/*++ Copyright (c) 1995-1996 Microsoft Corporation Module Name: ezwrite.c Abstract: Arbitration Support routines for clusdisk.c Authors: Gor Nishanov 11-June-1998 Revision History: --*/ #include "clusdskp.h" #include "diskarbp.h" #if !defined(WMI_TRACING) #define CDLOG0(Dummy) #define CDLOG(Dummy1,Dummy2) #define CDLOGFLG(Dummy0,Dummy1,Dummy2) #define LOGENABLED(Dummy) FALSE #else #include "ezwrite.tmh" #endif // !defined(WMI_TRACING) #define ARBITRATION_BUFFER_SIZE PAGE_SIZE PARBITRATION_ID gArbitrationBuffer = 0; NTSTATUS ArbitrationInitialize( VOID ) { gArbitrationBuffer = ExAllocatePool(NonPagedPool, ARBITRATION_BUFFER_SIZE); if( gArbitrationBuffer == NULL ) { return STATUS_INSUFFICIENT_RESOURCES; } RtlZeroMemory(gArbitrationBuffer, ARBITRATION_BUFFER_SIZE); KeQuerySystemTime( &gArbitrationBuffer->SystemTime ); gArbitrationBuffer->SeqNo.QuadPart = 2; // UserMode arbitration uses 0 and 1 // return STATUS_SUCCESS; } VOID ArbitrationDone( VOID ) { if(gArbitrationBuffer != 0) { ExFreePool(gArbitrationBuffer); gArbitrationBuffer = 0; } } VOID ArbitrationTick( VOID ) { // InterlockedIncrement(&gArbitrationBuffer->SeqNo.LowPart); ++gArbitrationBuffer->SeqNo.QuadPart; } BOOLEAN ValidSectorSize( IN ULONG SectorSize) { // too big // if (SectorSize > ARBITRATION_BUFFER_SIZE) { return FALSE; } // too small // if (SectorSize < sizeof(ARBITRATION_ID)) { return FALSE; } // not a power of two // if (SectorSize & (SectorSize - 1) ) { return FALSE; } return TRUE; } NTSTATUS VerifyArbitrationArgumentsIfAny( IN PULONG InputData, IN LONG InputSize ) /*++ Routine Description: Process Parameters Passed to IOCTL_DISK_CLUSTER_START_RESERVE. Arguments: DeviceExtension - The target device extension InputData - InputData array from Irp InputSize - its size Return Value: NTSTATUS Notes: --*/ { PSTART_RESERVE_DATA params = (PSTART_RESERVE_DATA)InputData; // Old style StartReserve // if( InputSize == sizeof(ULONG) ) { return STATUS_SUCCESS; } // We have less arguments than we need // if( InputSize < sizeof(START_RESERVE_DATA) ) { return STATUS_INVALID_PARAMETER; } // Wrong Version // if(params->Version != START_RESERVE_DATA_V1_SIG) { return STATUS_INVALID_PARAMETER; } // Signature size is invalid // if (params->NodeSignatureSize > sizeof(params->NodeSignature)) { return STATUS_INVALID_PARAMETER; } if( !ValidSectorSize(params->SectorSize) ) { return STATUS_INVALID_PARAMETER; } return STATUS_SUCCESS; } VOID ProcessArbitrationArgumentsIfAny( IN PCLUS_DEVICE_EXTENSION DeviceExtension, IN PULONG InputData, IN LONG InputSize ) /*++ Routine Description: Process Parameters Passed to IOCTL_DISK_CLUSTER_START_RESERVE. Arguments: DeviceExtension - The target device extension InputData - InputData array from Irp InputSize - its size Return Value: NTSTATUS Notes: Assumes that parameters are valid. Use VerifyArbitrationArgumentsIfAny to verify parameters --*/ { PSTART_RESERVE_DATA params = (PSTART_RESERVE_DATA)InputData; DeviceExtension->SectorSize = 0; // Invalidate Sector Size // // old style StartReserve // if( InputSize == sizeof(ULONG) ) { return; } RtlCopyMemory(gArbitrationBuffer->NodeSignature, params->NodeSignature, params->NodeSignatureSize); DeviceExtension->ArbitrationSector = params->ArbitrationSector; DeviceExtension->SectorSize = params->SectorSize; } NTSTATUS DoUncheckedReadWrite( IN PCLUS_DEVICE_EXTENSION DeviceExtension, IN PARBITRATION_READ_WRITE_PARAMS params ) /*++ Routine Description: Prepares read/write IRP and execute its synchronously Arguments: DeviceExtension - The target device extension params - Describes offset, operation, buffer, etc This structure is defined in cluster\inc\diskarbp.h Return Value: NTSTATUS --*/ { PIRP irp; NTSTATUS status; PKEVENT event; KIRQL irql; PCLUS_DEVICE_EXTENSION rootDeviceExtension; IO_STATUS_BLOCK ioStatusBlock; ULONG sectorSize = DeviceExtension->SectorSize; LARGE_INTEGER offset; ULONG function = (params->Operation == AE_READ)?IRP_MJ_READ:IRP_MJ_WRITE; ULONG retryCount = 1; event = ExAllocatePool( NonPagedPool, sizeof(KEVENT) ); if ( !event ) { return(STATUS_INSUFFICIENT_RESOURCES); } retry: KeInitializeEvent(event, NotificationEvent, FALSE); offset.QuadPart = (ULONGLONG) (params->SectorSize * params->SectorNo); irp = IoBuildSynchronousFsdRequest(function, DeviceExtension->TargetDeviceObject, params->Buffer, params->SectorSize, &offset, event, &ioStatusBlock); if ( irp == NULL ) { ExFreePool( event ); return(STATUS_INSUFFICIENT_RESOURCES); } status = IoCallDriver(DeviceExtension->TargetDeviceObject, irp); if (status == STATUS_PENDING) { KeWaitForSingleObject(event, Suspended, KernelMode, FALSE, NULL); status = ioStatusBlock.Status; } if ( !NT_SUCCESS(status) ) { if ( retryCount-- && (status == STATUS_IO_DEVICE_ERROR) ) { goto retry; } ClusDiskPrint(( 1, "[ClusDisk] Failed read/write for Signature %08X, status %lx.\n", DeviceExtension->Signature, status )); } ExFreePool(event); return(status); } // DoUncheckedReadWrite // NTSTATUS WriteToArbitrationSector( IN PCLUS_DEVICE_EXTENSION DeviceExtension ) /*++ Routine Description: Writes to an Arbitration Sector. Arguments: DeviceExtension - The device extension for the device to reserve. Return Value: NTSTATUS --*/ { ARBITRATION_READ_WRITE_PARAMS params; ULONG sectorSize = DeviceExtension->SectorSize; if (0 == gArbitrationBuffer || 0 == DeviceExtension->SectorSize) { return STATUS_SUCCESS; } params.Operation = AE_WRITE; params.SectorSize = DeviceExtension->SectorSize; params.Buffer = gArbitrationBuffer; params.SectorNo = DeviceExtension->ArbitrationSector; return( DoUncheckedReadWrite(DeviceExtension, ¶ms) ); } // WriteToArbitrationSector // VOID ArbitrationReserve( IN PCLUS_DEVICE_EXTENSION DeviceExtension ) { NTSTATUS status; status = WriteToArbitrationSector( DeviceExtension ); if ( !NT_SUCCESS(status) ) { CDLOGF(RESERVE,"ArbitrationReserve(%p) => %!status!", DeviceExtension->DeviceObject, status ); ClusDiskPrint(( 1, "[ClusDisk] Failed to write to arbitration sector on Signature %08X\n", DeviceExtension->Signature)); } } NTSTATUS SimpleDeviceIoControl( IN PDEVICE_OBJECT DeviceObject, IN ULONG Ioctl, IN PVOID InBuffer, IN ULONG InBufferSize, IN PVOID OutBuffer, IN ULONG OutBufferSize) { NTSTATUS status; IO_STATUS_BLOCK ioStatusBlock; PKEVENT event = 0; PIRP irp = 0; CDLOG( "SimpleDeviceIoControl(%p): Entry Ioctl %x", DeviceObject, Ioctl ); event = ExAllocatePool( NonPagedPool, sizeof(KEVENT) ); if ( event == NULL ) { status = STATUS_INSUFFICIENT_RESOURCES; ClusDiskPrint(( 1, "[ClusDisk] SimpleDeviceIoControl: Failed to allocate event\n" )); goto exit_gracefully; } irp = IoBuildDeviceIoControlRequest( Ioctl, DeviceObject, InBuffer, InBufferSize, OutBuffer, OutBufferSize, FALSE, event, &ioStatusBlock); if ( !irp ) { status = STATUS_INSUFFICIENT_RESOURCES; ClusDiskPrint(( 1, "[ClusDisk] SimpleDeviceIoControl. Failed to build IRP %x.\n", Ioctl )); goto exit_gracefully; } // // Set the event object to the unsignaled state. // It will be used to signal request completion. // KeInitializeEvent(event, NotificationEvent, FALSE); status = IoCallDriver(DeviceObject, irp); if (status == STATUS_PENDING) { KeWaitForSingleObject(event, Suspended, KernelMode, FALSE, NULL); status = ioStatusBlock.Status; } exit_gracefully: if ( event ) { ExFreePool( event ); } CDLOG( "SimpleDeviceIoControl(%p): Exit Ioctl %x => %!status!", DeviceObject, Ioctl, status ); return status; } // SimpleDeviceIoControl /*++ Routine Description: Arbitration support routine. Currently provides ability to read/write physical sectors on the disk while the device is offline Arguments: SectorSize: requred sector size (Assumes that the SectorSize is a power of two) Return Value: STATUS_INVALID_PARAMETER STATUS_SUCCESS Notes: --*/ NTSTATUS ProcessArbitrationEscape( IN PCLUS_DEVICE_EXTENSION DeviceExtension, IN PULONG InputData, IN LONG InputSize, IN PULONG OutputSize ) { NTSTATUS status = STATUS_INVALID_PARAMETER; PARBITRATION_READ_WRITE_PARAMS params; if( InputData[0] != AE_SECTORSIZE ) { *OutputSize = 0; } switch(InputData[0]) { // Users can query whether ARBITRATION_ESCAPE is present by calling // // AE_TEST subfunction // case AE_TEST: status = STATUS_SUCCESS; break; case AE_WRITE: case AE_READ: if(InputSize < ARBITRATION_READ_WRITE_PARAMS_SIZE) { break; } params = (PARBITRATION_READ_WRITE_PARAMS)InputData; if ( !ValidSectorSize(params->SectorSize) ) { break; } try { ProbeForWrite( params->Buffer, params->SectorSize, sizeof( UCHAR ) ); ProbeForRead ( params->Buffer, params->SectorSize, sizeof( UCHAR ) ); status = DoUncheckedReadWrite(DeviceExtension, params); } except (EXCEPTION_EXECUTE_HANDLER) { return GetExceptionCode(); } break; case AE_POKE: { PARTITION_INFORMATION partInfo; status = SimpleDeviceIoControl( DeviceExtension->TargetDeviceObject, IOCTL_DISK_GET_PARTITION_INFO, NULL, 0, &partInfo, sizeof(PARTITION_INFORMATION) ); break; } case AE_RESET: { STORAGE_BUS_RESET_REQUEST storageReset; storageReset.PathId = DeviceExtension->ScsiAddress.PathId; status = SimpleDeviceIoControl( DeviceExtension->TargetDeviceObject, IOCTL_STORAGE_BREAK_RESERVATION, &storageReset, sizeof(storageReset), NULL, 0 ); break; } case AE_RESERVE: { status = SimpleDeviceIoControl( DeviceExtension->TargetDeviceObject, IOCTL_STORAGE_RESERVE, NULL, 0, NULL, 0 ); break; } case AE_RELEASE: { status = SimpleDeviceIoControl( DeviceExtension->TargetDeviceObject, IOCTL_STORAGE_RELEASE, NULL, 0, NULL, 0 ); break; } case AE_SECTORSIZE: { DISK_GEOMETRY diskGeometry; if (*OutputSize < sizeof(ULONG)) { status = STATUS_BUFFER_TOO_SMALL; *OutputSize = 0; break; } status = SimpleDeviceIoControl( DeviceExtension->TargetDeviceObject, IOCTL_DISK_GET_DRIVE_GEOMETRY, NULL, 0, &diskGeometry, sizeof(diskGeometry) ); if ( NT_SUCCESS(status) ) { *InputData = diskGeometry.BytesPerSector; *OutputSize = sizeof(ULONG); } else { *OutputSize = 0; } break; } } return(status); } // ProcessArbitrationEscape //