Partial Network Partitioning-Reference-Cited by-同舟云学术

Partial Network Partitioning

Published:2022-12-19 Issue: Volume: Page:
ISSN:0734-2071
Container-title:ACM Transactions on Computer Systems
language:en
Short-container-title:ACM Trans. Comput. Syst.

Author:

Alkhatib Basil¹,Udayashankar Sreeharsha¹,Qunaibi Sara¹,Alquraan Ahmed¹,Alfatafta Mohammed¹,Al-Manasrah Wael¹,Depoutovitch Alex²,Al-Kiswany Samer¹

Affiliation:

1. University of Waterloo, Canada

2. Huawei Research Canada, Canada

Abstract

We present an extensive study focused on partial network partitioning. Partial network partitions disrupt the communication between some but not all nodes in a cluster. First, we conduct a comprehensive study of system failures caused by this fault in 13 popular systems. Our study reveals that the studied failures are catastrophic (e.g., lead to data loss), easily manifest, and are mainly due to design flaws. Our analysis identifies vulnerabilities in core systems mechanisms including scheduling, membership management, and ZooKeeper-based configuration management. Second, we dissect the design of nine popular systems and identify four principled approaches for tolerating partial partitions. Unfortunately, our analysis shows that implemented fault tolerance techniques are inadequate for modern systems; they either patch a particular mechanism or lead to a complete cluster shutdown, even when alternative network paths exist. Finally, our findings motivate us to build Nifty, a transparent communication layer that masks partial network partitions. Nifty builds an overlay between nodes to detour packets around partial partitions. Nifty provides an approach for applications to optimize their operation during a partial partition. We demonstrate the benefit of this approach through integrating Nifty with VoltDB, HDFS, and Kafka.

Publisher

Association for Computing Machinery (ACM)

Subject

General Computer Science

Link

https://dl.acm.org/doi/pdf/10.1145/3576192

Reference110 articles.

1. Daniel Turner Kirill Levchenko Jeffrey C Mogul Stefan Savage Alex C Snoeren Daniel Turner Kirill Levchenko Jeffrey C Mogul Stefan Savage and Alex C Snoeren. 2012. On failure in managed enterprise networks. HP Labs HPL-2012-101(2012). Daniel Turner Kirill Levchenko Jeffrey C Mogul Stefan Savage Alex C Snoeren Daniel Turner Kirill Levchenko Jeffrey C Mogul Stefan Savage and Alex C Snoeren. 2012. On failure in managed enterprise networks. HP Labs HPL-2012-101(2012).

2. Data Center : Load Balancing Data Center , Solutions Reference Nework Design. Technical report, Cisco Systems , Inc ., 2004 . ([n. d.]). Data Center: Load Balancing Data Center, Solutions Reference Nework Design. Technical report, Cisco Systems, Inc., 2004. ([n. d.]).

3. Evolve or Die

4. Sushant Jain , Alok Kumar , Subhasree Mandal , Joon Ong , Leon Poutievski , Arjun Singh , Subbaiah Venkata , Jim Wanderer , Junlan Zhou , Min Zhu , et al . 2013 . B4: Experience with a globally-deployed software defined WAN. In ACM SIGCOMM Computer Communication Review, Vol. 43. ACM , 3–14. Sushant Jain, Alok Kumar, Subhasree Mandal, Joon Ong, Leon Poutievski, Arjun Singh, Subbaiah Venkata, Jim Wanderer, Junlan Zhou, Min Zhu, et al. 2013. B4: Experience with a globally-deployed software defined WAN. In ACM SIGCOMM Computer Communication Review, Vol. 43. ACM, 3–14.

5. Understanding network failures in data centers

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