mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
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238 lines
7.2 KiB
C
238 lines
7.2 KiB
C
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/** @file
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OcCryptoLib
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Copyright (c) 2018, savvas
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All rights reserved.
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This program and the accompanying materials
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are licensed and made available under the terms and conditions of the BSD License
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which accompanies this distribution. The full text of the license may be found at
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http://opensource.org/licenses/bsd-license.php
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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**/
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/*********************************************************************
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* Filename: md5.c
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* Author: Brad Conte (brad AT bradconte.com)
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* Copyright:
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* Disclaimer: This code is presented "as is" without any guarantees.
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* Details: Implementation of the MD5 hashing algorithm.
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Algorithm specification can be found here:
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* http://tools.ietf.org/html/rfc1321
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This implementation uses little endian byte order.
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*********************************************************************/
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#include <Library/BaseMemoryLib.h>
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#include <Library/OcCryptoLib.h>
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#define ROTLEFT(A,B) ((A << B) | (A >> (32 - B)))
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#define F(X,Y,Z) ((X & Y) | (~X & Z))
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#define G(X,Y,Z) ((X & Z) | (Y & ~Z))
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#define H(X,Y,Z) (X ^ Y ^ Z)
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#define I(X,Y,Z) (Y ^ (X | ~Z))
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#define FF(A,B,C,D,M,S,T) do { A += F(B,C,D) + M + T; \
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A = B + ROTLEFT(A,S); } while (0)
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#define GG(A,B,C,D,M,S,T) do { A += G(B,C,D) + M + T; \
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A = B + ROTLEFT(A,S); } while (0)
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#define HH(A,B,C,D,M,S,T) do { A += H(B,C,D) + M + T; \
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A = B + ROTLEFT(A,S); } while (0)
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#define II(A,B,C,D,M,S,T) do { A += I(B,C,D) + M + T; \
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A = B + ROTLEFT(A,S); } while (0)
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VOID
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Md5Transform (
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MD5_CONTEXT *Ctx,
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CONST UINT8 *Data
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)
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{
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UINT32 A, B, C, D, M[16], Index1, Index2;
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//
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// MD5 specifies big endian byte order, but this implementation assumes a little
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// endian byte order CPU. Reverse all the bytes upon input, and re-reverse them
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// on output (in md5_final()).
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//
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for (Index1 = 0, Index2 = 0; Index1 < 16; ++Index1, Index2 += 4) {
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M[Index1] = (Data[Index2]) + (Data[Index2 + 1] << 8)
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+ (Data[Index2 + 2] << 16) + (Data[Index2 + 3] << 24);
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}
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A = Ctx->State[0];
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B = Ctx->State[1];
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C = Ctx->State[2];
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D = Ctx->State[3];
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FF (A, B, C, D, M[0], 7, 0xD76AA478);
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FF (D, A, B, C, M[1], 12, 0xE8C7B756);
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FF (C, D, A, B, M[2], 17, 0x242070DB);
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FF (B, C, D, A, M[3], 22, 0xC1BDCEEE);
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FF (A, B, C, D, M[4], 7, 0xF57C0FAF);
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FF (D, A, B, C, M[5], 12, 0x4787C62A);
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FF (C, D, A, B, M[6], 17, 0xA8304613);
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FF (B, C, D, A, M[7], 22, 0xFD469501);
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FF (A, B, C, D, M[8], 7, 0x698098D8);
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FF (D, A, B, C, M[9], 12, 0x8B44F7AF);
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FF (C, D, A, B, M[10], 17, 0xFFFF5BB1);
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FF (B, C, D, A, M[11], 22, 0x895CD7BE);
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FF (A, B, C, D, M[12], 7, 0x6B901122);
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FF (D, A, B, C, M[13], 12, 0xFD987193);
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FF (C, D, A, B, M[14], 17, 0xA679438E);
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FF (B, C, D, A, M[15], 22, 0x49B40821);
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GG (A, B, C, D, M[1], 5, 0xF61E2562);
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GG (D, A, B, C, M[6], 9, 0xC040B340);
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GG (C, D, A, B, M[11], 14, 0x265E5A51);
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GG (B, C, D, A, M[0], 20, 0xE9B6C7AA);
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GG (A, B, C, D, M[5], 5, 0xD62F105D);
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GG (D, A, B, C, M[10], 9, 0x02441453);
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GG (C, D, A, B, M[15], 14, 0xD8A1E681);
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GG (B, C, D, A, M[4], 20, 0xE7D3FBC8);
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GG (A, B, C, D, M[9], 5, 0x21E1CDE6);
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GG (D, A, B, C, M[14], 9, 0xC33707D6);
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GG (C, D, A, B, M[3], 14, 0xF4D50D87);
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GG (B, C, D, A, M[8], 20, 0x455A14ED);
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GG (A, B, C, D, M[13], 5, 0xA9E3E905);
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GG (D, A, B, C, M[2], 9, 0xFCEFA3F8);
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GG (C, D, A, B, M[7], 14, 0x676F02D9);
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GG (B, C, D, A, M[12], 20, 0x8D2A4C8A);
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HH (A, B, C, D, M[5], 4, 0xFFFA3942);
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HH (D, A, B, C, M[8], 11, 0x8771F681);
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HH (C, D, A, B, M[11], 16, 0x6D9D6122);
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HH (B, C, D, A, M[14], 23, 0xFDE5380C);
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HH (A, B, C, D, M[1], 4, 0xA4BEEA44);
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HH (D, A, B, C, M[4], 11, 0x4BDECFA9);
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HH (C, D, A, B, M[7], 16, 0xF6BB4B60);
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HH (B, C, D, A, M[10], 23, 0xBEBFBC70);
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HH (A, B, C, D, M[13], 4, 0x289B7EC6);
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HH (D, A, B, C, M[0], 11, 0xEAA127FA);
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HH (C, D, A, B, M[3], 16, 0xD4EF3085);
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HH (B, C, D, A, M[6], 23, 0x04881D05);
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HH (A, B, C, D, M[9], 4, 0xD9D4D039);
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HH (D, A, B, C, M[12], 11, 0xE6DB99E5);
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HH (C, D, A, B, M[15], 16, 0x1FA27CF8);
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HH (B, C, D, A, M[2], 23, 0xC4AC5665);
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II (A, B, C, D, M[0], 6, 0xF4292244);
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II (D, A, B, C, M[7], 10, 0x432AFF97);
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II (C, D, A, B, M[14], 15, 0xAB9423A7);
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II (B, C, D, A, M[5], 21, 0xFC93A039);
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II (A, B, C, D, M[12], 6, 0x655B59C3);
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II (D, A, B, C, M[3], 10, 0x8F0CCC92);
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II (C, D, A, B, M[10], 15, 0xFFEFF47D);
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II (B, C, D, A, M[1], 21, 0x85845DD1);
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II (A, B, C, D, M[8], 6, 0x6FA87E4F);
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II (D, A, B, C, M[15], 10, 0xFE2CE6E0);
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II (C, D, A, B, M[6], 15, 0xA3014314);
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II (B, C, D, A, M[13], 21, 0x4E0811A1);
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II (A, B, C, D, M[4], 6, 0xF7537E82);
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II (D, A, B, C, M[11], 10, 0xBD3AF235);
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II (C, D, A, B, M[2], 15, 0x2AD7D2BB);
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II (B, C, D, A, M[9], 21, 0xEB86D391);
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Ctx->State[0] += A;
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Ctx->State[1] += B;
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Ctx->State[2] += C;
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Ctx->State[3] += D;
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}
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VOID
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Md5Init (
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MD5_CONTEXT *Ctx
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)
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{
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Ctx->DataLen = 0;
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Ctx->BitLen = 0;
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Ctx->State[0] = 0x67452301;
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Ctx->State[1] = 0xEFCDAB89;
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Ctx->State[2] = 0x98BADCFE;
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Ctx->State[3] = 0x10325476;
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}
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VOID
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Md5Update (
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MD5_CONTEXT *Ctx,
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CONST UINT8 *Data,
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UINTN Len
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)
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{
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UINTN Index;
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for (Index = 0; Index < Len; ++Index) {
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Ctx->Data[Ctx->DataLen] = Data[Index];
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Ctx->DataLen++;
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if (Ctx->DataLen == 64) {
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Md5Transform (Ctx, Ctx->Data);
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Ctx->BitLen += 512;
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Ctx->DataLen = 0;
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}
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}
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}
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VOID
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Md5Final (
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MD5_CONTEXT *Ctx,
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UINT8 *Hash
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)
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{
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UINTN Index = Ctx->DataLen;
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//
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// Pad whatever Data is left in the buffer.
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//
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if (Ctx->DataLen < 56) {
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Ctx->Data[Index++] = 0x80;
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ZeroMem (Ctx->Data + Index, 56-Index);
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} else if (Ctx->DataLen >= 56) {
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Ctx->Data[Index++] = 0x80;
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ZeroMem (Ctx->Data + Index, 64-Index);
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Md5Transform (Ctx, Ctx->Data);
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ZeroMem (Ctx->Data, 56);
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}
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//
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// Append to the padding the total message's length in bits and transform.
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//
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Ctx->BitLen += Ctx->DataLen * 8;
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Ctx->Data[56] = (UINT8) (Ctx->BitLen);
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Ctx->Data[57] = (UINT8) (Ctx->BitLen >> 8);
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Ctx->Data[58] = (UINT8) (Ctx->BitLen >> 16);
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Ctx->Data[59] = (UINT8) (Ctx->BitLen >> 24);
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Ctx->Data[60] = (UINT8) (Ctx->BitLen >> 32);
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Ctx->Data[61] = (UINT8) (Ctx->BitLen >> 40);
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Ctx->Data[62] = (UINT8) (Ctx->BitLen >> 48);
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Ctx->Data[63] = (UINT8) (Ctx->BitLen >> 56);
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Md5Transform (Ctx, Ctx->Data);
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//
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// Since this implementation uses little endian byte ordering and MD uses big endian,
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// reverse all the bytes when copying the final State to the output Hash.
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//
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for (Index = 0; Index < 4; ++Index) {
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Hash[Index] = (UINT8) ((Ctx->State[0] >> (Index * 8)) & 0x000000FF);
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Hash[Index + 4] = (UINT8) ((Ctx->State[1] >> (Index * 8)) & 0x000000FF);
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Hash[Index + 8] = (UINT8) ((Ctx->State[2] >> (Index * 8)) & 0x000000FF);
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Hash[Index + 12] = (UINT8) ((Ctx->State[3] >> (Index * 8)) & 0x000000FF);
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}
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}
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VOID
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Md5 (
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UINT8 *Hash,
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UINT8 *Data,
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UINTN Len
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)
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{
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MD5_CONTEXT Ctx;
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Md5Init (&Ctx);
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Md5Update (&Ctx, Data, Len);
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Md5Final (&Ctx,Hash);
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SecureZeroMem (&Ctx, sizeof (Ctx));
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}
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