inputbox에서 keyup할때마다 chkPass(pwd, targetID, saStrength)  함수를 호출하면 됨.
이것을 이용해서


/*
**    Original File: pwd_meter.js
**    Created by: Jeff Todnem (http://www.todnem.com/)
**    Created on: 2007-08-14
**    Last modified: 2007-08-30
**
**    License Information:
**    -------------------------------------------------------------------------
**    Copyright (C) 2007 Jeff Todnem
**
**    This program is free software; you can redistribute it and/or modify it
**    under the terms of the GNU General Public License as published by the
**    Free Software Foundation; either version 2 of the License, or (at your
**    option) any later version.
**   
**    This program is distributed in the hope that it will be useful, but
**    WITHOUT ANY WARRANTY; without even the implied warranty of
**    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
**    General Public License for more details.
**   
**    You should have received a copy of the GNU General Public License along
**    with this program; if not, write to the Free Software Foundation, Inc.,
**    59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
**   
**   
*/

String.prototype.strReverse = function() {
 var newstring = "";
 for (var s=0; s < this.length; s++) {
  newstring = this.charAt(s) + newstring;
 }
 return newstring;
};


/*
**    function: chkPass
**    purpose: Updates the password scorebar (background color and complexity text)
**              based upon how a password scores for overall security strength.
**    parameters:
**      pwd: The password string to evaluate
**      targetID: The id of the password scorebar to update
**      saStrength: A string array of different password strengths (not necessarily english)
**
*/

function chkPass(pwd, targetID, saStrength) {
    var index = { TOOSHORT:0, WEAK:1, MODERATE:2, STRONG:3 };
    var oScorebar = document.getElementById(targetID);
 var nScore = 0;
 var nLength = 0;
 var nAlphaUC = 0;
 var nAlphaLC = 0;
 var nNumber = 0;
 var nSymbol = 0;
 var nMidChar = 0;
 var nRequirements = 0;
 var nAlphasOnly = 0;
 var nNumbersOnly = 0;
 var nRepChar = 0;
 var nConsecAlphaUC = 0;
 var nConsecAlphaLC = 0;
 var nConsecNumber = 0;
 var nConsecSymbol = 0;
 var nConsecCharType = 0;
 var nSeqAlpha = 0;
 var nSeqNumber = 0;
 var nSeqChar = 0;
 var nMultLength = 4;
 var nMultAlphaUC = 2;
 var nMultAlphaLC = 2;
 var nMultNumber = 4;
 var nMultSymbol = 6;
 var nMultMidChar = 2;
 var nMultRequirements = 2;
 var nMultConsecAlphaUC = 2;
 var nMultConsecAlphaLC = 2;
 var nMultConsecNumber = 2;
 var nMultSeqAlpha = 3;
 var nMultSeqNumber = 3;
 var nTmpAlphaUC = "";
 var nTmpAlphaLC = "";
 var nTmpNumber = "";
 var nTmpSymbol = "";
 var sAlphas = "abcdefghijklmnopqrstuvwxyz";
 var sNumerics = "01234567890";
 var sComplexity = saStrength[index.TOOSHORT];
    var sColor = "#eee";
    var nMinPwdLen = 8;
 if (pwd) {
  nScore = parseInt(pwd.length * nMultLength);
  nLength = pwd.length;
  var arrPwd = pwd.replace (/\s+/g,"").split(/\s*/);
  var arrPwdLen = arrPwd.length;
  
  /* Loop through password to check for Symbol, Numeric, Lowercase and Uppercase pattern matches */
  for (var a=0; a < arrPwdLen; a++) {
   if (arrPwd[a].match(new RegExp(/[A-Z]/g))) {
    if (nTmpAlphaUC !== "") { if ((nTmpAlphaUC + 1) == a) { nConsecAlphaUC++; nConsecCharType++; } }
    nTmpAlphaUC = a;
    nAlphaUC++;
   }
   else if (arrPwd[a].match(new RegExp(/[a-z]/g))) {
    if (nTmpAlphaLC !== "") { if ((nTmpAlphaLC + 1) == a) { nConsecAlphaLC++; nConsecCharType++; } }
    nTmpAlphaLC = a;
    nAlphaLC++;
   }
   else if (arrPwd[a].match(new RegExp(/[0-9]/g))) {
    if (a > 0 && a < (arrPwdLen - 1)) { nMidChar++; }
    if (nTmpNumber !== "") { if ((nTmpNumber + 1) == a) { nConsecNumber++; nConsecCharType++; } }
    nTmpNumber = a;
    nNumber++;
   }
   else if (arrPwd[a].match(new RegExp(/[^a-zA-Z0-9_]/g))) {
    if (a > 0 && a < (arrPwdLen - 1)) { nMidChar++; }
    if (nTmpSymbol !== "") { if ((nTmpSymbol + 1) == a) { nConsecSymbol++; nConsecCharType++; } }
    nTmpSymbol = a;
    nSymbol++;
   }
   /* Internal loop through password to check for repeated characters */
   for (var b=0; b < arrPwdLen; b++) {
    if (arrPwd[a].toLowerCase() == arrPwd[b].toLowerCase() && a != b) { nRepChar++; }
   }
  }
  
  /* Check for sequential alpha string patterns (forward and reverse) */
  for (var s=0; s < 23; s++) {
   var sFwd = sAlphas.substring(s,parseInt(s+3));
   var sRev = sFwd.strReverse();
   if (pwd.toLowerCase().indexOf(sFwd) != -1 || pwd.toLowerCase().indexOf(sRev) != -1) { nSeqAlpha++; nSeqChar++;}
  }
  
  /* Check for sequential numeric string patterns (forward and reverse) */
  for (var s=0; s < 8; s++) {
   var sFwd = sNumerics.substring(s,parseInt(s+3));
   var sRev = sFwd.strReverse();
   if (pwd.toLowerCase().indexOf(sFwd) != -1 || pwd.toLowerCase().indexOf(sRev) != -1) { nSeqNumber++; nSeqChar++;}
  }
  
 /* Modify overall score value based on usage vs requirements */

  /* General point assignment */
  if (nAlphaUC > 0 && nAlphaUC < nLength) {
   nScore = parseInt(nScore + ((nLength - nAlphaUC) * nMultAlphaUC));
  }
  if (nAlphaLC > 0 && nAlphaLC < nLength) { 
   nScore = parseInt(nScore + ((nLength - nAlphaLC) * nMultAlphaLC));
  }
  if (nNumber > 0 && nNumber < nLength) { 
   nScore = parseInt(nScore + (nNumber * nMultNumber));
  }
  if (nSymbol > 0) { 
   nScore = parseInt(nScore + (nSymbol * nMultSymbol));
  }
  if (nMidChar > 0) { 
   nScore = parseInt(nScore + (nMidChar * nMultMidChar));
  }

  /* Point deductions for poor practices */
  if ((nAlphaLC > 0 || nAlphaUC > 0) && nSymbol === 0 && nNumber === 0) {  // Only Letters
            nAlphasOnly = nLength;
   nScore = parseInt(nScore - nAlphasOnly);
  }
  if (nAlphaLC === 0 && nAlphaUC === 0 && nSymbol === 0 && nNumber > 0) {  // Only Numbers
            nNumbersOnly = nLength;
   nScore = parseInt(nScore - nNumbersOnly);
  }
  if (nRepChar > 0) {  // Same character exists more than once
   nScore = parseInt(nScore - nRepChar);
  }
  if (nConsecAlphaUC > 0) {  // Consecutive Uppercase Letters exist
   nScore = parseInt(nScore - (nConsecAlphaUC * nMultConsecAlphaUC));
  }
  if (nConsecAlphaLC > 0) {  // Consecutive Lowercase Letters exist
   nScore = parseInt(nScore - (nConsecAlphaLC * nMultConsecAlphaLC));
  }
  if (nConsecNumber > 0) {  // Consecutive Numbers exist
   nScore = parseInt(nScore - (nConsecNumber * nMultConsecNumber)); 
  }
  if (nSeqAlpha > 0) {  // Sequential alpha strings exist (3 characters or more)
   nScore = parseInt(nScore - (nSeqAlpha * nMultSeqAlpha));
  }
  if (nSeqNumber > 0) {  // Sequential numeric strings exist (3 characters or more)
   nScore = parseInt(nScore - (nSeqNumber * nMultSeqNumber));
  }

  /* Determine if mandatory requirements have been met */
        if (nLength >= nMinPwdLen) {
            nRequirements++;
            var nMinReqChars = 3;
            if (nAlphaUC >= 1) { nRequirements++; }
            if (nAlphaLC >= 1) { nRequirements++; }
            if (nNumber >= 1) { nRequirements++; }
            if (nSymbol >= 1) { nRequirements++; }
            if (nRequirements > nMinReqChars) {
                nScore = parseInt(nScore + (nRequirements * nMultRequirements));
            }
        }

  /* Determine complexity based on overall score */
        if (nLength < 2) {
            sComplexity = saStrength[index.TOOSHORT];
            sColor = "#eee"; //light gray
        }
        else if (nScore < 40) {
            sComplexity = saStrength[index.WEAK];
            sColor = "#f00"; //red
        }
  else if (nScore < 60) {
            sComplexity = saStrength[index.MODERATE];
            sColor = "#ff0"; //yellow
        }
  else {
            sComplexity = saStrength[index.STRONG];
            sColor = "#0f0"; //green
        }
 }
    oScorebar.innerHTML = sComplexity;
    oScorebar.style.backgroundColor = sColor;
}

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