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#include "commonheaders.h"
const unsigned char IV[] = "SIMhell@MIRANDA!";
// encrypt string using KeyX, return encoded string as ASCII or NULL
LPSTR __cdecl cpp_encrypt(pCNTX ptr, LPCSTR szPlainMsg)
{
ptr->error = ERROR_NONE;
pSIMDATA p = (pSIMDATA) ptr->pdata;
BYTE dataflag = 0;
int clen,slen;
slen = strlen(szPlainMsg);
LPSTR szMsg;
if (ptr->features & FEATURES_GZIP) {
szMsg = (LPSTR) cpp_gzip((BYTE*)szPlainMsg,slen,clen);
if (clen>=slen) {
free(szMsg);
szMsg = _strdup(szPlainMsg);
}
else {
slen = clen;
dataflag |= DATA_GZIP;
}
}
else szMsg = _strdup(szPlainMsg);
string ciphered;
CBC_Mode<AES>::Encryption enc(p->KeyX,Tiger::DIGESTSIZE,IV);
StreamTransformationFilter cbcEncryptor(enc,new StringSink(ciphered));
cbcEncryptor.Put((PBYTE)szMsg, slen);
cbcEncryptor.MessageEnd();
free(szMsg);
clen = (int) ciphered.length();
if (ptr->features & FEATURES_CRC32) {
BYTE crc32[CRC32::DIGESTSIZE];
memset(crc32,0,sizeof(crc32));
CRC32().CalculateDigest(crc32, (BYTE*)ciphered.data(), clen);
ciphered.insert(0,(LPSTR)&crc32,CRC32::DIGESTSIZE);
ciphered.insert(0,(LPSTR)&clen,2);
}
if (ptr->features & FEATURES_GZIP)
ciphered.insert(0,(LPSTR)&dataflag,1);
clen = (int) ciphered.length();
SAFE_FREE(ptr->tmp);
if (ptr->features & FEATURES_BASE64)
ptr->tmp = base64encode(ciphered.data(),clen);
else
ptr->tmp = base16encode(ciphered.data(),clen);
return ptr->tmp;
}
// decrypt string using KeyX, return decoded string as ASCII or NULL
LPSTR __cdecl cpp_decrypt(pCNTX ptr, LPCSTR szEncMsg)
{
LPSTR ciphered = NULL;
try {
ptr->error = ERROR_SEH;
pSIMDATA p = (pSIMDATA) ptr->pdata;
int clen = strlen(szEncMsg);
if (ptr->features & FEATURES_BASE64)
ciphered = base64decode(szEncMsg,&clen);
else
ciphered = base16decode(szEncMsg,&clen);
LPSTR bciphered = ciphered;
BYTE dataflag=0;
if (ptr->features & FEATURES_GZIP) {
dataflag = *ciphered;
bciphered++; clen--; // cut GZIP flag
}
if (ptr->features & FEATURES_CRC32) {
int len = *( WORD* )bciphered;
bciphered+=2; clen-=2; // cut CRC32 length
if (clen-CRC32::DIGESTSIZE<len) { // mesage not full
#if defined(_DEBUG) || defined(NETLIB_LOG)
Sent_NetLog("cpp_decrypt: error bad_len");
#endif
free(ciphered);
ptr->error = ERROR_BAD_LEN;
return NULL;
}
BYTE crc32[CRC32::DIGESTSIZE];
memset(crc32,0,sizeof(crc32));
CRC32().CalculateDigest(crc32, (PBYTE)(bciphered+CRC32::DIGESTSIZE), len);
if (memcmp(crc32,bciphered,CRC32::DIGESTSIZE)) { // message is bad crc
#if defined(_DEBUG) || defined(NETLIB_LOG)
Sent_NetLog("cpp_decrypt: error bad_crc");
#endif
free(ciphered);
ptr->error = ERROR_BAD_CRC;
return NULL;
}
bciphered+=CRC32::DIGESTSIZE; // cut CRC32 digest
clen=len;
}
string unciphered;
CBC_Mode<AES>::Decryption dec(p->KeyX,Tiger::DIGESTSIZE,IV);
StreamTransformationFilter cbcDecryptor(dec,new StringSink(unciphered));
cbcDecryptor.Put((PBYTE)bciphered,clen);
cbcDecryptor.MessageEnd();
free(ciphered);
SAFE_FREE(ptr->tmp);
if (dataflag & DATA_GZIP) {
ptr->tmp = (LPSTR) cpp_gunzip((PBYTE)unciphered.data(),unciphered.length(),clen);
ptr->tmp[clen] = 0;
}
else ptr->tmp = (LPSTR) _strdup(unciphered.c_str());
ptr->error = ERROR_NONE;
return ptr->tmp;
}
catch (...) {
#if defined(_DEBUG) || defined(NETLIB_LOG)
Sent_NetLog("cpp_decrypt: error seh");
#endif
free(ciphered);
SAFE_FREE(ptr->tmp);
return NULL;
}
}
// encode message from ANSI into UTF8 if need
LPSTR __cdecl cpp_encodeA(HANDLE context, LPCSTR msg)
{
pCNTX ptr = get_context_on_id(context);
if (!ptr) return NULL;
cpp_alloc_pdata(ptr); pSIMDATA p = (pSIMDATA) ptr->pdata;
if (!p->KeyX) { ptr->error = ERROR_NO_KEYX; return NULL; }
LPSTR szNewMsg = NULL;
LPSTR szOldMsg = (LPSTR) msg;
if (ptr->features & FEATURES_UTF8) {
// ansi message: convert to unicode->utf-8 and encrypt.
int slen = strlen(szOldMsg)+1;
LPWSTR wstring = (LPWSTR) alloca(slen*sizeof(WCHAR));
MultiByteToWideChar(CP_ACP, 0, szOldMsg, -1, wstring, slen*sizeof(WCHAR));
// encrypt
szNewMsg = cpp_encrypt(ptr, utf8encode(wstring));
}
else {
// ansi message: encrypt.
szNewMsg = cpp_encrypt(ptr, szOldMsg);
}
return szNewMsg;
}
// encode message from UTF8
LPSTR __cdecl cpp_encodeU(HANDLE context, LPCSTR msg)
{
pCNTX ptr = get_context_on_id(context);
if (!ptr) return NULL;
cpp_alloc_pdata(ptr); pSIMDATA p = (pSIMDATA) ptr->pdata;
if (!p->KeyX) { ptr->error = ERROR_NO_KEYX; return NULL; }
LPSTR szNewMsg = NULL;
LPSTR szOldMsg = (LPSTR) msg;
if (ptr->features & FEATURES_UTF8) {
// utf8 message: encrypt.
szNewMsg = cpp_encrypt(ptr, szOldMsg);
}
else {
// utf8 message: convert to ansi and encrypt.
LPWSTR wstring = utf8decode(szOldMsg);
int wlen = wcslen(wstring)+1;
LPSTR astring = (LPSTR) alloca(wlen);
WideCharToMultiByte(CP_ACP, 0, (LPWSTR)szOldMsg, -1, astring, wlen, 0, 0);
szNewMsg = cpp_encrypt(ptr, astring);
}
return szNewMsg;
}
// encode message from UNICODE into UTF8 if need
LPSTR __cdecl cpp_encodeW(HANDLE context, LPWSTR msg)
{
pCNTX ptr = get_context_on_id(context);
if (!ptr) return NULL;
cpp_alloc_pdata(ptr); pSIMDATA p = (pSIMDATA) ptr->pdata;
if (!p->KeyX) { ptr->error = ERROR_NO_KEYX; return NULL; }
LPSTR szNewMsg = NULL;
LPSTR szOldMsg = (LPSTR) msg;
if (ptr->features & FEATURES_UTF8) {
// unicode message: convert to utf-8 and encrypt.
szNewMsg = cpp_encrypt(ptr, utf8encode((LPWSTR)szOldMsg));
}
else {
// unicode message: convert to ansi and encrypt.
int wlen = wcslen((LPWSTR)szOldMsg)+1;
LPSTR astring = (LPSTR) alloca(wlen);
WideCharToMultiByte(CP_ACP, 0, (LPWSTR)szOldMsg, -1, astring, wlen, 0, 0);
szNewMsg = cpp_encrypt(ptr, astring);
}
return szNewMsg;
}
// decode message from UTF8 if need, return ANSIzUCS2z
LPSTR __cdecl cpp_decode(HANDLE context, LPCSTR szEncMsg)
{
pCNTX ptr = get_context_on_id(context);
if (!ptr) return NULL;
cpp_alloc_pdata(ptr); pSIMDATA p = (pSIMDATA) ptr->pdata;
if (!p->KeyX) { ptr->error = ERROR_NO_KEYX; return NULL; }
LPSTR szNewMsg = NULL;
LPSTR szOldMsg = cpp_decrypt(ptr, szEncMsg);
if (szOldMsg) {
if (ptr->features & FEATURES_UTF8) {
// utf8 message: convert to unicode -> ansii
LPWSTR wstring = utf8decode(szOldMsg);
int wlen = wcslen(wstring)+1;
szNewMsg = (LPSTR) malloc(wlen*(sizeof(WCHAR)+2)); // work.zy@gmail.com
WideCharToMultiByte(CP_ACP, 0, wstring, -1, szNewMsg, wlen, 0, 0);
memcpy(szNewMsg+strlen(szNewMsg)+1, wstring, wlen*sizeof(WCHAR)); // work.zy@gmail.com
}
else {
// ansi message: convert to unicode
int slen = strlen(szOldMsg)+1;
szNewMsg = (LPSTR) malloc(slen*(sizeof(WCHAR)+1));
memcpy(szNewMsg,szOldMsg,slen);
WCHAR* wstring = (LPWSTR) alloca(slen*sizeof(WCHAR));
MultiByteToWideChar(CP_ACP, 0, szOldMsg, -1, wstring, slen*sizeof(WCHAR));
memcpy(szNewMsg+slen,wstring,slen*sizeof(WCHAR));
}
}
SAFE_FREE(ptr->tmp);
ptr->tmp = szNewMsg;
return szNewMsg;
}
// decode message return UTF8z
LPSTR __cdecl cpp_decodeU(HANDLE context, LPCSTR szEncMsg)
{
pCNTX ptr = get_context_on_id(context);
if (!ptr) return NULL;
cpp_alloc_pdata(ptr); pSIMDATA p = (pSIMDATA) ptr->pdata;
if (!p->KeyX) { ptr->error = ERROR_NO_KEYX; return NULL; }
LPSTR szNewMsg = NULL;
LPSTR szOldMsg = cpp_decrypt(ptr, szEncMsg);
if (szOldMsg) {
if (ptr->features & FEATURES_UTF8) {
// utf8 message: copy
szNewMsg = _strdup(szOldMsg);
}
else {
// ansi message: convert to utf8
int slen = strlen(szOldMsg)+1;
LPWSTR wstring = (LPWSTR) alloca(slen*sizeof(WCHAR));
MultiByteToWideChar(CP_ACP, 0, szOldMsg, -1, wstring, slen*sizeof(WCHAR));
szNewMsg = _strdup(utf8encode(wstring));
}
}
SAFE_FREE(ptr->tmp);
ptr->tmp = szNewMsg;
return szNewMsg;
}
int __cdecl cpp_encrypt_file(HANDLE context,LPCSTR file_in,LPCSTR file_out)
{
pCNTX ptr = get_context_on_id(context);
if (!ptr) return 0;
cpp_alloc_pdata(ptr); pSIMDATA p = (pSIMDATA) ptr->pdata;
if (!p->KeyX) return 0;
try{
CBC_Mode<AES>::Encryption enc(p->KeyX,Tiger::DIGESTSIZE,IV);
FileSource *f = new FileSource(file_in,true,new StreamTransformationFilter (enc,new FileSink(file_out)));
delete f;
}
catch (...) {
return 0;
}
return 1;
}
int __cdecl cpp_decrypt_file(HANDLE context,LPCSTR file_in,LPCSTR file_out)
{
pCNTX ptr = get_context_on_id(context);
if (!ptr) return 0;
cpp_alloc_pdata(ptr); pSIMDATA p = (pSIMDATA) ptr->pdata;
if (!p->KeyX) return 0;
try{
CBC_Mode<AES>::Decryption dec(p->KeyX,Tiger::DIGESTSIZE,IV);
FileSource *f = new FileSource(file_in,true,new StreamTransformationFilter (dec,new FileSink(file_out)));
delete f;
}
catch (...) {
return 0;
}
return 1;
}
// EOF
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