Difference between revisions of "Using the IPv4 Code Option"

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Revision as of 16:12, 10 March 2010

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Introduction

>>>> Metanet or Meta-Net ??? <<<<<

An SPP is a PlanetLab node that combines the high-performance and programmability of Network Processors (NPs) with the programmability of general-purpose processors (GPEs). The Hello GPE World Tutorial page described how to use a GPE. This page describes the SPP's fastpath (NP) features using the IPv4 meta-net as an example. Those features include:

  • Bandwidth, queue, filter and memory resources
  • Logical interfaces (meta-interfaces) within each physical interface
  • Packet scheduling queues and their binding to meta-interfaces
  • Filters for forwarding packets to queues

Like any PlanetLab node, the SPP runs a server on each GPE that allows a user to allocate a subset of a node's resources called a slice. Although an SPP user can prototype a new router by writing a socket program for the GPE, the SPP's high performance can only be tapped by using a SPP's NP. That is, use a fastpath-slowpath packet processing paradigm where the fastpath uses NPs to process data packets at high speed while the slowpath uses GPEs to handle control and exception packets. The SPP's IPv4 code option is an example of this fastpath-slowpath paradigm.

This page describes a simple IPv4 meta-net and in doing so, illustrates the fastpath-slowpath paradigm that would be in any high-speed implementation. Configuring the SPP so that it will process IPv4 packets using the IPv4 code option involves these steps:

  • Allocate (and configure) a fastpath (FP)
  • Create one or more meta-interfaces (MIs)
  • Create and configure packet queues, and bind each queue to an MI
  • Install filters to direct incoming packets to packet queues

A fastpath creation request specifies your desire for SPP resources such as interface bandwidths, queues, filters and memory. Once you are granted those resources, you define meta-interfaces within the fastpath and structure meta-interfaces and resources for packet forwarding.

The SPP Fastpath

A network of SPPs is a network of nodes connected by UDP tunnels. The nodes can be SPPs, hosts (PlanetLab and non-PlanetLab), or any packet processors. A UDP tunnel has two endpoints, each defined by the pair (IP address, UDP port). Note that this address-port pair is from the addressing domain of the IP network that carries the packets. Note the following about an SPP node:

  • It has multiple physical interfaces.
  • Each physical interface has an IP address.
  • An interface connected to another SPP has a private IP address.
  • An interface can be shared (without interference) by multiple SPP slices (users).

A packet that travels through this network of SPPs have an outer header, an inner (meta-net) header and a payload (packet content).

A packet arriving to an SPP is assumed to be a meta-net packet encapsulated in an IP/UDP packet. The SPP strips off the outer IP/UDP headers before delivering the meta-net packet to either a user's process running on a GPE or to the fastpath code option running on the network processor (NP). That is, a meta-net packet is tunneled through the Internet and between SPPs.

In the case of an IPv4 meta-net, an IPv4 packet is encapsulated in another IPv4 packet. We refer to the inner packet as an IPv4 meta-net packet and the outer packet as the real-net packet which consists of an IPv4 meta-net packet, UDP header and IP header.

A meta-interface allows SPP users to share an SPP's physical interface.

>>>>> HERE <<<<<

Recall from The Hello GPE World Tutorial that slowpath endpoints allowed packets to be sent to a process running on a GPE where an endpoint is specified by its IP address and UDP port number. The same idea is used in the fastpth: fastpath endpoints


  • Meta-Router packets
  • Meta-interface
  • UDP tunnel
  • Queues
  • Code option

The IPv4 Meta-Net

XXXXX

  • Packet path
  • Filters
  • Stats

Utilities and Daemons

XXXXX

  • scfg
    • generic
    • information, reservation management, queue management, resource allocation/freeing
  • ip_fpc
    • IPv4 filter management
  • ip_fpd
    • create IPv4 fastpath
    • process LD and EX traffic
  • sliced
    • process monitoring requests

Example 1

  • overview of Ex1
  • 1 SPP
  • real-net, meta-net relations
  • only ping traffic (local and remote)

Preparation

XXXXX getting files, etc

Setup the SPP

XXXXX setup script setupFP1.sh

  • MIs
    • Implicit MI 0 for LD and EX
    • 1 for each FP EP plus MI 0 (LD, EX)
  • Filters
    • direct incoming packet to queue
    • For LD: "--txdaddr 0 --txdport 0 --qid 0"
  • Queues
    • each queue is bound to an MI
    • each MI can have 1 or more queues
    • q$N for EX and q${N-1} for LD where $N is #queues
    • pkt scheduling: weighted fair queueing

Send Traffic

XXXXX

Teardown the SPP

XXXXX teardown script teardownFP1.sh

Example 2

XXXXX

  • simplest complete example
  • all traffic
  • sliced