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f7ca35dddd
WindowsXP-SP1/base/fs/hsm/job/hsmphase.cpp
Microsoft f7ca35dddd First commit
2020-09-30 16:53:49 +02:00

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/*++
© 1998 Seagate Software, Inc. All rights reserved.
Module Name:
hsmsesst.cpp
Abstract:
This class is the phase component, which keeps track the status/totals for a phase of a
session.
Author:
Chuck Bardeen [cbardeen] 14-Feb-1997
Revision History:
--*/
#include "stdafx.h"
#include "wsb.h"
#include "job.h"
#include "hsmphase.h"
#define WSB_TRACE_IS WSB_TRACE_BIT_JOB
static USHORT iCount = 0;
HRESULT
CHsmPhase::AddItem(
IN IFsaScanItem* pItem,
IN HRESULT hrItem
)
/*++
Implements:
IHsmPhasePriv::AddItem().
--*/
{
HRESULT hr = S_OK;
LONGLONG size;
WsbTraceIn(OLESTR("CHsmPhase::AddItem"), OLESTR(""));
try {
// Did they give us a valid item to compare to?
WsbAssert(0 != pItem, E_POINTER);
// Get the size of the file.
WsbAffirmHr(pItem->GetLogicalSize(&size));
// Update the appropriate stats.
switch (hrItem) {
case S_OK:
m_items++;
m_size += size;
break;
case S_FALSE:
case JOB_E_FILEEXCLUDED:
case JOB_E_DOESNTMATCH:
case FSA_E_REPARSE_NOT_WRITTEN_FILE_CHANGED:
case HSM_E_FILE_CHANGED:
m_skippedItems++;
m_skippedSize += size;
break;
default:
m_errorItems++;
m_errorSize += size;
break;
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::AddItem"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmPhase::Clone(
OUT IHsmPhase** ppPhase
)
/*++
Implements:
IHsmPhase::Clone().
--*/
{
HRESULT hr = S_OK;
CComPtr<IHsmPhase> pPhase;
WsbTraceIn(OLESTR("CHsmPhase::Clone"), OLESTR(""));
try {
// Did they give us a valid item?
WsbAssert(0 != ppPhase, E_POINTER);
*ppPhase = 0;
// Create the new instance.
WsbAffirmHr(CoCreateInstance(CLSID_CHsmPhase, 0, CLSCTX_ALL, IID_IHsmPhase, (void**) &pPhase));
// Fill it in with the new values.
WsbAffirmHr(CopyTo(pPhase));
// Return it to the caller.
*ppPhase = pPhase;
pPhase->AddRef();
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::Clone"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmPhase::Clone(
OUT IHsmPhasePriv** ppPhasePriv
)
/*++
Implements:
IHsmPhasePriv::Clone().
--*/
{
HRESULT hr = S_OK;
CComPtr<IHsmPhasePriv> pPhasePriv;
WsbTraceIn(OLESTR("CHsmPhase::Clone"), OLESTR(""));
try {
// Did they give us a valid item?
WsbAssert(0 != ppPhasePriv, E_POINTER);
*ppPhasePriv = 0;
// Create the new instance.
WsbAffirmHr(CoCreateInstance(CLSID_CHsmPhase, 0, CLSCTX_ALL, IID_IHsmPhasePriv, (void**) &pPhasePriv));
// Fill it in with the new values.
WsbAffirmHr(CopyTo(pPhasePriv));
// Return it to the caller.
*ppPhasePriv = pPhasePriv;
pPhasePriv->AddRef();
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::Clone"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmPhase::CompareTo(
IN IUnknown* pUnknown,
OUT SHORT* pResult
)
/*++
Implements:
IWsbCollectable::CompareTo().
--*/
{
HRESULT hr = S_OK;
CComPtr<IHsmPhase> pPhase;
WsbTraceIn(OLESTR("CHsmPhase::CompareTo"), OLESTR(""));
try {
// Did they give us a valid item to compare to?
WsbAssert(0 != pUnknown, E_POINTER);
// We need the IWsbBool interface to get the value of the object.
WsbAffirmHr(pUnknown->QueryInterface(IID_IHsmPhase, (void**) &pPhase));
// Compare the rules.
hr = CompareToIPhase(pPhase, pResult);
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::CompareTo"), OLESTR("hr = <%ls>, result = <%ls>"), WsbHrAsString(hr), WsbPtrToShortAsString(pResult));
return(hr);
}
HRESULT
CHsmPhase::CompareToPhase(
IN HSM_JOB_PHASE phase,
OUT SHORT* pResult
)
/*++
Implements:
IHsmPhase::CompareToPhase().
--*/
{
HRESULT hr = S_OK;
SHORT aResult = 0;
WsbTraceIn(OLESTR("CHsmPhase::CompareToPhase"), OLESTR(""));
try {
// Compare the guids.
if (m_phase > phase) {
aResult = 1;
}
else if (m_phase < phase) {
aResult = -1;
}
if (0 != aResult) {
hr = S_FALSE;
}
if (0 != pResult) {
*pResult = aResult;
}
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::CompareToPhase"), OLESTR("hr = <%ls>, result = <%d>"), WsbHrAsString(hr), aResult);
return(hr);
}
HRESULT
CHsmPhase::CompareToIPhase(
IN IHsmPhase* pPhase,
OUT SHORT* pResult
)
/*++
Implements:
IHsmPhase::CompareToIPhase().
--*/
{
HRESULT hr = S_OK;
HSM_JOB_PHASE phase;
WsbTraceIn(OLESTR("CHsmPhase::CompareToIPhase"), OLESTR(""));
try {
// Did they give us a valid item to compare to?
WsbAssert(0 != pPhase, E_POINTER);
// Get the identifier.
WsbAffirmHr(pPhase->GetPhase(&phase));
// Compare to the identifier.
hr = CompareToPhase(phase, pResult);
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::CompareToIPhase"), OLESTR("hr = <%ls>, result = <%ls>"), WsbHrAsString(hr), WsbPtrToShortAsString(pResult));
return(hr);
}
HRESULT
CHsmPhase::CopyTo(
IN IHsmPhase* pPhase
)
/*++
Implements:
IHsmPhase::CopyTo().
--*/
{
HRESULT hr = S_OK;
CComPtr<IHsmPhasePriv> pPhasePriv;
WsbTraceIn(OLESTR("CHsmPhase::CopyTo"), OLESTR(""));
try {
// Did they give us a valid item?
WsbAssert(0 != pPhase, E_POINTER);
// Get the private interface for the destination and copy the values.
WsbAffirmHr(pPhase->QueryInterface(IID_IHsmPhasePriv, (void**) &pPhasePriv));
WsbAffirmHr(pPhasePriv->SetInternalStuff(m_mountCount, m_transferCount, m_elapsedTime, m_startTime, m_restartTime, m_stopTime));
WsbAffirmHr(pPhasePriv->SetMediaState(m_mediaState));
WsbAffirmHr(pPhasePriv->SetPhase(m_phase));
WsbAffirmHr(pPhasePriv->SetPriority(m_priority));
WsbAffirmHr(pPhasePriv->SetState(m_state));
WsbAffirmHr(pPhasePriv->SetStats(m_items, m_size, m_skippedItems, m_skippedSize, m_errorItems, m_errorSize));
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::CopyTo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmPhase::CopyTo(
IN IHsmPhasePriv* pPhasePriv
)
/*++
Implements:
IHsmPhase::CopyTo().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmPhase::CopyTo"), OLESTR(""));
try {
// Did they give us a valid item?
WsbAssert(0 != pPhasePriv, E_POINTER);
// Get the private interface for the destination and copy the values.
WsbAffirmHr(pPhasePriv->SetInternalStuff(m_mountCount, m_transferCount, m_elapsedTime, m_startTime, m_restartTime, m_stopTime));
WsbAffirmHr(pPhasePriv->SetMediaState(m_mediaState));
WsbAffirmHr(pPhasePriv->SetPhase(m_phase));
WsbAffirmHr(pPhasePriv->SetPriority(m_priority));
WsbAffirmHr(pPhasePriv->SetState(m_state));
WsbAffirmHr(pPhasePriv->SetStats(m_items, m_size, m_skippedItems, m_skippedSize, m_errorItems, m_errorSize));
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::CopyTo"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmPhase::FinalConstruct(
void
)
/*++
Implements:
CComObjectRoot::FinalConstruct().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmPhase::FinalConstruct"), OLESTR(""));
try {
WsbAffirmHr(CWsbObject::FinalConstruct());
m_mediaState = HSM_JOB_MEDIA_STATE_IDLE;
m_mountCount = 0;
m_transferCount = 0;
m_phase = HSM_JOB_PHASE_ALL;
m_priority = HSM_JOB_PRIORITY_NORMAL;
m_state = HSM_JOB_STATE_IDLE;
m_items = 0;
m_size = 0;
m_skippedItems = 0;
m_skippedSize = 0;
m_errorItems = 0;
m_errorSize = 0;
m_elapsedTime = 0;
m_startTime.dwLowDateTime = 0;
m_startTime.dwHighDateTime = 0;
m_restartTime.dwLowDateTime = 0;
m_restartTime.dwHighDateTime = 0;
m_stopTime.dwLowDateTime = 0;
m_stopTime.dwHighDateTime = 0;
} WsbCatch(hr);
iCount++;
WsbTraceOut(OLESTR("CHsmPhase::FinalConstruct"), OLESTR("hr = <%ls>, count is <%d>"), WsbHrAsString(hr), iCount);
return(hr);
}
void
CHsmPhase::FinalRelease(
void
)
/*++
Implements:
CHsmPhase::FinalRelease().
--*/
{
WsbTraceIn(OLESTR("CHsmPhase::FinalRelease"), OLESTR(""));
CWsbObject::FinalRelease();
iCount--;
WsbTraceOut(OLESTR("CHsmPhase::FinalRelease"), OLESTR("Count is <%d>"), iCount);
}
HRESULT
CHsmPhase::GetClassID(
OUT CLSID* pClsid
)
/*++
Implements:
IPersist::GetClassID().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmPhase::GetClassID"), OLESTR(""));
try {
WsbAssert(0 != pClsid, E_POINTER);
*pClsid = CLSID_CHsmPhase;
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::GetClassID"), OLESTR("hr = <%ls>, CLSID = <%ls>"), WsbHrAsString(hr), WsbGuidAsString(*pClsid));
return(hr);
}
HRESULT
CHsmPhase::GetElapsedTime(
OUT ULONG* pDays,
OUT USHORT* pHours,
OUT USHORT* pMinutes,
OUT USHORT* pSeconds
)
/*++
Implements:
IHsmPhase::GetElapsedTime().
--*/
{
HRESULT hr = S_OK;
LONGLONG remainingTime = 0;
FILETIME currentTime;
try {
WsbAssert(0 != pDays, E_POINTER);
WsbAssert(0 != pHours, E_POINTER);
WsbAssert(0 != pMinutes, E_POINTER);
WsbAssert(0 != pSeconds, E_POINTER);
// If the phase is still active, then add the time since the last start or restart.
remainingTime = m_elapsedTime;
if (HSM_JOB_STATE_IS_ACTIVE(m_state)) {
WsbAffirmHr(CoFileTimeNow(&currentTime));
if (WsbFTtoLL(m_restartTime) != 0) {
remainingTime += WsbFTtoLL(currentTime) - WsbFTtoLL(m_restartTime);
} else {
remainingTime += WsbFTtoLL(currentTime) - WsbFTtoLL(m_startTime);
}
}
*pDays = (ULONG) (remainingTime / WSB_FT_TICKS_PER_DAY);
remainingTime = remainingTime % WSB_FT_TICKS_PER_DAY;
*pHours = (USHORT) (remainingTime / (WSB_FT_TICKS_PER_HOUR));
remainingTime = remainingTime % WSB_FT_TICKS_PER_HOUR;
*pMinutes = (USHORT) (remainingTime / WSB_FT_TICKS_PER_MINUTE);
*pSeconds = (USHORT) ((remainingTime % WSB_FT_TICKS_PER_MINUTE) / WSB_FT_TICKS_PER_SECOND);
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetMediaState(
OUT HSM_JOB_MEDIA_STATE* pState
)
/*++
Implements:
IHsmPhase::GetMediaState().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pState, E_POINTER);
*pState = m_mediaState;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetMediaStateAsString(
OUT OLECHAR** pName,
IN ULONG bufferSize
)
/*++
Implements:
IHsmPhase::GetMediaStateAsString().
--*/
{
HRESULT hr = S_OK;
CWsbStringPtr tmpString;
try {
WsbAssert(0 != pName, E_POINTER);
WsbAffirmHr(tmpString.LoadFromRsc(_Module.m_hInst, IDS_HSMJOBMEDIASTATEIDLE + m_mediaState));
WsbAffirmHr(tmpString.CopyTo(pName, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetName(
OUT OLECHAR** pName,
IN ULONG bufferSize
)
/*++
Implements:
IHsmPhase::GetName().
--*/
{
HRESULT hr = S_OK;
CWsbStringPtr tmpString;
try {
WsbAssert(0 != pName, E_POINTER);
WsbAffirmHr(tmpString.LoadFromRsc(_Module.m_hInst, IDS_HSMJOBPHASEALL + m_phase));
WsbAffirmHr(tmpString.CopyTo(pName, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetPhase(
OUT HSM_JOB_PHASE* pPhase
)
/*++
Implements:
IHsmPhase::GetPhase().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pPhase, E_POINTER);
*pPhase = m_phase;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetPriority(
OUT HSM_JOB_PRIORITY* pPriority
)
/*++
Implements:
IHsmPhase::GetPriority().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pPriority, E_POINTER);
*pPriority = m_priority;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetPriorityAsString(
OUT OLECHAR** pName,
IN ULONG bufferSize
)
/*++
Implements:
IHsmPhase::GetPriorityAsString().
--*/
{
HRESULT hr = S_OK;
CWsbStringPtr tmpString;
try {
WsbAssert(0 != pName, E_POINTER);
WsbAffirmHr(tmpString.LoadFromRsc(_Module.m_hInst, IDS_HSMJOBPRIORITY_IDLE + m_priority));
WsbAffirmHr(tmpString.CopyTo(pName, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetSizeMax(
OUT ULARGE_INTEGER* pSize
)
/*++
Implements:
IPersistStream::GetSizeMax().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmPhase::GetSizeMax"), OLESTR(""));
try {
WsbAssert(0 != pSize, E_POINTER);
// Determine the size for a rule with no criteria.
pSize->QuadPart = 5 * WsbPersistSizeOf(LONGLONG) + 6 * WsbPersistSizeOf(ULONG) + 3 * WsbPersistSizeOf(FILETIME);
// In theory we should be saving the errorItems and errorSize, but at the
// time this was added, we didn't want to force a reinstall because of
// pSize->QuadPart += 2 * WsbPersistSizeOf(LONGLONG);
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::GetSizeMax"), OLESTR("hr = <%ls>, Size = <%ls>"), WsbHrAsString(hr), WsbPtrToUliAsString(pSize));
return(hr);
}
HRESULT
CHsmPhase::GetStartTime(
OUT FILETIME* pTime
)
/*++
Implements:
IHsmPhase::GetStartTime().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pTime, E_POINTER);
*pTime = m_startTime;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetState(
OUT HSM_JOB_STATE* pState
)
/*++
Implements:
IHsmPhase::GetState().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pState, E_POINTER);
*pState = m_state;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetStateAsString(
OUT OLECHAR** pName,
IN ULONG bufferSize
)
/*++
Implements:
IHsmPhase::GetStateAsString().
--*/
{
HRESULT hr = S_OK;
CWsbStringPtr tmpString;
try {
WsbAssert(0 != pName, E_POINTER);
WsbAffirmHr(tmpString.LoadFromRsc(_Module.m_hInst, IDS_HSMJOBSTATEACTIVE + m_state));
WsbAffirmHr(tmpString.CopyTo(pName, bufferSize));
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::GetStats(
OUT LONGLONG* pItems,
OUT LONGLONG* pSize,
OUT LONGLONG* pSkippedItems,
OUT LONGLONG* pSkippedSize,
OUT LONGLONG* pErrorItems,
OUT LONGLONG* pErrorSize
)
/*++
Implements:
IHsmPhase::GetStats().
--*/
{
HRESULT hr = S_OK;
if (0 != pItems) {
*pItems = m_items;
}
if (0 != pSize) {
*pSize = m_size;
}
if (0 != pSkippedItems) {
*pSkippedItems = m_skippedItems;
}
if (0 != pSkippedSize) {
*pSkippedSize = m_skippedSize;
}
if (0 != pErrorItems) {
*pErrorItems = m_errorItems;
}
if (0 != pSize) {
*pErrorSize = m_errorSize;
}
return(hr);
}
HRESULT
CHsmPhase::GetStopTime(
OUT FILETIME* pTime
)
/*++
Implements:
IHsmPhase::GetStopTime().
--*/
{
HRESULT hr = S_OK;
try {
WsbAssert(0 != pTime, E_POINTER);
*pTime = m_stopTime;
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::Load(
IN IStream* pStream
)
/*++
Implements:
IPersistStream::Load().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmPhase::Load"), OLESTR(""));
try {
ULONG ul_tmp;
WsbAssert(0 != pStream, E_POINTER);
// Do the easy stuff, but make sure that this order matches the order
// in the load method.
WsbAffirmHr(WsbLoadFromStream(pStream, &ul_tmp));
m_mediaState = static_cast<HSM_JOB_MEDIA_STATE>(ul_tmp);
WsbAffirmHr(WsbLoadFromStream(pStream, &m_mountCount));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_transferCount));
WsbAffirmHr(WsbLoadFromStream(pStream, &ul_tmp));
m_phase = static_cast<HSM_JOB_PHASE>(ul_tmp);
WsbAffirmHr(WsbLoadFromStream(pStream, &ul_tmp));
m_priority = static_cast<HSM_JOB_PRIORITY>(ul_tmp);
WsbAffirmHr(WsbLoadFromStream(pStream, &ul_tmp));
m_state = static_cast<HSM_JOB_STATE>(ul_tmp);
WsbAffirmHr(WsbLoadFromStream(pStream, &m_items));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_size));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_skippedItems));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_skippedSize));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_elapsedTime));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_startTime));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_restartTime));
WsbAffirmHr(WsbLoadFromStream(pStream, &m_stopTime));
// In theory we should be saving the errorItems and errorSize, but at the
// time this was added, we didn't want to force a reinstall because of
// changes in the persistant data.
// WsbAffirmHr(WsbLoadFromStream(pStream, &m_errorItems));
// WsbAffirmHr(WsbLoadFromStream(pStream, &m_errorSize));
} WsbCatch(hr);
WsbTraceOut(OLESTR("CHsmPhase::Load"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmPhase::Save(
IN IStream* pStream,
IN BOOL clearDirty
)
/*++
Implements:
IPersistStream::Save().
--*/
{
HRESULT hr = S_OK;
WsbTraceIn(OLESTR("CHsmPhase::Save"), OLESTR("clearDirty = <%ls>"), WsbBoolAsString(clearDirty));
try {
WsbAssert(0 != pStream, E_POINTER);
// Do the easy stuff, but make sure that this order matches the order
// in the load method.
WsbAffirmHr(WsbSaveToStream(pStream, static_cast<ULONG>(m_mediaState)));
WsbAffirmHr(WsbSaveToStream(pStream, m_mountCount));
WsbAffirmHr(WsbSaveToStream(pStream, m_transferCount));
WsbAffirmHr(WsbSaveToStream(pStream, static_cast<ULONG>(m_phase)));
WsbAffirmHr(WsbSaveToStream(pStream, static_cast<ULONG>(m_priority)));
WsbAffirmHr(WsbSaveToStream(pStream, static_cast<ULONG>(m_state)));
WsbAffirmHr(WsbSaveToStream(pStream, m_items));
WsbAffirmHr(WsbSaveToStream(pStream, m_size));
WsbAffirmHr(WsbSaveToStream(pStream, m_skippedItems));
WsbAffirmHr(WsbSaveToStream(pStream, m_skippedSize));
WsbAffirmHr(WsbSaveToStream(pStream, m_elapsedTime));
WsbAffirmHr(WsbSaveToStream(pStream, m_startTime));
WsbAffirmHr(WsbSaveToStream(pStream, m_restartTime));
WsbAffirmHr(WsbSaveToStream(pStream, m_stopTime));
// In theory we should be saving the errorItems and errorSize, but at the
// time this was added, we didn't want to force a reinstall because of
// changes in the persistant data.
// WsbAffirmHr(WsbSaveToStream(pStream, m_errorItems));
// WsbAffirmHr(WsbSaveToStream(pStream, m_errorSize));
// 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("CHsmPhase::Save"), OLESTR("hr = <%ls>"), WsbHrAsString(hr));
return(hr);
}
HRESULT
CHsmPhase::SetInternalStuff(
IN ULONG mountCount,
IN ULONG transferCount,
IN LONGLONG elapsedTime,
IN FILETIME startTime,
IN FILETIME restartTime,
IN FILETIME stopTime
)
/*++
Implements:
IHsmPhasePriv::SetInternalStuff().
--*/
{
m_mountCount = mountCount;
m_transferCount = transferCount;
m_elapsedTime = elapsedTime;
m_startTime = startTime;
m_restartTime = restartTime;
m_stopTime = stopTime;
return(S_OK);
}
HRESULT
CHsmPhase::SetMediaState(
IN HSM_JOB_MEDIA_STATE state
)
/*++
Implements:
IHsmPhasePriv::SetMediaState().
--*/
{
HRESULT hr = S_OK;
// Determine whether the state being reported will cause the overall state to
// change. The overall state should be mounted/transferring/transferred if any
// media are mounted.
switch (state) {
case HSM_JOB_MEDIA_STATE_BUSY:
case HSM_JOB_MEDIA_STATE_UNAVAILABLE:
if ((HSM_JOB_MEDIA_STATE_IDLE == m_mediaState) ||
(HSM_JOB_MEDIA_STATE_MOUNTING == m_mediaState)) {
m_mediaState = state;
}
break;
case HSM_JOB_MEDIA_STATE_MOUNTING:
if ((HSM_JOB_MEDIA_STATE_MOUNTED != m_mediaState) &&
(HSM_JOB_MEDIA_STATE_TRANSFERRED != m_mediaState) &&
(HSM_JOB_MEDIA_STATE_TRANSFERRING != m_mediaState)) {
m_mediaState = state;
}
break;
case HSM_JOB_MEDIA_STATE_MOUNTED:
if ((HSM_JOB_MEDIA_STATE_MOUNTED != m_mediaState) &&
(HSM_JOB_MEDIA_STATE_TRANSFERRED != m_mediaState) &&
(HSM_JOB_MEDIA_STATE_TRANSFERRING != m_mediaState)) {
m_mediaState = state;
}
m_mountCount++;
break;
case HSM_JOB_MEDIA_STATE_TRANSFERRING:
if ((HSM_JOB_MEDIA_STATE_TRANSFERRING != m_mediaState) &&
(HSM_JOB_MEDIA_STATE_TRANSFERRED != m_mediaState)) {
m_mediaState = state;
}
m_transferCount++;
break;
case HSM_JOB_MEDIA_STATE_TRANSFERRED:
if (m_transferCount <= 1) {
m_mediaState = state;
}
m_transferCount--;
break;
case HSM_JOB_MEDIA_STATE_DISMOUNTING:
if (m_mountCount <= 1) {
m_mediaState = state;
}
break;
case HSM_JOB_MEDIA_STATE_DISMOUNTED:
if (m_mountCount <= 1) {
m_mediaState = state;
}
m_mountCount--;
break;
case HSM_JOB_MEDIA_STATE_FAILED:
m_mediaState = state;
break;
default:
case HSM_JOB_MEDIA_STATE_IDLE:
break;
}
return(hr);
}
HRESULT
CHsmPhase::SetPhase(
IN HSM_JOB_PHASE phase
)
/*++
Implements:
IHsmPhase::SetPhase().
--*/
{
m_phase = phase;
return(S_OK);
}
HRESULT
CHsmPhase::SetPriority(
IN HSM_JOB_PRIORITY priority
)
/*++
Implements:
IHsmPhasePriv::SetPriority().
--*/
{
m_priority = priority;
return(S_OK);
}
HRESULT
CHsmPhase::SetState(
IN HSM_JOB_STATE state
)
/*++
Implements:
IHsmPhasePriv::SetState().
--*/
{
HRESULT hr = S_OK;
FILETIME currentTime;
LONGLONG restartTicks;
LONGLONG stopTicks;
try {
GetSystemTimeAsFileTime(&currentTime);
switch(state) {
case HSM_JOB_STATE_ACTIVE:
// If this is a resume, then update the restartTime not the startTime.
if (HSM_JOB_STATE_RESUMING == m_state) {
m_restartTime = currentTime;
} else {
m_restartTime = WsbLLtoFT(0);
m_startTime = currentTime;
m_elapsedTime = 0;
}
m_state = state;
break;
case HSM_JOB_STATE_CANCELLED:
case HSM_JOB_STATE_DONE:
case HSM_JOB_STATE_FAILED:
case HSM_JOB_STATE_SKIPPED:
case HSM_JOB_STATE_PAUSED:
case HSM_JOB_STATE_SUSPENDED:
// Record the stop time and update the elapsed time.
m_stopTime = currentTime;
restartTicks = WsbFTtoLL(m_restartTime);
stopTicks = WsbFTtoLL(m_stopTime);
if (restartTicks == 0) {
m_elapsedTime = stopTicks - WsbFTtoLL(m_startTime);
} else {
m_elapsedTime += stopTicks - restartTicks;
}
m_state = state;
break;
case HSM_JOB_STATE_CANCELLING:
case HSM_JOB_STATE_IDLE:
case HSM_JOB_STATE_PAUSING:
case HSM_JOB_STATE_RESUMING:
case HSM_JOB_STATE_STARTING:
case HSM_JOB_STATE_SUSPENDING:
// Don't need to do anything for these other than record the state change.
m_state = state;
break;
default:
WsbAssert(FALSE, E_UNEXPECTED);
break;
}
} WsbCatch(hr);
return(hr);
}
HRESULT
CHsmPhase::SetStats(
IN LONGLONG items,
IN LONGLONG size,
IN LONGLONG skippedItems,
IN LONGLONG skippedSize,
IN LONGLONG errorItems,
IN LONGLONG errorSize
)
/*++
Implements:
IHsmPhasePriv::SetStats().
--*/
{
m_items = items;
m_size = size;
m_skippedItems = skippedItems;
m_skippedSize = skippedSize;
m_errorItems = errorItems;
m_errorSize = errorSize;
return(S_OK);
}
HRESULT
CHsmPhase::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);
}
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