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|
//
// File : libkvirijndael.cpp
// Creation date : Sat Now 4 2000 15:33:12 CEST by Szymon Stefanek
//
// This file is part of the KVirc irc client distribution
// Copyright (C) 1999-2000 Till Bush (buti@geocities.com)
//
// This program is FREE software. You can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your opinion) any later version.
//
// This program is distributed in the HOPE that it will be USEFUL,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, write to the Free Software Foundation,
// Inc. ,51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
#include "libkvirijndael.h"
#include "rijndael.h"
#include "kvi_module.h"
#include "kvi_debug.h"
#include "kvi_locale.h"
#include "kvi_mirccntrl.h"
#include "kvi_time.h"
//#warning "Other engines: mircStrip koi2win colorizer lamerizer etc.."
/*
@doc: rijndael
@type:
module
@short:
The Rijndael cryptographic engines
@title:
The rijndael module
@body:
The rijndael module exports six [doc:crypt_engines]cryptographic engines[/doc] based
on the Advanced Encryptiong Standard algorithm called Rijndael. Rijndael was
originally written by Joan Daemen and Vincent Rijmen. The original Rijndael
description is available at http://www.esat.kuleuven.ac.be/~rijmen/rijndael/.[br]
It is a private key block cipher that has been designed to replace
the widely used DES, and it should provide at leas a decent security agains
common attacks. Theoretically the best attack that one can perform on this cipher
is the "brute force" attack that requires a really massive parallel computation:
actually out of the possibilities of a common "hacker".[br]
My implementation allows the usage of 128, 192 and 256 bit keys
on 128 bit data blocks. The encrypted binary data buffer is then converted
into an ascii-string by using the base64 conversion or hex-digit-string rappresentation.
The six engines are the six possible combinations of the key lengths and ascii-string
conversions.
*/
#ifdef COMPILE_CRYPT_SUPPORT
#include "kvi_memmove.h"
#include "kvi_malloc.h"
#include "kvi_pointerlist.h"
static KviPointerList<KviCryptEngine> * g_pEngineList = 0;
KviRijndaelEngine::KviRijndaelEngine()
: KviCryptEngine()
{
g_pEngineList->append(this);
m_pEncryptCipher = 0;
m_pDecryptCipher = 0;
}
KviRijndaelEngine::~KviRijndaelEngine()
{
g_pEngineList->removeRef(this);
if(m_pEncryptCipher)delete m_pEncryptCipher;
if(m_pDecryptCipher)delete m_pDecryptCipher;
}
bool KviRijndaelEngine::init(const char *encKey,int encKeyLen,const char *decKey,int decKeyLen)
{
if(m_pEncryptCipher)
{
delete m_pEncryptCipher;
m_pEncryptCipher = 0;
}
if(m_pDecryptCipher)
{
delete m_pDecryptCipher;
m_pDecryptCipher = 0;
}
if(encKey && (encKeyLen > 0))
{
if(!(decKey && (decKeyLen > 0)))
{
decKey = encKey;
decKeyLen = encKeyLen;
} // else all
} else {
// no encrypt key specified...
if(decKey && decKeyLen)
{
encKey = decKey;
encKeyLen = decKeyLen;
} else {
// both keys missing
setLastError(__tr("Missing both encrypt and decrypt key: at least one is needed"));
return false;
}
}
int defLen = getKeyLen();
char * encryptKey = (char *)kvi_malloc(defLen);
char * decryptKey = (char *)kvi_malloc(defLen);
if(encKeyLen > defLen)encKeyLen = defLen;
kvi_memmove(encryptKey,encKey,encKeyLen);
if(encKeyLen < defLen)kvi_memset(encryptKey + encKeyLen,'0',defLen - encKeyLen);
if(decKeyLen > defLen)decKeyLen = defLen;
kvi_memmove(decryptKey,decKey,decKeyLen);
if(decKeyLen < defLen)kvi_memset(decryptKey + decKeyLen,'0',defLen - decKeyLen);
m_pEncryptCipher = new Rijndael();
int retVal = m_pEncryptCipher->init(Rijndael::CBC,Rijndael::Encrypt,(unsigned char *)encryptKey,getKeyLenId());
kvi_free(encryptKey);
if(retVal != RIJNDAEL_SUCCESS)
{
kvi_free(decryptKey);
delete m_pEncryptCipher;
m_pEncryptCipher = 0;
setLastErrorFromRijndaelErrorCode(retVal);
return false;
}
m_pDecryptCipher = new Rijndael();
retVal = m_pDecryptCipher->init(Rijndael::CBC,Rijndael::Decrypt,(unsigned char *)decryptKey,getKeyLenId());
kvi_free(decryptKey);
if(retVal != RIJNDAEL_SUCCESS)
{
delete m_pEncryptCipher;
m_pEncryptCipher = 0;
delete m_pDecryptCipher;
m_pDecryptCipher = 0;
setLastErrorFromRijndaelErrorCode(retVal);
return false;
}
return true;
}
void KviRijndaelEngine::setLastErrorFromRijndaelErrorCode(int errCode)
{
switch(errCode)
{
case RIJNDAEL_SUCCESS: setLastError(__tr("Error 0: Success ?")); break;
case RIJNDAEL_UNSUPPORTED_MODE: setLastError(__tr("Unsupported crypt mode")); break;
case RIJNDAEL_UNSUPPORTED_DIRECTION: setLastError(__tr("Unsupported direction")); break;
case RIJNDAEL_UNSUPPORTED_KEY_LENGTH: setLastError(__tr("Unsupported key length")); break;
case RIJNDAEL_BAD_KEY: setLastError(__tr("Bad key data")); break;
case RIJNDAEL_NOT_INITIALIZED: setLastError(__tr("Engine not initialized")); break;
case RIJNDAEL_BAD_DIRECTION: setLastError(__tr("Invalid direction for this engine")); break;
case RIJNDAEL_CORRUPTED_DATA: setLastError(__tr("Corrupted message data or invalid decrypt key")); break;
default: setLastError(__tr("Unknown error")); break;
}
}
KviCryptEngine::EncryptResult KviRijndaelEngine::encrypt(const char * plainText,KviStr &outBuffer)
{
if(!m_pEncryptCipher)
{
setLastError(__tr("Ops...encrypt cipher not initialized"));
return KviCryptEngine::EncryptError;
}
int len = (int)kvi_strLen(plainText);
char * buf = (char *)kvi_malloc(len + 16);
int retVal = m_pEncryptCipher->padEncrypt((const unsigned char *)plainText,len,(unsigned char *)buf);
if(retVal < 0)
{
kvi_free(buf);
setLastErrorFromRijndaelErrorCode(retVal);
return KviCryptEngine::EncryptError;
}
if(!binaryToAscii(buf,retVal,outBuffer))
{
kvi_free(buf);
return KviCryptEngine::EncryptError;
}
kvi_free(buf);
if(outBuffer.len() > maxEncryptLen())
{
if(maxEncryptLen() > 0)
{
setLastError(__tr("Data buffer too long"));
return KviCryptEngine::EncryptError;
}
}
outBuffer.prepend(KVI_TEXT_CRYPTESCAPE);
return KviCryptEngine::Encrypted;
}
KviCryptEngine::DecryptResult KviRijndaelEngine::decrypt(const char * inBuffer,KviStr &plainText)
{
if(!m_pDecryptCipher)
{
setLastError(__tr("Ops...decrypt cipher not initialized"));
return KviCryptEngine::DecryptError;
}
if(*inBuffer != KVI_TEXT_CRYPTESCAPE)
{
plainText = inBuffer;
return KviCryptEngine::DecryptOkWasPlainText;
}
inBuffer++;
if(!*inBuffer)
{
plainText = inBuffer;
return KviCryptEngine::DecryptOkWasPlainText; // empty buffer
}
int len;
char * binary;
if(!asciiToBinary(inBuffer,&len,&binary))return KviCryptEngine::DecryptError;
char * buf = (char *)kvi_malloc(len + 1);
int retVal = m_pDecryptCipher->padDecrypt((const unsigned char *)binary,len,(unsigned char *)buf);
kvi_free(binary);
if(retVal < 0)
{
kvi_free(buf);
setLastErrorFromRijndaelErrorCode(retVal);
return KviCryptEngine::DecryptError;
}
buf[retVal] = '\0';
plainText = buf;
kvi_free(buf);
return KviCryptEngine::DecryptOkWasEncrypted;
}
bool KviRijndaelHexEngine::binaryToAscii(const char * inBuffer,int len,KviStr &outBuffer)
{
outBuffer.bufferToHex(inBuffer,len);
return true;
}
bool KviRijndaelHexEngine::asciiToBinary(const char * inBuffer,int * len,char ** outBuffer)
{
KviStr hex(inBuffer);
char * tmpBuf;
*len = hex.hexToBuffer(&tmpBuf,false);
if(*len < 0)
{
setLastError(__tr("The message is not a hexadecimal string: this is not my stuff"));
return false;
} else {
if(len > 0)
{
*outBuffer = (char *)kvi_malloc(*len);
kvi_memmove(*outBuffer,tmpBuf,*len);
KviStr::freeBuffer(tmpBuf);
}
}
return true;
}
bool KviRijndaelBase64Engine::binaryToAscii(const char * inBuffer,int len,KviStr &outBuffer)
{
outBuffer.bufferToBase64(inBuffer,len);
return true;
}
bool KviRijndaelBase64Engine::asciiToBinary(const char * inBuffer,int * len,char ** outBuffer)
{
KviStr base64(inBuffer);
char * tmpBuf;
*len = base64.base64ToBuffer(&tmpBuf,false);
if(*len < 0)
{
setLastError(__tr("The message is not a base64 string: this is not my stuff"));
return false;
} else {
if(len > 0)
{
*outBuffer = (char *)kvi_malloc(*len);
kvi_memmove(*outBuffer,tmpBuf,*len);
KviStr::freeBuffer(tmpBuf);
}
}
return true;
}
static KviCryptEngine * allocRijndael128HexEngine()
{
return new KviRijndael128HexEngine();
}
static KviCryptEngine * allocRijndael192HexEngine()
{
return new KviRijndael192HexEngine();
}
static KviCryptEngine * allocRijndael256HexEngine()
{
return new KviRijndael256HexEngine();
}
static KviCryptEngine * allocRijndael128Base64Engine()
{
return new KviRijndael128Base64Engine();
}
static KviCryptEngine * allocRijndael192Base64Engine()
{
return new KviRijndael192Base64Engine();
}
static KviCryptEngine * allocRijndael256Base64Engine()
{
return new KviRijndael256Base64Engine();
}
static void deallocRijndaelCryptEngine(KviCryptEngine * e)
{
delete e;
}
// Mircryption stuff
#include "ablowfish.h"
KviMircryptionEngine::KviMircryptionEngine()
: KviCryptEngine()
{
g_pEngineList->append(this);
}
KviMircryptionEngine::~KviMircryptionEngine()
{
g_pEngineList->removeRef(this);
}
bool KviMircryptionEngine::init(const char * encKey,int encKeyLen,const char * decKey,int decKeyLen)
{
if(encKey && (encKeyLen > 0))
{
if(!(decKey && (decKeyLen > 0)))
{
decKey = encKey;
decKeyLen = encKeyLen;
} // else all
} else {
// no encrypt key specified...
if(decKey && decKeyLen)
{
encKey = decKey;
encKeyLen = decKeyLen;
} else {
// both keys missing
setLastError(__tr("Missing both encrypt and decrypt key: at least one is needed"));
return false;
}
}
m_szEncryptKey = KviStr(encKey,encKeyLen);
m_szDecryptKey = KviStr(decKey,decKeyLen);
if(kvi_strEqualCIN("cbc:",m_szEncryptKey.ptr(),4) && (m_szEncryptKey.len() > 4))
m_szEncryptKey.cutLeft(4);
else
m_bEncryptCBC = false;
if(kvi_strEqualCIN("cbc:",m_szDecryptKey.ptr(),4) && (m_szDecryptKey.len() > 4))
m_szDecryptKey.cutLeft(4);
else
m_bDecryptCBC = false;
return true;
}
KviCryptEngine::EncryptResult KviMircryptionEngine::encrypt(const char * plainText,KviStr &outBuffer)
{
KviStr szPlain = plainText;
outBuffer = "";
if(m_bEncryptCBC)
{
if(!doEncryptCBC(szPlain,outBuffer))return KviCryptEngine::EncryptError;
} else {
if(!doEncryptECB(szPlain,outBuffer))return KviCryptEngine::EncryptError;
}
outBuffer.prepend("+OK ");
if(outBuffer.len() > maxEncryptLen())
{
if(maxEncryptLen() > 0)
{
setLastError(__tr("Data buffer too long"));
return KviCryptEngine::EncryptError;
}
}
//outBuffer = MCPS2_STARTTAG;
//outBuffer += MCPS2_ENDTAG;
return KviCryptEngine::Encrypted;
}
KviCryptEngine::DecryptResult KviMircryptionEngine::decrypt(const char * inBuffer,KviStr &plainText)
{
plainText = "";
KviStr szIn = inBuffer;
// various old versions
if(kvi_strEqualCSN(inBuffer,"mcps ",5))
szIn.cutLeft(5);
else if(kvi_strEqualCSN(inBuffer,"+OK ",4))
szIn.cutLeft(4);
else {
plainText = szIn;
return KviCryptEngine::DecryptOkWasPlainText;
}
if(m_bDecryptCBC)return doDecryptCBC(szIn,plainText) ? KviCryptEngine::DecryptOkWasEncrypted : KviCryptEngine::DecryptError;
return doDecryptECB(szIn,plainText) ? KviCryptEngine::DecryptOkWasEncrypted : KviCryptEngine::DecryptError;
/*
int len1 = kvi_strLen(MCPS2_STARTTAG);
int len2 = kvi_strLen(MCPS2_ENDTAG);
while(szIn.len() > 0)
{
int idx = szIn.findFirstIdx(MCPS2_STARTTAG);
if(idx == -1)
{
// no more encrypted stuff
plainText += szIn;
return true;
}
if(idx > 0) // a non encrypted block
plainText += szIn.left(idx);
szIn.cutLeft(idx + len1);
idx = szIn.findFirstIdx(MCPS2_ENDTAG);
if(idx != -1)
{
KviStr toDecrypt = szIn.left(idx);
if(!doDecrypt(toDecrypt,plainText))return false;
}
szIn.cutLeft(idx + len2);
}
*/
}
static unsigned char fake_base64[]="./0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ";
unsigned int fake_base64dec(unsigned char c)
{
static char base64unmap[255];
static bool didinit=false;
int i;
if(!didinit)
{
// initialize base64unmap
for (i=0;i<255;++i)base64unmap[i]=0;
for (i=0;i<64;++i)base64unmap[fake_base64[i]]=i;
didinit=true;
}
return base64unmap[c];
}
static void byteswap_buffer(unsigned char * p,int len)
{
while(len > 0)
{
unsigned char aux = p[0];
p[0] = p[3];
p[3] = aux;
aux = p[1];
p[1] = p[2];
p[2] = aux;
p += 4;
len -= 4;
}
}
bool KviMircryptionEngine::doEncryptECB(KviStr &plain,KviStr &encoded)
{
// make sure it is a multiple of 8 bytes (eventually pad with zeroes)
if(plain.len() % 8)
{
int oldL = plain.len();
plain.setLength(plain.len() + (8 - (plain.len() % 8)));
char * padB = plain.ptr() + oldL;
char * padE = plain.ptr() + plain.len();
while(padB < padE)*padB++ = 0;
}
//byteswap_buffer((unsigned char *)plain.ptr(),plain.len());
unsigned char * out =(unsigned char *)kvi_malloc(plain.len()); // we use this to avoid endiannes problems
BlowFish bf((unsigned char *)m_szEncryptKey.ptr(),m_szEncryptKey.len());
bf.ResetChain();
bf.Encrypt((unsigned char *)plain.ptr(),out,plain.len(),BlowFish::ECB);
// FIXME: this is probably needed only on LittleEndian machines!
byteswap_buffer((unsigned char *)out,plain.len());
// da uglybase64 encoding
unsigned char * outb = out;
unsigned char * oute = out + plain.len();
int ll = (plain.len() * 3) / 2;
encoded.setLength(ll);
unsigned char * p = (unsigned char *)encoded.ptr();
while(outb < oute)
{
TQ_UINT32 * dd1 = (TQ_UINT32 *)outb;
outb += 4;
TQ_UINT32 * dd2 = (TQ_UINT32 *)outb;
outb += 4;
*p++ = fake_base64[*dd2 & 0x3f]; *dd2 >>= 6;
*p++ = fake_base64[*dd2 & 0x3f]; *dd2 >>= 6;
*p++ = fake_base64[*dd2 & 0x3f]; *dd2 >>= 6;
*p++ = fake_base64[*dd2 & 0x3f]; *dd2 >>= 6;
*p++ = fake_base64[*dd2 & 0x3f]; *dd2 >>= 6;
*p++ = fake_base64[*dd2 & 0x3f];
*p++ = fake_base64[*dd1 & 0x3f]; *dd1 >>= 6;
*p++ = fake_base64[*dd1 & 0x3f]; *dd1 >>= 6;
*p++ = fake_base64[*dd1 & 0x3f]; *dd1 >>= 6;
*p++ = fake_base64[*dd1 & 0x3f]; *dd1 >>= 6;
*p++ = fake_base64[*dd1 & 0x3f]; *dd1 >>= 6;
*p++ = fake_base64[*dd1 & 0x3f];
}
kvi_free(out);
return true;
}
bool KviMircryptionEngine::doDecryptECB(KviStr &encoded,KviStr &plain)
{
// encoded is in this strange base64...
// make sure its length is multiple of 12 (eventually pad with zeroes)
if(encoded.len() % 12)
{
int oldL = encoded.len();
encoded.setLength(encoded.len() + (12 - (encoded.len() % 12)));
char * padB = encoded.ptr() + oldL;
char * padE = encoded.ptr() + encoded.len();
while(padB < padE)*padB++ = 0;
}
// a fake base64 decoding algo, use a different character set
// and stuff 6 bytes at a time into a 32 bit long...
int ll = (encoded.len() * 2) / 3;
unsigned char * buf = (unsigned char *)kvi_malloc(ll);
unsigned char * p = (unsigned char *)encoded.ptr();
unsigned char * e = p + encoded.len();
int i;
unsigned char * bufp = buf;
while(p < e)
{
TQ_UINT32 * dw1 = (TQ_UINT32 *)bufp;
bufp += 4;
TQ_UINT32 * dw2 = (TQ_UINT32 *)bufp;
bufp += 4;
*dw2 = 0;
for(i=0;i < 6;i++)*dw2 |= (fake_base64dec(*p++)) << (i * 6);
*dw1 = 0;
for(i=0;i < 6;i++)*dw1 |= (fake_base64dec(*p++)) << (i * 6);
}
// FIXME: this is probably needed only on LittleEndian machines!
byteswap_buffer((unsigned char *)buf,ll);
plain.setLength(ll);
BlowFish bf((unsigned char *)m_szDecryptKey.ptr(),m_szDecryptKey.len());
bf.ResetChain();
bf.Decrypt(buf,(unsigned char *)plain.ptr(),ll,BlowFish::ECB);
//byteswap_buffer((unsigned char *)plain.ptr(),ll);
kvi_free(buf);
return true;
}
bool KviMircryptionEngine::doEncryptCBC(KviStr &plain,KviStr &encoded)
{
// make sure it is a multiple of 8 bytes (eventually pad with zeroes)
if(plain.len() % 8)
{
int oldL = plain.len();
plain.setLength(plain.len() + (8 - (plain.len() % 8)));
char * padB = plain.ptr() + oldL;
char * padE = plain.ptr() + plain.len();
while(padB < padE)*padB++ = 0;
}
int ll = plain.len() + 8;
unsigned char * in = (unsigned char *)kvi_malloc(ll);
// choose an IV
static bool bDidInit = false;
int t = (int)kvi_unixTime();
if(!bDidInit)
{
srand(t);
bDidInit = true;
}
for(int i=0;i<8;i++)in[i] = (unsigned char)(rand() % 256);
kvi_fastmove(in+8,plain.ptr(),plain.len());
// encrypt
unsigned char * out = (unsigned char *)kvi_malloc(ll);
BlowFish bf((unsigned char *)m_szEncryptKey.ptr(),m_szEncryptKey.len());
bf.ResetChain();
bf.Encrypt(in,out,ll,BlowFish::CBC);
kvi_free(in);
encoded.bufferToBase64((const char *)out,ll);
kvi_free(out);
encoded.prepend('*'); // prepend the signature
return true;
}
bool KviMircryptionEngine::doDecryptCBC(KviStr &encoded,KviStr &plain)
{
if(*(encoded.ptr()) != '*')
{
tqDebug("WARNING: Specified a CBC key but the incoming message doesn't seem to be a CBC one");
return doDecryptECB(encoded,plain);
}
encoded.cutLeft(1);
char * tmpBuf;
int len = encoded.base64ToBuffer(&tmpBuf,false);
if(len < 0)
{
setLastError(__tr("The message is not a base64 string: this is not my stuff"));
return false;
}
if((len < 8) || (len % 8))
{
setLastError(__tr("The message doesn't seem to be encoded with CBC Mircryption"));
if(len > 0)KviStr::freeBuffer(tmpBuf);
return false;
}
plain.setLength(len);
BlowFish bf((unsigned char *)m_szDecryptKey.ptr(),m_szDecryptKey.len());
bf.ResetChain();
bf.Decrypt((unsigned char *)tmpBuf,(unsigned char *)plain.ptr(),len,BlowFish::CBC);
// kill the first 8 bytes (random IV)
plain.cutLeft(8);
KviStr::freeBuffer(tmpBuf);
return true;
}
static KviCryptEngine * allocMircryptionEngine()
{
return new KviMircryptionEngine();
}
#endif
// =======================================
// module routines
// =======================================
static bool rijndael_module_init(KviModule * m)
{
#ifdef COMPILE_CRYPT_SUPPORT
g_pEngineList = new KviPointerList<KviCryptEngine>;
g_pEngineList->setAutoDelete(false);
KviStr format = __tr("Cryptographic engine based on the\n" \
"Advanced Encryption Standard (AES)\n" \
"algorithm called Rijndael.\n" \
"The text is first encrypted with rijndael\n" \
"and then converted to %s notation.\n" \
"The keys used are %d bit long and will be padded\n" \
"with zeros if you provide shorter ones.\n" \
"If only one key is provided, this engine\n" \
"will use it for both encrypting and decrypting.\n" \
"See the rijndael module documentation\n" \
"for more info on the algorithm used.\n");
// FIXME: Maybe convert this repeated code to a function eh ?
KviCryptEngineDescription * d = new KviCryptEngineDescription;
d->szName = "Rijndael128Hex";
d->szAuthor = "Szymon Stefanek";
d->szDescription.sprintf(format.ptr(),__tr("hexadecimal"),128);
d->iFlags = KVI_CRYPTENGINE_CAN_ENCRYPT | KVI_CRYPTENGINE_CAN_DECRYPT |
KVI_CRYPTENGINE_WANT_ENCRYPT_KEY | KVI_CRYPTENGINE_WANT_DECRYPT_KEY;
d->allocFunc = allocRijndael128HexEngine;
d->deallocFunc = deallocRijndaelCryptEngine;
m->registerCryptEngine(d);
d = new KviCryptEngineDescription;
d->szName = "Rijndael192Hex";
d->szAuthor = "Szymon Stefanek";
d->szDescription.sprintf(format.ptr(),__tr("hexadecimal"),192);
d->iFlags = KVI_CRYPTENGINE_CAN_ENCRYPT | KVI_CRYPTENGINE_CAN_DECRYPT |
KVI_CRYPTENGINE_WANT_ENCRYPT_KEY | KVI_CRYPTENGINE_WANT_DECRYPT_KEY;
d->allocFunc = allocRijndael192HexEngine;
d->deallocFunc = deallocRijndaelCryptEngine;
m->registerCryptEngine(d);
d = new KviCryptEngineDescription;
d->szName = "Rijndael256Hex";
d->szAuthor = "Szymon Stefanek";
d->szDescription.sprintf(format.ptr(),__tr("hexadecimal"),256);
d->iFlags = KVI_CRYPTENGINE_CAN_ENCRYPT | KVI_CRYPTENGINE_CAN_DECRYPT |
KVI_CRYPTENGINE_WANT_ENCRYPT_KEY | KVI_CRYPTENGINE_WANT_DECRYPT_KEY;
d->allocFunc = allocRijndael256HexEngine;
d->deallocFunc = deallocRijndaelCryptEngine;
m->registerCryptEngine(d);
d = new KviCryptEngineDescription;
d->szName = "Rijndael128Base64";
d->szAuthor = "Szymon Stefanek";
d->szDescription.sprintf(format.ptr(),__tr("base64"),128);
d->iFlags = KVI_CRYPTENGINE_CAN_ENCRYPT | KVI_CRYPTENGINE_CAN_DECRYPT |
KVI_CRYPTENGINE_WANT_ENCRYPT_KEY | KVI_CRYPTENGINE_WANT_DECRYPT_KEY;
d->allocFunc = allocRijndael128Base64Engine;
d->deallocFunc = deallocRijndaelCryptEngine;
m->registerCryptEngine(d);
d = new KviCryptEngineDescription;
d->szName = "Rijndael192Base64";
d->szAuthor = "Szymon Stefanek";
d->szDescription.sprintf(format.ptr(),__tr("base64"),192);
d->iFlags = KVI_CRYPTENGINE_CAN_ENCRYPT | KVI_CRYPTENGINE_CAN_DECRYPT |
KVI_CRYPTENGINE_WANT_ENCRYPT_KEY | KVI_CRYPTENGINE_WANT_DECRYPT_KEY;
d->allocFunc = allocRijndael192Base64Engine;
d->deallocFunc = deallocRijndaelCryptEngine;
m->registerCryptEngine(d);
d = new KviCryptEngineDescription;
d->szName = "Rijndael256Base64";
d->szAuthor = "Szymon Stefanek";
d->szDescription.sprintf(format.ptr(),__tr("base64"),256);
d->iFlags = KVI_CRYPTENGINE_CAN_ENCRYPT | KVI_CRYPTENGINE_CAN_DECRYPT |
KVI_CRYPTENGINE_WANT_ENCRYPT_KEY | KVI_CRYPTENGINE_WANT_DECRYPT_KEY;
d->allocFunc = allocRijndael256Base64Engine;
d->deallocFunc = deallocRijndaelCryptEngine;
m->registerCryptEngine(d);
d = new KviCryptEngineDescription;
d->szName = "Mircryption";
d->szAuthor = "Szymon Stefanek";
d->szDescription = __tr("Popular cryptographic engine based on the\n" \
"old Blowfish encryption algorithm.\n" \
"The text is first encrypted with Blowfish \n" \
"and then converted to base64 notation.\n" \
"The keys used have variable length and\n" \
"are specified as character strings.\n" \
"You can specify keys long up to 56 bytes (448 bits).\n" \
"If only one key is provided, this engine\n" \
"will use it for both encrypting and decrypting.\n" \
"This engine works in ECB mode by default:\n" \
"if you want to use CBC mode you must prefix\n" \
"your key(s) with \"cbc:\".\n");
d->iFlags = KVI_CRYPTENGINE_CAN_ENCRYPT | KVI_CRYPTENGINE_CAN_DECRYPT |
KVI_CRYPTENGINE_WANT_ENCRYPT_KEY | KVI_CRYPTENGINE_WANT_DECRYPT_KEY;
d->allocFunc = allocMircryptionEngine;
d->deallocFunc = deallocRijndaelCryptEngine;
m->registerCryptEngine(d);
return true;
#else
return false;
#endif
}
static bool rijndael_module_cleanup(KviModule *m)
{
#ifdef COMPILE_CRYPT_SUPPORT
while(g_pEngineList->first())delete g_pEngineList->first();
delete g_pEngineList;
g_pEngineList = 0;
m->unregisterCryptEngines();
return true;
#else
return false;
#endif
}
static bool rijndael_module_can_unload(KviModule *)
{
#ifdef COMPILE_CRYPT_SUPPORT
return g_pEngineList->isEmpty();
#else
return true;
#endif
}
// =======================================
// plugin definition structure
// =======================================
KVIRC_MODULE(
"Rijndael crypt engine",
"1.0.0",
"Szymon Stefanek <pragma at kvirc dot net>" ,
"Exports the rijndael crypt engine",
rijndael_module_init ,
rijndael_module_can_unload,
0,
rijndael_module_cleanup
)
#ifdef COMPILE_CRYPT_SUPPORT
#include "libkvirijndael.moc"
#endif
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