// AccessTok.cpp -- Access Token class definition // (c) Copyright Schlumberger Technology Corp., unpublished work, created // 1999.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 "ForceLib.h" #include #include #include #include #include "Blob.h" #include "AccessTok.h" using namespace std; /////////////////////////// LOCAL/HELPER ///////////////////////////////// namespace { const char PinPad = '\xFF'; void DoAuthenticate(HCardContext const &rhcardctx, string const &rsPin) { rhcardctx->Card()->AuthenticateUser(rsPin); } string ToAscii(string const &rsHexPin) { string::size_type cNewLength = rsHexPin.size() / 2; string sAsciiPin; sAsciiPin.reserve(AccessToken::MaxPinLength); for (size_t i = 0; i < cNewLength; i++) { for (size_t j = 0; j < 2; j++) { BYTE b; if (isxdigit(rsHexPin[2*i+j])) { if (isdigit(rsHexPin[2*i+j])) b = rsHexPin[2*i+j] - '0'; else { if (isupper(rsHexPin[2*i+j])) b = rsHexPin[2*i+j] - 'A' + 0x0A; else b = rsHexPin[2*i+j] - 'a' + 0x0A; } } else throw scu::OsException(ERROR_INVALID_PARAMETER); if (0 == j) sAsciiPin[i] = b << (numeric_limits::digits / 2); else sAsciiPin[i] |= b; } } return sAsciiPin; } } /////////////////////////// PUBLIC ///////////////////////////////// // Types // C'tors/D'tors AccessToken::AccessToken(HCardContext const &rhcardctx, LoginIdentity const &rlid) : m_hcardctx(rhcardctx), m_lid(rlid), m_hpc(0), m_sPin() { // TO DO: Support Administrator and Manufacturing PINs switch (m_lid) { case User: break; case Administrator: // TO DO: Support authenticating admin (aut 0) throw scu::OsException(E_NOTIMPL); case Manufacturer: // TO DO: Support authenticating manufacturer (aut ?) throw scu::OsException(E_NOTIMPL); default: throw scu::OsException(ERROR_INVALID_PARAMETER); } m_sPin.reserve(MaxPinLength); } AccessToken::AccessToken(AccessToken const &rhs) : m_hcardctx(rhs.m_hcardctx), m_lid(rhs.m_lid), m_hpc(0), // doesn't commute m_sPin(rhs.m_sPin) {} AccessToken::~AccessToken() { try { FlushPin(); } catch (...) { } } // Operators // Operations void AccessToken::Authenticate() { // Only the user pin (CHV) is supported. DWORD dwError = ERROR_SUCCESS; BYTE bPin[MaxPinLength]; DWORD cbPin = sizeof bPin / sizeof *bPin; if ((0 == m_hpc) || (0 != m_sPin.length())) { // The MS pin cache is either uninitialized (empty) or a new // pin supplied. Authenticate using requested pin, having the MS pin // cache library update the cache if authentication succeeds. memcpy(bPin, m_sPin.data(), cbPin); PINCACHE_PINS pcpins = { cbPin, bPin, 0, 0 }; dwError = PinCacheAdd(&m_hpc, &pcpins, VerifyPin, this); if (ERROR_SUCCESS != dwError) { m_sPin.erase(); if (Exception()) PropagateException(); else throw scu::OsException(dwError); } } else { // The MS pin cache must already be initialized at this point. // Retrieve it and authenticate. dwError = PinCacheQuery(m_hpc, bPin, &cbPin); if (ERROR_SUCCESS != dwError) throw scu::OsException(dwError); Blob blbPin(bPin, cbPin); DoAuthenticate(m_hcardctx, AsString(blbPin)); m_sPin = AsString(blbPin); // cache in case changing pin } } void AccessToken::ChangePin(AccessToken const &ratNew) { DWORD dwError = ERROR_SUCCESS; BYTE bPin[MaxPinLength]; DWORD cbPin = sizeof bPin / sizeof bPin[0]; memcpy(bPin, m_sPin.data(), MaxPinLength); BYTE bNewPin[MaxPinLength]; DWORD cbNewPin = sizeof bNewPin / sizeof bNewPin[0]; memcpy(bNewPin, ratNew.m_sPin.data(), MaxPinLength); PINCACHE_PINS pcpins = { cbPin, bPin, cbNewPin, bNewPin }; dwError = PinCacheAdd(&m_hpc, &pcpins, ChangeCardPin, this); if (ERROR_SUCCESS != dwError) { if (Exception()) PropagateException(); else throw scu::OsException(dwError); } m_sPin = ratNew.m_sPin; // cache the new pin } void AccessToken::ClearPin() { m_sPin.erase(); } void AccessToken::FlushPin() { PinCacheFlush(&m_hpc); ClearPin(); } void AccessToken::Pin(string const &rsPin, bool fInHex) { if (fInHex) m_sPin = ToAscii(rsPin); else m_sPin = rsPin; if (m_sPin.length() > MaxPinLength) throw scu::OsException(ERROR_INVALID_PARAMETER); if (m_sPin.length() < MaxPinLength) // always pad the pin m_sPin.append(MaxPinLength - m_sPin.length(), PinPad); } // Access HCardContext AccessToken::CardContext() const { return m_hcardctx; } LoginIdentity AccessToken::Identity() const { return m_lid; } string AccessToken::Pin() const { return m_sPin; } // Predicates bool AccessToken::PinIsCached() const { DWORD cbPin; DWORD dwError = PinCacheQuery(m_hpc, 0, &cbPin); bool fIsCached = (0 != cbPin); return fIsCached; } // Static Variables /////////////////////////// PROTECTED ///////////////////////////////// // C'tors/D'tors // Operators // Operations // Access // Predicates // Static Variables /////////////////////////// PRIVATE ///////////////////////////////// // C'tors/D'tors // Operators // Operations DWORD AccessToken::ChangeCardPin(PPINCACHE_PINS pPins, PVOID pvCallbackCtx) { AccessToken *pat = reinterpret_cast(pvCallbackCtx); DWORD dwError = ERROR_SUCCESS; EXCCTX_TRY { pat->ClearException(); Blob blbPin(pPins->pbCurrentPin, pPins->cbCurrentPin); Blob blbNewPin(pPins->pbNewPin, pPins->cbNewPin); pat->m_hcardctx->Card()->ChangePIN(AsString(blbPin), AsString(blbNewPin)); } EXCCTX_CATCH(pat, false); if (pat->Exception()) dwError = E_FAIL; return dwError; } DWORD AccessToken::VerifyPin(PPINCACHE_PINS pPins, PVOID pvCallbackCtx) { AccessToken *pat = reinterpret_cast(pvCallbackCtx); DWORD dwError = ERROR_SUCCESS; EXCCTX_TRY { pat->ClearException(); Blob blbPin(pPins->pbCurrentPin, pPins->cbCurrentPin); DoAuthenticate(pat->m_hcardctx, AsString(blbPin)); } EXCCTX_CATCH(pat, false); if (pat->Exception()) dwError = E_FAIL; return dwError; } // Access // Predicates // Static Variables