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765 lines
20 KiB
765 lines
20 KiB
/*++
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Copyright (c) 1998-2001 Microsoft Corporation
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Module Name:
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opaqueid.cxx
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Abstract:
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This module implements the opaque ID table. The ID table is
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implemented as a two-level array.
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The first level is an array of pointers to the second-level arrays.
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This first-level array is not growable, but its size is controlled
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by a registry key.
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The second level is an array of ID_TABLE_ENTRY structures. These
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structures contain a cyclic (to detect stale IDs) and caller-supplied
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context value.
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The data structures may be diagrammed as follows:
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g_FirstLevelTable[i]
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| +-----+
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| | | +-----+-----+-----+----+...--+-----+-----+
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| | | | ID_ | ID_ | | ID_ |
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+-->| *-------->| TABLE_ | TABLE_ | | TABLE_ |
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| | | ENTRY | ENTRY | | ENTRY |
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| | +-----+-----+-----+----+--...+-----+-----+
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+-----+
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| | +-----+-----+-----+----+...--+-----+-----+
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| | | ID_ | ID_ | | ID_ |
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| *-------->| TABLE_ | TABLE_ | | TABLE_ |
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| | | ENTRY | ENTRY | | ENTRY |
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| | +-----+-----+-----+----+--...+-----+-----+
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+-----+
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| .
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| .
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. .
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. |
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. |
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+-----+
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| / |
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+-----+
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| / |
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+-----+
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Because the lock protecting the single, global table of opaque IDs
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turned out to be a major scalability bottleneck on SMP machines, we
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now maintain per-processor subtables of opaque IDs. In addition, each
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ID_TABLE_ENTRY itself has a small lock that protects the fields inside
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it. This means we usually don't need to take the per-table spinlock.
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The per-table lock is only used when we grow the second-level table,
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in which case we have to protect the first-level table index and its
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pointer to the new second-level table.
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Note that all free ID_TABLE_ENTRY structures are kept on a single
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(global) free list. Whenever a new ID needs to be allocated, the free
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list is consulted. If it's not empty, an item is popped from the list
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and used. If the list is empty, then new space must be allocated. This
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will involve the allocation of a new second-level array.
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A HTTP_OPAQUE_ID is opaque at user-mode. Internally, it consists of 5
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fields:
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1) A processor number the ID was allocated on. This tells which
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per-processor table to free the ID.
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2) An index into the first-level array.
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3) An index into the second-level array referenced by the
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first-level index.
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4) A cyclic for the ID, used to detect stale IDs.
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5) An opaque ID type, used to guard against misuse of opaque IDs.
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See the OPAQUE_ID_INTERNAL structure definition (opaqueidp.h) for details.
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Note that most of the routines in this module assume they are called
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at PASSIVE_LEVEL.
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Author:
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Keith Moore (keithmo) 05-Aug-1998
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Revision History:
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--*/
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#include "precomp.h"
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//
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// Private globals.
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//
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DECLSPEC_ALIGN(UL_CACHE_LINE)
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UL_ALIGNED_OPAQUE_ID_TABLE g_UlOpaqueIdTable[MAXIMUM_PROCESSORS];
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#ifdef OPAQUE_ID_INSTRUMENTATION
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LONGLONG g_NumberOfTotalGets = 0;
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LONGLONG g_NumberOfSuccessfulGets = 0;
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#endif
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#ifdef ALLOC_PRAGMA
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#pragma alloc_text( INIT, UlInitializeOpaqueIdTable )
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#pragma alloc_text( PAGE, UlTerminateOpaqueIdTable )
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#endif // ALLOC_PRAGMA
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#if 0
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NOT PAGEABLE -- UlAllocateOpaqueId
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NOT PAGEABLE -- UlFreeOpaqueId
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NOT PAGEABLE -- UlGetObjectFromOpaqueId
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#endif
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//
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// Public functions.
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//
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/***************************************************************************++
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Routine Description:
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Performs global initialization of the opaque ID package.
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Arguments:
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None
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Return Value:
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NTSTATUS - Completion status.
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--***************************************************************************/
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NTSTATUS
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UlInitializeOpaqueIdTable(
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VOID
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)
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{
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PUL_OPAQUE_ID_TABLE pOpaqueIdTable;
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LONG i;
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//
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// Allocate the first-level opaque ID table arrry.
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//
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for (i = 0; i < (LONG)g_UlNumberOfProcessors; i++)
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{
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pOpaqueIdTable = &g_UlOpaqueIdTable[i].OpaqueIdTable;
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RtlZeroMemory(
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pOpaqueIdTable,
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sizeof(UL_OPAQUE_ID_TABLE)
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);
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pOpaqueIdTable->FirstLevelTable = UL_ALLOCATE_ARRAY(
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NonPagedPool,
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PUL_OPAQUE_ID_TABLE_ENTRY,
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g_UlOpaqueIdTableSize,
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UL_OPAQUE_ID_TABLE_POOL_TAG
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);
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if (pOpaqueIdTable->FirstLevelTable != NULL)
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{
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//
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// Initialization.
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//
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InitializeSListHead( &pOpaqueIdTable->FreeOpaqueIdSListHead );
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UlInitializeSpinLock( &pOpaqueIdTable->Lock, "OpaqueIdTableLock" );
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pOpaqueIdTable->FirstLevelTableSize = g_UlOpaqueIdTableSize;
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pOpaqueIdTable->FirstLevelTableInUse = 0;
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pOpaqueIdTable->Processor = (UCHAR)i;
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//
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// Zero out the first-level table.
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//
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RtlZeroMemory(
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pOpaqueIdTable->FirstLevelTable,
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g_UlOpaqueIdTableSize * sizeof(PUL_OPAQUE_ID_TABLE_ENTRY)
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);
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}
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else
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{
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while (--i >= 0)
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{
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pOpaqueIdTable = &g_UlOpaqueIdTable[i].OpaqueIdTable;
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UL_FREE_POOL(
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pOpaqueIdTable->FirstLevelTable,
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UL_OPAQUE_ID_TABLE_POOL_TAG
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);
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}
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return STATUS_NO_MEMORY;
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}
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}
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return STATUS_SUCCESS;
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}
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/***************************************************************************++
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Routine Description:
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Performs global termination of the opaque ID package.
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Arguments:
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None
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Return Value:
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None
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--***************************************************************************/
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VOID
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UlTerminateOpaqueIdTable(
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VOID
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)
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{
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PUL_OPAQUE_ID_TABLE pOpaqueIdTable;
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ULONG i, j;
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for (i = 0; i < g_UlNumberOfProcessors; i++)
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{
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pOpaqueIdTable = &g_UlOpaqueIdTable[i].OpaqueIdTable;
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#ifdef OPAQUE_ID_INSTRUMENTATION
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ASSERT( pOpaqueIdTable->NumberOfAllocations ==
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pOpaqueIdTable->NumberOfFrees );
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#endif
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//
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// Free all allocated second-level tables.
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//
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for (j = 0; j < pOpaqueIdTable->FirstLevelTableInUse; j++)
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{
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ASSERT( pOpaqueIdTable->FirstLevelTable[j] != NULL );
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UL_FREE_POOL(
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pOpaqueIdTable->FirstLevelTable[j],
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UL_OPAQUE_ID_TABLE_POOL_TAG
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);
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}
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//
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// Free the first-level table.
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//
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if (pOpaqueIdTable->FirstLevelTable != NULL)
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{
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UL_FREE_POOL(
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pOpaqueIdTable->FirstLevelTable,
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UL_OPAQUE_ID_TABLE_POOL_TAG
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);
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}
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}
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}
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/***************************************************************************++
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Routine Description:
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Allocates a new opaque ID and associates it with the specified
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context. A new opaque ID takes a new slot in the opaque ID table.
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Arguments:
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pOpaqueId - Receives the newly allocated opaque ID if successful.
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OpaqueIdType - Supplies the opaque ID type to be associated with
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the opaque ID and associated object.
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pContext - Supplies the context to associate with the new opaque ID.
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Return Value:
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NTSTATUS - Completion status.
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--***************************************************************************/
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NTSTATUS
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UlAllocateOpaqueId(
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OUT PHTTP_OPAQUE_ID pOpaqueId,
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IN UL_OPAQUE_ID_TYPE OpaqueIdType,
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IN PVOID pContext
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)
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{
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PUL_OPAQUE_ID_TABLE pOpaqueIdTable;
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PUL_OPAQUE_ID_TABLE_ENTRY pEntry;
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PSINGLE_LIST_ENTRY pListEntry;
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PUL_OPAQUE_ID_INTERNAL pInternalId;
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ULONG CurrentProcessor;
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ULONG CapturedFirstTableInUse;
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NTSTATUS Status;
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KIRQL OldIrql;
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//
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// Allocate a new opaque ID from the current processor table. We need
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// a new entry for each ID.
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//
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CurrentProcessor = KeGetCurrentProcessorNumber();
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pOpaqueIdTable = &g_UlOpaqueIdTable[CurrentProcessor].OpaqueIdTable;
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//
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// Loop, trying to allocate an item from the table.
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//
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do
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{
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//
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// Remember the first-level table index if we need to expand later.
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//
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CapturedFirstTableInUse =
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*((volatile LONG *) &pOpaqueIdTable->FirstLevelTableInUse);
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pListEntry = InterlockedPopEntrySList(
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&pOpaqueIdTable->FreeOpaqueIdSListHead
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);
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if (pListEntry != NULL)
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{
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//
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// The free list isn't empty, so we can just use this
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// entry. We'll calculate the indices for this entry
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// and initialize the entry.
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//
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pEntry = CONTAINING_RECORD(
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pListEntry,
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UL_OPAQUE_ID_TABLE_ENTRY,
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FreeListEntry
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);
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pInternalId = (PUL_OPAQUE_ID_INTERNAL) pOpaqueId;
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UlpAcquireOpaqueIdLock( &pEntry->Lock, &OldIrql );
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//
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// Processor and FirstIndex are ready to use.
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//
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pInternalId->Index = pEntry->Index;
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//
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// Re-compute SecondIndex because its corresponding field has
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// been overwritten by Cyclic and OpaqueIdType when the entry
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// is in use.
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//
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pInternalId->SecondIndex =
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(pEntry - pOpaqueIdTable->FirstLevelTable[pEntry->FirstIndex]);
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//
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// Set the context associated with this entry.
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//
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pEntry->pContext = pContext;
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//
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// Update the cyclic and ID type of the entry.
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//
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pEntry->OpaqueIdCyclic = ++pEntry->EntryOpaqueIdCyclic;
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pEntry->OpaqueIdType = OpaqueIdType;
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pInternalId->Cyclic = pEntry->Cyclic;
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UlpReleaseOpaqueIdLock( &pEntry->Lock, OldIrql );
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#ifdef OPAQUE_ID_INSTRUMENTATION
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UlInterlockedIncrement64( &pOpaqueIdTable->NumberOfAllocations );
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#endif
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Status = STATUS_SUCCESS;
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break;
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}
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//
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// We only make it to this point if the free list is empty,
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// meaning we need to do some memory allocations before
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// we can continue. We'll put this off into a separate routine
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// to keep this one small (to avoid cache thrash). The realloc
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// routine returns STATUS_SUCCESS if it (or another thread)
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// managed to successfully reallocate the tables. Otherwise, it
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// returns a failure code.
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//
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Status = UlpExpandOpaqueIdTable(
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pOpaqueIdTable,
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CapturedFirstTableInUse
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);
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} while ( Status == STATUS_SUCCESS );
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return Status;
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}
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/***************************************************************************++
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Routine Description:
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Frees the specified opaque ID. This frees up the slot in the ID
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table as well.
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Arguments:
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OpaqueId - Supplies the opaque ID to free.
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OpaqueIdType - Supplies the opaque ID type associated with the opaque ID.
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Return Value:
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None
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--***************************************************************************/
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VOID
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UlFreeOpaqueId(
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IN HTTP_OPAQUE_ID OpaqueId,
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IN UL_OPAQUE_ID_TYPE OpaqueIdType
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)
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{
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PUL_OPAQUE_ID_TABLE pOpaqueIdTable;
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PUL_OPAQUE_ID_TABLE_ENTRY pEntry;
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ULONG Processor;
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ULONG FirstIndex;
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ULONG SecondIndex;
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BOOLEAN Result;
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KIRQL OldIrql;
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//
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// Obtain the global opaque ID table and the entry associated with the
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// opaque ID passed in.
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//
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Result = UlpExtractIndexFromOpaqueId(
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OpaqueId,
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&Processor,
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&FirstIndex,
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&SecondIndex
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);
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ASSERT( Result );
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pOpaqueIdTable = &g_UlOpaqueIdTable[Processor].OpaqueIdTable;
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pEntry = pOpaqueIdTable->FirstLevelTable[FirstIndex] + SecondIndex;
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UlpAcquireOpaqueIdLock( &pEntry->Lock, &OldIrql );
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ASSERT( pEntry->OpaqueIdType != UlOpaqueIdTypeInvalid );
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ASSERT( pEntry->OpaqueIdType == OpaqueIdType );
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ASSERT( pEntry->pContext != NULL );
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ASSERT( pEntry->OpaqueIdCyclic ==
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((PUL_OPAQUE_ID_INTERNAL)&OpaqueId)->OpaqueIdCyclic );
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//
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// Restore the processor and first-level index but set the ID type
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// to invalid. This ensures subsequent mapping attempts on the stale
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// opaque ID entry will fail.
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//
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pEntry->Processor = Processor;
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pEntry->FirstIndex = FirstIndex;
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//
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// Setting OpaqueIdType to UlOpaqueIdTypeInvalid means the entry is freed.
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//
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pEntry->OpaqueIdType = UlOpaqueIdTypeInvalid;
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UlpReleaseOpaqueIdLock( &pEntry->Lock, OldIrql );
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InterlockedPushEntrySList(
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&pOpaqueIdTable->FreeOpaqueIdSListHead,
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&pEntry->FreeListEntry
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);
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#ifdef OPAQUE_ID_INSTRUMENTATION
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UlInterlockedIncrement64( &pOpaqueIdTable->NumberOfFrees );
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#endif
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}
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/***************************************************************************++
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Routine Description:
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Maps the specified opaque ID to the corresponding context value.
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Arguments:
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OpaqueId - Supplies the opaque ID to map.
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OpaqueIdType - Supplies the opaque ID type associated with the opaque ID.
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pReferenceRoutine - Supplies the reference routine to call on the mapped
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context if there is a match.
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Return Value:
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PVOID - Returns the original context associated with the opaqued ID.
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--***************************************************************************/
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PVOID
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UlGetObjectFromOpaqueId(
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IN HTTP_OPAQUE_ID OpaqueId,
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IN UL_OPAQUE_ID_TYPE OpaqueIdType,
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IN PUL_OPAQUE_ID_OBJECT_REFERENCE pReferenceRoutine
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)
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{
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PUL_OPAQUE_ID_TABLE pOpaqueIdTable;
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PUL_OPAQUE_ID_TABLE_ENTRY pEntry;
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UL_OPAQUE_ID_INTERNAL InternalId;
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ULONG Processor;
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ULONG FirstIndex;
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ULONG SecondIndex;
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PVOID pContext = NULL;
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BOOLEAN Result;
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KIRQL OldIrql;
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//
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// Sanity check.
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//
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ASSERT( OpaqueIdType != UlOpaqueIdTypeInvalid );
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ASSERT( pReferenceRoutine != NULL );
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#ifdef OPAQUE_ID_INSTRUMENTATION
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UlInterlockedIncrement64( &g_NumberOfTotalGets );
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#endif
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InternalId.OpaqueId = OpaqueId;
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//
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// Preliminary checking.
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//
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if (InternalId.OpaqueIdType != OpaqueIdType)
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{
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return pContext;
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}
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//
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// Obtain a matching ID table entry. If we get one, this means the
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// processor, first-level table index and second-level table index of
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// the ID passed in are valid.
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//
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Result = UlpExtractIndexFromOpaqueId(
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OpaqueId,
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&Processor,
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&FirstIndex,
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&SecondIndex
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);
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if (Result)
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{
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pOpaqueIdTable = &g_UlOpaqueIdTable[Processor].OpaqueIdTable;
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pEntry = pOpaqueIdTable->FirstLevelTable[FirstIndex] + SecondIndex;
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}
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else
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{
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pEntry = NULL;
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}
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if (pEntry != NULL)
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{
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#ifdef OPAQUE_ID_INSTRUMENTATION
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UlInterlockedIncrement64( &pOpaqueIdTable->NumberOfTotalGets );
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#endif
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//
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// Check other things inside the lock.
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//
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UlpAcquireOpaqueIdLock( &pEntry->Lock, &OldIrql );
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|
|
if (pEntry->OpaqueIdType == OpaqueIdType &&
|
|
pEntry->OpaqueIdCyclic == InternalId.OpaqueIdCyclic)
|
|
{
|
|
ASSERT( pEntry->pContext != NULL );
|
|
|
|
//
|
|
// All matched so we set pContext.
|
|
//
|
|
|
|
pContext = pEntry->pContext;
|
|
|
|
//
|
|
// Invoke the caller's reference routine with the lock held.
|
|
//
|
|
|
|
(pReferenceRoutine)(
|
|
pContext
|
|
REFERENCE_DEBUG_ACTUAL_PARAMS
|
|
);
|
|
|
|
#ifdef OPAQUE_ID_INSTRUMENTATION
|
|
UlInterlockedIncrement64( &pOpaqueIdTable->NumberOfSuccessfulGets );
|
|
UlInterlockedIncrement64( &g_NumberOfSuccessfulGets );
|
|
#endif
|
|
}
|
|
|
|
UlpReleaseOpaqueIdLock( &pEntry->Lock, OldIrql );
|
|
}
|
|
|
|
return pContext;
|
|
}
|
|
|
|
|
|
//
|
|
// Private functions.
|
|
//
|
|
|
|
/***************************************************************************++
|
|
|
|
Routine Description:
|
|
|
|
Allocates a new second-level table.
|
|
|
|
Arguments:
|
|
|
|
pOpaqueIdTable - Supplies the per-processor opaque ID table that we need
|
|
to grow the second-level table.
|
|
|
|
CapturedFirstTableInUse - Supplies the size of the first-level table as
|
|
captured before InterlockedPopEntrySList. If this changes, it
|
|
would mean another thread has allocated a new second-level table
|
|
already and we return success right away in that case.
|
|
|
|
Return Value:
|
|
|
|
NTSTATUS - Completion status.
|
|
|
|
--***************************************************************************/
|
|
NTSTATUS
|
|
UlpExpandOpaqueIdTable(
|
|
IN PUL_OPAQUE_ID_TABLE pOpaqueIdTable,
|
|
IN LONG CapturedFirstTableInUse
|
|
)
|
|
{
|
|
PUL_OPAQUE_ID_TABLE_ENTRY pNewTable;
|
|
PUL_OPAQUE_ID_TABLE_ENTRY pEntry;
|
|
LONG FirstIndex;
|
|
LONG Processor;
|
|
NTSTATUS Status;
|
|
KIRQL OldIrql;
|
|
LONG i;
|
|
|
|
//
|
|
// Acquire the lock when expanding the table. This protects the
|
|
// FirstLevelTableInUse and its associated first-level table.
|
|
//
|
|
|
|
UlAcquireSpinLock( &pOpaqueIdTable->Lock, &OldIrql );
|
|
|
|
//
|
|
// Bail out if FirstLevelTableInUse has changed. This means, though
|
|
// unlikely, another thread has expanded the table for us.
|
|
//
|
|
|
|
if (CapturedFirstTableInUse < (LONG)(pOpaqueIdTable->FirstLevelTableInUse))
|
|
{
|
|
Status = STATUS_SUCCESS;
|
|
goto end;
|
|
}
|
|
|
|
//
|
|
// Fail the expansion if we reach the limit.
|
|
//
|
|
|
|
if (pOpaqueIdTable->FirstLevelTableInUse >=
|
|
pOpaqueIdTable->FirstLevelTableSize)
|
|
{
|
|
Status = STATUS_ALLOTTED_SPACE_EXCEEDED;
|
|
goto end;
|
|
}
|
|
|
|
//
|
|
// Allocate a new second-level table.
|
|
//
|
|
|
|
pNewTable = UL_ALLOCATE_ARRAY(
|
|
NonPagedPool,
|
|
UL_OPAQUE_ID_TABLE_ENTRY,
|
|
SECOND_LEVEL_TABLE_SIZE,
|
|
UL_OPAQUE_ID_TABLE_POOL_TAG
|
|
);
|
|
|
|
if (pNewTable == NULL)
|
|
{
|
|
Status = STATUS_NO_MEMORY;
|
|
goto end;
|
|
}
|
|
|
|
//
|
|
// Initialize each table entry and push them to the global table's
|
|
// free list.
|
|
//
|
|
|
|
RtlZeroMemory(
|
|
pNewTable,
|
|
sizeof(UL_OPAQUE_ID_TABLE_ENTRY) * SECOND_LEVEL_TABLE_SIZE
|
|
);
|
|
|
|
Processor = pOpaqueIdTable->Processor;
|
|
FirstIndex = pOpaqueIdTable->FirstLevelTableInUse;
|
|
|
|
for (i = 0, pEntry = pNewTable; i < SECOND_LEVEL_TABLE_SIZE; i++, pEntry++)
|
|
{
|
|
pEntry->Processor = Processor;
|
|
pEntry->FirstIndex = FirstIndex;
|
|
|
|
UlpInitializeOpaqueIdLock( &pEntry->Lock );
|
|
|
|
InterlockedPushEntrySList(
|
|
&pOpaqueIdTable->FreeOpaqueIdSListHead,
|
|
&pEntry->FreeListEntry
|
|
);
|
|
}
|
|
|
|
//
|
|
// Adjust the first-level index forward. Do this only after all entries
|
|
// have been pushed to the global list so the IDs only become valid when
|
|
// they indeed exist. Because we have raised IRQL to DISPATCH level by
|
|
// acquiring a spinlock, it is impossible for another thread to get in
|
|
// and allocate an opaque ID from the current processor and its assoicated
|
|
// global ID table. All the map attempts on the IDs being pushed will
|
|
// duely fail because we haven't moved first-level index forward during
|
|
// the push.
|
|
//
|
|
|
|
ASSERT( pOpaqueIdTable->FirstLevelTable[FirstIndex] == NULL );
|
|
|
|
pOpaqueIdTable->FirstLevelTable[FirstIndex] = pNewTable;
|
|
pOpaqueIdTable->FirstLevelTableInUse++;
|
|
|
|
Status = STATUS_SUCCESS;
|
|
|
|
end:
|
|
|
|
UlReleaseSpinLock( &pOpaqueIdTable->Lock, OldIrql );
|
|
|
|
return Status;
|
|
}
|
|
|