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windows-xp/Source/XPSP1/NT/ds/security/csps/cryptoflex/slbcsp/auxcontext.cpp

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// AuxContext.cpp -- Auxiliary Provider Context wrapper functor to
// manage allocation of a temporal context to one of the Microsoft
// CSPs (for use as a supplemental CSP).
// (c) Copyright Schlumberger Technology Corp., unpublished work, created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 "stdafx.h"
#include <string>
#include <malloc.h> // for _alloca
#include <scuOsExc.h>
#include "AuxContext.h"
#include "Uuid.h"
using namespace std;
/////////////////////////// HELPER /////////////////////////////////
/////////////////////////// PUBLIC /////////////////////////////////
// Types
// C'tors/D'tors
AuxContext::AuxContext()
: m_hcryptprov(0),
m_fDeleteOnDestruct(false),
m_szProvider()
{
// Acquire a context to a "temporal" container to one of the
// Microsoft CSPs for use as an auxiliary CSP. Attempt is first
// made for the strong crypto provider (MS Enhanced CSP). If that
// isn't available (installed), then an attempt is made for the MS
// Base CSP.
// The existence of any objects stored in the acquired container
// is only for the life of this context object (temporal). This
// is implemented by using a feature (as yet undocumented) that
// was added to the Microsoft CSPs to support the notion of
// "temporal" or "memory resident" container. Temporal containers
// are created by acquiring context with a NULL/empty container
// name using the CRYPT_VERIFYCONTEXT flag. These are containers
// whose associated contents (keys, hashes, etc.) are deleted when
// the last context to that container is released. Temporal
// containers are preferred over creating and releasing/deleting
// containers with temporary names so the resources used will be
// freed if the application exists abnormally and not pollute the
// container name space.
// COMPATIBILITY ISSUE: Since temporal containers weren't
// supported by the MS CSP until Windows 2000 Beta 2 (Build 1840),
// a few hurdles are overcome to acheive similar functionality
// using previous versions. It's unclear when temporal containers
// will be supported on W95/98 & NT 4. As a result, two methods
// of acquiring a context to the auxiliary CSP is used.
// For environments that don't support temporal containers, a
// normal context is acquired to a uniquely named container since
// the default container may be used by other
// applications/threads. The CRYPT_VERIFYCONTEXT flag can not be
// used since keys may want to be imported to the temporal
// container and this characteristic isn't support until Windows 2000.
// Upon destruction of the object, the container is deleted along
// with any of its contents just as a first class temporal
// container.
static LPCTSTR const aszCandidateProviders[] = {
MS_ENHANCED_PROV,
MS_DEF_PROV
};
OSVERSIONINFO osVer;
ZeroMemory(&osVer, sizeof osVer);
osVer.dwOSVersionInfoSize = sizeof osVer;
if (!GetVersionEx(&osVer))
throw scu::OsException(GetLastError());
basic_string<unsigned char> sContainerName;
DWORD dwAcquisitionFlags;
if ((VER_PLATFORM_WIN32_WINDOWS == osVer.dwPlatformId) ||
((VER_PLATFORM_WIN32_NT == osVer.dwPlatformId) &&
(5 > osVer.dwMajorVersion)))
{
m_fDeleteOnDestruct = true;
// Construct a container name that is unique for this thread
static char unsigned const szRootContainerName[] = "SLBCSP-";
sContainerName = szRootContainerName; // prefix for easy debugging
sContainerName.append(Uuid().AsUString());
dwAcquisitionFlags = CRYPT_NEWKEYSET;
}
else
{
m_fDeleteOnDestruct = false;
dwAcquisitionFlags = CRYPT_VERIFYCONTEXT;
}
bool fCandidateFound = false;
for (size_t i = 0;
(i < (sizeof aszCandidateProviders /
sizeof *aszCandidateProviders) && !fCandidateFound); i++)
{
CString csCntrName(sContainerName.c_str());
if (CryptAcquireContext(&m_hcryptprov,
(LPCTSTR)csCntrName,
aszCandidateProviders[i],
PROV_RSA_FULL, dwAcquisitionFlags))
{
fCandidateFound = true;
m_szProvider = aszCandidateProviders[i];
}
}
if (!fCandidateFound)
throw scu::OsException(GetLastError());
}
AuxContext::AuxContext(HCRYPTPROV hcryptprov,
bool fTransferOwnership)
: m_hcryptprov(hcryptprov),
m_fDeleteOnDestruct(fTransferOwnership),
m_szProvider()
{}
AuxContext::~AuxContext()
{
if (0 != m_hcryptprov)
{
if (m_fDeleteOnDestruct)
{
char *pszContainerName = 0;
DWORD dwNameLength;
if (CryptGetProvParam(m_hcryptprov, PP_CONTAINER, NULL,
&dwNameLength, 0))
{
pszContainerName =
static_cast<char *>(_alloca(dwNameLength));
if (!CryptGetProvParam(m_hcryptprov, PP_CONTAINER,
reinterpret_cast<char unsigned *>(pszContainerName),
&dwNameLength, 0))
pszContainerName = 0;
}
if (CryptReleaseContext(m_hcryptprov, 0))
{
if (pszContainerName)
CryptAcquireContext(&m_hcryptprov, (LPCTSTR)pszContainerName,
m_szProvider, PROV_RSA_FULL,
CRYPT_DELETEKEYSET);
}
}
else // Just release the context
{
CryptReleaseContext(m_hcryptprov, 0);
}
}
}
// Operators
HCRYPTPROV
AuxContext::operator()() const
{
return m_hcryptprov;
}
// Operations
// Access
// Predicates
// Static Variables
/////////////////////////// PROTECTED /////////////////////////////////
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Static Variables
/////////////////////////// PRIVATE /////////////////////////////////
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Static Variables