There is no English translation for this web page.
Topics for the Seminar on Internet Routing, WS 2012/13
Topics for the seminar on Internet Routing (WS
Themen für das Seminar über Internet Routing (WS 2012/13) .
- LIFEGUARD: Practical Repair of Persistent Route Failures
- Reverse traceroute
- Seamless BGP Migration With Router Grafting
- Kademlia: A Peer-to-peer Information System Based on the XOR Metric
- Hedera: Dynamic Flow Scheduling for Data Center Networks
- The Collateral Damage of Internet Censorship by DNS Injection
- Adaptive forwarding in named data networking
- RouteBricks: Exploiting Parallelism To Scale Software Routers
- Compact Routing on Internet-Like Graphs
- Link Positions Matter: A Noncommutative Routing Metric for Wireless Mesh Networks
- On Count-to-Infinity Induced Forwarding Loops in Ethernet Networks
- Avoiding transient Loops during IGP Convergence in IP Networks
- Pathlet Routing
- A Deep Dive Into the LISP Cache and What ISPs Should Know About It
- A Reality Check for Content Centric Networking
- SPAIN: COTS Data-Center Ethernet for Multipathing over Arbitrary Topologies
- Improving Datacenter Performance and Robustness with Multipath TCP
- A Technique for Reducing BGP Update Announcements through Path Exploration Damping
- GreenTE: Power-Aware Traffic Engineering
- Private and Veriﬁable Interdomain Routing Decisions
LIFEGUARD: Practical Repair of Persistent Route Failures
The Internet was designed to always ﬁnd a route if there is a policycompliant path. However, in many cases, connectivity is disrupted despite the existence of an underlying valid path. The research community has focused on short-term outages that occur during route convergence. There has been less progress on addressing avoidable long-lasting outages. Our measurements show that longlasting events contribute signiﬁcantly to overall unavailability. To address these problems, we develop LIFEGUARD, a system for automatic failure localization and remediation. LIFEGUARD uses active measurements and a historical path atlas to locate faults, even in the presence of asymmetric paths and failures. Given the ability to locate faults, we argue that the Internet protocols should allow edge ISPs to steer trafﬁc to them around failures, without requiring the involvement of the network causing the failure. Although the Internet does not explicitly support this functionality today, we show how to approximate it using carefully crafted BGP messages. LIFEGUARD employs a set of techniques to reroute around failures with low impact on working routes. Deploying LIFEGUARD on the Internet, we ﬁnd that it can effectively route trafﬁc around an AS without causing widespread disruption.
- Ethan Katz-Bassett, Colin Scott, David R. Choffnes, Ítalo Cunha, Vytautas Valancius, Nick Feamster, Harsha V. Madhyastha, Thomas Anderson, and Arvind Krishnamurthy. 2012. LIFEGUARD: practical repair of persistent route failures . In Proceedings of the ACM SIGCOMM 2012 conference on Applications, technologies, architectures, and protocols for computer communication (SIGCOMM '12). ACM, New York, NY, USA, 395-406.
Student/Bearbeiter: –; Supervisor/Betreuer: –
Traceroute is the most widely used Internet diagnostic tool today. Network operators use it to help identify routing failures, poor performance, and router misconﬁgurations. Researchers use it to map the Internet, predict performance, geolocate routers, and classify the performance of ISPs. However, traceroute has a fundamental limitation that affects all these applications: it does not provide reverse path information. Although various public traceroute servers across the Internet provide some visibility, no general method exists for determining a reverse path from an arbitrary destination. In this paper, we address this longstanding limitation by building a reverse traceroute system. Our system provides the same information as traceroute, but for the reverse path, and it works in the same case as traceroute, when the user may lack control of the destination. We use a variety of measurement techniques to incrementally piece together the path from the destination back to the source. We deploy our system on PlanetLab and compare reverse traceroute paths with traceroutes issued from the destinations. In the median case our tool ﬁnds 87% of the hops seen in a directly measured traceroute along the same path, versus only 38% if one simply assumes the path is symmetric, a common fallback given the lack of available tools. We then illustrate how we can use our reverse traceroute system to study previously unmeasurable aspects of the Internet: we present a case study of how a content provider could use our tool to troubleshoot poor path performance, we uncover more than a thousand peer-to-peer AS links invisible to current topology mapping efforts, and we measure the latency of individual backbone links with average error under a millisecond.
- E. Katz-Bassett, H. Madhyastha, V. Adhikari, C. Scott, J. Sherry, P. van Wesep, A. Krishnamurthy, T. Anderson. Reverse traceroute . USENIX Symposium on Networked Systems Design & Implementation (NSDI), 2010.
Seamless BGP Migration With Router Grafting
Network operators are under tremendous pressure to make their networks highly reliable to avoid service disruptions. Yet, operators often need to change the network to upgrade faulty equipment, deploy new services, and install new routers. Unfortunately, changes cause disruptions, forcing a trade-off between the beneﬁt of the change and the disruption it will cause. In this paper we present router grafting, where parts of a router are seamlessly removed from one router and merged into another. We focus on grafting a BGP session and the underlying link–from one router to another, or between blades in a cluster-based router. Router grafting allows an operator to rehome a customer with no disruption, compared to downtimes today measured in minutes. In addition, grafting a BGP session can help in balancing load between routers or blades, planned maintenance, and even trafﬁc management. We show that grafting a BGP session is practical even with today’s monolithic router software. Our prototype implementation uses and extends Click, the Linux kernel, and Quagga, and introduces a daemon that automates the migration process.
- Eric Keller, Jennifer Rexford, and Jacobus Van Der Merwe. 2010. Seamless BGP migration with router grafting . In Proceedings of the 7th USENIX conference on Networked systems design and implementation (NSDI'10). USENIX Association, Berkeley, CA, USA, 16-16.
Kademlia: A Peer-to-peer Information System Based on the XOR Metric
We describe a peer-to-peer system which has provable consistency and performance in a fault-prone environment. Our system routes queries and locates nodes using a novel XOR-based metric topology that simpliﬁes the algorithm and facilitates our proof. The topology has the property that every message exchanged conveys or reinforces useful contact information. The system exploits this information to send parallel, asynchronous query messages that tolerate node failures without imposing timeout delays on users.
- Petar Maymounkov and David Mazières, Kademlia: A Peer-to-peer Information System Based on the XOR Metric. In 1st International Workshop on Peer-to-peer Systems  (IPTPS'02), 2002.
Hedera: Dynamic Flow Scheduling for Data Center Networks
Student/Bearbeiter: –; Supervisor/Betreuer: –
Today’s data centers offer tremendous aggregate bandwidth to clusters of tens of thousands of machines. However, because of limited port densities in even the highest-end switches, data center topologies typically consist of multi-rooted trees with many equal-cost paths between any given pair of hosts. Existing IP multipathing protocols usually rely on per-ﬂow static hashing and can cause substantial bandwidth losses due to longterm collisions. In this paper, we present Hedera, a scalable, dynamic ﬂow scheduling system that adaptively schedules a multi-stage switching fabric to efﬁciently utilize aggregate network resources. We describe our implementation using commodity switches and unmodiﬁed hosts, and show that for a simulated 8,192 host data center, Hedera delivers bisection bandwidth that is 96% of optimal and up to 113% better than static load-balancing methods.
- Mohammad Al-Fares, Sivasankar Radhakrishnan, Barath Raghavan, Nelson Huang, and Amin Vahdat. 2010. Hedera: dynamic flow scheduling for data center networks . In Proceedings of the 7th USENIX conference on Networked systems design and implementation (NSDI'10). USENIX Association, Berkeley, CA, USA, 19-19.
The Collateral Damage of Internet Censorship by DNS Injection
Some ISPs and governments (most notably the Great Firewall of China) use DNS injection to block access to “unwanted” websites. The censorship tools inspect DNS queries near the ISP’s boundary routers for sensitive domain keywords and injecting forged DNS responses, blocking the users from accessing censored sites, such as twitter.com and facebook.com. Unfortunately this causes large scale collateral damage, aﬀecting communication beyond the censored networks when outside DNS traﬃc traverses censored links. In this paper, we analyze the causes of the collateral damages comprehensively and measure the Internet to identify the injecting activities and their eﬀect. We ﬁnd 39 ASes in China injecting forged replies even for transit DNS traﬃc, and 26% of 43,000 measured open resolvers outside China, distributed in 109 countries, may suﬀer some collateral damage. Diﬀerent from previous work, we ﬁnd that most collateral damage arises from resolvers querying TLD name servers who’s transit passes through China rather than eﬀects due to root servers (F, I, J) located in China.
- Anonymous. The collateral damage of internet censorship by DNS injection . SIGCOMM Comput. Commun. Rev. 42, 3 21-27.
Adaptive forwarding in named data networking
Student/Bearbeiter: –; Supervisor/Betreuer: –
In Named Data Networking (NDN) architecture, packets carry data names rather than source or destination addresses. This change of paradigm leads to a new data plane: data consumers send out Interest packets, routers forward them and maintain the state of pending Interests, which is used to guide Data packets back to the consumers. NDN routers' forwarding process is able to detect network problems by observing the two-way traffic of Interest and Data packets, and explore multiple alternative paths without loops. This is in sharp contrast to today's IP forwarding process which follows a single path chosen by the routing process, with no adaptability of its own. In this paper we outline the design of NDN's adaptive forwarding, articulate its potential benefits, and identify open research issues.
- Cheng Yi, Alexander Afanasyev, Lan Wang, Beichuan Zhang, and Lixia Zhang. Adaptive forwarding in named data networking . SIGCOMM Comput. Commun. Rev. 42, 3 62-67
RouteBricks: Exploiting Parallelism To Scale Software Routers
Student/Bearbeiter: –; Supervisor/Betreuer: –
We revisit the problem of scaling software routers, motivated by recent advances in server technology that enable high-speed parallel processing—a feature router workloads appear ideally suited to exploit. We propose a software router architecture that parallelizes router functionality both across multiple servers and across multiple cores within a single server. By carefully exploiting parallelism at every opportunity, we demonstrate a 35Gbps parallel router prototype; this router capacity can be linearly scaled through the use of additional servers. Our prototype router is fully programmable using the familiar Click/Linux environment and is built entirely from off-the-shelf, general-purpose server hardware.
- Mihai Dobrescu and Norbert Egi, Katerina Argyraki, Byung-Gon Chun, Kevin Fall,Gianluca Iannaccone, Allan Knies, Maziar Manesh, Sylvia Ratnasamy. RouteBricks: Exploiting Parallelism To Scale Software Routers . 22nd ACM Symposium on Operating Systems Principles (SOSP), October 2009
Compact Routing on Internet-Like Graphs
The Thorup-Zwick (TZ) compact routing scheme is the first generic stretch-3 routing scheme delivering a nearly optimal per-node memory upper bound. Using both direct analysis and simulation, we derive the stretch distribution of this routing scheme on Internet-like inter-domain topologies. By investigating the TZ scheme on random graphs with power-law node degree distributions, Pk ≅ k-γ, we find that the average TZ stretch is quite low and virtually independent of γ. In particular, for the Internet inter-domain graph with γ ≈ 2.1, the average TZ stretch is around 1.1, with up to 70% of all pairwise paths being stretch-1 (shortest possible). As the network grows, the average stretch slowly decreases. We find routing table sizes to be very small (around 50 records for 104-node networks), well below their theoretical upper bounds. Furthermore, we find that both the average shortest path length (i.e., distance) d and width of the distance distribution σ observed in the real Internet inter-AS graph have values that are very close to the minimums of the average stretch in the d- and σ-directions. This leads us to the discovery of a unique critical point of the average TZ stretch as a function of d and σ. The Internet's distance distribution is located in a close neighborhood of this point. This is remarkable given the fact that the Internet inter-domain topology has evolved without any direct attention paid to properties of the stretch distribution. It suggests the average stretch function may be an indirect indicator of the optimization criteria influencing the Internet's inter-domain topology evolution.
- Dmitri Krioukov, Kevin Fall, Xiaowei Yang. Compact Routing on Internet-Like Graphs . Infocom 2004
Link Positions Matter: A Noncommutative Routing Metric for Wireless Mesh Networks
We revisit the problem of computing the path with the minimum cost in terms of the expected number of link layer transmissions (including retransmissions) in wireless mesh networks. Unlike previous efforts, such as the popular ETX, we account for the fact that MAC protocols (including the IEEE 802.11 MAC) incorporate a finite number of transmission attempts per packet. This in turn leads to our key observation: the performance of a path depends not only on the number of the links on the path and the quality of its links, but also, on the relative positions of the links on the path. Based on this observation, we propose ETOP, a path metric that accurately captures the expected number of link layer transmissions required for reliable end-to-end packet delivery. We analytically compute ETOP, which is not trivial, since ETOP is a noncommutative function of the link success probabilities. Although ETOP is a more involved metric, we show that the problem of computing paths with the minimum ETOP cost can be solved by a greedy algorithm. We implement and evaluate a routing approach based on ETOP on a 25-node indoor mesh network. Our experiments show that the path selection with ETOP consistently results in superior TCP goodput (by over 50% in many cases) compared to path selection based on ETX. We also perform an in-depth analysis of the measurements to better understand why the paths selected by ETOP improve the TCP performance.
- Jakllari G., Eidenbenz S., Hengartner N., Krishnamurthy S.V., Faloutsos M. Link Positions Matter: A Noncommutative Routing Metric for Wireless Mesh Networks . INFOCOM 2008. The 27th Conference on Computer Communications. IEEE
On Count-to-Infinity Induced Forwarding Loops in Ethernet Networks
Ethernet's high performance, low cost and ubiquity have made it the dominant networking technology for many application domains. Unfortunately, its distributed forwarding topology computation protocol—the Rapid Spanning Tree Protocol (RSTP)—can suffer from a classic “count-to-infinity” problem that may lead to a forwarding loop under certain network failures. The consequences are serious. During the period of “count-to-infinity”, which can last tens of seconds even in a small network, the network can become highly congested by packets that persist in cycles in the network, even packet forwarding can fail as the forwarding tables are polluted. In this paper, we explain the origin of this problem in detail and study its behavior. We find that simply tuning RSTP's parameter settings cannot adequately address the fundamental problem with “count-toinfinity”. We propose a simple and effective solution called RSTP with Epochs. This approach uses epochs of sequence numbers in protocol messages to eliminate stale protocol information in the network and allows the forwarding topology to recover in merely one round-trip time across the network.
- Khaled Elmeleegy, Alan L. Cox, T. S. Eugene Ng. On Count-to-Infinity Induced Forwarding Loops in Ethernet Networks . IEEE INFOCOM '06, Barcelona, Spain, April 2006
Avoiding transient Loops during IGP Convergence in IP Networks
When the topology of an IP network changes due to a link failure or a link metric modification, the routing tables of all the routers must be updated. Each of those updates may cause transient loops. In this paper, we prove that by ordering the updates of the routing tables on the routers, it is possible to avoid all transient loops during the convergence of ISIS or OSPF after a planned link failure, an unplanned failure of a protected link and after a link metric modification. We then propose a protocol that allows the routers to order the update of their routing tables to avoid transient loops without requiring any complex computation.
- Pierre Francois, Olivier Bonaventure. Avoiding transient Loops during IGP Convergence in IP Networks . Infocom 2005
We present a new routing protocol, pathlet routing, in which networks advertise fragments of paths, called pathlets, that sources concatenate into end-to-end source routes. Intuitively, the pathlet is a highly flexible building block, capturing policy constraints as well as enabling an exponentially large number of path choices. In particular, we show that pathlet routing can emulate the policies of BGP, source routing, and several recent multipath proposals.
This flexibility lets us address two major challenges for Internet routing: scalability and source-controlled routing. When a router's routing policy has only "local" constraints, it can be represented using a small number of pathlets, leading to very small forwarding tables and many choices of routes for senders. Crucially, pathlet routing does not impose a global requirement on what style of policy is used, but rather allows multiple styles to coexist. The protocol thus supports complex routing policies while enabling and incentivizing the adoption of policies that yield small forwarding plane state and a high degree of path choice.
- P. Brighton Godfrey, Igor Ganichev, Scott Shenker, and Ion Stoica. Pathlet Routing . SIGCOMM 2009, Barcelona, Spain, 2009.
A Deep Dive Into the LISP Cache and What ISPs Should Know About It
Student/Bearbeiter: –; Supervisor/Betreuer: –
Due to scalability issues that the current Internet is facing, the research community has re-discovered the Locator/ID Split paradigm. As the name suggests, this paradigm is based on the idea of separating the identity from the location of end-systems, in order to increase the scalability of the Internet architecture. One of the most successful proposals, currently under discussion at the IETF, is LISP (Locator/ID Separation Protocol). A critical component of LISP, from a performance and resources consumption perspective, as well as from a security point of view, is the LISP Cache. The LISP Cache is meant to temporarily store mappings, i.e., the bindings between identifiers and locations, in order to provide routers with the knowledge of where to forward packets. This paper presents a thorough analysis of such a component, based on real packet-level traces. Furthermore, the implications of policies to increase the level of security of LISP are also analyzed. Our results prove that even a timeout as short as 60 seconds provides high hit ratio and that the impact of using security policies is small.
- Juhoon Kim, Luigi Iannone, and Anja Feldmann. A Deep Dive into the LISP Cache and What ISPs Should Know about It . IFIP International Conference on Networking, 2011.
A Reality Check for Content Centric Networking
Content-Centric Networking (CCN) is a novel networking paradigm centered around content distribution rather than host-to-host connectivity. This change from host-centric to content-centric has several attractive advantages, such as network load reduction, low dissemination latency, and energy efficiency. However, it is unclear whether today's technology is ready for the CCN (r)evolution. The major contribution of this paper is a systematic evaluation of the suitability of existing software and hardware components in today's routers for the support of CCN. Our main conclusion is that a CCN deployment is feasible at a Content Distribution Network (CDN) and ISP scale, whereas today's technology is not yet ready to support an Internet scale deployment.
- Diego Perino and Matteo Varvello. A Reality Check for Content Centric Networking . Workshop on Information-Centric Networking (ICN '11) at SIGCOMM Conference, Toronto, Canada, August 2011.
SPAIN: COTS Data-Center Ethernet for Multipathing over Arbitrary Topologies
Operators of data centers want a scalable network fabric that supports high bisection bandwidth and host mobility, but which costs very little to purchase and administer. Ethernet almost solves the problem – it is cheap and supports high link bandwidths – but traditional Ethernet does not scale, because its spanning-tree topology forces trafﬁc onto a single tree. Many researchers have described “scalable Ethernet” designs to solve the scaling problem, by enabling the use of multiple paths through the network. However, most such designs require speciﬁc wiring topologies, which can create deployment problems, or changes to the network switches, which could obviate the commodity pricing of these parts. In this paper, we describe SPAIN (“Smart Path Assignment In Networks”). SPAIN provides multipath forwarding using inexpensive, commodity off-the-shelf (COTS) Ethernet switches, over arbitrary topologies. SPAIN precomputes a set of paths that exploit the redundancy in a given network topology, then merges these paths into a set of trees; each tree is mapped as a separate VLAN onto the physical Ethernet. SPAIN requires only minor end-host software modiﬁcations, including a simple algorithm that chooses between pre-installed paths to efﬁciently spread load over the network. We demonstrate SPAIN’s ability to improve bisection bandwidth over both simulated and experimental data-center networks.
- Mudigonda, Jayaram and Yalagandula, Praveen and Al-Fares, Mohammad and Mogul, Jeffrey C. SPAIN: COTS data-center Ethernet for multipathing over arbitrary topologies . NSDI 2010.
Improving Datacenter Performance and Robustness with Multipath TCP
The latest large-scale data centers offer higher aggregate bandwidth and robustness by creating multiple paths in the core of the network. To utilize this bandwidth requires different flows take different paths, which poses a challenge. In short, a single-path transport seems ill-suited to such networks.
We propose using Multipath TCP as a replacement for TCP in such data centers, as it can effectively and seamlessly use available bandwidth, giving improved throughput and better fairness on many topologies. We investigate what causes these benefits, teasing apart the contribution of each of the mechanisms used by MPTCP.
Using MPTCP lets us rethink data center networks, with a different mindset as to the relationship between transport protocols, routing and topology. MPTCP enables topologies that single path TCP cannot utilize. As a proof-of-concept, we present a dual-homed variant of the FatTree topology. With MPTCP, this outperforms FatTree for a wide range of workloads, but costs the same.
In existing data centers, MPTCP is readily deployable leveraging widely deployed technologies such as ECMP. We have run MPTC on Amazon EC2 and found that it outperforms TCP by a factor of three when there is path diversity. But the biggest benefits will come when data centers are designed for multipath transports.
- Costin Raiciu, Sebastien Barré, Christopher Pluntke, Adam Greenhalgh, Damon Wischik, and Mark Handley. Improving Datacenter Performance and Robustness with Multipath TCP . ACM SIGCOMM Annual Conference 2011.
A Technique for Reducing BGP Update Announcements through Path Exploration Damping
This paper defines and evaluates Path Exploration Damping (PED) a router-level mechanism for reducing the volume of propagation of likely transient update messages within a BGP network and decreasing average time to restore reachability compared to current BGP Update damping practices. PED selectively delays and suppresses the propagation of BGP updates that either lengthen an existing AS Path or vary an existing AS Path without shortening its length. We show how PED impacts on convergence time compared to currently deployed mechanisms like Route Flap Damping (RFD), Minimum Route Advertisement Interval (MRAI) and Withdrawal Rate Limiting (WRATE). We replay Internet BGP update traffic captured at two Autonomous Systems to observe that a PED-enabled BGP speaker can reduce the total number of BGP announcements by up to 32% and reduce Path Exploration by 77% compared to conventional use of MRAI. We also describe how PED can be incrementally deployed in the Internet, as it interacts well with prevailing MRAI deployment, and enables restoration of reachability more quickly than MRAI.
- Geoff Huston, Mattia Rossi, and Grenville Armitage. A Technique for Reducing BGP Update Announcements through Path Exploration Damping . IEEE Journal on Selected Areas in Communications, Vol. 28, No. 8, October 2010.
GreenTE: Power-Aware Traffic Engineering
Current network infrastructures exhibit poor power efficiency, running network devices at full capacity all the time regardless of the traffic demand and distribution over the network. Most research on router power management are at component level or link level, treating routers as isolated devices. A complementary approach is to facilitate power management at network level by routing traffic through different paths to adjust the workload on individual routers or links. Given the high path redundancy and low link utilization in today's large networks, this approach can potentially allow more network devices or components to go into power saving mode. This paper proposes an intra-domain traffic engineering mechanism, GreenTE, which maximizes the number of links that can be put into sleep under given performance constraints such as link utilization and packet delay. Using network topologies and traffic data from several wide-area networks, our evaluation shows that GreenTE can reduce line-cards' power consumption by 27% to 42% under constraints that the maximum link utilization is below 50% and the network diameter remains the same as in shortest path routing.
- Mingui Zhang, Cheng Yi, Bin Liu, and Beichuan Zhang. GreenTE: Power-Aware Traffic Engineering . IEEE International Conference on Network Protocols (ICNP '10), October 2011.
Private and Veriﬁable Interdomain Routing Decisions
Existing secure interdomain routing protocols can verify validity properties about individual routes, such as whether they correspond to a real network path. It is often useful to verify more complex properties relating to the route decision procedure – for example, whether the chosen route was the best one available, or whether it was consistent with the network’s peering agreements. However, this is difﬁcult to do without knowing a network’s routing policy and full routing state, which are not normally disclosed. In this paper, we show how a network can allow its peers to verify a number of nontrivial properties of its interdomain routing decisions without revealing any additional information. If all the properties hold, the peers learn nothing beyond what the interdomain routing protocol already reveals; if a property does not hold, at least one peer can detect this and prove the violation. We present SPIDeR, a practical system that applies this approach to the Border Gateway Protocol, and we report results from an experimental evaluation to demonstrate that SPIDeR has a reasonable overhead..
- Mingchen Zhao, Wenchao Zhou, Alexander Gurney, Andreas Haeberlen, Micah Sherr, Boon Thau Loo. Private and Veriﬁable Interdomain Routing Decisions . SIGCOMM 2012.
Lehre / Teaching, WS 2012/13
- Network Protocols and Architectures (VL+UE) 
- NA: Internet Routing (SE) 
- Meshlab (PR) 
0432 L 822
Lecturer: Anja Feldman et al.
Location: TEL 1118/19
from 19.10.2012 16:00 o'clock
19.10.2012: Preparatory meeting. The dates for the seminar itself will be fixed later.