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Diff Serv and QoS Support in Microsoft HostsPeter S. Fordpeterf@microsoft.comNANOG, 8 June 1998

Agenda • Why QoS? • Role of Hosts in providing QoS • Microsoft NT QoS Components

Diff Serv WG Observation • “100s of Bald Men arguing over 8 Combs” - An Internet Wag

What Needs QoS? • VPNs over the Internet • High value traffic - branch offices and telecommuters • Easy to do with static config of filter lists • Current focus of Industry Buzz • Applications sensitive to packet loss • SAP, SQL, RPC, SNA, DEC LAT, … • Web “RPC” - HTTP get • Audio over RTP/UDP - Voice over IP • Many of these are harder to do with static configurations based on layer 3 filters

Hosts and QoS • QoS, Diff Serv, etc. enhance carriage of application bits over the network • In many cases only the hosts/apps have knowledge of QoS needs • Certain web pages have priority • ports are not enough to classify traffic • End to end IP security • there are no ports to look at • Hosts have an important role in the evolving QoS landscape

Managing Resource Allocation In The Network • Current IP networks are “Best Effort” (BE) - Standby Model w/in-flight bumping • “QoS Enabled Networks” - Network Resources allocated btw BE and “more important” traffic (e.g. queue, priority, bandwidth, etc.) • Hosts signal network and request resource for entitled users/applications subject to Network Admission Control • Net Admins Authorize and Prioritize access to resources based on user application

QoS Mechanisms Exploited • Precedence/Priority • IP TOS/Precedence bits (layer 3) • tracking where differentiated services ends up ... • IEEE 802.1p (layer2) • Application Flows can be isolated, prioritized and scheduled by the Stack • Signaling into Network (RSVP, ATM) • Network Admins configure QoS Policy on hosts and in the network

Microsoft QoS Components Directory Services for QoS Policy Storage QoS-aware application Network mgmt. application WinSock2 QoS API QoS SP TCI API TCP/IP LDAP for Policies Packet classifier Packet Scheduler Netcards ACS/SBM Routers/Switches

DS RSVP PATH 1 Mbps controlled load \\redmond\userx Check \\redmond\userx Packets Rescheduled DS based QoS Networking Receiver FTP Netmeeting RSVP ISP w/Diff Serv Traffic control Router ACS 802.1p Priority Prio=5 Prio=1

Microsoft QoS Components • WinSock 2 Generic QoS API • Allows applications to request the QoS they need, regardless of the underlying mechanisms (RSVP, IP Priority, ...) • QoS Signaling - End System to Network • Explicit - RSVP with Policy Objects (e.g. user id) • integrated with IPSEC • Implicit - IP Diff Serv /IEEE 802.1p • Traffic Control API w/Kernel Stack Support • Kernel based queueing of traffic flows • IP, IEEE 802.1P precedence/priority • Admission Control Service • QoS Directory Console for Network Admins • In network policy enforcement • Also adds L2 shared media management

ACS Management Model • Network Admin Administers QoS Policies in the Directory Service • User Object is extended to permit a mapping from a User to a Group Profile • e.g. Redmond\Bob -> Programmers • Default policies at Organization Level • “All users can reserve up to 500 Kbps” • “Programmers get 100 Kbps” • Enterprise-wide User, Profile policies • Per Subnetwork Policies • Individual Users and Group Profiles

ACS Policy Operation • Host RSVP service provider inserts RSVP policy objects in RSVP messages • Contains User Identity represented as an encrypted DN {dc=com, dc=microsoft, ou=redmond, n=bob}Ksession • Security token to prove identity (kerberos ticket for ACS service) • Ticket encrypted in private key of ACS service • Session Key (Ksession) is in Ticket • Digital signature over RSVP message to avoid policy object reuse (cut and paste) • ACS servers in network authorize requests • Crack ticket to get identity of requestor • Check User’s Policy in the Directory

In Summary • Need many pieces of QoS picture to satisfy customer requirements • Diff Serv for ISPs and large networks • Fine grain policy control • Centralized management for QoS Policies • both Diff Serv and RSVP signaled flows • Use of Directory services • RSVP may prove useful in many ways • Internal provisioning of QoS - PASTE (Li and Rehkter) • Customer to ISP - dynamic signaling instead of the desert of pre- provisioning

Admission Control Services Policy Functionality • Admission Control Servers • part of RSVP process on a network server (NT, switch, router, etc.) • implements RSVP and SBM • ACS takes requests and tests against policy and/or resource limits • Hosts can use RSVP signaling • Hosts on LANs also participate in SBM • Policies are maintained in the Directory (DS) • ACS uses LDAP to retrieve Policy Information from DS • ACS Policy is per subnetwork/per user • Can be abstracted to “per Enterprise/Per Group” • Enables approval/denial of resources based on user ID, time of day, resource limits (bandwidth, priority, ...), etc. • Can Aggregate requests into priority groups at ISP/WAN interfaces • can “re-write” user id to corp id at ISP boundaries

Extensibility of ACS Policy Framework • Can add new policy objects to RSVP messages • Can add new policy interpretation modules to ACS servers • API to call out to policy module • Can extend ACS policy objects in the Directory • End Systems can pull policy down from Directory to configure QoS

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