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Linux Advanced Routing & Traffic Control HOWTO

Bert Hubert

Gregory Maxwell (Section Author)
Remco van Mook (Section Author)

remco@virtu.nl


Martijn van Oosterhout (Section Author)

kleptog@cupid.suninternet.com


Paul B Schroeder (Section Author)

paulsch@us.ibm.com


Jasper Spaans (Section Author)

jasper@spaans.ds9a.nl


Pedro Larroy (Section Author)

piotr%omega.resa.es



Table of Contents
1. Dedication
2. Introduction
2.1. Disclaimer & License
2.2. Prior knowledge
2.3. What Linux can do for you
2.4. Housekeeping notes
2.5. Access, CVS & submitting updates
2.6. Mailing list
2.7. Layout of this document
3. Introduction to iproute2
3.1. Why iproute2?
3.2. iproute2 tour
3.3. Prerequisites
3.4. Exploring your current configuration
3.4.1. ip shows us our links
3.4.2. ip shows us our IP addresses
3.4.3. ip shows us our routes
3.5. ARP
4. Rules - routing policy database
4.1. Simple source policy routing
4.2. Routing for multiple uplinks/providers
4.2.1. Split access
4.2.2. Load balancing
5. GRE and other tunnels
5.1. A few general remarks about tunnels:
5.2. IP in IP tunneling
5.3. GRE tunneling
5.3.1. IPv4 Tunneling
5.3.2. IPv6 Tunneling
5.4. Userland tunnels
6. IPv6 tunneling with Cisco and/or 6bone
6.1. IPv6 Tunneling
7. IPSEC: secure IP over the Internet
7.1. Intro with Manual Keying
7.2. Automatic keying
7.2.1. Theory
7.2.2. Example
7.2.3. Automatic keying using X.509 certificates
7.3. IPSEC tunnels
7.4. Other IPSEC software
7.5. IPSEC interoperation with other systems
7.5.1. Windows
8. Multicast routing
9. Queueing Disciplines for Bandwidth Management
9.1. Queues and Queueing Disciplines explained
9.2. Simple, classless Queueing Disciplines
9.2.1. pfifo_fast
9.2.2. Token Bucket Filter
9.2.3. Stochastic Fairness Queueing
9.3. Advice for when to use which queue
9.4. Terminology
9.5. Classful Queueing Disciplines
9.5.1. Flow within classful qdiscs & classes
9.5.2. The qdisc family: roots, handles, siblings and parents
9.5.3. The PRIO qdisc
9.5.4. The famous CBQ qdisc
9.5.5. Hierarchical Token Bucket
9.6. Classifying packets with filters
9.6.1. Some simple filtering examples
9.6.2. All the filtering commands you will normally need
9.7. The Intermediate queueing device (IMQ)
9.7.1. Sample configuration
10. Load sharing over multiple interfaces
10.1. Caveats
10.2. Other possibilities
11. Netfilter & iproute - marking packets
12. Advanced filters for (re-)classifying packets
12.1. The u32 classifier
12.1.1. U32 selector
12.1.2. General selectors
12.1.3. Specific selectors
12.2. The route classifier
12.3. Policing filters
12.3.1. Ways to police
12.3.2. Overlimit actions
12.3.3. Examples
12.4. Hashing filters for very fast massive filtering
13. Kernel network parameters
13.1. Reverse Path Filtering
13.2. Obscure settings
13.2.1. Generic ipv4
13.2.2. Per device settings
13.2.3. Neighbor policy
13.2.4. Routing settings
14. Advanced & less common queueing disciplines
14.1. bfifo/pfifo
14.1.1. Parameters & usage
14.2. Clark-Shenker-Zhang algorithm (CSZ)
14.3. DSMARK
14.3.1. Introduction
14.3.2. What is Dsmark related to?
14.3.3. Differentiated Services guidelines
14.3.4. Working with Dsmark
14.3.5. How SCH_DSMARK works.
14.3.6. TC_INDEX Filter
14.4. Ingress qdisc
14.4.1. Parameters & usage
14.5. Random Early Detection (RED)
14.6. Generic Random Early Detection
14.7. VC/ATM emulation
14.8. Weighted Round Robin (WRR)
15. Cookbook
15.1. Running multiple sites with different SLAs
15.2. Protecting your host from SYN floods
15.3. Rate limit ICMP to prevent dDoS
15.4. Prioritizing interactive traffic
15.5. Transparent web-caching using netfilter, iproute2, ipchains and squid
15.5.1. Traffic flow diagram after implementation
15.6. Circumventing Path MTU Discovery issues with per route MTU settings
15.6.1. Solution
15.7. Circumventing Path MTU Discovery issues with MSS Clamping (for ADSL, cable, PPPoE & PPtP users)
15.8. The Ultimate Traffic Conditioner: Low Latency, Fast Up & Downloads
15.8.1. Why it doesn't work well by default
15.8.2. The actual script (CBQ)
15.8.3. The actual script (HTB)
15.9. Rate limiting a single host or netmask
15.10. Example of a full nat solution with QoS
15.10.1. Let's begin optimizing that scarce bandwidth
15.10.2. Classifying packets
15.10.3. Improving our setup
15.10.4. Making all of the above start at boot
16. Building bridges, and pseudo-bridges with Proxy ARP
16.1. State of bridging and iptables
16.2. Bridging and shaping
16.3. Pseudo-bridges with Proxy-ARP
16.3.1. ARP & Proxy-ARP
16.3.2. Implementing it
17. Dynamic routing - OSPF and BGP
17.1. Setting up OSPF with Zebra
17.1.1. Prerequisites
17.1.2. Configuring Zebra
17.1.3. Running Zebra
18. Other possibilities
19. Further reading
20. Acknowledgements