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/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** Contact: Qt Software Information (qt-info@nokia.com)
**
** This file is part of the QtNetwork module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** No Commercial Usage
** This file contains pre-release code and may not be distributed.
** You may use this file in accordance with the terms and conditions
** contained in the either Technology Preview License Agreement or the
** Beta Release License Agreement.
**
** 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, Nokia gives you certain
** additional rights. These rights are described in the Nokia Qt LGPL
** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this
** package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3.0 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU General Public License version 3.0 requirements will be
** met: http://www.gnu.org/copyleft/gpl.html.
**
** If you are unsure which license is appropriate for your use, please
** contact the sales department at qt-sales@nokia.com.
** $QT_END_LICENSE$
**
****************************************************************************/
#include <qauthenticator.h>
#include <qauthenticator_p.h>
#include <qdebug.h>
#include <qhash.h>
#include <qbytearray.h>
#include <qcryptographichash.h>
#include <qhttp.h>
#include <qdatastream.h>
#include <qendian.h>
#include <qstring.h>
QT_BEGIN_NAMESPACE
#include <../3rdparty/des/des.cpp>
static QByteArray qNtlmPhase1();
static QByteArray qNtlmPhase3(QAuthenticatorPrivate *ctx, const QByteArray& phase2data);
/*!
\class QAuthenticator
\brief The QAuthenticator class provides an authentication object.
\since 4.3
\reentrant
\ingroup io
\inmodule QtNetwork
The QAuthenticator class is usually used in the
\l{QHttp::}{authenticationRequired()} and
\l{QHttp::}{proxyAuthenticationRequired()} signals of QHttp and
QAbstractSocket. The class provides a way to pass back the required
authentication information to the socket when accessing services that
require authentication.
\sa QSslSocket
*/
/*!
Constructs an empty authentication object
*/
QAuthenticator::QAuthenticator()
: d(0)
{
}
/*!
Destructs the object
*/
QAuthenticator::~QAuthenticator()
{
if (d && !d->ref.deref())
delete d;
}
/*!
Constructs a copy of \a other.
*/
QAuthenticator::QAuthenticator(const QAuthenticator &other)
: d(other.d)
{
if (d)
d->ref.ref();
}
/*!
Assigns the contents of \a other to this authenticator.
*/
QAuthenticator &QAuthenticator::operator=(const QAuthenticator &other)
{
if (d == other.d)
return *this;
detach();
d->user = other.d->user;
d->password = other.d->password;
return *this;
}
/*!
Returns true if this authenticator is identical to \a other; otherwise
returns false.
*/
bool QAuthenticator::operator==(const QAuthenticator &other) const
{
if (d == other.d)
return true;
return d->user == other.d->user
&& d->password == other.d->password
&& d->realm == other.d->realm
&& d->method == other.d->method;
}
/*!
\fn bool QAuthenticator::operator!=(const QAuthenticator &other) const
Returns true if this authenticator is different from \a other; otherwise
returns false.
*/
/*!
returns the user used for authentication.
*/
QString QAuthenticator::user() const
{
return d ? d->user : QString();
}
/*!
Sets the \a user used for authentication.
*/
void QAuthenticator::setUser(const QString &user)
{
detach();
d->user = user;
}
/*!
returns the password used for authentication.
*/
QString QAuthenticator::password() const
{
return d ? d->password : QString();
}
/*!
Sets the \a password used for authentication.
*/
void QAuthenticator::setPassword(const QString &password)
{
detach();
d->password = password;
}
/*!
\internal
*/
void QAuthenticator::detach()
{
if (!d) {
d = new QAuthenticatorPrivate;
d->ref = 1;
return;
}
qAtomicDetach(d);
d->phase = QAuthenticatorPrivate::Start;
}
/*!
returns the realm requiring authentication.
*/
QString QAuthenticator::realm() const
{
return d ? d->realm : QString();
}
/*!
returns true if the authenticator is null.
*/
bool QAuthenticator::isNull() const
{
return !d;
}
QAuthenticatorPrivate::QAuthenticatorPrivate()
: ref(0)
, method(None)
, phase(Start)
, nonceCount(0)
{
cnonce = QCryptographicHash::hash(QByteArray::number(qrand(), 16) + QByteArray::number(qrand(), 16),
QCryptographicHash::Md5).toHex();
nonceCount = 0;
}
#ifndef QT_NO_HTTP
void QAuthenticatorPrivate::parseHttpResponse(const QHttpResponseHeader &header, bool isProxy)
{
QList<QPair<QString, QString> > values = header.values();
const char *search = isProxy ? "proxy-authenticate" : "www-authenticate";
method = None;
/*
Fun from the HTTP 1.1 specs, that we currently ignore:
User agents are advised to take special care in parsing the WWW-
Authenticate field value as it might contain more than one challenge,
or if more than one WWW-Authenticate header field is provided, the
contents of a challenge itself can contain a comma-separated list of
authentication parameters.
*/
QString headerVal;
for (int i = 0; i < values.size(); ++i) {
const QPair<QString, QString> ¤t = values.at(i);
if (current.first.toLower() != QLatin1String(search))
continue;
QString str = current.second;
if (method < Basic && str.startsWith(QLatin1String("Basic"), Qt::CaseInsensitive)) {
method = Basic; headerVal = str.mid(6);
} else if (method < Ntlm && str.startsWith(QLatin1String("NTLM"), Qt::CaseInsensitive)) {
method = Ntlm;
headerVal = str.mid(5);
} else if (method < DigestMd5 && str.startsWith(QLatin1String("Digest"), Qt::CaseInsensitive)) {
method = DigestMd5;
headerVal = str.mid(7);
}
}
challenge = headerVal.trimmed().toLatin1();
QHash<QByteArray, QByteArray> options = parseDigestAuthenticationChallenge(challenge);
switch(method) {
case Basic:
realm = QString::fromLatin1(options.value("realm"));
if (user.isEmpty())
phase = Done;
break;
case Ntlm:
// #### extract from header
realm = QString();
break;
case DigestMd5: {
realm = QString::fromLatin1(options.value("realm"));
if (options.value("stale").toLower() == "true")
phase = Start;
if (user.isEmpty())
phase = Done;
break;
}
default:
realm = QString();
challenge = QByteArray();
phase = Invalid;
}
}
#endif
QByteArray QAuthenticatorPrivate::calculateResponse(const QByteArray &requestMethod, const QByteArray &path)
{
QByteArray response;
const char *methodString = 0;
switch(method) {
case QAuthenticatorPrivate::None:
methodString = "";
phase = Done;
break;
case QAuthenticatorPrivate::Plain:
response = '\0' + user.toUtf8() + '\0' + password.toUtf8();
phase = Done;
break;
case QAuthenticatorPrivate::Basic:
methodString = "Basic ";
response = user.toLatin1() + ':' + password.toLatin1();
response = response.toBase64();
phase = Done;
break;
case QAuthenticatorPrivate::Login:
if (challenge.contains("VXNlciBOYW1lAA==")) {
response = user.toUtf8().toBase64();
phase = Phase2;
} else if (challenge.contains("UGFzc3dvcmQA")) {
response = password.toUtf8().toBase64();
phase = Done;
}
break;
case QAuthenticatorPrivate::CramMd5:
break;
case QAuthenticatorPrivate::DigestMd5:
methodString = "Digest ";
response = digestMd5Response(challenge, requestMethod, path);
phase = Done;
break;
case QAuthenticatorPrivate::Ntlm:
methodString = "NTLM ";
if (challenge.isEmpty()) {
response = qNtlmPhase1().toBase64();
if (user.isEmpty())
phase = Done;
else
phase = Phase2;
} else {
response = qNtlmPhase3(this, QByteArray::fromBase64(challenge)).toBase64();
phase = Done;
}
break;
}
return QByteArray(methodString) + response;
}
// ---------------------------- Digest Md5 code ----------------------------------------
QHash<QByteArray, QByteArray> QAuthenticatorPrivate::parseDigestAuthenticationChallenge(const QByteArray &challenge)
{
QHash<QByteArray, QByteArray> options;
// parse the challenge
const char *d = challenge.constData();
const char *end = d + challenge.length();
while (d < end) {
while (d < end && (*d == ' ' || *d == '\n' || *d == '\r'))
++d;
const char *start = d;
while (d < end && *d != '=')
++d;
QByteArray key = QByteArray(start, d - start);
++d;
if (d >= end)
break;
bool quote = (*d == '"');
if (quote)
++d;
if (d >= end)
break;
start = d;
QByteArray value;
while (d < end) {
bool backslash = false;
if (*d == '\\' && d < end - 1) {
++d;
backslash = true;
}
if (!backslash) {
if (quote) {
if (*d == '"')
break;
} else {
if (*d == ',')
break;
}
}
value += *d;
++d;
}
while (d < end && *d != ',')
++d;
++d;
options[key] = value;
}
QByteArray qop = options.value("qop");
if (!qop.isEmpty()) {
QList<QByteArray> qopoptions = qop.split(',');
if (!qopoptions.contains("auth"))
return QHash<QByteArray, QByteArray>();
// #### can't do auth-int currently
// if (qop.contains("auth-int"))
// qop = "auth-int";
// else if (qop.contains("auth"))
// qop = "auth";
// else
// qop = QByteArray();
options["qop"] = "auth";
}
return options;
}
/*
Digest MD5 implementation
Code taken from RFC 2617
Currently we don't support the full SASL authentication mechanism (which includes cyphers)
*/
/* calculate request-digest/response-digest as per HTTP Digest spec */
static QByteArray digestMd5ResponseHelper(
const QByteArray &alg,
const QByteArray &userName,
const QByteArray &realm,
const QByteArray &password,
const QByteArray &nonce, /* nonce from server */
const QByteArray &nonceCount, /* 8 hex digits */
const QByteArray &cNonce, /* client nonce */
const QByteArray &qop, /* qop-value: "", "auth", "auth-int" */
const QByteArray &method, /* method from the request */
const QByteArray &digestUri, /* requested URL */
const QByteArray &hEntity /* H(entity body) if qop="auth-int" */
)
{
QCryptographicHash hash(QCryptographicHash::Md5);
hash.addData(userName);
hash.addData(":", 1);
hash.addData(realm);
hash.addData(":", 1);
hash.addData(password);
QByteArray ha1 = hash.result();
if (alg.toLower() == "md5-sess") {
hash.reset();
// RFC 2617 contains an error, it was:
// hash.addData(ha1);
// but according to the errata page at http://www.rfc-editor.org/errata_list.php, ID 1649, it
// must be the following line:
hash.addData(ha1.toHex());
hash.addData(":", 1);
hash.addData(nonce);
hash.addData(":", 1);
hash.addData(cNonce);
ha1 = hash.result();
};
ha1 = ha1.toHex();
// calculate H(A2)
hash.reset();
hash.addData(method);
hash.addData(":", 1);
hash.addData(digestUri);
if (qop.toLower() == "auth-int") {
hash.addData(":", 1);
hash.addData(hEntity);
}
QByteArray ha2hex = hash.result().toHex();
// calculate response
hash.reset();
hash.addData(ha1);
hash.addData(":", 1);
hash.addData(nonce);
hash.addData(":", 1);
if (!qop.isNull()) {
hash.addData(nonceCount);
hash.addData(":", 1);
hash.addData(cNonce);
hash.addData(":", 1);
hash.addData(qop);
hash.addData(":", 1);
}
hash.addData(ha2hex);
return hash.result().toHex();
}
QByteArray QAuthenticatorPrivate::digestMd5Response(const QByteArray &challenge, const QByteArray &method, const QByteArray &path)
{
QHash<QByteArray,QByteArray> options = parseDigestAuthenticationChallenge(challenge);
++nonceCount;
QByteArray nonceCountString = QByteArray::number(nonceCount, 16);
while (nonceCountString.length() < 8)
nonceCountString.prepend('0');
QByteArray nonce = options.value("nonce");
QByteArray opaque = options.value("opaque");
QByteArray qop = options.value("qop");
// qDebug() << "calculating digest: method=" << method << "path=" << path;
QByteArray response = digestMd5ResponseHelper(options.value("algorithm"), user.toLatin1(),
realm.toLatin1(), password.toLatin1(),
nonce, nonceCountString,
cnonce, qop, method,
path, QByteArray());
QByteArray credentials;
credentials += "username=\"" + user.toLatin1() + "\", ";
credentials += "realm=\"" + realm.toLatin1() + "\", ";
credentials += "nonce=\"" + nonce + "\", ";
credentials += "uri=\"" + path + "\", ";
if (!opaque.isEmpty())
credentials += "opaque=\"" + opaque + "\", ";
credentials += "response=\"" + response + "\"";
if (!options.value("algorithm").isEmpty())
credentials += ", algorithm=" + options.value("algorithm");
if (!options.value("qop").isEmpty()) {
credentials += ", qop=" + qop + ", ";
credentials += "nc=" + nonceCountString + ", ";
credentials += "cnonce=\"" + cnonce + "\"";
}
return credentials;
}
// ---------------------------- Digest Md5 code ----------------------------------------
/*
* NTLM message flags.
*
* Copyright (c) 2004 Andrey Panin <pazke@donpac.ru>
*
* This software is released under the MIT license.
*/
/*
* Indicates that Unicode strings are supported for use in security
* buffer data.
*/
#define NTLMSSP_NEGOTIATE_UNICODE 0x00000001
/*
* Indicates that OEM strings are supported for use in security buffer data.
*/
#define NTLMSSP_NEGOTIATE_OEM 0x00000002
/*
* Requests that the server's authentication realm be included in the
* Type 2 message.
*/
#define NTLMSSP_REQUEST_TARGET 0x00000004
/*
* Specifies that authenticated communication between the client and server
* should carry a digital signature (message integrity).
*/
#define NTLMSSP_NEGOTIATE_SIGN 0x00000010
/*
* Specifies that authenticated communication between the client and server
* should be encrypted (message confidentiality).
*/
#define NTLMSSP_NEGOTIATE_SEAL 0x00000020
/*
* Indicates that datagram authentication is being used.
*/
#define NTLMSSP_NEGOTIATE_DATAGRAM 0x00000040
/*
* Indicates that the LAN Manager session key should be
* used for signing and sealing authenticated communications.
*/
#define NTLMSSP_NEGOTIATE_LM_KEY 0x00000080
/*
* Indicates that NTLM authentication is being used.
*/
#define NTLMSSP_NEGOTIATE_NTLM 0x00000200
/*
* Sent by the client in the Type 1 message to indicate that the name of the
* domain in which the client workstation has membership is included in the
* message. This is used by the server to determine whether the client is
* eligible for local authentication.
*/
#define NTLMSSP_NEGOTIATE_DOMAIN_SUPPLIED 0x00001000
/*
* Sent by the client in the Type 1 message to indicate that the client
* workstation's name is included in the message. This is used by the server
* to determine whether the client is eligible for local authentication.
*/
#define NTLMSSP_NEGOTIATE_WORKSTATION_SUPPLIED 0x00002000
/*
* Sent by the server to indicate that the server and client are on the same
* machine. Implies that the client may use the established local credentials
* for authentication instead of calculating a response to the challenge.
*/
#define NTLMSSP_NEGOTIATE_LOCAL_CALL 0x00004000
/*
* Indicates that authenticated communication between the client and server
* should be signed with a "dummy" signature.
*/
#define NTLMSSP_NEGOTIATE_ALWAYS_SIGN 0x00008000
/*
* Sent by the server in the Type 2 message to indicate that the target
* authentication realm is a domain.
*/
#define NTLMSSP_TARGET_TYPE_DOMAIN 0x00010000
/*
* Sent by the server in the Type 2 message to indicate that the target
* authentication realm is a server.
*/
#define NTLMSSP_TARGET_TYPE_SERVER 0x00020000
/*
* Sent by the server in the Type 2 message to indicate that the target
* authentication realm is a share. Presumably, this is for share-level
* authentication. Usage is unclear.
*/
#define NTLMSSP_TARGET_TYPE_SHARE 0x00040000
/*
* Indicates that the NTLM2 signing and sealing scheme should be used for
* protecting authenticated communications. Note that this refers to a
* particular session security scheme, and is not related to the use of
* NTLMv2 authentication.
*/
#define NTLMSSP_NEGOTIATE_NTLM2 0x00080000
/*
* Sent by the server in the Type 2 message to indicate that it is including
* a Target Information block in the message. The Target Information block
* is used in the calculation of the NTLMv2 response.
*/
#define NTLMSSP_NEGOTIATE_TARGET_INFO 0x00800000
/*
* Indicates that 128-bit encryption is supported.
*/
#define NTLMSSP_NEGOTIATE_128 0x20000000
/*
* Indicates that the client will provide an encrypted master session key in
* the "Session Key" field of the Type 3 message. This is used in signing and
* sealing, and is RC4-encrypted using the previous session key as the
* encryption key.
*/
#define NTLMSSP_NEGOTIATE_KEY_EXCHANGE 0x40000000
/*
* Indicates that 56-bit encryption is supported.
*/
#define NTLMSSP_NEGOTIATE_56 0x80000000
/* usage:
// fill up ctx with what we know.
QByteArray response = qNtlmPhase1(ctx);
// send response (b64 encoded??)
// get response from server (b64 decode?)
Phase2Block pb;
qNtlmDecodePhase2(response, pb);
response = qNtlmPhase3(ctx, pb);
// send response (b64 encoded??)
*/
/*
TODO:
- Fix unicode handling
- add v2 handling
*/
class QNtlmBuffer {
public:
QNtlmBuffer() : len(0), maxLen(0), offset(0) {}
quint16 len;
quint16 maxLen;
quint32 offset;
enum { Size = 8 };
};
class QNtlmPhase1BlockBase
{
public:
char magic[8];
quint32 type;
quint32 flags;
QNtlmBuffer domain;
QNtlmBuffer workstation;
enum { Size = 32 };
};
// ################# check paddings
class QNtlmPhase2BlockBase
{
public:
char magic[8];
quint32 type;
QNtlmBuffer targetName;
quint32 flags;
unsigned char challenge[8];
quint32 context[2];
QNtlmBuffer targetInfo;
enum { Size = 48 };
};
class QNtlmPhase3BlockBase {
public:
char magic[8];
quint32 type;
QNtlmBuffer lmResponse;
QNtlmBuffer ntlmResponse;
QNtlmBuffer domain;
QNtlmBuffer user;
QNtlmBuffer workstation;
QNtlmBuffer sessionKey;
quint32 flags;
enum { Size = 64 };
};
static void qStreamNtlmBuffer(QDataStream& ds, const QByteArray& s)
{
ds.writeRawData(s.constData(), s.size());
}
static void qStreamNtlmString(QDataStream& ds, const QString& s, bool unicode)
{
if (!unicode) {
qStreamNtlmBuffer(ds, s.toLatin1());
return;
}
const ushort *d = s.utf16();
for (int i = 0; i < s.length(); ++i)
ds << d[i];
}
static int qEncodeNtlmBuffer(QNtlmBuffer& buf, int offset, const QByteArray& s)
{
buf.len = s.size();
buf.maxLen = buf.len;
buf.offset = (offset + 1) & ~1;
return buf.offset + buf.len;
}
static int qEncodeNtlmString(QNtlmBuffer& buf, int offset, const QString& s, bool unicode)
{
if (!unicode)
return qEncodeNtlmBuffer(buf, offset, s.toLatin1());
buf.len = 2 * s.length();
buf.maxLen = buf.len;
buf.offset = (offset + 1) & ~1;
return buf.offset + buf.len;
}
static QDataStream& operator<<(QDataStream& s, const QNtlmBuffer& b)
{
s << b.len << b.maxLen << b.offset;
return s;
}
static QDataStream& operator>>(QDataStream& s, QNtlmBuffer& b)
{
s >> b.len >> b.maxLen >> b.offset;
return s;
}
class QNtlmPhase1Block : public QNtlmPhase1BlockBase
{ // request
public:
QNtlmPhase1Block() {
qstrncpy(magic, "NTLMSSP", 8);
type = 1;
flags = NTLMSSP_NEGOTIATE_UNICODE | NTLMSSP_NEGOTIATE_NTLM | NTLMSSP_REQUEST_TARGET;
}
// extracted
QString domainStr, workstationStr;
};
class QNtlmPhase2Block : public QNtlmPhase2BlockBase
{ // challenge
public:
QNtlmPhase2Block() {
magic[0] = 0;
type = 0xffffffff;
}
// extracted
QString targetNameStr, targetInfoStr;
};
class QNtlmPhase3Block : public QNtlmPhase3BlockBase { // response
public:
QNtlmPhase3Block() {
qstrncpy(magic, "NTLMSSP", 8);
type = 3;
flags = NTLMSSP_NEGOTIATE_UNICODE | NTLMSSP_NEGOTIATE_NTLM | NTLMSSP_NEGOTIATE_TARGET_INFO;
}
// extracted
QByteArray lmResponseBuf, ntlmResponseBuf;
QString domainStr, userStr, workstationStr, sessionKeyStr;
};
static QDataStream& operator<<(QDataStream& s, const QNtlmPhase1Block& b) {
bool unicode = (b.flags & NTLMSSP_NEGOTIATE_UNICODE);
s.writeRawData(b.magic, sizeof(b.magic));
s << b.type;
s << b.flags;
s << b.domain;
s << b.workstation;
if (!b.domainStr.isEmpty())
qStreamNtlmString(s, b.domainStr, unicode);
if (!b.workstationStr.isEmpty())
qStreamNtlmString(s, b.workstationStr, unicode);
return s;
}
static QDataStream& operator<<(QDataStream& s, const QNtlmPhase3Block& b) {
bool unicode = (b.flags & NTLMSSP_NEGOTIATE_UNICODE);
s.writeRawData(b.magic, sizeof(b.magic));
s << b.type;
s << b.lmResponse;
s << b.ntlmResponse;
s << b.domain;
s << b.user;
s << b.workstation;
s << b.sessionKey;
s << b.flags;
if (!b.domainStr.isEmpty())
qStreamNtlmString(s, b.domainStr, unicode);
qStreamNtlmString(s, b.userStr, unicode);
if (!b.workstationStr.isEmpty())
qStreamNtlmString(s, b.workstationStr, unicode);
// Send auth info
qStreamNtlmBuffer(s, b.lmResponseBuf);
qStreamNtlmBuffer(s, b.ntlmResponseBuf);
return s;
}
static QByteArray qNtlmPhase1()
{
QByteArray rc;
QDataStream ds(&rc, QIODevice::WriteOnly);
ds.setByteOrder(QDataStream::LittleEndian);
QNtlmPhase1Block pb;
ds << pb;
return rc;
}
static QByteArray qStringAsUcs2Le(const QString& src)
{
QByteArray rc(2*src.length(), 0);
const unsigned short *s = src.utf16();
unsigned short *d = (unsigned short*)rc.data();
for (int i = 0; i < src.length(); ++i) {
d[i] = qToLittleEndian(s[i]);
}
return rc;
}
static QString qStringFromUcs2Le(const QByteArray& src)
{
Q_ASSERT(src.size() % 2 == 0);
unsigned short *d = (unsigned short*)src.data();
for (int i = 0; i < src.length() / 2; ++i) {
d[i] = qFromLittleEndian(d[i]);
}
return QString((const QChar *)src.data(), src.size()/2);
}
static QByteArray qEncodeNtlmResponse(const QAuthenticatorPrivate *ctx, const QNtlmPhase2Block& ch)
{
QCryptographicHash md4(QCryptographicHash::Md4);
QByteArray asUcs2Le = qStringAsUcs2Le(ctx->password);
md4.addData(asUcs2Le.data(), asUcs2Le.size());
unsigned char md4hash[22];
memset(md4hash, 0, sizeof(md4hash));
QByteArray hash = md4.result();
Q_ASSERT(hash.size() == 16);
memcpy(md4hash, hash.constData(), 16);
QByteArray rc(24, 0);
deshash((unsigned char *)rc.data(), md4hash, (unsigned char *)ch.challenge);
deshash((unsigned char *)rc.data() + 8, md4hash + 7, (unsigned char *)ch.challenge);
deshash((unsigned char *)rc.data() + 16, md4hash + 14, (unsigned char *)ch.challenge);
hash.fill(0);
return rc;
}
static QByteArray qEncodeLmResponse(const QAuthenticatorPrivate *ctx, const QNtlmPhase2Block& ch)
{
QByteArray hash(21, 0);
QByteArray key(14, 0);
qstrncpy(key.data(), ctx->password.toUpper().toLatin1(), 14);
const char *block = "KGS!@#$%";
deshash((unsigned char *)hash.data(), (unsigned char *)key.data(), (unsigned char *)block);
deshash((unsigned char *)hash.data() + 8, (unsigned char *)key.data() + 7, (unsigned char *)block);
key.fill(0);
QByteArray rc(24, 0);
deshash((unsigned char *)rc.data(), (unsigned char *)hash.data(), ch.challenge);
deshash((unsigned char *)rc.data() + 8, (unsigned char *)hash.data() + 7, ch.challenge);
deshash((unsigned char *)rc.data() + 16, (unsigned char *)hash.data() + 14, ch.challenge);
hash.fill(0);
return rc;
}
static bool qNtlmDecodePhase2(const QByteArray& data, QNtlmPhase2Block& ch)
{
Q_ASSERT(QNtlmPhase2BlockBase::Size == sizeof(QNtlmPhase2BlockBase));
if (data.size() < QNtlmPhase2BlockBase::Size)
return false;
QDataStream ds(data);
ds.setByteOrder(QDataStream::LittleEndian);
if (ds.readRawData(ch.magic, 8) < 8)
return false;
if (strncmp(ch.magic, "NTLMSSP", 8) != 0)
return false;
ds >> ch.type;
if (ch.type != 2)
return false;
ds >> ch.targetName;
ds >> ch.flags;
if (ds.readRawData((char *)ch.challenge, 8) < 8)
return false;
ds >> ch.context[0] >> ch.context[1];
ds >> ch.targetInfo;
if (ch.targetName.len > 0) {
if (ch.targetName.len + ch.targetName.offset >= (unsigned)data.size())
return false;
ch.targetNameStr = qStringFromUcs2Le(data.mid(ch.targetName.offset, ch.targetName.len));
}
if (ch.targetInfo.len > 0) {
// UNUSED right now
}
return true;
}
static QByteArray qNtlmPhase3(QAuthenticatorPrivate *ctx, const QByteArray& phase2data)
{
QNtlmPhase2Block ch;
if (!qNtlmDecodePhase2(phase2data, ch))
return QByteArray();
QByteArray rc;
QDataStream ds(&rc, QIODevice::WriteOnly);
ds.setByteOrder(QDataStream::LittleEndian);
QNtlmPhase3Block pb;
bool unicode = ch.flags & NTLMSSP_NEGOTIATE_UNICODE;
ctx->realm = ch.targetNameStr;
pb.flags = NTLMSSP_NEGOTIATE_NTLM;
if (unicode)
pb.flags |= NTLMSSP_NEGOTIATE_UNICODE;
else
pb.flags |= NTLMSSP_NEGOTIATE_OEM;
int offset = QNtlmPhase3BlockBase::Size;
Q_ASSERT(QNtlmPhase3BlockBase::Size == sizeof(QNtlmPhase3BlockBase));
offset = qEncodeNtlmString(pb.domain, offset, ctx->realm, unicode);
pb.domainStr = ctx->realm;
offset = qEncodeNtlmString(pb.user, offset, ctx->user, unicode);
pb.userStr = ctx->user;
offset = qEncodeNtlmString(pb.workstation, offset, ctx->workstation, unicode);
pb.workstationStr = ctx->workstation;
// Get LM response
pb.lmResponseBuf = qEncodeLmResponse(ctx, ch);
offset = qEncodeNtlmBuffer(pb.lmResponse, offset, pb.lmResponseBuf);
// Get NTLM response
pb.ntlmResponseBuf = qEncodeNtlmResponse(ctx, ch);
offset = qEncodeNtlmBuffer(pb.ntlmResponse, offset, pb.ntlmResponseBuf);
// Encode and send
ds << pb;
return rc;
}
QT_END_NAMESPACE
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