Sample Code
Windows Driver Samples/ Disk Class Driver/ C++/ src/ disk.h/
/*++ Copyright (C) Microsoft Corporation, 1991 - 2010 Module Name: disk.c Abstract: SCSI disk class driver Environment: kernel mode only Notes: Revision History: --*/ #include "ntddk.h" #include "scsi.h" #include <wmidata.h> #include "classpnp.h" #include <wmistr.h> #include "ntstrsafe.h" // // Set component ID for DbgPrintEx calls // #ifndef DEBUG_COMP_ID #define DEBUG_COMP_ID DPFLTR_DISK_ID #endif // // Include header file and setup GUID for tracing // #include <storswtr.h> #define WPP_GUID_DISK (945186BF, 3DD6, 4f3f, 9C8E, 9EDD3FC9D558) #ifndef WPP_CONTROL_GUIDS #define WPP_CONTROL_GUIDS WPP_CONTROL_GUIDS_NORMAL_FLAGS(WPP_GUID_DISK) #endif #ifdef ExAllocatePool #undef ExAllocatePool #define ExAllocatePool #NT_ASSERT(FALSE) #endif #define DISK_TAG_GENERAL ' DcS' // "ScD " - generic tag #define DISK_TAG_SMART 'aDcS' // "ScDa" - SMART allocations #define DISK_TAG_INFO_EXCEPTION 'ADcS' // "ScDA" - Info Exceptions #define DISK_TAG_DISABLE_CACHE 'CDcS' // "ScDC" - disable cache paths #define DISK_TAG_CCONTEXT 'cDcS' // "ScDc" - disk allocated completion context #define DISK_TAG_DISK_GEOM 'GDcS' // "ScDG" - disk geometry buffer #define DISK_TAG_UPDATE_GEOM 'gDcS' // "ScDg" - update disk geometry paths #define DISK_TAG_SENSE_INFO 'IDcS' // "ScDI" - sense info buffers #define DISK_TAG_PNP_ID 'iDcS' // "ScDp" - pnp ids #define DISK_TAG_MODE_DATA 'MDcS' // "ScDM" - mode data buffer #define DISK_CACHE_MBR_CHECK 'mDcS' // "ScDM" - mbr checksum code #define DISK_TAG_NAME 'NDcS' // "ScDN" - disk name code #define DISK_TAG_READ_CAP 'PDcS' // "ScDP" - read capacity buffer #define DISK_TAG_PART_LIST 'pDcS' // "ScDp" - disk partition lists #define DISK_TAG_SRB 'SDcS' // "ScDS" - srb allocation #define DISK_TAG_START 'sDcS' // "ScDs" - start device paths #define DISK_TAG_UPDATE_CAP 'UDcS' // "ScDU" - update capacity path #define DISK_TAG_WI_CONTEXT 'WDcS' // "ScDW" - work-item context #if defined(_X86_) || defined(_AMD64_) // // Disk device data // typedef enum _DISK_GEOMETRY_SOURCE { DiskGeometryUnknown, DiskGeometryFromBios, DiskGeometryFromPort, DiskGeometryFromNec98, DiskGeometryGuessedFromBios, DiskGeometryFromDefault, DiskGeometryFromNT4 } DISK_GEOMETRY_SOURCE, *PDISK_GEOMETRY_SOURCE; #endif // // Context for requests that can be combined and sent down // typedef struct _DISK_GROUP_CONTEXT { // // Queue of requests whose representative is currently outstanding at the port driver // LIST_ENTRY CurrList; // // The representative for the above queue // PIRP CurrIrp; // // Queue of requests whose representative is waiting to go down // LIST_ENTRY NextList; // // The representative for the above queue // PIRP NextIrp; // // The srb associated with this group // #if (NTDDI_VERSION >= NTDDI_WIN8) union { SCSI_REQUEST_BLOCK Srb; STORAGE_REQUEST_BLOCK SrbEx; UCHAR SrbExBuffer[CLASS_SRBEX_SCSI_CDB16_BUFFER_SIZE]; } Srb; #else SCSI_REQUEST_BLOCK Srb; #endif // // The spinlock that will synchronize access to this context // KSPIN_LOCK Spinlock; // // This event will allow for the requests to be sent down synchronously // KEVENT Event; #if DBG // // This counter maintains the number of requests currently tagged // to the request that is waiting to go down // ULONG DbgTagCount; // // This counter maintains the number of requests that were avoided // ULONG DbgSavCount; // // This counter maintains the total number of times that we combined // requests and the respective number of requests that were tagged // ULONG DbgRefCount[64]; #endif } DISK_GROUP_CONTEXT, *PDISK_GROUP_CONTEXT; // // Write cache setting as defined by the user // typedef enum _DISK_USER_WRITE_CACHE_SETTING { DiskWriteCacheDisable = 0, DiskWriteCacheEnable = 1, DiskWriteCacheDefault = -1 } DISK_USER_WRITE_CACHE_SETTING, *PDISK_USER_WRITE_CACHE_SETTING; typedef struct _DISK_DATA { // // This field is the ordinal of a partition as it appears on a disk. // ULONG PartitionOrdinal; // // How has this disk been partitioned? Either EFI or MBR. // PARTITION_STYLE PartitionStyle; union { struct { // // Disk signature (from MBR) // ULONG Signature; // // MBR checksum // ULONG MbrCheckSum; // // Number of hidden sectors for BPB. // ULONG HiddenSectors; // // Partition type of this device object // // This field is set by: // // 1. Initially set according to the partition list entry // partition type returned by IoReadPartitionTable. // // 2. Subsequently set by the // IOCTL_DISK_SET_PARTITION_INFORMATION I/O control // function when IoSetPartitionInformation function // successfully updates the partition type on the disk. // UCHAR PartitionType; // // Boot indicator - indicates whether this partition is a // bootable (active) partition for this device // // This field is set according to the partition list entry boot // indicator returned by IoReadPartitionTable. // BOOLEAN BootIndicator; } Mbr; struct { // // The DiskGUID field from the EFI partition header. // GUID DiskId; // // Partition type of this device object. // GUID PartitionType; // // Unique partition identifier for this partition. // GUID PartitionId; // // EFI partition attributes for this partition. // ULONG64 Attributes; // // EFI partition name of this partition. // WCHAR PartitionName[36]; } Efi; #pragma warning(suppress: 4201) //this is intended to be an unnamed union }; struct { // // This flag is set when the well known name is created (through // DiskCreateSymbolicLinks) and cleared when destroying it // (by calling DiskDeleteSymbolicLinks). // unsigned int WellKnownNameCreated : 1; // // This flag is set when the PhysicalDriveN link is created (through // DiskCreateSymbolicLinks) and is cleared when destroying it (through // DiskDeleteSymbolicLinks) // unsigned int PhysicalDriveLinkCreated : 1; } LinkStatus; // // ReadyStatus - STATUS_SUCCESS indicates that the drive is ready for // use. Any error status is to be returned as an explaination for why // a request is failed. // // This was done solely for the zero-length partition case of having no // media in a removable disk drive. When that occurs, and a read is sent // to the zero-length non-partition-zero PDO that was created, we had to // be able to fail the request with a reasonable value. This may not have // been the best way to do this, but it works. // NTSTATUS ReadyStatus; // // SCSI address used for SMART operations. // SCSI_ADDRESS ScsiAddress; // // What type of failure prediction mechanism is available // FAILURE_PREDICTION_METHOD FailurePredictionCapability; BOOLEAN AllowFPPerfHit; // // Indicates that the SCSI Informational Exceptions mode page is supported. // Note that this only indicates *support* and does not necessarily // indicate that Informational Exception reporting via sense code is // actually enabled. // BOOLEAN ScsiInfoExceptionsSupported; // // Indicates if failure prediction is actually enabled (via whatever) // method is applicable as indicated by FailurePredictionCapability. // BOOLEAN FailurePredictionEnabled; #if defined(_X86_) || defined(_AMD64_) // // This flag indiciates that a non-default geometry for this drive has // already been determined by the disk driver. This field is ignored // for removable media drives. // DISK_GEOMETRY_SOURCE GeometrySource; // // If GeometryDetermined is TRUE this will contain the geometry which was // reported by the firmware or by the BIOS. For removable media drives // this will contain the last geometry used when media was present. // DISK_GEOMETRY RealGeometry; #endif // // This mutex prevents more than one IOCTL_DISK_VERIFY from being // sent down to the disk. This greatly reduces the possibility of // a Denial-of-Service attack // KMUTEX VerifyMutex; // // This allows for parallel flush requests to be combined into one so as to // reduce the number of outstanding requests that are sent down to the disk // DISK_GROUP_CONTEXT FlushContext; // // The user-specified disk write cache setting // DISK_USER_WRITE_CACHE_SETTING WriteCacheOverride; } DISK_DATA, *PDISK_DATA; // // Define a general structure of identfing disk controllers with bad // hardware. // #define HackDisableTaggedQueuing (0x01) #define HackDisableSynchronousTransfers (0x02) #define HackDisableSpinDown (0x04) #define HackDisableWriteCache (0x08) #define HackCauseNotReportableHack (0x10) #define HackRequiresStartUnitCommand (0x20) #define DiskDeviceParameterSubkey L"Disk" #define DiskDeviceUserWriteCacheSetting L"UserWriteCacheSetting" #define DiskDeviceCacheIsPowerProtected L"CacheIsPowerProtected" #define FUNCTIONAL_EXTENSION_SIZE sizeof(FUNCTIONAL_DEVICE_EXTENSION) + sizeof(DISK_DATA) #define MODE_DATA_SIZE 192 #define VALUE_BUFFER_SIZE 2048 #define SCSI_DISK_TIMEOUT 10 #define PARTITION0_LIST_SIZE 4 #define MAX_MEDIA_TYPES 4 typedef struct _DISK_MEDIA_TYPES_LIST { PCCHAR VendorId; PCCHAR ProductId; PCCHAR Revision; const ULONG NumberOfTypes; const ULONG NumberOfSides; const STORAGE_MEDIA_TYPE MediaTypes[MAX_MEDIA_TYPES]; } DISK_MEDIA_TYPES_LIST, *PDISK_MEDIA_TYPES_LIST; // // WMI reregistration structures used for reregister work item // typedef struct { SINGLE_LIST_ENTRY Next; PDEVICE_OBJECT DeviceObject; PIRP Irp; } DISKREREGREQUEST, *PDISKREREGREQUEST; #define MAX_SECTORS_PER_VERIFY 0x100 // // This is based off 100ns units // #define ONE_MILLI_SECOND ((ULONGLONG)10 * 1000) // // Context for the work-item // typedef struct _DISK_VERIFY_WORKITEM_CONTEXT { PIRP Irp; PSCSI_REQUEST_BLOCK Srb; PIO_WORKITEM WorkItem; } DISK_VERIFY_WORKITEM_CONTEXT, *PDISK_VERIFY_WORKITEM_CONTEXT; // // Poll for Failure Prediction every hour // #define DISK_DEFAULT_FAILURE_POLLING_PERIOD 1 * 60 * 60 #define CHECK_IRQL() \ if (KeGetCurrentIrql() >= DISPATCH_LEVEL) { \ NT_ASSERT(KeGetCurrentIrql() < DISPATCH_LEVEL); \ return STATUS_INVALID_LEVEL; \ } // // Static global lookup tables. // extern CLASSPNP_SCAN_FOR_SPECIAL_INFO DiskBadControllers[]; extern const DISK_MEDIA_TYPES_LIST DiskMediaTypes[]; extern const DISK_MEDIA_TYPES_LIST DiskMediaTypesExclude[]; // // Macros // // // Routine prototypes. // DRIVER_INITIALIZE DriverEntry; VOID DiskUnload( IN PDRIVER_OBJECT DriverObject ); NTSTATUS DiskAddDevice( IN PDRIVER_OBJECT DriverObject, IN PDEVICE_OBJECT Pdo ); NTSTATUS DiskInitFdo( IN PDEVICE_OBJECT Fdo ); NTSTATUS DiskStartFdo( IN PDEVICE_OBJECT Fdo ); NTSTATUS DiskStopDevice( IN PDEVICE_OBJECT DeviceObject, IN UCHAR Type ); NTSTATUS DiskRemoveDevice( IN PDEVICE_OBJECT DeviceObject, IN UCHAR Type ); NTSTATUS DiskReadWriteVerification( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ); NTSTATUS DiskDeviceControl( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ); VOID DiskFdoProcessError( PDEVICE_OBJECT DeviceObject, PSCSI_REQUEST_BLOCK Srb, NTSTATUS *Status, BOOLEAN *Retry ); NTSTATUS DiskShutdownFlush( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ); NTSTATUS DiskGetCacheInformation( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, IN PDISK_CACHE_INFORMATION CacheInfo ); NTSTATUS DiskSetCacheInformation( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, IN PDISK_CACHE_INFORMATION CacheInfo ); VOID DiskLogCacheInformation( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, IN PDISK_CACHE_INFORMATION CacheInfo, IN NTSTATUS Status ); NTSTATUS DiskIoctlGetCacheSetting( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ); NTSTATUS DiskIoctlSetCacheSetting( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ); IO_WORKITEM_ROUTINE DisableWriteCache; IO_WORKITEM_ROUTINE DiskIoctlVerifyThread; VOID DiskFlushDispatch( IN PDEVICE_OBJECT Fdo, IN PDISK_GROUP_CONTEXT FlushContext ); IO_COMPLETION_ROUTINE DiskFlushComplete; NTSTATUS DiskModeSelect( IN PDEVICE_OBJECT DeviceObject, _In_reads_bytes_(Length) PCHAR ModeSelectBuffer, IN ULONG Length, IN BOOLEAN SavePage ); // // We need to validate that the self test subcommand is valid and // appropriate. Right now we allow subcommands 0, 1 and 2 which are non // captive mode tests. Once we figure out a way to know if it is safe to // run a captive test then we can allow captive mode tests. Also if the // atapi 5 spec is ever updated to denote that bit 7 is the captive // mode bit, we can allow any request that does not have bit 7 set. Until // that is done we want to be sure // #define DiskIsValidSmartSelfTest(Subcommand) \ ( ((Subcommand) == SMART_OFFLINE_ROUTINE_OFFLINE) || \ ((Subcommand) == SMART_SHORT_SELFTEST_OFFLINE) || \ ((Subcommand) == SMART_EXTENDED_SELFTEST_OFFLINE) ) NTSTATUS DiskPerformSmartCommand( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, IN ULONG SrbControlCode, IN UCHAR Command, IN UCHAR Feature, IN UCHAR SectorCount, IN UCHAR SectorNumber, IN OUT PSRB_IO_CONTROL SrbControl, OUT PULONG BufferSize ); NTSTATUS DiskGetInfoExceptionInformation( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, OUT PMODE_INFO_EXCEPTIONS ReturnPageData ); NTSTATUS DiskSetInfoExceptionInformation( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, IN PMODE_INFO_EXCEPTIONS PageData ); #if (NTDDI_VERSION >= NTDDI_WINBLUE) NTSTATUS DiskGetModePage( _In_ PDEVICE_OBJECT Fdo, _In_ UCHAR PageMode, _In_ UCHAR PageControl, _In_ PMODE_PARAMETER_HEADER ModeData, _Inout_ PULONG ModeDataSize, _Out_ PVOID* PageData ); NTSTATUS DiskEnableInfoExceptions( _In_ PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, _In_ BOOLEAN Enable ); #endif // (NTDDI_VERSION >= NTDDI_WINBLUE) NTSTATUS DiskDetectFailurePrediction( PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, PFAILURE_PREDICTION_METHOD FailurePredictCapability, BOOLEAN ScsiAddressAvailable ); NTSTATUS DiskCreateFdo( IN PDRIVER_OBJECT DriverObject, IN PDEVICE_OBJECT LowerDeviceObject, IN PULONG DeviceCount, IN BOOLEAN DasdAccessOnly ); VOID DiskSetSpecialHacks( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, IN ULONG_PTR Data ); VOID ResetBus( IN PDEVICE_OBJECT DeviceObject ); NTSTATUS DiskGenerateDeviceName( IN ULONG DeviceNumber, OUT PCCHAR *RawName ); VOID DiskCreateSymbolicLinks( IN PDEVICE_OBJECT DeviceObject ); VOID DiskDeleteSymbolicLinks( IN PDEVICE_OBJECT DeviceObject ); NTSTATUS DiskFdoQueryWmiRegInfo( IN PDEVICE_OBJECT DeviceObject, OUT ULONG *RegFlags, OUT PUNICODE_STRING InstanceName ); NTSTATUS DiskFdoQueryWmiRegInfoEx( IN PDEVICE_OBJECT DeviceObject, OUT ULONG *RegFlags, OUT PUNICODE_STRING InstanceName, OUT PUNICODE_STRING MofName ); NTSTATUS DiskFdoQueryWmiDataBlock( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN ULONG GuidIndex, IN ULONG BufferAvail, OUT PUCHAR Buffer ); NTSTATUS DiskFdoSetWmiDataBlock( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN ULONG GuidIndex, IN ULONG BufferSize, IN PUCHAR Buffer ); NTSTATUS DiskFdoSetWmiDataItem( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN ULONG GuidIndex, IN ULONG DataItemId, IN ULONG BufferSize, IN PUCHAR Buffer ); NTSTATUS DiskFdoExecuteWmiMethod( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN ULONG GuidIndex, IN ULONG MethodId, IN ULONG InBufferSize, IN ULONG OutBufferSize, IN PUCHAR Buffer ); NTSTATUS DiskWmiFunctionControl( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN ULONG GuidIndex, IN CLASSENABLEDISABLEFUNCTION Function, IN BOOLEAN Enable ); NTSTATUS DiskReadFailurePredictStatus( PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, PSTORAGE_FAILURE_PREDICT_STATUS DiskSmartStatus ); NTSTATUS DiskReadFailurePredictData( PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, PSTORAGE_FAILURE_PREDICT_DATA DiskSmartData ); NTSTATUS DiskEnableDisableFailurePrediction( PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, BOOLEAN Enable ); NTSTATUS DiskEnableDisableFailurePredictPolling( PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, BOOLEAN Enable, ULONG PollTimeInSeconds ); NTSTATUS DiskInitializeReregistration( VOID ); extern GUIDREGINFO DiskWmiFdoGuidList[]; #if defined(_X86_) || defined(_AMD64_) NTSTATUS DiskReadDriveCapacity( IN PDEVICE_OBJECT Fdo ); #else #define DiskReadDriveCapacity(Fdo) ClassReadDriveCapacity(Fdo) #endif #if defined(_X86_) || defined(_AMD64_) NTSTATUS DiskSaveDetectInfo( PDRIVER_OBJECT DriverObject ); VOID DiskCleanupDetectInfo( IN PDRIVER_OBJECT DriverObject ); VOID DiskDriverReinitialization ( IN PDRIVER_OBJECT DriverObject, IN PVOID Nothing, IN ULONG Count ); #endif #if defined(_X86_) || defined(_AMD64_) NTSTATUS DiskGetDetectInfo( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension, OUT PDISK_DETECTION_INFO DetectInfo ); NTSTATUS DiskReadSignature( IN PDEVICE_OBJECT Fdo ); BOOLEAN DiskIsNT4Geometry( IN PFUNCTIONAL_DEVICE_EXTENSION FdoExtension ); #else #define DiskGetDetectInfo(FdoExtension, DetectInfo) (STATUS_UNSUCCESSFUL) #endif #define DiskHashGuid(Guid) (((PULONG) &Guid)[0] ^ ((PULONG) &Guid)[0] ^ ((PULONG) &Guid)[0] ^ ((PULONG) &Guid)[0]) NTSTATUS DiskDetermineMediaTypes( IN PDEVICE_OBJECT Fdo, IN PIRP Irp, IN UCHAR MediumType, IN UCHAR DensityCode, IN BOOLEAN MediaPresent, IN BOOLEAN IsWritable ); NTSTATUS DiskIoctlGetLengthInfo( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ); NTSTATUS DiskIoctlGetDriveGeometry( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlGetDriveGeometryEx( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ); NTSTATUS DiskIoctlGetCacheInformation( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlSetCacheInformation( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlGetMediaTypesEx( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlPredictFailure( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlEnableFailurePrediction( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlVerify( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlReassignBlocks( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlReassignBlocksEx( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlIsWritable( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlSetVerify( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlClearVerify( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlUpdateDriveSize( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlGetVolumeDiskExtents( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlSmartGetVersion( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlSmartReceiveDriveData( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); NTSTATUS DiskIoctlSmartSendDriveCommand( IN PDEVICE_OBJECT DeviceObject, IN OUT PIRP Irp ); __inline PCDB GetSrbScsiData( _In_ PSTORAGE_REQUEST_BLOCK SrbEx, _In_opt_ PUCHAR CdbLength8, _In_opt_ PULONG CdbLength32, _In_opt_ PUCHAR ScsiStatus, _In_opt_ PVOID *SenseInfoBuffer, _In_opt_ PUCHAR SenseInfoBufferLength ) /*++ Routine Description: Helper function to retrieve SCSI related fields from an extended SRB. If SRB is not a SRB_FUNCTION_EXECUTE_SCSI or not an extended SRB, default values will be returned. Arguments: SrbEx - Pointer to extended SRB. CdbLength8 - Pointer to buffer to hold CdbLength field value for SRBEX_DATA_SCSI_CDB16 or SRBEX_DATA_SCSI_CDB32 CdbLength32 - Pointer to buffer to hold CdbLength field value for SRBEX_DATA_SCSI_CDB_VAR ScsiStatus - Pointer to buffer to hold ScsiStatus field value. SenseInfoBuffer - Pointer to buffer to hold SenseInfoBuffer value. SenseInfoBufferLength - Pointer to buffer to hold SenseInfoBufferLength value. Return Value: Pointer to Cdb field or NULL if SRB is not a SRB_FUNCTION_EXECUTE_SCSI. --*/ { PCDB Cdb = NULL; ULONG i; PSRBEX_DATA SrbExData = NULL; BOOLEAN FoundEntry = FALSE; if ((SrbEx->Function == SRB_FUNCTION_STORAGE_REQUEST_BLOCK) && (SrbEx->SrbFunction == SRB_FUNCTION_EXECUTE_SCSI)) { NT_ASSERT(SrbEx->NumSrbExData > 0); for (i = 0; i < SrbEx->NumSrbExData; i++) { // Skip any invalid offsets if ((SrbEx->SrbExDataOffset[i] < sizeof(STORAGE_REQUEST_BLOCK)) || (SrbEx->SrbExDataOffset[i] > SrbEx->SrbLength)){ // Catch any invalid offsets NT_ASSERT(FALSE); continue; } SrbExData = (PSRBEX_DATA)((PUCHAR)SrbEx + SrbEx->SrbExDataOffset[i]); switch (SrbExData->Type) { case SrbExDataTypeScsiCdb16: if (SrbEx->SrbExDataOffset[i] + sizeof(SRBEX_DATA_SCSI_CDB16) <= SrbEx->SrbLength) { FoundEntry = TRUE; if (CdbLength8) { *CdbLength8 = ((PSRBEX_DATA_SCSI_CDB16) SrbExData)->CdbLength; } if (((PSRBEX_DATA_SCSI_CDB16) SrbExData)->CdbLength > 0) { Cdb = (PCDB)((PSRBEX_DATA_SCSI_CDB16) SrbExData)->Cdb; } if (ScsiStatus) { *ScsiStatus = ((PSRBEX_DATA_SCSI_CDB16) SrbExData)->ScsiStatus; } if (SenseInfoBuffer) { *SenseInfoBuffer = ((PSRBEX_DATA_SCSI_CDB16) SrbExData)->SenseInfoBuffer; } if (SenseInfoBufferLength) { *SenseInfoBufferLength = ((PSRBEX_DATA_SCSI_CDB16) SrbExData)->SenseInfoBufferLength; } } else { // Catch invalid offset NT_ASSERT(FALSE); } break; case SrbExDataTypeScsiCdb32: if (SrbEx->SrbExDataOffset[i] + sizeof(SRBEX_DATA_SCSI_CDB32) <= SrbEx->SrbLength) { FoundEntry = TRUE; if (CdbLength8) { *CdbLength8 = ((PSRBEX_DATA_SCSI_CDB32) SrbExData)->CdbLength; } if (((PSRBEX_DATA_SCSI_CDB32) SrbExData)->CdbLength > 0) { Cdb = (PCDB)((PSRBEX_DATA_SCSI_CDB32) SrbExData)->Cdb; } if (ScsiStatus) { *ScsiStatus = ((PSRBEX_DATA_SCSI_CDB32) SrbExData)->ScsiStatus; } if (SenseInfoBuffer) { *SenseInfoBuffer = ((PSRBEX_DATA_SCSI_CDB32) SrbExData)->SenseInfoBuffer; } if (SenseInfoBufferLength) { *SenseInfoBufferLength = ((PSRBEX_DATA_SCSI_CDB32) SrbExData)->SenseInfoBufferLength; } } else { // Catch invalid offset NT_ASSERT(FALSE); } break; case SrbExDataTypeScsiCdbVar: if (SrbEx->SrbExDataOffset[i] + sizeof(SRBEX_DATA_SCSI_CDB_VAR) <= SrbEx->SrbLength) { FoundEntry = TRUE; if (CdbLength32) { *CdbLength32 = ((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->CdbLength; } if (((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->CdbLength > 0) { Cdb = (PCDB)((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->Cdb; } if (ScsiStatus) { *ScsiStatus = ((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->ScsiStatus; } if (SenseInfoBuffer) { *SenseInfoBuffer = ((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->SenseInfoBuffer; } if (SenseInfoBufferLength) { *SenseInfoBufferLength = ((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->SenseInfoBufferLength; } } else { // Catch invalid offset NT_ASSERT(FALSE); } break; } if (FoundEntry) { break; } } } else { if (CdbLength8) { *CdbLength8 = 0; } if (CdbLength32) { *CdbLength32 = 0; } if (ScsiStatus) { *ScsiStatus = 0; } if (SenseInfoBuffer) { *SenseInfoBuffer = NULL; } if (SenseInfoBufferLength) { *SenseInfoBufferLength = 0; } } return Cdb; } __inline VOID SetSrbScsiData( _In_ PSTORAGE_REQUEST_BLOCK SrbEx, _In_ UCHAR CdbLength8, _In_ ULONG CdbLength32, _In_ UCHAR ScsiStatus, _In_opt_ PVOID SenseInfoBuffer, _In_ UCHAR SenseInfoBufferLength ) /*++ Routine Description: Helper function to set SCSI related fields from an extended SRB. If SRB is not a SRB_FUNCTION_EXECUTE_SCSI or not an extended SRB, no modifications will be made Arguments: SrbEx - Pointer to extended SRB. CdbLength8 - CdbLength field value for SRBEX_DATA_SCSI_CDB16 or SRBEX_DATA_SCSI_CDB32 CdbLength32 - CdbLength field value for SRBEX_DATA_SCSI_CDB_VAR ScsiStatus - ScsiStatus field value. SenseInfoBuffer - SenseInfoBuffer value. SenseInfoBufferLength - SenseInfoBufferLength value. Return Value: None --*/ { ULONG i; PSRBEX_DATA SrbExData = NULL; BOOLEAN FoundEntry = FALSE; if ((SrbEx->Function == SRB_FUNCTION_STORAGE_REQUEST_BLOCK) && (SrbEx->SrbFunction == SRB_FUNCTION_EXECUTE_SCSI)) { NT_ASSERT(SrbEx->NumSrbExData > 0); for (i = 0; i < SrbEx->NumSrbExData; i++) { // Skip any invalid offsets if ((SrbEx->SrbExDataOffset[i] < sizeof(STORAGE_REQUEST_BLOCK)) || (SrbEx->SrbExDataOffset[i] > SrbEx->SrbLength)){ // Catch any invalid offsets NT_ASSERT(FALSE); continue; } SrbExData = (PSRBEX_DATA)((PUCHAR)SrbEx + SrbEx->SrbExDataOffset[i]); switch (SrbExData->Type) { case SrbExDataTypeScsiCdb16: if (SrbEx->SrbExDataOffset[i] + sizeof(SRBEX_DATA_SCSI_CDB16) <= SrbEx->SrbLength) { FoundEntry = TRUE; ((PSRBEX_DATA_SCSI_CDB16) SrbExData)->CdbLength = CdbLength8; ((PSRBEX_DATA_SCSI_CDB16) SrbExData)->ScsiStatus = ScsiStatus; ((PSRBEX_DATA_SCSI_CDB16) SrbExData)->SenseInfoBuffer = SenseInfoBuffer; ((PSRBEX_DATA_SCSI_CDB16) SrbExData)->SenseInfoBufferLength = SenseInfoBufferLength; } else { // Catch invalid offset NT_ASSERT(FALSE); } break; case SrbExDataTypeScsiCdb32: if (SrbEx->SrbExDataOffset[i] + sizeof(SRBEX_DATA_SCSI_CDB32) <= SrbEx->SrbLength) { FoundEntry = TRUE; ((PSRBEX_DATA_SCSI_CDB32) SrbExData)->CdbLength = CdbLength8; ((PSRBEX_DATA_SCSI_CDB32) SrbExData)->ScsiStatus = ScsiStatus; ((PSRBEX_DATA_SCSI_CDB32) SrbExData)->SenseInfoBuffer = SenseInfoBuffer; ((PSRBEX_DATA_SCSI_CDB32) SrbExData)->SenseInfoBufferLength = SenseInfoBufferLength; } else { // Catch invalid offset NT_ASSERT(FALSE); } break; case SrbExDataTypeScsiCdbVar: if (SrbEx->SrbExDataOffset[i] + sizeof(SRBEX_DATA_SCSI_CDB_VAR) <= SrbEx->SrbLength) { FoundEntry = TRUE; ((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->CdbLength = CdbLength32; ((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->ScsiStatus = ScsiStatus; ((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->SenseInfoBuffer = SenseInfoBuffer; ((PSRBEX_DATA_SCSI_CDB_VAR) SrbExData)->SenseInfoBufferLength = SenseInfoBufferLength; } else { // Catch invalid offset NT_ASSERT(FALSE); } break; } if (FoundEntry) { break; } } } return; }
Our Services
-
What our customers say about us?
Read our customer testimonials to find out why our clients keep returning for their projects.
View Testimonials