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597 lines
14 KiB
597 lines
14 KiB
/*
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Copyright (c) 2000 Microsoft Corporation
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Module Name:
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splay.cpp
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Abstract:
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Splay trees are simpler, more space-efficient, more flexible, and faster than any other balanced tree
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scheme for storing an ordered set. This data structure satisfies all the invariants of a binary tree.
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Searching, insertion, deletion, and many other operations can all be done with amortized logarithmic
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performance. Since the trees adapt to the sequence of requests, their performance on real access
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patterns is typically even better.
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Author:
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Vishnu Patankar (vishnup) 15-Aug-2000 created
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Jin Huang (jinhuang) 06-Apr-2001 modified for supporting string value and to handle multiple clients
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--*/
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#include "splay.h"
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//#include "dumpnt.h"
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#define SCEP_MIN(a, b) (a < b ? a : b)
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static
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PSCEP_SPLAY_NODE
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ScepSplaySplay(
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IN SCEP_NODE_VALUE_TYPE Value,
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IN PSCEP_SPLAY_NODE pNodeToSplayAbout,
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IN PSCEP_SPLAY_NODE pSentinel,
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IN SCEP_NODE_VALUE_TYPE Type
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);
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int
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ScepValueCompare(
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PVOID pValue1,
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PVOID pValue2,
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SCEP_NODE_VALUE_TYPE Type
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);
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static VOID
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ScepSplayFreeNodes(
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IN PSCEP_SPLAY_NODE pNode,
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IN PSCEP_SPLAY_NODE pSentinel
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);
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PSCEP_SPLAY_TREE
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ScepSplayInitialize(
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SCEP_NODE_VALUE_TYPE Type
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)
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/*
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Routine Description:
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This function initializes the splay tree with a sentinel (equivalent to a NULL ptr).
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Arguments:
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Type - the type for the splay value
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Return Value:
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Pointer to the splay tree root.
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*/
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{
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if ( Type != SplayNodeSidType && Type != SplayNodeStringType ) {
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return NULL;
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}
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PSCEP_SPLAY_TREE pRoot = (PSCEP_SPLAY_TREE)LocalAlloc(LPTR, sizeof( SCEP_SPLAY_TREE ) );
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if ( pRoot ) {
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pRoot->Sentinel = (PSCEP_SPLAY_NODE) LocalAlloc(LPTR, sizeof( SCEP_SPLAY_NODE ) );
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if ( pRoot->Sentinel ) {
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pRoot->Sentinel->Left = pRoot->Sentinel->Right = pRoot->Sentinel;
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pRoot->Root = pRoot->Sentinel;
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pRoot->Type = Type;
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return pRoot;
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} else {
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LocalFree(pRoot);
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}
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}
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SetLastError(ERROR_NOT_ENOUGH_MEMORY);
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return NULL;
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}
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VOID
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ScepSplayFreeTree(
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IN PSCEP_SPLAY_TREE *ppTreeRoot,
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IN BOOL bDestroyTree
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)
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/*
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Routine Description:
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This function frees the splay tree including the satellite data "Value".
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Arguments:
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ppTreeRoot - address of the root of the tree
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bDestroyTree - if the tree root should be destroyed (freed)
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Return Value:
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VOID
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*/
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{
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if ( ppTreeRoot == NULL || *ppTreeRoot == NULL )
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return;
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ScepSplayFreeNodes( (*ppTreeRoot)->Root, (*ppTreeRoot)->Sentinel );
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if ( bDestroyTree ) {
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//
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// free Sentinel
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//
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LocalFree( (*ppTreeRoot)->Sentinel);
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LocalFree( *ppTreeRoot );
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*ppTreeRoot = NULL;
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} else {
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( *ppTreeRoot)->Root = (*ppTreeRoot)->Sentinel;
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}
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return;
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}
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static VOID
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ScepSplayFreeNodes(
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IN PSCEP_SPLAY_NODE pNode,
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IN PSCEP_SPLAY_NODE pSentinel
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)
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{
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if ( pNode != pSentinel ) {
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ScepSplayFreeNodes( pNode->Left, pSentinel );
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ScepSplayFreeNodes( pNode->Right, pSentinel );
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if (pNode->Value)
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LocalFree( pNode->Value );
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LocalFree (pNode);
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}
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}
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static PSCEP_SPLAY_NODE
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ScepSplaySingleRotateWithLeft(
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IN PSCEP_SPLAY_NODE pNodeLeftRotate
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)
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/*
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Routine Description:
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This function can be called only if pNodeLeftRotate has a left child
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Perform a rotate between a node (pNodeLeftRotate) and its left child
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Update heights, then return new local root
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Arguments:
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pNodeLeftRotate - the node to rotate left about (local to this module)
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Return Value:
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New local root after rotation
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*/
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{
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if ( pNodeLeftRotate == NULL ) return pNodeLeftRotate;
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PSCEP_SPLAY_NODE pNodeRightRotate;
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pNodeRightRotate = pNodeLeftRotate->Left;
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pNodeLeftRotate->Left = pNodeRightRotate->Right;
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pNodeRightRotate->Right = pNodeLeftRotate;
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return pNodeRightRotate;
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}
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static PSCEP_SPLAY_NODE
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ScepSplaySingleRotateWithRight(
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IN PSCEP_SPLAY_NODE pNodeRightRotate
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)
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/*
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Routine Description:
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This function can be called only if pNodeRightRotate has a right child
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Perform a rotate between a node (pNodeRightRotate) and its right child
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Update heights, then return new root
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Arguments:
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pNodeRightRotate - the node to rotate right about (local to this module)
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Return Value:
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New local root after rotation
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*/
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{
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if ( pNodeRightRotate == NULL ) return pNodeRightRotate;
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PSCEP_SPLAY_NODE pNodeLeftRotate;
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pNodeLeftRotate = pNodeRightRotate->Right;
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pNodeRightRotate->Right = pNodeLeftRotate->Left;
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pNodeLeftRotate->Left = pNodeRightRotate;
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return pNodeLeftRotate;
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}
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static
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PSCEP_SPLAY_NODE
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ScepSplaySplay(
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IN PVOID Value,
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IN PSCEP_SPLAY_NODE pNodeToSplayAbout,
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IN PSCEP_SPLAY_NODE pSentinel,
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IN SCEP_NODE_VALUE_TYPE Type
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)
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/*
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Routine Description:
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This is really the key routine doing all the balancing (splaying)
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Top-down splay procedure that does not requiring Value to be in tree.
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Arguments:
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Value - the value to splay the tree about
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pNodeToSplayAbout - the node to splay about (external routines such as ScepSplayInsert()
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usually pass in the tree root). This routine is local to this module.
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pSentinel - the Sentinel (terminating node)
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Type - type of the splay values
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Return Value:
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New local root after rotation
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*/
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{
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if ( pNodeToSplayAbout == NULL || pSentinel == NULL || Value == NULL) return pNodeToSplayAbout;
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SCEP_SPLAY_NODE Header;
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PSCEP_SPLAY_NODE LeftTreeMax, RightTreeMin;
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Header.Left = Header.Right = pSentinel;
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LeftTreeMax = RightTreeMin = &Header;
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pSentinel->Value = Value;
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int iRes=0;
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while ( 0 != (iRes=ScepValueCompare(Value, pNodeToSplayAbout->Value, Type)) ) {
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if ( 0 > iRes ) {
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if ( 0 > ScepValueCompare(Value, pNodeToSplayAbout->Left->Value, Type) )
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pNodeToSplayAbout = ScepSplaySingleRotateWithLeft( pNodeToSplayAbout );
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if ( pNodeToSplayAbout->Left == pSentinel )
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break;
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//
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// Link right
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//
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RightTreeMin->Left = pNodeToSplayAbout;
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RightTreeMin = pNodeToSplayAbout;
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pNodeToSplayAbout = pNodeToSplayAbout->Left;
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} else {
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if ( 0 < ScepValueCompare(Value, pNodeToSplayAbout->Right->Value, Type) )
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pNodeToSplayAbout = ScepSplaySingleRotateWithRight( pNodeToSplayAbout );
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if ( pNodeToSplayAbout->Right == pSentinel )
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break;
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//
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// Link left
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//
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LeftTreeMax->Right = pNodeToSplayAbout;
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LeftTreeMax = pNodeToSplayAbout;
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pNodeToSplayAbout = pNodeToSplayAbout->Right;
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}
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}
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//
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// reassemble
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//
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LeftTreeMax->Right = pNodeToSplayAbout->Left;
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RightTreeMin->Left = pNodeToSplayAbout->Right;
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pNodeToSplayAbout->Left = Header.Right;
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pNodeToSplayAbout->Right = Header.Left;
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//
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// reset Sentinel so that it does not point to some invalid buffer after
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// this function returns.
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//
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pSentinel->Value = NULL;
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return pNodeToSplayAbout;
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}
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DWORD
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ScepSplayInsert(
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IN PVOID Value,
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IN OUT PSCEP_SPLAY_TREE pTreeRoot,
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OUT BOOL *pbExists
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)
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/*
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Routine Description:
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This function is called to insert a particular Value
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Arguments:
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Value - the value to insert into the tree
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pTreeRoot - the node to splay about (usually pass in the tree root)
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pbExists - pointer to boolean that says if actual insertion was done or not
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Return Value:
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error code
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*/
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{
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PSCEP_SPLAY_NODE pNewNode = NULL;
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NTSTATUS Status;
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DWORD dwValueLen;
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DWORD rc=ERROR_SUCCESS;
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if (pbExists)
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*pbExists = FALSE;
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if (Value == NULL || pTreeRoot == NULL ) {
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return ERROR_INVALID_PARAMETER;
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}
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//
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// check parameter type
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//
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switch (pTreeRoot->Type) {
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case SplayNodeSidType:
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if ( !RtlValidSid((PSID)Value) ) {
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return ERROR_INVALID_PARAMETER;
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}
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dwValueLen = RtlLengthSid((PSID)Value);
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break;
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case SplayNodeStringType:
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if ( *((PWSTR)Value) == L'\0') {
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return ERROR_INVALID_PARAMETER;
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}
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dwValueLen = (wcslen((PWSTR)Value)+1)*sizeof(TCHAR);
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break;
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default:
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return ERROR_INVALID_PARAMETER;
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}
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pNewNode = (PSCEP_SPLAY_NODE) LocalAlloc(LMEM_ZEROINIT, sizeof( SCEP_SPLAY_NODE ) );
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if ( pNewNode == NULL ) {
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return ERROR_NOT_ENOUGH_MEMORY;
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}
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pNewNode->dwByteLength = dwValueLen;
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pNewNode->Value = (PSID) LocalAlloc(LMEM_ZEROINIT, pNewNode->dwByteLength);
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if (pNewNode->Value == NULL) {
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LocalFree(pNewNode);
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return ERROR_NOT_ENOUGH_MEMORY;
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}
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switch (pTreeRoot->Type) {
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case SplayNodeSidType:
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Status = RtlCopySid(pNewNode->dwByteLength, (PSID)(pNewNode->Value), (PSID)Value);
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if (!NT_SUCCESS(Status)) {
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LocalFree(pNewNode->Value);
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LocalFree(pNewNode);
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return RtlNtStatusToDosError(Status);
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}
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break;
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case SplayNodeStringType:
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memcpy( pNewNode->Value, Value, dwValueLen );
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break;
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}
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if ( pTreeRoot->Root == pTreeRoot->Sentinel ) {
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pNewNode->Left = pNewNode->Right = pTreeRoot->Sentinel;
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pTreeRoot->Root = pNewNode;
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} else {
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pTreeRoot->Root = ScepSplaySplay( Value, pTreeRoot->Root, pTreeRoot->Sentinel, pTreeRoot->Type );
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int iRes;
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if ( 0 > (iRes=ScepValueCompare(Value, pTreeRoot->Root->Value, pTreeRoot->Type)) ) {
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pNewNode->Left = pTreeRoot->Root->Left;
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pNewNode->Right = pTreeRoot->Root;
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pTreeRoot->Root->Left = pTreeRoot->Sentinel;
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pTreeRoot->Root = pNewNode;
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} else if ( 0 < iRes ) {
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pNewNode->Right = pTreeRoot->Root->Right;
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pNewNode->Left = pTreeRoot->Root;
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pTreeRoot->Root->Right = pTreeRoot->Sentinel;
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pTreeRoot->Root = pNewNode;
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} else {
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//
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// Already in the tree
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//
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if (pbExists)
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*pbExists = TRUE;
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LocalFree(pNewNode->Value);
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LocalFree(pNewNode);
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return rc;
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}
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}
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return rc;
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}
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DWORD
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ScepSplayDelete(
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IN PVOID Value,
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IN PSCEP_SPLAY_TREE pTreeRoot
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)
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/*
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Routine Description:
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This function is called to delete a particular Value
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Arguments:
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Value - the value to insert into the tree
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pTreeRoot - the node to splay about (usually pass in the tree root)
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Return Value:
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New root after deletion and splaying
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*/
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{
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if ( pTreeRoot == NULL ) return ERROR_INVALID_PARAMETER;
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PSCEP_SPLAY_NODE NewTree;
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if ( pTreeRoot->Root != pTreeRoot->Sentinel ) {
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//
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// strong type check
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//
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if ( ( pTreeRoot->Type != SplayNodeSidType &&
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pTreeRoot->Type != SplayNodeStringType ) ||
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( pTreeRoot->Type == SplayNodeSidType &&
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!RtlValidSid((PSID)Value) ) ||
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( pTreeRoot->Type == SplayNodeStringType &&
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*((PWSTR)Value) == L'\0' ) ) {
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//
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// invalid value/type
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//
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return ERROR_INVALID_PARAMETER;
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}
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pTreeRoot->Root = ScepSplaySplay( Value, pTreeRoot->Root, pTreeRoot->Sentinel, pTreeRoot->Type );
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if ( 0 == ScepValueCompare(Value, pTreeRoot->Root->Value, pTreeRoot->Type) ) {
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//
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// found it
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//
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if ( pTreeRoot->Root->Left == pTreeRoot->Sentinel )
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NewTree = pTreeRoot->Root->Right;
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else {
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NewTree = pTreeRoot->Root->Left;
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NewTree = ScepSplaySplay( Value, NewTree, pTreeRoot->Sentinel, pTreeRoot->Type );
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NewTree->Right = pTreeRoot->Root->Right;
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}
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if (pTreeRoot->Root->Value)
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LocalFree( pTreeRoot->Root->Value);
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LocalFree( pTreeRoot->Root );
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pTreeRoot->Root = NewTree;
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}
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}
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return ERROR_SUCCESS;
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}
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BOOL
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ScepSplayValueExist(
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IN PVOID Value,
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IN OUT PSCEP_SPLAY_TREE pTreeRoot
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)
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{
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PSCEP_SPLAY_NODE pMatchedNode = NULL;
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if ( pTreeRoot == NULL || Value == NULL) {
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return FALSE;
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}
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//
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// strong type check
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//
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if ( ( pTreeRoot->Type != SplayNodeSidType &&
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pTreeRoot->Type != SplayNodeStringType ) ||
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( pTreeRoot->Type == SplayNodeSidType &&
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!RtlValidSid((PSID)Value) ) ||
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( pTreeRoot->Type == SplayNodeStringType &&
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*((PWSTR)Value) == L'\0' ) ) {
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//
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// invalid value/type
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//
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return FALSE;
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}
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pTreeRoot->Root = ScepSplaySplay( Value, pTreeRoot->Root, pTreeRoot->Sentinel, pTreeRoot->Type );
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pMatchedNode = pTreeRoot->Root;
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if (pMatchedNode && pMatchedNode->Value) {
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if (ScepValueCompare(pMatchedNode->Value, Value, pTreeRoot->Type) == 0) {
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return TRUE;
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}
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}
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return FALSE;
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}
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int
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ScepValueCompare(
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PVOID pValue1,
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PVOID pValue2,
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SCEP_NODE_VALUE_TYPE Type
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)
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/*
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Routine Description:
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Lexical sid byte compare
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Arguments:
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pValue1 - ptr to first value
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pValue2 - ptr to second value
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Type - the type of the value
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Return Value:
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0 if Value1 == Value2
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+ve if Value1 > Value2
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-ve if Value1 < Value2
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*/
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{
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DWORD dwValue1 = 0;
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DWORD dwValue2 = 0;
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int iByteCmpResult = 0;
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switch ( Type ) {
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case SplayNodeSidType:
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dwValue1 = RtlLengthSid((PSID)pValue1);
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dwValue2 = RtlLengthSid((PSID)pValue2);
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iByteCmpResult = memcmp(pValue1, pValue2, SCEP_MIN(dwValue1, dwValue2));
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if (dwValue1 == dwValue2)
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return iByteCmpResult;
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else if (iByteCmpResult == 0)
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return dwValue1-dwValue2;
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return iByteCmpResult;
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case SplayNodeStringType:
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iByteCmpResult = _wcsicmp((PWSTR)pValue1, (PWSTR)pValue2);
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return iByteCmpResult;
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}
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return 0;
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}
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BOOL
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ScepSplayTreeEmpty(
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IN PSCEP_SPLAY_TREE pTreeRoot
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)
|
|
{
|
|
|
|
if ( pTreeRoot == NULL ||
|
|
pTreeRoot->Root == NULL ||
|
|
pTreeRoot->Root == pTreeRoot->Sentinel ) {
|
|
return TRUE;
|
|
}
|
|
return FALSE;
|
|
}
|
|
|