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|
/****************************************************************************
**
** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the QtNetwork module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** GNU Lesser General Public License Usage
** 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 1.1, 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.
**
** Other Usage
** Alternatively, this file may be used in accordance with the terms and
** conditions contained in a signed written agreement between you and Nokia.
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include <qauthenticator.h>
#include <qauthenticator_p.h>
#include <qdebug.h>
#include <qhash.h>
#include <qbytearray.h>
#include <qcryptographichash.h>
#include <qhttp.h>
#include <qiodevice.h>
#include <qdatastream.h>
#include <qendian.h>
#include <qstring.h>
#include <qdatetime.h>
//#define NTLMV1_CLIENT
QT_BEGIN_NAMESPACE
#ifdef NTLMV1_CLIENT
#include "../../3rdparty/des/des.cpp"
#endif
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 network
\inmodule QtNetwork
The QAuthenticator class is usually used in the
\l{QNetworkAccessManager::}{authenticationRequired()} and
\l{QNetworkAccessManager::}{proxyAuthenticationRequired()} signals of QNetworkAccessManager and
QAbstractSocket. The class provides a way to pass back the required
authentication information to the socket when accessing services that
require authentication.
QAuthenticator supports the following authentication methods:
\list
\o Basic
\o NTLM version 1
\o Digest-MD5
\endlist
Note that, in particular, NTLM version 2 is not supported.
\section1 Options
In addition to the username and password required for authentication, a
QAuthenticator object can also contain additional options. The
options() function can be used to query incoming options sent by
the server; the setOption() function can
be used to set outgoing options, to be processed by the authenticator
calculation. The options accepted and provided depend on the authentication
type (see method()).
The following tables list known incoming options as well as accepted
outgoing options. The list of incoming options is not exhaustive, since
servers may include additional information at any time. The list of
outgoing options is exhaustive, however, and no unknown options will be
treated or sent back to the server.
\section2 Basic
\table
\header \o Option \o Direction \o Description
\row \o \tt{realm} \o Incoming \o Contains the realm of the authentication, the same as realm()
\endtable
The Basic authentication mechanism supports no outgoing options.
\section2 NTLM version 1
The NTLM authentication mechanism currently supports no incoming or outgoing options.
\section2 Digest-MD5
\table
\header \o Option \o Direction \o Description
\row \o \tt{realm} \o Incoming \o Contains the realm of the authentication, the same as realm()
\endtable
The Digest-MD5 authentication mechanism supports no outgoing options.
\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;
if (d && !d->ref.deref())
delete d;
d = other.d;
if (d)
d->ref.ref();
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
&& d->options == other.d->options;
}
/*!
\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();
int separatorPosn = 0;
switch(d->method) {
case QAuthenticatorPrivate::Ntlm:
if((separatorPosn = user.indexOf(QLatin1String("\\"))) != -1) {
//domain name is present
d->realm.clear();
d->userDomain = user.left(separatorPosn);
d->extractedUser = user.mid(separatorPosn + 1);
d->user = user;
} else if((separatorPosn = user.indexOf(QLatin1String("@"))) != -1) {
//domain name is present
d->realm.clear();
d->userDomain = user.mid(separatorPosn + 1);
d->extractedUser = user.left(separatorPosn);
d->user = user;
} else {
d->extractedUser = user;
d->user = user;
d->realm.clear();
d->userDomain.clear();
}
break;
default:
d->user = user;
d->userDomain.clear();
break;
}
}
/*!
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();
}
/*!
\since 4.7
Returns the value related to option \a opt if it was set by the server.
See \l{QAuthenticator#Options} for more information on incoming options.
If option \a opt isn't found, an invalid QVariant will be returned.
\sa options(), QAuthenticator#Options
*/
QVariant QAuthenticator::option(const QString &opt) const
{
return d ? d->options.value(opt) : QVariant();
}
/*!
\since 4.7
Returns all incoming options set in this QAuthenticator object by parsing
the server reply. See \l{QAuthenticator#Options} for more information
on incoming options.
\sa option(), QAuthenticator#Options
*/
QVariantHash QAuthenticator::options() const
{
return d ? d->options : QVariantHash();
}
/*!
\since 4.7
Sets the outgoing option \a opt to value \a value.
See \l{QAuthenticator#Options} for more information on outgoing options.
\sa options(), option(), QAuthenticator#Options
*/
void QAuthenticator::setOption(const QString &opt, const QVariant &value)
{
detach();
d->options.insert(opt, value);
}
/*!
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)
{
const QList<QPair<QString, QString> > values = header.values();
QList<QPair<QByteArray, QByteArray> > rawValues;
QList<QPair<QString, QString> >::const_iterator it, end;
for (it = values.constBegin(), end = values.constEnd(); it != end; ++it)
rawValues.append(qMakePair(it->first.toLatin1(), it->second.toUtf8()));
// continue in byte array form
parseHttpResponse(rawValues, isProxy);
}
#endif
void QAuthenticatorPrivate::parseHttpResponse(const QList<QPair<QByteArray, QByteArray> > &values, bool isProxy)
{
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.
*/
QByteArray headerVal;
for (int i = 0; i < values.size(); ++i) {
const QPair<QByteArray, QByteArray> ¤t = values.at(i);
if (current.first.toLower() != search)
continue;
QByteArray str = current.second.toLower();
if (method < Basic && str.startsWith("basic")) {
method = Basic;
headerVal = current.second.mid(6);
} else if (method < Ntlm && str.startsWith("ntlm")) {
method = Ntlm;
headerVal = current.second.mid(5);
} else if (method < DigestMd5 && str.startsWith("digest")) {
method = DigestMd5;
headerVal = current.second.mid(7);
}
}
challenge = headerVal.trimmed();
QHash<QByteArray, QByteArray> options = parseDigestAuthenticationChallenge(challenge);
switch(method) {
case Basic:
if(realm.isEmpty())
this->options[QLatin1String("realm")] = realm = QString::fromLatin1(options.value("realm"));
if (user.isEmpty())
phase = Done;
break;
case Ntlm:
// #### extract from header
break;
case DigestMd5: {
if(realm.isEmpty())
this->options[QLatin1String("realm")] = realm = QString::fromLatin1(options.value("realm"));
if (options.value("stale").toLower() == "true")
phase = Start;
if (user.isEmpty())
phase = Done;
break;
}
default:
realm.clear();
challenge = QByteArray();
phase = Invalid;
}
}
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
/*
* AvId values
*/
#define AVTIMESTAMP 7
//#define NTLMV1_CLIENT
//************************Global variables***************************
const int blockSize = 64; //As per RFC2104 Block-size is 512 bits
const int nDigestLen = 16; //Trunctaion Length of the Hmac-Md5 digest
const quint8 respversion = 1;
const quint8 hirespversion = 1;
/* 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;
QByteArray targetInfoBuff;
};
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;
QByteArray v2Hash;
};
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);
}
#ifdef NTLMV1_CLIENT
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;
}
#endif
/*********************************************************************
* Function Name: qEncodeHmacMd5
* Params:
* key: Type - QByteArray
* - It is the Authentication key
* message: Type - QByteArray
* - This is the actual message which will be encoded
* using HMacMd5 hash algorithm
*
* Return Value:
* hmacDigest: Type - QByteArray
*
* Description:
* This function will be used to encode the input message using
* HMacMd5 hash algorithm.
*
* As per the RFC2104 the HMacMd5 algorithm can be specified
* ---------------------------------------
* MD5(K XOR opad, MD5(K XOR ipad, text))
* ---------------------------------------
*
*********************************************************************/
QByteArray qEncodeHmacMd5(QByteArray &key, const QByteArray &message)
{
Q_ASSERT_X(!(message.isEmpty()),"qEncodeHmacMd5", "Empty message check");
Q_ASSERT_X(!(key.isEmpty()),"qEncodeHmacMd5", "Empty key check");
QCryptographicHash hash(QCryptographicHash::Md5);
QByteArray hMsg;
QByteArray iKeyPad(blockSize, 0x36);
QByteArray oKeyPad(blockSize, 0x5c);
hash.reset();
// Adjust the key length to blockSize
if(blockSize < key.length()) {
hash.addData(key);
key = hash.result(); //MD5 will always return 16 bytes length output
}
//Key will be <= 16 or 20 bytes as hash function (MD5 or SHA hash algorithms)
//key size can be max of Block size only
key = key.leftJustified(blockSize,0,true);
//iKeyPad, oKeyPad and key are all of same size "blockSize"
//xor of iKeyPad with Key and store the result into iKeyPad
for(int i = 0; i<key.size();i++) {
iKeyPad[i] = key[i]^iKeyPad[i];
}
//xor of oKeyPad with Key and store the result into oKeyPad
for(int i = 0; i<key.size();i++) {
oKeyPad[i] = key[i]^oKeyPad[i];
}
iKeyPad.append(message); // (K0 xor ipad) || text
hash.reset();
hash.addData(iKeyPad);
hMsg = hash.result();
//Digest gen after pass-1: H((K0 xor ipad)||text)
QByteArray hmacDigest;
oKeyPad.append(hMsg);
hash.reset();
hash.addData(oKeyPad);
hmacDigest = hash.result();
// H((K0 xor opad )|| H((K0 xor ipad) || text))
/*hmacDigest should not be less than half the length of the HMAC output
(to match the birthday attack bound) and not less than 80 bits
(a suitable lower bound on the number of bits that need to be
predicted by an attacker).
Refer RFC 2104 for more details on truncation part */
/*MD5 hash always returns 16 byte digest only and HMAC-MD5 spec
(RFC 2104) also says digest length should be 16 bytes*/
return hmacDigest;
}
static QByteArray qCreatev2Hash(const QAuthenticatorPrivate *ctx,
QNtlmPhase3Block *phase3)
{
Q_ASSERT(phase3 != 0);
// since v2 Hash is need for both NTLMv2 and LMv2 it is calculated
// only once and stored and reused
if(phase3->v2Hash.size() == 0) {
QCryptographicHash md4(QCryptographicHash::Md4);
QByteArray passUnicode = qStringAsUcs2Le(ctx->password);
md4.addData(passUnicode.data(), passUnicode.size());
QByteArray hashKey = md4.result();
Q_ASSERT(hashKey.size() == 16);
// Assuming the user and domain is always unicode in challenge
QByteArray message =
qStringAsUcs2Le(ctx->extractedUser.toUpper()) +
qStringAsUcs2Le(phase3->domainStr);
phase3->v2Hash = qEncodeHmacMd5(hashKey, message);
}
return phase3->v2Hash;
}
static QByteArray clientChallenge(const QAuthenticatorPrivate *ctx)
{
Q_ASSERT(ctx->cnonce.size() >= 8);
QByteArray clientCh = ctx->cnonce.right(8);
return clientCh;
}
// caller has to ensure a valid targetInfoBuff
static QByteArray qExtractServerTime(const QByteArray& targetInfoBuff)
{
QByteArray timeArray;
QDataStream ds(targetInfoBuff);
ds.setByteOrder(QDataStream::LittleEndian);
quint16 avId;
quint16 avLen;
ds >> avId;
ds >> avLen;
while(avId != 0) {
if(avId == AVTIMESTAMP) {
timeArray.resize(avLen);
//avLen size of QByteArray is allocated
ds.readRawData(timeArray.data(), avLen);
break;
}
ds.skipRawData(avLen);
ds >> avId;
ds >> avLen;
}
return timeArray;
}
static QByteArray qEncodeNtlmv2Response(const QAuthenticatorPrivate *ctx,
const QNtlmPhase2Block& ch,
QNtlmPhase3Block *phase3)
{
Q_ASSERT(phase3 != 0);
// return value stored in phase3
qCreatev2Hash(ctx, phase3);
QByteArray temp;
QDataStream ds(&temp, QIODevice::WriteOnly);
ds.setByteOrder(QDataStream::LittleEndian);
ds << respversion;
ds << hirespversion;
//Reserved
QByteArray reserved1(6, 0);
ds.writeRawData(reserved1.constData(), reserved1.size());
quint64 time = 0;
QByteArray timeArray;
if(ch.targetInfo.len)
{
timeArray = qExtractServerTime(ch.targetInfoBuff);
}
//if server sends time, use it instead of current time
if(timeArray.size()) {
ds.writeRawData(timeArray.constData(), timeArray.size());
} else {
QDateTime currentTime(QDate::currentDate(),
QTime::currentTime(), Qt::UTC);
// number of seconds between 1601 and epoc(1970)
// 369 years, 89 leap years
// ((369 * 365) + 89) * 24 * 3600 = 11644473600
time = Q_UINT64_C(currentTime.toTime_t() + 11644473600);
// represented as 100 nano seconds
time = Q_UINT64_C(time * 10000000);
ds << time;
}
//8 byte client challenge
QByteArray clientCh = clientChallenge(ctx);
ds.writeRawData(clientCh.constData(), clientCh.size());
//Reserved
QByteArray reserved2(4, 0);
ds.writeRawData(reserved2.constData(), reserved2.size());
if (ch.targetInfo.len > 0) {
ds.writeRawData(ch.targetInfoBuff.constData(),
ch.targetInfoBuff.size());
}
//Reserved
QByteArray reserved3(4, 0);
ds.writeRawData(reserved3.constData(), reserved3.size());
QByteArray message((const char*)ch.challenge, sizeof(ch.challenge));
message.append(temp);
QByteArray ntChallengeResp = qEncodeHmacMd5(phase3->v2Hash, message);
ntChallengeResp.append(temp);
return ntChallengeResp;
}
static QByteArray qEncodeLmv2Response(const QAuthenticatorPrivate *ctx,
const QNtlmPhase2Block& ch,
QNtlmPhase3Block *phase3)
{
Q_ASSERT(phase3 != 0);
// return value stored in phase3
qCreatev2Hash(ctx, phase3);
QByteArray message((const char*)ch.challenge, sizeof(ch.challenge));
QByteArray clientCh = clientChallenge(ctx);
message.append(clientCh);
QByteArray lmChallengeResp = qEncodeHmacMd5(phase3->v2Hash, message);
lmChallengeResp.append(clientCh);
return lmChallengeResp;
}
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) {
if (ch.targetInfo.len + ch.targetInfo.offset > (unsigned)data.size())
return false;
ch.targetInfoBuff = data.mid(ch.targetInfo.offset, ch.targetInfo.len);
}
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;
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));
if(ctx->userDomain.isEmpty()) {
offset = qEncodeNtlmString(pb.domain, offset, ch.targetNameStr, unicode);
pb.domainStr = ch.targetNameStr;
} else {
offset = qEncodeNtlmString(pb.domain, offset, ctx->userDomain, unicode);
pb.domainStr = ctx->userDomain;
}
offset = qEncodeNtlmString(pb.user, offset, ctx->extractedUser, unicode);
pb.userStr = ctx->extractedUser;
offset = qEncodeNtlmString(pb.workstation, offset, ctx->workstation, unicode);
pb.workstationStr = ctx->workstation;
// Get LM response
#ifdef NTLMV1_CLIENT
pb.lmResponseBuf = qEncodeLmResponse(ctx, ch);
#else
if (ch.targetInfo.len > 0) {
pb.lmResponseBuf = QByteArray();
} else {
pb.lmResponseBuf = qEncodeLmv2Response(ctx, ch, &pb);
}
#endif
offset = qEncodeNtlmBuffer(pb.lmResponse, offset, pb.lmResponseBuf);
// Get NTLM response
#ifdef NTLMV1_CLIENT
pb.ntlmResponseBuf = qEncodeNtlmResponse(ctx, ch);
#else
pb.ntlmResponseBuf = qEncodeNtlmv2Response(ctx, ch, &pb);
#endif
offset = qEncodeNtlmBuffer(pb.ntlmResponse, offset, pb.ntlmResponseBuf);
// Encode and send
ds << pb;
return rc;
}
QT_END_NAMESPACE
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