Packet-Hiding Methods for Preventing Selective Jamming Attacks.
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Packet-Hiding Methods for Preventing
Selective
Jamming Attacks
Abstract
The open nature of the wireless medium leaves it vulnerable to intentional
interference attacks, typically referred to as jamming. This intentional
interference with wireless transmissions can be used as a launchpad for
mounting Denial-of-Service attacks on wireless networks. Typically, jamming has
been addressed under an external threat model. However, adversaries with
internal knowledge of protocol specifications and network secrets can launch
low-effort jamming attacks that are difficult to detect and counter. In this
work, we address the problem of selective jamming attacks in wireless networks.
In these attacks, the adversary is active only for a short period of time,
selectively targeting messages of high importance. We illustrate the advantages
of selective jamming in terms of network performance degradation and adversary
effort by presenting two case studies; a selective attack on TCP and one on
routing.We show that selective jamming attacks can be launched by performing
real-time packet classification at the physical layer. To mitigate these
attacks, we develop three schemes that prevent real-time packet classification
by combining cryptographic primitives with physical-layer attributes. We
analyze the security of our methods and evaluate their computational and
communication overhead.
Existing System
Jamming attacks are much harder to counter and more security
problems. They have been shown to actualize severe Denial-of-Service (DoS)
attacks against wireless networks. In the simplest form of jamming, the
adversary interferes with the reception of messages by transmitting a
continuous jamming signal , or several short jamming pulses jamming attacks
have been considered under an external threat model, in which the jammer is not
part of the network. Under this model, jamming strategies include the
continuous or random transmission of highpower interference signals
Proposed System
In this paper, we address the problem of jamming under an
internal threat model. We consider a sophisticated adversary who is aware of
network secrets and the implementation details of network protocols at any
layer in the network stack. The adversary exploits his internal knowledge for
launching selective
jamming attacks in which specific messages of
“high importance” are targeted. For example, a jammer can target
route-request/route-reply messages at the routing layer to prevent route
discovery, or target TCP acknowledgments in a TCP session to severely degrade
the throughput of an end-to-end flow
To launch selective jamming attacks, the adversary must be
capable of implementing a “classify-then-jam” strategy before the completion of
a wireless transmission. Such strategy can be actualized either by classifying
transmitted packets using protocol semantics, or by decoding
packets on the fly. In the latter method, the jammer may decode
the first few bits of a packet for recovering useful packet identifiers such as
packet type, source and destination address. After classification, the
adversary must induce a sufficient number of bit errors so that the packet cannot
be recovered at the receiver [34]. Selective jamming requires an intimate
knowledge of the physical (PHY) layer, as well as of the specifics of upper
layers
Modules:-
1.
Network module
2. Real Time Packet Classification
3. Selective Jamming Module
4. Strong Hiding Commitment Scheme (SHCS)
5. Cryptographic
Puzzle Hiding Scheme (CPHS)
System Requirements:
Hardware Requirements:
• System : Pentium IV 2.4 GHz.
• Hard Disk : 40 GB.
• Floppy Drive : 1.44 Mb.
• Monitor : 15 VGA Colour.
• Mouse : Logitech.
• Ram : 256 Mb.
Software Requirements:
·
Operating
system :- Windows XP Professional
·
Front
End :- JAVA, Swing(JFC),RMI
·
Tool :Eclipse 3.3
About the author
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