windows-nt/Source/XPSP1/NT/ds/security/csps/cryptoflex/slbcci/acard.cpp

348 lines
8.7 KiB
C++
Raw Normal View History

2020-09-26 03:20:57 -05:00
// ACard.cpp: implementation of the CAbstractCard class.
//
// (c) Copyright Schlumberger Technology Corp., unpublished work, created
// 1999. This computer program includes Confidential, Proprietary
// Information and is a Trade Secret of Schlumberger Technology Corp. All
// use, disclosure, and/or reproduction is prohibited unless authorized
// in writing. All Rights Reserved.
//////////////////////////////////////////////////////////////////////
#include "NoWarning.h"
#include <functional>
#include "ACard.h"
#include "V1Card.h"
#include "V2Card.h"
#include "TransactionWrap.h"
using namespace std;
using namespace iop;
using namespace cci;
/////////////////////////// LOCAL/HELPER /////////////////////////////////
namespace
{
// Like std::mem_fun1_t but for constant member functions
template<class R, class T, class A>
class ConstMemFun1Type
: public binary_function<T const *, A, R>
{
public:
explicit ConstMemFun1Type(R (T::*Pm)(A) const)
: m_Ptr(Pm)
{}
R operator()(T const *P, A Arg) const
{
return ((P->*m_Ptr)(Arg));
}
private:
R (T::*m_Ptr)(A) const;
};
// Like std::mem_fun1 but for constant member functions
template<class R, class T, class A> inline
ConstMemFun1Type<R, T, A>
ConstMemFun1(R (T::*Pm)(A) const)
{
return (ConstMemFun1Type<R, T, A>(Pm));
}
template<class R>
ConstMemFun1Type<vector<R>, CAbstractCard const, ObjectAccess> const
PriviledgedEnumFun(vector<R> (CAbstractCard::*pmf)(ObjectAccess) const)
{
return ConstMemFun1Type<vector<R>, CAbstractCard const, ObjectAccess>(pmf);
}
template<class T, class Op>
vector<T>
EnumAll(Op Enumerator)
{
vector<T> vResult = Enumerator(oaPublicAccess);
vector<T> vPriv = Enumerator(oaPrivateAccess);
vResult.reserve(vResult.size() + vPriv.size());
vResult.insert(vResult.end(), vPriv.begin(), vPriv.end());
return vResult;
};
} // namespace
/////////////////////////// PUBLIC /////////////////////////////////
// Types
// C'tors/D'tors
CAbstractCard::~CAbstractCard()
{}
// Operators
bool
CAbstractCard::operator==(CAbstractCard const &rhs) const
{
CTransactionWrap wrap(this);
CTransactionWrap rhswrap(rhs); // will throw if the card is pulled.
return m_strReaderName == rhs.m_strReaderName;
}
bool
CAbstractCard::operator!=(CAbstractCard const &rhs) const
{
return !(*this == rhs);
}
// Operations
void
CAbstractCard::AuthenticateUser(string const &rstrBuffer)
{
m_apSmartCard->VerifyCHV(1,
reinterpret_cast<BYTE const *>(rstrBuffer.data()));
}
void
CAbstractCard::ChangePIN(string const &rstrOldPIN,
string const &rstrNewPIN)
{
if ((rstrOldPIN.size() != 0x08) || (rstrNewPIN.size() != 0x08))
throw Exception(ccBadPinLength);
m_apSmartCard->ChangeCHV(1,
reinterpret_cast<BYTE const *>(rstrOldPIN.data()),
reinterpret_cast<BYTE const *>(rstrNewPIN.data()));
}
void
CAbstractCard::Logout()
{
m_apSmartCard->LogoutAll();
}
CAbstractCard *
CAbstractCard::Make(string const &rstrReader)
{
auto_ptr<CIOP> apiop(new CIOP());
auto_ptr<CSmartCard>
apSmartCard(apiop->Connect(rstrReader.c_str()));
typedef auto_ptr<CAbstractCard>(*PCardMakerFun)(string const &rstrReader,
auto_ptr<CIOP> &rapiop,
auto_ptr<CSmartCard> &rapSmartCard);
static PCardMakerFun aCardMakers[] =
{
CV2Card::DoMake,
CV1Card::DoMake,
0
};
auto_ptr<CAbstractCard> apCard;
for (PCardMakerFun *ppcmf = aCardMakers;
(*ppcmf && !apCard.get()); ++ppcmf)
apCard = auto_ptr<CAbstractCard>((*ppcmf)(rstrReader,
apiop,
apSmartCard));
if (!apCard.get())
throw Exception(ccNotPersonalized);
apCard->Setup();
return apCard.release(); // caller given ownership
}
void
CAbstractCard::SetUserPIN(string const &rstrPin)
{
if (rstrPin.size() != 8)
throw Exception(ccBadPinLength);
m_apSmartCard->ChangeCHV(1, reinterpret_cast<BYTE const *>(rstrPin.data()));
}
void
CAbstractCard::VerifyKey(string const &rstrKey,
BYTE bKeyNum)
{
m_apSmartCard->VerifyKey(bKeyNum,
static_cast<WORD>(rstrKey.size()),
reinterpret_cast<BYTE const *>(rstrKey.data()));
}
void
CAbstractCard::VerifyTransportKey(string const &rstrKey)
{
m_apSmartCard->VerifyTransportKey(reinterpret_cast<BYTE const *>(rstrKey.data()));
}
void
CAbstractCard::GenRandom(DWORD dwNumBytes, BYTE *bpRand)
{
m_apSmartCard->GetChallenge(dwNumBytes, bpRand);
}
// Access
SCardType
CAbstractCard::CardType()
{
char const *szCardName = m_apSmartCard->getCardName();
// TO DO: Kludge Alert--a better type interface is needed in the
// IOP to determine the card type rather than keying on the name.
// For now, the Cryptoflex8K type is interpreted to mean it's a
// Cryptoflex card and Access16K means it's an Access card. Thus
// any "Cryptoflex" will map to Cryptoflex8K (including 4K) and
// any "Cyberflex" will map to Access16K. The folded mapping was
// to minimize impact to PKCS with the impending release.
//
// All of this should be revisited with the IOP.
SCardType sct = UnknownCard;
if (strstr(szCardName, "Cryptoflex"))
sct = Cryptoflex8K;
if (strstr(szCardName, "Cyberflex"))
sct = Access16K;
return sct;
}
vector<CCertificate>
CAbstractCard::EnumCertificates() const
{
CTransactionWrap wrap(this);
return
EnumAll<CCertificate>(bind1st(PriviledgedEnumFun<CCertificate>(EnumCertificates), this));
}
vector<CDataObject>
CAbstractCard::EnumDataObjects() const
{
CTransactionWrap wrap(this);
return
EnumAll<CDataObject>(bind1st(PriviledgedEnumFun<CDataObject>(EnumDataObjects), this));
}
vector <CPrivateKey>
CAbstractCard::EnumPrivateKeys() const
{
CTransactionWrap wrap(this);
return
EnumAll<CPrivateKey>(bind1st(PriviledgedEnumFun<CPrivateKey>(EnumPrivateKeys), this));
}
vector<CPublicKey>
CAbstractCard::EnumPublicKeys() const
{
CTransactionWrap wrap(this);
return
EnumAll<CPublicKey>(bind1st(PriviledgedEnumFun<CPublicKey>(EnumPublicKeys), this));
}
CMarker
CAbstractCard::Marker(CMarker::MarkerType const &Type) const
{
return m_apSmartCard->Marker(Type);
}
string
CAbstractCard::ReaderName() const
{
return m_strReaderName;
}
CSmartCard &
CAbstractCard::SmartCard() const
{
return *m_apSmartCard;
}
// Predicates
// Card is connected and available (e.g. in the reader)
bool
CAbstractCard::IsAvailable() const
{
bool fIsAvailable = false;
try
{
CTransactionWrap wrap(this);
DWORD dwState;
DWORD dwProtocol;
m_apSmartCard->GetState(dwState, dwProtocol);
fIsAvailable = (SCARD_SPECIFIC == dwState);
}
catch (...)
{
}
return fIsAvailable;
}
// Static Variables
/////////////////////////// PROTECTED /////////////////////////////////
// C'tors/D'tors
CAbstractCard::CAbstractCard(string const &rstrReaderName,
auto_ptr<iop::CIOP> &rapiop,
auto_ptr<CSmartCard> &rapSmartCard)
: CCryptFactory(),
slbRefCnt::RCObject(),
m_strReaderName(rstrReaderName),
m_apiop(rapiop),
m_apSmartCard(rapSmartCard)
{}
// Operators
// Operations
void
CAbstractCard::DoSetup()
{}
// Access
// Predicates
// Static Variables
/////////////////////////// PRIVATE /////////////////////////////////
// C'tors/D'tors
// Operators
// Operations
void
CAbstractCard::Setup()
{
CTransactionWrap wrap(this);
DoSetup();
}
// Access
// Predicates
// Static Variables