/dports/emulators/citra/citra-ac98458e0/externals/cryptopp/cryptopp/ |
H A D | validat1.cpp | 100 SecBlock<word128> z4(NULLPTR, 256); in NAMESPACE_BEGIN() 128 SecBlock<word128> z4(NULLPTR, 256); in NAMESPACE_BEGIN() 241 SecBlock<word128> a, b; in NAMESPACE_BEGIN() 244 word128 one[1] = {1}, two[1] = {2}; in NAMESPACE_BEGIN() 413 SecBlock<word128> a, b; in NAMESPACE_BEGIN() 416 const word128 one[1] = {1}, two[1] = {2}; in NAMESPACE_BEGIN() 574 SecBlock<word128> a, b, c; in NAMESPACE_BEGIN() 735 SecBlock<word128> a,b; in NAMESPACE_BEGIN() 821 AllocatorBase<word128> A; in NAMESPACE_BEGIN() 823 SecBlock<word128> t(max+1); in NAMESPACE_BEGIN() [all …]
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H A D | validat0.cpp | 1159 const word128 v=0, b=0x08; in TestRounding() 1160 word128 r=RoundUpToMultipleOf(v, b); in TestRounding() 1173 const word128 v=1, b=0x08; in TestRounding() 1174 word128 r=RoundUpToMultipleOf(v, b); in TestRounding() 1187 const word128 v=0x08, b=0x08; in TestRounding() 1202 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() 1203 const word128 v = h | (word128)W64LIT(0xfffffffffffffff7), b=0x08; in TestRounding() 1217 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() 1218 const word128 v = h | (word128)W64LIT(0xfffffffffffffff8), b=0x08; in TestRounding() 1232 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() [all …]
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H A D | config_int.h | 109 typedef __uint128_t word128; typedef 193 typedef word128 dword; 221 typedef __uint128_t word128; typedef
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H A D | donna_64.h | 46 using CryptoPP::word128; 51 # define mul64x64_128(out,a,b) out = (word128)a * b; 56 struct word128 { word64 lo, hi; }; argument 68 struct word128 { word64 lo, hi; }; argument
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H A D | vmac.cpp | 30 using CryptoPP::word128; 53 # define m126 ((word128(m62)<<64)|m64) 55 const word128 m126 = (word128(m62)<<64)|m64; /* 126-bit mask */ 453 #define DeclareNH(a) word128 a=0 454 #define MUL64(rh,rl,i1,i2) {word128 p = word128(i1)*(i2); rh = word64(p>>64); rl = word64(p);} 455 #define AccumulateNH(a, b, c) a += word128(b)*(c) 536 word128 a1=0, a2=0; in VHASH_Update_Template() 692 a1 = (word128((polyS+0*4)[0]) << 64) | (polyS+0*4)[1]; in VHASH_Update_Template() 699 a2 = (word128((polyS+1*4)[0]) << 64) | (polyS+1*4)[1]; in VHASH_Update_Template() 709 { word128 t1, t2, t3, t4;\ in VHASH_Update_Template() [all …]
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H A D | scrypt.cpp | 243 const word128 maxElems = static_cast<word128>(SIZE_MAX); in ValidateParameters() 244 bool bLimit = (maxElems >= static_cast<word128>(cost) * blockSize * 128U); in ValidateParameters() 245 bool xyLimit = (maxElems >= static_cast<word128>(parallelization) * blockSize * 128U); in ValidateParameters() 246 bool vLimit = (maxElems >= static_cast<word128>(blockSize) * 256U + 64U); in ValidateParameters()
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/dports/sysutils/fusefs-securefs/securefs-0.12.0/external/cryptopp/ |
H A D | validat1.cpp | 100 SecBlock<word128> z4(NULLPTR, 256); in NAMESPACE_BEGIN() 128 SecBlock<word128> z4(NULLPTR, 256); in NAMESPACE_BEGIN() 241 SecBlock<word128> a, b; in NAMESPACE_BEGIN() 244 word128 one[1] = {1}, two[1] = {2}; in NAMESPACE_BEGIN() 413 SecBlock<word128> a, b; in NAMESPACE_BEGIN() 416 const word128 one[1] = {1}, two[1] = {2}; in NAMESPACE_BEGIN() 574 SecBlock<word128> a, b, c; in NAMESPACE_BEGIN() 735 SecBlock<word128> a,b; in NAMESPACE_BEGIN() 821 AllocatorBase<word128> A; in NAMESPACE_BEGIN() 823 SecBlock<word128> t(max+1); in NAMESPACE_BEGIN() [all …]
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H A D | validat0.cpp | 1159 const word128 v=0, b=0x08; in TestRounding() 1160 word128 r=RoundUpToMultipleOf(v, b); in TestRounding() 1173 const word128 v=1, b=0x08; in TestRounding() 1174 word128 r=RoundUpToMultipleOf(v, b); in TestRounding() 1187 const word128 v=0x08, b=0x08; in TestRounding() 1202 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() 1203 const word128 v = h | (word128)W64LIT(0xfffffffffffffff7), b=0x08; in TestRounding() 1217 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() 1218 const word128 v = h | (word128)W64LIT(0xfffffffffffffff8), b=0x08; in TestRounding() 1232 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() [all …]
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H A D | config_int.h | 109 typedef __uint128_t word128; typedef 193 typedef word128 dword; 221 typedef __uint128_t word128; typedef
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H A D | donna_64.h | 46 using CryptoPP::word128; 51 # define mul64x64_128(out,a,b) out = (word128)a * b; 56 struct word128 { word64 lo, hi; }; struct 68 struct word128 { word64 lo, hi; }; argument
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H A D | vmac.cpp | 30 using CryptoPP::word128; in TEST() 53 # define m126 ((word128(m62)<<64)|m64) 55 const word128 m126 = (word128(m62)<<64)|m64; /* 126-bit mask */ 453 #define DeclareNH(a) word128 a=0 454 #define MUL64(rh,rl,i1,i2) {word128 p = word128(i1)*(i2); rh = word64(p>>64); rl = word64(p);} 455 #define AccumulateNH(a, b, c) a += word128(b)*(c) 536 word128 a1=0, a2=0; 692 a1 = (word128((polyS+0*4)[0]) << 64) | (polyS+0*4)[1]; 699 a2 = (word128((polyS+1*4)[0]) << 64) | (polyS+1*4)[1]; 709 { word128 t1, t2, t3, t4;\ [all …]
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H A D | scrypt.cpp | 243 const word128 maxElems = static_cast<word128>(SIZE_MAX); in ValidateParameters() 244 bool bLimit = (maxElems >= static_cast<word128>(cost) * blockSize * 128U); in ValidateParameters() 245 bool xyLimit = (maxElems >= static_cast<word128>(parallelization) * blockSize * 128U); in ValidateParameters() 246 bool vLimit = (maxElems >= static_cast<word128>(blockSize) * 256U + 64U); in ValidateParameters()
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/dports/net-p2p/qtum/qtum-mainnet-fastlane-v0.20.3/src/cryptopp/ |
H A D | validat0.cpp | 331 SecBlock<word128> z4(NULL, 256); in TestSecBlock() 454 SecBlock<word128> a, b; in TestSecBlock() 457 word128 one[1] = {1}, two[1] = {2}; in TestSecBlock() 626 SecBlock<word128> a, b; in TestSecBlock() 629 const word128 one[1] = {1}, two[1] = {2}; in TestSecBlock() 787 SecBlock<word128> a, b, c; in TestSecBlock() 790 const word128 one[1] = {1}, two[1] = {2}; in TestSecBlock() 948 SecBlock<word128> a,b; in TestSecBlock() 1034 AllocatorBase<word128> A; in TestSecBlock() 1036 SecBlock<word128> t(max+1); in TestSecBlock() [all …]
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H A D | vmac.cpp | 49 #define m126 ((word128(m62)<<64)|m64) 51 static const word128 m126 = (word128(m62)<<64)|m64; /* 126-bit mask */ 483 #define DeclareNH(a) word128 a=0 484 #define MUL64(rh,rl,i1,i2) {word128 p = word128(i1)*(i2); rh = word64(p>>64); rl = word64(p);} 485 #define AccumulateNH(a, b, c) a += word128(b)*(c) 486 #define Multiply128(r, i1, i2) r = word128(word64(i1)) * word64(i2) 566 word128 a1=0, a2=0; in VHASH_Update_Template() 722 a1 = (word128((polyS+0*4)[0]) << 64) | (polyS+0*4)[1]; in VHASH_Update_Template() 729 a2 = (word128((polyS+1*4)[0]) << 64) | (polyS+1*4)[1]; in VHASH_Update_Template() 739 { word128 t1, t2, t3, t4;\ in VHASH_Update_Template() [all …]
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/dports/emulators/citra-qt5/citra-ac98458e0/externals/cryptopp/cryptopp/ |
H A D | validat0.cpp | 1159 const word128 v=0, b=0x08; in TestRounding() 1160 word128 r=RoundUpToMultipleOf(v, b); in TestRounding() 1173 const word128 v=1, b=0x08; in TestRounding() 1174 word128 r=RoundUpToMultipleOf(v, b); in TestRounding() 1187 const word128 v=0x08, b=0x08; in TestRounding() 1202 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() 1203 const word128 v = h | (word128)W64LIT(0xfffffffffffffff7), b=0x08; in TestRounding() 1217 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() 1218 const word128 v = h | (word128)W64LIT(0xfffffffffffffff8), b=0x08; in TestRounding() 1232 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() [all …]
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H A D | config_int.h | 109 typedef __uint128_t word128; typedef 193 typedef word128 dword; 221 typedef __uint128_t word128; typedef
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H A D | donna_64.h | 46 using CryptoPP::word128; 51 # define mul64x64_128(out,a,b) out = (word128)a * b; 56 struct word128 { word64 lo, hi; }; argument 68 struct word128 { word64 lo, hi; }; struct
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H A D | vmac.cpp | 30 using CryptoPP::word128; 53 # define m126 ((word128(m62)<<64)|m64) 55 const word128 m126 = (word128(m62)<<64)|m64; /* 126-bit mask */ 453 #define DeclareNH(a) word128 a=0 454 #define MUL64(rh,rl,i1,i2) {word128 p = word128(i1)*(i2); rh = word64(p>>64); rl = word64(p);} 455 #define AccumulateNH(a, b, c) a += word128(b)*(c) 536 word128 a1=0, a2=0; in VHASH_Update_Template() 692 a1 = (word128((polyS+0*4)[0]) << 64) | (polyS+0*4)[1]; in VHASH_Update_Template() 699 a2 = (word128((polyS+1*4)[0]) << 64) | (polyS+1*4)[1]; in VHASH_Update_Template() 709 { word128 t1, t2, t3, t4;\ in VHASH_Update_Template() [all …]
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H A D | scrypt.cpp | 243 const word128 maxElems = static_cast<word128>(SIZE_MAX); in ValidateParameters() 244 bool bLimit = (maxElems >= static_cast<word128>(cost) * blockSize * 128U); in ValidateParameters() 245 bool xyLimit = (maxElems >= static_cast<word128>(parallelization) * blockSize * 128U); in ValidateParameters() 246 bool vLimit = (maxElems >= static_cast<word128>(blockSize) * 256U + 64U); in ValidateParameters()
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/dports/security/cryptopp/cryptopp-8.6.0/ |
H A D | config_int.h | 109 typedef __uint128_t word128; typedef 193 typedef word128 dword; 221 typedef __uint128_t word128; typedef
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H A D | validat0.cpp | 1159 const word128 v=0, b=0x08; in TestRounding() 1160 word128 r=RoundUpToMultipleOf(v, b); in TestRounding() 1173 const word128 v=1, b=0x08; in TestRounding() 1174 word128 r=RoundUpToMultipleOf(v, b); in TestRounding() 1187 const word128 v=0x08, b=0x08; in TestRounding() 1202 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() 1203 const word128 v = h | (word128)W64LIT(0xfffffffffffffff7), b=0x08; in TestRounding() 1217 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() 1218 const word128 v = h | (word128)W64LIT(0xfffffffffffffff8), b=0x08; in TestRounding() 1232 const word128 h = ((word128)W64LIT(0xffffffffffffffff)) << 64U; in TestRounding() [all …]
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H A D | donna_64.h | 46 using CryptoPP::word128; 51 # define mul64x64_128(out,a,b) out = (word128)a * b; 56 struct word128 { word64 lo, hi; }; struct 68 struct word128 { word64 lo, hi; }; struct
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H A D | vmac.cpp | 30 using CryptoPP::word128; 53 # define m126 ((word128(m62)<<64)|m64) 55 const word128 m126 = (word128(m62)<<64)|m64; /* 126-bit mask */ 453 #define DeclareNH(a) word128 a=0 454 #define MUL64(rh,rl,i1,i2) {word128 p = word128(i1)*(i2); rh = word64(p>>64); rl = word64(p);} 455 #define AccumulateNH(a, b, c) a += word128(b)*(c) 536 word128 a1=0, a2=0; in VHASH_Update_Template() 692 a1 = (word128((polyS+0*4)[0]) << 64) | (polyS+0*4)[1]; in VHASH_Update_Template() 699 a2 = (word128((polyS+1*4)[0]) << 64) | (polyS+1*4)[1]; in VHASH_Update_Template() 709 { word128 t1, t2, t3, t4;\ in VHASH_Update_Template() [all …]
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H A D | scrypt.cpp | 243 const word128 maxElems = static_cast<word128>(SIZE_MAX); in ValidateParameters() 244 bool bLimit = (maxElems >= static_cast<word128>(cost) * blockSize * 128U); in ValidateParameters() 245 bool xyLimit = (maxElems >= static_cast<word128>(parallelization) * blockSize * 128U); in ValidateParameters() 246 bool vLimit = (maxElems >= static_cast<word128>(blockSize) * 256U + 64U); in ValidateParameters()
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/dports/security/liboqs/liboqs-0.7.0/src/sig/picnic/external/ |
H A D | mzd_additional.c | 547 word128 cval[4] ATTR_ALIGNED(alignof(word128)) = {mm128_zero, mm128_zero, mm128_zero, mm128_zero}; 566 word128 cval[4] ATTR_ALIGNED(alignof(word128)) = {cblock->w128[0], mm128_zero, mm128_zero, 586 word128 cval[4] ATTR_ALIGNED(alignof(word128)) = {mm128_zero, mm128_zero, mm128_zero, mm128_zero}; 611 word128 cval[4] ATTR_ALIGNED(alignof(word128)) = {cblock->w128[0], cblock->w128[1], mm128_zero, 637 word128 cval[4] ATTR_ALIGNED(alignof(word128)) = {mm128_zero, mm128_zero, mm128_zero, mm128_zero}; 655 word128 cval[4] ATTR_ALIGNED(alignof(word128)) = {cblock->w128[0], cblock->w128[1], mm128_zero, 692 word128 cval[4] ATTR_ALIGNED(alignof(word128)) = {cblock->w128[0], cblock->w128[1], mm128_zero, 711 word128 cval[5] ATTR_ALIGNED(alignof(word128)) = {mm128_zero, mm128_zero, mm128_zero, mm128_zero, 740 word128 cval[8] ATTR_ALIGNED(alignof(word128)) = {mm128_zero, mm128_zero, mm128_zero, mm128_zero, 1323 word128 cval[2] ATTR_ALIGNED(alignof(word128)); [all …]
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