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/usr/share/javascript/jsencrypt/jsencrypt.js is in libjs-jsencrypt 2.0.0+dfsg1-1.

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The actual contents of the file can be viewed below.

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var JSEncryptExports = {};
(function(exports) {
// Copyright (c) 2005  Tom Wu
// All Rights Reserved.
// See "LICENSE" for details.

// Basic JavaScript BN library - subset useful for RSA encryption.

// Bits per digit
var dbits;

// JavaScript engine analysis
var canary = 0xdeadbeefcafe;
var j_lm = ((canary&0xffffff)==0xefcafe);

// (public) Constructor
function BigInteger(a,b,c) {
  if(a != null)
    if("number" == typeof a) this.fromNumber(a,b,c);
    else if(b == null && "string" != typeof a) this.fromString(a,256);
    else this.fromString(a,b);
}

// return new, unset BigInteger
function nbi() { return new BigInteger(null); }

// am: Compute w_j += (x*this_i), propagate carries,
// c is initial carry, returns final carry.
// c < 3*dvalue, x < 2*dvalue, this_i < dvalue
// We need to select the fastest one that works in this environment.

// am1: use a single mult and divide to get the high bits,
// max digit bits should be 26 because
// max internal value = 2*dvalue^2-2*dvalue (< 2^53)
function am1(i,x,w,j,c,n) {
  while(--n >= 0) {
    var v = x*this[i++]+w[j]+c;
    c = Math.floor(v/0x4000000);
    w[j++] = v&0x3ffffff;
  }
  return c;
}
// am2 avoids a big mult-and-extract completely.
// Max digit bits should be <= 30 because we do bitwise ops
// on values up to 2*hdvalue^2-hdvalue-1 (< 2^31)
function am2(i,x,w,j,c,n) {
  var xl = x&0x7fff, xh = x>>15;
  while(--n >= 0) {
    var l = this[i]&0x7fff;
    var h = this[i++]>>15;
    var m = xh*l+h*xl;
    l = xl*l+((m&0x7fff)<<15)+w[j]+(c&0x3fffffff);
    c = (l>>>30)+(m>>>15)+xh*h+(c>>>30);
    w[j++] = l&0x3fffffff;
  }
  return c;
}
// Alternately, set max digit bits to 28 since some
// browsers slow down when dealing with 32-bit numbers.
function am3(i,x,w,j,c,n) {
  var xl = x&0x3fff, xh = x>>14;
  while(--n >= 0) {
    var l = this[i]&0x3fff;
    var h = this[i++]>>14;
    var m = xh*l+h*xl;
    l = xl*l+((m&0x3fff)<<14)+w[j]+c;
    c = (l>>28)+(m>>14)+xh*h;
    w[j++] = l&0xfffffff;
  }
  return c;
}
if(j_lm && (navigator.appName == "Microsoft Internet Explorer")) {
  BigInteger.prototype.am = am2;
  dbits = 30;
}
else if(j_lm && (navigator.appName != "Netscape")) {
  BigInteger.prototype.am = am1;
  dbits = 26;
}
else { // Mozilla/Netscape seems to prefer am3
  BigInteger.prototype.am = am3;
  dbits = 28;
}

BigInteger.prototype.DB = dbits;
BigInteger.prototype.DM = ((1<<dbits)-1);
BigInteger.prototype.DV = (1<<dbits);

var BI_FP = 52;
BigInteger.prototype.FV = Math.pow(2,BI_FP);
BigInteger.prototype.F1 = BI_FP-dbits;
BigInteger.prototype.F2 = 2*dbits-BI_FP;

// Digit conversions
var BI_RM = "0123456789abcdefghijklmnopqrstuvwxyz";
var BI_RC = new Array();
var rr,vv;
rr = "0".charCodeAt(0);
for(vv = 0; vv <= 9; ++vv) BI_RC[rr++] = vv;
rr = "a".charCodeAt(0);
for(vv = 10; vv < 36; ++vv) BI_RC[rr++] = vv;
rr = "A".charCodeAt(0);
for(vv = 10; vv < 36; ++vv) BI_RC[rr++] = vv;

function int2char(n) { return BI_RM.charAt(n); }
function intAt(s,i) {
  var c = BI_RC[s.charCodeAt(i)];
  return (c==null)?-1:c;
}

// (protected) copy this to r
function bnpCopyTo(r) {
  for(var i = this.t-1; i >= 0; --i) r[i] = this[i];
  r.t = this.t;
  r.s = this.s;
}

// (protected) set from integer value x, -DV <= x < DV
function bnpFromInt(x) {
  this.t = 1;
  this.s = (x<0)?-1:0;
  if(x > 0) this[0] = x;
  else if(x < -1) this[0] = x+DV;
  else this.t = 0;
}

// return bigint initialized to value
function nbv(i) { var r = nbi(); r.fromInt(i); return r; }

// (protected) set from string and radix
function bnpFromString(s,b) {
  var k;
  if(b == 16) k = 4;
  else if(b == 8) k = 3;
  else if(b == 256) k = 8; // byte array
  else if(b == 2) k = 1;
  else if(b == 32) k = 5;
  else if(b == 4) k = 2;
  else { this.fromRadix(s,b); return; }
  this.t = 0;
  this.s = 0;
  var i = s.length, mi = false, sh = 0;
  while(--i >= 0) {
    var x = (k==8)?s[i]&0xff:intAt(s,i);
    if(x < 0) {
      if(s.charAt(i) == "-") mi = true;
      continue;
    }
    mi = false;
    if(sh == 0)
      this[this.t++] = x;
    else if(sh+k > this.DB) {
      this[this.t-1] |= (x&((1<<(this.DB-sh))-1))<<sh;
      this[this.t++] = (x>>(this.DB-sh));
    }
    else
      this[this.t-1] |= x<<sh;
    sh += k;
    if(sh >= this.DB) sh -= this.DB;
  }
  if(k == 8 && (s[0]&0x80) != 0) {
    this.s = -1;
    if(sh > 0) this[this.t-1] |= ((1<<(this.DB-sh))-1)<<sh;
  }
  this.clamp();
  if(mi) BigInteger.ZERO.subTo(this,this);
}

// (protected) clamp off excess high words
function bnpClamp() {
  var c = this.s&this.DM;
  while(this.t > 0 && this[this.t-1] == c) --this.t;
}

// (public) return string representation in given radix
function bnToString(b) {
  if(this.s < 0) return "-"+this.negate().toString(b);
  var k;
  if(b == 16) k = 4;
  else if(b == 8) k = 3;
  else if(b == 2) k = 1;
  else if(b == 32) k = 5;
  else if(b == 4) k = 2;
  else return this.toRadix(b);
  var km = (1<<k)-1, d, m = false, r = "", i = this.t;
  var p = this.DB-(i*this.DB)%k;
  if(i-- > 0) {
    if(p < this.DB && (d = this[i]>>p) > 0) { m = true; r = int2char(d); }
    while(i >= 0) {
      if(p < k) {
        d = (this[i]&((1<<p)-1))<<(k-p);
        d |= this[--i]>>(p+=this.DB-k);
      }
      else {
        d = (this[i]>>(p-=k))&km;
        if(p <= 0) { p += this.DB; --i; }
      }
      if(d > 0) m = true;
      if(m) r += int2char(d);
    }
  }
  return m?r:"0";
}

// (public) -this
function bnNegate() { var r = nbi(); BigInteger.ZERO.subTo(this,r); return r; }

// (public) |this|
function bnAbs() { return (this.s<0)?this.negate():this; }

// (public) return + if this > a, - if this < a, 0 if equal
function bnCompareTo(a) {
  var r = this.s-a.s;
  if(r != 0) return r;
  var i = this.t;
  r = i-a.t;
  if(r != 0) return (this.s<0)?-r:r;
  while(--i >= 0) if((r=this[i]-a[i]) != 0) return r;
  return 0;
}

// returns bit length of the integer x
function nbits(x) {
  var r = 1, t;
  if((t=x>>>16) != 0) { x = t; r += 16; }
  if((t=x>>8) != 0) { x = t; r += 8; }
  if((t=x>>4) != 0) { x = t; r += 4; }
  if((t=x>>2) != 0) { x = t; r += 2; }
  if((t=x>>1) != 0) { x = t; r += 1; }
  return r;
}

// (public) return the number of bits in "this"
function bnBitLength() {
  if(this.t <= 0) return 0;
  return this.DB*(this.t-1)+nbits(this[this.t-1]^(this.s&this.DM));
}

// (protected) r = this << n*DB
function bnpDLShiftTo(n,r) {
  var i;
  for(i = this.t-1; i >= 0; --i) r[i+n] = this[i];
  for(i = n-1; i >= 0; --i) r[i] = 0;
  r.t = this.t+n;
  r.s = this.s;
}

// (protected) r = this >> n*DB
function bnpDRShiftTo(n,r) {
  for(var i = n; i < this.t; ++i) r[i-n] = this[i];
  r.t = Math.max(this.t-n,0);
  r.s = this.s;
}

// (protected) r = this << n
function bnpLShiftTo(n,r) {
  var bs = n%this.DB;
  var cbs = this.DB-bs;
  var bm = (1<<cbs)-1;
  var ds = Math.floor(n/this.DB), c = (this.s<<bs)&this.DM, i;
  for(i = this.t-1; i >= 0; --i) {
    r[i+ds+1] = (this[i]>>cbs)|c;
    c = (this[i]&bm)<<bs;
  }
  for(i = ds-1; i >= 0; --i) r[i] = 0;
  r[ds] = c;
  r.t = this.t+ds+1;
  r.s = this.s;
  r.clamp();
}

// (protected) r = this >> n
function bnpRShiftTo(n,r) {
  r.s = this.s;
  var ds = Math.floor(n/this.DB);
  if(ds >= this.t) { r.t = 0; return; }
  var bs = n%this.DB;
  var cbs = this.DB-bs;
  var bm = (1<<bs)-1;
  r[0] = this[ds]>>bs;
  for(var i = ds+1; i < this.t; ++i) {
    r[i-ds-1] |= (this[i]&bm)<<cbs;
    r[i-ds] = this[i]>>bs;
  }
  if(bs > 0) r[this.t-ds-1] |= (this.s&bm)<<cbs;
  r.t = this.t-ds;
  r.clamp();
}

// (protected) r = this - a
function bnpSubTo(a,r) {
  var i = 0, c = 0, m = Math.min(a.t,this.t);
  while(i < m) {
    c += this[i]-a[i];
    r[i++] = c&this.DM;
    c >>= this.DB;
  }
  if(a.t < this.t) {
    c -= a.s;
    while(i < this.t) {
      c += this[i];
      r[i++] = c&this.DM;
      c >>= this.DB;
    }
    c += this.s;
  }
  else {
    c += this.s;
    while(i < a.t) {
      c -= a[i];
      r[i++] = c&this.DM;
      c >>= this.DB;
    }
    c -= a.s;
  }
  r.s = (c<0)?-1:0;
  if(c < -1) r[i++] = this.DV+c;
  else if(c > 0) r[i++] = c;
  r.t = i;
  r.clamp();
}

// (protected) r = this * a, r != this,a (HAC 14.12)
// "this" should be the larger one if appropriate.
function bnpMultiplyTo(a,r) {
  var x = this.abs(), y = a.abs();
  var i = x.t;
  r.t = i+y.t;
  while(--i >= 0) r[i] = 0;
  for(i = 0; i < y.t; ++i) r[i+x.t] = x.am(0,y[i],r,i,0,x.t);
  r.s = 0;
  r.clamp();
  if(this.s != a.s) BigInteger.ZERO.subTo(r,r);
}

// (protected) r = this^2, r != this (HAC 14.16)
function bnpSquareTo(r) {
  var x = this.abs();
  var i = r.t = 2*x.t;
  while(--i >= 0) r[i] = 0;
  for(i = 0; i < x.t-1; ++i) {
    var c = x.am(i,x[i],r,2*i,0,1);
    if((r[i+x.t]+=x.am(i+1,2*x[i],r,2*i+1,c,x.t-i-1)) >= x.DV) {
      r[i+x.t] -= x.DV;
      r[i+x.t+1] = 1;
    }
  }
  if(r.t > 0) r[r.t-1] += x.am(i,x[i],r,2*i,0,1);
  r.s = 0;
  r.clamp();
}

// (protected) divide this by m, quotient and remainder to q, r (HAC 14.20)
// r != q, this != m.  q or r may be null.
function bnpDivRemTo(m,q,r) {
  var pm = m.abs();
  if(pm.t <= 0) return;
  var pt = this.abs();
  if(pt.t < pm.t) {
    if(q != null) q.fromInt(0);
    if(r != null) this.copyTo(r);
    return;
  }
  if(r == null) r = nbi();
  var y = nbi(), ts = this.s, ms = m.s;
  var nsh = this.DB-nbits(pm[pm.t-1]);	// normalize modulus
  if(nsh > 0) { pm.lShiftTo(nsh,y); pt.lShiftTo(nsh,r); }
  else { pm.copyTo(y); pt.copyTo(r); }
  var ys = y.t;
  var y0 = y[ys-1];
  if(y0 == 0) return;
  var yt = y0*(1<<this.F1)+((ys>1)?y[ys-2]>>this.F2:0);
  var d1 = this.FV/yt, d2 = (1<<this.F1)/yt, e = 1<<this.F2;
  var i = r.t, j = i-ys, t = (q==null)?nbi():q;
  y.dlShiftTo(j,t);
  if(r.compareTo(t) >= 0) {
    r[r.t++] = 1;
    r.subTo(t,r);
  }
  BigInteger.ONE.dlShiftTo(ys,t);
  t.subTo(y,y);	// "negative" y so we can replace sub with am later
  while(y.t < ys) y[y.t++] = 0;
  while(--j >= 0) {
    // Estimate quotient digit
    var qd = (r[--i]==y0)?this.DM:Math.floor(r[i]*d1+(r[i-1]+e)*d2);
    if((r[i]+=y.am(0,qd,r,j,0,ys)) < qd) {	// Try it out
      y.dlShiftTo(j,t);
      r.subTo(t,r);
      while(r[i] < --qd) r.subTo(t,r);
    }
  }
  if(q != null) {
    r.drShiftTo(ys,q);
    if(ts != ms) BigInteger.ZERO.subTo(q,q);
  }
  r.t = ys;
  r.clamp();
  if(nsh > 0) r.rShiftTo(nsh,r);	// Denormalize remainder
  if(ts < 0) BigInteger.ZERO.subTo(r,r);
}

// (public) this mod a
function bnMod(a) {
  var r = nbi();
  this.abs().divRemTo(a,null,r);
  if(this.s < 0 && r.compareTo(BigInteger.ZERO) > 0) a.subTo(r,r);
  return r;
}

// Modular reduction using "classic" algorithm
function Classic(m) { this.m = m; }
function cConvert(x) {
  if(x.s < 0 || x.compareTo(this.m) >= 0) return x.mod(this.m);
  else return x;
}
function cRevert(x) { return x; }
function cReduce(x) { x.divRemTo(this.m,null,x); }
function cMulTo(x,y,r) { x.multiplyTo(y,r); this.reduce(r); }
function cSqrTo(x,r) { x.squareTo(r); this.reduce(r); }

Classic.prototype.convert = cConvert;
Classic.prototype.revert = cRevert;
Classic.prototype.reduce = cReduce;
Classic.prototype.mulTo = cMulTo;
Classic.prototype.sqrTo = cSqrTo;

// (protected) return "-1/this % 2^DB"; useful for Mont. reduction
// justification:
//         xy == 1 (mod m)
//         xy =  1+km
//   xy(2-xy) = (1+km)(1-km)
// x[y(2-xy)] = 1-k^2m^2
// x[y(2-xy)] == 1 (mod m^2)
// if y is 1/x mod m, then y(2-xy) is 1/x mod m^2
// should reduce x and y(2-xy) by m^2 at each step to keep size bounded.
// JS multiply "overflows" differently from C/C++, so care is needed here.
function bnpInvDigit() {
  if(this.t < 1) return 0;
  var x = this[0];
  if((x&1) == 0) return 0;
  var y = x&3;		// y == 1/x mod 2^2
  y = (y*(2-(x&0xf)*y))&0xf;	// y == 1/x mod 2^4
  y = (y*(2-(x&0xff)*y))&0xff;	// y == 1/x mod 2^8
  y = (y*(2-(((x&0xffff)*y)&0xffff)))&0xffff;	// y == 1/x mod 2^16
  // last step - calculate inverse mod DV directly;
  // assumes 16 < DB <= 32 and assumes ability to handle 48-bit ints
  y = (y*(2-x*y%this.DV))%this.DV;		// y == 1/x mod 2^dbits
  // we really want the negative inverse, and -DV < y < DV
  return (y>0)?this.DV-y:-y;
}

// Montgomery reduction
function Montgomery(m) {
  this.m = m;
  this.mp = m.invDigit();
  this.mpl = this.mp&0x7fff;
  this.mph = this.mp>>15;
  this.um = (1<<(m.DB-15))-1;
  this.mt2 = 2*m.t;
}

// xR mod m
function montConvert(x) {
  var r = nbi();
  x.abs().dlShiftTo(this.m.t,r);
  r.divRemTo(this.m,null,r);
  if(x.s < 0 && r.compareTo(BigInteger.ZERO) > 0) this.m.subTo(r,r);
  return r;
}

// x/R mod m
function montRevert(x) {
  var r = nbi();
  x.copyTo(r);
  this.reduce(r);
  return r;
}

// x = x/R mod m (HAC 14.32)
function montReduce(x) {
  while(x.t <= this.mt2)	// pad x so am has enough room later
    x[x.t++] = 0;
  for(var i = 0; i < this.m.t; ++i) {
    // faster way of calculating u0 = x[i]*mp mod DV
    var j = x[i]&0x7fff;
    var u0 = (j*this.mpl+(((j*this.mph+(x[i]>>15)*this.mpl)&this.um)<<15))&x.DM;
    // use am to combine the multiply-shift-add into one call
    j = i+this.m.t;
    x[j] += this.m.am(0,u0,x,i,0,this.m.t);
    // propagate carry
    while(x[j] >= x.DV) { x[j] -= x.DV; x[++j]++; }
  }
  x.clamp();
  x.drShiftTo(this.m.t,x);
  if(x.compareTo(this.m) >= 0) x.subTo(this.m,x);
}

// r = "x^2/R mod m"; x != r
function montSqrTo(x,r) { x.squareTo(r); this.reduce(r); }

// r = "xy/R mod m"; x,y != r
function montMulTo(x,y,r) { x.multiplyTo(y,r); this.reduce(r); }

Montgomery.prototype.convert = montConvert;
Montgomery.prototype.revert = montRevert;
Montgomery.prototype.reduce = montReduce;
Montgomery.prototype.mulTo = montMulTo;
Montgomery.prototype.sqrTo = montSqrTo;

// (protected) true iff this is even
function bnpIsEven() { return ((this.t>0)?(this[0]&1):this.s) == 0; }

// (protected) this^e, e < 2^32, doing sqr and mul with "r" (HAC 14.79)
function bnpExp(e,z) {
  if(e > 0xffffffff || e < 1) return BigInteger.ONE;
  var r = nbi(), r2 = nbi(), g = z.convert(this), i = nbits(e)-1;
  g.copyTo(r);
  while(--i >= 0) {
    z.sqrTo(r,r2);
    if((e&(1<<i)) > 0) z.mulTo(r2,g,r);
    else { var t = r; r = r2; r2 = t; }
  }
  return z.revert(r);
}

// (public) this^e % m, 0 <= e < 2^32
function bnModPowInt(e,m) {
  var z;
  if(e < 256 || m.isEven()) z = new Classic(m); else z = new Montgomery(m);
  return this.exp(e,z);
}

// protected
BigInteger.prototype.copyTo = bnpCopyTo;
BigInteger.prototype.fromInt = bnpFromInt;
BigInteger.prototype.fromString = bnpFromString;
BigInteger.prototype.clamp = bnpClamp;
BigInteger.prototype.dlShiftTo = bnpDLShiftTo;
BigInteger.prototype.drShiftTo = bnpDRShiftTo;
BigInteger.prototype.lShiftTo = bnpLShiftTo;
BigInteger.prototype.rShiftTo = bnpRShiftTo;
BigInteger.prototype.subTo = bnpSubTo;
BigInteger.prototype.multiplyTo = bnpMultiplyTo;
BigInteger.prototype.squareTo = bnpSquareTo;
BigInteger.prototype.divRemTo = bnpDivRemTo;
BigInteger.prototype.invDigit = bnpInvDigit;
BigInteger.prototype.isEven = bnpIsEven;
BigInteger.prototype.exp = bnpExp;

// public
BigInteger.prototype.toString = bnToString;
BigInteger.prototype.negate = bnNegate;
BigInteger.prototype.abs = bnAbs;
BigInteger.prototype.compareTo = bnCompareTo;
BigInteger.prototype.bitLength = bnBitLength;
BigInteger.prototype.mod = bnMod;
BigInteger.prototype.modPowInt = bnModPowInt;

// "constants"
BigInteger.ZERO = nbv(0);
BigInteger.ONE = nbv(1);
// Copyright (c) 2005-2009  Tom Wu
// All Rights Reserved.
// See "LICENSE" for details.

// Extended JavaScript BN functions, required for RSA private ops.

// Version 1.1: new BigInteger("0", 10) returns "proper" zero
// Version 1.2: square() API, isProbablePrime fix

// (public)
function bnClone() { var r = nbi(); this.copyTo(r); return r; }

// (public) return value as integer
function bnIntValue() {
  if(this.s < 0) {
    if(this.t == 1) return this[0]-this.DV;
    else if(this.t == 0) return -1;
  }
  else if(this.t == 1) return this[0];
  else if(this.t == 0) return 0;
  // assumes 16 < DB < 32
  return ((this[1]&((1<<(32-this.DB))-1))<<this.DB)|this[0];
}

// (public) return value as byte
function bnByteValue() { return (this.t==0)?this.s:(this[0]<<24)>>24; }

// (public) return value as short (assumes DB>=16)
function bnShortValue() { return (this.t==0)?this.s:(this[0]<<16)>>16; }

// (protected) return x s.t. r^x < DV
function bnpChunkSize(r) { return Math.floor(Math.LN2*this.DB/Math.log(r)); }

// (public) 0 if this == 0, 1 if this > 0
function bnSigNum() {
  if(this.s < 0) return -1;
  else if(this.t <= 0 || (this.t == 1 && this[0] <= 0)) return 0;
  else return 1;
}

// (protected) convert to radix string
function bnpToRadix(b) {
  if(b == null) b = 10;
  if(this.signum() == 0 || b < 2 || b > 36) return "0";
  var cs = this.chunkSize(b);
  var a = Math.pow(b,cs);
  var d = nbv(a), y = nbi(), z = nbi(), r = "";
  this.divRemTo(d,y,z);
  while(y.signum() > 0) {
    r = (a+z.intValue()).toString(b).substr(1) + r;
    y.divRemTo(d,y,z);
  }
  return z.intValue().toString(b) + r;
}

// (protected) convert from radix string
function bnpFromRadix(s,b) {
  this.fromInt(0);
  if(b == null) b = 10;
  var cs = this.chunkSize(b);
  var d = Math.pow(b,cs), mi = false, j = 0, w = 0;
  for(var i = 0; i < s.length; ++i) {
    var x = intAt(s,i);
    if(x < 0) {
      if(s.charAt(i) == "-" && this.signum() == 0) mi = true;
      continue;
    }
    w = b*w+x;
    if(++j >= cs) {
      this.dMultiply(d);
      this.dAddOffset(w,0);
      j = 0;
      w = 0;
    }
  }
  if(j > 0) {
    this.dMultiply(Math.pow(b,j));
    this.dAddOffset(w,0);
  }
  if(mi) BigInteger.ZERO.subTo(this,this);
}

// (protected) alternate constructor
function bnpFromNumber(a,b,c) {
  if("number" == typeof b) {
    // new BigInteger(int,int,RNG)
    if(a < 2) this.fromInt(1);
    else {
      this.fromNumber(a,c);
      if(!this.testBit(a-1))	// force MSB set
        this.bitwiseTo(BigInteger.ONE.shiftLeft(a-1),op_or,this);
      if(this.isEven()) this.dAddOffset(1,0); // force odd
      while(!this.isProbablePrime(b)) {
        this.dAddOffset(2,0);
        if(this.bitLength() > a) this.subTo(BigInteger.ONE.shiftLeft(a-1),this);
      }
    }
  }
  else {
    // new BigInteger(int,RNG)
    var x = new Array(), t = a&7;
    x.length = (a>>3)+1;
    b.nextBytes(x);
    if(t > 0) x[0] &= ((1<<t)-1); else x[0] = 0;
    this.fromString(x,256);
  }
}

// (public) convert to bigendian byte array
function bnToByteArray() {
  var i = this.t, r = new Array();
  r[0] = this.s;
  var p = this.DB-(i*this.DB)%8, d, k = 0;
  if(i-- > 0) {
    if(p < this.DB && (d = this[i]>>p) != (this.s&this.DM)>>p)
      r[k++] = d|(this.s<<(this.DB-p));
    while(i >= 0) {
      if(p < 8) {
        d = (this[i]&((1<<p)-1))<<(8-p);
        d |= this[--i]>>(p+=this.DB-8);
      }
      else {
        d = (this[i]>>(p-=8))&0xff;
        if(p <= 0) { p += this.DB; --i; }
      }
      if((d&0x80) != 0) d |= -256;
      if(k == 0 && (this.s&0x80) != (d&0x80)) ++k;
      if(k > 0 || d != this.s) r[k++] = d;
    }
  }
  return r;
}

function bnEquals(a) { return(this.compareTo(a)==0); }
function bnMin(a) { return(this.compareTo(a)<0)?this:a; }
function bnMax(a) { return(this.compareTo(a)>0)?this:a; }

// (protected) r = this op a (bitwise)
function bnpBitwiseTo(a,op,r) {
  var i, f, m = Math.min(a.t,this.t);
  for(i = 0; i < m; ++i) r[i] = op(this[i],a[i]);
  if(a.t < this.t) {
    f = a.s&this.DM;
    for(i = m; i < this.t; ++i) r[i] = op(this[i],f);
    r.t = this.t;
  }
  else {
    f = this.s&this.DM;
    for(i = m; i < a.t; ++i) r[i] = op(f,a[i]);
    r.t = a.t;
  }
  r.s = op(this.s,a.s);
  r.clamp();
}

// (public) this & a
function op_and(x,y) { return x&y; }
function bnAnd(a) { var r = nbi(); this.bitwiseTo(a,op_and,r); return r; }

// (public) this | a
function op_or(x,y) { return x|y; }
function bnOr(a) { var r = nbi(); this.bitwiseTo(a,op_or,r); return r; }

// (public) this ^ a
function op_xor(x,y) { return x^y; }
function bnXor(a) { var r = nbi(); this.bitwiseTo(a,op_xor,r); return r; }

// (public) this & ~a
function op_andnot(x,y) { return x&~y; }
function bnAndNot(a) { var r = nbi(); this.bitwiseTo(a,op_andnot,r); return r; }

// (public) ~this
function bnNot() {
  var r = nbi();
  for(var i = 0; i < this.t; ++i) r[i] = this.DM&~this[i];
  r.t = this.t;
  r.s = ~this.s;
  return r;
}

// (public) this << n
function bnShiftLeft(n) {
  var r = nbi();
  if(n < 0) this.rShiftTo(-n,r); else this.lShiftTo(n,r);
  return r;
}

// (public) this >> n
function bnShiftRight(n) {
  var r = nbi();
  if(n < 0) this.lShiftTo(-n,r); else this.rShiftTo(n,r);
  return r;
}

// return index of lowest 1-bit in x, x < 2^31
function lbit(x) {
  if(x == 0) return -1;
  var r = 0;
  if((x&0xffff) == 0) { x >>= 16; r += 16; }
  if((x&0xff) == 0) { x >>= 8; r += 8; }
  if((x&0xf) == 0) { x >>= 4; r += 4; }
  if((x&3) == 0) { x >>= 2; r += 2; }
  if((x&1) == 0) ++r;
  return r;
}

// (public) returns index of lowest 1-bit (or -1 if none)
function bnGetLowestSetBit() {
  for(var i = 0; i < this.t; ++i)
    if(this[i] != 0) return i*this.DB+lbit(this[i]);
  if(this.s < 0) return this.t*this.DB;
  return -1;
}

// return number of 1 bits in x
function cbit(x) {
  var r = 0;
  while(x != 0) { x &= x-1; ++r; }
  return r;
}

// (public) return number of set bits
function bnBitCount() {
  var r = 0, x = this.s&this.DM;
  for(var i = 0; i < this.t; ++i) r += cbit(this[i]^x);
  return r;
}

// (public) true iff nth bit is set
function bnTestBit(n) {
  var j = Math.floor(n/this.DB);
  if(j >= this.t) return(this.s!=0);
  return((this[j]&(1<<(n%this.DB)))!=0);
}

// (protected) this op (1<<n)
function bnpChangeBit(n,op) {
  var r = BigInteger.ONE.shiftLeft(n);
  this.bitwiseTo(r,op,r);
  return r;
}

// (public) this | (1<<n)
function bnSetBit(n) { return this.changeBit(n,op_or); }

// (public) this & ~(1<<n)
function bnClearBit(n) { return this.changeBit(n,op_andnot); }

// (public) this ^ (1<<n)
function bnFlipBit(n) { return this.changeBit(n,op_xor); }

// (protected) r = this + a
function bnpAddTo(a,r) {
  var i = 0, c = 0, m = Math.min(a.t,this.t);
  while(i < m) {
    c += this[i]+a[i];
    r[i++] = c&this.DM;
    c >>= this.DB;
  }
  if(a.t < this.t) {
    c += a.s;
    while(i < this.t) {
      c += this[i];
      r[i++] = c&this.DM;
      c >>= this.DB;
    }
    c += this.s;
  }
  else {
    c += this.s;
    while(i < a.t) {
      c += a[i];
      r[i++] = c&this.DM;
      c >>= this.DB;
    }
    c += a.s;
  }
  r.s = (c<0)?-1:0;
  if(c > 0) r[i++] = c;
  else if(c < -1) r[i++] = this.DV+c;
  r.t = i;
  r.clamp();
}

// (public) this + a
function bnAdd(a) { var r = nbi(); this.addTo(a,r); return r; }

// (public) this - a
function bnSubtract(a) { var r = nbi(); this.subTo(a,r); return r; }

// (public) this * a
function bnMultiply(a) { var r = nbi(); this.multiplyTo(a,r); return r; }

// (public) this^2
function bnSquare() { var r = nbi(); this.squareTo(r); return r; }

// (public) this / a
function bnDivide(a) { var r = nbi(); this.divRemTo(a,r,null); return r; }

// (public) this % a
function bnRemainder(a) { var r = nbi(); this.divRemTo(a,null,r); return r; }

// (public) [this/a,this%a]
function bnDivideAndRemainder(a) {
  var q = nbi(), r = nbi();
  this.divRemTo(a,q,r);
  return new Array(q,r);
}

// (protected) this *= n, this >= 0, 1 < n < DV
function bnpDMultiply(n) {
  this[this.t] = this.am(0,n-1,this,0,0,this.t);
  ++this.t;
  this.clamp();
}

// (protected) this += n << w words, this >= 0
function bnpDAddOffset(n,w) {
  if(n == 0) return;
  while(this.t <= w) this[this.t++] = 0;
  this[w] += n;
  while(this[w] >= this.DV) {
    this[w] -= this.DV;
    if(++w >= this.t) this[this.t++] = 0;
    ++this[w];
  }
}

// A "null" reducer
function NullExp() {}
function nNop(x) { return x; }
function nMulTo(x,y,r) { x.multiplyTo(y,r); }
function nSqrTo(x,r) { x.squareTo(r); }

NullExp.prototype.convert = nNop;
NullExp.prototype.revert = nNop;
NullExp.prototype.mulTo = nMulTo;
NullExp.prototype.sqrTo = nSqrTo;

// (public) this^e
function bnPow(e) { return this.exp(e,new NullExp()); }

// (protected) r = lower n words of "this * a", a.t <= n
// "this" should be the larger one if appropriate.
function bnpMultiplyLowerTo(a,n,r) {
  var i = Math.min(this.t+a.t,n);
  r.s = 0; // assumes a,this >= 0
  r.t = i;
  while(i > 0) r[--i] = 0;
  var j;
  for(j = r.t-this.t; i < j; ++i) r[i+this.t] = this.am(0,a[i],r,i,0,this.t);
  for(j = Math.min(a.t,n); i < j; ++i) this.am(0,a[i],r,i,0,n-i);
  r.clamp();
}

// (protected) r = "this * a" without lower n words, n > 0
// "this" should be the larger one if appropriate.
function bnpMultiplyUpperTo(a,n,r) {
  --n;
  var i = r.t = this.t+a.t-n;
  r.s = 0; // assumes a,this >= 0
  while(--i >= 0) r[i] = 0;
  for(i = Math.max(n-this.t,0); i < a.t; ++i)
    r[this.t+i-n] = this.am(n-i,a[i],r,0,0,this.t+i-n);
  r.clamp();
  r.drShiftTo(1,r);
}

// Barrett modular reduction
function Barrett(m) {
  // setup Barrett
  this.r2 = nbi();
  this.q3 = nbi();
  BigInteger.ONE.dlShiftTo(2*m.t,this.r2);
  this.mu = this.r2.divide(m);
  this.m = m;
}

function barrettConvert(x) {
  if(x.s < 0 || x.t > 2*this.m.t) return x.mod(this.m);
  else if(x.compareTo(this.m) < 0) return x;
  else { var r = nbi(); x.copyTo(r); this.reduce(r); return r; }
}

function barrettRevert(x) { return x; }

// x = x mod m (HAC 14.42)
function barrettReduce(x) {
  x.drShiftTo(this.m.t-1,this.r2);
  if(x.t > this.m.t+1) { x.t = this.m.t+1; x.clamp(); }
  this.mu.multiplyUpperTo(this.r2,this.m.t+1,this.q3);
  this.m.multiplyLowerTo(this.q3,this.m.t+1,this.r2);
  while(x.compareTo(this.r2) < 0) x.dAddOffset(1,this.m.t+1);
  x.subTo(this.r2,x);
  while(x.compareTo(this.m) >= 0) x.subTo(this.m,x);
}

// r = x^2 mod m; x != r
function barrettSqrTo(x,r) { x.squareTo(r); this.reduce(r); }

// r = x*y mod m; x,y != r
function barrettMulTo(x,y,r) { x.multiplyTo(y,r); this.reduce(r); }

Barrett.prototype.convert = barrettConvert;
Barrett.prototype.revert = barrettRevert;
Barrett.prototype.reduce = barrettReduce;
Barrett.prototype.mulTo = barrettMulTo;
Barrett.prototype.sqrTo = barrettSqrTo;

// (public) this^e % m (HAC 14.85)
function bnModPow(e,m) {
  var i = e.bitLength(), k, r = nbv(1), z;
  if(i <= 0) return r;
  else if(i < 18) k = 1;
  else if(i < 48) k = 3;
  else if(i < 144) k = 4;
  else if(i < 768) k = 5;
  else k = 6;
  if(i < 8)
    z = new Classic(m);
  else if(m.isEven())
    z = new Barrett(m);
  else
    z = new Montgomery(m);

  // precomputation
  var g = new Array(), n = 3, k1 = k-1, km = (1<<k)-1;
  g[1] = z.convert(this);
  if(k > 1) {
    var g2 = nbi();
    z.sqrTo(g[1],g2);
    while(n <= km) {
      g[n] = nbi();
      z.mulTo(g2,g[n-2],g[n]);
      n += 2;
    }
  }

  var j = e.t-1, w, is1 = true, r2 = nbi(), t;
  i = nbits(e[j])-1;
  while(j >= 0) {
    if(i >= k1) w = (e[j]>>(i-k1))&km;
    else {
      w = (e[j]&((1<<(i+1))-1))<<(k1-i);
      if(j > 0) w |= e[j-1]>>(this.DB+i-k1);
    }

    n = k;
    while((w&1) == 0) { w >>= 1; --n; }
    if((i -= n) < 0) { i += this.DB; --j; }
    if(is1) {	// ret == 1, don't bother squaring or multiplying it
      g[w].copyTo(r);
      is1 = false;
    }
    else {
      while(n > 1) { z.sqrTo(r,r2); z.sqrTo(r2,r); n -= 2; }
      if(n > 0) z.sqrTo(r,r2); else { t = r; r = r2; r2 = t; }
      z.mulTo(r2,g[w],r);
    }

    while(j >= 0 && (e[j]&(1<<i)) == 0) {
      z.sqrTo(r,r2); t = r; r = r2; r2 = t;
      if(--i < 0) { i = this.DB-1; --j; }
    }
  }
  return z.revert(r);
}

// (public) gcd(this,a) (HAC 14.54)
function bnGCD(a) {
  var x = (this.s<0)?this.negate():this.clone();
  var y = (a.s<0)?a.negate():a.clone();
  if(x.compareTo(y) < 0) { var t = x; x = y; y = t; }
  var i = x.getLowestSetBit(), g = y.getLowestSetBit();
  if(g < 0) return x;
  if(i < g) g = i;
  if(g > 0) {
    x.rShiftTo(g,x);
    y.rShiftTo(g,y);
  }
  while(x.signum() > 0) {
    if((i = x.getLowestSetBit()) > 0) x.rShiftTo(i,x);
    if((i = y.getLowestSetBit()) > 0) y.rShiftTo(i,y);
    if(x.compareTo(y) >= 0) {
      x.subTo(y,x);
      x.rShiftTo(1,x);
    }
    else {
      y.subTo(x,y);
      y.rShiftTo(1,y);
    }
  }
  if(g > 0) y.lShiftTo(g,y);
  return y;
}

// (protected) this % n, n < 2^26
function bnpModInt(n) {
  if(n <= 0) return 0;
  var d = this.DV%n, r = (this.s<0)?n-1:0;
  if(this.t > 0)
    if(d == 0) r = this[0]%n;
    else for(var i = this.t-1; i >= 0; --i) r = (d*r+this[i])%n;
  return r;
}

// (public) 1/this % m (HAC 14.61)
function bnModInverse(m) {
  var ac = m.isEven();
  if((this.isEven() && ac) || m.signum() == 0) return BigInteger.ZERO;
  var u = m.clone(), v = this.clone();
  var a = nbv(1), b = nbv(0), c = nbv(0), d = nbv(1);
  while(u.signum() != 0) {
    while(u.isEven()) {
      u.rShiftTo(1,u);
      if(ac) {
        if(!a.isEven() || !b.isEven()) { a.addTo(this,a); b.subTo(m,b); }
        a.rShiftTo(1,a);
      }
      else if(!b.isEven()) b.subTo(m,b);
      b.rShiftTo(1,b);
    }
    while(v.isEven()) {
      v.rShiftTo(1,v);
      if(ac) {
        if(!c.isEven() || !d.isEven()) { c.addTo(this,c); d.subTo(m,d); }
        c.rShiftTo(1,c);
      }
      else if(!d.isEven()) d.subTo(m,d);
      d.rShiftTo(1,d);
    }
    if(u.compareTo(v) >= 0) {
      u.subTo(v,u);
      if(ac) a.subTo(c,a);
      b.subTo(d,b);
    }
    else {
      v.subTo(u,v);
      if(ac) c.subTo(a,c);
      d.subTo(b,d);
    }
  }
  if(v.compareTo(BigInteger.ONE) != 0) return BigInteger.ZERO;
  if(d.compareTo(m) >= 0) return d.subtract(m);
  if(d.signum() < 0) d.addTo(m,d); else return d;
  if(d.signum() < 0) return d.add(m); else return d;
}

var lowprimes = [2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61,67,71,73,79,83,89,97,101,103,107,109,113,127,131,137,139,149,151,157,163,167,173,179,181,191,193,197,199,211,223,227,229,233,239,241,251,257,263,269,271,277,281,283,293,307,311,313,317,331,337,347,349,353,359,367,373,379,383,389,397,401,409,419,421,431,433,439,443,449,457,461,463,467,479,487,491,499,503,509,521,523,541,547,557,563,569,571,577,587,593,599,601,607,613,617,619,631,641,643,647,653,659,661,673,677,683,691,701,709,719,727,733,739,743,751,757,761,769,773,787,797,809,811,821,823,827,829,839,853,857,859,863,877,881,883,887,907,911,919,929,937,941,947,953,967,971,977,983,991,997];
var lplim = (1<<26)/lowprimes[lowprimes.length-1];

// (public) test primality with certainty >= 1-.5^t
function bnIsProbablePrime(t) {
  var i, x = this.abs();
  if(x.t == 1 && x[0] <= lowprimes[lowprimes.length-1]) {
    for(i = 0; i < lowprimes.length; ++i)
      if(x[0] == lowprimes[i]) return true;
    return false;
  }
  if(x.isEven()) return false;
  i = 1;
  while(i < lowprimes.length) {
    var m = lowprimes[i], j = i+1;
    while(j < lowprimes.length && m < lplim) m *= lowprimes[j++];
    m = x.modInt(m);
    while(i < j) if(m%lowprimes[i++] == 0) return false;
  }
  return x.millerRabin(t);
}

// (protected) true if probably prime (HAC 4.24, Miller-Rabin)
function bnpMillerRabin(t) {
  var n1 = this.subtract(BigInteger.ONE);
  var k = n1.getLowestSetBit();
  if(k <= 0) return false;
  var r = n1.shiftRight(k);
  t = (t+1)>>1;
  if(t > lowprimes.length) t = lowprimes.length;
  var a = nbi();
  for(var i = 0; i < t; ++i) {
    //Pick bases at random, instead of starting at 2
    a.fromInt(lowprimes[Math.floor(Math.random()*lowprimes.length)]);
    var y = a.modPow(r,this);
    if(y.compareTo(BigInteger.ONE) != 0 && y.compareTo(n1) != 0) {
      var j = 1;
      while(j++ < k && y.compareTo(n1) != 0) {
        y = y.modPowInt(2,this);
        if(y.compareTo(BigInteger.ONE) == 0) return false;
      }
      if(y.compareTo(n1) != 0) return false;
    }
  }
  return true;
}

// protected
BigInteger.prototype.chunkSize = bnpChunkSize;
BigInteger.prototype.toRadix = bnpToRadix;
BigInteger.prototype.fromRadix = bnpFromRadix;
BigInteger.prototype.fromNumber = bnpFromNumber;
BigInteger.prototype.bitwiseTo = bnpBitwiseTo;
BigInteger.prototype.changeBit = bnpChangeBit;
BigInteger.prototype.addTo = bnpAddTo;
BigInteger.prototype.dMultiply = bnpDMultiply;
BigInteger.prototype.dAddOffset = bnpDAddOffset;
BigInteger.prototype.multiplyLowerTo = bnpMultiplyLowerTo;
BigInteger.prototype.multiplyUpperTo = bnpMultiplyUpperTo;
BigInteger.prototype.modInt = bnpModInt;
BigInteger.prototype.millerRabin = bnpMillerRabin;

// public
BigInteger.prototype.clone = bnClone;
BigInteger.prototype.intValue = bnIntValue;
BigInteger.prototype.byteValue = bnByteValue;
BigInteger.prototype.shortValue = bnShortValue;
BigInteger.prototype.signum = bnSigNum;
BigInteger.prototype.toByteArray = bnToByteArray;
BigInteger.prototype.equals = bnEquals;
BigInteger.prototype.min = bnMin;
BigInteger.prototype.max = bnMax;
BigInteger.prototype.and = bnAnd;
BigInteger.prototype.or = bnOr;
BigInteger.prototype.xor = bnXor;
BigInteger.prototype.andNot = bnAndNot;
BigInteger.prototype.not = bnNot;
BigInteger.prototype.shiftLeft = bnShiftLeft;
BigInteger.prototype.shiftRight = bnShiftRight;
BigInteger.prototype.getLowestSetBit = bnGetLowestSetBit;
BigInteger.prototype.bitCount = bnBitCount;
BigInteger.prototype.testBit = bnTestBit;
BigInteger.prototype.setBit = bnSetBit;
BigInteger.prototype.clearBit = bnClearBit;
BigInteger.prototype.flipBit = bnFlipBit;
BigInteger.prototype.add = bnAdd;
BigInteger.prototype.subtract = bnSubtract;
BigInteger.prototype.multiply = bnMultiply;
BigInteger.prototype.divide = bnDivide;
BigInteger.prototype.remainder = bnRemainder;
BigInteger.prototype.divideAndRemainder = bnDivideAndRemainder;
BigInteger.prototype.modPow = bnModPow;
BigInteger.prototype.modInverse = bnModInverse;
BigInteger.prototype.pow = bnPow;
BigInteger.prototype.gcd = bnGCD;
BigInteger.prototype.isProbablePrime = bnIsProbablePrime;

// JSBN-specific extension
BigInteger.prototype.square = bnSquare;

// BigInteger interfaces not implemented in jsbn:

// BigInteger(int signum, byte[] magnitude)
// double doubleValue()
// float floatValue()
// int hashCode()
// long longValue()
// static BigInteger valueOf(long val)
// prng4.js - uses Arcfour as a PRNG

function Arcfour() {
  this.i = 0;
  this.j = 0;
  this.S = new Array();
}

// Initialize arcfour context from key, an array of ints, each from [0..255]
function ARC4init(key) {
  var i, j, t;
  for(i = 0; i < 256; ++i)
    this.S[i] = i;
  j = 0;
  for(i = 0; i < 256; ++i) {
    j = (j + this.S[i] + key[i % key.length]) & 255;
    t = this.S[i];
    this.S[i] = this.S[j];
    this.S[j] = t;
  }
  this.i = 0;
  this.j = 0;
}

function ARC4next() {
  var t;
  this.i = (this.i + 1) & 255;
  this.j = (this.j + this.S[this.i]) & 255;
  t = this.S[this.i];
  this.S[this.i] = this.S[this.j];
  this.S[this.j] = t;
  return this.S[(t + this.S[this.i]) & 255];
}

Arcfour.prototype.init = ARC4init;
Arcfour.prototype.next = ARC4next;

// Plug in your RNG constructor here
function prng_newstate() {
  return new Arcfour();
}

// Pool size must be a multiple of 4 and greater than 32.
// An array of bytes the size of the pool will be passed to init()
var rng_psize = 256;
// Random number generator - requires a PRNG backend, e.g. prng4.js
var rng_state;
var rng_pool;
var rng_pptr;

// Initialize the pool with junk if needed.
if(rng_pool == null) {
  rng_pool = new Array();
  rng_pptr = 0;
  var t;
  if(window.crypto && window.crypto.getRandomValues) {
    // Extract entropy (2048 bits) from RNG if available
    var z = new Uint32Array(256);
    window.crypto.getRandomValues(z);
    for (t = 0; t < z.length; ++t)
      rng_pool[rng_pptr++] = z[t] & 255;
  } 
  
  // Use mouse events for entropy, if we do not have enough entropy by the time
  // we need it, entropy will be generated by Math.random.
  var onMouseMoveListener = function(ev) {
    this.count = this.count || 0;
    if (this.count >= 256 || rng_pptr >= rng_psize) {
      if (window.removeEventListener)
        window.removeEventListener("mousemove", onMouseMoveListener);
      else if (window.detachEvent)
        window.detachEvent("onmousemove", onMouseMoveListener);
      return;
    }
    this.count += 1;
    var mouseCoordinates = ev.x + ev.y;
    rng_pool[rng_pptr++] = mouseCoordinates & 255;
  };
  if (window.addEventListener)
    window.addEventListener("mousemove", onMouseMoveListener);
  else if (window.attachEvent)
    window.attachEvent("onmousemove", onMouseMoveListener);
  
}

function rng_get_byte() {
  if(rng_state == null) {
    rng_state = prng_newstate();
    // At this point, we may not have collected enough entropy.  If not, fall back to Math.random
    while (rng_pptr < rng_psize) {
      var random = Math.floor(65536 * Math.random());
      rng_pool[rng_pptr++] = random & 255;
    }
    rng_state.init(rng_pool);
    for(rng_pptr = 0; rng_pptr < rng_pool.length; ++rng_pptr)
      rng_pool[rng_pptr] = 0;
    rng_pptr = 0;
  }
  // TODO: allow reseeding after first request
  return rng_state.next();
}

function rng_get_bytes(ba) {
  var i;
  for(i = 0; i < ba.length; ++i) ba[i] = rng_get_byte();
}

function SecureRandom() {}

SecureRandom.prototype.nextBytes = rng_get_bytes;
// Depends on jsbn.js and rng.js

// Version 1.1: support utf-8 encoding in pkcs1pad2

// convert a (hex) string to a bignum object
function parseBigInt(str,r) {
  return new BigInteger(str,r);
}

function linebrk(s,n) {
  var ret = "";
  var i = 0;
  while(i + n < s.length) {
    ret += s.substring(i,i+n) + "\n";
    i += n;
  }
  return ret + s.substring(i,s.length);
}

function byte2Hex(b) {
  if(b < 0x10)
    return "0" + b.toString(16);
  else
    return b.toString(16);
}

// PKCS#1 (type 2, random) pad input string s to n bytes, and return a bigint
function pkcs1pad2(s,n) {
  if(n < s.length + 11) { // TODO: fix for utf-8
    console.error("Message too long for RSA");
    return null;
  }
  var ba = new Array();
  var i = s.length - 1;
  while(i >= 0 && n > 0) {
    var c = s.charCodeAt(i--);
    if(c < 128) { // encode using utf-8
      ba[--n] = c;
    }
    else if((c > 127) && (c < 2048)) {
      ba[--n] = (c & 63) | 128;
      ba[--n] = (c >> 6) | 192;
    }
    else {
      ba[--n] = (c & 63) | 128;
      ba[--n] = ((c >> 6) & 63) | 128;
      ba[--n] = (c >> 12) | 224;
    }
  }
  ba[--n] = 0;
  var rng = new SecureRandom();
  var x = new Array();
  while(n > 2) { // random non-zero pad
    x[0] = 0;
    while(x[0] == 0) rng.nextBytes(x);
    ba[--n] = x[0];
  }
  ba[--n] = 2;
  ba[--n] = 0;
  return new BigInteger(ba);
}

// "empty" RSA key constructor
function RSAKey() {
  this.n = null;
  this.e = 0;
  this.d = null;
  this.p = null;
  this.q = null;
  this.dmp1 = null;
  this.dmq1 = null;
  this.coeff = null;
}

// Set the public key fields N and e from hex strings
function RSASetPublic(N,E) {
  if(N != null && E != null && N.length > 0 && E.length > 0) {
    this.n = parseBigInt(N,16);
    this.e = parseInt(E,16);
  }
  else
    console.error("Invalid RSA public key");
}

// Perform raw public operation on "x": return x^e (mod n)
function RSADoPublic(x) {
  return x.modPowInt(this.e, this.n);
}

// Return the PKCS#1 RSA encryption of "text" as an even-length hex string
function RSAEncrypt(text) {
  var m = pkcs1pad2(text,(this.n.bitLength()+7)>>3);
  if(m == null) return null;
  var c = this.doPublic(m);
  if(c == null) return null;
  var h = c.toString(16);
  if((h.length & 1) == 0) return h; else return "0" + h;
}

// Return the PKCS#1 RSA encryption of "text" as a Base64-encoded string
//function RSAEncryptB64(text) {
//  var h = this.encrypt(text);
//  if(h) return hex2b64(h); else return null;
//}

// protected
RSAKey.prototype.doPublic = RSADoPublic;

// public
RSAKey.prototype.setPublic = RSASetPublic;
RSAKey.prototype.encrypt = RSAEncrypt;
//RSAKey.prototype.encrypt_b64 = RSAEncryptB64;
// Depends on rsa.js and jsbn2.js

// Version 1.1: support utf-8 decoding in pkcs1unpad2

// Undo PKCS#1 (type 2, random) padding and, if valid, return the plaintext
function pkcs1unpad2(d,n) {
  var b = d.toByteArray();
  var i = 0;
  while(i < b.length && b[i] == 0) ++i;
  if(b.length-i != n-1 || b[i] != 2)
    return null;
  ++i;
  while(b[i] != 0)
    if(++i >= b.length) return null;
  var ret = "";
  while(++i < b.length) {
    var c = b[i] & 255;
    if(c < 128) { // utf-8 decode
      ret += String.fromCharCode(c);
    }
    else if((c > 191) && (c < 224)) {
      ret += String.fromCharCode(((c & 31) << 6) | (b[i+1] & 63));
      ++i;
    }
    else {
      ret += String.fromCharCode(((c & 15) << 12) | ((b[i+1] & 63) << 6) | (b[i+2] & 63));
      i += 2;
    }
  }
  return ret;
}

// Set the private key fields N, e, and d from hex strings
function RSASetPrivate(N,E,D) {
  if(N != null && E != null && N.length > 0 && E.length > 0) {
    this.n = parseBigInt(N,16);
    this.e = parseInt(E,16);
    this.d = parseBigInt(D,16);
  }
  else
    console.error("Invalid RSA private key");
}

// Set the private key fields N, e, d and CRT params from hex strings
function RSASetPrivateEx(N,E,D,P,Q,DP,DQ,C) {
  if(N != null && E != null && N.length > 0 && E.length > 0) {
    this.n = parseBigInt(N,16);
    this.e = parseInt(E,16);
    this.d = parseBigInt(D,16);
    this.p = parseBigInt(P,16);
    this.q = parseBigInt(Q,16);
    this.dmp1 = parseBigInt(DP,16);
    this.dmq1 = parseBigInt(DQ,16);
    this.coeff = parseBigInt(C,16);
  }
  else
    console.error("Invalid RSA private key");
}

// Generate a new random private key B bits long, using public expt E
function RSAGenerate(B,E) {
  var rng = new SecureRandom();
  var qs = B>>1;
  this.e = parseInt(E,16);
  var ee = new BigInteger(E,16);
  for(;;) {
    for(;;) {
      this.p = new BigInteger(B-qs,1,rng);
      if(this.p.subtract(BigInteger.ONE).gcd(ee).compareTo(BigInteger.ONE) == 0 && this.p.isProbablePrime(10)) break;
    }
    for(;;) {
      this.q = new BigInteger(qs,1,rng);
      if(this.q.subtract(BigInteger.ONE).gcd(ee).compareTo(BigInteger.ONE) == 0 && this.q.isProbablePrime(10)) break;
    }
    if(this.p.compareTo(this.q) <= 0) {
      var t = this.p;
      this.p = this.q;
      this.q = t;
    }
    var p1 = this.p.subtract(BigInteger.ONE);
    var q1 = this.q.subtract(BigInteger.ONE);
    var phi = p1.multiply(q1);
    if(phi.gcd(ee).compareTo(BigInteger.ONE) == 0) {
      this.n = this.p.multiply(this.q);
      this.d = ee.modInverse(phi);
      this.dmp1 = this.d.mod(p1);
      this.dmq1 = this.d.mod(q1);
      this.coeff = this.q.modInverse(this.p);
      break;
    }
  }
}

// Perform raw private operation on "x": return x^d (mod n)
function RSADoPrivate(x) {
  if(this.p == null || this.q == null)
    return x.modPow(this.d, this.n);

  // TODO: re-calculate any missing CRT params
  var xp = x.mod(this.p).modPow(this.dmp1, this.p);
  var xq = x.mod(this.q).modPow(this.dmq1, this.q);

  while(xp.compareTo(xq) < 0)
    xp = xp.add(this.p);
  return xp.subtract(xq).multiply(this.coeff).mod(this.p).multiply(this.q).add(xq);
}

// Return the PKCS#1 RSA decryption of "ctext".
// "ctext" is an even-length hex string and the output is a plain string.
function RSADecrypt(ctext) {
  var c = parseBigInt(ctext, 16);
  var m = this.doPrivate(c);
  if(m == null) return null;
  return pkcs1unpad2(m, (this.n.bitLength()+7)>>3);
}

// Return the PKCS#1 RSA decryption of "ctext".
// "ctext" is a Base64-encoded string and the output is a plain string.
//function RSAB64Decrypt(ctext) {
//  var h = b64tohex(ctext);
//  if(h) return this.decrypt(h); else return null;
//}

// protected
RSAKey.prototype.doPrivate = RSADoPrivate;

// public
RSAKey.prototype.setPrivate = RSASetPrivate;
RSAKey.prototype.setPrivateEx = RSASetPrivateEx;
RSAKey.prototype.generate = RSAGenerate;
RSAKey.prototype.decrypt = RSADecrypt;
//RSAKey.prototype.b64_decrypt = RSAB64Decrypt;
// Copyright (c) 2011  Kevin M Burns Jr.
// All Rights Reserved.
// See "LICENSE" for details.
//
// Extension to jsbn which adds facilities for asynchronous RSA key generation
// Primarily created to avoid execution timeout on mobile devices
//
// http://www-cs-students.stanford.edu/~tjw/jsbn/
//
// ---

(function(){

// Generate a new random private key B bits long, using public expt E
var RSAGenerateAsync = function (B, E, callback) {
    //var rng = new SeededRandom();
    var rng = new SecureRandom();
    var qs = B >> 1;
    this.e = parseInt(E, 16);
    var ee = new BigInteger(E, 16);
    var rsa = this;
    // These functions have non-descript names because they were originally for(;;) loops.
    // I don't know about cryptography to give them better names than loop1-4.
    var loop1 = function() {
        var loop4 = function() {
            if (rsa.p.compareTo(rsa.q) <= 0) {
                var t = rsa.p;
                rsa.p = rsa.q;
                rsa.q = t;
            }
            var p1 = rsa.p.subtract(BigInteger.ONE);
            var q1 = rsa.q.subtract(BigInteger.ONE);
            var phi = p1.multiply(q1);
            if (phi.gcd(ee).compareTo(BigInteger.ONE) == 0) {
                rsa.n = rsa.p.multiply(rsa.q);
                rsa.d = ee.modInverse(phi);
                rsa.dmp1 = rsa.d.mod(p1);
                rsa.dmq1 = rsa.d.mod(q1);
                rsa.coeff = rsa.q.modInverse(rsa.p);
                setTimeout(function(){callback()},0); // escape
            } else {
                setTimeout(loop1,0);
            }
        };
        var loop3 = function() {
            rsa.q = nbi();
            rsa.q.fromNumberAsync(qs, 1, rng, function(){
                rsa.q.subtract(BigInteger.ONE).gcda(ee, function(r){
                    if (r.compareTo(BigInteger.ONE) == 0 && rsa.q.isProbablePrime(10)) {
                        setTimeout(loop4,0);
                    } else {
                        setTimeout(loop3,0);
                    }
                });
            });
        };
        var loop2 = function() {
            rsa.p = nbi();
            rsa.p.fromNumberAsync(B - qs, 1, rng, function(){
                rsa.p.subtract(BigInteger.ONE).gcda(ee, function(r){
                    if (r.compareTo(BigInteger.ONE) == 0 && rsa.p.isProbablePrime(10)) {
                        setTimeout(loop3,0);
                    } else {
                        setTimeout(loop2,0);
                    }
                });
            });
        };
        setTimeout(loop2,0);
    };
    setTimeout(loop1,0);
};
RSAKey.prototype.generateAsync = RSAGenerateAsync;

// Public API method
var bnGCDAsync = function (a, callback) {
    var x = (this.s < 0) ? this.negate() : this.clone();
    var y = (a.s < 0) ? a.negate() : a.clone();
    if (x.compareTo(y) < 0) {
        var t = x;
        x = y;
        y = t;
    }
    var i = x.getLowestSetBit(),
        g = y.getLowestSetBit();
    if (g < 0) {
        callback(x);
        return;
    }
    if (i < g) g = i;
    if (g > 0) {
        x.rShiftTo(g, x);
        y.rShiftTo(g, y);
    }
    // Workhorse of the algorithm, gets called 200 - 800 times per 512 bit keygen.
    var gcda1 = function() {
        if ((i = x.getLowestSetBit()) > 0){ x.rShiftTo(i, x); }
        if ((i = y.getLowestSetBit()) > 0){ y.rShiftTo(i, y); }
        if (x.compareTo(y) >= 0) {
            x.subTo(y, x);
            x.rShiftTo(1, x);
        } else {
            y.subTo(x, y);
            y.rShiftTo(1, y);
        }
        if(!(x.signum() > 0)) {
            if (g > 0) y.lShiftTo(g, y);
            setTimeout(function(){callback(y)},0); // escape
        } else {
            setTimeout(gcda1,0);
        }
    };
    setTimeout(gcda1,10);
};
BigInteger.prototype.gcda = bnGCDAsync;

// (protected) alternate constructor
var bnpFromNumberAsync = function (a,b,c,callback) {
  if("number" == typeof b) {
    if(a < 2) {
        this.fromInt(1);
    } else {
      this.fromNumber(a,c);
      if(!this.testBit(a-1)){
        this.bitwiseTo(BigInteger.ONE.shiftLeft(a-1),op_or,this);
      }
      if(this.isEven()) {
        this.dAddOffset(1,0);
      }
      var bnp = this;
      var bnpfn1 = function(){
        bnp.dAddOffset(2,0);
        if(bnp.bitLength() > a) bnp.subTo(BigInteger.ONE.shiftLeft(a-1),bnp);
        if(bnp.isProbablePrime(b)) {
            setTimeout(function(){callback()},0); // escape
        } else {
            setTimeout(bnpfn1,0);
        }
      };
      setTimeout(bnpfn1,0);
    }
  } else {
    var x = new Array(), t = a&7;
    x.length = (a>>3)+1;
    b.nextBytes(x);
    if(t > 0) x[0] &= ((1<<t)-1); else x[0] = 0;
    this.fromString(x,256);
  }
};
BigInteger.prototype.fromNumberAsync = bnpFromNumberAsync;

})();var b64map="ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
var b64pad="=";

function hex2b64(h) {
  var i;
  var c;
  var ret = "";
  for(i = 0; i+3 <= h.length; i+=3) {
    c = parseInt(h.substring(i,i+3),16);
    ret += b64map.charAt(c >> 6) + b64map.charAt(c & 63);
  }
  if(i+1 == h.length) {
    c = parseInt(h.substring(i,i+1),16);
    ret += b64map.charAt(c << 2);
  }
  else if(i+2 == h.length) {
    c = parseInt(h.substring(i,i+2),16);
    ret += b64map.charAt(c >> 2) + b64map.charAt((c & 3) << 4);
  }
  while((ret.length & 3) > 0) ret += b64pad;
  return ret;
}

// convert a base64 string to hex
function b64tohex(s) {
  var ret = ""
  var i;
  var k = 0; // b64 state, 0-3
  var slop;
  for(i = 0; i < s.length; ++i) {
    if(s.charAt(i) == b64pad) break;
    v = b64map.indexOf(s.charAt(i));
    if(v < 0) continue;
    if(k == 0) {
      ret += int2char(v >> 2);
      slop = v & 3;
      k = 1;
    }
    else if(k == 1) {
      ret += int2char((slop << 2) | (v >> 4));
      slop = v & 0xf;
      k = 2;
    }
    else if(k == 2) {
      ret += int2char(slop);
      ret += int2char(v >> 2);
      slop = v & 3;
      k = 3;
    }
    else {
      ret += int2char((slop << 2) | (v >> 4));
      ret += int2char(v & 0xf);
      k = 0;
    }
  }
  if(k == 1)
    ret += int2char(slop << 2);
  return ret;
}

// convert a base64 string to a byte/number array
function b64toBA(s) {
  //piggyback on b64tohex for now, optimize later
  var h = b64tohex(s);
  var i;
  var a = new Array();
  for(i = 0; 2*i < h.length; ++i) {
    a[i] = parseInt(h.substring(2*i,2*i+2),16);
  }
  return a;
}
/*! asn1-1.0.2.js (c) 2013 Kenji Urushima | kjur.github.com/jsrsasign/license
 */

var JSX = JSX || {};
JSX.env = JSX.env || {};

var L = JSX, OP = Object.prototype, FUNCTION_TOSTRING = '[object Function]',ADD = ["toString", "valueOf"];

JSX.env.parseUA = function(agent) {

    var numberify = function(s) {
        var c = 0;
        return parseFloat(s.replace(/\./g, function() {
            return (c++ == 1) ? '' : '.';
        }));
    },

    nav = navigator,
    o = {
        ie: 0,
        opera: 0,
        gecko: 0,
        webkit: 0,
        chrome: 0,
        mobile: null,
        air: 0,
        ipad: 0,
        iphone: 0,
        ipod: 0,
        ios: null,
        android: 0,
        webos: 0,
        caja: nav && nav.cajaVersion,
        secure: false,
        os: null

    },

    ua = agent || (navigator && navigator.userAgent),
    loc = window && window.location,
    href = loc && loc.href,
    m;

    o.secure = href && (href.toLowerCase().indexOf("https") === 0);

    if (ua) {

        if ((/windows|win32/i).test(ua)) {
            o.os = 'windows';
        } else if ((/macintosh/i).test(ua)) {
            o.os = 'macintosh';
        } else if ((/rhino/i).test(ua)) {
            o.os = 'rhino';
        }
        if ((/KHTML/).test(ua)) {
            o.webkit = 1;
        }
        m = ua.match(/AppleWebKit\/([^\s]*)/);
        if (m && m[1]) {
            o.webkit = numberify(m[1]);
            if (/ Mobile\//.test(ua)) {
                o.mobile = 'Apple'; // iPhone or iPod Touch
                m = ua.match(/OS ([^\s]*)/);
                if (m && m[1]) {
                    m = numberify(m[1].replace('_', '.'));
                }
                o.ios = m;
                o.ipad = o.ipod = o.iphone = 0;
                m = ua.match(/iPad|iPod|iPhone/);
                if (m && m[0]) {
                    o[m[0].toLowerCase()] = o.ios;
                }
            } else {
                m = ua.match(/NokiaN[^\/]*|Android \d\.\d|webOS\/\d\.\d/);
                if (m) {
                    o.mobile = m[0];
                }
                if (/webOS/.test(ua)) {
                    o.mobile = 'WebOS';
                    m = ua.match(/webOS\/([^\s]*);/);
                    if (m && m[1]) {
                        o.webos = numberify(m[1]);
                    }
                }
                if (/ Android/.test(ua)) {
                    o.mobile = 'Android';
                    m = ua.match(/Android ([^\s]*);/);
                    if (m && m[1]) {
                        o.android = numberify(m[1]);
                    }
                }
            }
            m = ua.match(/Chrome\/([^\s]*)/);
            if (m && m[1]) {
                o.chrome = numberify(m[1]); // Chrome
            } else {
                m = ua.match(/AdobeAIR\/([^\s]*)/);
                if (m) {
                    o.air = m[0]; // Adobe AIR 1.0 or better
                }
            }
        }
        if (!o.webkit) {
            m = ua.match(/Opera[\s\/]([^\s]*)/);
            if (m && m[1]) {
                o.opera = numberify(m[1]);
                m = ua.match(/Version\/([^\s]*)/);
                if (m && m[1]) {
                    o.opera = numberify(m[1]); // opera 10+
                }
                m = ua.match(/Opera Mini[^;]*/);
                if (m) {
                    o.mobile = m[0]; // ex: Opera Mini/2.0.4509/1316
                }
            } else { // not opera or webkit
                m = ua.match(/MSIE\s([^;]*)/);
                if (m && m[1]) {
                    o.ie = numberify(m[1]);
                } else { // not opera, webkit, or ie
                    m = ua.match(/Gecko\/([^\s]*)/);
                    if (m) {
                        o.gecko = 1; // Gecko detected, look for revision
                        m = ua.match(/rv:([^\s\)]*)/);
                        if (m && m[1]) {
                            o.gecko = numberify(m[1]);
                        }
                    }
                }
            }
        }
    }
    return o;
};

JSX.env.ua = JSX.env.parseUA();

JSX.isFunction = function(o) {
    return (typeof o === 'function') || OP.toString.apply(o) === FUNCTION_TOSTRING;
};

JSX._IEEnumFix = (JSX.env.ua.ie) ? function(r, s) {
    var i, fname, f;
    for (i=0;i<ADD.length;i=i+1) {

        fname = ADD[i];
        f = s[fname];

        if (L.isFunction(f) && f!=OP[fname]) {
            r[fname]=f;
        }
    }
} : function(){};

JSX.extend = function(subc, superc, overrides) {
    if (!superc||!subc) {
        throw new Error("extend failed, please check that " +
                        "all dependencies are included.");
    }
    var F = function() {}, i;
    F.prototype=superc.prototype;
    subc.prototype=new F();
    subc.prototype.constructor=subc;
    subc.superclass=superc.prototype;
    if (superc.prototype.constructor == OP.constructor) {
        superc.prototype.constructor=superc;
    }

    if (overrides) {
        for (i in overrides) {
            if (L.hasOwnProperty(overrides, i)) {
                subc.prototype[i]=overrides[i];
            }
        }

        L._IEEnumFix(subc.prototype, overrides);
    }
};

/*
 * asn1.js - ASN.1 DER encoder classes
 *
 * Copyright (c) 2013 Kenji Urushima (kenji.urushima@gmail.com)
 *
 * This software is licensed under the terms of the MIT License.
 * http://kjur.github.com/jsrsasign/license
 *
 * The above copyright and license notice shall be 
 * included in all copies or substantial portions of the Software.
 */

/**
 * @fileOverview
 * @name asn1-1.0.js
 * @author Kenji Urushima kenji.urushima@gmail.com
 * @version 1.0.2 (2013-May-30)
 * @since 2.1
 * @license <a href="http://kjur.github.io/jsrsasign/license/">MIT License</a>
 */

/** 
 * kjur's class library name space
 * <p>
 * This name space provides following name spaces:
 * <ul>
 * <li>{@link KJUR.asn1} - ASN.1 primitive hexadecimal encoder</li>
 * <li>{@link KJUR.asn1.x509} - ASN.1 structure for X.509 certificate and CRL</li>
 * <li>{@link KJUR.crypto} - Java Cryptographic Extension(JCE) style MessageDigest/Signature 
 * class and utilities</li>
 * </ul>
 * </p> 
 * NOTE: Please ignore method summary and document of this namespace. This caused by a bug of jsdoc2.
  * @name KJUR
 * @namespace kjur's class library name space
 */
if (typeof KJUR == "undefined" || !KJUR) KJUR = {};

/**
 * kjur's ASN.1 class library name space
 * <p>
 * This is ITU-T X.690 ASN.1 DER encoder class library and
 * class structure and methods is very similar to 
 * org.bouncycastle.asn1 package of 
 * well known BouncyCaslte Cryptography Library.
 *
 * <h4>PROVIDING ASN.1 PRIMITIVES</h4>
 * Here are ASN.1 DER primitive classes.
 * <ul>
 * <li>{@link KJUR.asn1.DERBoolean}</li>
 * <li>{@link KJUR.asn1.DERInteger}</li>
 * <li>{@link KJUR.asn1.DERBitString}</li>
 * <li>{@link KJUR.asn1.DEROctetString}</li>
 * <li>{@link KJUR.asn1.DERNull}</li>
 * <li>{@link KJUR.asn1.DERObjectIdentifier}</li>
 * <li>{@link KJUR.asn1.DERUTF8String}</li>
 * <li>{@link KJUR.asn1.DERNumericString}</li>
 * <li>{@link KJUR.asn1.DERPrintableString}</li>
 * <li>{@link KJUR.asn1.DERTeletexString}</li>
 * <li>{@link KJUR.asn1.DERIA5String}</li>
 * <li>{@link KJUR.asn1.DERUTCTime}</li>
 * <li>{@link KJUR.asn1.DERGeneralizedTime}</li>
 * <li>{@link KJUR.asn1.DERSequence}</li>
 * <li>{@link KJUR.asn1.DERSet}</li>
 * </ul>
 *
 * <h4>OTHER ASN.1 CLASSES</h4>
 * <ul>
 * <li>{@link KJUR.asn1.ASN1Object}</li>
 * <li>{@link KJUR.asn1.DERAbstractString}</li>
 * <li>{@link KJUR.asn1.DERAbstractTime}</li>
 * <li>{@link KJUR.asn1.DERAbstractStructured}</li>
 * <li>{@link KJUR.asn1.DERTaggedObject}</li>
 * </ul>
 * </p>
 * NOTE: Please ignore method summary and document of this namespace. This caused by a bug of jsdoc2.
 * @name KJUR.asn1
 * @namespace
 */
if (typeof KJUR.asn1 == "undefined" || !KJUR.asn1) KJUR.asn1 = {};

/**
 * ASN1 utilities class
 * @name KJUR.asn1.ASN1Util
 * @classs ASN1 utilities class
 * @since asn1 1.0.2
 */
KJUR.asn1.ASN1Util = new function() {
    this.integerToByteHex = function(i) {
	var h = i.toString(16);
	if ((h.length % 2) == 1) h = '0' + h;
	return h;
    };
    this.bigIntToMinTwosComplementsHex = function(bigIntegerValue) {
	var h = bigIntegerValue.toString(16);
	if (h.substr(0, 1) != '-') {
	    if (h.length % 2 == 1) {
		h = '0' + h;
	    } else {
		if (! h.match(/^[0-7]/)) {
		    h = '00' + h;
		}
	    }
	} else {
	    var hPos = h.substr(1);
	    var xorLen = hPos.length;
	    if (xorLen % 2 == 1) {
		xorLen += 1;
	    } else {
		if (! h.match(/^[0-7]/)) {
		    xorLen += 2;
		}
	    }
	    var hMask = '';
	    for (var i = 0; i < xorLen; i++) {
		hMask += 'f';
	    }
	    var biMask = new BigInteger(hMask, 16);
	    var biNeg = biMask.xor(bigIntegerValue).add(BigInteger.ONE);
	    h = biNeg.toString(16).replace(/^-/, '');
	}
	return h;
    };
    /**
     * get PEM string from hexadecimal data and header string
     * @name getPEMStringFromHex
     * @memberOf KJUR.asn1.ASN1Util
     * @function
     * @param {String} dataHex hexadecimal string of PEM body
     * @param {String} pemHeader PEM header string (ex. 'RSA PRIVATE KEY')
     * @return {String} PEM formatted string of input data
     * @description
     * @example
     * var pem  = KJUR.asn1.ASN1Util.getPEMStringFromHex('616161', 'RSA PRIVATE KEY');
     * // value of pem will be:
     * -----BEGIN PRIVATE KEY-----
     * YWFh
     * -----END PRIVATE KEY-----
     */
    this.getPEMStringFromHex = function(dataHex, pemHeader) {
	var dataWA = CryptoJS.enc.Hex.parse(dataHex);
	var dataB64 = CryptoJS.enc.Base64.stringify(dataWA);
	var pemBody = dataB64.replace(/(.{64})/g, "$1\r\n");
        pemBody = pemBody.replace(/\r\n$/, '');
	return "-----BEGIN " + pemHeader + "-----\r\n" + 
               pemBody + 
               "\r\n-----END " + pemHeader + "-----\r\n";
    };
};

// ********************************************************************
//  Abstract ASN.1 Classes
// ********************************************************************

// ********************************************************************

/**
 * base class for ASN.1 DER encoder object
 * @name KJUR.asn1.ASN1Object
 * @class base class for ASN.1 DER encoder object
 * @property {Boolean} isModified flag whether internal data was changed
 * @property {String} hTLV hexadecimal string of ASN.1 TLV
 * @property {String} hT hexadecimal string of ASN.1 TLV tag(T)
 * @property {String} hL hexadecimal string of ASN.1 TLV length(L)
 * @property {String} hV hexadecimal string of ASN.1 TLV value(V)
 * @description
 */
KJUR.asn1.ASN1Object = function() {
    var isModified = true;
    var hTLV = null;
    var hT = '00'
    var hL = '00';
    var hV = '';

    /**
     * get hexadecimal ASN.1 TLV length(L) bytes from TLV value(V)
     * @name getLengthHexFromValue
     * @memberOf KJUR.asn1.ASN1Object
     * @function
     * @return {String} hexadecimal string of ASN.1 TLV length(L)
     */
    this.getLengthHexFromValue = function() {
	if (typeof this.hV == "undefined" || this.hV == null) {
	    throw "this.hV is null or undefined.";
	}
	if (this.hV.length % 2 == 1) {
	    throw "value hex must be even length: n=" + hV.length + ",v=" + this.hV;
	}
	var n = this.hV.length / 2;
	var hN = n.toString(16);
	if (hN.length % 2 == 1) {
	    hN = "0" + hN;
	}
	if (n < 128) {
	    return hN;
	} else {
	    var hNlen = hN.length / 2;
	    if (hNlen > 15) {
		throw "ASN.1 length too long to represent by 8x: n = " + n.toString(16);
	    }
	    var head = 128 + hNlen;
	    return head.toString(16) + hN;
	}
    };

    /**
     * get hexadecimal string of ASN.1 TLV bytes
     * @name getEncodedHex
     * @memberOf KJUR.asn1.ASN1Object
     * @function
     * @return {String} hexadecimal string of ASN.1 TLV
     */
    this.getEncodedHex = function() {
	if (this.hTLV == null || this.isModified) {
	    this.hV = this.getFreshValueHex();
	    this.hL = this.getLengthHexFromValue();
	    this.hTLV = this.hT + this.hL + this.hV;
	    this.isModified = false;
	    //console.error("first time: " + this.hTLV);
	}
	return this.hTLV;
    };

    /**
     * get hexadecimal string of ASN.1 TLV value(V) bytes
     * @name getValueHex
     * @memberOf KJUR.asn1.ASN1Object
     * @function
     * @return {String} hexadecimal string of ASN.1 TLV value(V) bytes
     */
    this.getValueHex = function() {
	this.getEncodedHex();
	return this.hV;
    }

    this.getFreshValueHex = function() {
	return '';
    };
};

// == BEGIN DERAbstractString ================================================
/**
 * base class for ASN.1 DER string classes
 * @name KJUR.asn1.DERAbstractString
 * @class base class for ASN.1 DER string classes
 * @param {Array} params associative array of parameters (ex. {'str': 'aaa'})
 * @property {String} s internal string of value
 * @extends KJUR.asn1.ASN1Object
 * @description
 * <br/>
 * As for argument 'params' for constructor, you can specify one of
 * following properties:
 * <ul>
 * <li>str - specify initial ASN.1 value(V) by a string</li>
 * <li>hex - specify initial ASN.1 value(V) by a hexadecimal string</li>
 * </ul>
 * NOTE: 'params' can be omitted.
 */
KJUR.asn1.DERAbstractString = function(params) {
    KJUR.asn1.DERAbstractString.superclass.constructor.call(this);
    var s = null;
    var hV = null;

    /**
     * get string value of this string object
     * @name getString
     * @memberOf KJUR.asn1.DERAbstractString
     * @function
     * @return {String} string value of this string object
     */
    this.getString = function() {
	return this.s;
    };

    /**
     * set value by a string
     * @name setString
     * @memberOf KJUR.asn1.DERAbstractString
     * @function
     * @param {String} newS value by a string to set
     */
    this.setString = function(newS) {
	this.hTLV = null;
	this.isModified = true;
	this.s = newS;
	this.hV = stohex(this.s);
    };

    /**
     * set value by a hexadecimal string
     * @name setStringHex
     * @memberOf KJUR.asn1.DERAbstractString
     * @function
     * @param {String} newHexString value by a hexadecimal string to set
     */
    this.setStringHex = function(newHexString) {
	this.hTLV = null;
	this.isModified = true;
	this.s = null;
	this.hV = newHexString;
    };

    this.getFreshValueHex = function() {
	return this.hV;
    };

    if (typeof params != "undefined") {
	if (typeof params['str'] != "undefined") {
	    this.setString(params['str']);
	} else if (typeof params['hex'] != "undefined") {
	    this.setStringHex(params['hex']);
	}
    }
};
JSX.extend(KJUR.asn1.DERAbstractString, KJUR.asn1.ASN1Object);
// == END   DERAbstractString ================================================

// == BEGIN DERAbstractTime ==================================================
/**
 * base class for ASN.1 DER Generalized/UTCTime class
 * @name KJUR.asn1.DERAbstractTime
 * @class base class for ASN.1 DER Generalized/UTCTime class
 * @param {Array} params associative array of parameters (ex. {'str': '130430235959Z'})
 * @extends KJUR.asn1.ASN1Object
 * @description
 * @see KJUR.asn1.ASN1Object - superclass
 */
KJUR.asn1.DERAbstractTime = function(params) {
    KJUR.asn1.DERAbstractTime.superclass.constructor.call(this);
    var s = null;
    var date = null;

    // --- PRIVATE METHODS --------------------
    this.localDateToUTC = function(d) {
	utc = d.getTime() + (d.getTimezoneOffset() * 60000);
	var utcDate = new Date(utc);
	return utcDate;
    };

    this.formatDate = function(dateObject, type) {
	var pad = this.zeroPadding;
	var d = this.localDateToUTC(dateObject);
	var year = String(d.getFullYear());
	if (type == 'utc') year = year.substr(2, 2);
	var month = pad(String(d.getMonth() + 1), 2);
	var day = pad(String(d.getDate()), 2);
	var hour = pad(String(d.getHours()), 2);
	var min = pad(String(d.getMinutes()), 2);
	var sec = pad(String(d.getSeconds()), 2);
	return year + month + day + hour + min + sec + 'Z';
    };

    this.zeroPadding = function(s, len) {
	if (s.length >= len) return s;
	return new Array(len - s.length + 1).join('0') + s;
    };

    // --- PUBLIC METHODS --------------------
    /**
     * get string value of this string object
     * @name getString
     * @memberOf KJUR.asn1.DERAbstractTime
     * @function
     * @return {String} string value of this time object
     */
    this.getString = function() {
	return this.s;
    };

    /**
     * set value by a string
     * @name setString
     * @memberOf KJUR.asn1.DERAbstractTime
     * @function
     * @param {String} newS value by a string to set such like "130430235959Z"
     */
    this.setString = function(newS) {
	this.hTLV = null;
	this.isModified = true;
	this.s = newS;
	this.hV = stohex(this.s);
    };

    /**
     * set value by a Date object
     * @name setByDateValue
     * @memberOf KJUR.asn1.DERAbstractTime
     * @function
     * @param {Integer} year year of date (ex. 2013)
     * @param {Integer} month month of date between 1 and 12 (ex. 12)
     * @param {Integer} day day of month
     * @param {Integer} hour hours of date
     * @param {Integer} min minutes of date
     * @param {Integer} sec seconds of date
     */
    this.setByDateValue = function(year, month, day, hour, min, sec) {
	var dateObject = new Date(Date.UTC(year, month - 1, day, hour, min, sec, 0));
	this.setByDate(dateObject);
    };

    this.getFreshValueHex = function() {
	return this.hV;
    };
};
JSX.extend(KJUR.asn1.DERAbstractTime, KJUR.asn1.ASN1Object);
// == END   DERAbstractTime ==================================================

// == BEGIN DERAbstractStructured ============================================
/**
 * base class for ASN.1 DER structured class
 * @name KJUR.asn1.DERAbstractStructured
 * @class base class for ASN.1 DER structured class
 * @property {Array} asn1Array internal array of ASN1Object
 * @extends KJUR.asn1.ASN1Object
 * @description
 * @see KJUR.asn1.ASN1Object - superclass
 */
KJUR.asn1.DERAbstractStructured = function(params) {
    KJUR.asn1.DERAbstractString.superclass.constructor.call(this);
    var asn1Array = null;

    /**
     * set value by array of ASN1Object
     * @name setByASN1ObjectArray
     * @memberOf KJUR.asn1.DERAbstractStructured
     * @function
     * @param {array} asn1ObjectArray array of ASN1Object to set
     */
    this.setByASN1ObjectArray = function(asn1ObjectArray) {
	this.hTLV = null;
	this.isModified = true;
	this.asn1Array = asn1ObjectArray;
    };

    /**
     * append an ASN1Object to internal array
     * @name appendASN1Object
     * @memberOf KJUR.asn1.DERAbstractStructured
     * @function
     * @param {ASN1Object} asn1Object to add
     */
    this.appendASN1Object = function(asn1Object) {
	this.hTLV = null;
	this.isModified = true;
	this.asn1Array.push(asn1Object);
    };

    this.asn1Array = new Array();
    if (typeof params != "undefined") {
	if (typeof params['array'] != "undefined") {
	    this.asn1Array = params['array'];
	}
    }
};
JSX.extend(KJUR.asn1.DERAbstractStructured, KJUR.asn1.ASN1Object);


// ********************************************************************
//  ASN.1 Object Classes
// ********************************************************************

// ********************************************************************
/**
 * class for ASN.1 DER Boolean
 * @name KJUR.asn1.DERBoolean
 * @class class for ASN.1 DER Boolean
 * @extends KJUR.asn1.ASN1Object
 * @description
 * @see KJUR.asn1.ASN1Object - superclass
 */
KJUR.asn1.DERBoolean = function() {
    KJUR.asn1.DERBoolean.superclass.constructor.call(this);
    this.hT = "01";
    this.hTLV = "0101ff";
};
JSX.extend(KJUR.asn1.DERBoolean, KJUR.asn1.ASN1Object);

// ********************************************************************
/**
 * class for ASN.1 DER Integer
 * @name KJUR.asn1.DERInteger
 * @class class for ASN.1 DER Integer
 * @extends KJUR.asn1.ASN1Object
 * @description
 * <br/>
 * As for argument 'params' for constructor, you can specify one of
 * following properties:
 * <ul>
 * <li>int - specify initial ASN.1 value(V) by integer value</li>
 * <li>bigint - specify initial ASN.1 value(V) by BigInteger object</li>
 * <li>hex - specify initial ASN.1 value(V) by a hexadecimal string</li>
 * </ul>
 * NOTE: 'params' can be omitted.
 */
KJUR.asn1.DERInteger = function(params) {
    KJUR.asn1.DERInteger.superclass.constructor.call(this);
    this.hT = "02";

    /**
     * set value by Tom Wu's BigInteger object
     * @name setByBigInteger
     * @memberOf KJUR.asn1.DERInteger
     * @function
     * @param {BigInteger} bigIntegerValue to set
     */
    this.setByBigInteger = function(bigIntegerValue) {
	this.hTLV = null;
	this.isModified = true;
	this.hV = KJUR.asn1.ASN1Util.bigIntToMinTwosComplementsHex(bigIntegerValue);
    };

    /**
     * set value by integer value
     * @name setByInteger
     * @memberOf KJUR.asn1.DERInteger
     * @function
     * @param {Integer} integer value to set
     */
    this.setByInteger = function(intValue) {
	var bi = new BigInteger(String(intValue), 10);
	this.setByBigInteger(bi);
    };

    /**
     * set value by integer value
     * @name setValueHex
     * @memberOf KJUR.asn1.DERInteger
     * @function
     * @param {String} hexadecimal string of integer value
     * @description
     * <br/>
     * NOTE: Value shall be represented by minimum octet length of
     * two's complement representation.
     */
    this.setValueHex = function(newHexString) {
	this.hV = newHexString;
    };

    this.getFreshValueHex = function() {
	return this.hV;
    };

    if (typeof params != "undefined") {
	if (typeof params['bigint'] != "undefined") {
	    this.setByBigInteger(params['bigint']);
	} else if (typeof params['int'] != "undefined") {
	    this.setByInteger(params['int']);
	} else if (typeof params['hex'] != "undefined") {
	    this.setValueHex(params['hex']);
	}
    }
};
JSX.extend(KJUR.asn1.DERInteger, KJUR.asn1.ASN1Object);

// ********************************************************************
/**
 * class for ASN.1 DER encoded BitString primitive
 * @name KJUR.asn1.DERBitString
 * @class class for ASN.1 DER encoded BitString primitive
 * @extends KJUR.asn1.ASN1Object
 * @description 
 * <br/>
 * As for argument 'params' for constructor, you can specify one of
 * following properties:
 * <ul>
 * <li>bin - specify binary string (ex. '10111')</li>
 * <li>array - specify array of boolean (ex. [true,false,true,true])</li>
 * <li>hex - specify hexadecimal string of ASN.1 value(V) including unused bits</li>
 * </ul>
 * NOTE: 'params' can be omitted.
 */
KJUR.asn1.DERBitString = function(params) {
    KJUR.asn1.DERBitString.superclass.constructor.call(this);
    this.hT = "03";

    /**
     * set ASN.1 value(V) by a hexadecimal string including unused bits
     * @name setHexValueIncludingUnusedBits
     * @memberOf KJUR.asn1.DERBitString
     * @function
     * @param {String} newHexStringIncludingUnusedBits
     */
    this.setHexValueIncludingUnusedBits = function(newHexStringIncludingUnusedBits) {
	this.hTLV = null;
	this.isModified = true;
	this.hV = newHexStringIncludingUnusedBits;
    };

    /**
     * set ASN.1 value(V) by unused bit and hexadecimal string of value
     * @name setUnusedBitsAndHexValue
     * @memberOf KJUR.asn1.DERBitString
     * @function
     * @param {Integer} unusedBits
     * @param {String} hValue
     */
    this.setUnusedBitsAndHexValue = function(unusedBits, hValue) {
	if (unusedBits < 0 || 7 < unusedBits) {
	    throw "unused bits shall be from 0 to 7: u = " + unusedBits;
	}
	var hUnusedBits = "0" + unusedBits;
	this.hTLV = null;
	this.isModified = true;
	this.hV = hUnusedBits + hValue;
    };

    /**
     * set ASN.1 DER BitString by binary string
     * @name setByBinaryString
     * @memberOf KJUR.asn1.DERBitString
     * @function
     * @param {String} binaryString binary value string (i.e. '10111')
     * @description
     * Its unused bits will be calculated automatically by length of 
     * 'binaryValue'. <br/>
     * NOTE: Trailing zeros '0' will be ignored.
     */
    this.setByBinaryString = function(binaryString) {
	binaryString = binaryString.replace(/0+$/, '');
	var unusedBits = 8 - binaryString.length % 8;
	if (unusedBits == 8) unusedBits = 0;
	for (var i = 0; i <= unusedBits; i++) {
	    binaryString += '0';
	}
	var h = '';
	for (var i = 0; i < binaryString.length - 1; i += 8) {
	    var b = binaryString.substr(i, 8);
	    var x = parseInt(b, 2).toString(16);
	    if (x.length == 1) x = '0' + x;
	    h += x;  
	}
	this.hTLV = null;
	this.isModified = true;
	this.hV = '0' + unusedBits + h;
    };

    /**
     * set ASN.1 TLV value(V) by an array of boolean
     * @name setByBooleanArray
     * @memberOf KJUR.asn1.DERBitString
     * @function
     * @param {array} booleanArray array of boolean (ex. [true, false, true])
     * @description
     * NOTE: Trailing falses will be ignored.
     */
    this.setByBooleanArray = function(booleanArray) {
	var s = '';
	for (var i = 0; i < booleanArray.length; i++) {
	    if (booleanArray[i] == true) {
		s += '1';
	    } else {
		s += '0';
	    }
	}
	this.setByBinaryString(s);
    };

    /**
     * generate an array of false with specified length
     * @name newFalseArray
     * @memberOf KJUR.asn1.DERBitString
     * @function
     * @param {Integer} nLength length of array to generate
     * @return {array} array of boolean faluse
     * @description
     * This static method may be useful to initialize boolean array.
     */
    this.newFalseArray = function(nLength) {
	var a = new Array(nLength);
	for (var i = 0; i < nLength; i++) {
	    a[i] = false;
	}
	return a;
    };

    this.getFreshValueHex = function() {
	return this.hV;
    };

    if (typeof params != "undefined") {
	if (typeof params['hex'] != "undefined") {
	    this.setHexValueIncludingUnusedBits(params['hex']);
	} else if (typeof params['bin'] != "undefined") {
	    this.setByBinaryString(params['bin']);
	} else if (typeof params['array'] != "undefined") {
	    this.setByBooleanArray(params['array']);
	}
    }
};
JSX.extend(KJUR.asn1.DERBitString, KJUR.asn1.ASN1Object);

// ********************************************************************
/**
 * class for ASN.1 DER OctetString
 * @name KJUR.asn1.DEROctetString
 * @class class for ASN.1 DER OctetString
 * @param {Array} params associative array of parameters (ex. {'str': 'aaa'})
 * @extends KJUR.asn1.DERAbstractString
 * @description
 * @see KJUR.asn1.DERAbstractString - superclass
 */
KJUR.asn1.DEROctetString = function(params) {
    KJUR.asn1.DEROctetString.superclass.constructor.call(this, params);
    this.hT = "04";
};
JSX.extend(KJUR.asn1.DEROctetString, KJUR.asn1.DERAbstractString);

// ********************************************************************
/**
 * class for ASN.1 DER Null
 * @name KJUR.asn1.DERNull
 * @class class for ASN.1 DER Null
 * @extends KJUR.asn1.ASN1Object
 * @description
 * @see KJUR.asn1.ASN1Object - superclass
 */
KJUR.asn1.DERNull = function() {
    KJUR.asn1.DERNull.superclass.constructor.call(this);
    this.hT = "05";
    this.hTLV = "0500";
};
JSX.extend(KJUR.asn1.DERNull, KJUR.asn1.ASN1Object);

// ********************************************************************
/**
 * class for ASN.1 DER ObjectIdentifier
 * @name KJUR.asn1.DERObjectIdentifier
 * @class class for ASN.1 DER ObjectIdentifier
 * @param {Array} params associative array of parameters (ex. {'oid': '2.5.4.5'})
 * @extends KJUR.asn1.ASN1Object
 * @description
 * <br/>
 * As for argument 'params' for constructor, you can specify one of
 * following properties:
 * <ul>
 * <li>oid - specify initial ASN.1 value(V) by a oid string (ex. 2.5.4.13)</li>
 * <li>hex - specify initial ASN.1 value(V) by a hexadecimal string</li>
 * </ul>
 * NOTE: 'params' can be omitted.
 */
KJUR.asn1.DERObjectIdentifier = function(params) {
    var itox = function(i) {
	var h = i.toString(16);
	if (h.length == 1) h = '0' + h;
	return h;
    };
    var roidtox = function(roid) {
	var h = '';
	var bi = new BigInteger(roid, 10);
	var b = bi.toString(2);
	var padLen = 7 - b.length % 7;
	if (padLen == 7) padLen = 0;
	var bPad = '';
	for (var i = 0; i < padLen; i++) bPad += '0';
	b = bPad + b;
	for (var i = 0; i < b.length - 1; i += 7) {
	    var b8 = b.substr(i, 7);
	    if (i != b.length - 7) b8 = '1' + b8;
	    h += itox(parseInt(b8, 2));
	}
	return h;
    }

    KJUR.asn1.DERObjectIdentifier.superclass.constructor.call(this);
    this.hT = "06";

    /**
     * set value by a hexadecimal string
     * @name setValueHex
     * @memberOf KJUR.asn1.DERObjectIdentifier
     * @function
     * @param {String} newHexString hexadecimal value of OID bytes
     */
    this.setValueHex = function(newHexString) {
	this.hTLV = null;
	this.isModified = true;
	this.s = null;
	this.hV = newHexString;
    };

    /**
     * set value by a OID string
     * @name setValueOidString
     * @memberOf KJUR.asn1.DERObjectIdentifier
     * @function
     * @param {String} oidString OID string (ex. 2.5.4.13)
     */
    this.setValueOidString = function(oidString) {
	if (! oidString.match(/^[0-9.]+$/)) {
	    throw "malformed oid string: " + oidString;
	}
	var h = '';
	var a = oidString.split('.');
	var i0 = parseInt(a[0]) * 40 + parseInt(a[1]);
	h += itox(i0);
	a.splice(0, 2);
	for (var i = 0; i < a.length; i++) {
	    h += roidtox(a[i]);
	}
	this.hTLV = null;
	this.isModified = true;
	this.s = null;
	this.hV = h;
    };

    /**
     * set value by a OID name
     * @name setValueName
     * @memberOf KJUR.asn1.DERObjectIdentifier
     * @function
     * @param {String} oidName OID name (ex. 'serverAuth')
     * @since 1.0.1
     * @description
     * OID name shall be defined in 'KJUR.asn1.x509.OID.name2oidList'.
     * Otherwise raise error.
     */
    this.setValueName = function(oidName) {
	if (typeof KJUR.asn1.x509.OID.name2oidList[oidName] != "undefined") {
	    var oid = KJUR.asn1.x509.OID.name2oidList[oidName];
	    this.setValueOidString(oid);
	} else {
	    throw "DERObjectIdentifier oidName undefined: " + oidName;
	}
    };

    this.getFreshValueHex = function() {
	return this.hV;
    };

    if (typeof params != "undefined") {
	if (typeof params['oid'] != "undefined") {
	    this.setValueOidString(params['oid']);
	} else if (typeof params['hex'] != "undefined") {
	    this.setValueHex(params['hex']);
	} else if (typeof params['name'] != "undefined") {
	    this.setValueName(params['name']);
	}
    }
};
JSX.extend(KJUR.asn1.DERObjectIdentifier, KJUR.asn1.ASN1Object);

// ********************************************************************
/**
 * class for ASN.1 DER UTF8String
 * @name KJUR.asn1.DERUTF8String
 * @class class for ASN.1 DER UTF8String
 * @param {Array} params associative array of parameters (ex. {'str': 'aaa'})
 * @extends KJUR.asn1.DERAbstractString
 * @description
 * @see KJUR.asn1.DERAbstractString - superclass
 */
KJUR.asn1.DERUTF8String = function(params) {
    KJUR.asn1.DERUTF8String.superclass.constructor.call(this, params);
    this.hT = "0c";
};
JSX.extend(KJUR.asn1.DERUTF8String, KJUR.asn1.DERAbstractString);

// ********************************************************************
/**
 * class for ASN.1 DER NumericString
 * @name KJUR.asn1.DERNumericString
 * @class class for ASN.1 DER NumericString
 * @param {Array} params associative array of parameters (ex. {'str': 'aaa'})
 * @extends KJUR.asn1.DERAbstractString
 * @description
 * @see KJUR.asn1.DERAbstractString - superclass
 */
KJUR.asn1.DERNumericString = function(params) {
    KJUR.asn1.DERNumericString.superclass.constructor.call(this, params);
    this.hT = "12";
};
JSX.extend(KJUR.asn1.DERNumericString, KJUR.asn1.DERAbstractString);

// ********************************************************************
/**
 * class for ASN.1 DER PrintableString
 * @name KJUR.asn1.DERPrintableString
 * @class class for ASN.1 DER PrintableString
 * @param {Array} params associative array of parameters (ex. {'str': 'aaa'})
 * @extends KJUR.asn1.DERAbstractString
 * @description
 * @see KJUR.asn1.DERAbstractString - superclass
 */
KJUR.asn1.DERPrintableString = function(params) {
    KJUR.asn1.DERPrintableString.superclass.constructor.call(this, params);
    this.hT = "13";
};
JSX.extend(KJUR.asn1.DERPrintableString, KJUR.asn1.DERAbstractString);

// ********************************************************************
/**
 * class for ASN.1 DER TeletexString
 * @name KJUR.asn1.DERTeletexString
 * @class class for ASN.1 DER TeletexString
 * @param {Array} params associative array of parameters (ex. {'str': 'aaa'})
 * @extends KJUR.asn1.DERAbstractString
 * @description
 * @see KJUR.asn1.DERAbstractString - superclass
 */
KJUR.asn1.DERTeletexString = function(params) {
    KJUR.asn1.DERTeletexString.superclass.constructor.call(this, params);
    this.hT = "14";
};
JSX.extend(KJUR.asn1.DERTeletexString, KJUR.asn1.DERAbstractString);

// ********************************************************************
/**
 * class for ASN.1 DER IA5String
 * @name KJUR.asn1.DERIA5String
 * @class class for ASN.1 DER IA5String
 * @param {Array} params associative array of parameters (ex. {'str': 'aaa'})
 * @extends KJUR.asn1.DERAbstractString
 * @description
 * @see KJUR.asn1.DERAbstractString - superclass
 */
KJUR.asn1.DERIA5String = function(params) {
    KJUR.asn1.DERIA5String.superclass.constructor.call(this, params);
    this.hT = "16";
};
JSX.extend(KJUR.asn1.DERIA5String, KJUR.asn1.DERAbstractString);

// ********************************************************************
/**
 * class for ASN.1 DER UTCTime
 * @name KJUR.asn1.DERUTCTime
 * @class class for ASN.1 DER UTCTime
 * @param {Array} params associative array of parameters (ex. {'str': '130430235959Z'})
 * @extends KJUR.asn1.DERAbstractTime
 * @description
 * <br/>
 * As for argument 'params' for constructor, you can specify one of
 * following properties:
 * <ul>
 * <li>str - specify initial ASN.1 value(V) by a string (ex.'130430235959Z')</li>
 * <li>hex - specify initial ASN.1 value(V) by a hexadecimal string</li>
 * <li>date - specify Date object.</li>
 * </ul>
 * NOTE: 'params' can be omitted.
 * <h4>EXAMPLES</h4>
 * @example
 * var d1 = new KJUR.asn1.DERUTCTime();
 * d1.setString('130430125959Z');
 *
 * var d2 = new KJUR.asn1.DERUTCTime({'str': '130430125959Z'});
 *
 * var d3 = new KJUR.asn1.DERUTCTime({'date': new Date(Date.UTC(2015, 0, 31, 0, 0, 0, 0))});
 */
KJUR.asn1.DERUTCTime = function(params) {
    KJUR.asn1.DERUTCTime.superclass.constructor.call(this, params);
    this.hT = "17";

    /**
     * set value by a Date object
     * @name setByDate
     * @memberOf KJUR.asn1.DERUTCTime
     * @function
     * @param {Date} dateObject Date object to set ASN.1 value(V)
     */
    this.setByDate = function(dateObject) {
	this.hTLV = null;
	this.isModified = true;
	this.date = dateObject;
	this.s = this.formatDate(this.date, 'utc');
	this.hV = stohex(this.s);
    };

    if (typeof params != "undefined") {
	if (typeof params['str'] != "undefined") {
	    this.setString(params['str']);
	} else if (typeof params['hex'] != "undefined") {
	    this.setStringHex(params['hex']);
	} else if (typeof params['date'] != "undefined") {
	    this.setByDate(params['date']);
	}
    }
};
JSX.extend(KJUR.asn1.DERUTCTime, KJUR.asn1.DERAbstractTime);

// ********************************************************************
/**
 * class for ASN.1 DER GeneralizedTime
 * @name KJUR.asn1.DERGeneralizedTime
 * @class class for ASN.1 DER GeneralizedTime
 * @param {Array} params associative array of parameters (ex. {'str': '20130430235959Z'})
 * @extends KJUR.asn1.DERAbstractTime
 * @description
 * <br/>
 * As for argument 'params' for constructor, you can specify one of
 * following properties:
 * <ul>
 * <li>str - specify initial ASN.1 value(V) by a string (ex.'20130430235959Z')</li>
 * <li>hex - specify initial ASN.1 value(V) by a hexadecimal string</li>
 * <li>date - specify Date object.</li>
 * </ul>
 * NOTE: 'params' can be omitted.
 */
KJUR.asn1.DERGeneralizedTime = function(params) {
    KJUR.asn1.DERGeneralizedTime.superclass.constructor.call(this, params);
    this.hT = "18";

    /**
     * set value by a Date object
     * @name setByDate
     * @memberOf KJUR.asn1.DERGeneralizedTime
     * @function
     * @param {Date} dateObject Date object to set ASN.1 value(V)
     * @example
     * When you specify UTC time, use 'Date.UTC' method like this:<br/>
     * var o = new DERUTCTime();
     * var date = new Date(Date.UTC(2015, 0, 31, 23, 59, 59, 0)); #2015JAN31 23:59:59
     * o.setByDate(date);
     */
    this.setByDate = function(dateObject) {
	this.hTLV = null;
	this.isModified = true;
	this.date = dateObject;
	this.s = this.formatDate(this.date, 'gen');
	this.hV = stohex(this.s);
    };

    if (typeof params != "undefined") {
	if (typeof params['str'] != "undefined") {
	    this.setString(params['str']);
	} else if (typeof params['hex'] != "undefined") {
	    this.setStringHex(params['hex']);
	} else if (typeof params['date'] != "undefined") {
	    this.setByDate(params['date']);
	}
    }
};
JSX.extend(KJUR.asn1.DERGeneralizedTime, KJUR.asn1.DERAbstractTime);

// ********************************************************************
/**
 * class for ASN.1 DER Sequence
 * @name KJUR.asn1.DERSequence
 * @class class for ASN.1 DER Sequence
 * @extends KJUR.asn1.DERAbstractStructured
 * @description
 * <br/>
 * As for argument 'params' for constructor, you can specify one of
 * following properties:
 * <ul>
 * <li>array - specify array of ASN1Object to set elements of content</li>
 * </ul>
 * NOTE: 'params' can be omitted.
 */
KJUR.asn1.DERSequence = function(params) {
    KJUR.asn1.DERSequence.superclass.constructor.call(this, params);
    this.hT = "30";
    this.getFreshValueHex = function() {
	var h = '';
	for (var i = 0; i < this.asn1Array.length; i++) {
	    var asn1Obj = this.asn1Array[i];
	    h += asn1Obj.getEncodedHex();
	}
	this.hV = h;
	return this.hV;
    };
};
JSX.extend(KJUR.asn1.DERSequence, KJUR.asn1.DERAbstractStructured);

// ********************************************************************
/**
 * class for ASN.1 DER Set
 * @name KJUR.asn1.DERSet
 * @class class for ASN.1 DER Set
 * @extends KJUR.asn1.DERAbstractStructured
 * @description
 * <br/>
 * As for argument 'params' for constructor, you can specify one of
 * following properties:
 * <ul>
 * <li>array - specify array of ASN1Object to set elements of content</li>
 * </ul>
 * NOTE: 'params' can be omitted.
 */
KJUR.asn1.DERSet = function(params) {
    KJUR.asn1.DERSet.superclass.constructor.call(this, params);
    this.hT = "31";
    this.getFreshValueHex = function() {
	var a = new Array();
	for (var i = 0; i < this.asn1Array.length; i++) {
	    var asn1Obj = this.asn1Array[i];
	    a.push(asn1Obj.getEncodedHex());
	}
	a.sort();
	this.hV = a.join('');
	return this.hV;
    };
};
JSX.extend(KJUR.asn1.DERSet, KJUR.asn1.DERAbstractStructured);

// ********************************************************************
/**
 * class for ASN.1 DER TaggedObject
 * @name KJUR.asn1.DERTaggedObject
 * @class class for ASN.1 DER TaggedObject
 * @extends KJUR.asn1.ASN1Object
 * @description
 * <br/>
 * Parameter 'tagNoNex' is ASN.1 tag(T) value for this object.
 * For example, if you find '[1]' tag in a ASN.1 dump, 
 * 'tagNoHex' will be 'a1'.
 * <br/>
 * As for optional argument 'params' for constructor, you can specify *ANY* of
 * following properties:
 * <ul>
 * <li>explicit - specify true if this is explicit tag otherwise false 
 *     (default is 'true').</li>
 * <li>tag - specify tag (default is 'a0' which means [0])</li>
 * <li>obj - specify ASN1Object which is tagged</li>
 * </ul>
 * @example
 * d1 = new KJUR.asn1.DERUTF8String({'str':'a'});
 * d2 = new KJUR.asn1.DERTaggedObject({'obj': d1});
 * hex = d2.getEncodedHex();
 */
KJUR.asn1.DERTaggedObject = function(params) {
    KJUR.asn1.DERTaggedObject.superclass.constructor.call(this);
    this.hT = "a0";
    this.hV = '';
    this.isExplicit = true;
    this.asn1Object = null;

    /**
     * set value by an ASN1Object
     * @name setString
     * @memberOf KJUR.asn1.DERTaggedObject
     * @function
     * @param {Boolean} isExplicitFlag flag for explicit/implicit tag
     * @param {Integer} tagNoHex hexadecimal string of ASN.1 tag
     * @param {ASN1Object} asn1Object ASN.1 to encapsulate
     */
    this.setASN1Object = function(isExplicitFlag, tagNoHex, asn1Object) {
	this.hT = tagNoHex;
	this.isExplicit = isExplicitFlag;
	this.asn1Object = asn1Object;
	if (this.isExplicit) {
	    this.hV = this.asn1Object.getEncodedHex();
	    this.hTLV = null;
	    this.isModified = true;
	} else {
	    this.hV = null;
	    this.hTLV = asn1Object.getEncodedHex();
	    this.hTLV = this.hTLV.replace(/^../, tagNoHex);
	    this.isModified = false;
	}
    };

    this.getFreshValueHex = function() {
	return this.hV;
    };

    if (typeof params != "undefined") {
	if (typeof params['tag'] != "undefined") {
	    this.hT = params['tag'];
	}
	if (typeof params['explicit'] != "undefined") {
	    this.isExplicit = params['explicit'];
	}
	if (typeof params['obj'] != "undefined") {
	    this.asn1Object = params['obj'];
	    this.setASN1Object(this.isExplicit, this.hT, this.asn1Object);
	}
    }
};
JSX.extend(KJUR.asn1.DERTaggedObject, KJUR.asn1.ASN1Object);// Hex JavaScript decoder
// Copyright (c) 2008-2013 Lapo Luchini <lapo@lapo.it>

// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice appear in all copies.
// 
// THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
// WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
// ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
// WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
// ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
// OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

/*jshint browser: true, strict: true, immed: true, latedef: true, undef: true, regexdash: false */
(function (undefined) {
"use strict";

var Hex = {},
    decoder;

Hex.decode = function(a) {
    var i;
    if (decoder === undefined) {
        var hex = "0123456789ABCDEF",
            ignore = " \f\n\r\t\u00A0\u2028\u2029";
        decoder = [];
        for (i = 0; i < 16; ++i)
            decoder[hex.charAt(i)] = i;
        hex = hex.toLowerCase();
        for (i = 10; i < 16; ++i)
            decoder[hex.charAt(i)] = i;
        for (i = 0; i < ignore.length; ++i)
            decoder[ignore.charAt(i)] = -1;
    }
    var out = [],
        bits = 0,
        char_count = 0;
    for (i = 0; i < a.length; ++i) {
        var c = a.charAt(i);
        if (c == '=')
            break;
        c = decoder[c];
        if (c == -1)
            continue;
        if (c === undefined)
            throw 'Illegal character at offset ' + i;
        bits |= c;
        if (++char_count >= 2) {
            out[out.length] = bits;
            bits = 0;
            char_count = 0;
        } else {
            bits <<= 4;
        }
    }
    if (char_count)
        throw "Hex encoding incomplete: 4 bits missing";
    return out;
};

// export globals
window.Hex = Hex;
})();// Base64 JavaScript decoder
// Copyright (c) 2008-2013 Lapo Luchini <lapo@lapo.it>

// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice appear in all copies.
// 
// THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
// WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
// ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
// WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
// ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
// OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

/*jshint browser: true, strict: true, immed: true, latedef: true, undef: true, regexdash: false */
(function (undefined) {
"use strict";

var Base64 = {},
    decoder;

Base64.decode = function (a) {
    var i;
    if (decoder === undefined) {
        var b64 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/",
            ignore = "= \f\n\r\t\u00A0\u2028\u2029";
        decoder = [];
        for (i = 0; i < 64; ++i)
            decoder[b64.charAt(i)] = i;
        for (i = 0; i < ignore.length; ++i)
            decoder[ignore.charAt(i)] = -1;
    }
    var out = [];
    var bits = 0, char_count = 0;
    for (i = 0; i < a.length; ++i) {
        var c = a.charAt(i);
        if (c == '=')
            break;
        c = decoder[c];
        if (c == -1)
            continue;
        if (c === undefined)
            throw 'Illegal character at offset ' + i;
        bits |= c;
        if (++char_count >= 4) {
            out[out.length] = (bits >> 16);
            out[out.length] = (bits >> 8) & 0xFF;
            out[out.length] = bits & 0xFF;
            bits = 0;
            char_count = 0;
        } else {
            bits <<= 6;
        }
    }
    switch (char_count) {
      case 1:
        throw "Base64 encoding incomplete: at least 2 bits missing";
      case 2:
        out[out.length] = (bits >> 10);
        break;
      case 3:
        out[out.length] = (bits >> 16);
        out[out.length] = (bits >> 8) & 0xFF;
        break;
    }
    return out;
};

Base64.re = /-----BEGIN [^-]+-----([A-Za-z0-9+\/=\s]+)-----END [^-]+-----|begin-base64[^\n]+\n([A-Za-z0-9+\/=\s]+)====/;
Base64.unarmor = function (a) {
    var m = Base64.re.exec(a);
    if (m) {
        if (m[1])
            a = m[1];
        else if (m[2])
            a = m[2];
        else
            throw "RegExp out of sync";
    }
    return Base64.decode(a);
};

// export globals
window.Base64 = Base64;
})();// ASN.1 JavaScript decoder
// Copyright (c) 2008-2013 Lapo Luchini <lapo@lapo.it>

// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice appear in all copies.
// 
// THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
// WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
// ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
// WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
// ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
// OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

/*jshint browser: true, strict: true, immed: true, latedef: true, undef: true, regexdash: false */
/*global oids */
(function (undefined) {
"use strict";

var hardLimit = 100,
    ellipsis = "\u2026",
    DOM = {
        tag: function (tagName, className) {
            var t = document.createElement(tagName);
            t.className = className;
            return t;
        },
        text: function (str) {
            return document.createTextNode(str);
        }
    };

function Stream(enc, pos) {
    if (enc instanceof Stream) {
        this.enc = enc.enc;
        this.pos = enc.pos;
    } else {
        this.enc = enc;
        this.pos = pos;
    }
}
Stream.prototype.get = function (pos) {
    if (pos === undefined)
        pos = this.pos++;
    if (pos >= this.enc.length)
        throw 'Requesting byte offset ' + pos + ' on a stream of length ' + this.enc.length;
    return this.enc[pos];
};
Stream.prototype.hexDigits = "0123456789ABCDEF";
Stream.prototype.hexByte = function (b) {
    return this.hexDigits.charAt((b >> 4) & 0xF) + this.hexDigits.charAt(b & 0xF);
};
Stream.prototype.hexDump = function (start, end, raw) {
    var s = "";
    for (var i = start; i < end; ++i) {
        s += this.hexByte(this.get(i));
        if (raw !== true)
            switch (i & 0xF) {
            case 0x7: s += "  "; break;
            case 0xF: s += "\n"; break;
            default:  s += " ";
            }
    }
    return s;
};
Stream.prototype.parseStringISO = function (start, end) {
    var s = "";
    for (var i = start; i < end; ++i)
        s += String.fromCharCode(this.get(i));
    return s;
};
Stream.prototype.parseStringUTF = function (start, end) {
    var s = "";
    for (var i = start; i < end; ) {
        var c = this.get(i++);
        if (c < 128)
            s += String.fromCharCode(c);
        else if ((c > 191) && (c < 224))
            s += String.fromCharCode(((c & 0x1F) << 6) | (this.get(i++) & 0x3F));
        else
            s += String.fromCharCode(((c & 0x0F) << 12) | ((this.get(i++) & 0x3F) << 6) | (this.get(i++) & 0x3F));
    }
    return s;
};
Stream.prototype.parseStringBMP = function (start, end) {
    var str = ""
    for (var i = start; i < end; i += 2) {
        var high_byte = this.get(i);
        var low_byte = this.get(i + 1);
        str += String.fromCharCode( (high_byte << 8) + low_byte );
    }

    return str;
};
Stream.prototype.reTime = /^((?:1[89]|2\d)?\d\d)(0[1-9]|1[0-2])(0[1-9]|[12]\d|3[01])([01]\d|2[0-3])(?:([0-5]\d)(?:([0-5]\d)(?:[.,](\d{1,3}))?)?)?(Z|[-+](?:[0]\d|1[0-2])([0-5]\d)?)?$/;
Stream.prototype.parseTime = function (start, end) {
    var s = this.parseStringISO(start, end),
        m = this.reTime.exec(s);
    if (!m)
        return "Unrecognized time: " + s;
    s = m[1] + "-" + m[2] + "-" + m[3] + " " + m[4];
    if (m[5]) {
        s += ":" + m[5];
        if (m[6]) {
            s += ":" + m[6];
            if (m[7])
                s += "." + m[7];
        }
    }
    if (m[8]) {
        s += " UTC";
        if (m[8] != 'Z') {
            s += m[8];
            if (m[9])
                s += ":" + m[9];
        }
    }
    return s;
};
Stream.prototype.parseInteger = function (start, end) {
    //TODO support negative numbers
    var len = end - start;
    if (len > 4) {
        len <<= 3;
        var s = this.get(start);
        if (s === 0)
            len -= 8;
        else
            while (s < 128) {
                s <<= 1;
                --len;
            }
        return "(" + len + " bit)";
    }
    var n = 0;
    for (var i = start; i < end; ++i)
        n = (n << 8) | this.get(i);
    return n;
};
Stream.prototype.parseBitString = function (start, end) {
    var unusedBit = this.get(start),
        lenBit = ((end - start - 1) << 3) - unusedBit,
        s = "(" + lenBit + " bit)";
    if (lenBit <= 20) {
        var skip = unusedBit;
        s += " ";
        for (var i = end - 1; i > start; --i) {
            var b = this.get(i);
            for (var j = skip; j < 8; ++j)
                s += (b >> j) & 1 ? "1" : "0";
            skip = 0;
        }
    }
    return s;
};
Stream.prototype.parseOctetString = function (start, end) {
    var len = end - start,
        s = "(" + len + " byte) ";
    if (len > hardLimit)
        end = start + hardLimit;
    for (var i = start; i < end; ++i)
        s += this.hexByte(this.get(i)); //TODO: also try Latin1?
    if (len > hardLimit)
        s += ellipsis;
    return s;
};
Stream.prototype.parseOID = function (start, end) {
    var s = '',
        n = 0,
        bits = 0;
    for (var i = start; i < end; ++i) {
        var v = this.get(i);
        n = (n << 7) | (v & 0x7F);
        bits += 7;
        if (!(v & 0x80)) { // finished
            if (s === '') {
                var m = n < 80 ? n < 40 ? 0 : 1 : 2;
                s = m + "." + (n - m * 40);
            } else
                s += "." + ((bits >= 31) ? "bigint" : n);
            n = bits = 0;
        }
    }
    return s;
};

function ASN1(stream, header, length, tag, sub) {
    this.stream = stream;
    this.header = header;
    this.length = length;
    this.tag = tag;
    this.sub = sub;
}
ASN1.prototype.typeName = function () {
    if (this.tag === undefined)
        return "unknown";
    var tagClass = this.tag >> 6,
        tagConstructed = (this.tag >> 5) & 1,
        tagNumber = this.tag & 0x1F;
    switch (tagClass) {
    case 0: // universal
        switch (tagNumber) {
        case 0x00: return "EOC";
        case 0x01: return "BOOLEAN";
        case 0x02: return "INTEGER";
        case 0x03: return "BIT_STRING";
        case 0x04: return "OCTET_STRING";
        case 0x05: return "NULL";
        case 0x06: return "OBJECT_IDENTIFIER";
        case 0x07: return "ObjectDescriptor";
        case 0x08: return "EXTERNAL";
        case 0x09: return "REAL";
        case 0x0A: return "ENUMERATED";
        case 0x0B: return "EMBEDDED_PDV";
        case 0x0C: return "UTF8String";
        case 0x10: return "SEQUENCE";
        case 0x11: return "SET";
        case 0x12: return "NumericString";
        case 0x13: return "PrintableString"; // ASCII subset
        case 0x14: return "TeletexString"; // aka T61String
        case 0x15: return "VideotexString";
        case 0x16: return "IA5String"; // ASCII
        case 0x17: return "UTCTime";
        case 0x18: return "GeneralizedTime";
        case 0x19: return "GraphicString";
        case 0x1A: return "VisibleString"; // ASCII subset
        case 0x1B: return "GeneralString";
        case 0x1C: return "UniversalString";
        case 0x1E: return "BMPString";
        default:   return "Universal_" + tagNumber.toString(16);
        }
    case 1: return "Application_" + tagNumber.toString(16);
    case 2: return "[" + tagNumber + "]"; // Context
    case 3: return "Private_" + tagNumber.toString(16);
    }
};
ASN1.prototype.reSeemsASCII = /^[ -~]+$/;
ASN1.prototype.content = function () {
    if (this.tag === undefined)
        return null;
    var tagClass = this.tag >> 6,
        tagNumber = this.tag & 0x1F,
        content = this.posContent(),
        len = Math.abs(this.length);
    if (tagClass !== 0) { // universal
        if (this.sub !== null)
            return "(" + this.sub.length + " elem)";
        //TODO: TRY TO PARSE ASCII STRING
        var s = this.stream.parseStringISO(content, content + Math.min(len, hardLimit));
        if (this.reSeemsASCII.test(s))
            return s.substring(0, 2 * hardLimit) + ((s.length > 2 * hardLimit) ? ellipsis : "");
        else
            return this.stream.parseOctetString(content, content + len);
    }
    switch (tagNumber) {
    case 0x01: // BOOLEAN
        return (this.stream.get(content) === 0) ? "false" : "true";
    case 0x02: // INTEGER
        return this.stream.parseInteger(content, content + len);
    case 0x03: // BIT_STRING
        return this.sub ? "(" + this.sub.length + " elem)" :
            this.stream.parseBitString(content, content + len);
    case 0x04: // OCTET_STRING
        return this.sub ? "(" + this.sub.length + " elem)" :
            this.stream.parseOctetString(content, content + len);
    //case 0x05: // NULL
    case 0x06: // OBJECT_IDENTIFIER
        return this.stream.parseOID(content, content + len);
    //case 0x07: // ObjectDescriptor
    //case 0x08: // EXTERNAL
    //case 0x09: // REAL
    //case 0x0A: // ENUMERATED
    //case 0x0B: // EMBEDDED_PDV
    case 0x10: // SEQUENCE
    case 0x11: // SET
        return "(" + this.sub.length + " elem)";
    case 0x0C: // UTF8String
        return this.stream.parseStringUTF(content, content + len);
    case 0x12: // NumericString
    case 0x13: // PrintableString
    case 0x14: // TeletexString
    case 0x15: // VideotexString
    case 0x16: // IA5String
    //case 0x19: // GraphicString
    case 0x1A: // VisibleString
    //case 0x1B: // GeneralString
    //case 0x1C: // UniversalString
        return this.stream.parseStringISO(content, content + len);
    case 0x1E: // BMPString
        return this.stream.parseStringBMP(content, content + len);
    case 0x17: // UTCTime
    case 0x18: // GeneralizedTime
        return this.stream.parseTime(content, content + len);
    }
    return null;
};
ASN1.prototype.toString = function () {
    return this.typeName() + "@" + this.stream.pos + "[header:" + this.header + ",length:" + this.length + ",sub:" + ((this.sub === null) ? 'null' : this.sub.length) + "]";
};
ASN1.prototype.print = function (indent) {
    if (indent === undefined) indent = '';
    document.writeln(indent + this);
    if (this.sub !== null) {
        indent += '  ';
        for (var i = 0, max = this.sub.length; i < max; ++i)
            this.sub[i].print(indent);
    }
};
ASN1.prototype.toPrettyString = function (indent) {
    if (indent === undefined) indent = '';
    var s = indent + this.typeName() + " @" + this.stream.pos;
    if (this.length >= 0)
        s += "+";
    s += this.length;
    if (this.tag & 0x20)
        s += " (constructed)";
    else if (((this.tag == 0x03) || (this.tag == 0x04)) && (this.sub !== null))
        s += " (encapsulates)";
    s += "\n";
    if (this.sub !== null) {
        indent += '  ';
        for (var i = 0, max = this.sub.length; i < max; ++i)
            s += this.sub[i].toPrettyString(indent);
    }
    return s;
};
ASN1.prototype.toDOM = function () {
    var node = DOM.tag("div", "node");
    node.asn1 = this;
    var head = DOM.tag("div", "head");
    var s = this.typeName().replace(/_/g, " ");
    head.innerHTML = s;
    var content = this.content();
    if (content !== null) {
        content = String(content).replace(/</g, "&lt;");
        var preview = DOM.tag("span", "preview");
        preview.appendChild(DOM.text(content));
        head.appendChild(preview);
    }
    node.appendChild(head);
    this.node = node;
    this.head = head;
    var value = DOM.tag("div", "value");
    s = "Offset: " + this.stream.pos + "<br/>";
    s += "Length: " + this.header + "+";
    if (this.length >= 0)
        s += this.length;
    else
        s += (-this.length) + " (undefined)";
    if (this.tag & 0x20)
        s += "<br/>(constructed)";
    else if (((this.tag == 0x03) || (this.tag == 0x04)) && (this.sub !== null))
        s += "<br/>(encapsulates)";
    //TODO if (this.tag == 0x03) s += "Unused bits: "
    if (content !== null) {
        s += "<br/>Value:<br/><b>" + content + "</b>";
        if ((typeof oids === 'object') && (this.tag == 0x06)) {
            var oid = oids[content];
            if (oid) {
                if (oid.d) s += "<br/>" + oid.d;
                if (oid.c) s += "<br/>" + oid.c;
                if (oid.w) s += "<br/>(warning!)";
            }
        }
    }
    value.innerHTML = s;
    node.appendChild(value);
    var sub = DOM.tag("div", "sub");
    if (this.sub !== null) {
        for (var i = 0, max = this.sub.length; i < max; ++i)
            sub.appendChild(this.sub[i].toDOM());
    }
    node.appendChild(sub);
    head.onclick = function () {
        node.className = (node.className == "node collapsed") ? "node" : "node collapsed";
    };
    return node;
};
ASN1.prototype.posStart = function () {
    return this.stream.pos;
};
ASN1.prototype.posContent = function () {
    return this.stream.pos + this.header;
};
ASN1.prototype.posEnd = function () {
    return this.stream.pos + this.header + Math.abs(this.length);
};
ASN1.prototype.fakeHover = function (current) {
    this.node.className += " hover";
    if (current)
        this.head.className += " hover";
};
ASN1.prototype.fakeOut = function (current) {
    var re = / ?hover/;
    this.node.className = this.node.className.replace(re, "");
    if (current)
        this.head.className = this.head.className.replace(re, "");
};
ASN1.prototype.toHexDOM_sub = function (node, className, stream, start, end) {
    if (start >= end)
        return;
    var sub = DOM.tag("span", className);
    sub.appendChild(DOM.text(
        stream.hexDump(start, end)));
    node.appendChild(sub);
};
ASN1.prototype.toHexDOM = function (root) {
    var node = DOM.tag("span", "hex");
    if (root === undefined) root = node;
    this.head.hexNode = node;
    this.head.onmouseover = function () { this.hexNode.className = "hexCurrent"; };
    this.head.onmouseout  = function () { this.hexNode.className = "hex"; };
    node.asn1 = this;
    node.onmouseover = function () {
        var current = !root.selected;
        if (current) {
            root.selected = this.asn1;
            this.className = "hexCurrent";
        }
        this.asn1.fakeHover(current);
    };
    node.onmouseout  = function () {
        var current = (root.selected == this.asn1);
        this.asn1.fakeOut(current);
        if (current) {
            root.selected = null;
            this.className = "hex";
        }
    };
    this.toHexDOM_sub(node, "tag", this.stream, this.posStart(), this.posStart() + 1);
    this.toHexDOM_sub(node, (this.length >= 0) ? "dlen" : "ulen", this.stream, this.posStart() + 1, this.posContent());
    if (this.sub === null)
        node.appendChild(DOM.text(
            this.stream.hexDump(this.posContent(), this.posEnd())));
    else if (this.sub.length > 0) {
        var first = this.sub[0];
        var last = this.sub[this.sub.length - 1];
        this.toHexDOM_sub(node, "intro", this.stream, this.posContent(), first.posStart());
        for (var i = 0, max = this.sub.length; i < max; ++i)
            node.appendChild(this.sub[i].toHexDOM(root));
        this.toHexDOM_sub(node, "outro", this.stream, last.posEnd(), this.posEnd());
    }
    return node;
};
ASN1.prototype.toHexString = function (root) {
    return this.stream.hexDump(this.posStart(), this.posEnd(), true);
};
ASN1.decodeLength = function (stream) {
    var buf = stream.get(),
        len = buf & 0x7F;
    if (len == buf)
        return len;
    if (len > 3)
        throw "Length over 24 bits not supported at position " + (stream.pos - 1);
    if (len === 0)
        return -1; // undefined
    buf = 0;
    for (var i = 0; i < len; ++i)
        buf = (buf << 8) | stream.get();
    return buf;
};
ASN1.hasContent = function (tag, len, stream) {
    if (tag & 0x20) // constructed
        return true;
    if ((tag < 0x03) || (tag > 0x04))
        return false;
    var p = new Stream(stream);
    if (tag == 0x03) p.get(); // BitString unused bits, must be in [0, 7]
    var subTag = p.get();
    if ((subTag >> 6) & 0x01) // not (universal or context)
        return false;
    try {
        var subLength = ASN1.decodeLength(p);
        return ((p.pos - stream.pos) + subLength == len);
    } catch (exception) {
        return false;
    }
};
ASN1.decode = function (stream) {
    if (!(stream instanceof Stream))
        stream = new Stream(stream, 0);
    var streamStart = new Stream(stream),
        tag = stream.get(),
        len = ASN1.decodeLength(stream),
        header = stream.pos - streamStart.pos,
        sub = null;
    if (ASN1.hasContent(tag, len, stream)) {
        // it has content, so we decode it
        var start = stream.pos;
        if (tag == 0x03) stream.get(); // skip BitString unused bits, must be in [0, 7]
        sub = [];
        if (len >= 0) {
            // definite length
            var end = start + len;
            while (stream.pos < end)
                sub[sub.length] = ASN1.decode(stream);
            if (stream.pos != end)
                throw "Content size is not correct for container starting at offset " + start;
        } else {
            // undefined length
            try {
                for (;;) {
                    var s = ASN1.decode(stream);
                    if (s.tag === 0)
                        break;
                    sub[sub.length] = s;
                }
                len = start - stream.pos;
            } catch (e) {
                throw "Exception while decoding undefined length content: " + e;
            }
        }
    } else
        stream.pos += len; // skip content
    return new ASN1(streamStart, header, len, tag, sub);
};
ASN1.test = function () {
    var test = [
        { value: [0x27],                   expected: 0x27     },
        { value: [0x81, 0xC9],             expected: 0xC9     },
        { value: [0x83, 0xFE, 0xDC, 0xBA], expected: 0xFEDCBA }
    ];
    for (var i = 0, max = test.length; i < max; ++i) {
        var pos = 0,
            stream = new Stream(test[i].value, 0),
            res = ASN1.decodeLength(stream);
        if (res != test[i].expected)
            document.write("In test[" + i + "] expected " + test[i].expected + " got " + res + "\n");
    }
};

// export globals
window.ASN1 = ASN1;
})();/**
 * Retrieve the hexadecimal value (as a string) of the current ASN.1 element
 * @returns {string}
 * @public
 */
ASN1.prototype.getHexStringValue = function(){
    var hexString = this.toHexString();
    var offset = this.header * 2;
    var length = this.length * 2;
    return hexString.substr(offset,length);
};

/**
 * Method to parse a pem encoded string containing both a public or private key.
 * The method will translate the pem encoded string in a der encoded string and
 * will parse private key and public key parameters. This method accepts public key
 * in the rsaencryption pkcs #1 format (oid: 1.2.840.113549.1.1.1). 
 * @todo Check how many rsa formats use the same format of pkcs #1. The format is defined as:
 * PublicKeyInfo ::= SEQUENCE {
 *   algorithm       AlgorithmIdentifier,
 *   PublicKey       BIT STRING
 * }
 * Where AlgorithmIdentifier is: 
 * AlgorithmIdentifier ::= SEQUENCE {
 *   algorithm       OBJECT IDENTIFIER,     the OID of the enc algorithm
 *   parameters      ANY DEFINED BY algorithm OPTIONAL (NULL for PKCS #1)
 * }
 * and PublicKey is a SEQUENCE encapsulated in a BIT STRING
 * RSAPublicKey ::= SEQUENCE {
 *   modulus           INTEGER,  -- n
 *   publicExponent    INTEGER   -- e
 * }
 * it's possible to examine the structure of the keys obtained from openssl using 
 * an asn.1 dumper as the one used here to parse the components: http://lapo.it/asn1js/
 * @argument {string} pem the pem encoded string, can include the BEGIN/END header/footer
 * @private
 */
RSAKey.prototype.parseKey = function(pem) {
    try{
        var reHex = /^\s*(?:[0-9A-Fa-f][0-9A-Fa-f]\s*)+$/;
        var der = reHex.test(pem) ? Hex.decode(pem) : Base64.unarmor(pem);
        var asn1 = ASN1.decode(der);
        if (asn1.sub.length === 9){
            // the data is a Private key
            //in order
            //Algorithm version, n, e, d, p, q, dmp1, dmq1, coeff
            //Alg version, modulus, public exponent, private exponent, prime 1, prime 2, exponent 1, exponent 2, coefficient
            var modulus = asn1.sub[1].getHexStringValue(); //bigint
            this.n = parseBigInt(modulus, 16);

            var public_exponent = asn1.sub[2].getHexStringValue(); //int
            this.e = parseInt(public_exponent, 16);

            var private_exponent = asn1.sub[3].getHexStringValue(); //bigint
            this.d = parseBigInt(private_exponent, 16);

            var prime1 = asn1.sub[4].getHexStringValue(); //bigint
            this.p = parseBigInt(prime1, 16);

            var prime2 = asn1.sub[5].getHexStringValue(); //bigint 
            this.q = parseBigInt(prime2, 16);

            var exponent1 = asn1.sub[6].getHexStringValue(); //bigint
            this.dmp1 = parseBigInt(exponent1, 16);

            var exponent2 = asn1.sub[7].getHexStringValue(); //bigint
            this.dmq1 = parseBigInt(exponent2, 16);

            var coefficient = asn1.sub[8].getHexStringValue(); //bigint
            this.coeff = parseBigInt(coefficient, 16);

        }else if (asn1.sub.length === 2){
            //Public key
            //The data PROBABLY is a public key
            var bit_string = asn1.sub[1];
            var sequence   = bit_string.sub[0];

            var modulus = sequence.sub[0].getHexStringValue();
            this.n = parseBigInt(modulus, 16);
            var public_exponent = sequence.sub[1].getHexStringValue();
            this.e = parseInt(public_exponent, 16);

        }else{
            return false;
        }
        return true;
    }catch(ex){
        return false;
    }
};

/**
 * Translate rsa parameters in a hex encoded string representing the rsa key.
 * The translation follow the ASN.1 notation :
 * RSAPrivateKey ::= SEQUENCE {
 *   version           Version,
 *   modulus           INTEGER,  -- n
 *   publicExponent    INTEGER,  -- e
 *   privateExponent   INTEGER,  -- d
 *   prime1            INTEGER,  -- p
 *   prime2            INTEGER,  -- q
 *   exponent1         INTEGER,  -- d mod (p1)
 *   exponent2         INTEGER,  -- d mod (q-1)
 *   coefficient       INTEGER,  -- (inverse of q) mod p
 * }
 * @returns {string}  DER Encoded String representing the rsa private key
 * @private
 */
RSAKey.prototype.getPrivateBaseKey = function() {
    //Algorithm version, n, e, d, p, q, dmp1, dmq1, coeff
    //Alg version, modulus, public exponent, private exponent, prime 1, prime 2, exponent 1, exponent 2, coefficient
    var options = {
        'array' : [
            new KJUR.asn1.DERInteger({'int'    : 0}),
            new KJUR.asn1.DERInteger({'bigint' : this.n}),
            new KJUR.asn1.DERInteger({'int'    : this.e}),
            new KJUR.asn1.DERInteger({'bigint' : this.d}),
            new KJUR.asn1.DERInteger({'bigint' : this.p}),
            new KJUR.asn1.DERInteger({'bigint' : this.q}),
            new KJUR.asn1.DERInteger({'bigint' : this.dmp1}),
            new KJUR.asn1.DERInteger({'bigint' : this.dmq1}),
            new KJUR.asn1.DERInteger({'bigint' : this.coeff})
        ]
    };
    var seq = new KJUR.asn1.DERSequence(options);
    return seq.getEncodedHex();
};

/**
 * base64 (pem) encoded version of the DER encoded representation
 * @returns {string} pem encoded representation without header and footer
 * @public
 */
RSAKey.prototype.getPrivateBaseKeyB64 = function (){
    return hex2b64(this.getPrivateBaseKey());
};

/**
 * Translate rsa parameters in a hex encoded string representing the rsa public key.
 * The representation follow the ASN.1 notation :
 * PublicKeyInfo ::= SEQUENCE {
 *   algorithm       AlgorithmIdentifier,
 *   PublicKey       BIT STRING
 * }
 * Where AlgorithmIdentifier is: 
 * AlgorithmIdentifier ::= SEQUENCE {
 *   algorithm       OBJECT IDENTIFIER,     the OID of the enc algorithm
 *   parameters      ANY DEFINED BY algorithm OPTIONAL (NULL for PKCS #1)
 * }
 * and PublicKey is a SEQUENCE encapsulated in a BIT STRING
 * RSAPublicKey ::= SEQUENCE {
 *   modulus           INTEGER,  -- n
 *   publicExponent    INTEGER   -- e
 * }
 * @returns {string} DER Encoded String representing the rsa public key
 * @private
 */
RSAKey.prototype.getPublicBaseKey = function() {
    var options = {
        'array' : [
            new KJUR.asn1.DERObjectIdentifier({'oid':'1.2.840.113549.1.1.1'}), //RSA Encryption pkcs #1 oid
            new KJUR.asn1.DERNull()
        ]
    };
    var first_sequence = new KJUR.asn1.DERSequence(options);
    
    options = {
        'array' : [
            new KJUR.asn1.DERInteger({'bigint' : this.n}),
            new KJUR.asn1.DERInteger({'int' : this.e})
        ]
    };
    var second_sequence = new KJUR.asn1.DERSequence(options);
    
    options = {
        'hex' : '00'+second_sequence.getEncodedHex()
    };
    var bit_string = new KJUR.asn1.DERBitString(options);
    
    options = {
        'array' : [
            first_sequence,
            bit_string
        ]
    };
    var seq = new KJUR.asn1.DERSequence(options);
    return seq.getEncodedHex();
};

/**
 * base64 (pem) encoded version of the DER encoded representation
 * @returns {string} pem encoded representation without header and footer
 * @public
 */
RSAKey.prototype.getPublicBaseKeyB64 = function (){
    return hex2b64(this.getPublicBaseKey());
};

/**
 * wrap the string in block of width chars. The default value for rsa keys is 64
 * characters.
 * @param {string} str the pem encoded string without header and footer
 * @param {Number} [width=64] - the length the string has to be wrapped at
 * @returns {string} 
 * @private
 */
RSAKey.prototype.wordwrap = function(str, width) {
    width = width || 64;
    if (!str)
        return str;
    var regex = '(.{1,' + width + '})( +|$\n?)|(.{1,' + width + '})';
    return str.match(RegExp(regex, 'g')).join('\n');
};

/**
 * Retrieve the pem encoded private key
 * @returns {string} the pem encoded private key with header/footer
 * @public
 */
RSAKey.prototype.getPrivateKey = function() {
    var key = "-----BEGIN RSA PRIVATE KEY-----\n";
    key += this.wordwrap(this.getPrivateBaseKeyB64()) + "\n";
    key += "-----END RSA PRIVATE KEY-----";
    return key;
};

/**
 * Retrieve the pem encoded public key
 * @returns {string} the pem encoded public key with header/footer
 * @public
 */
RSAKey.prototype.getPublicKey = function() {
    var key = "-----BEGIN PUBLIC KEY-----\n";
    key += this.wordwrap(this.getPublicBaseKeyB64()) + "\n";
    key += "-----END PUBLIC KEY-----";
    return key;
};

/**
 * Check if the object contains the necessary parameters to populate the rsa modulus
 * and public exponent parameters.
 * @param {Object} [obj={}] - An object that may contain the two public key
 * parameters
 * @returns {boolean} true if the object contains both the modulus and the public exponent
 * properties (n and e)
 * @todo check for types of n and e. N should be a parseable bigInt object, E should
 * be a parseable integer number
 * @private
 */
RSAKey.prototype.hasPublicKeyProperty = function(obj){
    obj = obj || {};
    return obj.hasOwnProperty('n') &&
           obj.hasOwnProperty('e');
};

/**
 * Check if the object contains ALL the parameters of an RSA key.
 * @param {Object} [obj={}] - An object that may contain nine rsa key
 * parameters
 * @returns {boolean} true if the object contains all the parameters needed
 * @todo check for types of the parameters all the parameters but the public exponent
 * should be parseable bigint objects, the public exponent should be a parseable integer number
 * @private
 */
RSAKey.prototype.hasPrivateKeyProperty = function(obj){
    obj = obj || {};
    return obj.hasOwnProperty('n') &&
           obj.hasOwnProperty('e') &&
           obj.hasOwnProperty('d') &&
           obj.hasOwnProperty('p') &&
           obj.hasOwnProperty('q') &&
           obj.hasOwnProperty('dmp1') &&
           obj.hasOwnProperty('dmq1') &&
           obj.hasOwnProperty('coeff');
};

/**
 * Parse the properties of obj in the current rsa object. Obj should AT LEAST
 * include the modulus and public exponent (n, e) parameters.
 * @param {Object} obj - the object containing rsa parameters
 * @private
 */
RSAKey.prototype.parsePropertiesFrom = function(obj){
    this.n = obj.n;
    this.e = obj.e;        
    
    if (obj.hasOwnProperty('d')){
        this.d = obj.d;
        this.p = obj.p;
        this.q = obj.q;
        this.dmp1 = obj.dmp1;
        this.dmq1 = obj.dmq1;
        this.coeff = obj.coeff;
    }
};

/**
 * Create a new JSEncryptRSAKey that extends Tom Wu's RSA key object.
 * This object is just a decorator for parsing the key parameter
 * @param {string|Object} key - The key in string format, or an object containing
 * the parameters needed to build a RSAKey object.
 * @constructor
 */
var JSEncryptRSAKey = function(key) {
    // Call the super constructor.
    RSAKey.call(this);
    // If a key key was provided.
    if (key) {
        // If this is a string...
        if (typeof key === 'string') {
            this.parseKey(key);
        }else if (this.hasPrivateKeyProperty(key)||this.hasPublicKeyProperty(key)) {
            // Set the values for the key.
            this.parsePropertiesFrom(key);
        }
    }
};

// Derive from RSAKey.
JSEncryptRSAKey.prototype = new RSAKey();

// Reset the contructor.
JSEncryptRSAKey.prototype.constructor = JSEncryptRSAKey;


/**
 * 
 * @param {Object} [options = {}] - An object to customize JSEncrypt behaviour 
 * possible parameters are:
 * - default_key_size        {number}  default: 1024 the key size in bit
 * - default_public_exponent {string}  default: '010001' the hexadecimal representation of the public exponent
 * - log                     {boolean} default: false whether log warn/error or not
 * @constructor
 */
var JSEncrypt = function(options) {
    options = options || {};
    this.default_key_size = parseInt(options.default_key_size) || 1024;
    this.default_public_exponent = options.default_public_exponent || '010001'; //65537 default openssl public exponent for rsa key type
    this.log = options.log || false; 
    // The private and public key.
    this.key = null;
};

/**
 * Method to set the rsa key parameter (one method is enough to set both the public
 * and the private key, since the private key contains the public key paramenters)
 * Log a warning if logs are enabled
 * @param {Object|string} key the pem encoded string or an object (with or without header/footer)
 * @public
 */
JSEncrypt.prototype.setKey = function(key){
    if (this.log && this.key)
        console.warn('A key was already set, overriding existing.');
    this.key = new JSEncryptRSAKey(key);
};

/**
 * Proxy method for setKey, for api compatibility
 * @see setKey
 * @public
 */
JSEncrypt.prototype.setPrivateKey = function(privkey) {
    // Create the key.
    this.setKey(privkey);
};

/**
 * Proxy method for setKey, for api compatibility
 * @see setKey
 * @public
 */
JSEncrypt.prototype.setPublicKey = function(pubkey) {
    // Sets the public key.
    this.setKey(pubkey);
};

/**
 * Proxy method for RSAKey object's decrypt, decrypt the string using the private
 * components of the rsa key object. Note that if the object was not set will be created
 * on the fly (by the getKey method) using the parameters passed in the JSEncrypt constructor
 * @param {string} string base64 encoded crypted string to decrypt
 * @return {string} the decrypted string
 * @public
 */
JSEncrypt.prototype.decrypt = function(string) {
    // Return the decrypted string.
    try{
        return this.getKey().decrypt(b64tohex(string));
    }catch(ex){
        return false;
    }
};

/**
 * Proxy method for RSAKey object's encrypt, encrypt the string using the public
 * components of the rsa key object. Note that if the object was not set will be created
 * on the fly (by the getKey method) using the parameters passed in the JSEncrypt constructor
 * @param {string} string the string to encrypt
 * @return {string} the encrypted string encoded in base64
 * @public
 */
JSEncrypt.prototype.encrypt = function(string) {
    // Return the encrypted string.
    try{
        return hex2b64(this.getKey().encrypt(string));
    }catch(ex){
        return false;
    }
};

/**
 * Getter for the current JSEncryptRSAKey object. If it doesn't exists a new object 
 * will be created and returned
 * @param {callback} [cb] the callback to be called if we want the key to be generated
 * in an async fashion
 * @returns {JSEncryptRSAKey} the JSEncryptRSAKey object
 * @public
 */
JSEncrypt.prototype.getKey = function(cb){
    // Only create new if it does not exist.
    if (!this.key) {
        // Get a new private key.
        this.key = new JSEncryptRSAKey();
        if (cb && {}.toString.call(cb) === '[object Function]'){
            this.key.generateAsync(this.default_key_size, this.default_public_exponent,cb);
            return;
        }
        // Generate the key.
        this.key.generate(this.default_key_size, this.default_public_exponent);
    }
    return this.key;
};

/**
 * Returns the pem encoded representation of the private key
 * If the key doesn't exists a new key will be created
 * @returns {string} pem encoded representation of the private key WITH header and footer
 * @public
 */
JSEncrypt.prototype.getPrivateKey = function() {
    // Return the private representation of this key.
    return this.getKey().getPrivateKey();
};

/**
 * Returns the pem encoded representation of the private key
 * If the key doesn't exists a new key will be created
 * @returns {string} pem encoded representation of the private key WITHOUT header and footer
 * @public
 */
JSEncrypt.prototype.getPrivateKeyB64 = function() {
    // Return the private representation of this key.
    return this.getKey().getPrivateBaseKeyB64();
};


/**
 * Returns the pem encoded representation of the public key
 * If the key doesn't exists a new key will be created
 * @returns {string} pem encoded representation of the public key WITH header and footer
 * @public
 */
JSEncrypt.prototype.getPublicKey = function() {
    // Return the private representation of this key.
    return this.getKey().getPublicKey();
};

/**
 * Returns the pem encoded representation of the public key
 * If the key doesn't exists a new key will be created
 * @returns {string} pem encoded representation of the public key WITHOUT header and footer
 * @public
 */
JSEncrypt.prototype.getPublicKeyB64 = function() {
    // Return the private representation of this key.
    return this.getKey().getPublicBaseKeyB64();
};

exports.JSEncrypt = JSEncrypt;
})(JSEncryptExports);
var JSEncrypt = JSEncryptExports.JSEncrypt;