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simplecrypt.cpp
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simplecrypt.cpp
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#include "simplecrypt.h"
#include <QByteArray>
#include <QtDebug>
#include <QtGlobal>
#include <QDateTime>
#include <QCryptographicHash>
#include <QDataStream>
SimpleCrypt::SimpleCrypt():
m_key(0),
m_compressionMode(CompressionAuto),
m_protectionMode(ProtectionChecksum),
m_lastError(ErrorNoError)
{
qsrand(uint(QDateTime::currentMSecsSinceEpoch() & 0xFFFF));
}
SimpleCrypt::SimpleCrypt(quint64 key):
m_key(key),
m_compressionMode(CompressionAuto),
m_protectionMode(ProtectionChecksum),
m_lastError(ErrorNoError)
{
qsrand(uint(QDateTime::currentMSecsSinceEpoch() & 0xFFFF));
splitKey();
}
void SimpleCrypt::setKey(quint64 key)
{
m_key = key;
splitKey();
}
void SimpleCrypt::splitKey()
{
m_keyParts.clear();
m_keyParts.resize(8);
for (int i=0;i<8;i++) {
quint64 part = m_key;
for (int j=i; j>0; j--)
part = part >> 8;
part = part & 0xff;
m_keyParts[i] = static_cast<char>(part);
}
}
QByteArray SimpleCrypt::encryptToByteArray(const QString& plaintext)
{
QByteArray plaintextArray = plaintext.toUtf8();
return encryptToByteArray(plaintextArray);
}
QByteArray SimpleCrypt::encryptToByteArray(QByteArray plaintext)
{
if (m_keyParts.isEmpty()) {
qWarning() << "No key set.";
m_lastError = ErrorNoKeySet;
return QByteArray();
}
QByteArray ba = plaintext;
CryptoFlags flags = CryptoFlagNone;
if (m_compressionMode == CompressionAlways) {
ba = qCompress(ba, 9); //maximum compression
flags |= CryptoFlagCompression;
} else if (m_compressionMode == CompressionAuto) {
QByteArray compressed = qCompress(ba, 9);
if (compressed.count() < ba.count()) {
ba = compressed;
flags |= CryptoFlagCompression;
}
}
QByteArray integrityProtection;
if (m_protectionMode == ProtectionChecksum) {
flags |= CryptoFlagChecksum;
QDataStream s(&integrityProtection, QIODevice::WriteOnly);
s << qChecksum(ba.constData(), ba.length());
} else if (m_protectionMode == ProtectionHash) {
flags |= CryptoFlagHash;
QCryptographicHash hash(QCryptographicHash::Sha1);
hash.addData(ba);
integrityProtection += hash.result();
}
//prepend a random char to the string
char randomChar = char(qrand() & 0xFF);
ba = randomChar + integrityProtection + ba;
int pos(0);
char lastChar(0);
int cnt = ba.count();
while (pos < cnt) {
ba[pos] = ba.at(pos) ^ m_keyParts.at(pos % 8) ^ lastChar;
lastChar = ba.at(pos);
++pos;
}
QByteArray resultArray;
resultArray.append(char(0x03)); //version for future updates to algorithm
resultArray.append(char(flags)); //encryption flags
resultArray.append(ba);
m_lastError = ErrorNoError;
return resultArray;
}
QString SimpleCrypt::encryptToString(const QString& plaintext)
{
QByteArray plaintextArray = plaintext.toUtf8();
QByteArray cypher = encryptToByteArray(plaintextArray);
QString cypherString = QString::fromLatin1(cypher.toBase64());
return cypherString;
}
QString SimpleCrypt::encryptToString(QByteArray plaintext)
{
QByteArray cypher = encryptToByteArray(plaintext);
QString cypherString = QString::fromLatin1(cypher.toBase64());
return cypherString;
}
QString SimpleCrypt::decryptToString(const QString &cyphertext)
{
QByteArray cyphertextArray = QByteArray::fromBase64(cyphertext.toLatin1());
QByteArray plaintextArray = decryptToByteArray(cyphertextArray);
QString plaintext = QString::fromUtf8(plaintextArray, plaintextArray.size());
return plaintext;
}
QString SimpleCrypt::decryptToString(QByteArray cypher)
{
QByteArray ba = decryptToByteArray(cypher);
QString plaintext = QString::fromUtf8(ba, ba.size());
return plaintext;
}
QByteArray SimpleCrypt::decryptToByteArray(const QString& cyphertext)
{
QByteArray cyphertextArray = QByteArray::fromBase64(cyphertext.toLatin1());
QByteArray ba = decryptToByteArray(cyphertextArray);
return ba;
}
QByteArray SimpleCrypt::decryptToByteArray(QByteArray cypher)
{
if (m_keyParts.isEmpty()) {
qWarning() << "No key set.";
m_lastError = ErrorNoKeySet;
return QByteArray();
}
QByteArray ba = cypher;
if( cypher.count() < 3 )
return QByteArray();
char version = ba.at(0);
if (version !=3) { //we only work with version 3
m_lastError = ErrorUnknownVersion;
qWarning() << "Invalid version or not a cyphertext.";
return QByteArray();
}
CryptoFlags flags = CryptoFlags(ba.at(1));
ba = ba.mid(2);
int pos(0);
int cnt(ba.count());
char lastChar = 0;
while (pos < cnt) {
char currentChar = ba[pos];
ba[pos] = ba.at(pos) ^ lastChar ^ m_keyParts.at(pos % 8);
lastChar = currentChar;
++pos;
}
ba = ba.mid(1); //chop off the random number at the start
bool integrityOk(true);
if (flags.testFlag(CryptoFlagChecksum)) {
if (ba.length() < 2) {
m_lastError = ErrorIntegrityFailed;
return QByteArray();
}
quint16 storedChecksum;
{
QDataStream s(&ba, QIODevice::ReadOnly);
s >> storedChecksum;
}
ba = ba.mid(2);
quint16 checksum = qChecksum(ba.constData(), ba.length());
integrityOk = (checksum == storedChecksum);
} else if (flags.testFlag(CryptoFlagHash)) {
if (ba.length() < 20) {
m_lastError = ErrorIntegrityFailed;
return QByteArray();
}
QByteArray storedHash = ba.left(20);
ba = ba.mid(20);
QCryptographicHash hash(QCryptographicHash::Sha1);
hash.addData(ba);
integrityOk = (hash.result() == storedHash);
}
if (!integrityOk) {
m_lastError = ErrorIntegrityFailed;
return QByteArray();
}
if (flags.testFlag(CryptoFlagCompression))
ba = qUncompress(ba);
m_lastError = ErrorNoError;
return ba;
}