Esempio n. 1
0
void decryptAndPrint(ostream& s, const Ctxt& ctxt, const FHESecKey& sk,
		     const EncryptedArray& ea, long flags)
{
  const FHEcontext& context = ctxt.getContext();
  xdouble noiseEst = sqrt(ctxt.getNoiseVar());
  xdouble modulus = xexp(context.logOfProduct(ctxt.getPrimeSet()));
  vector<ZZX> ptxt;
  ZZX p, pp;
  sk.Decrypt(p, ctxt, pp);

  s << "plaintext space mod "<<ctxt.getPtxtSpace()
       << ", level="<<ctxt.findBaseLevel()
       << ", \n           |noise|=q*" << (coeffsL2Norm(pp)/modulus)
       << ", |noiseEst|=q*" << (noiseEst/modulus)
       <<endl;

  if (flags & FLAG_PRINT_ZZX) {
    s << "   before mod-p reduction=";
    printZZX(s,pp) <<endl;
  }
  if (flags & FLAG_PRINT_POLY) {
    s << "   after mod-p reduction=";
    printZZX(s,p) <<endl;
  }
  if (flags & FLAG_PRINT_VEC) {
    ea.decode(ptxt, p);
    if (ea.getAlMod().getTag() == PA_zz_p_tag
	&& ctxt.getPtxtSpace() != ea.getAlMod().getPPowR()) {
      long g = GCD(ctxt.getPtxtSpace(), ea.getAlMod().getPPowR());
      for (long i=0; i<ea.size(); i++)
	PolyRed(ptxt[i], g, true);
    }
    s << "   decoded to ";
    if (deg(p) < 40) // just pring the whole thing
      s << ptxt << endl;
    else if (ptxt.size()==1) // a single slot
      printZZX(s, ptxt[0]) <<endl;
    else { // print first and last slots
      printZZX(s, ptxt[0],20) << "--";
      printZZX(s, ptxt[ptxt.size()-1], 20) <<endl;      
    }
  }
}
Esempio n. 2
0
void checkCiphertext(const Ctxt& ctxt, const ZZX& ptxt, const FHESecKey& sk)
{
  const FHEcontext& context = ctxt.getContext();
  /*
  IndexSet base = baseSetOf(ctxt);
  double addedNoise = log(ctxt.modSwitchAddedNoiseVar());
  Ctxt tmp = ctxt;
  tmp.modDownToSet(base);
  double totalNoise = log(tmp.getNoiseVar());
  cout << "   @@@ log(added-noise)="<<addedNoise
       << ", log(total-noise)="<<totalNoise<<endl;
  */
  cout << " ln(q)="<< context.logOfProduct(ctxt.getPrimeSet())
       << ", ln(nVar)/2="<< log(ctxt.getNoiseVar())/2;
  //       << ", ln(nMag)="<< log(ctxt.getNoiseMag());

  ZZX res;
  //  sk.Decrypt(res, ctxt);
  ZZX f;
  sk.Decrypt(res, ctxt, f);
  cout << ", ln(mxPtxtCoef)=" << log(largestCoeff(f));

  // ensure we reduce the same way on both
  PolyRed((ZZX&)res,res,ctxt.getPtxtSpace(),true);
  PolyRed((ZZX&)ptxt,ptxt,ctxt.getPtxtSpace(),true);
  if (res != ptxt) {
    cout << ", failed\n";
    for (long i=0; i<=deg(ptxt); i++) if (coeff(res,i)!=coeff(ptxt,i)) {
	cout << "first mismatch in coeff "<<i<<": "
	     << coeff(res,i)<<"!="<<coeff(ptxt,i)<<"\n";
	break;
      }

    cout << "Timing information:\n";
    printAllTimers();
    cout << "\n";
    exit(0);
  }
  else cout << ", succeeded\n";
}