reactos/win32ss/user/ntuser/power.c
George Bișoc 181b666fc4
[NTUSER] Stubplement the Win32 power manager
In order for the NT power manager to interact with the Win32 subsystem (thus the whole rest of the system), the Win32 kernel-mode subsystem provides a mechanism that communicates with the kernel power manager via power callouts (aka power requests as per Windows' PDB symbols).
Such mechanism enters in action as soon as Win32 callout routines are estabilished with the PsEstablishWin32Callouts() function.

The NT power manager, the power policy manager respectively, invokes a power callout to denote an exceptional phenomena as a result of power policies or capabilities changes, turning ON/OFF the display, a system time change has occurred, etc.
Such scenarios are described as power events of which the NT power manager sends a WIN32_POWEREVENT_PARAMETERS packet to Win32k via the estabilished "PowerEventCallout" pointer function callout.
For other callouts that inform the Win32 subsystem of impeding power state changes across the system or devices, these are sent as WIN32_POWERSTATE_PARAMETERS packets with its own separate callout.

The purpose of such mechanism is to give Win32k the opportunity to do power related tasks and alert every application of such power events in accordance with what it gets notified by the NT power manager.
Currently this patch stubplements this mechanism in ROS, it is only just the barebones for now. The development of the Win32 power manager will go in parallel with the kernel power manager development (expand, improve, fix the code of issues that whatever may arise).
So far only the PsW32SystemTime power event is implemented for the moment being. This work was decoupled from PR #5719 to avoid clobbering it too much.

=== TODO ===

- Implement power states management communication with the kernel power manager
- Implement the rest of the power events in IntHandlePowerEventWorker
- Implement power event handling in CSRSS (or WinSrv?) which handles any of the events that could not be handled by Win32k otherwise
- Estabilish the power state callout in PsEstablishWin32Callouts() (currently there is no a pointer function that gets assigned to such callout)

CORE-18969
2024-07-13 11:30:19 +02:00

427 lines
14 KiB
C

/*
* PROJECT: ReactOS Win32k subsystem
* LICENSE: GPL-2.0-or-later (https://spdx.org/licenses/GPL-2.0-or-later)
* PURPOSE: Power management of the Win32 kernel-mode subsystem
* COPYRIGHT: Copyright 2024 George Bișoc <george.bisoc@reactos.org>
*/
/* INCLUDES ******************************************************************/
#include <win32k.h>
DBG_DEFAULT_CHANNEL(UserPowerManager);
/* GLOBALS *******************************************************************/
LIST_ENTRY gPowerCalloutsQueueList;
PFAST_MUTEX gpPowerCalloutMutexLock;
PKEVENT gpPowerRequestCalloutEvent;
PKTHREAD gpPowerCalloutMutexOwnerThread;
/* PRIVATE FUNCTIONS *********************************************************/
/**
* @brief
* Handles a power event as a result from an incoming power
* callout from the kernel power manager.
*
* @param[in] pParameters
* A pointer to the power event parameters containing the
* power event type and sub-code serving as additional datum
* for that power event type.
*/
static
VOID
IntHandlePowerEventWorker(
_In_ PWIN32_POWEREVENT_PARAMETERS pParameters)
{
PSPOWEREVENTTYPE PwrEventType;
ULONG Code;
/* Cache the power event parameters and handle the power callout */
PwrEventType = pParameters->EventNumber;
Code = pParameters->Code;
switch (PwrEventType)
{
case PsW32SystemTime:
{
/*
* The power manager of the kernel notified us of an impending
* time change, broadcast this notification to all present windows.
*/
UserSendNotifyMessage(HWND_BROADCAST,
WM_TIMECHANGE,
0,
0);
break;
}
default:
{
TRACE("Power event of type %d is currently UNIMPLEMENTED (code %lu)\n", PwrEventType, Code);
break;
}
}
}
/**
* @brief
* Validates the power event parameters that come from
* a power callout from the kernel power manager.
*
* @param[in] pParameters
* A pointer to the power event parameters containing the
* power event type of which is to be validated against
* valid power events.
*
* @return
* Returns STATUS_INVALID_PARAMETER if the captured power
* event type is unknown, otherwise STATUS_SUCCESS is returned.
*/
static
NTSTATUS
IntValidateWin32PowerParams(
_In_ PWIN32_POWEREVENT_PARAMETERS pParameters)
{
PSPOWEREVENTTYPE PwrEventType;
/* Capture the event number and check if it is within bounds */
PwrEventType = pParameters->EventNumber;
if (PwrEventType < PsW32FullWake || PwrEventType > PsW32MonitorOff)
{
TRACE("Unknown event number found -> %d\n", PwrEventType);
return STATUS_INVALID_PARAMETER;
}
return STATUS_SUCCESS;
}
/**
* @brief
* Gets the next pending power callout from the global queue
* list and returns it to the caller. Note that the returned
* power callout is delisted from the list.
*
* @param[in] pPowerCallout
* A pointer to a power callout entry that was previously returned
* by the same function. If this parameter is set to NULL the function
* will return the first callout entry from the list. Otherwise the
* function will return the next callout entry of the current power
* callout.
*
* @return
* Returns a pointer to a power callout to the caller. If the list is
* empty then it will return NULL.
*
* @remarks
* The caller ASSUMES responsibility to lock down the power callout list
* before it begins enumerating the global list!
*/
static
PWIN32POWERCALLOUT
IntGetNextPowerCallout(
_In_ PWIN32POWERCALLOUT pPowerCallout)
{
PLIST_ENTRY Entry;
PWIN32POWERCALLOUT pPowerCalloutEntry = NULL;
/* Ensure the current calling thread owns the power callout lock */
ASSERT_POWER_CALLOUT_LOCK_ACQUIRED();
/* This list is empty, acknowledge the caller */
if (IsListEmpty(&gPowerCalloutsQueueList))
{
return NULL;
}
/* The caller supplied a NULL argument, give them the first entry */
if (!pPowerCallout)
{
Entry = gPowerCalloutsQueueList.Flink;
}
else
{
/* Otherwise give the caller the next power callout entry from the list */
Entry = pPowerCallout->Link.Flink;
}
/* Delist the power callout entry from the list and give it to caller */
pPowerCalloutEntry = CONTAINING_RECORD(Entry, WIN32POWERCALLOUT, Link);
RemoveEntryList(&pPowerCalloutEntry->Link);
return pPowerCalloutEntry;
}
/**
* @brief
* Deploys all pending power callouts to appropriate power
* callout workers.
*/
static
VOID
IntDeployPowerCallout(VOID)
{
PWIN32POWERCALLOUT pWin32PwrCallout;
/* Lock the entire USER subsystem down as we do particular stuff */
UserEnterExclusive();
/*
* FIXME: While we did indeed lock the USER subsystem, there is a risk
* of the current calling thread might die or hang, so we should probably
* lock the thread while we deploy our power callout. The thread info
* provides a thread lock field for this purpose (see the ptl member from
* the _THREADINFO structure) but ReactOS lacks implementation to handle
* this. Suppose a thread happens to get into this fate, the power callout
* would never get signaled...
*/
/* Deploy all the pending power callouts to the appropriate callout workers */
IntAcquirePowerCalloutLock();
for (pWin32PwrCallout = IntGetNextPowerCallout(NULL);
pWin32PwrCallout != NULL;
pWin32PwrCallout = IntGetNextPowerCallout(pWin32PwrCallout))
{
if (pWin32PwrCallout->Type == POWER_CALLOUT_EVENT)
{
IntHandlePowerEventWorker(&pWin32PwrCallout->Params);
}
else // POWER_CALLOUT_STATE
{
ERR("Power state callout management is currently not implemented!\n");
}
/* We are done with this power callout */
ExFreePoolWithTag(pWin32PwrCallout, USERTAG_POWER);
}
/* Release what we locked */
IntReleasePowerCalloutLock();
UserLeave();
}
/**
* @brief
* Enlists a newly allocated power callout into the queue list
* for later processing.
*
* @param[in] pPowerCallout
* A pointer to a power callout that is to be inserted into the
* queue list.
*/
static
VOID
IntEnlistPowerCallout(
_In_ PWIN32POWERCALLOUT pPowerCallout)
{
PETHREAD CurrentThread;
/* Enlist it to the queue already */
IntAcquirePowerCalloutLock();
InsertTailList(&gPowerCalloutsQueueList, &pPowerCallout->Link);
IntReleasePowerCalloutLock();
/*
* We have to let CSRSS process this power callout if one of the
* following conditions is TRUE for the current calling thread:
*
* - The process of the calling thread is a system process;
* - The process of the calling thread is attached;
* - The current calling thread is not a Win32 thread.
*
* For the second point, we cannot process the power callout ourselves
* as we must lock down USER exclusively for our own purpose, which requires
* us to be in a critical section. So we do not want to fiddle with a process
* that is attached with others.
*/
CurrentThread = PsGetCurrentThread();
if (PsIsSystemThread(CurrentThread) ||
KeIsAttachedProcess() ||
!IntIsThreadWin32Thread(CurrentThread))
{
/* Alert CSRSS of the presence of an enqueued power callout */
KeSetEvent(gpPowerRequestCalloutEvent, EVENT_INCREMENT, FALSE);
return;
}
/* Handle this power callout ourselves */
IntDeployPowerCallout();
}
/* PUBLIC FUNCTIONS **********************************************************/
/**
* @brief
* Initializes the power management side of Win32 kernel-mode
* subsystem component. This enables communication between
* the power manager of the NT kernel and Win32k.
*
* @param[in] hPowerRequestEvent
* A handle to the global power request event, provided by the
* Winsrv module. This allows CSRSS to be notified of power callouts
* that cannot be handled by Win32k.
*
* @return
* Returns STATUS_INSUFFICIENT_RESOURCES if pool allocation for the
* power callout lock has failed due to lack of necessary memory.
* A failure NTSTATUS code is returned if the power request event
* could not be referenced. Otherwise STATUS_SUCCESS is returned to
* indicate the power management has initialized successfully.
*/
NTSTATUS
NTAPI
IntInitWin32PowerManagement(
_In_ HANDLE hPowerRequestEvent)
{
NTSTATUS Status;
/* Allocate memory pool for the power callout mutex */
gpPowerCalloutMutexLock = ExAllocatePoolZero(NonPagedPool,
sizeof(FAST_MUTEX),
USERTAG_POWER);
if (gpPowerCalloutMutexLock == NULL)
{
ERR("Failed to allocate pool of memory for the power callout mutex\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
/* Initialize the mutex and owner thread */
ExInitializeFastMutex(gpPowerCalloutMutexLock);
gpPowerCalloutMutexOwnerThread = NULL;
/* Initialize the global queue list and the power callout (aka request) event object */
InitializeListHead(&gPowerCalloutsQueueList);
Status = ObReferenceObjectByHandle(hPowerRequestEvent,
EVENT_ALL_ACCESS,
*ExEventObjectType,
KernelMode,
(PVOID *)&gpPowerRequestCalloutEvent,
NULL);
if (!NT_SUCCESS(Status))
{
ERR("Failed to reference the power callout event handle (Status 0x%08lx)\n", Status);
ExFreePoolWithTag(gpPowerCalloutMutexLock, USERTAG_POWER);
return Status;
}
return STATUS_SUCCESS;
}
/**
* @brief
* Cleanup procedure that frees all the allocated resources by
* the power manager. It is triggered during Win32k subsystem unloading.
*/
NTSTATUS
NTAPI
IntWin32PowerManagementCleanup(VOID)
{
PWIN32POWERCALLOUT pWin32PwrCallout;
/* Dereference the power request event */
ObDereferenceObject(gpPowerRequestCalloutEvent);
gpPowerRequestCalloutEvent = NULL;
/*
* Enumerate all pending power callouts and free them. We do not
* need to do this with the lock held as the CSR process is tore
* apart during Win32k cleanup, so future power callouts would not
* be allowed anyway, therefore we are safe.
*/
for (pWin32PwrCallout = IntGetNextPowerCallout(NULL);
pWin32PwrCallout != NULL;
pWin32PwrCallout = IntGetNextPowerCallout(pWin32PwrCallout))
{
ExFreePoolWithTag(pWin32PwrCallout, USERTAG_POWER);
}
/* Tear apart the power callout lock mutex */
ExFreePoolWithTag(gpPowerCalloutMutexLock, USERTAG_POWER);
gpPowerCalloutMutexLock = NULL;
return STATUS_SUCCESS;
}
/**
* @brief
* Handles an incoming power event callout from the NT power
* manager.
*
* @param[in] pWin32PwrEventParams
* A pointer to power event parameters that is given by the
* NT power manager of the kernel.
*
* @return
* Returns STATUS_UNSUCCESSFUL if the Client/Server subsystem is
* not running, of which power callouts cannot be handled.
* Returns STATUS_INVALID_PARAMETER if the provided power event
* parameters are not valid. Returns STATUS_INSUFFICIENT_RESOURCES
* if there is a lack of memory to allocate for the power callout.
* Otherwise it returns STATUS_SUCCESS to indicate the power callout
* was handled successfully.
*/
NTSTATUS
NTAPI
IntHandlePowerEvent(
_In_ PWIN32_POWEREVENT_PARAMETERS pWin32PwrEventParams)
{
PWIN32POWERCALLOUT pWin32PwrCallout;
NTSTATUS Status;
/*
* CSRSS is not running. As a consequence, the USER subsystem is neither
* up and running as the Client/Server subsystem is responsible to fire
* up other subsystems. Another case is that the system undergoes shutdown
* and Win32k cleanup is currently in effect. Either way, just quit.
*/
if (!gpepCSRSS)
{
TRACE("CSRSS is not running, bailing out\n");
return STATUS_UNSUCCESSFUL;
}
/* Validate the power event parameters, just to be sure we have not gotten anything else */
Status = IntValidateWin32PowerParams(pWin32PwrEventParams);
if (!NT_SUCCESS(Status))
{
ERR("Could not deploy power callout, invalid Win32 power parameters!\n");
return Status;
}
/* Allocate pool of memory for this power callout */
pWin32PwrCallout = ExAllocatePoolZero(NonPagedPool,
sizeof(WIN32POWERCALLOUT),
USERTAG_POWER);
if (pWin32PwrCallout == NULL)
{
ERR("Allocating memory for Win32 power callout failed\n");
return STATUS_INSUFFICIENT_RESOURCES;
}
/* Fill the necessary power datum */
pWin32PwrCallout->Type = POWER_CALLOUT_EVENT;
pWin32PwrCallout->Params.EventNumber = pWin32PwrEventParams->EventNumber;
pWin32PwrCallout->Params.Code = pWin32PwrEventParams->Code;
/* Enqueue this power request for later processing */
IntEnlistPowerCallout(pWin32PwrCallout);
return STATUS_SUCCESS;
}
/**
* @brief
* Handles an incoming power state callout from the NT power
* manager.
*
* @param[in] pWin32PwrStateParams
* A pointer to power state parameters that is given by the
* NT power manager of the kernel.
*/
NTSTATUS
NTAPI
IntHandlePowerState(
_In_ PWIN32_POWERSTATE_PARAMETERS pWin32PwrStateParams)
{
/* FIXME */
ERR("IntHandlePowerState is UNIMPLEMENTED\n");
return STATUS_NOT_IMPLEMENTED;
}
/* EOF */