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731 lines
24 KiB
731 lines
24 KiB
/*++
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Copyright (c) 1994 Microsoft Corporation
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Module Name:
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RxContx.h
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Abstract:
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This module defines RxContext data structure. This structure is used to
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describe an Irp whil it is being processed and contains state information
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that allows global resources to be released as the irp is completed.
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Author:
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Joe Linn [JoeLinn] 19-aug-1994
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Revision History:
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Balan Sethu Raman [SethuR] 11-4-95
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Notes:
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The RX_CONTEXT is a data structure to which additional information provided
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by the various mini redirectors need to be attached. This can be done in one
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of the following three ways
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1) Allow for context pointers to be defined as part of the RX_CONTEXT which
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the mini redirectors can use to squirrel away their information. This
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implies that every time an RX_CONTEXT is allocated/destroyed the mini
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redirector has to perform an associated allocation/destruction.
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Since RX_CONTEXT's are created/destroyed in great numbers, this is not an
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acceptable solution.
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2) The second approach consists of over allocating RX_CONTEXT's by a
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prespecified amount for each mini redirector which is then reserved for
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use by the mini redirector. Such an approach avoids the additional
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allocation/destruction but complicates the RX_CONTEXT management code in
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the wrapper.
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3) The third approach ( the one that is implemented ) consists of allocating
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a prespecfied area which is the same for all mini redirectors as part of
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each RX_CONTEXT. This is an unformatted area on top of which any desired
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structure can be imposed by the various mini redirectors. Such an approach
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overcomes the disadvantages associated with (1) and (2).
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All mini redirector writers must try and define the associated mini redirector
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contexts to fit into this area. Those mini redirectors who violate this
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rule will incur a significant performance penalty.
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--*/
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#ifndef _RX_CONTEXT_STRUCT_DEFINED_
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#define _RX_CONTEXT_STRUCT_DEFINED_
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#ifndef RDBSS_TRACKER
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#error tracker must be defined right now
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#endif
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#define RX_TOPLEVELIRP_CONTEXT_SIGNATURE ('LTxR')
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typedef struct _RX_TOPLEVELIRP_CONTEXT {
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union {
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#ifndef __cplusplus
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LIST_ENTRY;
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#endif // __cplusplus
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LIST_ENTRY ListEntry;
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};
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ULONG Signature;
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PRDBSS_DEVICE_OBJECT RxDeviceObject;
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PRX_CONTEXT RxContext;
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PIRP Irp;
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ULONG Flags;
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PVOID Previous;
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PETHREAD Thread;
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} RX_TOPLEVELIRP_CONTEXT, *PRX_TOPLEVELIRP_CONTEXT;
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BOOLEAN
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RxTryToBecomeTheTopLevelIrp (
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IN OUT PRX_TOPLEVELIRP_CONTEXT TopLevelContext,
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IN PIRP Irp,
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IN PRDBSS_DEVICE_OBJECT RxDeviceObject,
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IN BOOLEAN ForceTopLevel
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);
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VOID
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__RxInitializeTopLevelIrpContext (
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IN OUT PRX_TOPLEVELIRP_CONTEXT TopLevelContext,
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IN PIRP Irp,
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IN PRDBSS_DEVICE_OBJECT RxDeviceObject,
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IN ULONG Flags
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);
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#define RxInitializeTopLevelIrpContext(a,b,c) {__RxInitializeTopLevelIrpContext(a,b,c,0);}
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PIRP
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RxGetTopIrpIfRdbssIrp (
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void
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);
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PRDBSS_DEVICE_OBJECT
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RxGetTopDeviceObjectIfRdbssIrp (
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void
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);
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VOID
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RxUnwindTopLevelIrp (
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IN OUT PRX_TOPLEVELIRP_CONTEXT TopLevelContext
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);
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BOOLEAN
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RxIsThisTheTopLevelIrp (
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IN PIRP Irp
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);
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#ifdef RDBSS_TRACKER
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typedef struct _RX_FCBTRACKER_CALLINFO {
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ULONG AcquireRelease;
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USHORT SavedTrackerValue;
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USHORT LineNumber;
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PSZ FileName;
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ULONG Flags;
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} RX_FCBTRACKER_CALLINFO, *PRX_FCBTRACKER_CALLINFO;
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#define RDBSS_TRACKER_HISTORY_SIZE 32
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#endif
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#define MRX_CONTEXT_FIELD_COUNT 4
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#define MRX_CONTEXT_SIZE (sizeof(PVOID) * MRX_CONTEXT_FIELD_COUNT)
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// Define rxdriver dispatch routine type....almost all of the important routine
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// will have this type.
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typedef
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NTSTATUS
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(NTAPI *PRX_DISPATCH) ( RXCOMMON_SIGNATURE );
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typedef struct _NT_CREATE_PARAMETERS {
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ACCESS_MASK DesiredAccess;
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LARGE_INTEGER AllocationSize;
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ULONG FileAttributes;
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ULONG ShareAccess;
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ULONG Disposition;
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ULONG CreateOptions;
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PIO_SECURITY_CONTEXT SecurityContext;
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SECURITY_IMPERSONATION_LEVEL ImpersonationLevel;
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PVOID DfsContext;
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PVOID DfsNameContext;
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} NT_CREATE_PARAMETERS, *PNT_CREATE_PARAMETERS;
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typedef struct _RX_CONTEXT {
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// the node type, size and reference count, aka standard header
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NODE_TYPE_CODE NodeTypeCode;
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NODE_BYTE_SIZE NodeByteSize;
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ULONG ReferenceCount;
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// the list entry to wire the context to the list of active contexts
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LIST_ENTRY ContextListEntry;
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// Major and minor function of the IRP associated with the context
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UCHAR MajorFunction;
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UCHAR MinorFunction;
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// this is similar to the same field in Irps; it
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// allows callback routines for async operations
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// to know whether to do asynchronous work or not
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BOOLEAN PendingReturned;
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// indicates if the associated request is to be posted to a RDBSS worker thread.
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BOOLEAN PostRequest;
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// Originating Device (required for workque algorithms)
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// not currently used but could be used for local minis
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PDEVICE_OBJECT RealDevice;
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// ptr to the originating Irp
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PIRP CurrentIrp;
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// ptr to the IRP stack location
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PIO_STACK_LOCATION CurrentIrpSp;
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// ptr to the FCB and FOBX, derived from the context pointers in the
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// file object associated with the IRP
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PMRX_FCB pFcb;
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PMRX_FOBX pFobx;
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PMRX_SRV_OPEN pRelevantSrvOpen;
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PNON_PAGED_FCB NonPagedFcb;
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// device object calldown (not irpsp.....)
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PRDBSS_DEVICE_OBJECT RxDeviceObject;
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// The original thread in which the request was initiated and the last
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// thread in which some processing associated with the context was done
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PETHREAD OriginalThread;
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PETHREAD LastExecutionThread;
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PVOID LockManagerContext;
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// One word of the context is given to rdbss for dbg information
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PVOID RdbssDbgExtension;
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RX_SCAVENGER_ENTRY ScavengerEntry;
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// global serial number for this operation
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ULONG SerialNumber;
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// used by minirdrs to see if multiple calls are part
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// of the same larger operation and (therefore) more cacheable
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ULONG FobxSerialNumber;
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ULONG Flags;
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BOOLEAN FcbResourceAcquired;
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BOOLEAN FcbPagingIoResourceAcquired;
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UCHAR MustSucceedDescriptorNumber;
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// mostly you want the individual components...sometimes it's nice as a pair
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// used to record the status when you can't just return it; e.g., when
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// RXSTATUS is not an appropriate return type or if the consumer of the
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// status didn't call directly (lowiocompletions). minirdrs will not need
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// to set the information directly
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union {
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struct {
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union {
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NTSTATUS StoredStatus;
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PVOID StoredStatusAlignment;
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};
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ULONG_PTR InformationToReturn;
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};
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IO_STATUS_BLOCK IoStatusBlock;
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};
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// the context fields provided for use by the mini redirectors
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// this is defined as a union to force longlong alignment
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union {
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ULONGLONG ForceLonglongAligmentDummyField;
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PVOID MRxContext[MRX_CONTEXT_FIELD_COUNT];
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};
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// The following field is included to fix the problem related to write only
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// opens. This introduces a new field for the mini redirector to squirrel
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// some state. This is redundant and should be removed after Windows 2000.
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// Having a unique field reduces the impact of the change that we are making
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// to the specific code path. It will be ideal to use one of the MRXContext
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// fields defined above
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PVOID WriteOnlyOpenRetryContext;
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// the cancellation routine to be invoked, set by the mini redirector
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PMRX_CALLDOWN MRxCancelRoutine;
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// private dispatch, if any. used in fspdisp
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PRX_DISPATCH ResumeRoutine;
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// for posting to worker threads
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// the minirdr can use this for posting within the minirdr
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// a potential problem can arise if the minirdr relies on this both
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// for queueing async stuff and for queueing cancel stuff
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// The OverflowListEntry is used for queueing items to the overflow queue.
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// This is seperate now to allow us to distinguish between an item in the overflow
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// queue and one in the active work queue (for cancellation logic)
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RX_WORK_QUEUE_ITEM WorkQueueItem;
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LIST_ENTRY OverflowListEntry;
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// this event is used for synchronous operations
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// that have to i/f with an underlying async service. it can be used
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// by the minirdr with the following provisions:
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// 1) on entering the minirdr through lowio, it is set to the
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// nonsignaled state (but a wise user will reset it before using
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// it....particularly if it's used multiple times.
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// 2) if you are returning STATUS_PENDING on a sync operation, you must
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// return with it set to the nonsignaled state; that is, either
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// you don't use it or you reset it in this case
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KEVENT SyncEvent;
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//this is a list head of operations that are to be released on completion
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LIST_ENTRY BlockedOperations;
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//this is the mutex that controls serialization of the blocked operations
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PFAST_MUTEX BlockedOpsMutex;
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// these links are used to serialize pipe operations on a
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//per-file-object basis AND FOR LOTS OF OTHER STUFF
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LIST_ENTRY RxContextSerializationQLinks;
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union {
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struct {
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union {
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FS_INFORMATION_CLASS FsInformationClass;
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FILE_INFORMATION_CLASS FileInformationClass;
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};
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PVOID Buffer;
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union {
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LONG Length;
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LONG LengthRemaining;
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};
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BOOLEAN ReplaceIfExists;
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BOOLEAN AdvanceOnly;
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} Info;
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struct {
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UNICODE_STRING SuppliedPathName;
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NET_ROOT_TYPE NetRootType;
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PIO_SECURITY_CONTEXT pSecurityContext;
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} PrefixClaim;
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};
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// THIS UNION MUST BE LAST....AT SOME POINT, WE MAY START ALLOCATING
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// SMALLER PER OPERATION!
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union{
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struct {
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NT_CREATE_PARAMETERS NtCreateParameters; // a copy of the createparameters
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ULONG ReturnedCreateInformation;
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PWCH CanonicalNameBuffer; // if the canonical name is larger than available buffer
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PRX_PREFIX_ENTRY NetNamePrefixEntry; // the entry returned by the lookup....for dereferencing
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PMRX_SRV_CALL pSrvCall; // Server Call being used
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PMRX_NET_ROOT pNetRoot; // Net Root being used
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PMRX_V_NET_ROOT pVNetRoot; // Virtual Net Root
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//PMRX_SRV_OPEN pSrvOpen; // Server Open
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PVOID EaBuffer;
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ULONG EaLength;
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ULONG SdLength;
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ULONG PipeType;
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ULONG PipeReadMode;
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ULONG PipeCompletionMode;
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USHORT Flags;
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NET_ROOT_TYPE Type; // Type of Net Root(Pipe/File/Mailslot..)
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BOOLEAN FcbAcquired;
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BOOLEAN TryForScavengingOnSharingViolation;
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BOOLEAN ScavengingAlreadyTried;
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BOOLEAN ThisIsATreeConnectOpen;
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BOOLEAN TreeConnectOpenDeferred;
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UNICODE_STRING TransportName;
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UNICODE_STRING UserName;
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UNICODE_STRING Password;
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UNICODE_STRING UserDomainName;
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} Create;
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struct {
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ULONG FileIndex;
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BOOLEAN RestartScan;
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BOOLEAN ReturnSingleEntry;
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BOOLEAN IndexSpecified;
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BOOLEAN InitialQuery;
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} QueryDirectory;
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struct {
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PMRX_V_NET_ROOT pVNetRoot;
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} NotifyChangeDirectory;
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struct {
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PUCHAR UserEaList;
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ULONG UserEaListLength;
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ULONG UserEaIndex;
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BOOLEAN RestartScan;
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BOOLEAN ReturnSingleEntry;
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BOOLEAN IndexSpecified;
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} QueryEa;
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struct {
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SECURITY_INFORMATION SecurityInformation;
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ULONG Length;
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} QuerySecurity;
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struct {
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SECURITY_INFORMATION SecurityInformation;
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PSECURITY_DESCRIPTOR SecurityDescriptor;
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} SetSecurity;
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struct {
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ULONG Length;
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PSID StartSid;
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PFILE_GET_QUOTA_INFORMATION SidList;
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ULONG SidListLength;
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BOOLEAN RestartScan;
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BOOLEAN ReturnSingleEntry;
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BOOLEAN IndexSpecified;
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} QueryQuota;
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struct {
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ULONG Length;
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} SetQuota;
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struct {
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PV_NET_ROOT VNetRoot;
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PSRV_CALL SrvCall;
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PNET_ROOT NetRoot;
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} DosVolumeFunction;
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struct {
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ULONG FlagsForLowIo;
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LOWIO_CONTEXT LowIoContext; // the LOWIO parameters
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}; //no name here....
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LUID FsdUid;
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} ;
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//CODE.IMPROVEMENT remove this to wrapperdbgprivates
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PWCH AlsoCanonicalNameBuffer; // if the canonical name is larger than available buffer
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PUNICODE_STRING LoudCompletionString;
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#ifdef RDBSS_TRACKER
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LONG AcquireReleaseFcbTrackerX;
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ULONG TrackerHistoryPointer;
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#endif
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#ifdef RDBSS_TRACKER
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RX_FCBTRACKER_CALLINFO TrackerHistory[RDBSS_TRACKER_HISTORY_SIZE];
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#endif
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ULONG dwShadowCritOwner;
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} RX_CONTEXT;
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#define RX_DEFINE_RXC_FLAG(a,c) RX_DEFINE_FLAG(RX_CONTEXT_FLAG_##a,c,0xffffffff)
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typedef enum {
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RX_DEFINE_RXC_FLAG(FROM_POOL, 0)
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RX_DEFINE_RXC_FLAG(WAIT, 1)
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RX_DEFINE_RXC_FLAG(WRITE_THROUGH, 2)
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RX_DEFINE_RXC_FLAG(FLOPPY, 3)
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RX_DEFINE_RXC_FLAG(RECURSIVE_CALL, 4)
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RX_DEFINE_RXC_FLAG(THIS_DEVICE_TOP_LEVEL, 5)
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RX_DEFINE_RXC_FLAG(DEFERRED_WRITE, 6)
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RX_DEFINE_RXC_FLAG(VERIFY_READ, 7)
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RX_DEFINE_RXC_FLAG(STACK_IO_CONTEZT, 8)
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RX_DEFINE_RXC_FLAG(IN_FSP, 9)
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RX_DEFINE_RXC_FLAG(CREATE_MAILSLOT, 10)
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RX_DEFINE_RXC_FLAG(MAILSLOT_REPARSE, 11)
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RX_DEFINE_RXC_FLAG(ASYNC_OPERATION, 12)
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RX_DEFINE_RXC_FLAG(NO_COMPLETE_FROM_FSP, 13)
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RX_DEFINE_RXC_FLAG(POST_ON_STABLE_CONDITION, 14)
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RX_DEFINE_RXC_FLAG(FSP_DELAYED_OVERFLOW_QUEUE, 15)
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RX_DEFINE_RXC_FLAG(FSP_CRITICAL_OVERFLOW_QUEUE, 16)
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RX_DEFINE_RXC_FLAG(MINIRDR_INVOKED, 17)
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RX_DEFINE_RXC_FLAG(WAITING_FOR_RESOURCE, 18)
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RX_DEFINE_RXC_FLAG(CANCELLED, 19)
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RX_DEFINE_RXC_FLAG(SYNC_EVENT_WAITERS, 20)
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RX_DEFINE_RXC_FLAG(NO_PREPOSTING_NEEDED, 21)
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RX_DEFINE_RXC_FLAG(BYPASS_VALIDOP_CHECK, 22)
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RX_DEFINE_RXC_FLAG(BLOCKED_PIPE_RESUME, 23)
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RX_DEFINE_RXC_FLAG(IN_SERIALIZATION_QUEUE, 24)
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RX_DEFINE_RXC_FLAG(NO_EXCEPTION_BREAKPOINT, 25)
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RX_DEFINE_RXC_FLAG(NEEDRECONNECT, 26)
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RX_DEFINE_RXC_FLAG(MUST_SUCCEED, 27)
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RX_DEFINE_RXC_FLAG(MUST_SUCCEED_NONBLOCKING, 28)
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RX_DEFINE_RXC_FLAG(MUST_SUCCEED_ALLOCATED, 29)
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RX_DEFINE_RXC_FLAG(MINIRDR_INITIATED, 31)
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} RX_CONTEXT_FLAGS;
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#define RX_CONTEXT_PRESERVED_FLAGS (RX_CONTEXT_FLAG_FROM_POOL | \
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RX_CONTEXT_FLAG_MUST_SUCCEED_ALLOCATED | \
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RX_CONTEXT_FLAG_IN_FSP)
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#define RX_CONTEXT_INITIALIZATION_FLAGS (RX_CONTEXT_FLAG_WAIT | \
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RX_CONTEXT_FLAG_MUST_SUCCEED | \
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RX_CONTEXT_FLAG_MUST_SUCCEED_NONBLOCKING)
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#define RX_DEFINE_RXC_CREATE_FLAG(a,c) RX_DEFINE_FLAG(RX_CONTEXT_CREATE_FLAG_##a,c,0xffff)
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typedef enum {
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RX_DEFINE_RXC_CREATE_FLAG(UNC_NAME, 0)
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RX_DEFINE_RXC_CREATE_FLAG(STRIPPED_TRAILING_BACKSLASH, 1)
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RX_DEFINE_RXC_CREATE_FLAG(ADDEDBACKSLASH, 2)
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RX_DEFINE_RXC_CREATE_FLAG(REPARSE,3)
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RX_DEFINE_RXC_CREATE_FLAG(SPECIAL_PATH, 4)
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} RX_CONTEXT_CREATE_FLAGS;
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#define RX_DEFINE_RXC_LOWIO_FLAG(a,c) RX_DEFINE_FLAG(RXCONTEXT_FLAG4LOWIO_##a,c,0xffffffff)
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typedef enum {
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RX_DEFINE_RXC_LOWIO_FLAG(PIPE_OPERATION, 0)
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RX_DEFINE_RXC_LOWIO_FLAG(PIPE_SYNC_OPERATION, 1)
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RX_DEFINE_RXC_LOWIO_FLAG(READAHEAD, 2)
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RX_DEFINE_RXC_LOWIO_FLAG(THIS_READ_ENLARGED, 3)
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RX_DEFINE_RXC_LOWIO_FLAG(THIS_IO_BUFFERED, 4)
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RX_DEFINE_RXC_LOWIO_FLAG(LOCK_FCB_RESOURCE_HELD, 5)
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RX_DEFINE_RXC_LOWIO_FLAG(LOCK_WAS_QUEUED_IN_LOCKMANAGER, 6)
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#ifdef __cplusplus
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} RX_CONTEXT_LOWIO_FLAGS;
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#else // !__cplusplus
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} RX_CONTEXT_CREATE_FLAGS;
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#endif // __cplusplus
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// Macros used to control whether the wrapper breakpoints on an exception
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#if DBG
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#define RxSaveAndSetExceptionNoBreakpointFlag(RXCONTEXT,_yyy){ \
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_yyy = RxContext->Flags & RX_CONTEXT_FLAG_NO_EXCEPTION_BREAKPOINT; \
|
|
RxContext->Flags |= RX_CONTEXT_FLAG_NO_EXCEPTION_BREAKPOINT; \
|
|
}
|
|
#define RxRestoreExceptionNoBreakpointFlag(RXCONTEXT,_yyy){ \
|
|
RxContext->Flags &= ~RX_CONTEXT_FLAG_NO_EXCEPTION_BREAKPOINT; \
|
|
RxContext->Flags |= _yyy; \
|
|
}
|
|
#else
|
|
#define RxSaveAndSetExceptionNoBreakpointFlag(_xxx,_yyy)
|
|
#define RxRestoreExceptionNoBreakpointFlag(_xxx,_yyy)
|
|
#endif
|
|
|
|
// a macro used to ensure that a context hasn't been freed during a wait
|
|
#if DBG
|
|
VOID
|
|
__RxItsTheSameContext(
|
|
PRX_CONTEXT RxContext,
|
|
ULONG CapturedRxContextSerialNumber,
|
|
ULONG Line,
|
|
PSZ File
|
|
);
|
|
#define RxItsTheSameContext() {__RxItsTheSameContext(RxContext,CapturedRxContextSerialNumber,__LINE__,__FILE__);}
|
|
#else
|
|
#define RxItsTheSameContext() {NOTHING;}
|
|
#endif
|
|
|
|
extern NPAGED_LOOKASIDE_LIST RxContextLookasideList;
|
|
|
|
// Macros used in the RDBSS to wrap mini rdr calldowns
|
|
|
|
#define MINIRDR_CALL_THROUGH(STATUS,DISPATCH,FUNC,ARGLIST) \
|
|
{ \
|
|
ASSERT(DISPATCH); \
|
|
ASSERT( NodeType(DISPATCH) == RDBSS_NTC_MINIRDR_DISPATCH ); \
|
|
if (DISPATCH->FUNC == NULL) { \
|
|
STATUS = STATUS_NOT_IMPLEMENTED; \
|
|
} else { \
|
|
RxDbgTrace(0, Dbg, ("MiniRdr Calldown - %s\n",#FUNC)); \
|
|
STATUS = DISPATCH->FUNC ARGLIST; \
|
|
} \
|
|
}
|
|
|
|
#define MINIRDR_CALL(STATUS,CONTEXT,DISPATCH,FUNC,ARGLIST) \
|
|
{ \
|
|
ASSERT(DISPATCH); \
|
|
ASSERT( NodeType(DISPATCH) == RDBSS_NTC_MINIRDR_DISPATCH ); \
|
|
if ( DISPATCH->FUNC == NULL) { \
|
|
STATUS = STATUS_NOT_IMPLEMENTED; \
|
|
} else { \
|
|
if (!BooleanFlagOn((CONTEXT)->Flags,RX_CONTEXT_FLAG_CANCELLED)) { \
|
|
RxDbgTrace(0, Dbg, ("MiniRdr Calldown - %s\n",#FUNC)); \
|
|
RtlZeroMemory(&((CONTEXT)->MRxContext[0]), \
|
|
sizeof((CONTEXT)->MRxContext)); \
|
|
STATUS = DISPATCH->FUNC ARGLIST; \
|
|
} else { \
|
|
STATUS = STATUS_CANCELLED; \
|
|
} \
|
|
} \
|
|
}
|
|
|
|
|
|
//VOID
|
|
//RxWaitSync (
|
|
// IN PRX_CONTEXT RxContext
|
|
// )
|
|
|
|
#define RxWaitSync(RxContext) \
|
|
RxDbgTrace(+1, Dbg, ("RxWaitSync, RxContext = %08lx\n", (RxContext))); \
|
|
(RxContext)->Flags |= RX_CONTEXT_FLAG_SYNC_EVENT_WAITERS; \
|
|
KeWaitForSingleObject( &(RxContext)->SyncEvent, \
|
|
Executive, KernelMode, FALSE, NULL ); \
|
|
RxDbgTrace(-1, Dbg, ("RxWaitSync -> VOID\n", 0 ))
|
|
|
|
//VOID
|
|
//RxSignalSynchronousWaiter (
|
|
// IN PRX_CONTEXT RxContext
|
|
// )
|
|
|
|
#define RxSignalSynchronousWaiter(RxContext) \
|
|
(RxContext)->Flags &= ~RX_CONTEXT_FLAG_SYNC_EVENT_WAITERS; \
|
|
KeSetEvent( &(RxContext)->SyncEvent, 0, FALSE )
|
|
|
|
|
|
#define RxInsertContextInSerializationQueue(pSerializationQueue,RxContext) \
|
|
(RxContext)->Flags |= RX_CONTEXT_FLAG_IN_SERIALIZATION_QUEUE; \
|
|
InsertTailList(pSerializationQueue,&((RxContext)->RxContextSerializationQLinks))
|
|
|
|
INLINE PRX_CONTEXT
|
|
RxRemoveFirstContextFromSerializationQueue(PLIST_ENTRY pSerializationQueue)
|
|
{
|
|
if (IsListEmpty(pSerializationQueue)) {
|
|
return NULL;
|
|
} else {
|
|
PRX_CONTEXT pContext = (PRX_CONTEXT)(CONTAINING_RECORD(pSerializationQueue->Flink,
|
|
RX_CONTEXT,
|
|
RxContextSerializationQLinks));
|
|
|
|
RemoveEntryList(pSerializationQueue->Flink);
|
|
|
|
pContext->RxContextSerializationQLinks.Flink = NULL;
|
|
pContext->RxContextSerializationQLinks.Blink = NULL;
|
|
return pContext;
|
|
}
|
|
}
|
|
|
|
// The following macros provide a mechanism for doing an en masse transfer
|
|
// from one list onto another. This provides a powerful paradigm for dealing
|
|
// with DPC level processing of lists.
|
|
|
|
#define RxTransferList(pDestination,pSource) \
|
|
if (IsListEmpty((pSource))) { \
|
|
InitializeListHead((pDestination)); \
|
|
} else { \
|
|
*(pDestination) = *(pSource); \
|
|
(pDestination)->Flink->Blink = (pDestination); \
|
|
(pDestination)->Blink->Flink = (pDestination); \
|
|
InitializeListHead((pSource)); \
|
|
}
|
|
|
|
#define RxTransferListWithMutex(pDestination,pSource,pMutex) \
|
|
{ \
|
|
ExAcquireFastMutex(pMutex); \
|
|
RxTransferList(pDestination,pSource); \
|
|
ExReleaseFastMutex(pMutex); \
|
|
}
|
|
|
|
|
|
VOID RxInitializeRxContexter(void);
|
|
VOID RxUninitializeRxContexter(void);
|
|
|
|
NTSTATUS
|
|
RxCancelNotifyChangeDirectoryRequestsForVNetRoot(
|
|
PV_NET_ROOT pVNetRoot,
|
|
BOOLEAN ForceFilesClosed
|
|
);
|
|
|
|
VOID
|
|
RxCancelNotifyChangeDirectoryRequestsForFobx(
|
|
PFOBX pFobx);
|
|
|
|
NTSTATUS
|
|
NTAPI
|
|
RxSetMinirdrCancelRoutine(
|
|
IN OUT PRX_CONTEXT RxContext,
|
|
IN PMRX_CALLDOWN MRxCancelRoutine);
|
|
|
|
VOID
|
|
NTAPI
|
|
RxInitializeContext(
|
|
IN PIRP Irp,
|
|
IN PRDBSS_DEVICE_OBJECT RxDeviceObject,
|
|
IN ULONG InitialContextFlags,
|
|
IN OUT PRX_CONTEXT RxContext);
|
|
|
|
PRX_CONTEXT
|
|
NTAPI
|
|
RxCreateRxContext (
|
|
IN PIRP Irp,
|
|
IN PRDBSS_DEVICE_OBJECT RxDeviceObject,
|
|
IN ULONG InitialContextFlags
|
|
);
|
|
|
|
VOID
|
|
NTAPI
|
|
RxPrepareContextForReuse(
|
|
IN OUT PRX_CONTEXT RxContext);
|
|
|
|
VOID
|
|
NTAPI
|
|
RxDereferenceAndDeleteRxContext_Real (
|
|
IN PRX_CONTEXT RxContext
|
|
);
|
|
|
|
VOID
|
|
NTAPI
|
|
RxReinitializeContext(
|
|
IN OUT PRX_CONTEXT RxContext);
|
|
|
|
#if DBG
|
|
#define RxDereferenceAndDeleteRxContext(RXCONTEXT) { \
|
|
RxDereferenceAndDeleteRxContext_Real((RXCONTEXT)); \
|
|
(RXCONTEXT) = NULL; \
|
|
}
|
|
#else
|
|
#define RxDereferenceAndDeleteRxContext(RXCONTEXT) { \
|
|
RxDereferenceAndDeleteRxContext_Real((RXCONTEXT)); \
|
|
}
|
|
#endif //
|
|
|
|
extern FAST_MUTEX RxContextPerFileSerializationMutex;
|
|
|
|
NTSTATUS
|
|
NTAPI
|
|
__RxSynchronizeBlockingOperationsMaybeDroppingFcbLock(
|
|
IN OUT PRX_CONTEXT RxContext,
|
|
IN OUT PLIST_ENTRY BlockingIoQ,
|
|
IN BOOLEAN DropFcbLock
|
|
);
|
|
#define RxSynchronizeBlockingOperationsAndDropFcbLock(__x,__y) \
|
|
__RxSynchronizeBlockingOperationsMaybeDroppingFcbLock(__x,__y,TRUE)
|
|
#define RxSynchronizeBlockingOperations(__x,__y) \
|
|
__RxSynchronizeBlockingOperationsMaybeDroppingFcbLock(__x,__y,FALSE)
|
|
|
|
VOID
|
|
NTAPI
|
|
RxResumeBlockedOperations_Serially(
|
|
IN OUT PRX_CONTEXT RxContext,
|
|
IN OUT PLIST_ENTRY BlockingIoQ
|
|
);
|
|
|
|
VOID
|
|
RxResumeBlockedOperations_ALL(
|
|
IN OUT PRX_CONTEXT RxContext
|
|
);
|
|
|
|
|
|
VOID
|
|
RxCancelBlockingOperation(
|
|
IN OUT PRX_CONTEXT RxContext);
|
|
|
|
VOID
|
|
RxRemoveOperationFromBlockingQueue(
|
|
IN OUT PRX_CONTEXT RxContext);
|
|
|
|
|
|
#endif // _RX_CONTEXT_STRUCT_DEFINED_
|
|
|