Leaked source code of windows server 2003
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550 lines
20 KiB

#include <precomp.h>
#include "tracing.h"
#include "utils.h"
#include "hash.h"
//~~~~~~~~~~~~~~~~~~~~~~~~ PRIVATE HASH FUNCTIONS ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
// Matches the keys one against the other.
UINT // [RET] number of matching chars
HshPrvMatchKeys(
LPWSTR wszKey1, // [IN] key 1
LPWSTR wszKey2) // [IN] key 2
{
UINT i = 0;
while (*wszKey1 != L'\0' && *wszKey1 == *wszKey2)
{
wszKey1++; wszKey2++;
i++;
}
return i;
}
// deletes all the pHash tree - doesn't touch the pObjects from
// within (if any)
VOID
HshDestructor(
PHASH_NODE pHash) // [IN] hash tree to delete
{
// pHash should not be NULL -- but who knows what the caller is doing!
if (pHash != NULL)
{
while(!IsListEmpty(&(pHash->lstDown)))
{
PHASH_NODE pChild;
pChild = CONTAINING_RECORD(pHash->lstDown.Flink, HASH_NODE, lstHoriz);
HshDestructor(pChild);
}
RemoveEntryList(&(pHash->lstHoriz));
MemFree(pHash->wszKey);
MemFree(pHash);
}
}
//~~~~~~~~~~~~~~~~~~~~~~~~ PUBLIC HASH FUNCTIONS ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
// Initializes a HASH structure
DWORD
HshInitialize(PHASH pHash)
{
DWORD dwErr = ERROR_SUCCESS;
if (pHash != NULL)
{
__try
{
InitializeCriticalSection(&(pHash->csMutex));
pHash->bValid = TRUE;
}
__except(EXCEPTION_EXECUTE_HANDLER)
{
dwErr = GetExceptionCode();
}
pHash->pRoot = NULL;
}
else
dwErr = ERROR_INVALID_PARAMETER;
return dwErr;
}
// Cleans all resources referenced by a HASH structures
VOID
HshDestroy(PHASH pHash)
{
HshDestructor(pHash->pRoot);
if (pHash->bValid)
{
DeleteCriticalSection(&(pHash->csMutex));
pHash->bValid = FALSE;
}
}
// Inserts an opaque object into the cache. The object is keyed on a wstring
// The call could alter the structure of the hash, hence it returns the reference
// to the updated hash.
DWORD // [RET] win32 error code
HshInsertObjectRef(
PHASH_NODE pHash, // [IN] hash to operate on
LPWSTR wszKey, // [IN] key of the object to insert
LPVOID pObject, // [IN] object itself to insert in the cache
PHASH_NODE *ppOutHash) // [OUT] pointer to the updated hash
{
DWORD dwErr = ERROR_SUCCESS;
DbgPrint((TRC_HASH,"[HshInsertObject(%S)", wszKey));
DbgAssert((ppOutHash != NULL, "No output hash expected??"));
DbgAssert((wszKey != NULL, "Key info should not be NULL"));
// if the node passed in is NULL this means a new node
// has to be created
if (pHash == NULL)
{
// this node is definitely not in the hash
// allocate the new node
pHash = MemCAlloc(sizeof(HASH_NODE));
if (pHash == NULL)
{
dwErr = GetLastError();
goto exit;
}
// allocate mem for the new key
pHash->wszKey = MemCAlloc(sizeof(WCHAR)*(wcslen(wszKey)+1));
if (pHash->wszKey == NULL)
{
dwErr = GetLastError();
MemFree(pHash);
goto exit;
}
// copy the new key
wcscpy(pHash->wszKey, wszKey);
// initialize the horizontal and down lists
InitializeListHead(&(pHash->lstHoriz));
InitializeListHead(&(pHash->lstDown));
// copy the reference to the object associated with the key
pHash->pObject = pObject;
// at this point we have a standalone newly created node:
// no links are defined either on the horizontal, downwards or upwards
// these will be set up (if needed) by the caller.
*ppOutHash = pHash;
}
// if the node passed in is not NULL, we need to match as many
// characters between wszKey and the node's key. Based on who's shorter
// we decide to either set the reference (if keys identical) or
// break the branch (if wszKey is shorter than the current one) or
// to recurse down the insertion.
else
{
UINT nMatch;
PHASH_NODE pChild;
enum { MATCH, SUBSET, SUPERSET, UNDECIDED, RECURSE} nAnalysis;
nMatch = HshPrvMatchKeys(wszKey, pHash->wszKey);
// analyze the given key with respect to the current node;
if (wszKey[nMatch] == L'\0' && pHash->wszKey[nMatch] == L'\0')
// the key matches the current node
nAnalysis = MATCH;
else if (wszKey[nMatch] == L'\0')
// the key is a subset of the current node
nAnalysis = SUBSET;
else
{
// so far undecided - further see if this translates to SUPERSET
// or even better, if SUPERSET can be handled by a child, hence
// RECURSE.
nAnalysis = UNDECIDED;
if (pHash->wszKey[nMatch] == L'\0')
{
PLIST_ENTRY pEntry;
// the new key is a superset of the current nod
nAnalysis = SUPERSET;
// the new key could be covered by one of the existent children.
// check then if it is the case to send the work down to some child
for (pEntry = pHash->lstDown.Flink;
pEntry != &(pHash->lstDown);
pEntry = pEntry->Flink)
{
pChild = CONTAINING_RECORD(pEntry, HASH_NODE, lstHoriz);
if (wszKey[nMatch] == pChild->wszKey[0])
{
// the child to follow up has been located and saved
// in pChild. Set nAnalysis to UNDECIDED and break;
nAnalysis = RECURSE;
break;
}
}
}
}
// if the key matches exactly the current node
// then is only a matter of setting the object's reference
if (nAnalysis == MATCH)
{
// if the node is already referencing an object..
if (pHash->pObject != NULL)
{
// signal out ERROR_DUPLICATE_TAG
dwErr = ERROR_DUPLICATE_TAG;
}
else
{
// just insert the reference and get out with success.
pHash->pObject = pObject;
// save the Out hash pointer
*ppOutHash = pHash;
}
}
// if a child has been identified, let pChild (saved previously)
// to follow up
else if (nAnalysis == RECURSE)
{
dwErr = HshInsertObjectRef(
pChild,
wszKey+nMatch,
pObject,
ppOutHash);
if (dwErr == ERROR_SUCCESS)
*ppOutHash = pHash;
}
// if any of SUBSET, SUPERSET or UNDECIDED
else
{
PHASH_NODE pParent = NULL;
LPWSTR wszTrailKey = NULL;
UINT nTrailLen = 0;
// [C = common part; c = current key; n = new key]
// (SUBSET) (UNDECIDED)
// current: CCCCCccc or current: CCCCCccc
// new: CCCCC new: CCCCCnnnnn
//
// In both cases, the current node splits.
// Create first a new node, containing just CCCCC
if (nAnalysis != SUPERSET)
{
// get the number of chars in pHash's key that are not matching
nTrailLen = wcslen(pHash->wszKey) - nMatch;
// create first the trailing part of the key (allocate the number of
// chars from the current node that didn't match)
wszTrailKey = MemCAlloc(sizeof(WCHAR)*(nTrailLen+1));
if (wszTrailKey == NULL)
{
// if anything went wrong, just go out with the error.
// hash hasn't been modified.
dwErr = GetLastError();
goto exit;
}
// wcsncpy doesn't append the null terminator but the string
// is already nulled out and it has the right size
wcsncpy(wszTrailKey, pHash->wszKey+nMatch, nTrailLen);
// create then the node that will act as the common parent
pHash->wszKey[nMatch] = L'\0';
dwErr = HshInsertObjectRef(
NULL, // request a new node to be created
pHash->wszKey, // common part of the current keys
NULL, // this node is not referencing any object
&pParent); // get back the newly created pointer.
pHash->wszKey[nMatch] = wszTrailKey[0];
// in case anything went wrong, the hash has not been altered,
// we just need to bubble up the error.
if (dwErr != ERROR_SUCCESS)
{
MemFree(wszTrailKey);
goto exit;
}
// set the new parent up link
pParent->pUpLink = pHash->pUpLink;
}
// (SUPERSET) (UNDECIDED)
// current: CCCCC or current: CCCCCccccc
// new: CCCCCnnn new: CCCCCnnn
// In both cases a new node has to be created for the "nnn" part.
if (nAnalysis != SUBSET)
{
dwErr = HshInsertObjectRef(
NULL,
wszKey + nMatch,
pObject,
&pChild);
if (dwErr != ERROR_SUCCESS)
{
// second creation failed, clean up everything and bail out
MemFree(wszTrailKey);
if (pParent != NULL)
{
MemFree(pParent->wszKey);
MemFree(pParent);
}
// hash structure is not altered at this point.
goto exit;
}
// link it up to the corresponding parent.
pChild->pUpLink = (nAnalysis == SUPERSET) ? pHash : pParent;
}
// NO WAY BACK FROM NOW ON - hash is about to be altered
// success is guaranteed
// at this point, pChild is a non null pointer, with all the
// LIST_ENTRIES from within the HASH_NODE initialized correctly.
// (SUBSET) (UNDECIDED)
// current: CCCCCccccc or current: CCCCCccccc
// new: CCCCC new: CCCCCnnn
// if the node has split, put the new parent in its place
if (nAnalysis != SUPERSET)
{
// set the current key to the shrinked unmatched trailing part
MemFree(pHash->wszKey);
pHash->wszKey = wszTrailKey;
// set the current upLink to the new pParent node
pHash->pUpLink = pParent;
// insert the new parent into its place
InsertHeadList(&(pHash->lstHoriz), &(pParent->lstHoriz));
// remove the node from its previous parent
RemoveEntryList(&(pHash->lstHoriz));
// reset the current node's list
InitializeListHead(&(pHash->lstHoriz));
// insert the node to its new parent down list.
InsertHeadList(&(pParent->lstDown), &(pHash->lstHoriz));
}
// (SUPERSET) (UNDECIDED)
// current: CCCCC or current: CCCCCccccc
// new: CCCCCnnn new: CCCCCnnn
// if a new child node has been created, link it in the hash
if (nAnalysis != SUBSET)
{
// if the given key was either a superset of the
// current key or derived from the current key,
// there is a separated node for it. Insert it in the down list
if (nAnalysis == SUPERSET)
{
InsertTailList(&(pHash->lstDown), &(pChild->lstHoriz));
}
else
{
InsertTailList(&(pParent->lstDown), &(pChild->lstHoriz));
}
}
else
{
// set the new parent's reference to this data.
pParent->pObject = pObject;
}
*ppOutHash = (nAnalysis == SUPERSET) ? pHash : pParent;
// and that's all - we're done successfully!
}
}
exit:
DbgPrint((TRC_HASH,"HshInsertObject]=%d", dwErr));
return dwErr;
}
// Retrieves an object from the hash. The hash structure is not touched in
// any manner.
DWORD // [RET] win32 error code
HshQueryObjectRef(
PHASH_NODE pHash, // [IN] hash to operate on
LPWSTR wszKey, // [IN] key of the object to retrieve
PHASH_NODE *ppHashNode) // [OUT] hash node referencing the queried object
{
DWORD dwErr = ERROR_FILE_NOT_FOUND;
INT nDiff;
DbgPrint((TRC_HASH,"[HshQueryObjectRef(0x%p)", wszKey));
if (wszKey == NULL)
{
dwErr = ERROR_INVALID_PARAMETER;
goto exit;
}
if (pHash == NULL)
{
dwErr = ERROR_FILE_NOT_FOUND;
goto exit;
}
nDiff = wcscmp(wszKey, pHash->wszKey);
if (nDiff == 0)
{
// The key is identical with the one in this node
if (pHash->pObject != NULL)
{
if (ppHashNode != NULL)
{
*ppHashNode = pHash;
}
dwErr = ERROR_SUCCESS;
}
// If there is no object in this node, this means
// the query failed with FILE_NOT_FOUND
}
else if (nDiff > 0)
{
// The key is larger than the current node's key
UINT nTrail = wcslen(pHash->wszKey);
PLIST_ENTRY pEntry;
// The trailing part of the key could be covered by one of
// the children nodes. Scan then the Down list.
for (pEntry = pHash->lstDown.Flink;
pEntry != &(pHash->lstDown);
pEntry = pEntry->Flink)
{
PHASH_NODE pChild;
pChild = CONTAINING_RECORD(pEntry, HASH_NODE, lstHoriz);
if (wszKey[nTrail] == pChild->wszKey[0])
{
// the child to follow up has been located and saved
// in pChild. Try to match the trailing key against this node
dwErr = HshQueryObjectRef(pChild, wszKey+nTrail, ppHashNode);
break;
}
}
// if no child has been located, dwErr is the default FILE_NOT_FOUND
}
// if nDiff < 0 - meaning key is included in the current node's key then
// dwErr is the default FILE_NOT_FOUND which is good.
exit:
DbgPrint((TRC_HASH,"HshQueryObjectRef]=%d", dwErr));
return dwErr;
}
// Removes the object referenced by the pHash node. This could lead to one or
// more hash node removals (if a leaf node on an isolated branch) but it could
// also let the hash node untouched (i.e. internal node).
// It is the caller's responsibility to clean up the object pointed by ppObject
DWORD // [RET] win32 error code
HshRemoveObjectRef(
PHASH_NODE pHash, // [IN] hash to operate on
PHASH_NODE pRemoveNode, // [IN] hash node to clear the reference to pObject
LPVOID *ppObject, // [OUT] pointer to the object whose reference has been cleared
PHASH_NODE *ppOutHash) // [OUT] pointer to the updated hash
{
DWORD dwErr = ERROR_SUCCESS;
PHASH_NODE pNewRoot = NULL;
DbgPrint((TRC_HASH,"[HshRemoveObjectRef(%p)", pHash));
DbgAssert((ppObject != NULL, "No output object expected??"));
DbgAssert((ppOutHash != NULL, "No output hash expected??"));
DbgAssert((pRemoveNode != NULL, "No node to remove??"));
// if the node contains no reference, return FILE_NOT_FOUND
if (pRemoveNode->pObject == NULL)
{
dwErr = ERROR_FILE_NOT_FOUND;
goto exit;
}
// remove the reference to the object at this moment
*ppObject = pRemoveNode->pObject;
pRemoveNode->pObject = NULL;
// now climb the tree up to the root (!! - well it's a reversed tree) and merge
// whatever nodes can be merged.
// Merging: A node not referencing any object and having 0 or at most 1
// successor can be deleted from the hash tree structure.
while ((pRemoveNode != NULL) &&
(pRemoveNode->pObject == NULL) &&
(pRemoveNode->lstDown.Flink->Flink == &(pRemoveNode->lstDown)))
{
PHASH_NODE pUp = pRemoveNode->pUpLink;
// if there is exactly 1 successor, its key needs to be prefixed with
// the key of the node that is about to be removed. The successor also
// needs to replace its parent in the hash tree structure.
if (!IsListEmpty(&(pRemoveNode->lstDown)))
{
PHASH_NODE pDown;
LPWSTR wszNewKey;
pDown = CONTAINING_RECORD(pRemoveNode->lstDown.Flink, HASH_NODE, lstHoriz);
wszNewKey = MemCAlloc(sizeof(WCHAR)*(wcslen(pRemoveNode->wszKey)+wcslen(pDown->wszKey)+1));
if (wszNewKey == NULL)
{
// if the allocation failed, bail out with the error code.
// the reference had already been removed, the hash might
// not be compacted but it is still valid!
dwErr = GetLastError();
goto exit;
}
wcscpy(wszNewKey, pRemoveNode->wszKey);
wcscat(wszNewKey, pDown->wszKey);
MemFree(pDown->wszKey);
pDown->wszKey = wszNewKey;
// now raise the child node as a replacement of its parent
pDown->pUpLink = pRemoveNode->pUpLink;
InsertHeadList(&(pRemoveNode->lstHoriz), &(pDown->lstHoriz));
pNewRoot = pDown;
}
// remove the current node
RemoveEntryList(&(pRemoveNode->lstHoriz));
// cleanup all its memory
MemFree(pRemoveNode->wszKey);
MemFree(pRemoveNode);
// finally go and check the upper level node (if there is any)
pRemoveNode = pUp;
}
// if pRemoveNode ended up to be NULL, this means either the whole hash has been cleared
// or a "brother" took the role of the root. pNewRoot has the right value in both cases
// if pRemoveNode is not NULL, since it walked up the chain constantly it means pHash (the
// original root) was not affected. Hence, return it out.
*ppOutHash = (pRemoveNode == NULL) ? pNewRoot : pHash;
exit:
DbgPrint((TRC_HASH,"HshRemoveObjectRef]=%d", dwErr));
return dwErr;
}
CHAR szBlanks[256];
VOID
HshDbgPrintHash (
PHASH_NODE pHash,
UINT nLevel)
{
memset(szBlanks,' ', sizeof(szBlanks));
if (pHash == NULL)
{
sprintf(szBlanks+nLevel,"(null)");
DbgPrint((TRC_GENERIC,"%s", szBlanks));
}
else
{
PLIST_ENTRY pEntry;
sprintf(szBlanks+nLevel,"%p:\"%S~[%p]\", up:%p",
pHash,
pHash->wszKey,
pHash->pObject,
pHash->pUpLink);
DbgPrint((TRC_GENERIC,"%s", szBlanks));
for (pEntry = pHash->lstDown.Flink;
pEntry != &(pHash->lstDown);
pEntry = pEntry->Flink)
{
PHASH_NODE pChild;
pChild = CONTAINING_RECORD(pEntry, HASH_NODE, lstHoriz);
HshDbgPrintHash(pChild, nLevel+1);
}
}
}