211 lines
5.6 KiB
JavaScript
211 lines
5.6 KiB
JavaScript
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/*
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* A JavaScript implementation of the Secure Hash Algorithm, SHA-1, as defined
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* in FIPS PUB 180-1
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* Version 2.1a Copyright Paul Johnston 2000 - 2002.
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* Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet
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* Distributed under the BSD License
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* See http://pajhome.org.uk/crypt/md5 for details.
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*/
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exports.hex_sha1 = hex_sha1;
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exports.b64_sha1 = b64_sha1;
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exports.str_sha1 = str_sha1;
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exports.hex_hmac_sha1 = hex_hmac_sha1;
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exports.b64_hmac_sha1 = b64_hmac_sha1;
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exports.str_hmac_sha1 = str_hmac_sha1;
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/*
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* Configurable variables. You may need to tweak these to be compatible with
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* the server-side, but the defaults work in most cases.
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*/
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var hexcase = 0; /* hex output format. 0 - lowercase; 1 - uppercase */
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var b64pad = ""; /* base-64 pad character. "=" for strict RFC compliance */
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var chrsz = 8; /* bits per input character. 8 - ASCII; 16 - Unicode */
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/*
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* These are the functions you'll usually want to call
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* They take string arguments and return either hex or base-64 encoded strings
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*/
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function hex_sha1(s){return binb2hex(core_sha1(str2binb(s),s.length * chrsz));}
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function b64_sha1(s){return binb2b64(core_sha1(str2binb(s),s.length * chrsz));}
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function str_sha1(s){return binb2str(core_sha1(str2binb(s),s.length * chrsz));}
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function hex_hmac_sha1(key, data){ return binb2hex(core_hmac_sha1(key, data));}
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function b64_hmac_sha1(key, data){ return binb2b64(core_hmac_sha1(key, data));}
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function str_hmac_sha1(key, data){ return binb2str(core_hmac_sha1(key, data));}
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/*
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* Perform a simple self-test to see if the VM is working
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*/
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function sha1_vm_test()
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{
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return hex_sha1("abc") == "a9993e364706816aba3e25717850c26c9cd0d89d";
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}
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/*
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* Calculate the SHA-1 of an array of big-endian words, and a bit length
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*/
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function core_sha1(x, len)
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{
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/* append padding */
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x[len >> 5] |= 0x80 << (24 - len % 32);
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x[((len + 64 >> 9) << 4) + 15] = len;
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var w = Array(80);
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var a = 1732584193;
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var b = -271733879;
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var c = -1732584194;
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var d = 271733878;
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var e = -1009589776;
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for(var i = 0; i < x.length; i += 16)
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{
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var olda = a;
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var oldb = b;
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var oldc = c;
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var oldd = d;
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var olde = e;
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for(var j = 0; j < 80; j++)
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{
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if(j < 16) w[j] = x[i + j];
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else w[j] = rol(w[j-3] ^ w[j-8] ^ w[j-14] ^ w[j-16], 1);
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var t = safe_add(safe_add(rol(a, 5), sha1_ft(j, b, c, d)),
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safe_add(safe_add(e, w[j]), sha1_kt(j)));
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e = d;
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d = c;
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c = rol(b, 30);
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b = a;
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a = t;
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}
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a = safe_add(a, olda);
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b = safe_add(b, oldb);
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c = safe_add(c, oldc);
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d = safe_add(d, oldd);
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e = safe_add(e, olde);
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}
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return Array(a, b, c, d, e);
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}
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/*
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* Perform the appropriate triplet combination function for the current
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* iteration
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*/
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function sha1_ft(t, b, c, d)
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{
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if(t < 20) return (b & c) | ((~b) & d);
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if(t < 40) return b ^ c ^ d;
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if(t < 60) return (b & c) | (b & d) | (c & d);
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return b ^ c ^ d;
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}
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/*
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* Determine the appropriate additive constant for the current iteration
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*/
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function sha1_kt(t)
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{
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return (t < 20) ? 1518500249 : (t < 40) ? 1859775393 :
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(t < 60) ? -1894007588 : -899497514;
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}
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/*
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* Calculate the HMAC-SHA1 of a key and some data
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*/
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function core_hmac_sha1(key, data)
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{
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var bkey = str2binb(key);
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if(bkey.length > 16) bkey = core_sha1(bkey, key.length * chrsz);
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var ipad = Array(16), opad = Array(16);
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for(var i = 0; i < 16; i++)
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{
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ipad[i] = bkey[i] ^ 0x36363636;
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opad[i] = bkey[i] ^ 0x5C5C5C5C;
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}
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var hash = core_sha1(ipad.concat(str2binb(data)), 512 + data.length * chrsz);
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return core_sha1(opad.concat(hash), 512 + 160);
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}
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/*
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* Add integers, wrapping at 2^32. This uses 16-bit operations internally
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* to work around bugs in some JS interpreters.
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*/
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function safe_add(x, y)
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{
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var lsw = (x & 0xFFFF) + (y & 0xFFFF);
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var msw = (x >> 16) + (y >> 16) + (lsw >> 16);
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return (msw << 16) | (lsw & 0xFFFF);
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}
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/*
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* Bitwise rotate a 32-bit number to the left.
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*/
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function rol(num, cnt)
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{
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return (num << cnt) | (num >>> (32 - cnt));
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}
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/*
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* Convert an 8-bit or 16-bit string to an array of big-endian words
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* In 8-bit function, characters >255 have their hi-byte silently ignored.
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*/
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function str2binb(str)
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{
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var bin = Array();
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var mask = (1 << chrsz) - 1;
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for(var i = 0; i < str.length * chrsz; i += chrsz)
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bin[i>>5] |= (str.charCodeAt(i / chrsz) & mask) << (32 - chrsz - i%32);
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return bin;
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}
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/*
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* Convert an array of big-endian words to a string
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*/
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function binb2str(bin)
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{
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var str = "";
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var mask = (1 << chrsz) - 1;
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for(var i = 0; i < bin.length * 32; i += chrsz)
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str += String.fromCharCode((bin[i>>5] >>> (32 - chrsz - i%32)) & mask);
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return str;
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}
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/*
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* Convert an array of big-endian words to a hex string.
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*/
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function binb2hex(binarray)
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{
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var hex_tab = hexcase ? "0123456789ABCDEF" : "0123456789abcdef";
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var str = "";
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for(var i = 0; i < binarray.length * 4; i++)
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{
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str += hex_tab.charAt((binarray[i>>2] >> ((3 - i%4)*8+4)) & 0xF) +
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hex_tab.charAt((binarray[i>>2] >> ((3 - i%4)*8 )) & 0xF);
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}
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return str;
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}
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/*
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* Convert an array of big-endian words to a base-64 string
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*/
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function binb2b64(binarray)
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{
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var tab = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
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var str = "";
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for(var i = 0; i < binarray.length * 4; i += 3)
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{
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var triplet = (((binarray[i >> 2] >> 8 * (3 - i %4)) & 0xFF) << 16)
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| (((binarray[i+1 >> 2] >> 8 * (3 - (i+1)%4)) & 0xFF) << 8 )
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| ((binarray[i+2 >> 2] >> 8 * (3 - (i+2)%4)) & 0xFF);
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for(var j = 0; j < 4; j++)
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{
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if(i * 8 + j * 6 > binarray.length * 32) str += b64pad;
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else str += tab.charAt((triplet >> 6*(3-j)) & 0x3F);
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}
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}
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return str;
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}
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