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/* cert_wrapper.cpp
*
* Copyright (C) 2003 Sawtooth Consulting Ltd.
*
* This file is part of yaSSL.
*
* yaSSL is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* yaSSL 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*/
/* The certificate wrapper source implements certificate management functions
*
*/
#include "cert_wrapper.hpp"
#include "yassl_int.hpp"
#if defined(USE_CML_LIB)
#include "cmapi_cpp.h"
#else
#include "asn.hpp"
#include "file.hpp"
#endif // USE_CML_LIB
namespace yaSSL {
x509::x509(uint sz) : length_(sz), buffer_(new (ys) opaque[sz])
{
}
x509::~x509()
{
ysArrayDelete(buffer_);
}
x509::x509(const x509& that) : length_(that.length_),
buffer_(new (ys) opaque[length_])
{
memcpy(buffer_, that.buffer_, length_);
}
void x509::Swap(x509& that)
{
mySTL::swap(length_, that.length_);
mySTL::swap(buffer_, that.buffer_);
}
x509& x509::operator=(const x509& that)
{
x509 temp(that);
Swap(temp);
return *this;
}
uint x509::get_length() const
{
return length_;
}
const opaque* x509::get_buffer() const
{
return buffer_;
}
opaque* x509::use_buffer()
{
return buffer_;
}
//CertManager
CertManager::CertManager()
: peerX509_(0), verifyPeer_(false), failNoCert_(false), sendVerify_(false)
{}
CertManager::~CertManager()
{
ysDelete(peerX509_);
mySTL::for_each(signers_.begin(), signers_.end(), del_ptr_zero()) ;
mySTL::for_each(peerList_.begin(), peerList_.end(), del_ptr_zero()) ;
mySTL::for_each(list_.begin(), list_.end(), del_ptr_zero()) ;
}
bool CertManager::verifyPeer() const
{
return verifyPeer_;
}
bool CertManager::failNoCert() const
{
return failNoCert_;
}
bool CertManager::sendVerify() const
{
return sendVerify_;
}
void CertManager::setVerifyPeer()
{
verifyPeer_ = true;
}
void CertManager::setFailNoCert()
{
failNoCert_ = true;
}
void CertManager::setSendVerify()
{
sendVerify_ = true;
}
void CertManager::AddPeerCert(x509* x)
{
peerList_.push_back(x); // take ownership
}
void CertManager::CopySelfCert(const x509* x)
{
if (x)
list_.push_back(new (ys) x509(*x));
}
// add to signers
int CertManager::CopyCaCert(const x509* x)
{
TaoCrypt::Source source(x->get_buffer(), x->get_length());
TaoCrypt::CertDecoder cert(source, true, &signers_);
if (!cert.GetError().What()) {
const TaoCrypt::PublicKey& key = cert.GetPublicKey();
signers_.push_back(new (ys) TaoCrypt::Signer(key.GetKey(), key.size(),
cert.GetCommonName(), cert.GetHash()));
}
return cert.GetError().What();
}
const x509* CertManager::get_cert() const
{
return list_.front();
}
const opaque* CertManager::get_peerKey() const
{
return peerPublicKey_.get_buffer();
}
X509* CertManager::get_peerX509() const
{
return peerX509_;
}
SignatureAlgorithm CertManager::get_peerKeyType() const
{
return peerKeyType_;
}
SignatureAlgorithm CertManager::get_keyType() const
{
return keyType_;
}
uint CertManager::get_peerKeyLength() const
{
return peerPublicKey_.get_size();
}
const opaque* CertManager::get_privateKey() const
{
return privateKey_.get_buffer();
}
uint CertManager::get_privateKeyLength() const
{
return privateKey_.get_size();
}
// Validate the peer's certificate list, from root to peer (last to first)
int CertManager::Validate()
{
CertList::iterator last = peerList_.rbegin(); // fix this
int count = peerList_.size();
while ( count > 1 ) {
TaoCrypt::Source source((*last)->get_buffer(), (*last)->get_length());
TaoCrypt::CertDecoder cert(source, true, &signers_);
if (int err = cert.GetError().What())
return err;
const TaoCrypt::PublicKey& key = cert.GetPublicKey();
signers_.push_back(new (ys) TaoCrypt::Signer(key.GetKey(), key.size(),
cert.GetCommonName(), cert.GetHash()));
--last;
--count;
}
if (count) {
// peer's is at the front
TaoCrypt::Source source((*last)->get_buffer(), (*last)->get_length());
TaoCrypt::CertDecoder cert(source, true, &signers_);
if (int err = cert.GetError().What())
return err;
uint sz = cert.GetPublicKey().size();
peerPublicKey_.allocate(sz);
peerPublicKey_.assign(cert.GetPublicKey().GetKey(), sz);
if (cert.GetKeyType() == TaoCrypt::RSAk)
peerKeyType_ = rsa_sa_algo;
else
peerKeyType_ = dsa_sa_algo;
int iSz = cert.GetIssuer() ? strlen(cert.GetIssuer()) + 1 : 0;
int sSz = cert.GetCommonName() ? strlen(cert.GetCommonName()) + 1 : 0;
peerX509_ = new (ys) X509(cert.GetIssuer(), iSz, cert.GetCommonName(),
sSz);
}
return 0;
}
// Set the private key
int CertManager::SetPrivateKey(const x509& key)
{
privateKey_.allocate(key.get_length());
privateKey_.assign(key.get_buffer(), key.get_length());
// set key type
if (x509* cert = list_.front()) {
TaoCrypt::Source source(cert->get_buffer(), cert->get_length());
TaoCrypt::CertDecoder cd(source, false);
cd.DecodeToKey();
if (int err = cd.GetError().What())
return err;
if (cd.GetKeyType() == TaoCrypt::RSAk)
keyType_ = rsa_sa_algo;
else
keyType_ = dsa_sa_algo;
}
return 0;
}
#if defined(USE_CML_LIB)
// Get the peer's certificate, extract and save public key
void CertManager::SetPeerKey()
{
// first cert is the peer's
x509* main = peerList_.front();
Bytes_struct cert;
cert.num = main->get_length();
cert.data = main->set_buffer();
CML::Certificate cm(cert);
const CML::ASN::Cert& raw = cm.base();
CTIL::CSM_Buffer key = raw.pubKeyInfo.key;
uint sz;
opaque* key_buffer = reinterpret_cast<opaque*>(key.Get(sz));
peerPublicKey_.allocate(sz);
peerPublicKey_.assign(key_buffer, sz);
}
#endif // USE_CML_LIB
} // namespace
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