Source code of Windows XP (NT5)
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

971 lines
24 KiB

/*++
Copyright (c) 1997-2000 Microsoft Corporation
Module Name:
queue.c
Abstract:
Domain Name System (DNS) Server
Queue functionality specific to Dynamic DNS registration.
Author:
Ram Viswanathan (ramv) March 27 1997
Revision History:
--*/
#include "local.h"
extern DWORD g_MainQueueCount;
//
// Queue allocations in dnslib heap
//
#define QUEUE_ALLOC_HEAP(Size) Dns_Alloc(Size)
#define QUEUE_ALLOC_HEAP_ZERO(Size) Dns_AllocZero(Size)
#define QUEUE_FREE_HEAP(pMem) Dns_Free(pMem)
//
// helper functions
//
PQELEMENT
DequeueNoCrit(
PDYNDNSQUEUE pQueue
);
DWORD
AddToTimedOutQueueNoCrit(
PQELEMENT pNewElement,
PDYNDNSQUEUE pRetryQueue,
DWORD dwRetryTime
);
DWORD
HostAddrCmp(
REGISTER_HOST_ENTRY HostAddr1,
REGISTER_HOST_ENTRY HostAddr2
)
{
//
// DCR: Ram's HostAddrCmp will need update for IPv6
//
// returns 0 if the two hostaddresses are the same. Else we simply
// return (DWORD)-1
//
if ( (HostAddr1.dwOptions == HostAddr2.dwOptions) &&
(HostAddr1.Addr.ipAddr == HostAddr2.Addr.ipAddr))
{
return(0);
} else {
return( (DWORD)-1);
}
return ( (DWORD) -1);
}
VOID
DeleteListEntry(
PDYNDNSQUEUE pQueue,
PQELEMENT* ppQElement
);
DWORD
InitializeQueues(
PDYNDNSQUEUE * ppQueue,
PDYNDNSQUEUE * ppTimedOutQueue
)
/*
InitializeQueue()
This function initializes the queue system. This is invoked for the first
time when you create the main queue and timed out queue
Allocates appropriate memory etc
*/
{
DWORD dwRetval = ERROR_SUCCESS;
*ppQueue = (PDYNDNSQUEUE) QUEUE_ALLOC_HEAP_ZERO( sizeof(DYNDNSQUEUE) );
if (!*ppQueue){
dwRetval = GetLastError();
goto Exit;
}
*ppTimedOutQueue = (PDYNDNSQUEUE) QUEUE_ALLOC_HEAP_ZERO( sizeof(DYNDNSQUEUE) );
if (!*ppTimedOutQueue){
dwRetval = GetLastError();
goto Exit;
}
(*ppQueue)->pHead = NULL;
(*ppQueue)->pTail = NULL;
(*ppTimedOutQueue)->pHead = NULL;
(*ppTimedOutQueue)->pTail = NULL;
Exit:
if (dwRetval)
{
if ( *ppQueue )
QUEUE_FREE_HEAP( *ppQueue );
if ( *ppTimedOutQueue )
QUEUE_FREE_HEAP( *ppTimedOutQueue );
}
return(dwRetval);
}
DWORD
FreeQueue(
PDYNDNSQUEUE pQueue
)
/*
FreeQueue()
Frees the queue object. If there exist any entries in the queue, we
just blow them away
*/
{
PQELEMENT pQElement;
DWORD dwRetval = ERROR_SUCCESS;
EnterCriticalSection(&g_QueueCS);
if (!pQueue){
dwRetval = ERROR_SUCCESS;
goto Exit;
}
while (pQueue->pHead){
pQElement = DequeueNoCrit(pQueue);
DNS_ASSERT(pQElement);
if ( pQElement->pszName )
QUEUE_FREE_HEAP( pQElement->pszName );
if ( pQElement->DnsServerList )
QUEUE_FREE_HEAP( pQElement->DnsServerList );
QUEUE_FREE_HEAP( pQElement );
pQElement = NULL;
}
QUEUE_FREE_HEAP( pQueue );
Exit:
LeaveCriticalSection(&g_QueueCS);
return(ERROR_SUCCESS);
}
DWORD
Enqueue(
PQELEMENT pNewElement,
PDYNDNSQUEUE pQueue,
PDYNDNSQUEUE pTimedOutQueue
)
/*
Enqueue()
Adds new element to queue
Arguments:
Return Value:
is 0 if Success. and (DWORD)-1 if failure.
*/
{
// add to tail of queue
PQELEMENT pIterator = NULL;
DWORD dwRetval = 0;
DWORD dwRetryTime = 0;
pNewElement->pFLink = NULL;
pNewElement->pBLink = NULL;
pNewElement->dwRetryTime = 0; // unnecessary for this queue
pNewElement->dwRetryCount = 0;
EnterCriticalSection(&g_QueueCS);
if (!pQueue || !pTimedOutQueue){
dwRetval = (DWORD)-1;
goto Exit;
}
dwRetryTime = ProcessQDependencies(pTimedOutQueue, pNewElement);
if (dwRetryTime){
//
// we have dependents in timed out queue. Add to timed out queue
// insert this element at the appropriate position
//
AddToTimedOutQueueNoCrit(pNewElement, pTimedOutQueue, dwRetryTime+1);
} else {
ProcessQDependencies(pQueue, pNewElement);
if ( pQueue->pTail )
{
DNS_ASSERT(!pQueue->pTail->pBLink);
pQueue->pTail->pBLink = pNewElement;
pNewElement->pFLink = pQueue->pTail;
pNewElement->pBLink = NULL;
pQueue->pTail = pNewElement;
}
else
{
//
// no tail element means no head element either
//
pQueue->pTail = pNewElement;
pQueue->pHead = pNewElement;
pNewElement->pBLink = NULL;
pNewElement->pFLink = NULL;
}
g_MainQueueCount++;
}
Exit:
LeaveCriticalSection(&g_QueueCS);
return (dwRetval);
}
PQELEMENT
DequeueNoCrit(
PDYNDNSQUEUE pQueue
)
/*
DequeueNoCrit()
Removes an element from a queue. No Critical Section Used by freequeue
and by Dequeue
Arguments:
Return Value:
is the element at head of queue if Success. and NULL if failure.
*/
{
PQELEMENT pQueuePtr = NULL;
PQELEMENT pRet = NULL;
if (!pQueue || !pQueue->pHead){
goto Exit;
}
pRet = pQueue->pHead;
pQueuePtr= pRet->pBLink;
if (pQueuePtr){
pQueuePtr->pFLink = NULL;
pQueue->pHead = pQueuePtr;
} else {
//
// no more elements in the Queue
//
pQueue->pHead = pQueue->pTail = NULL;
}
pRet->pFLink = NULL;
pRet->pBLink = NULL;
Exit:
return (pRet);
}
PQELEMENT
Dequeue(
PDYNDNSQUEUE pQueue
)
/*
Dequeue()
Removes an element from a queue.
Arguments:
Return Value:
is the element at head of queue if Success. and NULL if failure.
*/
{
PQELEMENT pQElement = NULL;
EnterCriticalSection(&g_QueueCS);
pQElement = DequeueNoCrit(pQueue);
LeaveCriticalSection(&g_QueueCS);
return (pQElement);
}
DWORD
AddToTimedOutQueueNoCrit(
PQELEMENT pNewElement,
PDYNDNSQUEUE pRetryQueue,
DWORD dwRetryTime
)
/*
AddToTimedOutQueueNoCrit()
Adds new element to timedout queue. Now the new element is added in a list
of elements sorted according to decreasing order of Retry Times. An
insertion sort type of algorithm is used.
Arguments:
Return Value:
is 0 if Success. and (DWORD)-1 if failure.
*/
{
DWORD dwRetval = ERROR_SUCCESS;
PQELEMENT pTraverse = NULL;
DWORD dwVal = 0;
//
// parameter validation
//
if(!pNewElement || !pRetryQueue){
dwRetval = (DWORD)-1;
goto Exit;
}
// retry again in dwRetryTime
pNewElement->dwRetryTime = dwRetryTime;
pNewElement->dwRetryCount++;
//
// check to see if there are any dependencies
//
dwVal = ProcessQDependencies (
pRetryQueue,
pNewElement
);
//
// ignore return values because we are inserting in the new queue
// at a position determined by dwRetryTime
//
if (!pRetryQueue->pTail){
//
// the queue has no elements
// no tail element means no head element either
//
pRetryQueue->pTail = pNewElement;
pRetryQueue->pHead = pNewElement;
dwRetval = 0;
goto Exit;
}
//
// elements must be added in decreasing order of timeouts.
// go in and scan the list from the head.
//
pTraverse = pRetryQueue->pHead;
while ( pTraverse !=NULL &&
pTraverse->dwRetryTime <= pNewElement->dwRetryTime){
pTraverse = pTraverse->pBLink;
}
if (pTraverse == NULL){
// Now adding to the tail of the list
pNewElement->pFLink = pRetryQueue->pTail;
pNewElement->pBLink = NULL;
pRetryQueue->pTail->pBLink = pNewElement;
pRetryQueue->pTail = pNewElement;
} else {
//
// insert in place
//
pNewElement->pBLink = pTraverse;
pNewElement->pFLink = pTraverse->pFLink;
if (pTraverse->pFLink){
pTraverse->pFLink->pBLink = pNewElement;
}
pTraverse->pFLink = pNewElement;
}
Exit:
return (dwRetval);
}
DWORD
AddToTimedOutQueue(
PQELEMENT pNewElement,
PDYNDNSQUEUE pRetryQueue,
DWORD dwRetryTime
)
{
DWORD dwRetval = ERROR_SUCCESS;
EnterCriticalSection(&g_QueueCS);
dwRetval = AddToTimedOutQueueNoCrit(
pNewElement,
pRetryQueue,
dwRetryTime
);
LeaveCriticalSection(&g_QueueCS);
return (dwRetval);
}
DWORD
GetEarliestRetryTime(
PDYNDNSQUEUE pRetryQueue
)
/*
GetEarliestRetryTime()
Checks to see if there is any element at the head of the queue
and gets the retry time for this element
Arguments:
Return Value:
is retrytime if success and DWORD(-1) if there is no element or other
failure
*/
{
DWORD dwRetryTime ;
EnterCriticalSection(&g_QueueCS);
dwRetryTime = pRetryQueue && pRetryQueue->pHead ?
(pRetryQueue->pHead->dwRetryTime):
(DWORD)-1;
LeaveCriticalSection(&g_QueueCS);
return dwRetryTime;
}
/*
VOID
ProcessMainQDependencies(
PDYNDNSQUEUE pQueue,
PQELEMENT pQElement
)
{
//
// when you are adding an element to a main queue, you
// just care about the case where all elements aren't
// FORWARD_ONLY
//
BOOL fDelThisTime = FALSE;
PQELEMENT pIterator = pQueue->pTail;
while (pIterator!= NULL){
fDelThisTime = FALSE;
if (!HostAddrCmp(pIterator->HostAddr, pQElement->HostAddr)){
//
// ip addresses matched
//
if ((pIterator->dwOperation & DYNDNS_ADD_ENTRY) &&
(pQElement->dwOperation & DYNDNS_DELETE_ENTRY)) {
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
//
// blow away earlier entry entirely
//
DeleteListEntry(pQueue, &pIterator);
fDelThisTime = TRUE;
}
//
// if names are not the same do nothing.
// Issue: Will we hit this code at all? Put
// soft ASSERTS in this.
//
}
else if ((pIterator->dwOperation & DYNDNS_DELETE_ENTRY) &&
(pQElement->dwOperation & DYNDNS_ADD_ENTRY)) {
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
//
// blow away earlier entry entirely
//
DeleteListEntry(pQueue, &pIterator);
fDelThisTime = TRUE;
} else {
//
// replace iterator element with just the forward
// delete
if (!pIterator->fDoForward) {
//
// there is no forward that is requested
// blow away this entry
//
DeleteListEntry(pQueue, &pIterator);
fDelThisTime = TRUE;
} else {
//
// if you want to do a forward. Then just do
// the forward. Ignore reverses
//
pIterator ->fDoForwardOnly = TRUE;
}
}
}
else if ((pIterator->dwOperation & DYNDNS_ADD_ENTRY) &&
(pQElement->dwOperation & DYNDNS_ADD_ENTRY)) {
// replace the old entry with a forward delete.
// this is an error. Need to replace earlier add
// forward with an explicit Delete
//
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
DeleteListEntry(pQueue, &pIterator);
fDelThisTime = TRUE;
} else {
//
// Log entries into this area. This should
// be a soft assert if you are here
// Names dont match, so you need to replace earlier
// add with a delete forward only
//
if (!pIterator->fDoForward) {
//
// there is no forward add requested
// blow away this entry
//
DeleteListEntry(pQueue, &pIterator);
fDelThisTime = TRUE;
} else {
//
// if you want to *explicitly* delete old
// forward and then add the new forward/reverse.
//
pIterator ->fDoForwardOnly = TRUE;
pIterator ->dwOperation &=
~(DYNDNS_ADD_ENTRY) & DYNDNS_DELETE_ENTRY;
}
}
}
else if ((pIterator->dwOperation & DYNDNS_DELETE_ENTRY) &&
(pQElement->dwOperation & DYNDNS_DELETE_ENTRY)) {
//
// if both are deletes.
//
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
//
// blow away earlier entry. An optimization
//
DeleteListEntry(pQueue, &pIterator);
fDelThisTime = TRUE;
}
//
// if names dont match, do nothing. (To paraphrase,
// the DNS Server needs to do both!!
//
}
}
if (pIterator && !fDelThisTime) {
// pIterator may have changed because of blowing away an entry
pIterator = pIterator->pFLink;
}
}
}
*/
DWORD
ProcessQDependencies(
PDYNDNSQUEUE pTimedOutQueue,
PQELEMENT pQElement
)
/*
This function returns the retry time of the last element that you
needed to blow out, 0 if no element needed to be removed
*/
{
PQELEMENT pIterator = pTimedOutQueue->pTail;
DWORD dwRetryTime = 0;
BOOL fDelThisTime = FALSE;
while (pIterator) {
fDelThisTime = FALSE;
if (!pIterator->fDoForwardOnly && !pQElement->fDoForwardOnly){
//
// both elements are not forward only, check on ip addresses
//
if (!HostAddrCmp(pIterator->HostAddr, pQElement->HostAddr)){
//
// ip addresses matched
//
if ((pIterator->dwOperation & DYNDNS_ADD_ENTRY) &&
(pQElement->dwOperation & DYNDNS_DELETE_ENTRY)) {
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
//
// blow away earlier entry entirely
//
dwRetryTime = pIterator -> dwRetryTime;
DeleteListEntry(pTimedOutQueue, &pIterator);
fDelThisTime = TRUE;
}
//
// if names are not the same do nothing.
//
// Issue: Will we hit this code at all? Put
// soft ASSERTS in this.
//
}else if ((pIterator->dwOperation & DYNDNS_DELETE_ENTRY) &&
(pQElement->dwOperation & DYNDNS_ADD_ENTRY)) {
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
//
// blow away earlier entry entirely
//
dwRetryTime = pIterator -> dwRetryTime;
DeleteListEntry(pTimedOutQueue, &pIterator);
fDelThisTime = TRUE;
} else {
// replace iterator element with just the forward
dwRetryTime = pIterator -> dwRetryTime;
pIterator -> fDoForwardOnly = TRUE;
}
}else if ((pIterator->dwOperation & DYNDNS_ADD_ENTRY) &&
(pQElement->dwOperation & DYNDNS_ADD_ENTRY)) {
// replace the old entry with a forward delete.
// this is an error. Need to replace earlier add
// forward with an explicit Delete
//
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
DeleteListEntry(pTimedOutQueue, &pIterator);
fDelThisTime = TRUE;
} else {
//
// Log entries into this area. This should
// be a soft assert if you are here
// Names dont match, so you need to replace earlier
// add with a delete forward only
//
if (!pIterator->fDoForward) {
//
// there is no forward add requested
// blow away this entry
//
DeleteListEntry(pTimedOutQueue, &pIterator);
fDelThisTime = TRUE;
} else {
//
// if you want to *explicitly* delete old
// forward and then add the new forward/reverse.
//
pIterator ->fDoForwardOnly = TRUE;
pIterator ->dwOperation &=
~(DYNDNS_ADD_ENTRY) & DYNDNS_DELETE_ENTRY;
}
}
}
else if ((pIterator->dwOperation & DYNDNS_DELETE_ENTRY) &&
(pQElement->dwOperation & DYNDNS_DELETE_ENTRY)) {
//
// if both are deletes.
//
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
//
// blow away earlier entry. An optimization
//
DeleteListEntry(pTimedOutQueue, &pIterator);
fDelThisTime = TRUE;
}
//
// if names dont match, do nothing. (To paraphrase,
// the DNS Server needs to do both!!
//
}
}
} else if (pIterator->fDoForwardOnly) {
if ( pIterator->pszName &&
pQElement->pszName &&
!wcsicmp_ThatWorks( pIterator->pszName,
pQElement->pszName ) )
{
if ((pIterator->dwOperation & DYNDNS_ADD_ENTRY) &&
(pQElement->dwOperation & DYNDNS_ADD_ENTRY)) {
if (!HostAddrCmp(pIterator->HostAddr, pQElement->HostAddr))
{
//
// optimization blow away earlier entry
//
DeleteListEntry(pTimedOutQueue, &pIterator);
fDelThisTime = TRUE;
}
//
// if names dont match, do nothing
//
}
else if ((pIterator->dwOperation & DYNDNS_ADD_ENTRY) &&
(pQElement->dwOperation & DYNDNS_DELETE_ENTRY)) {
if (!HostAddrCmp(pIterator->HostAddr, pQElement->HostAddr)){
//
// blow away earlier entry
//
dwRetryTime = pIterator -> dwRetryTime;
DeleteListEntry(pTimedOutQueue, &pIterator);
fDelThisTime = TRUE;
}
//
// if addresses dont match, do nothing
//
} else if ((pIterator->dwOperation & DYNDNS_DELETE_ENTRY) &&
(pQElement->dwOperation & DYNDNS_ADD_ENTRY)) {
if (!HostAddrCmp(pIterator->HostAddr, pQElement->HostAddr)){
//
// blow away earlier entry
//
dwRetryTime = pIterator -> dwRetryTime;
DeleteListEntry(pTimedOutQueue, &pIterator);
fDelThisTime = TRUE;
}
//
// if addresses dont match, then dont do anything
//
} else {
// both are deletes
// do nothing here. i.e. DNS Server does both
}
}
} else if (!pIterator->fDoForwardOnly && pQElement->fDoForwardOnly) {
//
// new element is forward only
//
//
// if both elements are forwards, we cannot whack anything
// out in any case, do nothing
//
}
if (!fDelThisTime && pIterator){
pIterator = pIterator ->pFLink;
}
}
return (dwRetryTime);
}
VOID
DeleteListEntry(
PDYNDNSQUEUE pQueue,
PQELEMENT* ppIterator
)
{
PQELEMENT pPrev, pNext;
PQELEMENT pIterator = *ppIterator;
DHCP_CALLBACK_FN pfnDhcpCallBack = NULL;
PVOID pvData = NULL;
pPrev = pIterator ->pBLink;
pNext = pIterator ->pFLink;
if (pPrev) {
pPrev->pFLink = pNext;
}
if (pNext) {
pNext ->pBLink = pPrev;
}
if (pIterator == pQueue ->pHead) {
pQueue->pHead = pIterator ->pBLink;
}
if (pIterator == pQueue ->pTail) {
pQueue->pTail = pIterator ->pFLink;
}
*ppIterator = pIterator ->pFLink;
pfnDhcpCallBack = pIterator->pfnDhcpCallBack;
pvData = pIterator->pvData;
// blow away entry
if ( pIterator -> pszName )
QUEUE_FREE_HEAP( pIterator->pszName );
if ( pIterator -> DnsServerList )
QUEUE_FREE_HEAP( pIterator->DnsServerList );
if ( pfnDhcpCallBack )
(*pfnDhcpCallBack)(DNSDHCP_SUPERCEDED, pvData);
QUEUE_FREE_HEAP( pIterator );
}