/* * PROJECT: ReactOS Kernel * LICENSE: BSD - See COPYING.ARM in the top level directory * FILE: ntoskrnl/po/povolume.c * PURPOSE: Power Manager DOPE and Volume Management * PROGRAMMERS: ReactOS Portable Systems Group */ /* INCLUDES ******************************************************************/ #include #define NDEBUG #include /* GLOBALS *******************************************************************/ typedef struct _POP_FLUSH_VOLUME { LIST_ENTRY List; LONG Count; KEVENT Wait; } POP_FLUSH_VOLUME, *PPOP_FLUSH_VOLUME; ULONG PopFlushPolicy = 0; KGUARDED_MUTEX PopVolumeLock; LIST_ENTRY PopVolumeDevices; KSPIN_LOCK PopDopeGlobalLock; /* PRIVATE FUNCTIONS *********************************************************/ PDEVICE_OBJECT_POWER_EXTENSION NTAPI PopGetDope(IN PDEVICE_OBJECT DeviceObject) { PEXTENDED_DEVOBJ_EXTENSION DeviceExtension; PDEVICE_OBJECT_POWER_EXTENSION Dope; KIRQL OldIrql; PAGED_CODE(); /* If the device already has the dope, return it */ DeviceExtension = IoGetDevObjExtension(DeviceObject); if (DeviceExtension->Dope) goto Return; /* Allocate some dope for the device */ Dope = ExAllocatePoolWithTag(NonPagedPool, sizeof(DEVICE_OBJECT_POWER_EXTENSION), 'Dope'); if (!Dope) goto Return; /* Initialize the initial contents of the dope */ RtlZeroMemory(Dope, sizeof(DEVICE_OBJECT_POWER_EXTENSION)); Dope->DeviceObject = DeviceObject; Dope->State = PowerDeviceUnspecified; InitializeListHead(&Dope->IdleList); /* Make sure only one caller can assign dope to a device */ KeAcquireSpinLock(&PopDopeGlobalLock, &OldIrql); /* Make sure the device still has no dope */ if (!DeviceExtension->Dope) { /* Give the local dope to this device, and remember we won the race */ DeviceExtension->Dope = (PVOID)Dope; Dope = NULL; } /* Allow other dope transactions now */ KeReleaseSpinLock(&PopDopeGlobalLock, OldIrql); /* Check if someone other than us already assigned the dope, so free ours */ if (Dope) ExFreePoolWithTag(Dope, 'Dope'); /* Return the dope to the caller */ Return: return (PDEVICE_OBJECT_POWER_EXTENSION)DeviceExtension->Dope; } VOID NTAPI PoVolumeDevice(IN PDEVICE_OBJECT DeviceObject) { PDEVICE_OBJECT_POWER_EXTENSION Dope; PAGED_CODE(); /* Get dope from the device (if the device has no dope, it will receive some) */ Dope = PopGetDope(DeviceObject); if (Dope) { /* Make sure we can flush safely */ KeAcquireGuardedMutex(&PopVolumeLock); /* Add this volume into the list of power-manager volumes */ if (!Dope->Volume.Flink) InsertTailList(&PopVolumeDevices, &Dope->Volume); /* Allow flushes to go through */ KeReleaseGuardedMutex(&PopVolumeLock); } } VOID NTAPI PoRemoveVolumeDevice(IN PDEVICE_OBJECT DeviceObject) { PDEVICE_OBJECT_POWER_EXTENSION Dope; PEXTENDED_DEVOBJ_EXTENSION DeviceExtension; KIRQL OldIrql; PAGED_CODE(); /* If the device already has the dope, return it */ DeviceExtension = IoGetDevObjExtension(DeviceObject); if (!DeviceExtension->Dope) { /* no dope */ return; } /* Make sure we can flush safely */ KeAcquireGuardedMutex(&PopVolumeLock); /* Get dope from device */ Dope = (PDEVICE_OBJECT_POWER_EXTENSION)DeviceExtension->Dope; if (Dope->Volume.Flink) { /* Remove from volume from list */ RemoveEntryList(&Dope->Volume); } /* Allow flushes to go through */ KeReleaseGuardedMutex(&PopVolumeLock); /* Now remove dope from device object */ KeAcquireSpinLock(&PopDopeGlobalLock, &OldIrql); /* remove from dev obj */ DeviceExtension->Dope = NULL; /* Release lock */ KeReleaseSpinLock(&PopDopeGlobalLock, OldIrql); /* Free dope */ ExFreePoolWithTag(Dope, 'Dope'); } VOID NTAPI PopFlushVolumeWorker(IN PVOID Context) { PPOP_FLUSH_VOLUME FlushContext = (PPOP_FLUSH_VOLUME)Context; PDEVICE_OBJECT_POWER_EXTENSION Dope; PLIST_ENTRY NextEntry; NTSTATUS Status; UCHAR Buffer[sizeof(OBJECT_NAME_INFORMATION) + 512]; POBJECT_NAME_INFORMATION NameInfo = (PVOID)Buffer; ULONG Length; OBJECT_ATTRIBUTES ObjectAttributes; HANDLE VolumeHandle; IO_STATUS_BLOCK IoStatusBlock; /* Acquire the flush lock since we're messing with the list */ KeAcquireGuardedMutex(&PopVolumeLock); /* Loop the flush list */ while (!IsListEmpty(&FlushContext->List)) { /* Grab the next (ie: current) entry and remove it */ NextEntry = FlushContext->List.Flink; RemoveEntryList(NextEntry); /* Add it back on the volume list */ InsertTailList(&PopVolumeDevices, NextEntry); /* Done touching the volume list */ KeReleaseGuardedMutex(&PopVolumeLock); /* Get the dope from the volume link */ Dope = CONTAINING_RECORD(NextEntry, DEVICE_OBJECT_POWER_EXTENSION, Volume); /* Get the name */ Status = ObQueryNameString(Dope->DeviceObject, NameInfo, sizeof(Buffer), &Length); if ((NT_SUCCESS(Status)) && (NameInfo->Name.Buffer)) { /* Open the volume */ DPRINT1("Opening: %wZ\n", &NameInfo->Name); InitializeObjectAttributes(&ObjectAttributes, &NameInfo->Name, OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE, 0, 0); Status = ZwCreateFile(&VolumeHandle, SYNCHRONIZE | FILE_READ_DATA | FILE_WRITE_DATA, &ObjectAttributes, &IoStatusBlock, NULL, GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, FILE_OPEN, 0, NULL, 0); if (NT_SUCCESS(Status)) { /* Flush it and close it */ DPRINT1("Sending flush to: %lx\n", VolumeHandle); ZwFlushBuffersFile(VolumeHandle, &IoStatusBlock); ZwClose(VolumeHandle); } } /* Acquire the flush lock again since we'll touch the list */ KeAcquireGuardedMutex(&PopVolumeLock); } /* One more flush completed... if it was the last, signal the caller */ if (!--FlushContext->Count) KeSetEvent(&FlushContext->Wait, IO_NO_INCREMENT, FALSE); /* Serialize with flushers */ KeReleaseGuardedMutex(&PopVolumeLock); } VOID NTAPI PopFlushVolumes(IN BOOLEAN ShuttingDown) { POP_FLUSH_VOLUME FlushContext = {{0}}; ULONG FlushPolicy; UNICODE_STRING RegistryName = RTL_CONSTANT_STRING(L"\\Registry"); OBJECT_ATTRIBUTES ObjectAttributes; HANDLE RegistryHandle; PLIST_ENTRY NextEntry; PDEVICE_OBJECT_POWER_EXTENSION Dope; ULONG VolumeCount = 0; NTSTATUS Status; HANDLE ThreadHandle; ULONG ThreadCount; /* Setup the flush context */ InitializeListHead(&FlushContext.List); KeInitializeEvent(&FlushContext.Wait, NotificationEvent, FALSE); /* What to flush */ FlushPolicy = ShuttingDown ? 1 | 2 : PopFlushPolicy; if ((FlushPolicy & 1)) { /* Registry flush requested, so open it */ DPRINT1("Opening registry\n"); InitializeObjectAttributes(&ObjectAttributes, &RegistryName, OBJ_CASE_INSENSITIVE | OBJ_KERNEL_HANDLE, NULL, NULL); Status = ZwOpenKey(&RegistryHandle, KEY_READ, &ObjectAttributes); if (NT_SUCCESS(Status)) { /* Flush the registry */ DPRINT1("Flushing registry\n"); ZwFlushKey(RegistryHandle); ZwClose(RegistryHandle); } } /* Serialize with other flushes */ KeAcquireGuardedMutex(&PopVolumeLock); /* Scan the volume list */ NextEntry = PopVolumeDevices.Flink; while (NextEntry != &PopVolumeDevices) { /* Get the dope from the link */ Dope = CONTAINING_RECORD(NextEntry, DEVICE_OBJECT_POWER_EXTENSION, Volume); /* Grab the next entry now, since we'll be modifying the list */ NextEntry = NextEntry->Flink; /* Make sure the object is mounted, writable, exists, and is not a floppy */ if (!(Dope->DeviceObject->Vpb->Flags & VPB_MOUNTED) || (Dope->DeviceObject->Characteristics & FILE_FLOPPY_DISKETTE) || (Dope->DeviceObject->Characteristics & FILE_READ_ONLY_DEVICE) || ((Dope->DeviceObject->Vpb->RealDevice) && (Dope->DeviceObject->Vpb->RealDevice->Characteristics & FILE_FLOPPY_DISKETTE))) { /* Not flushable */ continue; } /* Remove it from the dope and add it to the flush context list */ RemoveEntryList(&Dope->Volume); InsertTailList(&FlushContext.List, &Dope->Volume); /* Next */ VolumeCount++; } /* Check if we should skip non-removable devices */ if (!(FlushPolicy & 2)) { /* ReactOS only implements this routine for shutdown, which requires it */ UNIMPLEMENTED; while (TRUE); } /* Check if there were no volumes at all */ if (!VolumeCount) { /* Nothing to do */ KeReleaseGuardedMutex(&PopVolumeLock); return; } /* Allocate up to 8 flusher threads */ ThreadCount = min(VolumeCount, 8); InitializeObjectAttributes(&ObjectAttributes, NULL, OBJ_KERNEL_HANDLE, NULL, NULL); /* We will ourselves become a flusher thread */ FlushContext.Count = 1; ThreadCount--; /* Look for any extra ones we might need */ while (ThreadCount > 0) { /* Create a new one */ ThreadCount--; DPRINT1("Creating flush thread\n"); Status = PsCreateSystemThread(&ThreadHandle, THREAD_ALL_ACCESS, &ObjectAttributes, 0L, NULL, PopFlushVolumeWorker, &FlushContext); if (NT_SUCCESS(Status)) { /* One more created... */ FlushContext.Count++; ZwClose(ThreadHandle); } } /* Allow flushes to go through */ KeReleaseGuardedMutex(&PopVolumeLock); /* Enter the flush work */ DPRINT1("Local flush\n"); PopFlushVolumeWorker(&FlushContext); /* Wait for all flushes to be over */ DPRINT1("Waiting for flushes\n"); KeWaitForSingleObject(&FlushContext.Wait, Executive, KernelMode, FALSE, NULL); DPRINT1("Flushes have completed\n"); } VOID NTAPI PoInitializeDeviceObject(IN OUT PDEVOBJ_EXTENSION DeviceObjectExtension) { PEXTENDED_DEVOBJ_EXTENSION DeviceExtension = (PVOID)DeviceObjectExtension; PAGED_CODE(); /* Initialize the power flags */ DeviceExtension->PowerFlags = PowerSystemUnspecified & 0xF; DeviceExtension->PowerFlags |= ((PowerDeviceUnspecified << 4) & 0xF0); /* The device object is not on drugs yet */ DeviceExtension->Dope = NULL; } /* PUBLIC FUNCTIONS **********************************************************/