/* * Copyright (c) 2002, 2003 Bob Deblier * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ /*!\file mp.c * \brief Multi-precision integer routines. * \author Bob Deblier * \ingroup MP_m */ #include "system.h" #include "beecrypt.h" #include "mpopt.h" #include "mp.h" #include "debug.h" #ifndef ASM_MPZERO void mpzero(size_t size, mpw* data) { while (size--) *(data++) = 0; } #endif #ifndef ASM_MPFILL void mpfill(size_t size, mpw* data, mpw fill) { while (size--) *(data++) = fill; } #endif #ifndef ASM_MPODD int mpodd(size_t size, const mpw* data) { return (int)(data[size-1] & 0x1); } #endif #ifndef ASM_MPEVEN int mpeven(size_t size, const mpw* data) { return !(int)(data[size-1] & 0x1); } #endif #ifndef ASM_MPZ int mpz(size_t size, const mpw* data) { while (size--) if (*(data++)) return 0; return 1; } #endif #ifndef ASM_MPNZ int mpnz(size_t size, const mpw* data) { while (size--) if (*(data++)) return 1; return 0; } #endif #ifndef ASM_MPEQ int mpeq(size_t size, const mpw* xdata, const mpw* ydata) { while (size--) { if (*xdata == *ydata) { xdata++; ydata++; } else return 0; } return 1; } #endif #ifndef ASM_MPEQX int mpeqx(size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata) { if (xsize > ysize) { register size_t diff = xsize - ysize; return mpeq(ysize, xdata+diff, ydata) && mpz(diff, xdata); } else if (xsize < ysize) { register size_t diff = ysize - xsize; return mpeq(xsize, ydata+diff, xdata) && mpz(diff, ydata); } else return mpeq(xsize, xdata, ydata); } #endif #ifndef ASM_MPNE int mpne(size_t size, const mpw* xdata, const mpw* ydata) { while (size--) { if (*xdata == *ydata) { xdata++; ydata++; } else return 1; } return 0; } #endif #ifndef ASM_MPNEX int mpnex(size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata) { if (xsize > ysize) { register size_t diff = xsize - ysize; return mpnz(diff, xdata) || mpne(ysize, xdata+diff, ydata); } else if (xsize < ysize) { register size_t diff = ysize - xsize; return mpnz(diff, ydata) || mpne(xsize, ydata+diff, xdata); } else return mpne(xsize, xdata, ydata); } #endif #ifndef ASM_MPGT int mpgt(size_t size, const mpw* xdata, const mpw* ydata) { while (size--) { if (*xdata < *ydata) return 0; if (*xdata > *ydata) return 1; xdata++; ydata++; } return 0; } #endif #ifndef ASM_MPGTX int mpgtx(size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata) { if (xsize > ysize) { register size_t diff = xsize - ysize; return mpnz(diff, xdata) || mpgt(ysize, xdata + diff, ydata); } else if (xsize < ysize) { register size_t diff = ysize - xsize; return mpz(diff, ydata) && mpgt(xsize, xdata, ydata + diff); } else return mpgt(xsize, xdata, ydata); } #endif #ifndef ASM_MPLT int mplt(size_t size, const mpw* xdata, const mpw* ydata) { while (size--) { if (*xdata > *ydata) return 0; if (*xdata < *ydata) return 1; xdata++; ydata++; } return 0; } #endif #ifndef ASM_MPLTX int mpltx(size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata) { if (xsize > ysize) { register size_t diff = xsize - ysize; return mpz(diff, xdata) && mplt(ysize, xdata+diff, ydata); } else if (xsize < ysize) { register size_t diff = ysize - xsize; return mpnz(diff, ydata) || mplt(xsize, xdata, ydata+diff); } else return mplt(xsize, xdata, ydata); } #endif #ifndef ASM_MPGE int mpge(size_t size, const mpw* xdata, const mpw* ydata) { while (size--) { if (*xdata < *ydata) return 0; if (*xdata > *ydata) return 1; xdata++; ydata++; } return 1; } #endif #ifndef ASM_MPGEX int mpgex(size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata) { if (xsize > ysize) { register size_t diff = xsize - ysize; return mpnz(diff, xdata) || mpge(ysize, xdata+diff, ydata); } else if (xsize < ysize) { register size_t diff = ysize - xsize; return mpz(diff, ydata) && mpge(xsize, xdata, ydata+diff); } else return mpge(xsize, xdata, ydata); } #endif #ifndef ASM_MPLE int mple(size_t size, const mpw* xdata, const mpw* ydata) { while (size--) { if (*xdata < *ydata) return 1; if (*xdata > *ydata) return 0; xdata++; ydata++; } return 1; } #endif #ifndef ASM_MPLEX int mplex(size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata) { if (xsize > ysize) { register size_t diff = xsize - ysize; return mpz(diff, xdata) && mple(ysize, xdata+diff, ydata); } else if (xsize < ysize) { register size_t diff = ysize - xsize; return mpnz(diff, ydata) || mple(xsize, xdata, ydata+diff); } else return mple(xsize, xdata, ydata); } #endif #ifndef ASM_MPISONE int mpisone(size_t size, const mpw* data) { data += size; if (*(--data) == 1) { while (--size) if (*(--data)) return 0; return 1; } return 0; } #endif #ifndef ASM_MPISTWO int mpistwo(size_t size, const mpw* data) { data += size; if (*(--data) == 2) { while (--size) if (*(--data)) return 0; return 1; } return 0; } #endif #ifndef ASM_MPEQMONE int mpeqmone(size_t size, const mpw* xdata, const mpw* ydata) { xdata += size; ydata += size; if (*(--xdata)+1 == *(--ydata)) { while (--size) if (*(--xdata) != *(--ydata)) return 0; return 1; } return 0; } #endif #ifndef ASM_MPLEONE int mpleone(size_t size, const mpw* data) { data += size; if (*(--data) > 1) return 0; else { while (--size) if (*(--data)) return 0; return 1; } } #endif #ifndef ASM_MPMSBSET int mpmsbset(/*@unused@*/ size_t size, const mpw* data) { return (int)((*data) >> (MP_WBITS-1)); } #endif #ifndef ASM_MPLSBSET int mplsbset(size_t size, const mpw* data) { return (int)(data[size-1] & 0x1); } #endif #ifndef ASM_MPSETMSB void mpsetmsb(/*@unused@*/ size_t size, mpw* data) { *data |= MP_MSBMASK; } #endif #ifndef ASM_MPSETLSB void mpsetlsb(size_t size, mpw* data) { data[size-1] |= MP_LSBMASK; } #endif #ifndef ASM_MPCLRMSB void mpclrmsb(/*@unused@*/ size_t size, mpw* data) { *data &= ~ MP_MSBMASK; } #endif #ifndef ASM_MPCLRLSB void mpclrlsb(size_t size, mpw* data) { data[size-1] &= ~ MP_LSBMASK; } #endif #ifndef ASM_MPAND void mpand(size_t size, mpw* xdata, const mpw* ydata) { while (size--) xdata[size] &= ydata[size]; } #endif #ifndef ASM_MPXOR void mpxor(size_t size, mpw* xdata, const mpw* ydata) { while (size--) xdata[size] ^= ydata[size]; } #endif #ifndef ASM_MPOR void mpor(size_t size, mpw* xdata, const mpw* ydata) { while (size--) xdata[size] |= ydata[size]; } #endif #ifndef ASM_MPNOT void mpnot(size_t size, mpw* data) { while (size--) data[size] = ~data[size]; } #endif #ifndef ASM_MPSETW void mpsetw(size_t size, mpw* xdata, mpw y) { while (--size) *(xdata++) = 0; *(xdata++) = y; } #endif #ifndef ASM_MPSETX void mpsetx(size_t xsize, mpw* xdata, size_t ysize, const mpw* ydata) { while (xsize > ysize) { xsize--; *(xdata++) = 0; } while (ysize > xsize) { ysize--; ydata++; } while (xsize--) *(xdata++) = *(ydata++); } #endif #ifndef ASM_MPADDW int mpaddw(size_t size, mpw* xdata, mpw y) { register mpw load, temp; register int carry = 0; xdata += size-1; load = *xdata; temp = load + y; *(xdata--) = temp; carry = (load > temp); while (--size && carry) { load = *xdata; temp = load + 1; *(xdata--) = temp; carry = (load > temp); } return carry; } #endif #ifndef ASM_MPADD int mpadd(size_t size, mpw* xdata, const mpw* ydata) { register mpw load, temp; register int carry = 0; xdata += size-1; ydata += size-1; while (size--) { temp = *(ydata--); load = *xdata; temp = carry ? (load + temp + 1) : (load + temp); *(xdata--) = temp; carry = carry ? (load >= temp) : (load > temp); } return carry; } #endif #ifndef ASM_MPADDX int mpaddx(size_t xsize, mpw* xdata, size_t ysize, const mpw* ydata) { if (xsize > ysize) { register size_t diff = xsize - ysize; /*@-evalorder@*/ return mpaddw(diff, xdata, (mpw) mpadd(ysize, xdata+diff, ydata)); /*@=evalorder@*/ } else { register size_t diff = ysize - xsize; return mpadd(xsize, xdata, ydata+diff); } } #endif #ifndef ASM_MPSUBW int mpsubw(size_t size, mpw* xdata, mpw y) { register mpw load, temp; register int carry = 0; xdata += size-1; load = *xdata; temp = load - y; *(xdata--) = temp; carry = (load < temp); while (--size && carry) { load = *xdata; temp = load - 1; *(xdata--) = temp; carry = (load < temp); } return carry; } #endif #ifndef ASM_MPSUB int mpsub(size_t size, mpw* xdata, const mpw* ydata) { register mpw load, temp; register int carry = 0; xdata += size-1; ydata += size-1; while (size--) { temp = *(ydata--); load = *xdata; temp = carry ? (load - temp - 1) : (load - temp); *(xdata--) = temp; carry = carry ? (load <= temp) : (load < temp); } return carry; } #endif #ifndef ASM_MPSUBX int mpsubx(size_t xsize, mpw* xdata, size_t ysize, const mpw* ydata) { if (xsize > ysize) { register size_t diff = xsize - ysize; /*@-evalorder@*/ return mpsubw(diff, xdata, (mpw) mpsub(ysize, xdata+diff, ydata)); /*@=evalorder@*/ } else { register size_t diff = ysize - xsize; return mpsub(xsize, xdata, ydata+diff); } } #endif #ifndef ASM_MPNEG void mpneg(size_t size, mpw* data) { mpnot(size, data); (void) mpaddw(size, data, 1); } #endif #ifndef ASM_MPSETMUL mpw mpsetmul(size_t size, mpw* result, const mpw* data, mpw y) { #if HAVE_MPDW register mpdw temp; register mpw carry = 0; data += size; result += size; while (size--) { temp = *(--data); temp *= y; temp += carry; *(--result) = (mpw) temp; carry = (mpw)(temp >> MP_WBITS); } #else register mpw temp, load, carry = 0; register mphw ylo, yhi; ylo = (mphw) y; yhi = (mphw) (y >> MP_HWBITS); data += size; result += size; while (size--) { register mphw xlo, xhi; register mpw rlo, rhi; xlo = (mphw) (temp = *(--data)); xhi = (mphw) (temp >> MP_HWBITS); rlo = (mpw) xlo * ylo; rhi = (mpw) xhi * yhi; load = rlo; temp = (mpw) xhi * ylo; rlo += (temp << MP_HWBITS); rhi += (temp >> MP_HWBITS) + (load > rlo); load = rlo; temp = (mpw) xlo * yhi; rlo += (temp << MP_HWBITS); rhi += (temp >> MP_HWBITS) + (load > rlo); load = rlo; temp = rlo + carry; carry = rhi + (load > temp); *(--result) = temp; } #endif return carry; } #endif #ifndef ASM_MPADDMUL mpw mpaddmul(size_t size, mpw* result, const mpw* data, mpw y) { #if HAVE_MPDW register mpdw temp; register mpw carry = 0; data += size; result += size; while (size--) { temp = *(--data); temp *= y; temp += carry; temp += *(--result); *result = (mpw) temp; carry = (mpw)(temp >> MP_WBITS); } #else register mpw temp, load, carry = 0; register mphw ylo, yhi; ylo = (mphw) y; yhi = (mphw) (y >> MP_HWBITS); data += size; result += size; while (size--) { register mphw xlo, xhi; register mpw rlo, rhi; xlo = (mphw) (temp = *(--data)); xhi = (mphw) (temp >> MP_HWBITS); rlo = (mpw) xlo * ylo; rhi = (mpw) xhi * yhi; load = rlo; temp = (mpw) xhi * ylo; rlo += (temp << MP_HWBITS); rhi += (temp >> MP_HWBITS) + (load > rlo); load = rlo; temp = (mpw) xlo * yhi; rlo += (temp << MP_HWBITS); rhi += (temp >> MP_HWBITS) + (load > rlo); load = rlo; rlo += carry; temp = (load > rlo); load = rhi; rhi += temp; carry = (load > rhi); load = rlo; rlo += *(--result); *result = rlo; carry += rhi + (load > rlo); } #endif return carry; } #endif #ifndef ASM_MPMUL void mpmul(mpw* result, size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata) { /* preferred passing of parameters is x the larger of the two numbers */ if (xsize >= ysize) { register mpw rc; result += ysize; ydata += ysize; rc = mpsetmul(xsize, result, xdata, *(--ydata)); *(--result) = rc; while (--ysize) { rc = mpaddmul(xsize, result, xdata, *(--ydata)); *(--result) = rc; } } else { register mpw rc; result += xsize; xdata += xsize; rc = mpsetmul(ysize, result, ydata, *(--xdata)); *(--result) = rc; while (--xsize) { rc = mpaddmul(ysize, result, ydata, *(--xdata)); *(--result) = rc; } } } #endif #ifndef ASM_MPADDSQRTRC void mpaddsqrtrc(size_t size, mpw* result, const mpw* data) { #if HAVE_MPDW register mpdw temp; register mpw load, carry = 0; result += (size << 1); while (size--) { temp = load = data[size]; temp *= load; temp += carry; temp += *(--result); *result = (mpw) temp; temp >>= MP_WBITS; temp += *(--result); *result = (mpw) temp; carry = (mpw)(temp >> MP_WBITS); } #else register mpw temp, load, carry = 0; result += (size << 1); while (size--) { register mphw xlo, xhi; register mpw rlo, rhi; xlo = (mphw) (temp = data[size]); xhi = (mphw) (temp >> MP_HWBITS); rlo = (mpw) xlo * xlo; rhi = (mpw) xhi * xhi; temp = (mpw) xhi * xlo; load = rlo; rlo += (temp << MP_HWBITS); rhi += (temp >> MP_HWBITS) + (load > rlo); load = rlo; rlo += (temp << MP_HWBITS); rhi += (temp >> MP_HWBITS) + (load > rlo); load = rlo; rlo += carry; rhi += (load > rlo); load = rlo; rlo += *(--result); *result = rlo; temp = (load > rlo); load = rhi; rhi += temp; carry = (load > rhi); load = rhi; rhi += *(--result); *result = rhi; carry += (load > rhi); } #endif } #endif #ifndef ASM_MPSQR void mpsqr(mpw* result, size_t size, const mpw* data) { register mpw rc; register size_t n = size-1; result += size; result[n] = 0; if (n) { rc = mpsetmul(n, result, data, data[n]); *(--result) = rc; while (--n) { rc = mpaddmul(n, result, data, data[n]); *(--result) = rc; } } *(--result) = 0; (void) mpmultwo(size*2, result); (void) mpaddsqrtrc(size, result, data); } #endif #ifndef ASM_MPSIZE size_t mpsize(size_t size, const mpw* data) { while (size) { if (*data) return size; data++; size--; } return 0; } #endif #ifndef ASM_MPBITS size_t mpbits(size_t size, const mpw* data) { return MP_WORDS_TO_BITS(size) - mpmszcnt(size, data); } #endif #ifndef ASM_MPNORM size_t mpnorm(size_t size, mpw* data) { register size_t shift = mpmszcnt(size, data); mplshift(size, data, shift); return shift; } #endif #ifndef ASM_MPDIVTWO void mpdivtwo(size_t size, mpw* data) { register mpw temp, carry = 0; while (size--) { temp = *data; *(data++) = (temp >> 1) | carry; carry = (temp << (MP_WBITS-1)); } } #endif #ifndef ASM_MPSDIVTWO void mpsdivtwo(size_t size, mpw* data) { int carry = mpmsbset(size, data); mpdivtwo(size, data); if (carry) mpsetmsb(size, data); } #endif #ifndef ASM_MPMULTWO int mpmultwo(size_t size, mpw* data) { register mpw temp, carry = 0; data += size; while (size--) { temp = *(--data); *data = (temp << 1) | carry; carry = (temp >> (MP_WBITS-1)); } return (int) carry; } #endif #ifndef ASM_MPMSZCNT size_t mpmszcnt(size_t size, const mpw* data) { register size_t zbits = 0; register size_t i = 0; while (i < size) { register mpw temp = data[i++]; if (temp) { while (!(temp & MP_MSBMASK)) { zbits++; temp <<= 1; } break; } else zbits += MP_WBITS; } return zbits; } #endif #ifndef ASM_MPBITCNT size_t mpbitcnt(size_t size, const mpw* data) { register mpw xmask = (mpw)((*data & MP_MSBMASK) ? -1 : 0); register size_t nbits = MP_WBITS * size; register size_t i = 0; while (i < size) { register mpw temp = (data[i++] ^ xmask); if (temp) { while (!(temp & MP_MSBMASK)) { nbits--; temp <<= 1; } break; } else nbits -= MP_WBITS; } return nbits; } #endif #ifndef ASM_MPLSZCNT size_t mplszcnt(size_t size, const mpw* data) { register size_t zbits = 0; while (size--) { register mpw temp = data[size]; if (temp) { while (!(temp & MP_LSBMASK)) { zbits++; temp >>= 1; } break; } else zbits += MP_WBITS; } return zbits; } #endif #ifndef ASM_MPLSHIFT void mplshift(size_t size, mpw* data, size_t count) { register size_t words = MP_BITS_TO_WORDS(count); if (words < size) { register unsigned short lbits = (unsigned short) (count & (MP_WBITS-1)); /* first do the shifting, then do the moving */ if (lbits != 0) { register mpw temp, carry = 0; register unsigned int rbits = MP_WBITS - lbits; register size_t i = size; while (i > words) { temp = data[--i]; data[i] = (temp << lbits) | carry; carry = (temp >> rbits); } } if (words) { mpmove(size-words, data, data+words); mpzero(words, data+size-words); } } else mpzero(size, data); } #endif #ifndef ASM_MPRSHIFT void mprshift(size_t size, mpw* data, size_t count) { register size_t words = MP_BITS_TO_WORDS(count); if (words < size) { register unsigned short rbits = (unsigned short) (count & (MP_WBITS-1)); /* first do the shifting, then do the moving */ if (rbits != 0) { register mpw temp, carry = 0; register unsigned int lbits = MP_WBITS - rbits; register size_t i = 0; while (i < size-words) { temp = data[i]; data[i++] = (temp >> rbits) | carry; carry = (temp << lbits); } } if (words) { mpmove(size-words, data+words, data); mpzero(words, data); } } else mpzero(size, data); } #endif #ifndef ASM_MPRSHIFTLSZ /* x must be != 0 */ size_t mprshiftlsz(size_t size, mpw* data) { register mpw* slide = data+size-1; register size_t zwords = 0; /* counter for 'all zero bit' words */ register unsigned int lbits, rbits = 0; /* counter for 'least significant zero' bits */ register mpw temp, carry = 0; data = slide; /* count 'all zero' words and move src pointer */ while (size--) { /* test if we a non-zero word */ if ((carry = *(slide--))) { /* count 'least signification zero bits and set zbits counter */ while (!(carry & MP_LSBMASK)) { carry >>= 1; rbits++; } break; } zwords++; } /* shouldn't happen, but let's test anyway */ if (size == 0) return 0; /* prepare right-shifting of data */ lbits = MP_WBITS - rbits; /* shift data */ while (size--) { temp = *(slide--); *(data--) = (temp << lbits) | carry; carry = (temp >> rbits); } /* store the final carry */ *(data--) = carry; /* store the return value in size */ size = MP_WORDS_TO_BITS(zwords) + rbits; /* zero the (zwords) most significant words */ while (zwords--) *(data--) = 0; return size; } #endif /* try an alternate version here, with descending sizes */ /* also integrate lszcnt and rshift properly into one function */ #ifndef ASM_MPGCD_W /** * mpgcd_w * need workspace of (size) words */ void mpgcd_w(size_t size, const mpw* xdata, const mpw* ydata, mpw* result, mpw* wksp) { register size_t shift = 0, temp; if (mpge(size, xdata, ydata)) { mpcopy(size, wksp, xdata); mpcopy(size, result, ydata); } else { mpcopy(size, wksp, ydata); mpcopy(size, result, xdata); } /* get the smallest returned values, and set shift to that */ shift = mprshiftlsz(size, wksp); temp = mprshiftlsz(size, result); if (shift > temp) shift = temp; while (mpnz(size, wksp)) { (void) mprshiftlsz(size, wksp); (void) mprshiftlsz(size, result); if (mpge(size, wksp, result)) (void) mpsub(size, wksp, result); else (void) mpsub(size, result, wksp); /* slide past zero words in both operands by increasing pointers and decreasing size */ if ((*wksp == 0) && (*result == 0)) { size--; wksp++; result++; } } /* figure out if we need to slide the result pointer back */ if ((temp = MP_BITS_TO_WORDS(shift))) { size += temp; result -= temp; } mplshift(size, result, shift); } #endif #ifndef ASM_MPPNDIV mpw mppndiv(mpw xhi, mpw xlo, mpw y) { register mpw result = 0; register unsigned int count = MP_WBITS; register unsigned int carry = 0; while (count--) { if (((unsigned)carry) | (unsigned)(xhi >= y)) { xhi -= y; result |= 1; } carry = (xhi >> (MP_WBITS-1)); xhi <<= 1; xhi |= (xlo >> (MP_WBITS-1)); xlo <<= 1; result <<= 1; } if (((unsigned)carry) | (unsigned)(xhi >= y)) { xhi -= y; result |= 1; } return result; } #endif #ifndef ASM_MPNMODW mpw mpnmodw(mpw* result, size_t xsize, const mpw* xdata, mpw y, mpw* workspace) { /* result size xsize, workspace size xsize+1 */ register mpw q; mpw qsize = xsize-1; mpw* rdata = result; mpcopy(xsize, rdata, xdata); /* if (*rdata >= y) *rdata -= y; */ if (mpge(1, rdata, &y)) (void) mpsub(1, rdata, &y); while (qsize--) { q = mppndiv(rdata[0], rdata[1], y); /*@-evalorder@*/ *workspace = mpsetmul(1, workspace+1, &y, q); /*@=evalorder@*/ while (mplt(2, rdata, workspace)) { (void) mpsubx(2, workspace, 1, &y); /* q--; */ } (void) mpsub(2, rdata, workspace); rdata++; } return *rdata; } #endif #ifndef ASM_MPNMOD void mpnmod(mpw* result, size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata, mpw* workspace) { /* result size xsize, workspace size xsize+1 */ mpw q; mpw msw = *ydata; mpw qsize = xsize-ysize; mpw* rdata = result; mpcopy(xsize, rdata, xdata); if (mpge(ysize, rdata, ydata)) (void) mpsub(ysize, rdata, ydata); while (qsize--) { q = mppndiv(rdata[0], rdata[1], msw); /*@-evalorder@*/ *workspace = mpsetmul(ysize, workspace+1, ydata, q); /*@=evalorder@*/ while (mplt(ysize+1, rdata, workspace)) { (void) mpsubx(ysize+1, workspace, ysize, ydata); q--; } (void) mpsub(ysize+1, rdata, workspace); rdata++; } } #endif #ifndef ASM_MPNDIVMOD void mpndivmod(mpw* result, size_t xsize, const mpw* xdata, size_t ysize, const mpw* ydata, mpw* workspace) { /* result must be xsize+1 in length */ /* workspace must be ysize+1 in length */ /* expect ydata to be normalized */ mpw q; mpw msw = *ydata; size_t qsize = xsize-ysize; *result = (mpge(ysize, xdata, ydata) ? 1 : 0); mpcopy(xsize, result+1, xdata); if (*result) (void) mpsub(ysize, result+1, ydata); result++; while (qsize--) { q = mppndiv(result[0], result[1], msw); /*@-evalorder@*/ *workspace = mpsetmul(ysize, workspace+1, ydata, q); /*@=evalorder@*/ while (mplt(ysize+1, result, workspace)) { (void) mpsubx(ysize+1, workspace, ysize, ydata); q--; } (void) mpsub(ysize+1, result, workspace); *(result++) = q; } } #endif void mpprint(size_t size, const mpw* data) { mpfprint(stdout, size, data); } void mpprintln(size_t size, const mpw* data) { mpfprintln(stdout, size, data); } void mpfprint(FILE * f, size_t size, const mpw* data) { if (data == NULL) return; if (f == NULL) f = stderr; while (size--) { #if (MP_WBITS == 32) fprintf(f, "%08x", (unsigned) *(data++)); #elif (MP_WBITS == 64) # if WIN32 fprintf(f, "%016I64x", *(data++)); # elif SIZEOF_UNSIGNED_LONG == 8 fprintf(f, "%016lx", *(data++)); # else fprintf(f, "%016llx", *(data++)); # endif #else # error #endif } fprintf(f, "\n"); (void) fflush(f); } void mpfprintln(FILE * f, size_t size, const mpw* data) { if (data == NULL) return; if (f == NULL) f = stderr; while (size--) { #if (MP_WBITS == 32) fprintf(f, "%08x", (unsigned) *(data++)); #elif (MP_WBITS == 64) # if WIN32 fprintf(f, "%016I64x", *(data++)); # elif SIZEOF_UNSIGNED_LONG == 8 fprintf(f, "%016lx", *(data++)); # else fprintf(f, "%016llx", *(data++)); # endif #else # error #endif } fprintf(f, "\n"); (void) fflush(f); } int i2osp(byte *osdata, size_t ossize, const mpw* idata, size_t isize) { size_t required = MP_WORDS_TO_BYTES(isize); /* check if size is large enough */ if (ossize >= required) { /* yes, we can proceed */ if (ossize > required) { /* fill initial bytes with zero */ memset(osdata, 0, ossize-required); osdata += ossize-required; } if (required) { /* fill remaining bytes with endian-adjusted data */ #if !WORDS_BIGENDIAN while (required) { mpw w = *(idata++); byte shift = MP_WBITS; while (shift != 0) { shift -= 8; *(osdata++) = (byte)(w >> shift); } required -= MP_WBYTES; } #else memcpy(osdata, idata, required); #endif } return 0; } return -1; } int os2ip(mpw* idata, size_t isize, const byte* osdata, /*@unused@*/ size_t ossize) { size_t required = MP_BYTES_TO_WORDS(isize + MP_WBYTES - 1); if (isize >= required) { /* yes, we can proceed */ if (isize > required) { /* fill initials words with zero */ mpzero(isize-required, idata); idata += isize-required; } if (required) { /* fill remaining words with endian-adjusted data */ #if !WORDS_BIGENDIAN while (required) { mpw w = 0; byte b = MP_WBYTES; while (b--) { w <<= 8; w |= *(osdata++); } *(idata++) = w; required--; } #else memcpy(idata, osdata, MP_WORDS_TO_BYTES(required)); #endif } return 0; } return -1; } int hs2ip(mpw* idata, size_t isize, const char* hsdata, size_t hssize) { size_t required = MP_NIBBLES_TO_WORDS(hssize + MP_WNIBBLES - 1); if (isize >= required) { register size_t i; if (isize > required) { /* fill initial words with zero */ for (i = required; i < isize; i++) *(idata++) = 0; } while (hssize) { register mpw w = 0; register size_t chunk = hssize & (MP_WNIBBLES - 1); register char ch; if (chunk == 0) chunk = MP_WNIBBLES; for (i = 0; i < chunk; i++) { ch = *(hsdata++); w <<= 4; if (ch >= '0' && ch <= '9') w += (ch - '0'); else if (ch >= 'A' && ch <= 'F') w += (ch - 'A') + 10; else if (ch >= 'a' && ch <= 'f') w += (ch - 'a') + 10; } *(idata++) = w; hssize -= chunk; } return 0; } return -1; }