/************************************************* * Lowest Level MPI Algorithms Header File * * (C) 1999-2008 Jack Lloyd * * 2006 Luca Piccarreta * *************************************************/ #ifndef BOTAN_MP_ASM_H__ #define BOTAN_MP_ASM_H__ #include #if (BOTAN_MP_WORD_BITS != 64) #error The mp_amd64 module requires that BOTAN_MP_WORD_BITS == 64 #endif namespace Botan { extern "C" { /************************************************* * Helper Macros for amd64 Assembly * *************************************************/ #define ASM(x) x "\n\t" /************************************************* * Word Multiply * *************************************************/ inline word word_madd2(word a, word b, word* c) { asm( ASM("mulq %[b]") ASM("addq %[c],%[a]") ASM("adcq $0,%[carry]") : [a]"=a"(a), [b]"=rm"(b), [carry]"=&d"(*c) : "0"(a), "1"(b), [c]"g"(*c) : "cc"); return a; } /************************************************* * Word Multiply/Add * *************************************************/ inline word word_madd3(word a, word b, word c, word* d) { asm( ASM("mulq %[b]") ASM("addq %[c],%[a]") ASM("adcq $0,%[carry]") ASM("addq %[d],%[a]") ASM("adcq $0,%[carry]") : [a]"=a"(a), [b]"=rm"(b), [carry]"=&d"(*d) : "0"(a), "1"(b), [c]"g"(c), [d]"g"(*d) : "cc"); return a; } } } #endif