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tdelibs/kio/kssl/ksslsettings.cc

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/* This file is part of the KDE project
*
* Copyright (C) 2000 George Staikos <staikos@kde.org>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <sys/types.h>
#include <sys/stat.h>
#include <stdlib.h>
#include <pwd.h>
#include <unistd.h>
#include <tqfile.h>
#include <tqsortedlist.h>
#include "ksslsettings.h"
#include <kglobal.h>
#include <kstandarddirs.h>
#include <kdebug.h>
// this hack provided by Malte Starostik to avoid glibc/openssl bug
// on some systems
#ifdef KSSL_HAVE_SSL
#define crypt _openssl_crypt
#include <openssl/ssl.h>
#undef crypt
#endif
#include <kopenssl.h>
#ifdef KSSL_HAVE_SSL
#define sk_new d->kossl->sk_new
#define sk_push d->kossl->sk_push
#define sk_free d->kossl->sk_free
#define sk_value d->kossl->sk_value
#define sk_num d->kossl->sk_num
#define sk_dup d->kossl->sk_dup
#define sk_pop d->kossl->sk_pop
#endif
class CipherNode {
public:
CipherNode(const char *_name, int _keylen) :
name(_name), keylen(_keylen) {}
TQString name;
int keylen;
inline int operator==(CipherNode &x)
{ return ((x.keylen == keylen) && (x.name == name)); }
inline int operator< (CipherNode &x) { return keylen < x.keylen; }
inline int operator<=(CipherNode &x) { return keylen <= x.keylen; }
inline int operator> (CipherNode &x) { return keylen > x.keylen; }
inline int operator>=(CipherNode &x) { return keylen >= x.keylen; }
};
class KSSLSettingsPrivate {
public:
KSSLSettingsPrivate() {
kossl = NULL; // try to delay this as long as possible
}
~KSSLSettingsPrivate() {
}
KOSSL *kossl;
bool m_bUseEGD;
bool m_bUseEFile;
TQString m_EGDPath;
bool m_bSendX509;
bool m_bPromptX509;
};
//
// FIXME
// Implementation note: for now, we only read cipher settings from disk,
// and do not store them in memory. This should change.
//
KSSLSettings::KSSLSettings(bool readConfig) {
d = new KSSLSettingsPrivate;
m_cfg = new KConfig("cryptodefaults", false, false);
if (!KGlobal::dirs()->addResourceType("kssl", KStandardDirs::kde_default("data") + "kssl")) {
//kdDebug(7029) << "Error adding (kssl, share/apps/kssl)" << endl;
}
if (readConfig) load();
}
// we don't save settings incase it was a temporary object
KSSLSettings::~KSSLSettings() {
delete m_cfg;
delete d;
}
bool KSSLSettings::sslv2() const {
return m_bUseSSLv2;
}
bool KSSLSettings::sslv3() const {
return m_bUseSSLv3;
}
bool KSSLSettings::tlsv1() const {
return m_bUseTLSv1;
}
// FIXME: we should make a default list available if this fails
// since OpenSSL seems to just choose any old thing if it's given an
// empty list. This behavior is not confirmed though.
TQString KSSLSettings::getCipherList() {
TQString clist;
#ifdef KSSL_HAVE_SSL
TQString tcipher;
bool firstcipher = true;
SSL_METHOD *meth = 0L;
TQPtrList<CipherNode> cipherList;
cipherList.setAutoDelete(true);
if (!d->kossl)
d->kossl = KOSSL::self();
if (m_bUseSSLv3 && m_bUseSSLv2)
meth = d->kossl->SSLv23_client_method();
else if(m_bUseSSLv3)
meth = d->kossl->SSLv3_client_method();
else if (m_bUseSSLv2)
meth = d->kossl->SSLv2_client_method();
SSL_CTX *ctx = d->kossl->SSL_CTX_new(meth);
SSL* ssl = d->kossl->SSL_new(ctx);
STACK_OF(SSL_CIPHER)* sk = d->kossl->SSL_get_ciphers(ssl);
int cnt = sk_SSL_CIPHER_num(sk);
for (int i=0; i< cnt; i++) {
SSL_CIPHER *sc = sk_SSL_CIPHER_value(sk,i);
if (!sc)
break;
if(!strcmp("SSLv2", d->kossl->SSL_CIPHER_get_version(sc)))
m_cfg->setGroup("SSLv2");
else
m_cfg->setGroup("SSLv3");
tcipher.sprintf("cipher_%s", sc->name);
int bits = d->kossl->SSL_CIPHER_get_bits(sc, NULL);
if (m_cfg->readBoolEntry(tcipher, bits >= 56)) {
CipherNode *xx = new CipherNode(sc->name,bits);
if (!cipherList.contains(xx))
cipherList.prepend(xx);
else
delete xx;
}
}
d->kossl->SSL_free(ssl);
d->kossl->SSL_CTX_free(ctx);
// Remove any ADH ciphers as per RFC2246
// Also remove NULL ciphers and 168bit ciphers
for (unsigned int i = 0; i < cipherList.count(); i++) {
CipherNode *j = 0L;
while ((j = cipherList.at(i)) != 0L) {
if (j->name.contains("ADH-") || j->name.contains("NULL-") || j->name.contains("DES-CBC3-SHA") || j->name.contains("FZA")) {
cipherList.remove(j);
} else {
break;
}
}
}
// now assemble the list cipher1:cipher2:cipher3:...:ciphern
while (!cipherList.isEmpty()) {
if (firstcipher)
firstcipher = false;
else clist.append(":");
clist.append(cipherList.getLast()->name);
cipherList.removeLast();
} // while
kdDebug(7029) << "Cipher list is: " << clist << endl;
#endif
return clist;
}
// FIXME - sync these up so that we can use them with the control module!!
void KSSLSettings::load() {
m_cfg->reparseConfiguration();
m_cfg->setGroup("TLS");
m_bUseTLSv1 = m_cfg->readBoolEntry("Enabled", true);
m_cfg->setGroup("SSLv2");
m_bUseSSLv2 = m_cfg->readBoolEntry("Enabled", false);
m_cfg->setGroup("SSLv3");
m_bUseSSLv3 = m_cfg->readBoolEntry("Enabled", true);
m_cfg->setGroup("Warnings");
m_bWarnOnEnter = m_cfg->readBoolEntry("OnEnter", false);
m_bWarnOnLeave = m_cfg->readBoolEntry("OnLeave", true);
m_bWarnOnUnencrypted = m_cfg->readBoolEntry("OnUnencrypted", true);
m_bWarnOnMixed = m_cfg->readBoolEntry("OnMixed", true);
m_cfg->setGroup("Validation");
m_bWarnSelfSigned = m_cfg->readBoolEntry("WarnSelfSigned", true);
m_bWarnExpired = m_cfg->readBoolEntry("WarnExpired", true);
m_bWarnRevoked = m_cfg->readBoolEntry("WarnRevoked", true);
m_cfg->setGroup("EGD");
d->m_bUseEGD = m_cfg->readBoolEntry("UseEGD", false);
d->m_bUseEFile = m_cfg->readBoolEntry("UseEFile", false);
d->m_EGDPath = m_cfg->readPathEntry("EGDPath");
m_cfg->setGroup("Auth");
d->m_bSendX509 = ("send" == m_cfg->readEntry("AuthMethod", ""));
d->m_bPromptX509 = ("prompt" == m_cfg->readEntry("AuthMethod", ""));
#ifdef KSSL_HAVE_SSL
#endif
}
void KSSLSettings::defaults() {
m_bUseTLSv1 = true;
m_bUseSSLv2 = false;
m_bUseSSLv3 = true;
m_bWarnOnEnter = false;
m_bWarnOnLeave = true;
m_bWarnOnUnencrypted = true;
m_bWarnOnMixed = true;
m_bWarnSelfSigned = true;
m_bWarnExpired = true;
m_bWarnRevoked = true;
d->m_bUseEGD = false;
d->m_bUseEFile = false;
d->m_EGDPath = "";
}
void KSSLSettings::save() {
m_cfg->setGroup("TLS");
m_cfg->writeEntry("Enabled", m_bUseTLSv1);
m_cfg->setGroup("SSLv2");
m_cfg->writeEntry("Enabled", m_bUseSSLv2);
m_cfg->setGroup("SSLv3");
m_cfg->writeEntry("Enabled", m_bUseSSLv3);
m_cfg->setGroup("Warnings");
m_cfg->writeEntry("OnEnter", m_bWarnOnEnter);
m_cfg->writeEntry("OnLeave", m_bWarnOnLeave);
m_cfg->writeEntry("OnUnencrypted", m_bWarnOnUnencrypted);
m_cfg->writeEntry("OnMixed", m_bWarnOnMixed);
m_cfg->setGroup("Validation");
m_cfg->writeEntry("WarnSelfSigned", m_bWarnSelfSigned);
m_cfg->writeEntry("WarnExpired", m_bWarnExpired);
m_cfg->writeEntry("WarnRevoked", m_bWarnRevoked);
m_cfg->setGroup("EGD");
m_cfg->writeEntry("UseEGD", d->m_bUseEGD);
m_cfg->writeEntry("UseEFile", d->m_bUseEFile);
m_cfg->writePathEntry("EGDPath", d->m_EGDPath);
m_cfg->sync();
// FIXME - ciphers
#if 0
#ifdef KSSL_HAVE_SSL
m_cfg->setGroup("SSLv2");
for (unsigned int i = 0; i < v2ciphers.count(); i++) {
TQString ciphername;
ciphername.sprintf("cipher_%s", v2ciphers[i].ascii());
if (v2selectedciphers.contains(v2ciphers[i])) {
m_cfg->writeEntry(ciphername, true);
} else m_cfg->writeEntry(ciphername, false);
}
m_cfg->setGroup("SSLv3");
for (unsigned int i = 0; i < v3ciphers.count(); i++) {
TQString ciphername;
ciphername.sprintf("cipher_%s", v3ciphers[i].ascii());
if (v3selectedciphers.contains(v3ciphers[i])) {
m_cfg->writeEntry(ciphername, true);
} else m_cfg->writeEntry(ciphername, false);
}
#endif
m_cfg->sync();
// insure proper permissions -- contains sensitive data
TQString cfgName(KGlobal::dirs()->findResource("config", "cryptodefaults"));
if (!cfgName.isEmpty())
::chmod(TQFile::encodeName(cfgName), 0600);
#endif
}
bool KSSLSettings::warnOnEnter() const { return m_bWarnOnEnter; }
void KSSLSettings::setWarnOnEnter(bool x) { m_bWarnOnEnter = x; }
bool KSSLSettings::warnOnUnencrypted() const { return m_bWarnOnUnencrypted; }
void KSSLSettings::setWarnOnUnencrypted(bool x) { m_bWarnOnUnencrypted = x; }
bool KSSLSettings::warnOnLeave() const { return m_bWarnOnLeave; }
void KSSLSettings::setWarnOnLeave(bool x) { m_bWarnOnLeave = x; }
bool KSSLSettings::warnOnMixed() const { return m_bWarnOnMixed; }
bool KSSLSettings::warnOnSelfSigned() const { return m_bWarnSelfSigned; }
bool KSSLSettings::warnOnRevoked() const { return m_bWarnRevoked; }
bool KSSLSettings::warnOnExpired() const { return m_bWarnExpired; }
bool KSSLSettings::useEGD() const { return d->m_bUseEGD; }
bool KSSLSettings::useEFile() const { return d->m_bUseEFile; }
bool KSSLSettings::autoSendX509() const { return d->m_bSendX509; }
bool KSSLSettings::promptSendX509() const { return d->m_bPromptX509; }
void KSSLSettings::setTLSv1(bool enabled) { m_bUseTLSv1 = enabled; }
void KSSLSettings::setSSLv2(bool enabled) { m_bUseSSLv2 = enabled; }
void KSSLSettings::setSSLv3(bool enabled) { m_bUseSSLv3 = enabled; }
TQString& KSSLSettings::getEGDPath() { return d->m_EGDPath; }
#ifdef KSSL_HAVE_SSL
#undef sk_new
#undef sk_push
#undef sk_free
#undef sk_value
#undef sk_num
#undef sk_pop
#undef sk_dup
#endif