Source code of Windows XP (NT5)
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// CardFinder.cpp -- CardFinder class implementation
// (c) Copyright Schlumberger Technology Corp., unpublished work, created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.
#if defined(_UNICODE)
#if !defined(UNICODE)
#define UNICODE
#endif //!UNICODE
#endif //_UNICODE
#if defined(UNICODE)
#if !defined(_UNICODE)
#define _UNICODE
#endif //!_UNICODE
#endif //UNICODE
#include "StdAfx.h"
#include <string>
#include <numeric>
#include <Windows.h>
#include <WinUser.h>
#include <scuOsExc.h>
#include <scuCast.h>
#include "PromptUser.h"
#include "CardFinder.h"
#include "CspProfile.h"
#include "StResource.h"
#include "ExceptionContext.h"
#include "Blob.h"
using namespace std;
using namespace scu;
using namespace cci;
using namespace ProviderProfile;
using CardFinder::DialogDisplayMode;
/////////////////////////// LOCAL/HELPER /////////////////////////////////
namespace
{
// Lengths as specified by OPENCARDNAME
size_t const cMaxCardNameLength = 256;
size_t const cMaxReaderNameLength = 256;
// In a preemptive, multi-threaded, environment it's assumed
// access to these scratch buffers does not need to be mutually
// exclusive.
TCHAR CardNamesScratchBuffer[cMaxCardNameLength];
TCHAR ReaderNamesScratchBuffer[cMaxReaderNameLength];
DWORD
AsDialogFlag(DialogDisplayMode ddm)
{
DWORD dwDialogFlag;
switch (ddm)
{
case DialogDisplayMode::ddmNever:
dwDialogFlag = SC_DLG_NO_UI;
break;
case DialogDisplayMode::ddmIfNecessary:
dwDialogFlag = SC_DLG_MINIMAL_UI;
break;
case DialogDisplayMode::ddmAlways:
dwDialogFlag = SC_DLG_FORCE_UI;
break;
default:
throw scu::OsException(E_INVALIDARG);
}
return dwDialogFlag;
}
vector<string> &
CardNameAccumulator(vector<string> &rvs,
CardProfile &rcp)
{
rvs.push_back(rcp.RegistryName());
return rvs;
}
vector<CString>
csCardNameAccumulator(vector<CString> &rvs,
CardProfile &rcp)
{
rvs.push_back(rcp.csRegistryName());
return rvs;
}
} // namespace
/////////////////////////// PUBLIC /////////////////////////////////
// Types
// C'tors/D'tors
CardFinder::CardFinder(DialogDisplayMode ddm,
HWND hwnd,
CString const &rsDialogTitle)
: m_sDialogTitle(rsDialogTitle),
m_ddm(ddm),
m_hwnd(hwnd),
m_apmszSupportedCards(),
m_opcnDlgCtrl(),
#if SLBCSP_USE_SCARDUIDLGSELECTCARD
m_opcnCriteria(),
m_sInsertPrompt(StringResource(IDS_INS_SLB_CRYPTO_CARD).AsCString()),
#endif
m_cspec(),
m_hscardctx()
{
m_hscardctx.Establish();
// TO DO: Since the CCI doesn't provide enough information about
// the cards, the CSP creates its own version for CSP
// registration. Rather than use the CCI's KnownCards routine to
// get the card names, the CSPs version is used until the CCI
// provides enough information.
vector<CardProfile> vcp(CspProfile::Instance().Cards());
m_apmszSupportedCards =
auto_ptr<MultiStringZ>(new MultiStringZ(accumulate(vcp.begin(),
vcp.end(),
vector<CString>(),
csCardNameAccumulator)));
// Fill the Open Card Name Dialog, pvUserData which is set by
// DoFind.
m_opcnDlgCtrl.dwStructSize = sizeof(m_opcnDlgCtrl); // REQUIRED
m_opcnDlgCtrl.hSCardContext = m_hscardctx.AsSCARDCONTEXT(); // REQUIRED
m_opcnDlgCtrl.hwndOwner = m_hwnd; // OPTIONAL
m_opcnDlgCtrl.dwFlags = AsDialogFlag(DisplayMode()); // OPTIONAL -- default is SC_DLG_MINIMAL_UI
m_opcnDlgCtrl.lpstrTitle = (LPCTSTR)m_sDialogTitle; // OPTIONAL
m_opcnDlgCtrl.dwShareMode = SCARD_SHARE_SHARED; // OPTIONAL - if lpfnConnect is NULL, dwShareMode and
m_opcnDlgCtrl.dwPreferredProtocols = SCARD_PROTOCOL_T0; // OPTIONAL dwPreferredProtocols will be used to
// connect to the selected card
m_opcnDlgCtrl.lpstrRdr = ReaderNamesScratchBuffer; // REQUIRED [IN|OUT] Name of selected reader
m_opcnDlgCtrl.nMaxRdr = sizeof ReaderNamesScratchBuffer /
sizeof *ReaderNamesScratchBuffer; // REQUIRED [IN|OUT]
m_opcnDlgCtrl.lpstrCard = CardNamesScratchBuffer; // REQUIRED [IN|OUT] Name of selected card
m_opcnDlgCtrl.nMaxCard = sizeof CardNamesScratchBuffer /
sizeof *CardNamesScratchBuffer; // REQUIRED [IN|OUT]
m_opcnDlgCtrl.dwActiveProtocol = 0; // [OUT] set only if dwShareMode not NULL
m_opcnDlgCtrl.hCardHandle = NULL; // [OUT] set if a card connection was indicated
CheckFn(IsValid);
ConnectFn(Connect);
DisconnectFn(Disconnect);
#if !SLBCSP_USE_SCARDUIDLGSELECTCARD
m_opcnDlgCtrl.lpstrGroupNames = 0;
m_opcnDlgCtrl.nMaxGroupNames = 0;
m_opcnDlgCtrl.lpstrCardNames = (LPTSTR)m_apmszSupportedCards->csData();
m_opcnDlgCtrl.nMaxCardNames = m_apmszSupportedCards->csLength();
m_opcnDlgCtrl.rgguidInterfaces = 0;
m_opcnDlgCtrl.cguidInterfaces = 0;
#else
m_opcnDlgCtrl.lpstrSearchDesc = (LPCTSTR)m_sInsertPrompt; // OPTIONAL (eg. "Please insert your <brandname> smart card.")
m_opcnDlgCtrl.hIcon = NULL; // OPTIONAL 32x32 icon for your brand insignia
m_opcnDlgCtrl.pOpenCardSearchCriteria = &m_opcnCriteria; // OPTIONAL
m_opcnCriteria.dwStructSize = sizeof(m_opcnCriteria);
m_opcnCriteria.lpstrGroupNames = 0; // OPTIONAL reader groups to include in
m_opcnCriteria.nMaxGroupNames = 0; // search. NULL defaults to
// SCard$DefaultReaders
m_opcnCriteria.rgguidInterfaces = 0; // OPTIONAL requested interfaces
m_opcnCriteria.cguidInterfaces = 0; // supported by card's SSP
m_opcnCriteria.lpstrCardNames = (LPTSTR)m_apmszSupportedCards->csData(); // OPTIONAL requested card names; all cards w/
m_opcnCriteria.nMaxCardNames = m_apmszSupportedCards->csLength(); // matching ATRs will be accepted
m_opcnCriteria.dwShareMode = SCARD_SHARE_SHARED; // OPTIONAL must be set if lpfnCheck is not null
m_opcnCriteria.dwPreferredProtocols = SCARD_PROTOCOL_T0; // OPTIONAL
#endif // !SLBCSP_USE_SCARDUIDLGSELECTCARD
}
CardFinder::~CardFinder()
{}
// Operators
// Operations
Secured<HCardContext>
CardFinder::Find(CSpec const &rcsReader)
{
DoFind(rcsReader);
return CardFound();
}
// Access
DialogDisplayMode
CardFinder::DisplayMode() const
{
return m_ddm;
}
HWND
CardFinder::Window() const
{
return m_hwnd;
}
// Predicates
// Static Variables
/////////////////////////// PROTECTED /////////////////////////////////
// C'tors/D'tors
// Operators
// Operations
void
CardFinder::CardFound(Secured<HCardContext> const &rshcardctx)
{
m_shcardctx = rshcardctx;
}
SCARDHANDLE
CardFinder::DoConnect(string const &rsSelectedReader)
{
SCARDHANDLE hSCard = reinterpret_cast<SCARDHANDLE>(INVALID_HANDLE_VALUE);
// If the reader spec's match...
if (CSpec::Equiv(CardSpec().Reader(), rsSelectedReader))
{
HCardContext hcardctx(rsSelectedReader);
CardFound(Secured<HCardContext>(hcardctx));
}
else
{
CardFound(Secured<HCardContext>(0));
hSCard = 0;
}
return hSCard;
}
void
CardFinder::DoDisconnect()
{
CardFound(Secured<HCardContext>(0));
}
void
CardFinder::DoFind(CSpec const &rcspec)
{
m_cspec = rcspec;
// Bind to the callers call context
UserData(reinterpret_cast<void *>(this));
// Cache to override later
OpenCardNameType opencardname(m_opcnDlgCtrl);
bool fContinue = true;
do
{
DWORD dwStatus(SelectCard(opencardname));
DoProcessSelection(dwStatus, opencardname, fContinue);
} while (fContinue);
OnError();
}
void
CardFinder::DoOnError()
{
scu::Exception const *pexc = Exception();
if (pexc && (ddmNever != DisplayMode()))
{
switch (pexc->Facility())
{
case scu::Exception::fcOS:
{
OsException const *pOsExc =
DownCast<OsException const *>(pexc);
switch (pOsExc->Cause())
{
case SCARD_E_UNSUPPORTED_FEATURE:
YNPrompt(IDS_NOT_CAPI_ENABLED);
ClearException();
break;
case ERROR_INVALID_PARAMETER:
YNPrompt(IDS_READER_NOT_MATCH);
ClearException();
break;
default:
break;
}
}
break;
case scu::Exception::fcCCI:
{
cci::Exception const *pCciExc =
DownCast<cci::Exception const *>(pexc);
if (ccNotPersonalized == pCciExc->Cause())
{
YNPrompt(IDS_CARD_NOT_INIT);
ClearException();
}
}
break;
default:
break;
}
}
}
void
CardFinder::DoProcessSelection(DWORD dwStatus,
OpenCardNameType &ropencardname,
bool &rfContinue)
{
rfContinue = true;
// Handle the error conditions
if (Exception() &&
!((SCARD_E_CANCELLED == dwStatus) ||
(SCARD_W_CANCELLED_BY_USER == dwStatus)))
rfContinue = false;
else
{
WorkaroundOpenCardDefect(ropencardname, dwStatus);
if (SCARD_S_SUCCESS != dwStatus)
{
// Translate the cancellation error as needed.
if ((SCARD_E_CANCELLED == dwStatus) ||
(SCARD_W_CANCELLED_BY_USER == dwStatus))
{
if (ddmNever == DisplayMode())
{
if ((SCARD_E_CANCELLED == dwStatus) &&
!CardFound())
// SCARD_E_NO_SMARTCARD is returned
// because the Smart Card Dialog will
// return SCARD_E_CANCELLED when the GUI
// is not allowed and there is no smart
// card in the reader, so the error is
// translated here.
dwStatus = SCARD_E_NO_SMARTCARD;
else
// NTE_BAD_KEYSET is returned because some version
// of a Microsoft application would go into an
// infinite loop when ERROR_CANCELLED was returned
// under these conditions. Doug Barlow at
// Microsoft noticed the behaviour and implemented
// the workaround. It's unclear what that
// application was and if the workaround remains
// necessary.
dwStatus = NTE_BAD_KEYSET; // how can this happen?
}
else
dwStatus = ERROR_CANCELLED;
}
Exception(auto_ptr<scu::Exception const>(scu::OsException(dwStatus).Clone()));
rfContinue = false;
}
else
rfContinue = false;
}
if (SC_DLG_MINIMAL_UI == ropencardname.dwFlags)
ropencardname.dwFlags = SC_DLG_FORCE_UI;
}
void
CardFinder::YNPrompt(UINT uID) const
{
int iResponse = PromptUser(Window(), uID, MB_YESNO | MB_ICONWARNING);
switch (iResponse)
{
case IDABORT: // fall-through intentional
case IDCANCEL:
case IDNO:
throw scu::OsException(ERROR_CANCELLED);
break;
case IDOK:
case IDYES:
case IDRETRY:
break;
case 0:
throw scu::OsException(GetLastError());
break;
default:
throw scu::OsException(ERROR_INTERNAL_ERROR);
break;
}
}
// Access
CSpec const &
CardFinder::CardSpec() const
{
return m_cspec;
}
Secured<HCardContext>
CardFinder::CardFound() const
{
return m_shcardctx;
}
// Predicates
bool
CardFinder::DoIsValid()
{
Secured<HCardContext> shcardctx(CardFound());
if (shcardctx &&
!shcardctx->Card()->IsCAPIEnabled())
throw scu::OsException(SCARD_E_UNSUPPORTED_FEATURE);
return (shcardctx != 0);
}
// Static Variables
/////////////////////////// PRIVATE /////////////////////////////////
// C'tors/D'tors
// Operators
// Operations
void
CardFinder::CheckFn(LPOCNCHKPROC lpfnCheck)
{
#if !SLBCSP_USE_SCARDUIDLGSELECTCARD
m_opcnDlgCtrl.lpfnCheck = lpfnCheck;
#else
m_opcnCriteria.lpfnCheck = lpfnCheck;
#endif
}
SCARDHANDLE __stdcall
CardFinder::Connect(SCARDCONTEXT scardctx,
LPTSTR szReader,
LPTSTR mszCards,
LPVOID lpvUserData)
{
AFX_MANAGE_STATE(AfxGetStaticModuleState());
CardFinder *pfinder =
reinterpret_cast<CardFinder *>(lpvUserData);
SCARDHANDLE hResult = reinterpret_cast<SCARDHANDLE>(INVALID_HANDLE_VALUE);
EXCCTX_TRY
{
// Starting fresh, clear any earler exception
pfinder->ClearException();
string sSelectedReader(StringResource::AsciiFromUnicode(szReader));
hResult =
pfinder->DoConnect(sSelectedReader);
}
EXCCTX_CATCH(pfinder, false);
return hResult;
}
void
CardFinder::ConnectFn(LPOCNCONNPROC lpfnConnect)
{
m_opcnDlgCtrl.lpfnConnect = lpfnConnect;
#if SLBCSP_USE_SCARDUIDLGSELECTCARD
m_opcnCriteria.lpfnConnect = m_opcnDlgCtrl.lpfnConnect;
#endif
}
void __stdcall
CardFinder::Disconnect(SCARDCONTEXT scardctx,
SCARDHANDLE hSCard,
LPVOID lpvUserData)
{
AFX_MANAGE_STATE(AfxGetStaticModuleState());
CardFinder *pfinder =
reinterpret_cast<CardFinder *>(lpvUserData);
EXCCTX_TRY
{
pfinder->DoDisconnect();
}
EXCCTX_CATCH(pfinder, false);
}
void
CardFinder::DisconnectFn(LPOCNDSCPROC lpfnDisconnect)
{
#if !SLBCSP_USE_SCARDUIDLGSELECTCARD
m_opcnDlgCtrl.lpfnDisconnect = lpfnDisconnect;
#else
m_opcnCriteria.lpfnDisconnect = lpfnDisconnect;
#endif
}
void
CardFinder::OnError()
{
if (Exception())
{
DoOnError();
PropagateException();
}
}
DWORD
CardFinder::SelectCard(OpenCardNameType &ropcn)
{
#if !SLBCSP_USE_SCARDUIDLGSELECTCARD
return GetOpenCardName(&ropcn);
#else
return SCardUIDlgSelectCard(&ropcn);
#endif
}
void
CardFinder::UserData(void *pvUserData)
{
m_opcnDlgCtrl.pvUserData = pvUserData;
#if SLBCSP_USE_SCARDUIDLGSELECTCARD
m_opcnCriteria.pvUserData = m_opcnDlgCtrl.pvUserData;
#endif
}
void
CardFinder::WorkaroundOpenCardDefect(OpenCardNameType const &ropcnDlgCtrl,
DWORD &rdwStatus)
{
// On systems using Smart Card Kit v1.0 and prior (in other words
// systems prior to Windows 2000/NT 5.0), MS' GetOpenCardName
// (scarddlg.dll) has a defect that manifests when the check
// routine always returns FALSE. In this case, the common dialog
// will call connect routine one additional time without calling
// check or disconnect routine. Therefore upon return, it appears
// a card match was found when there really wasn't. The
// workaround is to make additional calls to the check routine
// after the call to GetOpenCardName. If there isn't a match,
// then the card is invalid and should act as if the card was not
// connected. Fortunately, this workaround behaves correctly on
// the good scarddlg.dll as well (post Smart Card Kit v1.0).
if (SCARD_S_SUCCESS == rdwStatus)
{
try
{
LPOCNCHKPROC lpfnCheck = CheckFn();
LPOCNDSCPROC lpfnDisconnect = DisconnectFn();
if (CardFound() &&
!lpfnCheck(ropcnDlgCtrl.hSCardContext, 0, this))
lpfnDisconnect(ropcnDlgCtrl.hSCardContext, 0, this);
if (!CardFound() &&
(SC_DLG_MINIMAL_UI == ropcnDlgCtrl.dwFlags))
{
// A card didn't matched and the user wasn't actually
// prompted, so force the smart card dialog to prompt
// the user to select a card.
lpfnDisconnect(ropcnDlgCtrl.hSCardContext, 0, this);
OpenCardNameType opencardname = ropcnDlgCtrl;
opencardname.dwFlags = SC_DLG_FORCE_UI;
rdwStatus = SelectCard(opencardname);
if ((SCARD_S_SUCCESS == rdwStatus) &&
!Exception() &&
!lpfnCheck(opencardname.hSCardContext, 0, this))
lpfnDisconnect(opencardname.hSCardContext, 0, this);
}
}
catch (...)
{
// propagate the exception here if one didn't occur in
// one of the callback routines.
if (!Exception())
throw;
}
OnError();
}
}
// Access
LPOCNCHKPROC
CardFinder::CheckFn() const
{
#if !SLBCSP_USE_SCARDUIDLGSELECTCARD
return m_opcnDlgCtrl.lpfnCheck;
#else
return m_opcnCriteria.lpfnCheck;
#endif
}
LPOCNDSCPROC
CardFinder::DisconnectFn() const
{
#if !SLBCSP_USE_SCARDUIDLGSELECTCARD
return m_opcnDlgCtrl.lpfnDisconnect;
#else
return m_opcnCriteria.lpfnDisconnect;
#endif
}
// Predicates
BOOL __stdcall
CardFinder::IsValid(SCARDCONTEXT scardctx,
SCARDHANDLE hSCard,
LPVOID lpvUserData)
{
AFX_MANAGE_STATE(AfxGetStaticModuleState());
CardFinder *pfinder =
reinterpret_cast<CardFinder *>(lpvUserData);
bool fResult = false;
EXCCTX_TRY
{
fResult = pfinder->DoIsValid();
}
// Throwing the callback exception is optional because the
// Microsoft Smart Card Dialog sensitive to throwing from the
// IsValid callback, particularly when multiple readers are
// connected.
EXCCTX_CATCH(pfinder, false);
return fResult
? TRUE
: FALSE;
}
// Static Variables