RFC 3181 (rfc3181) - Page 2 of 12
Signaled Preemption Priority Policy Element
Alternative Format: Original Text Document
RFC 3181 Signaled Preemption Priority Policy Element October 2001 Table of Contents 1 Introduction .....................................................2 2 Scope and Applicability ..........................................3 3 Stateless Policy .................................................3 4 Policy Element Format ............................................4 5 Priority Merging Issues ..........................................5 5.1 Priority Merging Strategies ...................................6 5.1.1 Take priority of highest QoS .................................6 5.1.2 Take highest priority ........................................7 5.1.3 Force error on heterogeneous merge ...........................7 5.2 Modifying Priority Elements ...................................7 6 Error Processing .................................................8 7 IANA Considerations ..............................................8 8 Security Considerations ..........................................8 9 References .......................................................9 10 Author's Address ...............................................9 Appendix A: Example ...............................................10 A.1 Computing Merged Priority ....................................10 A.2 Translation (Compression) of Priority Elements ...............11 Full Copyright Statement ..........................................12 1 Introduction This document describes a preemption priority policy element for use by signaled policy based admission protocols (such as [RSVP] and [COPS]). Traditional Capacity based Admission Control (CAC) indiscriminately admits new flows until capacity is exhausted (First Come First Admitted). Policy based Admission Control (PAC) on the other hand attempts to minimize the significance of order of arrival and use policy based admission criteria instead. One of the more popular policy criteria is the rank of importance of a flow relative to the others competing for admission into a network node. Preemption Priority takes effect only when a set of flows attempting admission through a node represents overbooking of resources such that based on CAC some would have to be rejected. Preemption priority criteria help the node select the most important flows (highest priority) for admission, while rejecting the low priority ones. Network nodes which support preemption should consider priorities to preempt some previously admitted low-priority flows in order to make room for a newer, high-priority flow. Herzog Standards Track
