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bib
--- Timezone: UTC
Creation date: 2024-11-21
Creation time: 12-32-23
--- Number of references
7
inproceedings
2012-wripe-sasnauskas-symnet
Integration Testing of Protocol Implementations using Symbolic Distributed Execution
2012
10
6 S.
kleenet
fileadmin/papers/2012/2012-09-wripe-sasnauskas-SymNet.pdf
Print Online
Piscataway, NJ, USA
The 2nd International Workshop on Rigorous Protocol Engineering (WRiPE 2012), 30 October - 02 November 2012, Austin, TX, USA
IEEE
Austin, TX, USA
The 2nd International Workshop on Rigorous Protocol Engineering (WRiPE 2012)
October 30 - November 02 2012
en
978-1-4673-2445-8
10.1109/ICNP.2012.6459940
1
RaimondasSasnauskas
PhilippKaiser
Russ LucasJukić
KlausWehrle
inproceedings
2012-taicpart-dustmann-symbolic-time
Position Paper: Symbolic System Time in Distributed Systems Testing
2012
4
We propose an extension of symbolic execution of distributed systems to test software parts related to timing.
Currently, the execution model is limited to symbolic input for individual nodes, not capturing the important class of timing errors resulting from varying network conditions.
In this paper, we introduce symbolic system time in order to systematically find timing-related bugs in distributed systems.
Instead of executing time events at a concrete time, we execute them at a set of times and analyse possible event interleavings on demand.
We detail on the resulting problem space, discuss possible algorithmic optimisations, and highlight our future research directions.
kleenet
fileadmin/papers/2012/2012-04-taicpart-soriadustmann-symtime.pdf
TAICPART'2012
en
1
OscarSoria Dustmann
RaimondasSasnauskas
KlausWehrle
inproceedings
2011-icdcs-sasnauskas-sde
Scalable Symbolic Execution of Distributed Systems
2011
6
333-342
Recent advances in symbolic execution have proposed a number of promising solutions to automatically achieve high-coverage and explore non-determinism during testing.
This attractive testing technique of unmodified software assists developers with concrete inputs and deterministic schedules to analyze erroneous program paths.
Being able to handle complex systems' software, these tools only consider single software instances and not their distributed execution which forms the core of distributed systems.
The step to symbolic distributed execution is however steep, posing two core challenges: (1) additional state growth and (2) the state intra-dependencies resulting from communication.
In this paper, we present SDE—a novel approach enabling scalable symbolic execution of distributed systems.
The key contribution of our work is two-fold.
First, we generalize the problem space of SDE and develop an algorithm significantly eliminating redundant states during testing.
The key idea is to benefit from the nodes' local communication minimizing the number of states representing the distributed execution.
Second, we demonstrate the practical applicability of SDE in testing with three sensornet scenarios running Contiki OS.
kleenet
fileadmin/papers/2011/2011-06-icdcs-sasnauskas-sde.pdf
Druck
IEEE Computer Society
Los Alamitos, CA, USA
Proceedings of the 31st IEEE International Conference on Distributed Computing Systems (ICDCS 2011), June 2011, Minneapolis, MN, USA
en
978-0-7695-4364-2
1063-6927
10.1109/ICDCS.2011.28
1
RaimondasSasnauskas
OscarSoria Dustmann
Benjamin LucienKaminski
CarstenWeise
StefanKowalewski
KlausWehrle
inproceedings
2010-sensys-sasnauskas-coojakleenet
Demo Abstract: Integrating Symbolic Execution with Sensornet Simulation for Efficient Bug Finding
2010
11
383--384
High-coverage testing of sensornet applications is vital for pre-deployment bug cleansing, but has previously been difficult due to the limited set of available tools. We integrate the KleeNet symbolic execution engine with the COOJA network simulator to allow for straight-forward and intuitive high-coverage testing initiated from a simulation environment. A tight coupling of simulation and testing helps detect, narrow down, and fix complex interaction bugs in an early development phase. We demonstrate the seamless transition between COOJA simulation and KleeNet symbolic execution. Our framework enables future research in how high-coverage testing tools could be used in cooperation with simulation tools.
kleenet
fileadmin/papers/2010/2010-osterlind_sasnauskas-sensys-coojakleenet.pdf
Print
ACM
New York, NY, USA
Proceedings of the 8th ACM Conference on Embedded Networked Sensor Systems (SenSys 2010), Zurich, Switzerland
en
978-1-4503-0344-6
http://doi.acm.org/10.1145/1869983.1870034
1
FredrikÖsterlind
RaimondasSasnauskas
AdamDunkels
OscarSoria Dustmann
KlausWehrle
inproceedings
2010-ipsn-sasnauskas-kleenet
KleeNet: Discovering Insidious Interaction Bugs in Wireless Sensor Networks Before Deployment
2010
4
12
186--196
Complex interactions and the distributed nature of wireless sensor networks make automated testing and debugging before deployment a necessity. A main challenge is to detect bugs that occur due to non-deterministic events, such as node reboots or packet duplicates. Often, these events have the potential to drive a sensor network and its applications into corner-case situations, exhibiting bugs that are hard to detect using existing testing and debugging techniques. In this paper, we present KleeNet, a debugging environment that effectively discovers such bugs before deployment. KleeNet executes unmodified sensor network applications on symbolic input and automatically injects non-deterministic failures. As a result, KleeNet generates distributed execution paths at high-coverage, including low-probability corner-case situations. As a case study, we integrated KleeNet into the Contiki OS and show its effectiveness by detecting four insidious bugs in the uIP TCP/IP protocol stack. One of these bugs is critical and lead to refusal of further connections.
automated protocol testing, experimentation, failure detection, wireless sensor networks
kleenet
fileadmin/papers/2010/2010-04-ipsn-sasnauskas-KleeNet.pdf
Print
ACM
New York, NY, USA
Proceedings of the 9th ACM/IEEE International Conference on Information Processing in Sensor Networks (IPSN 2010), Stockholm, Sweden
en
978-1-60558-988-6
http://doi.acm.org/10.1145/1791212.1791235
1
RaimondasSasnauskas
OlafLandsiedel
Muhammad HamadAlizai
CarstenWeise
StefanKowalewski
KlausWehrle
inproceedings
2008-sensys-sasnauskas-kleenet
Poster Abstract: KleeNet - Automatic Bug Hunting in Sensor Network Applications
2008
11
425--426
We present KleeNet, a Klee based bug hunting tool for sensor network applications before deployment. KleeNet automatically tests code for all possible inputs, ensures memory safety, and integrates well into TinyOS based application development life cycle, making it easy for developers to test their applications.
bug finding, memory safety, tinyos, type safety
kleenet
fileadmin/papers/2008/2008-11-Sasnauskas-SenSys08-KleeNet.pdf
Print
ACM
New York, NY, USA
Proceedings of the 6th ACM conference on Embedded network sensor systems (SenSys'08), Raleigh, NC, USA
en
978-1-59593-990-6
http://doi.acm.org/10.1145/1460412.1460485
1
RaimondasSasnauskas
Jó AgilaBitsch Link
Muhammad HamadAlizai
KlausWehrle
techreport
2008-fgsn-sasnauskas-kleenet
Bug Hunting in Sensor Network Applications
2008
9
Testing sensor network applications is an essential and a difficult task. Due to their distributed and faulty nature, severe resource constraints, unobservable interactions, and limited human interaction, sensor networks, make monitoring and debugging of applications strenuous and more challenging.
In this paper we present KleeNet - a Klee based platform independent bug hunting tool for sensor network applications before deployment - which can automatically test applications for all possible inputs, and hence, ensures memory safety for TinyOS based applications. Upon finding a bug,
KleeNet generates a concrete test case with real input values identifying a specific error path in a program. Additionally, we show that KleeNet integrates well into TinyOS application development life cycle with minimum manual effort, making it easy for developers to test their applications.
kleenet
fileadmin/papers/2008/2008-09-Sasnauskas-FGSN08-BugHunting.pdf
ftp://ftp.inf.fu-berlin.de/pub/reports/tr-b-08-12.pdf
Print
Freie Universität Berlin, Institute of Computer Science
Berlin, Germany
Proceedings of the 7th GI/ITG Fachgespraech Wireless Sensor Networks, Berlin, Germany
Chair of Communication and Distributed Systems (ComSys)
en
1
RaimondasSasnauskas
Jó AgilaBitsch Link
Muhammad HamadAlizai
KlausWehrle