archive
/
windows-server-2003
mirror of https://github.com/selfrender/Windows-Server-2003
2
0
Fork 0
Code Issues Projects Releases Wiki Activity
Leaked source code of windows server 2003
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
4 Commits
1 Branch
0 Tags
4.9 GiB
 
 
 
 
 
 
Branch: master
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from 'master'
${ noResults }
windows-server-2003/admin/snapin/certmgr/ctl.cpp

599 lines
19 KiB
Raw Permalink Blame History

//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1997-2002.
//
// File: CTL.cpp
//
// Contents: implementation of the CCTL class.
//
//----------------------------------------------------------------------------
#include "stdafx.h"
#include "CTL.h"
#include "certifct.h"
USE_HANDLE_MACROS("CERTMGR(ctl.cpp)")
////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
CCTL::CCTL (const PCCTL_CONTEXT pCTLContext,
CCertStore& rCertStore,
CertificateManagerObjectType objectType,
CTypedPtrList<CPtrList, CCertStore*>* pStoreList) :
CCertMgrCookie (objectType),
m_pCTLContext (::CertDuplicateCTLContext (pCTLContext)),
m_rCertStore (rCertStore),
m_pStoreCollection (0),
m_hExtraStore (0)
{
_TRACE (1, L"Entering CCTL::CCTL\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
m_rCertStore.AddRef ();
ASSERT (m_pCTLContext);
if ( m_pCTLContext )
m_pCTLInfo = m_pCTLContext->pCtlInfo;
m_pStoreCollection = new CCertStore (CERTMGR_LOG_STORE, CERT_STORE_PROV_COLLECTION, 0,
L"", L"", L"", L"", NO_SPECIAL_TYPE, 0, rCertStore.m_pConsole);
if ( m_pStoreCollection )
{
m_pStoreCollection->AddStoreToCollection (m_rCertStore);
m_hExtraStore = CertOpenStore(
CERT_STORE_PROV_MSG,
X509_ASN_ENCODING | PKCS_7_ASN_ENCODING,
NULL,
NULL,
(const void *) pCTLContext->hCryptMsg);
if ( m_hExtraStore )
m_pStoreCollection->AddStoreToCollection (m_hExtraStore);
else
{
_TRACE (0, L"CertOpenStore (CERT_STORE_PROV_MSG) failed: 0x%x\n",
GetLastError ());
}
if ( pStoreList )
{
for (POSITION pos = pStoreList->GetHeadPosition (); pos; )
{
CCertStore* pStore = pStoreList->GetNext (pos);
ASSERT (pStore);
if ( pStore )
{
m_pStoreCollection->AddStoreToCollection (*pStore);
pStore->AddRef ();
m_storeList.AddTail (pStore);
}
}
}
}
_TRACE (-1, L"Leaving CCTL::CCTL\n");
}
CCTL::~CCTL()
{
_TRACE (1, L"Entering CCTL::~CCTL\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
if ( m_pStoreCollection )
{
delete m_pStoreCollection;
m_pStoreCollection = 0;
}
CCertStore* pStore = 0;
// Clean up store list
while (!m_storeList.IsEmpty () )
{
pStore = m_storeList.RemoveHead ();
ASSERT (pStore);
if ( pStore )
pStore->Release ();
}
if ( m_hExtraStore )
{
CertCloseStore (m_hExtraStore, 0);
m_hExtraStore = 0;
}
m_rCertStore.Release ();
if ( m_pCTLContext )
::CertFreeCTLContext (m_pCTLContext);
_TRACE (-1, L"Leaving CCTL::~CCTL\n");
}
PCCTL_CONTEXT CCTL::GetCTLContext() const
{
_TRACE (1, L"Entering CCTL::GetCTLContext\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
_TRACE (-1, L"Leaving CCTL::GetCTLContext\n");
return m_pCTLContext;
}
CCertStore& CCTL::GetCertStore() const
{
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
return m_rCertStore;
}
CString CCTL::GetIssuerName ()
{
_TRACE (1, L"Entering CCTL::GetIssuerName\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
ASSERT (m_pCTLInfo);
if ( m_pCTLInfo )
{
// Decode issuer name if not already present
if ( m_szIssuerName.IsEmpty () )
{
HRESULT hResult = GetSignerInfo (m_szIssuerName);
if ( !SUCCEEDED (hResult) )
VERIFY (m_szIssuerName.LoadString (IDS_NOT_AVAILABLE));
}
}
_TRACE (-1, L"Leaving CCTL::GetIssuerName\n");
return m_szIssuerName;
}
CString CCTL::GetEffectiveDate()
{
_TRACE (1, L"Entering CCTL::GetEffectiveDate\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
ASSERT (m_pCTLInfo);
if ( m_pCTLInfo )
{
// Format date/time string if not already present
if ( m_szEffectiveDate.IsEmpty () )
{
HRESULT hResult = FormatDate (m_pCTLInfo->ThisUpdate, m_szEffectiveDate);
if ( !SUCCEEDED (hResult) )
m_szEffectiveDate = _T("");
}
}
else
m_szEffectiveDate = _T("");
_TRACE (-1, L"Leaving CCTL::GetEffectiveDate\n");
return m_szEffectiveDate;
}
CString CCTL::GetNextUpdate()
{
_TRACE (1, L"Entering CCTL::GetNextUpdate\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
ASSERT (m_pCTLInfo);
if ( m_pCTLInfo )
{
// Format date/time string if not already present
if ( m_szNextUpdate.IsEmpty () )
{
HRESULT hResult = FormatDate (m_pCTLInfo->NextUpdate, m_szNextUpdate);
if ( !SUCCEEDED (hResult) )
m_szNextUpdate = _T("");
}
}
else
m_szNextUpdate = _T("");
_TRACE (-1, L"Leaving CCTL::GetNextUpdate\n");
return m_szNextUpdate;
}
CString CCTL::GetPurpose()
{
_TRACE (1, L"Entering CCTL::GetPurpose\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
ASSERT (m_pCTLInfo);
if ( m_pCTLInfo )
{
// Format date/time string if not already present
if ( m_szPurpose.IsEmpty () )
FormatEnhancedKeyUsagePropertyString (m_szPurpose);
}
_TRACE (-1, L"Leaving CCTL::GetPurpose\n");
return m_szPurpose;
}
void CCTL::FormatEnhancedKeyUsagePropertyString (CString& string)
{
_TRACE (1, L"Entering CCTL::FormatEnhancedKeyUsagePropertyString\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
ASSERT (m_pCTLInfo);
if ( m_pCTLInfo )
{
CString usageName;
CTL_USAGE& usage = m_pCTLInfo->SubjectUsage;
for (DWORD dwIndex = 0; dwIndex < usage.cUsageIdentifier; dwIndex++)
{
if ( MyGetOIDInfo (usageName, usage.rgpszUsageIdentifier[dwIndex]) )
{
// add delimeter if not first iteration
if ( dwIndex )
string += _T(", ");
string += usageName;
}
}
}
_TRACE (-1, L"Leaving CCTL::FormatEnhancedKeyUsagePropertyString\n");
}
HRESULT CCTL::GetSignerInfo (CString & signerName)
{
_TRACE (1, L"Entering CCTL::GetSignerInfo\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
HRESULT hResult = S_OK;
//
// Use CryptMsg to crack the encoded PKCS7 Signed Message
//
HCRYPTMSG hMsg = ::CryptMsgOpenToDecode (X509_ASN_ENCODING | PKCS_7_ASN_ENCODING,
0,
0,
0,
NULL,
NULL);
ASSERT (hMsg);
if ( hMsg )
{
BOOL bResult = ::CryptMsgUpdate (hMsg, m_pCTLContext->pbCtlEncoded,
m_pCTLContext->cbCtlEncoded, TRUE);
ASSERT (bResult);
if ( bResult )
{
//
// get the encoded signer BLOB
//
DWORD cbEncodedSigner = 0;
bResult = ::CryptMsgGetParam (hMsg, CMSG_ENCODED_SIGNER, 0, NULL,
&cbEncodedSigner);
if ( bResult && cbEncodedSigner )
{
BYTE* pbEncodedSigner = (PBYTE) ::LocalAlloc (LPTR, cbEncodedSigner);
if ( pbEncodedSigner )
{
bResult = ::CryptMsgGetParam (hMsg, CMSG_ENCODED_SIGNER, 0,
pbEncodedSigner, &cbEncodedSigner);
ASSERT (bResult);
if ( bResult )
{
DWORD cbSignerInfo = 0;
//
// decode the EncodedSigner info
//
bResult = ::CryptDecodeObject (
PKCS_7_ASN_ENCODING | CRYPT_ASN_ENCODING,
PKCS7_SIGNER_INFO,
pbEncodedSigner,
cbEncodedSigner,
0,
NULL,
&cbSignerInfo);
ASSERT (bResult);
if ( bResult )
{
PCMSG_SIGNER_INFO pbSignerInfo = (PCMSG_SIGNER_INFO) ::LocalAlloc (LPTR, cbSignerInfo);
if ( pbSignerInfo )
{
bResult = ::CryptDecodeObject (
PKCS_7_ASN_ENCODING|CRYPT_ASN_ENCODING,
PKCS7_SIGNER_INFO,
pbEncodedSigner,
cbEncodedSigner,
0,
pbSignerInfo,
&cbSignerInfo);
ASSERT (bResult);
if ( bResult )
{
DWORD cbCertInfo = 0;
//
// get the signers cert context
//
bResult = ::CryptMsgGetParam (hMsg,
CMSG_SIGNER_CERT_INFO_PARAM,
0,
NULL,
&cbCertInfo);
ASSERT (bResult);
if ( bResult && cbEncodedSigner )
{
CERT_INFO* pCertInfo = (CERT_INFO *) ::LocalAlloc (LPTR, cbCertInfo);
if ( pCertInfo )
{
bResult = ::CryptMsgGetParam (hMsg,
CMSG_SIGNER_CERT_INFO_PARAM,
0,
pCertInfo,
&cbCertInfo);
ASSERT (bResult);
if ( bResult )
{
CCertificate* pCert =
m_pStoreCollection->GetSubjectCertificate (pCertInfo);
if ( pCert )
{
signerName = pCert->GetSubjectName ();
pCert->Release ();
}
else
hResult = E_FAIL;
}
::LocalFree (pCertInfo);
}
else
{
hResult = E_OUTOFMEMORY;
}
}
}
::LocalFree (pbSignerInfo);
}
else
{
hResult = E_OUTOFMEMORY;
}
}
}
::LocalFree (pbEncodedSigner);
}
else
{
hResult = E_OUTOFMEMORY;
}
}
else
hResult = E_FAIL;
}
bResult = ::CryptMsgClose (hMsg);
ASSERT (bResult);
}
else
hResult = E_UNEXPECTED;
_TRACE (-1, L"Leaving CCTL::GetSignerInfo\n");
return hResult;
}
int CCTL::CompareEffectiveDate (const CCTL& ctl) const
{
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
int compVal = 0;
ASSERT (m_pCTLInfo && ctl.m_pCTLInfo);
if ( m_pCTLInfo && ctl.m_pCTLInfo )
{
compVal = ::CompareFileTime (&m_pCTLInfo->ThisUpdate,
&ctl.m_pCTLInfo->ThisUpdate);
}
return compVal;
}
int CCTL::CompareNextUpdate (const CCTL& ctl) const
{
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
int compVal = 0;
ASSERT (m_pCTLInfo && ctl.m_pCTLInfo);
if ( m_pCTLInfo && ctl.m_pCTLInfo )
{
compVal = ::CompareFileTime (&m_pCTLInfo->NextUpdate,
&ctl.m_pCTLInfo->NextUpdate);
}
return compVal;
}
CString CCTL::GetFriendlyName()
{
_TRACE (1, L"Entering CCTL::GetFriendlyName\n");
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
ASSERT (m_pCTLContext);
if ( m_pCTLContext && m_szFriendlyName.IsEmpty () )
{
DWORD cbData = 0;
BOOL bResult = ::CertGetCTLContextProperty (
m_pCTLContext,
CERT_FRIENDLY_NAME_PROP_ID,
NULL,
&cbData);
if ( bResult )
{
LPWSTR pszName = new WCHAR[cbData];
if ( pszName )
{
// security review 2/22/2002 BryanWal ok
::ZeroMemory (pszName, cbData * sizeof (WCHAR));
bResult = ::CertGetCTLContextProperty (
m_pCTLContext,
CERT_FRIENDLY_NAME_PROP_ID,
pszName,
&cbData);
ASSERT (bResult);
if ( bResult )
{
m_szFriendlyName = pszName;
}
else
{
VERIFY (m_szFriendlyName.LoadString (IDS_NOT_AVAILABLE));
}
delete [] pszName;
}
}
else
{
if ( GetLastError () == CRYPT_E_NOT_FOUND )
{
VERIFY (m_szFriendlyName.LoadString (IDS_NONE));
}
else
{
ASSERT (0);
VERIFY (m_szFriendlyName.LoadString (IDS_NOT_AVAILABLE));
}
}
}
_TRACE (-1, L"Leaving CCTL::GetFriendlyName\n");
return m_szFriendlyName;
}
SPECIAL_STORE_TYPE CCTL::GetStoreType() const
{
ASSERT (CERTMGR_AUTO_CERT_REQUEST == m_objecttype ||
CERTMGR_CTL == m_objecttype);
return m_rCertStore.GetStoreType ();
}
void CCTL::Refresh()
{
m_szEffectiveDate = L"";
m_szFriendlyName = L"";
m_szIssuerName = L"";
m_szNextUpdate = L"";
m_szPurpose = L"";
}
BOOL CCTL::DeleteFromStore()
{
_TRACE (1, L"Entering CCTL::DeleteFromStore\n");
BOOL bResult = FALSE;
PCCTL_CONTEXT pCTLContext = GetNewCTLContext ();
if ( pCTLContext )
{
bResult = ::CertDeleteCTLFromStore (pCTLContext);
if ( bResult )
{
m_rCertStore.InvalidateCertCount ();
m_rCertStore.SetDirty ();
m_rCertStore.SetDeleting ();
HRESULT hr = m_rCertStore.Commit ();
m_rCertStore.SetAdding ();
if ( SUCCEEDED (hr) )
m_rCertStore.Resync ();
else
bResult = FALSE;
}
m_rCertStore.Close ();
}
_TRACE (-1, L"Leaving CCTL::DeleteFromStore\n");
return bResult;
}
PCCTL_CONTEXT CCTL::GetNewCTLContext()
{
_TRACE (1, L"Entering CCTL::GetNewCTLContext\n");
PCCTL_CONTEXT pCTLContext = 0;
HCERTSTORE hCertStore = m_rCertStore.GetStoreHandle ();
if ( hCertStore )
{
DWORD cbData = 20;
BYTE certHash[20];
BOOL bReturn = ::CertGetCTLContextProperty (
m_pCTLContext,
CERT_SHA1_HASH_PROP_ID,
certHash,
&cbData);
ASSERT (bReturn);
if ( bReturn )
{
CRYPT_DATA_BLOB blob = {sizeof (certHash), certHash};
pCTLContext = CertFindCTLInStore(
hCertStore,
0,
0,
CTL_FIND_SHA1_HASH,
&blob,
0);
if ( pCTLContext )
{
::CertFreeCTLContext (m_pCTLContext);
m_pCTLContext = ::CertDuplicateCTLContext (pCTLContext);
}
}
}
_TRACE (-1, L"Leaving CCTL::GetNewCTLContext\n");
return pCTLContext;
}
CString CCTL::GetSHAHash()
{
// _TRACE (1, L"Entering CCTL::GetSHAHash\n");
ASSERT (m_pCTLContext);
if ( m_pCTLContext && m_szSHAHash.IsEmpty ())
{
m_szSHAHash = GetGenericHash (CERT_SHA1_HASH_PROP_ID);
}
// _TRACE (-1, L"Leaving CCTL::GetSHAHash\n");
return m_szSHAHash;
}
CString CCTL::GetGenericHash(DWORD dwPropId)
{
// _TRACE (1, L"Entering CCTL::GetGenericHash\n");
CString szHash;
DWORD cbData = 0;
BOOL bReturn = ::CertGetCTLContextProperty (
m_pCTLContext,
dwPropId,
NULL,
&cbData);
if ( bReturn )
{
cbData += 2; // for null terminator
BYTE* pCTLHash = new BYTE[cbData];
if ( pCTLHash )
{
// security review 2/22/2002 BryanWal ok
::ZeroMemory (pCTLHash, cbData);
bReturn = CertGetCTLContextProperty (
m_pCTLContext,
dwPropId,
pCTLHash,
&cbData);
ASSERT (bReturn);
if ( bReturn )
{
DataToHex (pCTLHash, szHash, cbData, false);
}
delete [] pCTLHash;
}
}
// _TRACE (-1, L"Leaving CCTL::GetGenericHash\n");
return szHash;
}