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/****************************************************************************
**
** Copyright (C) 2012 Digia Plc and/or its subsidiary(-ies).
** Contact: http://www.qt-project.org/legal
**
** This file is part of Qt Creator.
**
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Digia. For licensing terms and
** conditions see http://qt.digia.com/licensing. For further information
** use the contact form at http://qt.digia.com/contact-us.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Digia gives you certain additional
** rights. These rights are described in the Digia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
****************************************************************************/
#include "sshcryptofacility_p.h"
#include "sshbotanconversions_p.h"
#include "sshcapabilities_p.h"
#include "sshexception_p.h"
#include "sshkeyexchange_p.h"
#include "sshkeypasswordretriever_p.h"
#include "sshpacket_p.h"
#include <botan/botan.h>
#include <QDebug>
#include <QList>
#include <string>
using namespace Botan;
namespace QSsh {
namespace Internal {
SshAbstractCryptoFacility::SshAbstractCryptoFacility()
: m_cipherBlockSize(0), m_macLength(0)
{
}
SshAbstractCryptoFacility::~SshAbstractCryptoFacility() {}
void SshAbstractCryptoFacility::clearKeys()
{
m_cipherBlockSize = 0;
m_macLength = 0;
m_sessionId.clear();
m_pipe.reset(0);
m_hMac.reset(0);
}
void SshAbstractCryptoFacility::recreateKeys(const SshKeyExchange &kex)
{
checkInvariant();
if (m_sessionId.isEmpty())
m_sessionId = kex.h();
Algorithm_Factory &af = global_state().algorithm_factory();
const std::string &cryptAlgo = botanCryptAlgoName(cryptAlgoName(kex));
BlockCipher * const cipher = af.prototype_block_cipher(cryptAlgo)->clone();
m_cipherBlockSize = cipher->block_size();
const QByteArray ivData = generateHash(kex, ivChar(), m_cipherBlockSize);
const InitializationVector iv(convertByteArray(ivData), m_cipherBlockSize);
const quint32 keySize = cipher->key_spec().maximum_keylength();
const QByteArray cryptKeyData = generateHash(kex, keyChar(), keySize);
SymmetricKey cryptKey(convertByteArray(cryptKeyData), keySize);
Keyed_Filter * const cipherMode = makeCipherMode(cipher, new Null_Padding, iv, cryptKey);
m_pipe.reset(new Pipe(cipherMode));
m_macLength = botanHMacKeyLen(hMacAlgoName(kex));
const QByteArray hMacKeyData = generateHash(kex, macChar(), macLength());
SymmetricKey hMacKey(convertByteArray(hMacKeyData), macLength());
const HashFunction * const hMacProto
= af.prototype_hash_function(botanHMacAlgoName(hMacAlgoName(kex)));
m_hMac.reset(new HMAC(hMacProto->clone()));
m_hMac->set_key(hMacKey);
}
void SshAbstractCryptoFacility::convert(QByteArray &data, quint32 offset,
quint32 dataSize) const
{
Q_ASSERT(offset + dataSize <= static_cast<quint32>(data.size()));
checkInvariant();
// Session id empty => No key exchange has happened yet.
if (dataSize == 0 || m_sessionId.isEmpty())
return;
if (dataSize % cipherBlockSize() != 0) {
throw SSH_SERVER_EXCEPTION(SSH_DISCONNECT_PROTOCOL_ERROR,
"Invalid packet size");
}
m_pipe->process_msg(reinterpret_cast<const byte *>(data.constData()) + offset,
dataSize);
quint32 bytesRead = m_pipe->read(reinterpret_cast<byte *>(data.data()) + offset,
dataSize, m_pipe->message_count() - 1); // Can't use Pipe::LAST_MESSAGE because of a VC bug.
Q_ASSERT(bytesRead == dataSize);
}
QByteArray SshAbstractCryptoFacility::generateMac(const QByteArray &data,
quint32 dataSize) const
{
return m_sessionId.isEmpty()
? QByteArray()
: convertByteArray(m_hMac->process(reinterpret_cast<const byte *>(data.constData()),
dataSize));
}
QByteArray SshAbstractCryptoFacility::generateHash(const SshKeyExchange &kex,
char c, quint32 length)
{
const QByteArray &k = kex.k();
const QByteArray &h = kex.h();
QByteArray data(k);
data.append(h).append(c).append(m_sessionId);
SecureVector<byte> key
= kex.hash()->process(convertByteArray(data), data.size());
while (key.size() < length) {
SecureVector<byte> tmpKey;
tmpKey += SecureVector<byte>(convertByteArray(k), k.size());
tmpKey += SecureVector<byte>(convertByteArray(h), h.size());
tmpKey += key;
key += kex.hash()->process(tmpKey);
}
return QByteArray(reinterpret_cast<const char *>(key.begin()), length);
}
void SshAbstractCryptoFacility::checkInvariant() const
{
Q_ASSERT(m_sessionId.isEmpty() == !m_pipe);
}
const QByteArray SshEncryptionFacility::PrivKeyFileStartLineRsa("-----BEGIN RSA PRIVATE KEY-----");
const QByteArray SshEncryptionFacility::PrivKeyFileStartLineDsa("-----BEGIN DSA PRIVATE KEY-----");
const QByteArray SshEncryptionFacility::PrivKeyFileEndLineRsa("-----END RSA PRIVATE KEY-----");
const QByteArray SshEncryptionFacility::PrivKeyFileEndLineDsa("-----END DSA PRIVATE KEY-----");
QByteArray SshEncryptionFacility::cryptAlgoName(const SshKeyExchange &kex) const
{
return kex.encryptionAlgo();
}
QByteArray SshEncryptionFacility::hMacAlgoName(const SshKeyExchange &kex) const
{
return kex.hMacAlgoClientToServer();
}
Keyed_Filter *SshEncryptionFacility::makeCipherMode(BlockCipher *cipher,
BlockCipherModePaddingMethod *paddingMethod, const InitializationVector &iv,
const SymmetricKey &key)
{
return new CBC_Encryption(cipher, paddingMethod, key, iv);
}
void SshEncryptionFacility::encrypt(QByteArray &data) const
{
convert(data, 0, data.size());
}
void SshEncryptionFacility::createAuthenticationKey(const QByteArray &privKeyFileContents)
{
if (privKeyFileContents == m_cachedPrivKeyContents)
return;
#ifdef CREATOR_SSH_DEBUG
qDebug("%s: Key not cached, reading", Q_FUNC_INFO);
#endif
QList<BigInt> pubKeyParams;
QList<BigInt> allKeyParams;
QString error1;
QString error2;
if (!createAuthenticationKeyFromPKCS8(privKeyFileContents, pubKeyParams, allKeyParams, error1)
&& !createAuthenticationKeyFromOpenSSL(privKeyFileContents, pubKeyParams, allKeyParams,
error2)) {
#ifdef CREATOR_SSH_DEBUG
qDebug("%s: %s\n\t%s\n", Q_FUNC_INFO, qPrintable(error1), qPrintable(error2));
#endif
throw SshClientException(SshKeyFileError, SSH_TR("Decoding of private key file failed: "
"Format not understood."));
}
foreach (const BigInt &b, allKeyParams) {
if (b.is_zero()) {
throw SshClientException(SshKeyFileError,
SSH_TR("Decoding of private key file failed: Invalid zero parameter."));
}
}
m_authPubKeyBlob = AbstractSshPacket::encodeString(m_authKeyAlgoName);
foreach (const BigInt &b, pubKeyParams)
m_authPubKeyBlob += AbstractSshPacket::encodeMpInt(b);
m_cachedPrivKeyContents = privKeyFileContents;
}
bool SshEncryptionFacility::createAuthenticationKeyFromPKCS8(const QByteArray &privKeyFileContents,
QList<BigInt> &pubKeyParams, QList<BigInt> &allKeyParams, QString &error)
{
try {
Pipe pipe;
pipe.process_msg(convertByteArray(privKeyFileContents), privKeyFileContents.size());
Private_Key * const key = PKCS8::load_key(pipe, m_rng, SshKeyPasswordRetriever());
if (DSA_PrivateKey * const dsaKey = dynamic_cast<DSA_PrivateKey *>(key)) {
m_authKeyAlgoName = SshCapabilities::PubKeyDss;
m_authKey.reset(dsaKey);
pubKeyParams << dsaKey->group_p() << dsaKey->group_q()
<< dsaKey->group_g() << dsaKey->get_y();
allKeyParams << pubKeyParams << dsaKey->get_x();
} else if (RSA_PrivateKey * const rsaKey = dynamic_cast<RSA_PrivateKey *>(key)) {
m_authKeyAlgoName = SshCapabilities::PubKeyRsa;
m_authKey.reset(rsaKey);
pubKeyParams << rsaKey->get_e() << rsaKey->get_n();
allKeyParams << pubKeyParams << rsaKey->get_p() << rsaKey->get_q()
<< rsaKey->get_d();
} else {
qWarning("%s: Unexpected code flow, expected success or exception.", Q_FUNC_INFO);
return false;
}
} catch (const Botan::Exception &ex) {
error = QLatin1String(ex.what());
return false;
} catch (const Botan::Decoding_Error &ex) {
error = QLatin1String(ex.what());
return false;
}
return true;
}
bool SshEncryptionFacility::createAuthenticationKeyFromOpenSSL(const QByteArray &privKeyFileContents,
QList<BigInt> &pubKeyParams, QList<BigInt> &allKeyParams, QString &error)
{
try {
bool syntaxOk = true;
QList<QByteArray> lines = privKeyFileContents.split('\n');
while (lines.last().isEmpty())
lines.removeLast();
if (lines.count() < 3) {
syntaxOk = false;
} else if (lines.first() == PrivKeyFileStartLineRsa) {
if (lines.last() != PrivKeyFileEndLineRsa)
syntaxOk = false;
else
m_authKeyAlgoName = SshCapabilities::PubKeyRsa;
} else if (lines.first() == PrivKeyFileStartLineDsa) {
if (lines.last() != PrivKeyFileEndLineDsa)
syntaxOk = false;
else
m_authKeyAlgoName = SshCapabilities::PubKeyDss;
} else {
syntaxOk = false;
}
if (!syntaxOk) {
error = SSH_TR("Unexpected format.");
return false;
}
QByteArray privateKeyBlob;
for (int i = 1; i < lines.size() - 1; ++i)
privateKeyBlob += lines.at(i);
privateKeyBlob = QByteArray::fromBase64(privateKeyBlob);
BER_Decoder decoder(convertByteArray(privateKeyBlob), privateKeyBlob.size());
BER_Decoder sequence = decoder.start_cons(SEQUENCE);
size_t version;
sequence.decode (version);
if (version != 0) {
error = SSH_TR("Key encoding has version %1, expected 0.").arg(version);
return false;
}
if (m_authKeyAlgoName == SshCapabilities::PubKeyDss) {
BigInt p, q, g, y, x;
sequence.decode (p).decode (q).decode (g).decode (y).decode (x);
DSA_PrivateKey * const dsaKey = new DSA_PrivateKey(m_rng, DL_Group(p, q, g), x);
m_authKey.reset(dsaKey);
pubKeyParams << p << q << g << y;
allKeyParams << pubKeyParams << x;
} else {
BigInt p, q, e, d, n;
sequence.decode(n).decode(e).decode(d).decode(p).decode(q);
RSA_PrivateKey * const rsaKey = new RSA_PrivateKey(m_rng, p, q, e, d, n);
m_authKey.reset(rsaKey);
pubKeyParams << e << n;
allKeyParams << pubKeyParams << p << q << d;
}
sequence.discard_remaining();
sequence.verify_end();
} catch (const Botan::Exception &ex) {
error = QLatin1String(ex.what());
return false;
} catch (const Botan::Decoding_Error &ex) {
error = QLatin1String(ex.what());
return false;
}
return true;
}
QByteArray SshEncryptionFacility::authenticationAlgorithmName() const
{
Q_ASSERT(m_authKey);
return m_authKeyAlgoName;
}
QByteArray SshEncryptionFacility::authenticationKeySignature(const QByteArray &data) const
{
Q_ASSERT(m_authKey);
QScopedPointer<PK_Signer> signer(new PK_Signer(*m_authKey,
botanEmsaAlgoName(m_authKeyAlgoName)));
QByteArray dataToSign = AbstractSshPacket::encodeString(sessionId()) + data;
QByteArray signature
= convertByteArray(signer->sign_message(convertByteArray(dataToSign),
dataToSign.size(), m_rng));
return AbstractSshPacket::encodeString(m_authKeyAlgoName)
+ AbstractSshPacket::encodeString(signature);
}
QByteArray SshEncryptionFacility::getRandomNumbers(int count) const
{
QByteArray data;
data.resize(count);
m_rng.randomize(convertByteArray(data), count);
return data;
}
SshEncryptionFacility::~SshEncryptionFacility() {}
QByteArray SshDecryptionFacility::cryptAlgoName(const SshKeyExchange &kex) const
{
return kex.decryptionAlgo();
}
QByteArray SshDecryptionFacility::hMacAlgoName(const SshKeyExchange &kex) const
{
return kex.hMacAlgoServerToClient();
}
Keyed_Filter *SshDecryptionFacility::makeCipherMode(BlockCipher *cipher,
BlockCipherModePaddingMethod *paddingMethod, const InitializationVector &iv,
const SymmetricKey &key)
{
return new CBC_Decryption(cipher, paddingMethod, key, iv);
}
void SshDecryptionFacility::decrypt(QByteArray &data, quint32 offset,
quint32 dataSize) const
{
convert(data, offset, dataSize);
#ifdef CREATOR_SSH_DEBUG
qDebug("Decrypted data:");
const char * const start = data.constData() + offset;
const char * const end = start + dataSize;
for (const char *c = start; c < end; ++c)
qDebug() << "'" << *c << "' (0x" << (static_cast<int>(*c) & 0xff) << ")";
#endif
}
} // namespace Internal
} // namespace QSsh
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