dojo.provide("dojox.encoding.digests.SHA1"); dojo.require("dojox.encoding.digests._base"); /* * A port of Paul Johnstone's SHA1 implementation * * Version 2.1a Copyright Paul Johnston 2000 - 2002. * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet * Distributed under the BSD License * See http://pajhome.org.uk/crypt/md5 for details. * * Dojo port by Tom Trenka */ (function(){ var dxd=dojox.encoding.digests; var chrsz=8, // change to 16 for unicode. mask=(1<>>(32-c)); } function FT(t,b,c,d){ if(t<20){ return (b&c)|((~b)&d); } if(t<40){ return b^c^d; } if(t<60){ return (b&c)|(b&d)|(c&d); } return b^c^d; } function KT(t){ return (t<20)?1518500249:(t<40)?1859775393:(t<60)?-1894007588:-899497514; } function core(x,len){ x[len>>5]|=0x80<<(24-len%32); x[((len+64>>9)<<4)+15]=len; var w=new Array(80), a=1732584193, b=-271733879, c=-1732584194, d=271733878, e=-1009589776; for(var i=0; i16){ wa=core(wa, key.length*chrsz); } var ipad=new Array(16), opad=new Array(16); for(var i=0;i<16;i++){ ipad[i]=wa[i]^0x36363636; opad[i]=wa[i]^0x5c5c5c5c; } var hash=core(ipad.concat(toWord(data)),512+data.length*chrsz); return core(opad.concat(hash), 512+160); } function toWord(s){ var wa=[]; for(var i=0, l=s.length*chrsz; i>5]|=(s.charCodeAt(i/chrsz)&mask)<<(32-chrsz-i%32); } return wa; // word[] } function toHex(wa){ // slightly different than the common one. var h="0123456789abcdef", s=[]; for(var i=0, l=wa.length*4; i>2]>>((3-i%4)*8+4))&0xF), h.charAt((wa[i>>2]>>((3-i%4)*8))&0xF)); } return s.join(""); // string } function _toString(wa){ var s=[]; for(var i=0, l=wa.length*32; i>5]>>>(32-chrsz-i%32))&mask)); } return s.join(""); // string } function toBase64(/* word[] */wa){ // summary: // convert an array of words to base64 encoding, should be more efficient // than using dojox.encoding.base64 var p="=", tab="ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/", s=[]; for(var i=0, l=wa.length*4; i>2]>>8*(3-i%4))&0xFF)<<16)|(((wa[i+1>>2]>>8*(3-(i+1)%4))&0xFF)<<8)|((wa[i+2>>2]>>8*(3-(i+2)%4))&0xFF); for(var j=0; j<4; j++){ if(i*8+j*6>wa.length*32){ s.push(p); } else { s.push(tab.charAt((t>>6*(3-j))&0x3F)); } } } return s.join(""); // string }; // public function dxd.SHA1=function(/* String */data, /* dojox.encoding.digests.outputTypes? */outputType){ // summary: // Computes the SHA1 digest of the data, and returns the result according to output type. var out=outputType||dxd.outputTypes.Base64; var wa=core(toWord(data), data.length*chrsz); switch(out){ case dxd.outputTypes.Raw:{ return wa; // word[] } case dxd.outputTypes.Hex:{ return toHex(wa); // string } case dxd.outputTypes.String:{ return _toString(wa); // string } default:{ return toBase64(wa); // string } } } // make this private, for later use with a generic HMAC calculator. dxd.SHA1._hmac=function(/* string */data, /* string */key, /* dojox.encoding.digests.outputTypes? */outputType){ // summary: // computes the digest of data, and returns the result according to type outputType var out=outputType || dxd.outputTypes.Base64; var wa=hmac(data, key); switch(out){ case dxd.outputTypes.Raw:{ return wa; // word[] } case dxd.outputTypes.Hex:{ return toHex(wa); // string } case dxd.outputTypes.String:{ return _toString(wa); // string } default:{ return toBase64(wa); // string } } }; })();