📄 sha1.java
字号:
while (pos < DATA_LENGTH - 8) tmp[pos++] = 0; byte2int(tmp, 0, data, 0, (DATA_LENGTH/4)-2); // Big endian // WARNING: int>>>32 != 0 !!! // bitcount() used to return a long, now it's an int. long bc = bitcount(); data[14] = (int) (bc>>>32); data[15] = (int) bc; transform(data); byte buf[] = new byte[HASH_LENGTH]; // Big endian int off = 0; for (int i = 0; i < HASH_LENGTH/4; ++i) { int d = digest[i]; buf[off++] = (byte) (d>>>24); buf[off++] = (byte) (d>>>16); buf[off++] = (byte) (d>>>8); buf[off++] = (byte) d; } return buf; }// SHA-1 transform routines//........................................................................... private static int f1(int a, int b, int c) { return (c^(a&(b^c))) + 0x5A827999; } private static int f2(int a, int b, int c) { return (a^b^c) + 0x6ED9EBA1; } private static int f3(int a, int b, int c) { return ((a&b)|(c&(a|b))) + 0x8F1BBCDC; } private static int f4(int a, int b, int c) { return (a^b^c) + 0xCA62C1D6; } private void transform (int[] X) { int A = digest[0]; int B = digest[1]; int C = digest[2]; int D = digest[3]; int E = digest[4];if (DEBUG && debuglevel > 5) debug("A="+A+" B="+B+" C="+C+" D="+D+" E="+E); int W[] = w; for (int i=0; i<16; i++) { W[i] = X[i];if (DEBUG && debuglevel > 8) debug(" " + i + "=" + X[i]); } for (int i=16; i<80; i++) { int j = W[i-16] ^ W[i-14] ^ W[i-8] ^ W[i-3]; W[i] = j; W[i] = (j << 1) | (j >>> -1); } E += ((A << 5)|(A >>> -5)) + f1(B, C, D) + W[0]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f1(A, B, C) + W[1]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f1(E, A, B) + W[2]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f1(D, E, A) + W[3]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f1(C, D, E) + W[4]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f1(B, C, D) + W[5]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f1(A, B, C) + W[6]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f1(E, A, B) + W[7]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f1(D, E, A) + W[8]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f1(C, D, E) + W[9]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f1(B, C, D) + W[10]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f1(A, B, C) + W[11]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f1(E, A, B) + W[12]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f1(D, E, A) + W[13]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f1(C, D, E) + W[14]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f1(B, C, D) + W[15]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f1(A, B, C) + W[16]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f1(E, A, B) + W[17]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f1(D, E, A) + W[18]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f1(C, D, E) + W[19]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f2(B, C, D) + W[20]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f2(A, B, C) + W[21]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f2(E, A, B) + W[22]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f2(D, E, A) + W[23]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f2(C, D, E) + W[24]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f2(B, C, D) + W[25]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f2(A, B, C) + W[26]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f2(E, A, B) + W[27]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f2(D, E, A) + W[28]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f2(C, D, E) + W[29]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f2(B, C, D) + W[30]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f2(A, B, C) + W[31]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f2(E, A, B) + W[32]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f2(D, E, A) + W[33]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f2(C, D, E) + W[34]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f2(B, C, D) + W[35]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f2(A, B, C) + W[36]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f2(E, A, B) + W[37]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f2(D, E, A) + W[38]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f2(C, D, E) + W[39]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f3(B, C, D) + W[40]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f3(A, B, C) + W[41]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f3(E, A, B) + W[42]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f3(D, E, A) + W[43]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f3(C, D, E) + W[44]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f3(B, C, D) + W[45]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f3(A, B, C) + W[46]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f3(E, A, B) + W[47]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f3(D, E, A) + W[48]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f3(C, D, E) + W[49]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f3(B, C, D) + W[50]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f3(A, B, C) + W[51]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f3(E, A, B) + W[52]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f3(D, E, A) + W[53]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f3(C, D, E) + W[54]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f3(B, C, D) + W[55]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f3(A, B, C) + W[56]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f3(E, A, B) + W[57]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f3(D, E, A) + W[58]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f3(C, D, E) + W[59]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f4(B, C, D) + W[60]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f4(A, B, C) + W[61]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f4(E, A, B) + W[62]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f4(D, E, A) + W[63]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f4(C, D, E) + W[64]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f4(B, C, D) + W[65]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f4(A, B, C) + W[66]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f4(E, A, B) + W[67]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f4(D, E, A) + W[68]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f4(C, D, E) + W[69]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f4(B, C, D) + W[70]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f4(A, B, C) + W[71]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f4(E, A, B) + W[72]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f4(D, E, A) + W[73]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f4(C, D, E) + W[74]; C =((C << 30)|(C >>> -30)); E += ((A << 5)|(A >>> -5)) + f4(B, C, D) + W[75]; B =((B << 30)|(B >>> -30)); D += ((E << 5)|(E >>> -5)) + f4(A, B, C) + W[76]; A =((A << 30)|(A >>> -30)); C += ((D << 5)|(D >>> -5)) + f4(E, A, B) + W[77]; E =((E << 30)|(E >>> -30)); B += ((C << 5)|(C >>> -5)) + f4(D, E, A) + W[78]; D =((D << 30)|(D >>> -30)); A += ((B << 5)|(B >>> -5)) + f4(C, D, E) + W[79]; C =((C << 30)|(C >>> -30)); digest[0] += A; digest[1] += B; digest[2] += C; digest[3] += D; digest[4] += E;if (DEBUG && debuglevel > 5) debug("d1="+digest[0]+" d1="+digest[1]+" d2="+digest[2]+" d3="+digest[3]+" d4="+digest[4]); } // why was this public? // Note: parameter order changed to be consistent with System.arraycopy. private static void byte2int(byte[] src, int srcOffset, int[] dst, int dstOffset, int length) { while (length-- > 0) { // Big endian dst[dstOffset++] = (src[srcOffset++] << 24) | ((src[srcOffset++] & 0xFF) << 16) | ((src[srcOffset++] & 0xFF) << 8) | (src[srcOffset++] & 0xFF); } }// // // // // // // // // // // // T E S T // // // // // // // ///** * Entry point for <code>self_test</code>. */public static final voidmain(String argv[]){ try { self_test(); } catch(Throwable t) { t.printStackTrace(); System.exit(1);}}//// Only two known sets of data!// Using Hex format 0xAB results in needing casts.//private static String[] texts ={ "abc", // t 1 "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq", // t 2 "", // empty, added}; private static byte[][] hashs ={ {-87,-103,62,54,71,6,-127,106,-70,62,37,113,120,80,-62,108,-100,-48,-40,-99,}, {-124,-104,62,68,28,59,-46,110,-70,-82,74,-95,-7,81,41,-27,-27,70,112,-15,}, {-38,57,-93,-18,94,107,75,13,50,85,-65,-17,-107,96,24,-112,-81,-40,7,9,},}; /** * Do some basic tests. * Three of the known/validation data are included only, no output, * success or exception. * If you want more, write a test program! * @see cryptix.test.TestSHA1 */ public static final voidself_test()throws Exception{ int length = hashs[0].length; for (int i = 0; i < texts.length; i++) { SHA1 hash = new SHA1(); byte[] text = texts[i].getBytes(); for (int j = 0; j < texts[i].length(); j++) hash.engineUpdate(text[j]); if (notEquals(hash.engineDigest(), hashs[i])) throw new Exception("hash #"+ i +" failed"); } } private static final booleannotEquals(byte[] a, byte[] b) { for (int i = 0; i < a.length; i++) { if (a[i] != b[i]) return true; // if (a[i] == -81) // force a trip up // return true; } return false; }}⌨️ 快捷键说明
复制代码
Ctrl + C
搜索代码
Ctrl + F
全屏模式
F11
切换主题
Ctrl + Shift + D
显示快捷键
?
增大字号
Ctrl + =
减小字号
Ctrl + -