Realistic traffic shaping in dummynet link emulator

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Title Realistic traffic shaping in dummynet link emulator
Publication Type thesis
School or College College of Engineering
Department Computing
Author Syed, Aisha
Date 2014
Description Dummynet is a link emulator that can be used by itself, as well as integrated within testbeds such as Emulab. Despite its popularity in the research community, Dummynet still lacks the ability to precisely emulate certain real network effects. In particular, it has no support for packet reordering. Since reordering is a common and prevalent network phe- nomenon just like packet loss or delay, it cannot be ignored when implementing emulators if we want to provide realistic emulation. It has been observed that networks suffer from reordering caused by packet striping, retransmissions, load balancing, multipath forwarding, etc. This has significant nega- tive effects on the performance of both Transmission Control Protocol (TCP) and User Datagram Protocol (UDP). With the increase in prevalence of real-time streaming UDP applications such as video conferencing and Internet Protocol Television (IPTV), it has become important to focus on this problem which affects the performance of all these applications. Research into models and tools to diagnose and understand reordering requires that a sophisticated metric be used to describe it. So, in this thesis, I make two contributions: improving the realism of traffic shaping in Dummynet emulator by adding support for emulation of reordering, and an algorithm, a max-flow solver, that generates reordered sequences to be used by Dummynet, from a sophisticated reordering metric called Reorder Density (RD). My implementation enables the user to specify the desired amount of reordering in a metric, such as RD (or even others), and have Dummynet generate traffic that is reordered according to the input metric's value. This is accomplished within Dummynet by the use of a newly implemented scheduler. I conclude my thesis with an evaluation using real and software generated network traces to show that the algorithm is scalable and the implementation works correctly. Also, a datapath evaluation to show that my modifications to Dummynet do not result in any unnecessary increase in emulation running time is included.
Type Text
Publisher University of Utah
Subject Dummynet; Emulation; Packet reordering; Reorder density; Simulation; Traffic shaping
Dissertation Name Master of Science
Language eng
Rights Management ©Aisha Syed
Format application/pdf
Format Medium application/pdf
ARK ark:/87278/s6f233q1
Setname ir_etd
ID 1343750
Reference URL https://collections.lib.utah.edu/ark:/87278/s6f233q1
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