DOCUMENT:Q152719 19-FEB-2002 [winnt] TITLE :WAN and Trust: Traffic on the Wire PRODUCT :Microsoft Windows NT PROD/VER::3.51 OPER/SYS: KEYWORDS: ====================================================================== ------------------------------------------------------------------------------- The information in this article applies to: - Microsoft Windows NT Workstation version 3.51 - Microsoft Windows NT Server version 3.51 ------------------------------------------------------------------------------- SUMMARY ======= This article describes a new feature that is included in Windows NT 3.51 Service Pack 5. This feature is designed to allow you to reduce network traffic related to Windows NT trust relationship polling over a wide area network (WAN) using perhaps a leased line (for example, an ISDN or X.25 line) where the leased line provider charges by the amount of network traffic. Trust relationship polling occurs between domain controllers (DCs) to establish a secure channel. In Windows NT 3.51 without this new feature, if the secure channel cannot be established, it is retried every 15 minutes. With this new feature installed you can control the intervals between which a DC sends discovery packets in search of a DC of a trusted domain. Microsoft has made a fix in Netlogon.dll so that you can increase the time between retries and you can increase the time in which NETLOGON assumes a DC is reachable (ScavengeInterval and ExpectedDialupDelay). For additional information, , please see the following article in the Microsoft Knowledge Base: Q154355How to Tune Trusts for Dialup Routers in a WAN When Windows NT Uses Polling Between Domain Controllers ------------------------------------------------------- In Windows NT 3.51, once a secure channel to a trusted domain has been established (that is, after the DC in domain_A found a DC in the trusted domain_B), Windows NT does not continue to poll the secure channel to make sure the secure channel is still available. If, however, the DC is contacted for some other reason, for example, if a user logs on and a pass-through authentication to the other domain is required, the first DC needs to contact the second DC again and network polling of the secure channel starts for this reason once again and stops after the the pass-through authentication is completed. Regular network traffic packets are not caused by trust relationship polling of the secure channel, so if you frequently observe frames related to trust relationship traffic on your WAN router, it is probably caused by an unreliable WAN in which case this new feature helps you reduce this type of network traffic. NETLOGON Debug Output Samples ----------------------------- The following sections numbered 1, 2, 3, and 4 are about the NETLOGON debug output that appears when trusts are involved: 1. The following NETLOGON debug-output is from a primary domain controller (PDC) of the trusting domain that cannot find a DC in the trusted domain (the network cable is disconnected): 00:00:00 NlInitTrustList: MASTERDOM in LSA 00:00:00 NlUpdateTrustListBySid: MASTERDOM: Added to local trust list 00:00:00 NlDcDiscoveryMachine: MASTERDOM: Start Discovery 00:00:05 NlDcDiscoveryMachine: MASTERDOM: Discovery retry 1 00:00:10 NlDcDiscoveryMachine: MASTERDOM: Discovery retry 2 00:15:00 NlDcDiscoveryMachine: MASTERDOM: Start Discovery 00:30:00 NlDcDiscoveryMachine: MASTERDOM: Start Discovery The above frames show that the PDC tries to find the DC by calling NlDcDiscoveryMachine three times and waits five seconds between each retry. After these three retries the Scavenger Timer causes NETLOGON to look for the trusted domain again every 15 minutes. Here are some of the frames that appear (sent by the PDC of the trusting domain): *BROADCAST NBT NS: Query req. for MASTERDOM <1C>: check to find a trusted domain DC Because the PDC cannot find a DC by broadcasting the PDC starts using WINS: *BROADCAST ARP_RARP ARP: Request, Target IP: 191.60.0.1: find the router to get to WINS 2. The PDC of the trusting domain can find a DC in the trusted domain: NETLOGON debug output: 00:00:00 NlInitTrustList: domainname in LSA 00:00:00 NlUpdateTrustListBySid: domainname: Added to local trust list 00:00:00 NlDcDiscoveryMachine: domainname: Start Discovery 00:00:00 NlDcDiscoveryMachine: MASTERDOM: Found DC \\D-SPOCK on transport \Device\NetBT_Lance1 00:00:00 NlDcDiscoveryMachine: MASTERDOM: DC \\D-KIRK ignored. DC previously found. 00:00:00 NlDcDiscoveryMachine: MASTERDOM: DC \\NTD-UHURA ignored. DC previously found. 00:00:00 NlDcDiscoveryMachine: MASTERDOM: DC \\D-MCKOY ignored. DC previously found. Here are some of the frames that appear (sent by the PDC of the trusting domain to the DC of the trusted domain): NETLOGON SAM LOGON request from client RESCTL1 D-KIRK NETLOGON SAM LOGON request from client RESCTL1 D-SPOCK NETLOGON SAM LOGON request from client RESCTL1 NETLOGON SAM LOGON request from client RESCTL1 D-MCKOY NETLOGON SAM Response to SAM LOGON request D-SPOCK RESCTL1 NETLOGON SAM LOGON request from client RESCTL1 191.60.19.243 NETLOGON SAM Response to SAM LOGON request D-KIRK RESCTL1 NETLOGON SAM LOGON request from client RESCTL1 NTD-UHURA NETLOGON SAM Response to SAM LOGON request NTD-UHURA RESCTL1 NETLOGON SAM Response to SAM LOGON request D-MCKOY RESCTL1 3. After the trust setup fails once because the cable is purposely disconnected, the following NETLOGON debug-output occurs with the cable reconnected. The PDC tries to log on to the trusted domain: 00:00 NlSessionSetup: MASTERDOM Try Session setup 00:00 NlStartApiClientSession: MASTERDOM: Bind to server \\D-SPOCK. 00:00 NlSetStatusClientSession: MASTERDOM: Set connection status to 0 00:00 NlSessionSetup: MASTERDOM Session setup Succeeded Here are some of the frames sent between trusting PDC and trusted DC: R_LOGON RPC Client call logon:NetrServerReqChallenge(..) R_LOGON RPC Server response logon:NetrServerReqChallenge(..) R_LOGON RPC Client call logon:NetrServerAuthenticate2(..) R_LOGON RPC Server response logon:NetrServerAuthenticate2(..) R_LOGON RPC Client call logon:NetrLogonSamLogon(..) R_LOGON RPC Server response logon:NetrLogonSamLogon(..) R_LOGON RPC Client call logon:NetrLogonSamLogoff(..) R_LOGON RPC Server response logon:NetrLogonSamLogoff(..) NETLOGON SAM LOGON request from client RESCTL1 D-MCKOY NETLOGON SAM LOGON request from client RESCTL1 D-KIRK NETLOGON SAM LOGON request from client RESCTL1 NTHANSJUS 4. After the trust is established, the connection to the trusted domain is timed out (internally in NETLOGON): 00:00:00 NlTimeoutApiClientSession Called 00:00:45 NlTimeoutApiClientSession Called 00:01:30 NlTimeoutApiClientSession Called 00:02:15 NlTimeoutApiClientSession Called 00:02:15 NlTimeoutApiClientSession: MASTERDOM: Unbind from server \\D- SPOCK. 00:03:00 NlTimeoutApiClientSession Called This causes only the following frames to appear on the network: SMB C close file, FID = 0x805 RESCTL1 D-SPOCK IP SMB R close file D-SPOCK RESCTL1 IP RESCTL1 D-SPOCK TCP .A...., len: 0, seq: 7004192, ack: 422155081, win: 7883, src RESCTL1 D-SPOCK IP The DC calls NlTimeoutApiClientSession every 45 seconds. And finally the PDC drops the connection to the trusted DC by closing the named pipe. NOTE: The PDC does not drop the secure channel and therefore does not have to rediscover the DC in the trusted domain. This saves the PDC scavenger from having to look for the DC every 15 minutes. STATUS ====== Microsoft has confirmed this to be a problem in SNA Server for Windows NT version 3.51. This problem was corrected in the latest Windows NT 3.51 U.S. Service Pack. For information on obtaining the Service Pack, query on the following word in the Microsoft Knowledge Base (without the spaces): S E R V P A C K Additional query words: prodnt 3.51 ISDN WAN chatter ====================================================================== Keywords : Technology : kbWinNTsearch kbWinNTWsearch kbWinNT351search kbWinNTW351search kbWinNTW351 kbWinNTSsearch kbWinNTS351 kbWinNTS351search Version : :3.51 ============================================================================= THE INFORMATION PROVIDED IN THE MICROSOFT KNOWLEDGE BASE IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND. MICROSOFT DISCLAIMS ALL WARRANTIES, EITHER EXPRESS OR IMPLIED, INCLUDING THE WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL MICROSOFT CORPORATION OR ITS SUPPLIERS BE LIABLE FOR ANY DAMAGES WHATSOEVER INCLUDING DIRECT, INDIRECT, INCIDENTAL, CONSEQUENTIAL, LOSS OF BUSINESS PROFITS OR SPECIAL DAMAGES, EVEN IF MICROSOFT CORPORATION OR ITS SUPPLIERS HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGES SO THE FOREGOING LIMITATION MAY NOT APPLY. Copyright Microsoft Corporation 2002.