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tdelibs/kio/misc/kssld/kssld.cpp

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/*
This file is part of the KDE libraries
Copyright (c) 2001-2005 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 <tqtimer.h>
#include "kssld.h"
#include <kconfig.h>
#include <ksimpleconfig.h>
#include <ksslcertchain.h>
#include <ksslcertificate.h>
#include <ksslcertificatehome.h>
#include <ksslpkcs12.h>
#include <ksslx509map.h>
#include <tqptrlist.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <stdlib.h>
#include <pwd.h>
#include <unistd.h>
#include <tqfile.h>
#include <tqsortedlist.h>
#include <kglobal.h>
#include <kstandarddirs.h>
#include <kdebug.h>
#include <tqdatetime.h>
#include <kmdcodec.h>
#include <kopenssl.h>
// See design notes at end
extern "C" {
KDE_EXPORT KDEDModule *create_kssld(const TQCString &name) {
return new KSSLD(name);
}
KDE_EXPORT void *__kde_do_unload;
}
static void updatePoliciesConfig(KConfig *cfg) {
TQStringList groups = cfg->groupList();
for (TQStringList::Iterator i = groups.begin(); i != groups.end(); ++i) {
if ((*i).isEmpty() || *i == "General") {
continue;
}
cfg->setGroup(*i);
// remove it if it has expired
if (!cfg->readBoolEntry("Permanent") && cfg->readDateTimeEntry("Expires") < TQDateTime::currentDateTime()) {
cfg->deleteGroup(*i);
continue;
}
TQString encodedCertStr = cfg->readEntry("Certificate");
TQCString encodedCert = encodedCertStr.local8Bit();
KSSLCertificate *newCert = KSSLCertificate::fromString(encodedCert);
if (!newCert) {
cfg->deleteGroup(*i);
continue;
}
KSSLCertificateCache::KSSLCertificatePolicy policy = (KSSLCertificateCache::KSSLCertificatePolicy) cfg->readNumEntry("Policy");
bool permanent = cfg->readBoolEntry("Permanent");
TQDateTime expires = cfg->readDateTimeEntry("Expires");
TQStringList hosts = cfg->readListEntry("Hosts");
TQStringList chain = cfg->readListEntry("Chain");
cfg->deleteGroup(*i);
cfg->setGroup(newCert->getMD5Digest());
cfg->writeEntry("Certificate", encodedCertStr);
cfg->writeEntry("Policy", policy);
cfg->writeEntry("Permanent", permanent);
cfg->writeEntry("Expires", expires);
cfg->writeEntry("Hosts", hosts);
cfg->writeEntry("Chain", chain);
delete newCert;
}
cfg->setGroup("General");
cfg->writeEntry("policies version", 2);
cfg->sync();
}
KSSLD::KSSLD(const TQCString &name) : KDEDModule(name)
{
// ----------------------- FOR THE CACHE ------------------------------------
cfg = new KSimpleConfig("ksslpolicies", false);
cfg->setGroup("General");
if (2 != cfg->readNumEntry("policies version", 0)) {
::updatePoliciesConfig(cfg);
}
KGlobal::dirs()->addResourceType("kssl", KStandardDirs::kde_default("data") + "kssl");
caVerifyUpdate();
cacheLoadDefaultPolicies();
certList.setAutoDelete(false);
kossl = KOSSL::self();
// ----------------------- FOR THE HOME -------------------------------------
}
KSSLD::~KSSLD()
{
// ----------------------- FOR THE CACHE ------------------------------------
cacheClearList();
delete cfg;
// ----------------------- FOR THE HOME -------------------------------------
}
// A node in the cache
class KSSLCNode {
public:
KSSLCertificate *cert;
KSSLCertificateCache::KSSLCertificatePolicy policy;
bool permanent;
TQDateTime expires;
TQStringList hosts;
KSSLCNode() { cert = 0L;
policy = KSSLCertificateCache::Unknown;
permanent = true;
}
~KSSLCNode() { delete cert; }
};
void KSSLD::cacheSaveToDisk() {
KSSLCNode *node;
cfg->setGroup("General");
cfg->writeEntry("policies version", 2);
for (node = certList.first(); node; node = certList.next()) {
if (node->permanent ||
node->expires > TQDateTime::currentDateTime()) {
// First convert to a binary format and then write the
// kconfig entry write the (CN, policy, cert) to
// KSimpleConfig
cfg->setGroup(node->cert->getMD5Digest());
cfg->writeEntry("Certificate", node->cert->toString());
cfg->writeEntry("Policy", node->policy);
cfg->writeEntry("Expires", node->expires);
cfg->writeEntry("Permanent", node->permanent);
cfg->writeEntry("Hosts", node->hosts);
// Also write the chain
TQStringList qsl;
TQPtrList<KSSLCertificate> cl =
node->cert->chain().getChain();
for (KSSLCertificate *c = cl.first();
c != 0;
c = cl.next()) {
//kdDebug() << "Certificate in chain: "
// << c->toString() << endl;
qsl << c->toString();
}
cl.setAutoDelete(true);
cfg->writeEntry("Chain", qsl);
}
}
cfg->sync();
// insure proper permissions -- contains sensitive data
TQString cfgName(KGlobal::dirs()->findResource("config", "ksslpolicies"));
if (!cfgName.isEmpty()) {
::chmod(TQFile::encodeName(cfgName), 0600);
}
}
void KSSLD::cacheReload() {
cacheClearList();
delete cfg;
cfg = new KSimpleConfig("ksslpolicies", false);
cacheLoadDefaultPolicies();
}
void KSSLD::cacheClearList() {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
certList.remove(node);
delete node;
}
skEmail.clear();
skMD5Digest.clear();
}
void KSSLD::cacheLoadDefaultPolicies() {
TQStringList groups = cfg->groupList();
for (TQStringList::Iterator i = groups.begin();
i != groups.end();
++i) {
if ((*i).isEmpty() || *i == "General") {
continue;
}
cfg->setGroup(*i);
// remove it if it has expired
if (!cfg->readBoolEntry("Permanent") &&
cfg->readDateTimeEntry("Expires") <
TQDateTime::currentDateTime()) {
cfg->deleteGroup(*i);
continue;
}
TQCString encodedCert;
KSSLCertificate *newCert;
encodedCert = cfg->readEntry("Certificate").local8Bit();
newCert = KSSLCertificate::fromString(encodedCert);
if (!newCert) {
continue;
}
KSSLCNode *n = new KSSLCNode;
n->cert = newCert;
n->policy = (KSSLCertificateCache::KSSLCertificatePolicy) cfg->readNumEntry("Policy");
n->permanent = cfg->readBoolEntry("Permanent");
n->expires = cfg->readDateTimeEntry("Expires");
n->hosts = cfg->readListEntry("Hosts");
newCert->chain().setCertChain(cfg->readListEntry("Chain"));
certList.append(n);
searchAddCert(newCert);
}
}
void KSSLD::cacheAddCertificate(KSSLCertificate cert,
KSSLCertificateCache::KSSLCertificatePolicy policy,
bool permanent) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
node->policy = policy;
node->permanent = permanent;
if (!permanent) {
node->expires = TQDateTime::currentDateTime();
// FIXME: make this configurable
node->expires = node->expires.addSecs(3600);
}
cacheSaveToDisk();
return;
}
}
KSSLCNode *n = new KSSLCNode;
n->cert = cert.replicate();
n->policy = policy;
n->permanent = permanent;
// remove the old one
cacheRemoveByCertificate(*(n->cert));
certList.prepend(n);
if (!permanent) {
n->expires = TQDateTime::currentDateTime();
n->expires = n->expires.addSecs(3600);
}
searchAddCert(n->cert);
cacheSaveToDisk();
}
KSSLCertificateCache::KSSLCertificatePolicy KSSLD::cacheGetPolicyByCN(TQString cn) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (KSSLX509Map(node->cert->getSubject()).getValue("CN") == cn) {
if (!node->permanent &&
node->expires < TQDateTime::currentDateTime()) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
delete node;
continue;
}
certList.remove(node);
certList.prepend(node);
cacheSaveToDisk();
return node->policy;
}
}
cacheSaveToDisk();
return KSSLCertificateCache::Unknown;
}
KSSLCertificateCache::KSSLCertificatePolicy KSSLD::cacheGetPolicyByCertificate(KSSLCertificate cert) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
if (!node->permanent &&
node->expires < TQDateTime::currentDateTime()) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
delete node;
cacheSaveToDisk();
return KSSLCertificateCache::Unknown;
}
certList.remove(node);
certList.prepend(node);
return node->policy;
}
}
return KSSLCertificateCache::Unknown;
}
bool KSSLD::cacheSeenCN(TQString cn) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (KSSLX509Map(node->cert->getSubject()).getValue("CN") == cn) {
if (!node->permanent &&
node->expires < TQDateTime::currentDateTime()) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
delete node;
cacheSaveToDisk();
continue;
}
certList.remove(node);
certList.prepend(node);
return true;
}
}
return false;
}
bool KSSLD::cacheSeenCertificate(KSSLCertificate cert) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
if (!node->permanent &&
node->expires < TQDateTime::currentDateTime()) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
delete node;
cacheSaveToDisk();
return false;
}
certList.remove(node);
certList.prepend(node);
return true;
}
}
return false;
}
bool KSSLD::cacheIsPermanent(KSSLCertificate cert) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
if (!node->permanent && node->expires <
TQDateTime::currentDateTime()) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
delete node;
cacheSaveToDisk();
return false;
}
certList.remove(node);
certList.prepend(node);
return node->permanent;
}
}
return false;
}
bool KSSLD::cacheRemoveBySubject(TQString subject) {
KSSLCNode *node;
bool gotOne = false;
for (node = certList.first(); node; node = certList.next()) {
if (node->cert->getSubject() == subject) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
searchRemoveCert(node->cert);
delete node;
gotOne = true;
}
}
cacheSaveToDisk();
return gotOne;
}
bool KSSLD::cacheRemoveByCN(TQString cn) {
KSSLCNode *node;
bool gotOne = false;
for (node = certList.first(); node; node = certList.next()) {
if (KSSLX509Map(node->cert->getSubject()).getValue("CN") == cn) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
searchRemoveCert(node->cert);
delete node;
gotOne = true;
}
}
cacheSaveToDisk();
return gotOne;
}
bool KSSLD::cacheRemoveByCertificate(KSSLCertificate cert) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
searchRemoveCert(node->cert);
delete node;
cacheSaveToDisk();
return true;
}
}
return false;
}
bool KSSLD::cacheModifyByCN(TQString cn,
KSSLCertificateCache::KSSLCertificatePolicy policy, bool permanent,
TQDateTime expires) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (KSSLX509Map(node->cert->getSubject()).getValue("CN") == cn) {
node->permanent = permanent;
node->expires = expires;
node->policy = policy;
certList.remove(node);
certList.prepend(node);
cacheSaveToDisk();
return true;
}
}
return false;
}
bool KSSLD::cacheModifyByCertificate(KSSLCertificate cert,
KSSLCertificateCache::KSSLCertificatePolicy policy,
bool permanent,
TQDateTime expires) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
node->permanent = permanent;
node->expires = expires;
node->policy = policy;
certList.remove(node);
certList.prepend(node);
cacheSaveToDisk();
return true;
}
}
return false;
}
TQStringList KSSLD::cacheGetHostList(KSSLCertificate cert) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
if (!node->permanent && node->expires <
TQDateTime::currentDateTime()) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
searchRemoveCert(node->cert);
delete node;
cacheSaveToDisk();
return TQStringList();
}
certList.remove(node);
certList.prepend(node);
return node->hosts;
}
}
return TQStringList();
}
bool KSSLD::cacheAddHost(KSSLCertificate cert, TQString host) {
KSSLCNode *node;
if (host.isEmpty())
return true;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
if (!node->permanent && node->expires <
TQDateTime::currentDateTime()) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
searchRemoveCert(node->cert);
delete node;
cacheSaveToDisk();
return false;
}
if (!node->hosts.contains(host)) {
node->hosts << host;
}
certList.remove(node);
certList.prepend(node);
cacheSaveToDisk();
return true;
}
}
return false;
}
bool KSSLD::cacheRemoveHost(KSSLCertificate cert, TQString host) {
KSSLCNode *node;
for (node = certList.first(); node; node = certList.next()) {
if (cert == *(node->cert)) {
if (!node->permanent && node->expires <
TQDateTime::currentDateTime()) {
certList.remove(node);
cfg->deleteGroup(node->cert->getMD5Digest());
searchRemoveCert(node->cert);
delete node;
cacheSaveToDisk();
return false;
}
node->hosts.remove(host);
certList.remove(node);
certList.prepend(node);
cacheSaveToDisk();
return true;
}
}
return false;
}
///////////////////////////////////////////////////////////////////////////
void KSSLD::caVerifyUpdate() {
TQString path = KGlobal::dirs()->saveLocation("kssl") + "/ca-bundle.crt";
if (!TQFile::exists(path))
return;
cfg->setGroup(TQString::null);
Q_UINT32 newStamp = KGlobal::dirs()->calcResourceHash("config", "ksslcalist", true);
Q_UINT32 oldStamp = cfg->readUnsignedNumEntry("ksslcalistStamp");
if (oldStamp != newStamp)
{
caRegenerate();
cfg->writeEntry("ksslcalistStamp", newStamp);
cfg->sync();
}
}
bool KSSLD::caRegenerate() {
TQString path = KGlobal::dirs()->saveLocation("kssl") + "/ca-bundle.crt";
TQFile out(path);
if (!out.open(IO_WriteOnly))
return false;
KConfig cfg("ksslcalist", true, false);
TQStringList x = cfg.groupList();
for (TQStringList::Iterator i = x.begin();
i != x.end();
++i) {
if ((*i).isEmpty() || *i == "<default>") continue;
cfg.setGroup(*i);
if (!cfg.readBoolEntry("site", false)) continue;
TQString cert = cfg.readEntry("x509", "");
if (cert.length() <= 0) continue;
unsigned int xx = cert.length() - 1;
for (unsigned int j = 0; j < xx/64; j++) {
cert.insert(64*(j+1)+j, '\n');
}
out.writeBlock("-----BEGIN CERTIFICATE-----\n", 28);
out.writeBlock(cert.latin1(), cert.length());
out.writeBlock("\n-----END CERTIFICATE-----\n\n", 28);
out.flush();
}
return true;
}
bool KSSLD::caAdd(TQString certificate, bool ssl, bool email, bool code) {
KSSLCertificate *x = KSSLCertificate::fromString(certificate.local8Bit());
if (!x) return false;
KConfig cfg("ksslcalist", false, false);
cfg.setGroup(x->getSubject());
cfg.writeEntry("x509", certificate);
cfg.writeEntry("site", ssl);
cfg.writeEntry("email", email);
cfg.writeEntry("code", code);
cfg.sync();
delete x;
return true;
}
/**
* @internal
* Returns a list of certificates as QStrings read from the given file
*/
static TQStringList caReadCerticatesFromFile(TQString filename) {
TQStringList certificates;
TQString certificate, temp;
TQFile file(filename);
if (!file.open(IO_ReadOnly))
return certificates;
while (!file.atEnd()) {
file.readLine(temp, 999);
if (temp.startsWith("-----BEGIN CERTIFICATE-----")) {
certificate = TQString::null;
continue;
}
if (temp.startsWith("-----END CERTIFICATE-----")) {
certificates.append(certificate);
certificate = TQString::null;
continue;
}
certificate += temp.stripWhiteSpace();
}
file.close();
return certificates;
}
bool KSSLD::caAddFromFile(TQString filename, bool ssl, bool email, bool code) {
TQStringList certificates;
certificates = caReadCerticatesFromFile(filename);
if (certificates.isEmpty())
return false;
bool ok = true;
for (TQStringList::Iterator it = certificates.begin();
it != certificates.end(); ++it ) {
ok &= caAdd(*it, ssl, email, code);
}
return ok;
}
bool KSSLD::caRemoveFromFile(TQString filename) {
TQStringList certificates;
certificates = caReadCerticatesFromFile(filename);
if (certificates.isEmpty())
return false;
bool ok = true;
for (TQStringList::Iterator it = certificates.begin();
it != certificates.end(); ++it ) {
TQString certificate = *it;
KSSLCertificate *x = KSSLCertificate::fromString(certificate.local8Bit());
ok &= x && caRemove(x->getSubject());
delete x;
}
return ok;
}
TQStringList KSSLD::caList() {
TQStringList x;
KConfig cfg("ksslcalist", true, false);
x = cfg.groupList();
x.remove("<default>");
return x;
}
bool KSSLD::caUseForSSL(TQString subject) {
KConfig cfg("ksslcalist", true, false);
if (!cfg.hasGroup(subject))
return false;
cfg.setGroup(subject);
return cfg.readBoolEntry("site", false);
}
bool KSSLD::caUseForEmail(TQString subject) {
KConfig cfg("ksslcalist", true, false);
if (!cfg.hasGroup(subject))
return false;
cfg.setGroup(subject);
return cfg.readBoolEntry("email", false);
}
bool KSSLD::caUseForCode(TQString subject) {
KConfig cfg("ksslcalist", true, false);
if (!cfg.hasGroup(subject))
return false;
cfg.setGroup(subject);
return cfg.readBoolEntry("code", false);
}
bool KSSLD::caRemove(TQString subject) {
KConfig cfg("ksslcalist", false, false);
if (!cfg.hasGroup(subject))
return false;
cfg.deleteGroup(subject);
cfg.sync();
return true;
}
TQString KSSLD::caGetCert(TQString subject) {
KConfig cfg("ksslcalist", true, false);
if (!cfg.hasGroup(subject))
return TQString::null;
cfg.setGroup(subject);
return cfg.readEntry("x509", TQString::null);
}
bool KSSLD::caSetUse(TQString subject, bool ssl, bool email, bool code) {
KConfig cfg("ksslcalist", false, false);
if (!cfg.hasGroup(subject))
return false;
cfg.setGroup(subject);
cfg.writeEntry("site", ssl);
cfg.writeEntry("email", email);
cfg.writeEntry("code", code);
cfg.sync();
return true;
}
///////////////////////////////////////////////////////////////////////////
void KSSLD::searchAddCert(KSSLCertificate *cert) {
skMD5Digest.insert(cert->getMD5Digest(), cert, true);
TQStringList mails;
cert->getEmails(mails);
for(TQStringList::const_iterator iter = mails.begin(); iter != mails.end(); ++iter) {
TQString email = static_cast<const TQString &>(*iter).lower();
TQMap<TQString, TQPtrVector<KSSLCertificate> >::iterator it = skEmail.find(email);
if (it == skEmail.end())
it = skEmail.insert(email, TQPtrVector<KSSLCertificate>());
TQPtrVector<KSSLCertificate> &elem = *it;
if (elem.findRef(cert) == -1) {
unsigned int n = 0;
for(; n < elem.size(); n++) {
if (!elem.at(n)) {
elem.insert(n, cert);
break;
}
}
if (n == elem.size()) {
elem.resize(n+1);
elem.insert(n, cert);
}
}
}
}
void KSSLD::searchRemoveCert(KSSLCertificate *cert) {
skMD5Digest.remove(cert->getMD5Digest());
TQStringList mails;
cert->getEmails(mails);
for(TQStringList::const_iterator iter = mails.begin(); iter != mails.end(); ++iter) {
TQMap<TQString, TQPtrVector<KSSLCertificate> >::iterator it = skEmail.find(static_cast<const TQString &>(*iter).lower());
if (it == skEmail.end())
break;
TQPtrVector<KSSLCertificate> &elem = *it;
int n = elem.findRef(cert);
if (n != -1)
elem.remove(n);
}
}
TQStringList KSSLD::getKDEKeyByEmail(const TQString &email) {
TQStringList rc;
TQMap<TQString, TQPtrVector<KSSLCertificate> >::iterator it = skEmail.find(email.lower());
kdDebug() << "GETKDEKey " << email.latin1() << endl;
if (it == skEmail.end())
return rc;
TQPtrVector<KSSLCertificate> &elem = *it;
for (unsigned int n = 0; n < elem.size(); n++) {
KSSLCertificate *cert = elem.at(n);
if (cert) {
rc.append(cert->getKDEKey());
}
}
kdDebug() << "ergebnisse: " << rc.size() << " " << elem.size() << endl;
return rc;
}
KSSLCertificate KSSLD::getCertByMD5Digest(const TQString &key) {
TQMap<TQString, KSSLCertificate *>::iterator iter = skMD5Digest.find(key);
kdDebug() << "Searching cert for " << key.latin1() << endl;
if (iter != skMD5Digest.end())
return **iter;
KSSLCertificate rc; // FIXME: Better way to return a not found condition?
kdDebug() << "Not found: " << rc.toString().latin1() << endl;
return rc;
}
///////////////////////////////////////////////////////////////////////////
//
// Certificate Home methods
//
TQStringList KSSLD::getHomeCertificateList() {
return KSSLCertificateHome::getCertificateList();
}
bool KSSLD::addHomeCertificateFile(TQString filename, TQString password, bool storePass) {
return KSSLCertificateHome::addCertificate(filename, password, storePass);
}
bool KSSLD::addHomeCertificatePKCS12(TQString base64cert, TQString passToStore) {
bool ok;
KSSLPKCS12 *pkcs12 = KSSLPKCS12::fromString(base64cert, passToStore);
ok = KSSLCertificateHome::addCertificate(pkcs12, passToStore);
delete pkcs12;
return ok;
}
bool KSSLD::deleteHomeCertificateByFile(TQString filename, TQString password) {
return KSSLCertificateHome::deleteCertificate(filename, password);
}
bool KSSLD::deleteHomeCertificateByPKCS12(TQString base64cert, TQString password) {
bool ok;
KSSLPKCS12 *pkcs12 = KSSLPKCS12::fromString(base64cert, password);
ok = KSSLCertificateHome::deleteCertificate(pkcs12);
delete pkcs12;
return ok;
}
bool KSSLD::deleteHomeCertificateByName(TQString name) {
return KSSLCertificateHome::deleteCertificateByName(name);
}
///////////////////////////////////////////////////////////////////////////
#include "kssld.moc"
/*
DESIGN - KSSLCertificateCache
------
This is the first implementation and I think this cache actually needs
experimentation to determine which implementation works best. My current
options are:
(1) Store copies of the X509 certificates in a TQPtrList using a self
organizing heuristic as described by Munro and Suwanda.
(2) Store copies of the X509 certificates in a tree structure, perhaps
a redblack tree, avl tree, or even just a simple binary tree.
(3) Store the CN's in a tree or list and use them as a hash to retrieve
the X509 certificates.
(4) Create "nodes" containing the X509 certificate and place them in
two structures concurrently, one organized by CN, the other by
X509 serial number.
This implementation uses (1). (4) is definitely attractive, but I don't
think it will be necessary to go so crazy with performance, and perhaps
end up performing poorly in situations where there are very few entries in
the cache (which is most likely the case most of the time). The style of
heuristic is move-to-front, not swap-forward. This seems to make more
sense because the typical user will hit a site at least a few times in a
row before moving to a new one.
What I worry about most with respect to performance is that cryptographic
routines are expensive and if we have to perform them on each X509
certificate until the right one is found, we will perform poorly.
All in all, this code is actually quite crucial for performance on SSL
website, especially those with many image files loaded via SSL. If a
site loads 15 images, we will have to run through this code 15 times.
A heuristic for self organization will make each successive lookup faster.
Sounds good, doesn't it?
DO NOT ATTEMPT TO GUESS WHICH CERTIFICATES ARE ACCEPTIBLE IN YOUR CODE!!
ALWAYS USE THE CACHE. IT MAY CHECK THINGS THAT YOU DON'T THINK OF, AND
ALSO IF THERE IS A BUG IN THE CHECKING CODE, IF IT IS ALL CONTAINED IN
THIS LIBRARY, A MINOR FIX WILL FIX ALL APPLICATIONS.
*/