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577 lines
13 KiB
577 lines
13 KiB
/*==LICENSE==* |
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CyanWorlds.com Engine - MMOG client, server and tools |
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Copyright (C) 2011 Cyan Worlds, Inc. |
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This program is free software: you can redistribute it and/or modify |
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it under the terms of the GNU General Public License as published by |
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the Free Software Foundation, either version 3 of the License, or |
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(at your option) any later version. |
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This program is distributed in the hope that it will be useful, |
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but WITHOUT ANY WARRANTY; without even the implied warranty of |
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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GNU General Public License for more details. |
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You should have received a copy of the GNU General Public License |
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along with this program. If not, see <http://www.gnu.org/licenses/>. |
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You can contact Cyan Worlds, Inc. by email legal@cyan.com |
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or by snail mail at: |
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Cyan Worlds, Inc. |
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14617 N Newport Hwy |
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Mead, WA 99021 |
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*==LICENSE==*/ |
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#include "plEncryptedStream.h" |
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#include "hsUtils.h" |
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#include "plFileUtils.h" |
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#include "hsSTLStream.h" |
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#include <time.h> |
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static const UInt32 kDefaultKey[4] = { 0x6c0a5452, 0x3827d0f, 0x3a170b92, 0x16db7fc2 }; |
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static const int kEncryptChunkSize = 8; |
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static const char* kOldMagicString = "BriceIsSmart"; |
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static const char* kMagicString = "whatdoyousee"; |
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static const int kMagicStringLen = 12; |
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static const int kFileStartOffset = kMagicStringLen + sizeof(UInt32); |
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static const int kMaxBufferedFileSize = 10*1024; |
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plEncryptedStream::plEncryptedStream(UInt32* key) : |
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fRef(nil), |
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fActualFileSize(0), |
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fBufferedStream(false), |
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fRAMStream(nil), |
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fWriteFileName(nil), |
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fOpenMode(kOpenFail) |
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{ |
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if (key) |
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memcpy(&fKey, key, sizeof(kDefaultKey)); |
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else |
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memcpy(&fKey, &kDefaultKey, sizeof(kDefaultKey)); |
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} |
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plEncryptedStream::~plEncryptedStream() |
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{ |
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} |
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// |
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// Tiny Encryption Algorithm |
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// http://vader.brad.ac.uk/tea/tea.shtml |
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// |
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// A potential weakness in this implementation is the fact that a known value |
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// (length of the original file) is written at the start of the encrypted file. -Colin |
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// |
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// Oh, and also there's some kind of potential weakness in TEA that they fixed with XTEA, |
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// but frankly, who cares. No one is going to break the encryption, they'll just get the |
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// key out of the exe or memory. |
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// |
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void plEncryptedStream::IEncipher(UInt32* const v) |
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{ |
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register unsigned long y=v[0], z=v[1], sum=0, delta=0x9E3779B9, n=32; |
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while (n-- > 0) |
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{ |
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y += (z << 4 ^ z >> 5) + z ^ sum + fKey[sum&3]; |
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sum += delta; |
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z += (y << 4 ^ y >> 5) + y ^ sum + fKey[sum>>11 & 3]; |
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} |
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v[0]=y; v[1]=z; |
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} |
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void plEncryptedStream::IDecipher(UInt32* const v) |
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{ |
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register unsigned long y=v[0], z=v[1], sum=0xC6EF3720, delta=0x9E3779B9, n=32; |
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// sum = delta<<5, in general sum = delta * n |
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while (n-- > 0) |
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{ |
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z -= (y << 4 ^ y >> 5) + y ^ sum + fKey[sum>>11 & 3]; |
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sum -= delta; |
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y -= (z << 4 ^ z >> 5) + z ^ sum + fKey[sum&3]; |
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} |
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v[0]=y; v[1]=z; |
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} |
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hsBool plEncryptedStream::Open(const char* name, const char* mode) |
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{ |
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wchar* wName = hsStringToWString(name); |
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wchar* wMode = hsStringToWString(mode); |
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hsBool ret = Open(wName, wMode); |
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delete [] wName; |
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delete [] wMode; |
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return ret; |
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} |
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hsBool plEncryptedStream::Open(const wchar* name, const wchar* mode) |
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{ |
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if (wcscmp(mode, L"rb") == 0) |
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{ |
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fRef = _wfopen(name, mode); |
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fPosition = 0; |
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if (!fRef) |
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return false; |
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// Make sure our special magic string is there |
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if (!ICheckMagicString(fRef)) |
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{ |
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fclose(fRef); |
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return false; |
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} |
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fread(&fActualFileSize, sizeof(UInt32), 1, fRef); |
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// The encrypted stream is inefficient if you do reads smaller than |
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// 8 bytes. Since we do a lot of those, any file under a size threshold |
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// is buffered in memory |
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if (fActualFileSize <= kMaxBufferedFileSize) |
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IBufferFile(); |
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fOpenMode = kOpenRead; |
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return true; |
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} |
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else if (wcscmp(mode, L"wb") == 0) |
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{ |
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fRAMStream = TRACKED_NEW hsVectorStream; |
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fWriteFileName = TRACKED_NEW wchar[wcslen(name) + 1]; |
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wcscpy(fWriteFileName, name); |
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fPosition = 0; |
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fOpenMode = kOpenWrite; |
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fBufferedStream = true; |
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return true; |
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} |
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else |
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{ |
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hsAssert(0, "Unsupported open mode"); |
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fOpenMode = kOpenFail; |
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return false; |
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} |
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} |
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hsBool plEncryptedStream::Close() |
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{ |
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int rtn = false; |
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if (fOpenMode == kOpenWrite) |
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{ |
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fRAMStream->Rewind(); |
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rtn = IWriteEncypted(fRAMStream, fWriteFileName); |
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} |
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if (fRef) |
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{ |
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rtn = (fclose(fRef) == 0); |
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fRef = nil; |
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} |
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if (fRAMStream) |
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{ |
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delete fRAMStream; |
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fRAMStream = nil; |
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} |
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if (fWriteFileName) |
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{ |
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delete [] fWriteFileName; |
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fWriteFileName = nil; |
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} |
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fActualFileSize = 0; |
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fBufferedStream = false; |
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fOpenMode = kOpenFail; |
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return rtn; |
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} |
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UInt32 plEncryptedStream::IRead(UInt32 bytes, void* buffer) |
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{ |
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if (!fRef) |
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return 0; |
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int numItems = (int)(::fread(buffer, 1 /*size*/, bytes /*count*/, fRef)); |
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fBytesRead += numItems; |
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fPosition += numItems; |
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if ((unsigned)numItems < bytes) { |
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if (feof(fRef)) { |
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// EOF ocurred |
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char str[128]; |
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sprintf(str, "Hit EOF on UNIX Read, only read %d out of requested %d bytes\n", numItems, bytes); |
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hsDebugMessage(str, 0); |
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} |
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else { |
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hsDebugMessage("Error on UNIX Read", ferror(fRef)); |
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} |
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} |
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return numItems; |
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} |
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void plEncryptedStream::IBufferFile() |
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{ |
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fRAMStream = TRACKED_NEW hsVectorStream; |
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char buf[1024]; |
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while (!AtEnd()) |
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{ |
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UInt32 numRead = Read(1024, buf); |
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fRAMStream->Write(numRead, buf); |
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} |
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fRAMStream->Rewind(); |
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fBufferedStream = true; |
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fclose(fRef); |
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fRef = nil; |
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fPosition = 0; |
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} |
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hsBool plEncryptedStream::AtEnd() |
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{ |
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if (fBufferedStream) |
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return fRAMStream->AtEnd(); |
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else |
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return (GetPosition() == fActualFileSize); |
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} |
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void plEncryptedStream::Skip(UInt32 delta) |
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{ |
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if (fBufferedStream) |
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{ |
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fRAMStream->Skip(delta); |
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fPosition = fRAMStream->GetPosition(); |
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} |
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else if (fRef) |
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{ |
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fBytesRead += delta; |
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fPosition += delta; |
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fseek(fRef, delta, SEEK_CUR); |
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} |
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} |
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void plEncryptedStream::Rewind() |
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{ |
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if (fBufferedStream) |
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{ |
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fRAMStream->Rewind(); |
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fPosition = fRAMStream->GetPosition(); |
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} |
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else if (fRef) |
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{ |
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fBytesRead = 0; |
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fPosition = 0; |
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fseek(fRef, kFileStartOffset, SEEK_SET); |
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} |
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} |
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void plEncryptedStream::FastFwd() |
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{ |
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if (fBufferedStream) |
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{ |
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fRAMStream->FastFwd(); |
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fPosition = fRAMStream->GetPosition(); |
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} |
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else if (fRef) |
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{ |
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fseek(fRef, kFileStartOffset+fActualFileSize, SEEK_SET); |
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fBytesRead = fPosition = ftell(fRef); |
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} |
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} |
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UInt32 plEncryptedStream::GetEOF() |
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{ |
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return fActualFileSize; |
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} |
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UInt32 plEncryptedStream::Read(UInt32 bytes, void* buffer) |
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{ |
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if (fBufferedStream) |
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{ |
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UInt32 numRead = fRAMStream->Read(bytes, buffer); |
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fPosition = fRAMStream->GetPosition(); |
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return numRead; |
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} |
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UInt32 startPos = fPosition; |
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// Offset into the first buffer (0 if we are aligned on a chunk, which means no extra block read) |
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UInt32 startChunkPos = startPos % kEncryptChunkSize; |
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// Amount of data in the partial first chunk (0 if we're aligned) |
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UInt32 startAmt = (startChunkPos != 0) ? hsMinimum(kEncryptChunkSize - startChunkPos, bytes) : 0; |
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UInt32 totalNumRead = IRead(bytes, buffer); |
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UInt32 numMidChunks = (totalNumRead - startAmt) / kEncryptChunkSize; |
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UInt32 endAmt = (totalNumRead - startAmt) % kEncryptChunkSize; |
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// If the start position is in the middle of a chunk we need to rewind and |
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// read that whole chunk in and decrypt it. |
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if (startChunkPos != 0) |
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{ |
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// Move to the start of this chunk |
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SetPosition(startPos-startChunkPos); |
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// Read in the chunk and decrypt it |
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char buf[kEncryptChunkSize]; |
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UInt32 numRead = IRead(kEncryptChunkSize, &buf); |
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IDecipher((UInt32*)&buf); |
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// Copy the relevant portion to the output buffer |
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memcpy(buffer, &buf[startChunkPos], startAmt); |
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SetPosition(startPos+totalNumRead); |
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} |
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if (numMidChunks != 0) |
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{ |
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UInt32* bufferPos = (UInt32*)(((char*)buffer)+startAmt); |
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for (int i = 0; i < numMidChunks; i++) |
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{ |
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// Decrypt chunk |
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IDecipher(bufferPos); |
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bufferPos += (kEncryptChunkSize / sizeof(UInt32)); |
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} |
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} |
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if (endAmt != 0) |
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{ |
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// Read in the final chunk and decrypt it |
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char buf[kEncryptChunkSize]; |
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SetPosition(startPos + startAmt + numMidChunks*kEncryptChunkSize); |
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UInt32 numRead = IRead(kEncryptChunkSize, &buf); |
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IDecipher((UInt32*)&buf); |
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memcpy(((char*)buffer)+totalNumRead-endAmt, &buf, endAmt); |
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SetPosition(startPos+totalNumRead); |
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} |
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// If we read into the padding at the end, update the total read to not include that |
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if (totalNumRead > 0 && startPos + totalNumRead > fActualFileSize) |
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{ |
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totalNumRead -= (startPos + totalNumRead) - fActualFileSize; |
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SetPosition(fActualFileSize); |
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} |
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return totalNumRead; |
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} |
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UInt32 plEncryptedStream::Write(UInt32 bytes, const void* buffer) |
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{ |
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if (fOpenMode != kOpenWrite) |
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{ |
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hsAssert(0, "Trying to write to a read stream"); |
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return 0; |
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} |
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return fRAMStream->Write(bytes, buffer); |
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} |
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bool plEncryptedStream::IWriteEncypted(hsStream* sourceStream, const wchar* outputFile) |
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{ |
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hsUNIXStream outputStream; |
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if (!outputStream.Open(outputFile, L"wb")) |
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return false; |
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outputStream.Write(kMagicStringLen, kMagicString); |
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// Save some space to write the file size at the end |
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outputStream.WriteSwap32(0); |
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// Write out all the full size encrypted blocks we can |
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char buf[kEncryptChunkSize]; |
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UInt32 amtRead; |
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while ((amtRead = sourceStream->Read(kEncryptChunkSize, &buf)) == kEncryptChunkSize) |
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{ |
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IEncipher((UInt32*)&buf); |
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outputStream.Write(kEncryptChunkSize, &buf); |
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} |
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// Pad with random data and write out the final partial block, if there is one |
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if (amtRead > 0) |
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{ |
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static bool seededRand = false; |
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if (!seededRand) |
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{ |
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seededRand = true; |
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srand((unsigned int)time(nil)); |
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} |
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for (int i = amtRead; i < kEncryptChunkSize; i++) |
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buf[i] = rand(); |
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IEncipher((UInt32*)&buf); |
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outputStream.Write(kEncryptChunkSize, &buf); |
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} |
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// Write the original file size at the start |
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UInt32 actualSize = sourceStream->GetPosition(); |
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outputStream.Rewind(); |
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outputStream.Skip(kMagicStringLen); |
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outputStream.WriteSwap32(actualSize); |
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outputStream.Close(); |
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return true; |
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} |
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bool plEncryptedStream::FileEncrypt(const char* fileName) |
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{ |
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wchar* wFilename = hsStringToWString(fileName); |
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bool ret = FileEncrypt(wFilename); |
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delete [] wFilename; |
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return ret; |
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} |
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bool plEncryptedStream::FileEncrypt(const wchar* fileName) |
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{ |
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hsUNIXStream sIn; |
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if (!sIn.Open(fileName)) |
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return false; |
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// Don't double encrypt any files |
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if (ICheckMagicString(sIn.GetFILE())) |
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{ |
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sIn.Close(); |
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return true; |
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} |
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sIn.Rewind(); |
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plEncryptedStream sOut; |
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bool wroteEncrypted = sOut.IWriteEncypted(&sIn, L"crypt.dat"); |
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sIn.Close(); |
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sOut.Close(); |
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if (wroteEncrypted) |
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{ |
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plFileUtils::RemoveFile(fileName); |
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plFileUtils::FileMove(L"crypt.dat", fileName); |
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} |
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return true; |
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} |
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bool plEncryptedStream::FileDecrypt(const char* fileName) |
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{ |
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wchar* wFilename = hsStringToWString(fileName); |
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bool ret = FileDecrypt(wFilename); |
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delete [] wFilename; |
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return ret; |
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} |
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bool plEncryptedStream::FileDecrypt(const wchar* fileName) |
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{ |
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plEncryptedStream sIn; |
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if (!sIn.Open(fileName)) |
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return false; |
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hsUNIXStream sOut; |
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if (!sOut.Open(L"crypt.dat", L"wb")) |
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{ |
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sIn.Close(); |
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return false; |
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} |
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char buf[1024]; |
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while (!sIn.AtEnd()) |
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{ |
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UInt32 numRead = sIn.Read(sizeof(buf), buf); |
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sOut.Write(numRead, buf); |
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} |
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sIn.Close(); |
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sOut.Close(); |
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plFileUtils::RemoveFile(fileName); |
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plFileUtils::FileMove(L"crypt.dat", fileName); |
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return true; |
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} |
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bool plEncryptedStream::ICheckMagicString(FILE* fp) |
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{ |
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char magicString[kMagicStringLen+1]; |
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fread(&magicString, kMagicStringLen, 1, fp); |
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magicString[kMagicStringLen] = '\0'; |
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return (hsStrEQ(magicString, kMagicString) || hsStrEQ(magicString, kOldMagicString)); |
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} |
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bool plEncryptedStream::IsEncryptedFile(const char* fileName) |
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{ |
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wchar* wFilename = hsStringToWString(fileName); |
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bool ret = IsEncryptedFile(wFilename); |
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delete [] wFilename; |
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return ret; |
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} |
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bool plEncryptedStream::IsEncryptedFile(const wchar* fileName) |
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{ |
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FILE* fp = _wfopen(fileName, L"rb"); |
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if (!fp) |
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return false; |
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bool isEncrypted = ICheckMagicString(fp); |
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fclose(fp); |
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return isEncrypted; |
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} |
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hsStream* plEncryptedStream::OpenEncryptedFile(const char* fileName, bool requireEncrypted, UInt32* cryptKey) |
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{ |
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wchar* wFilename = hsStringToWString(fileName); |
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hsStream* ret = OpenEncryptedFile(wFilename, requireEncrypted, cryptKey); |
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delete [] wFilename; |
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return ret; |
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} |
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hsStream* plEncryptedStream::OpenEncryptedFile(const wchar* fileName, bool requireEncrypted, UInt32* cryptKey) |
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{ |
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#ifndef PLASMA_EXTERNAL_RELEASE |
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requireEncrypted = false; |
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#endif |
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bool isEncrypted = IsEncryptedFile(fileName); |
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hsStream* s = nil; |
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if (isEncrypted) |
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s = TRACKED_NEW plEncryptedStream(cryptKey); |
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// If this isn't an external release, let them use unencrypted data |
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else |
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if (!requireEncrypted) |
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s = TRACKED_NEW hsUNIXStream; |
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if (s) |
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s->Open(fileName, L"rb"); |
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return s; |
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} |
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hsStream* plEncryptedStream::OpenEncryptedFileWrite(const char* fileName, UInt32* cryptKey) |
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{ |
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wchar* wFilename = hsStringToWString(fileName); |
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hsStream* ret = OpenEncryptedFileWrite(wFilename, cryptKey); |
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delete [] wFilename; |
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return ret; |
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} |
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hsStream* plEncryptedStream::OpenEncryptedFileWrite(const wchar* fileName, UInt32* cryptKey) |
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{ |
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hsStream* s = nil; |
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#ifdef PLASMA_EXTERNAL_RELEASE |
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s = TRACKED_NEW plEncryptedStream(cryptKey); |
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#else |
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s = TRACKED_NEW hsUNIXStream; |
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#endif |
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s->Open(fileName, L"wb"); |
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return s; |
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}
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