Source code of Windows XP (NT5)
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// CspProfile.cpp -- CSP Profile class implementation
// (c) Copyright Schlumberger Technology Corp., unpublished work, created
// 1998. 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 <stddef.h>
#include <basetsd.h>
#include <wincrypt.h>
#include <scuOsExc.h>
#include <slbModVer.h>
#include "StResource.h"
#include "MasterLock.h"
#include "Guard.h"
#include "Blob.h"
#include "CspProfile.h"
using namespace std;
using namespace ProviderProfile;
namespace
{
BYTE g_abCF4kATRString[] = { 0x3b, 0xe2, 0x00, 0x00, 0x40, 0x20,
0x49, 0x00 };
BYTE g_abCF4kATRMask[] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0x00 };
BYTE g_abCF8kATRString[] = { 0x3b, 0x85, 0x40, 0x20, 0x68,
0x01, 0x01, 0x00, 0x00 };
BYTE g_abCF8kATRMask[] = { 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff, 0x00, 0x00 };
BYTE g_abCF8kV2ATRString[] = { 0x3b, 0x95, 0x15, 0x40, 0x00,
0x68, 0x01, 0x02, 0x00, 0x00 };
BYTE g_abCF8kV2ATRMask[] = { 0xff, 0xff, 0xff, 0xff, 0x00,
0xff, 0xff, 0xff, 0x00, 0x00 };
// BYTE g_abCF16kATRString[] = { 0x3B, 0x95, 0x15, 0x40, 0xFF, 0x63,
// 0x01, 0x01, 0x00, 0x00 };
// BYTE g_abCF16kATRMask[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
// 0xFF, 0xFF, 0x00, 0x00 };
BYTE g_abCFe_gateATRString[] = { 0x3B, 0x95, 0x00, 0x40, 0xFF,
0x62, 0x01, 0x01, 0x00, 0x00 };
BYTE g_abCFe_gateATRMask[] = { 0xFF, 0xFF, 0x00, 0xFF, 0xFF,
0xFF, 0xFF, 0xFF, 0x00, 0x00 };
BYTE g_abCA16kATRString[] = { 0x3b, 0x16, 0x94, 0x81, 0x10,
0x06, 0x01, 0x00, 0x00 };
BYTE g_abCA16kATRMask[] = { 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff, 0x00, 0x00 };
BYTE g_abCACampusATRString[] = { 0x3b, 0x23, 0x00, 0x35, 0x13, 0x80 };
BYTE g_abCACampusATRMask[] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
BYTE g_abCFActivCardATRString[] = { 0x3b, 0x05, 0x68, 0x01, 0x01,
0x02, 0x05 };
BYTE g_abCFActivCardATRMask[] = { 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xff };
GUID g_guidPrimaryProvider = { 0x19B7E2E8, 0xFEBD, 0x11d0,
{ 0x88, 0x27, 0x00, 0xA0, 0xC9,
0x55, 0xFC, 0x7E } };
} // namespace
ATR::ATR()
: m_al(0)
{}
ATR::ATR(Length al,
BYTE const abATR[],
BYTE const abMask[])
: m_al(al)
{
memcpy(m_atrstring, abATR, al);
memcpy(m_atrsMask, abMask, al);
}
BYTE const *
ATR::String() const
{
return m_atrstring;
}
BYTE const *
ATR::Mask() const
{
return m_atrsMask;
}
ATR::Length
ATR::ATRLength() const
{
return m_al;
}
size_t
ATR::Size() const
{
return m_al * sizeof *m_atrstring;
}
ATR &
ATR::operator=(ATR const &rhs)
{
if (*this != rhs)
{
m_al = rhs.m_al;
memcpy(m_atrstring, rhs.m_atrstring,
sizeof m_atrstring / sizeof *m_atrstring);
memcpy(m_atrsMask, rhs.m_atrsMask,
sizeof m_atrsMask / sizeof *m_atrsMask);
}
return *this;
}
bool
ATR::operator==(ATR const &rhs)
{
return !(*this != rhs);
}
bool
ATR::operator!=(ATR const &rhs)
{
return (m_al != rhs.m_al) ||
memcmp(m_atrstring, rhs.m_atrstring, m_al) ||
memcmp(m_atrsMask, rhs.m_atrsMask, m_al);
}
CardProfile::CardProfile()
: m_atr(),
m_sFriendlyName(),
m_sRegistryName(),
m_csFriendlyName(),
m_csRegistryName(),
m_gPrimaryProvider(),
m_attr(Attribute::attrNone)
{}
CardProfile::CardProfile(ProviderProfile::ATR const &ratr,
string const &rsFriendlyName,
string const &rsRegistryName,
GUID const &rgPrimaryProvider,
Attribute attr)
: m_atr(ratr),
m_sFriendlyName(rsFriendlyName),
m_sRegistryName(rsRegistryName),
m_csFriendlyName(StringResource::UnicodeFromAscii(rsFriendlyName)),
m_csRegistryName(StringResource::UnicodeFromAscii(rsRegistryName)),
m_gPrimaryProvider(rgPrimaryProvider),
m_attr(attr)
{}
CardProfile::CardProfile(ProviderProfile::ATR const &ratr,
CString const &rcsFriendlyName,
CString const &rcsRegistryName,
GUID const &rgPrimaryProvider,
Attribute attr)
: m_atr(ratr),
m_csFriendlyName(rcsFriendlyName),
m_csRegistryName(rcsRegistryName),
m_sFriendlyName(StringResource::AsciiFromUnicode((LPCTSTR)rcsFriendlyName)),
m_sRegistryName(StringResource::AsciiFromUnicode((LPCTSTR)rcsRegistryName)),
m_gPrimaryProvider(rgPrimaryProvider),
m_attr(attr)
{}
CardProfile::~CardProfile()
{}
ATR const &
CardProfile::ATR() const
{
return m_atr;
}
string
CardProfile::FriendlyName() const
{
return m_sFriendlyName;
}
CString
CardProfile::csFriendlyName() const
{
return m_csFriendlyName;
}
GUID const &
CardProfile::PrimaryProvider() const
{
return m_gPrimaryProvider;
}
string
CardProfile::RegistryName() const
{
return m_sRegistryName;
}
CString
CardProfile::csRegistryName() const
{
return m_csRegistryName;
}
bool
CardProfile::AtrMatches(ATR::Length cAtr,
BYTE const *pbRhsAtr) const
{
bool fIsAMatch = false;
ATR::Length const cAtrLength = m_atr.ATRLength();
if (cAtrLength == cAtr)
{
BYTE const *pbLhsAtr = m_atr.String();
BYTE const *pbLhsMask = m_atr.Mask();
for (ATR::Length i = 0; cAtrLength != i; ++i)
{
if ((pbLhsMask[i] & pbLhsAtr[i]) != (pbLhsMask[i] & pbRhsAtr[i]))
break; // no sense continuing
}
if (cAtrLength == i)
fIsAMatch = true;
}
return fIsAMatch;
}
bool
CardProfile::HasAttribute(Attribute attr) const
{
return m_attr & attr ? true : false;
}
bool
CardProfile::operator==(CardProfile const &rhs)
{
return !(*this != rhs);
}
bool
CardProfile::operator!=(CardProfile const &rhs)
{
return (m_atr != rhs.m_atr) ||
(m_sFriendlyName != rhs.m_sFriendlyName) ||
(memcmp(&m_gPrimaryProvider, &rhs.m_gPrimaryProvider,
sizeof m_gPrimaryProvider)) ||
(m_attr != m_attr);
}
CspProfile::CspProfile(DWORD Type,
vector<CardProfile> const &rvcp)
: m_hDllInstance(0),
m_dwType(Type),
m_vi(),
m_vcp(rvcp),
m_hResInstance(0),
m_RsrcExtensionDLL(),
m_apExtDll()
{
static const TCHAR szBaseRsrc[] = TEXT("slbRcCsp.dll");
AFX_MANAGE_STATE(AfxGetStaticModuleState());
m_hDllInstance = AfxGetInstanceHandle();
if (!m_hDllInstance)
throw scu::OsException(GetLastError());
// Try loading slbRcCsp.dll from the same directory as this CSP.
DWORD dwLen;
TCHAR szFileName[MAX_PATH + sizeof TCHAR];
dwLen = GetModuleFileName(m_hDllInstance, szFileName,
MAX_PATH );
if (0 == dwLen)
throw scu::OsException(GetLastError());
szFileName[dwLen] = 0;
string sPathDelimiters(AsCCharP(TEXT(":\\")), _tcslen(TEXT(":\\")));
string sDllName(AsCCharP(szFileName), _tcslen(szFileName));
string::size_type cDelimiterPosition(sDllName.find_last_of(sPathDelimiters));
if (string::npos != cDelimiterPosition)
{
string sModuleName = sDllName.substr(0, cDelimiterPosition + 1) +
string(AsCCharP(szBaseRsrc), _tcslen(szBaseRsrc));
CString csModuleName = StringResource::UnicodeFromAscii(sModuleName);
m_hResInstance = LoadLibraryEx((LPCTSTR)csModuleName, NULL,
LOAD_LIBRARY_AS_DATAFILE);
}
// If not found, then load using the normal search path strategy.
if (!m_hResInstance)
m_hResInstance = LoadLibraryEx(szBaseRsrc, NULL,
LOAD_LIBRARY_AS_DATAFILE);
ZeroMemory(&m_RsrcExtensionDLL, sizeof m_RsrcExtensionDLL);
if (!m_hResInstance)
{
AfxInitExtensionModule(m_RsrcExtensionDLL, m_hResInstance);
m_apExtDll =
auto_ptr<CDynLinkLibrary>(new CDynLinkLibrary(m_RsrcExtensionDLL));
}
CModuleVersion cmv;
if (!cmv.GetFileVersionInfo((HMODULE)m_hDllInstance))
throw scu::OsException(GetLastError());
m_vi.m_dwMajor = HIWORD(cmv.dwProductVersionMS);
m_vi.m_dwMinor = LOWORD(cmv.dwProductVersionMS);
}
CspProfile::~CspProfile()
{
try
{
if (m_apExtDll.get())
AfxTermExtensionModule(m_RsrcExtensionDLL);
}
catch (...)
{
}
try
{
if (m_hResInstance)
{
FreeLibrary(m_hResInstance);
m_hResInstance = NULL;
}
}
catch (...)
{
}
}
const CString
CspProfile::Name() const
{
return StringResource(IDS_CSP_NAME).AsCString();
}
HINSTANCE
CspProfile::DllInstance() const
{
if (!m_hDllInstance)
throw scu::OsException(static_cast<HRESULT>(HRESULT_FROM_WIN32(ERROR_INVALID_HANDLE)));
return m_hDllInstance;
}
HINSTANCE
CspProfile::Resources() const
{
return (NULL == m_hResInstance) ? m_hDllInstance : m_hResInstance;
}
DWORD
CspProfile::Type() const
{
return m_dwType;
}
VersionInfo
CspProfile::Version() const
{
return m_vi;
}
vector<CardProfile> const &
CspProfile::Cards() const
{
return m_vcp;
}
// Return the one and only Profile object for this CSP
CspProfile const &
CspProfile::Instance()
{
Guard<Lockable> guard(TheMasterLock());
if (!m_pInstance)
{
//We use CString to be able to do Unicode string manipulations
CString csCardNamePrefix(TEXT("Schlumberger "),
_tcslen(TEXT("Schlumberger ")));
ATR atrCF4k(sizeof g_abCF4kATRString / sizeof g_abCF4kATRString[0],
g_abCF4kATRString, g_abCF4kATRMask);
ATR atrCF8k(sizeof g_abCF8kATRString / sizeof g_abCF8kATRString[0],
g_abCF8kATRString, g_abCF8kATRMask);
ATR atrCF8kV2(sizeof g_abCF8kV2ATRString / sizeof g_abCF8kV2ATRString[0],
g_abCF8kV2ATRString, g_abCF8kV2ATRMask);
// ATR atrCF16k(sizeof g_abCF16kATRString / sizeof g_abCF16kATRString[0],
// g_abCF16kATRString, g_abCF16kATRMask);
ATR atrCFe_gate(sizeof g_abCFe_gateATRString / sizeof g_abCFe_gateATRString[0],
g_abCFe_gateATRString, g_abCFe_gateATRMask);
ATR atrCA16k(sizeof g_abCA16kATRString / sizeof g_abCA16kATRString[0],
g_abCA16kATRString, g_abCA16kATRMask);
ATR atrCACampus(sizeof g_abCACampusATRString /
sizeof g_abCACampusATRString[0],
g_abCACampusATRString, g_abCACampusATRMask);
ATR atrCFActivCard(sizeof g_abCFActivCardATRString /
sizeof g_abCFActivCardATRString[0],
g_abCFActivCardATRString, g_abCFActivCardATRMask);
CString csCF4kFriendlyName(TEXT("Cryptoflex 4K"),
_tcslen(TEXT("Cryptoflex 4K")));
CardProfile cpCF4k(atrCF4k,
csCF4kFriendlyName,
csCardNamePrefix + csCF4kFriendlyName,
g_guidPrimaryProvider);
CString csCF8kFriendlyName(TEXT("Cryptoflex 8K"),
_tcslen(TEXT("Cryptoflex 8K")));
CardProfile cpCF8k(atrCF8k,
csCF8kFriendlyName,
csCardNamePrefix + csCF8kFriendlyName,
g_guidPrimaryProvider,
CardProfile::attrMsbKeyDefect);
CString csCF8kV2FriendlyName(TEXT("Cryptoflex 8K v2"),
_tcslen(TEXT("Cryptoflex 8K v2")));
CardProfile cpCF8kV2(atrCF8kV2,
csCF8kV2FriendlyName,
csCardNamePrefix + csCF8kV2FriendlyName,
g_guidPrimaryProvider);
// string CF16kFriendlyName(TEXT("Cryptoflex 16K"));
// CardProfile cpCF16k(atrCF16k,
// CF16kFriendlyName,
// CardNamePrefix + CF16kFriendlyName,
// g_guidPrimaryProvider);
CString csCFe_gateFriendlyName(TEXT("Cryptoflex e-gate"),
_tcslen(TEXT("Cryptoflex e-gate")));
CardProfile cpCFe_gate(atrCFe_gate,
csCFe_gateFriendlyName,
csCardNamePrefix + csCFe_gateFriendlyName,
g_guidPrimaryProvider);
CString csCA16kFriendlyName(TEXT("Cyberflex Access 16K"),
_tcslen(TEXT("Cyberflex Access 16K")));
CardProfile cpCA16k(atrCA16k,
csCA16kFriendlyName,
csCardNamePrefix + csCA16kFriendlyName,
g_guidPrimaryProvider);
CString csCACampusFriendlyName(TEXT("Cyberflex Access Campus"),
_tcslen(TEXT("Cyberflex Access Campus")));
CardProfile cpCACampus(atrCACampus,
csCACampusFriendlyName,
csCardNamePrefix + csCACampusFriendlyName,
g_guidPrimaryProvider);
CString csCFActivCardFriendlyName(TEXT("Cryptoflex ActivCard"),
_tcslen(TEXT("Cryptoflex ActivCard")));
CardProfile cpCFActivCard(atrCFActivCard,
csCFActivCardFriendlyName,
csCardNamePrefix + csCFActivCardFriendlyName,
g_guidPrimaryProvider);
vector<CardProfile> vcp;
vcp.push_back(cpCF4k);
vcp.push_back(cpCF8k);
vcp.push_back(cpCF8kV2);
// vcp.push_back(cpCF16k);
vcp.push_back(cpCFe_gate);
vcp.push_back(cpCA16k);
vcp.push_back(cpCACampus);
vcp.push_back(cpCFActivCard);
m_pInstance = new CspProfile(PROV_RSA_FULL, vcp);
}
return *m_pInstance;
}
void
CspProfile::Release()
{
if (m_pInstance)
{
Guard<Lockable> guard(TheMasterLock());
if (m_pInstance)
{
// in case delete throws, this is VC++ you know...
CspProfile *pTmp = m_pInstance;
m_pInstance = 0;
delete m_pInstance;
}
}
}
CspProfile *CspProfile::m_pInstance = 0;