most 2^127+(len<<64) */
- t = (p1 > m63) + ((p1 == m63) & (p2 == m64));
- ADD128(p1, p2, z, t);
- p1 &= m63;
-
- /* compute (p1,p2)/(2^64-2^32) and (p1,p2)%(2^64-2^32) */
- t = p1 + (p2 >> 32);
- t += (t >> 32);
- t += (word32)t > 0xfffffffeU;
- p1 += (t >> 32);
- p2 += (p1 << 32);
-
- /* compute (p1+k1)%p64 and (p2+k2)%p64 */
- p1 += k1;
- p1 += (0 - (p1 < k1)) & 257;
- p2 += k2;
- p2 += (0 - (p2 < k2)) & 257;
-
- /* compute (p1+k1)*(p2+k2)%p64 */
- MUL64(rh, rl, p1, p2);
- t = rh >> 56;
- ADD128(t, rl, z, rh);
- rh <<= 8;
- ADD128(t, rl, z, rh);
- t += t << 8;
- rl += t;
- rl += (0 - (rl < t)) & 257;
- rl += (0 - (rl > p64-1)) & 257;
- return rl;
-}
-
-void VMAC_Base::TruncatedFinal(byte *mac, size_t size)
-{
- size_t len = ModPowerOf2(GetBitCountLo()/8, m_L1KeyLength);
-
- if (len)
- {
- memset(m_data()+len, 0, (0-len)%16);
- VHASH_Update(DataBuf(), ((len+15)/16)*2);
- len *= 8; // convert to bits
- }
- else if (m_isFirstBlock)
- {
- // special case for empty string
- m_polyState()[0] = m_polyState()[2];
- m_polyState()[1] = m_polyState()[3];
- if (m_is128)
- {
- m_polyState()[4] = m_polyState()[6];
- m_polyState()[5] = m_polyState()[7];
- }
- }
-
- if (m_is128)
- {
- word64 t[2];
- t[0] = L3Hash(m_polyState(), m_l3Key(), len) + GetWord<word64>(true, BIG_ENDIAN_ORDER, m_pad());
- t[1] = L3Hash(m_polyState()+4, m_l3Key()+2, len) + GetWord<word64>(true, BIG_ENDIAN_ORDER, m_pad()+8);
- if (size == 16)
- {
- PutWord(false, BIG_ENDIAN_ORDER, mac, t[0]);
- PutWord(false, BIG_ENDIAN_ORDER, mac+8, t[1]);
- }
- else
- {
- t[0] = ConditionalByteReverse(BIG_ENDIAN_ORDER, t[0]);
- t[1] = ConditionalByteReverse(BIG_ENDIAN_ORDER, t[1]);
- memcpy(mac, t, size);
- }
- }
- else
- {
- word64 t = L3Hash(m_polyState(), m_l3Key(), len);
- t += GetWord<word64>(true, BIG_ENDIAN_ORDER, m_pad() + (m_nonce()[IVSize()-1]&1) * 8);
- if (size == 8)
- PutWord(false, BIG_ENDIAN_ORDER, mac, t);
- else
- {
- t = ConditionalByteReverse(BIG_ENDIAN_ORDER, t);
- memcpy(mac, &t, size);
- }
- }
-}
-
-NAMESPACE_END