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429 lines
11 KiB
429 lines
11 KiB
/*++
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Copyright (c) 1997 Microsoft Corporation
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Module Name:
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cxaddr.c
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Abstract:
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TDI Address Object management code.
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Author:
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Mike Massa (mikemas) February 20, 1997
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Revision History:
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Who When What
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-------- -------- ----------------------------------------------
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mikemas 02-20-97 created
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Notes:
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--*/
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#include "precomp.h"
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#pragma hdrstop
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#include "cxaddr.tmh"
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#define CX_WILDCARD_PORT 0 // 0 means assign a port.
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#define CX_MIN_USER_PORT 1025 // Minimum value for a wildcard port
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#define CX_MAX_USER_PORT 5000 // Maximim value for a user port.
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#define CX_NUM_USER_PORTS (CX_MAX_USER_PORT - CX_MIN_USER_PORT + 1)
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//
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// Address Object Data
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//
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USHORT CxNextUserPort = CX_MIN_USER_PORT;
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LIST_ENTRY CxAddrObjTable[CX_ADDROBJ_TABLE_SIZE];
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#if DBG
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CN_LOCK CxAddrObjTableLock = {0,0};
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#else // DBG
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CN_LOCK CxAddrObjTableLock = 0;
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#endif // DBG
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NTSTATUS
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CxParseTransportAddress(
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IN TRANSPORT_ADDRESS UNALIGNED *AddrList,
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IN ULONG AddressListLength,
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OUT CL_NODE_ID * Node,
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OUT PUSHORT Port
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)
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{
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LONG i;
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PTA_ADDRESS currentAddr;
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TDI_ADDRESS_CLUSTER UNALIGNED * validAddr;
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if (AddressListLength >= sizeof(TA_CLUSTER_ADDRESS)) {
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//
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// Find an address we can use.
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//
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currentAddr = (PTA_ADDRESS) AddrList->Address;
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for (i = 0; i < AddrList->TAAddressCount; i++) {
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if ( (currentAddr->AddressType == TDI_ADDRESS_TYPE_CLUSTER) &&
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(currentAddr->AddressLength >= TDI_ADDRESS_LENGTH_CLUSTER)
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)
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{
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validAddr = (TDI_ADDRESS_CLUSTER UNALIGNED *)
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currentAddr->Address;
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*Node = validAddr->Node;
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*Port = validAddr->Port;
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return(STATUS_SUCCESS);
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}
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else {
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if ( AddressListLength >=
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(currentAddr->AddressLength + sizeof(TA_CLUSTER_ADDRESS))
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)
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{
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AddressListLength -= currentAddr->AddressLength;
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currentAddr = (PTA_ADDRESS)
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( currentAddr->Address +
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currentAddr->AddressLength
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);
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}
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else {
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break;
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}
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}
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}
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}
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return(STATUS_INVALID_ADDRESS_COMPONENT);
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} // CxParseTransportAddress
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PCX_ADDROBJ
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CxFindAddressObject(
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IN USHORT Port
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)
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/*++
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Notes:
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Called with AO Table lock held.
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Returns with address object lock held.
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--*/
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{
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PLIST_ENTRY entry;
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ULONG hashBucket = CX_ADDROBJ_TABLE_HASH(Port);
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PCX_ADDROBJ addrObj;
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for ( entry = CxAddrObjTable[hashBucket].Flink;
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entry != &(CxAddrObjTable[hashBucket]);
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entry = entry->Flink
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)
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{
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addrObj = CONTAINING_RECORD(
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entry,
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CX_ADDROBJ,
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AOTableLinkage
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);
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if (addrObj->LocalPort == Port) {
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CnAcquireLockAtDpc(&(addrObj->Lock));
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addrObj->Irql = DISPATCH_LEVEL;
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return(addrObj);
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}
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}
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return(NULL);
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} // CxFindAddressObject
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NTSTATUS
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CxOpenAddress(
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OUT PCN_FSCONTEXT * CnFsContext,
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IN TRANSPORT_ADDRESS UNALIGNED * TransportAddress,
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IN ULONG TransportAddressLength
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)
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{
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PCX_ADDROBJ addrObj, oldAddrObj;
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NTSTATUS status;
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CL_NODE_ID nodeId;
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USHORT port;
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CN_IRQL tableIrql;
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ULONG i;
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ULONG hashBucket;
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status = CxParseTransportAddress(
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TransportAddress,
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TransportAddressLength,
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&nodeId,
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&port
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);
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if (status != STATUS_SUCCESS) {
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IF_CNDBG(CN_DEBUG_ADDROBJ) {
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CNPRINT((
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"[Clusnet] Open address - failed to parse address, status %lx\n",
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status
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));
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}
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return(status);
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}
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addrObj = CnAllocatePool(sizeof(CX_ADDROBJ));
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if (addrObj == NULL) {
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return(STATUS_INSUFFICIENT_RESOURCES);
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}
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RtlZeroMemory(addrObj, sizeof(CX_ADDROBJ));
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CN_INIT_SIGNATURE(&(addrObj->FsContext), CX_ADDROBJ_SIG);
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CnInitializeLock(&(addrObj->Lock), CX_ADDROBJ_LOCK);
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addrObj->Flags |= CX_AO_FLAG_CHECKSTATE;
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CnAcquireLock(&CxAddrObjTableLock, &tableIrql);
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// If no port is specified we have to assign one. If there is a
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// port specified, we need to make sure that the port isn't
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// already open. If the input address is a wildcard, we need to
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// assign one ourselves.
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if (port == CX_WILDCARD_PORT) {
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port = CxNextUserPort;
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for (i = 0; i < CX_NUM_USER_PORTS; i++, port++) {
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if (port > CX_MAX_USER_PORT) {
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port = CX_MIN_USER_PORT;
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}
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oldAddrObj = CxFindAddressObject(port);
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if (oldAddrObj == NULL) {
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IF_CNDBG(CN_DEBUG_ADDROBJ) {
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CNPRINT(("[Clusnet] Assigning port %u\n", port));
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}
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break; // Found an unused port.
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}
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CnReleaseLockFromDpc(&(oldAddrObj->Lock));
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}
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if (i == CX_NUM_USER_PORTS) { // Couldn't find a free port.
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IF_CNDBG(CN_DEBUG_ADDROBJ) {
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CNPRINT((
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"[Clusnet] No free wildcard ports.\n"
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));
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}
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CnReleaseLock(&CxAddrObjTableLock, tableIrql);
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CnFreePool(addrObj);
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return (STATUS_TOO_MANY_ADDRESSES);
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}
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CxNextUserPort = port + 1;
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} else { // Address was specificed
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oldAddrObj = CxFindAddressObject(port);
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if (oldAddrObj != NULL) {
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IF_CNDBG(CN_DEBUG_ADDROBJ) {
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CNPRINT((
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"[Clusnet] Port %u is already in use.\n",
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port
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));
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}
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CnReleaseLockFromDpc(&(oldAddrObj->Lock));
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CnReleaseLock(&CxAddrObjTableLock, tableIrql);
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CnFreePool(addrObj);
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return (STATUS_ADDRESS_ALREADY_EXISTS);
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}
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}
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addrObj->LocalPort = port;
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hashBucket = CX_ADDROBJ_TABLE_HASH(port);
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InsertHeadList(
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&(CxAddrObjTable[hashBucket]),
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&(addrObj->AOTableLinkage)
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);
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*CnFsContext = (PCN_FSCONTEXT) addrObj;
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IF_CNDBG(CN_DEBUG_ADDROBJ) {
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CNPRINT((
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"[Clusnet] Opened address object %p for port %u\n",
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addrObj,
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port
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));
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}
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CnTrace(
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CDP_ADDR_DETAIL, CdpTraceOpenAO,
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"[Clusnet] Opened address object %p for port %u.",
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addrObj,
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port
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);
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CnReleaseLock(&CxAddrObjTableLock, tableIrql);
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return(STATUS_SUCCESS);
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} // CxOpenAddress
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NTSTATUS
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CxCloseAddress(
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IN PCN_FSCONTEXT CnFsContext
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)
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{
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PCX_ADDROBJ addrObj = (PCX_ADDROBJ) CnFsContext;
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CN_IRQL tableIrql;
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IF_CNDBG(CN_DEBUG_ADDROBJ) {
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CNPRINT((
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"[Clusnet] Closed address object %p for port %u\n",
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addrObj,
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addrObj->LocalPort
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));
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}
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CnTrace(
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CDP_ADDR_DETAIL, CdpTraceCloseAO,
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"[Clusnet] Closed address object %p for port %u.",
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addrObj,
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addrObj->LocalPort
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);
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CnAcquireLock(&CxAddrObjTableLock, &tableIrql);
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CnAcquireLockAtDpc(&(addrObj->Lock));
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RemoveEntryList(&(addrObj->AOTableLinkage));
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CnReleaseLockFromDpc(&(addrObj->Lock));
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CnReleaseLock(&CxAddrObjTableLock, tableIrql);
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//
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// The address object memory will be freed by the common code.
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//
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return(STATUS_SUCCESS);
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} // CxCloseAddress
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NTSTATUS
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CxSetEventHandler(
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IN PIRP Irp,
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IN PIO_STACK_LOCATION IrpSp
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)
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{
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NTSTATUS status = STATUS_SUCCESS;
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PTDI_REQUEST_KERNEL_SET_EVENT request;
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PCX_ADDROBJ addrObj;
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CN_IRQL irql;
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//
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// Since this ioctl registers a callback function pointer, ensure
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// that it was issued by a kernel-mode component.
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//
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if (Irp->RequestorMode != KernelMode) {
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return(STATUS_ACCESS_DENIED);
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}
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addrObj = (PCX_ADDROBJ) IrpSp->FileObject->FsContext;
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request = (PTDI_REQUEST_KERNEL_SET_EVENT) &(IrpSp->Parameters);
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IF_CNDBG(CN_DEBUG_ADDROBJ) {
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CNPRINT((
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"[Clusnet] TdiSetEvent type %u handler %p context %p\n",
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request->EventType,
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request->EventHandler,
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request->EventContext
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));
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}
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CnAcquireLock(&(addrObj->Lock), &irql);
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switch (request->EventType) {
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case TDI_EVENT_ERROR:
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addrObj->ErrorHandler = request->EventHandler;
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addrObj->ErrorContext = request->EventContext;
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break;
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case TDI_EVENT_RECEIVE_DATAGRAM:
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addrObj->ReceiveDatagramHandler = request->EventHandler;
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addrObj->ReceiveDatagramContext = request->EventContext;
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break;
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case TDI_EVENT_CHAINED_RECEIVE_DATAGRAM:
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addrObj->ChainedReceiveDatagramHandler = request->EventHandler;
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addrObj->ChainedReceiveDatagramContext = request->EventContext;
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break;
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default:
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status = STATUS_INVALID_PARAMETER;
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break;
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}
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CnReleaseLock(&(addrObj->Lock), irql);
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Irp->IoStatus.Status = status;
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IoCompleteRequest(Irp, IO_NETWORK_INCREMENT);
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return(status);
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} // CxSetEventHandler
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VOID
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CxBuildTdiAddress(
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PVOID Buffer,
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CL_NODE_ID Node,
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USHORT Port,
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BOOLEAN Verified
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)
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/*++
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Routine Description:
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Called when we need to build a TDI address structure. We fill in
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the specifed buffer with the correct information in the correct
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format.
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Arguments:
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Buffer - Buffer to be filled in as TDI address structure.
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Node - Node ID to fill in.
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Port - Port to be filled in.
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Verified - During a receive, whether clusnet verified the
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signature and data
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Return Value:
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Nothing
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--*/
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{
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PTRANSPORT_ADDRESS xportAddr;
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PTA_ADDRESS taAddr;
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xportAddr = (PTRANSPORT_ADDRESS) Buffer;
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xportAddr->TAAddressCount = 1;
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taAddr = xportAddr->Address;
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taAddr->AddressType = TDI_ADDRESS_TYPE_CLUSTER;
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taAddr->AddressLength = sizeof(TDI_ADDRESS_CLUSTER);
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((PTDI_ADDRESS_CLUSTER) taAddr->Address)->Port = Port;
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((PTDI_ADDRESS_CLUSTER) taAddr->Address)->Node = Node;
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((PTDI_ADDRESS_CLUSTER) taAddr->Address)->ReservedMBZ =
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((Verified) ? 1 : 0);
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}
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