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windows-nt/Source/XPSP1/NT/base/fs/hsm/job/hsmcrit.cpp
CryptoAlgo Inc b3cac27891 Add source files
2020-09-26 16:20:57 +08:00

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/*++
© 1998 Seagate Software, Inc. All rights reserved.
Module Name:
hsmcrit.cpp
Abstract:
This component represents the criteria that can be used to determine
whether a given scanItem should have a policy applied to it.
Author:
Chuck Bardeen [cbardeen] 29-Oct-1996
Revision History:
--*/
#include "stdafx.h"
#include "mapiutil.h"
#include "wsb.h"
#include "job.h"
#include "hsmcrit.h"
#define WSB_TRACE_IS WSB_TRACE_BIT_JOB
HRESULT
CHsmCriteria::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CWsbObject::FinalConstruct());
m_isIgnored = FALSE;
m_isNegated = FALSE;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCriteria::GetName(
OUT OLECHAR** pName,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::GetName().
--*/
{
HRESULT hr = S_OK;
CWsbStringPtr tmpString;
try {
WsbAssert(0 != pName, E_POINTER);
WsbAffirmHr(tmpString.LoadFromRsc(_Module.m_hInst, m_nameId));
WsbAffirmHr(tmpString.CopyTo(pName, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCriteria::GetSizeMax(
OUT ULARGE_INTEGER* pSize
)
/*++
Implements:
IPersistStream::GetSizeMax().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCriteria::GetSizeMax"), OLESTR(""));
try {
WsbAssert(0 != pSize, E_POINTER);
pSize->QuadPart = WsbPersistSizeOf(GUID) + WsbPersistSizeOf(BOOL) + WsbPersistSizeOf(BOOL);
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCriteria::GetSizeMax"), OLESTR("hr = <%ls>, Size = <%ls>"), WsbHrAsString(hr), WsbPtrToUliAsString(pSize));
return(hr);
}
HRESULT
CHsmCriteria::IsIgnored(
void
)
/*++
Implements:
IHsmCriteria::IsIgnored().
--*/
{
return(m_isIgnored ? S_OK : S_FALSE);
}
HRESULT
CHsmCriteria::IsNegated(
void
)
/*++
Implements:
IHsmCriteria::IsNegated().
--*/
{
return(m_isNegated ? S_OK : S_FALSE);
}
HRESULT
CHsmCriteria::Load(
IN IStream* pStream
)
/*++
Implements:
IPersistStream::Load().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCriteria::Load"), OLESTR(""));
try {
WsbAssert(0 != pStream, E_POINTER);
WsbAffirmHr(WsbLoadFromStream(pStream, &m_nameId));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_isIgnored));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_isNegated));
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCriteria::Load"), OLESTR("hr = <%ls>, nameId = <%lu>"), WsbHrAsString(hr), m_nameId);
return(hr);
}
HRESULT
CHsmCriteria::Save(
IN IStream* pStream,
IN BOOL clearDirty
)
/*++
Implements:
IPersistStream::Save().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCriteria::Save"), OLESTR("clearDirty = <%ls>"), WsbBoolAsString(clearDirty));
try {
WsbAssert(0 != pStream, E_POINTER);
WsbAffirmHr(WsbSaveToStream(pStream, m_nameId));
WsbAffirmHr(WsbSaveToStream(pStream, m_isIgnored));
WsbAffirmHr(WsbSaveToStream(pStream, m_isNegated));
// If we got it saved and we were asked to clear the dirty bit, then
// do so now.
if (clearDirty) {
m_isDirty = FALSE;
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCriteria::Save"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCriteria::SetIsIgnored(
IN BOOL isIgnored
)
/*++
Implements:
IHsmCriteria::SetIsIgnored().
--*/
{
m_isIgnored = isIgnored;
m_isDirty = TRUE;
return(S_OK);
}
HRESULT
CHsmCriteria::SetIsNegated(
IN BOOL isNegated
)
/*++
Implements:
IHsmCriteria::SetIsNegated().
--*/
{
m_isNegated = isNegated;
m_isDirty = TRUE;
return(S_OK);
}
HRESULT
CHsmCriteria::Test(
USHORT* passed,
USHORT* failed
)
/*++
Implements:
IWsbTestable::Test().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != passed, E_POINTER);
WsbAssert(0 != failed, E_POINTER);
*passed = 0;
*failed = 0;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmRelativeCriteria::ComparatorAsString(
OUT OLECHAR** pComparator,
IN ULONG bufferSize
)
/*++
Implements:
IHsmRelativeCriteria::ComparatorAsString().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pComparator, E_POINTER);
WsbAffirmHr(WsbLoadComString(_Module.m_hInst, IDS_HSM_CRITERIACOMPARATOR_NOTSET + m_comparator, pComparator, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmRelativeCriteria::ComparatorIsBinary(
void
)
/*++
Implements:
IHsmRelativeCriteria::ComparatorIsBinary().
--*/
{
HRESULT hr = S_FALSE;
if ((m_comparator == HSM_CRITERIACOMPARATOR_BETWEEN) ||
(m_comparator == HSM_CRITERIACOMPARATOR_OUTSIDE)) {
hr = S_OK;
}
return(hr);
}
HRESULT
CHsmRelativeCriteria::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmCriteria::FinalConstruct());
m_comparator = HSM_CRITERIACOMPARATOR_NOTSET;
m_arg1 = 0;
m_arg2 = 0;
} WsbCatch(hr);
return(hr);
}
void
CHsmRelativeCriteria::FinalRelease(
void
)
/*++
Implements:
CComObjectRoot::FinalRelease().
--*/
{
// Free the memory used by the arg1 string.
if (0 != m_arg1) {
WsbFree(m_arg1);
m_arg1 = 0;
}
// Free the memory used by the arg2 string.
if (0 != m_arg2) {
WsbFree(m_arg2);
m_arg2 = 0;
}
// Let the parent class do his thing.
CWsbObject::FinalRelease();
}
HRESULT
CHsmRelativeCriteria::GetArg1(
OUT OLECHAR** pArg,
IN ULONG bufferSize
)
/*++
Implements:
IHsmRelativeCriteria::GetArg1().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pArg, E_POINTER);
WsbAffirmHr(WsbAllocAndCopyComString(pArg, m_arg1, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmRelativeCriteria::GetArg2(
OUT OLECHAR** pArg,
IN ULONG bufferSize
)
/*++
Implements:
IHsmRelativeCriteria::GetArg2().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pArg, E_POINTER);
WsbAffirmHr(WsbAllocAndCopyComString(pArg, m_arg2, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmRelativeCriteria::GetComparator(
OUT HSM_CRITERIACOMPARATOR* pComparator
)
/*++
Implements:
IHsmRelativeCriteria::GetComparator().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pComparator, E_POINTER);
*pComparator = m_comparator;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmRelativeCriteria::GetSizeMax(
OUT ULARGE_INTEGER* pSize
)
/*++
Implements:
IPersistStream::GetSizeMax().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmRelativeCriteria::GetSizeMax"), OLESTR(""));
try {
WsbAssert(0 != pSize, E_POINTER);
pSize->QuadPart = WsbPersistSizeOf(GUID) + WsbPersistSizeOf(BOOL) + WsbPersistSizeOf(BOOL) + WsbPersistSize((wcslen(m_arg1) + 1) * sizeof(OLECHAR)) + WsbPersistSize((wcslen(m_arg2) + 1) * sizeof(OLECHAR));
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmRelativeCriteria::GetSizeMax"), OLESTR("hr = <%ls>, Size = <%ls>"), WsbHrAsString(hr), WsbPtrToUliAsString(pSize));
return(hr);
}
HRESULT
CHsmRelativeCriteria::Load(
IN IStream* pStream
)
/*++
Implements:
IPersistStream::Load().
--*/
{
HRESULT hr = S_OK;
CWsbStringPtr tmp;
WsbTraceIn(OLESTR("CHsmRelativeCriteria::Load"), OLESTR(""));
try {
WsbAssert(0 != pStream, E_POINTER);
WsbAffirmHr(WsbLoadFromStream(pStream, &m_nameId));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_isIgnored));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_isNegated));
WsbAffirmHr(WsbLoadFromStream(pStream, &tmp, 0));
WsbAffirmHr(SetArg1(tmp));
WsbAffirmHr(WsbLoadFromStream(pStream, &tmp, 0));
WsbAffirmHr(SetArg2(tmp));
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmRelativeCriteria::Load"), OLESTR("hr = <%ls>, nameId = <%lu>"), WsbHrAsString(hr), m_nameId);
return(hr);
}
HRESULT
CHsmRelativeCriteria::Save(
IN IStream* pStream,
IN BOOL clearDirty
)
/*++
Implements:
IPersistStream::Save().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmRelativeCriteria::Save"), OLESTR("clearDirty = <%ls>"), WsbBoolAsString(clearDirty));
try {
WsbAssert(0 != pStream, E_POINTER);
WsbAffirmHr(WsbSaveToStream(pStream, m_nameId));
WsbAffirmHr(WsbSaveToStream(pStream, m_isIgnored));
WsbAffirmHr(WsbSaveToStream(pStream, m_isNegated));
WsbAffirmHr(WsbSaveToStream(pStream, m_arg1));
WsbAffirmHr(WsbSaveToStream(pStream, m_arg2));
// If we got it saved and we were asked to clear the dirty bit, then
// do so now.
if (clearDirty) {
m_isDirty = FALSE;
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmRelativeCriteria::Save"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmRelativeCriteria::SetArg1(
IN OLECHAR* arg
)
/*++
Implements:
IHsmRelativeCriteria::SetArg1().
--*/
{
HRESULT hr = S_OK;
hr = WsbAllocAndCopyComString(&m_arg1, arg, 0);
return(hr);
}
HRESULT
CHsmRelativeCriteria::SetArg2(
IN OLECHAR* arg
)
/*++
Implements:
IHsmRelativeCriteria::SetArg2().
--*/
{
HRESULT hr = S_OK;
hr = WsbAllocAndCopyComString(&m_arg2, arg, 0);
return(hr);
}
HRESULT
CHsmRelativeCriteria::SetComparator(
IN HSM_CRITERIACOMPARATOR comparator
)
/*++
Implements:
IHsmRelativeCriteria::SetComparator().
--*/
{
m_comparator = comparator;
return(S_OK);
}
HRESULT
CHsmCritAlways::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITALWAYS_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritAlways::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritAlways::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritAlways;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritAlways::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritAlways::ShouldDo(
IN IFsaScanItem* /*pScanItem*/,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritAlways::ShouldDo"), OLESTR(""));
hr = m_isNegated ? S_FALSE : S_OK;
WsbTraceOut(OLESTR("CHsmCritAlways::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritAlways::Test(
USHORT* passed,
USHORT* failed
)
/*++
Implements:
IWsbTestable::Test().
--*/
{
HRESULT hr = S_OK;
OLECHAR* name = 0;
try {
WsbAssert(0 != passed, E_POINTER);
WsbAssert(0 != failed, E_POINTER);
*passed = 0;
*failed = 0;
try {
WsbAssertHr(GetName(&name, 0));
WsbAssert(wcscmp(name, OLESTR("Always")) == 0, E_FAIL);
(*passed)++;
} WsbCatchAndDo(hr, (*failed)++;);
} WsbCatch(hr);
if (0 != name) {
WsbFree(name);
}
return(hr);
}
HRESULT
CHsmCritAlways::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITALWAYS_VALUE_T, pValue, bufferSize);
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritCompressed::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITCOMPRESSED_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritCompressed::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritCompressed::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritAlways;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritCompressed::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritCompressed::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritCompressed::ShouldDo"), OLESTR(""));
try {
WsbAssert(0 != pScanItem, E_POINTER);
hr = pScanItem->IsCompressed();
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritCompressed::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritCompressed::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
hr = pScanItem->IsCompressed();
if (S_OK == hr) {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITCOMPRESSED_VALUE_T, pValue, bufferSize);
} else {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITCOMPRESSED_VALUE_F, pValue, bufferSize);
}
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritLinked::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITLINKED_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritLinked::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritLinked::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritLinked;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritLinked::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritLinked::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritLinked::ShouldDo"), OLESTR(""));
try {
WsbAssert(0 != pScanItem, E_POINTER);
hr = pScanItem->IsALink();
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritLinked::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritLinked::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
hr = pScanItem->IsALink();
if (S_OK == hr) {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITLINKED_VALUE_T, pValue, bufferSize);
} else {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITLINKED_VALUE_F, pValue, bufferSize);
}
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritMbit::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITMBIT_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritMbit::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritMbit::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritMbit;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritMbit::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritMbit::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritMbit::ShouldDo"), OLESTR(""));
try {
WsbAssert(0 != pScanItem, E_POINTER);
hr = pScanItem->IsMbit();
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritMbit::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritMbit::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
hr = pScanItem->IsMbit();
if (S_OK == hr) {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITMBIT_VALUE_T, pValue, bufferSize);
} else {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITMBIT_VALUE_F, pValue, bufferSize);
}
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritManageable::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITMANAGEABLE_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritManageable::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritManageable::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritManageable;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritManageable::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritManageable::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
WsbTraceIn(OLESTR("CHsmCritManageable::ShouldDo"), OLESTR(""));
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAffirmHr(pScanItem->GetLogicalSize(&size));
hr = pScanItem->IsManageable(0, size);
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritManageable::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritManageable::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetLogicalSize(&size));
hr = pScanItem->IsManageable(0, size);
if (S_OK == hr) {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITMANAGEABLE_VALUE_T, pValue, bufferSize);
} else {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITMANAGEABLE_VALUE_F, pValue, bufferSize);
}
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritMigrated::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITMIGRATED_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritMigrated::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritMigrated::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritMigrated;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritMigrated::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritMigrated::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
WsbTraceIn(OLESTR("CHsmCritMigrated::ShouldDo"), OLESTR(""));
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAffirmHr(pScanItem->GetLogicalSize(&size));
hr = pScanItem->IsTruncated(0, size);
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritMigrated::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritMigrated::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetLogicalSize(&size));
hr = pScanItem->IsTruncated(0, size);
if (S_OK == hr) {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITMIGRATED_VALUE_T, pValue, bufferSize);
} else {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITMIGRATED_VALUE_F, pValue, bufferSize);
}
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritPremigrated::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITPREMIGRATED_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritPremigrated::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritPremigrated::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritPremigrated;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritPremigrated::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritPremigrated::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
WsbTraceIn(OLESTR("CHsmCritPremigrated::ShouldDo"), OLESTR(""));
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAffirmHr(pScanItem->GetLogicalSize(&size));
hr = pScanItem->IsPremigrated(0, size);
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritPremigrated::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritPremigrated::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetLogicalSize(&size));
hr = pScanItem->IsPremigrated(0, size);
if (S_OK == hr) {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITPREMIGRATED_VALUE_T, pValue, bufferSize);
} else {
hr = WsbLoadComString(_Module.m_hInst, IDS_HSMCRITPREMIGRATED_VALUE_F, pValue, bufferSize);
}
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritAccessTime::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmRelativeCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITACCESSTIME_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritAccessTime::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritAccessTime::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritAccessTime;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritAccessTime::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritAccessTime::SetArg1(
IN OLECHAR* arg
)
/*++
Implements:
IHsmCriteria::SetArg1().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(WsbWCStoFT(arg, &m_isRelative, &m_value1));
WsbAffirmHr(CHsmRelativeCriteria::SetArg1(arg));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritAccessTime::SetArg2(
IN OLECHAR* arg
)
/*++
Implements:
IHsmCriteria::SetArg2().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(WsbWCStoFT(arg, &m_isRelative, &m_value2));
WsbAffirmHr(CHsmRelativeCriteria::SetArg2(arg));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritAccessTime::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
FILETIME time;
FILETIME value1 = m_value1;
FILETIME value2 = m_value2;
LONG timeCompare1;
LONG timeCompare2;
WsbTraceIn(OLESTR("CHsmCritAccessTime::ShouldDo"), OLESTR(""));
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != m_arg1, E_INVALIDARG);
// Get the time.
WsbAffirmHr(pScanItem->GetAccessTime(&time));
// If this is a relative time (i.e. and age), then we need
// to know the present time before we can do the comparrison.
if (m_isRelative) {
FILETIME present;
WsbAffirmHr(CoFileTimeNow(&present));
value1 = WsbFtSubFt(present, m_value1);
value2 = WsbFtSubFt(present, m_value2);
}
// Compare the first arg.
timeCompare1 = CompareFileTime(&value1, &time);
// Now interpret the result based on the type of comparisson.
hr = S_FALSE;
switch (m_comparator) {
default:
case HSM_CRITERIACOMPARATOR_NOTSET:
hr = E_INVALIDARG;
break;
case HSM_CRITERIACOMPARATOR_LT:
if (timeCompare1 < 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_LTE:
if (timeCompare1 <= 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_EQL:
if (timeCompare1 == 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_NEQL:
if (timeCompare1 != 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GTE:
if (timeCompare1 >= 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GT:
if (timeCompare1 > 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_BETWEEN:
WsbAssert(0 != m_arg2, E_INVALIDARG);
timeCompare2 = CompareFileTime(&value2, &time);
if ((timeCompare1 >= 0) && (timeCompare2 <= 0)) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_OUTSIDE:
WsbAssert(0 != m_arg2, E_INVALIDARG);
timeCompare2 = CompareFileTime(&value2, &time);
if ((timeCompare1 < 0) || (timeCompare2 > 0)) {
hr = S_OK;
}
break;
}
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritAccessTime::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritAccessTime::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
FILETIME time;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetAccessTime(&time));
// If this is a relative time (i.e. and age), then we need
// to know the present time before we can do the comparrison.
if (m_isRelative) {
FILETIME present;
WsbAffirmHr(CoFileTimeNow(&present));
time = WsbFtSubFt(present, time);
}
hr = WsbFTtoWCS(m_isRelative, time, pValue, bufferSize);
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritGroup::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmRelativeCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITGROUP_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritGroup::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritGroup::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritGroup;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritGroup::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritGroup::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
OLECHAR* group = 0;
int stringCompare1;
int stringCompare2;
WsbTraceIn(OLESTR("CHsmCritGroup::ShouldDo"), OLESTR(""));
try {
// We at least need one argument to be able to do a comparisson.
WsbAssert(0 != m_arg1, E_INVALIDARG);
// Get the Group's name.
WsbAffirmHr(pScanItem->GetGroup(&group, 0));
hr = S_FALSE;
stringCompare1 = wcscmp(m_arg1, group);
switch (m_comparator) {
default:
case HSM_CRITERIACOMPARATOR_NOTSET:
hr = E_INVALIDARG;
break;
case HSM_CRITERIACOMPARATOR_LT:
if (stringCompare1 < 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_LTE:
if (stringCompare1 <= 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_EQL:
if (stringCompare1 == 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_NEQL:
if (stringCompare1 != 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GTE:
if (stringCompare1 >= 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GT:
if (stringCompare1 > 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_BETWEEN:
WsbAssert( 0 != m_arg2, E_INVALIDARG);
stringCompare2 = wcscmp(m_arg2, group);
if ((stringCompare1 >= 0) && (stringCompare2 <= 0)) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_OUTSIDE:
WsbAssert( 0 != m_arg2, E_INVALIDARG);
stringCompare2 = wcscmp(m_arg2, group);
if ((stringCompare1 < 0) || (stringCompare2 > 0)) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_MEMBEROF:
hr = pScanItem->IsGroupMemberOf(m_arg1);
break;
}
WsbFree(group);
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritGroup::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritGroup::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetGroup(pValue, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritLogicalSize::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmRelativeCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITLOGICALSIZE_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritLogicalSize::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritLogicalSize::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritLogicalSize;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritLogicalSize::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritLogicalSize::SetArg1(
IN OLECHAR* arg
)
/*++
Implements:
IHsmCriteria::SetArg2().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(WsbWCStoLL(arg, &m_value1));
WsbAffirmHr(CHsmRelativeCriteria::SetArg1(arg));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritLogicalSize::SetArg2(
IN OLECHAR* arg
)
/*++
Implements:
IHsmCriteria::SetArg2().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(WsbWCStoLL(arg, &m_value2));
WsbAffirmHr(CHsmRelativeCriteria::SetArg2(arg));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritLogicalSize::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
WsbTraceIn(OLESTR("CHsmCritLogicalSize::ShouldDo"), OLESTR(""));
try {
// We at least need one argument to be able to do a comparisson.
WsbAssert(0 != m_arg1, E_INVALIDARG);
// Get the size.
WsbAffirmHr(pScanItem->GetLogicalSize(&size));
// See how it compares.
hr = S_FALSE;
switch (m_comparator) {
default:
case HSM_CRITERIACOMPARATOR_NOTSET:
hr = E_INVALIDARG;
break;
case HSM_CRITERIACOMPARATOR_LT:
if (size < m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_LTE:
if (size <= m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_EQL:
if (size == m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_NEQL:
if (size != m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GTE:
if (size >= m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GT:
if (size > m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_BETWEEN:
WsbAssert(0 != m_arg2, E_INVALIDARG);
if ((m_value1 <= size) && (size <= m_value2)) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_OUTSIDE:
WsbAssert(0 != m_arg2, E_INVALIDARG);
if ((size < m_value1) || (m_value2 > size)) {
hr = S_OK;
}
break;
}
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritLogicalSize::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritLogicalSize::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetLogicalSize(&size));
WsbAffirmHr(WsbLLtoWCS(size, pValue, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritModifyTime::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmRelativeCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITMODIFYTIME_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritModifyTime::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritModifyTime::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritModifyTime;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritModifyTime::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritModifyTime::SetArg1(
IN OLECHAR* arg
)
/*++
Implements:
IHsmCriteria::SetArg1().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(WsbWCStoFT(arg, &m_isRelative, &m_value1));
WsbAffirmHr(CHsmRelativeCriteria::SetArg1(arg));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritModifyTime::SetArg2(
IN OLECHAR* arg
)
/*++
Implements:
IHsmCriteria::SetArg2().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(WsbWCStoFT(arg, &m_isRelative, &m_value2));
WsbAffirmHr(CHsmRelativeCriteria::SetArg2(arg));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritModifyTime::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
FILETIME time;
FILETIME value1 = m_value1;
FILETIME value2 = m_value2;
LONG timeCompare1;
LONG timeCompare2;
WsbTraceIn(OLESTR("CHsmCritModifyTime::ShouldDo"), OLESTR(""));
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != m_arg1, E_INVALIDARG);
// Get the time.
WsbAffirmHr(pScanItem->GetModifyTime(&time));
// If this is a relative time (i.e. and age), then we need
// to know the present time before we can do the comparrison.
if (m_isRelative) {
FILETIME present;
WsbAffirmHr(CoFileTimeNow(&present));
value1 = WsbFtSubFt(present, m_value1);
value2 = WsbFtSubFt(present, m_value2);
}
// Compare the first arg.
timeCompare1 = CompareFileTime(&value1, &time);
// Now interpret the result based on the type of comparisson.
hr = S_FALSE;
switch (m_comparator) {
default:
case HSM_CRITERIACOMPARATOR_NOTSET:
hr = E_INVALIDARG;
break;
case HSM_CRITERIACOMPARATOR_LT:
if (timeCompare1 < 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_LTE:
if (timeCompare1 <= 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_EQL:
if (timeCompare1 == 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_NEQL:
if (timeCompare1 != 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GTE:
if (timeCompare1 >= 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GT:
if (timeCompare1 > 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_BETWEEN:
WsbAssert(0 != m_arg2, E_INVALIDARG);
timeCompare2 = CompareFileTime(&value2, &time);
if ((timeCompare1 >= 0) && (timeCompare2 <= 0)) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_OUTSIDE:
WsbAssert(0 != m_arg2, E_INVALIDARG);
timeCompare2 = CompareFileTime(&value2, &time);
if ((timeCompare1 < 0) || (timeCompare2 > 0)) {
hr = S_OK;
}
break;
}
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritModifyTime::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritModifyTime::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
FILETIME time;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetModifyTime(&time));
// If this is a relative time (i.e. and age), then we need
// to know the present time before we can do the comparrison.
if (m_isRelative) {
FILETIME present;
WsbAffirmHr(CoFileTimeNow(&present));
time = WsbFtSubFt(present, time);
}
hr = WsbFTtoWCS(m_isRelative, time, pValue, bufferSize);
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritOwner::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmRelativeCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITOWNER_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritOwner::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritOwner::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritOwner;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritOwner::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritOwner::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
OLECHAR* owner = 0;
int stringCompare1;
int stringCompare2;
WsbTraceIn(OLESTR("CHsmCritOwner::ShouldDo"), OLESTR(""));
try {
// We at least need one argument to be able to do a comparisson.
WsbAssert(0 != m_arg1, E_INVALIDARG);
// Get the Group's name.
WsbAffirmHr(pScanItem->GetOwner(&owner, 0));
hr = S_FALSE;
stringCompare1 = wcscmp(m_arg1, owner);
switch (m_comparator) {
default:
case HSM_CRITERIACOMPARATOR_NOTSET:
hr = E_INVALIDARG;
break;
case HSM_CRITERIACOMPARATOR_LT:
if (stringCompare1 < 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_LTE:
if (stringCompare1 <= 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_EQL:
if (stringCompare1 == 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_NEQL:
if (stringCompare1 != 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GTE:
if (stringCompare1 >= 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GT:
if (stringCompare1 > 0) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_BETWEEN:
WsbAssert( 0 != m_arg2, E_INVALIDARG);
stringCompare2 = wcscmp(m_arg2, owner);
if ((stringCompare1 >= 0) && (stringCompare2 <= 0)) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_OUTSIDE:
WsbAssert( 0 != m_arg2, E_INVALIDARG);
stringCompare2 = wcscmp(m_arg2, owner);
if ((stringCompare1 < 0) || (stringCompare2 > 0)) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_MEMBEROF:
hr = pScanItem->IsOwnerMemberOf(m_arg1);
break;
}
WsbFree(owner);
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritOwner::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritOwner::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetOwner(pValue, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritPhysicalSize::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(CHsmRelativeCriteria::FinalConstruct());
m_nameId = IDS_HSMCRITPHYSICALSIZE_ID;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritPhysicalSize::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmCritPhysicalSize::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmCritPhysicalSize;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritPhysicalSize::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmCritPhysicalSize::SetArg1(
IN OLECHAR* arg
)
/*++
Implements:
IHsmCriteria::SetArg2().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(WsbWCStoLL(arg, &m_value1));
WsbAffirmHr(CHsmRelativeCriteria::SetArg1(arg));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritPhysicalSize::SetArg2(
IN OLECHAR* arg
)
/*++
Implements:
IHsmCriteria::SetArg2().
--*/
{
HRESULT hr = S_OK;
try {
WsbAffirmHr(WsbWCStoLL(arg, &m_value2));
WsbAffirmHr(CHsmRelativeCriteria::SetArg2(arg));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmCritPhysicalSize::ShouldDo(
IN IFsaScanItem* pScanItem,
IN USHORT /*scale*/
)
/*++
Implements:
IHsmCriteria::ShouldDo().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
WsbTraceIn(OLESTR("CHsmCritPhysicalSize::ShouldDo"), OLESTR(""));
try {
// We at least need one argument to be able to do a comparisson.
WsbAssert(0 != m_arg1, E_INVALIDARG);
// Get the size.
WsbAffirmHr(pScanItem->GetPhysicalSize(&size));
// See how it compares.
hr = S_FALSE;
switch (m_comparator) {
default:
case HSM_CRITERIACOMPARATOR_NOTSET:
hr = E_INVALIDARG;
break;
case HSM_CRITERIACOMPARATOR_LT:
if (size < m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_LTE:
if (size <= m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_EQL:
if (size == m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_NEQL:
if (size != m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GTE:
if (size >= m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_GT:
if (size > m_value1) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_BETWEEN:
WsbAssert(0 != m_arg2, E_INVALIDARG);
if ((m_value1 <= size) && (size <= m_value2)) {
hr = S_OK;
}
break;
case HSM_CRITERIACOMPARATOR_OUTSIDE:
WsbAssert(0 != m_arg2, E_INVALIDARG);
if ((size < m_value1) || (m_value2 > size)) {
hr = S_OK;
}
break;
}
if (SUCCEEDED(hr) && m_isNegated) {
if (S_OK == hr) {
hr = S_FALSE;
} else {
hr = S_OK;
}
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmCritPhysicalSize::ShouldDo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmCritPhysicalSize::Value(
IN IFsaScanItem* pScanItem,
OUT OLECHAR** pValue,
IN ULONG bufferSize
)
/*++
Implements:
IHsmCriteria::Value().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
try {
WsbAssert(0 != pScanItem, E_POINTER);
WsbAssert(0 != pValue, E_POINTER);
WsbAffirmHr(pScanItem->GetPhysicalSize(&size));
WsbAffirmHr(WsbLLtoWCS(size, pValue, bufferSize));
} WsbCatch(hr);
return(hr);
}
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