Application-Aware Secure Multicast for Power Grid Communications Jianqing Zhang* and Carl A. Gunter University of Illinois at Urbana-Champaign * Now working.

Application-Aware Secure Multicast for Power Grid Communications

Jianqing Zhang* and Carl A. Gunter

University of Illinois at Urbana-Champaign

* Now working at Energy Systems Research Lab, Intel Labs

• Motivation• Introduction• Formal Model for Multicast

– Data Model and Publish-Subscribe Model– Multicast Configuration Anomaly

• Implementation: SecureSCL• Performance Analysis of IPsec Based Multicast• Conclusion

Outline

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Multicast in Power Grid Systems

Substation Networks

PMU: Phasor Measurement Unit PMUs

DNP3

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IEC 61850 Substation Network

* Based on Baigent, D. et. al. IEC 61850 Communication Networks and Systems in Substations: An Overview for Users

Generic Object Oriented Substation Event

(GOOSE)

Sampled Measured Value

(SMV)• Data objects model• Communication protocols suite

• Link layer multicast• Substation Configuration Language (SCL)

• IEC: International Electrotechnical Commission• HMI: Human Machine Interface• PMU: Phasor Measurement Unit

Abstract Communication Service

Interface (ACSI)Substation Bus

Process Bus

Ethernet

*

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Cyber Security Threats to Substation Networks

• Integrity– Tampered power grid status data– Faked control commands

• Confidentiality– Valuable raw data

• Availability– Data packets flood

Cryptographically Secured Protocols?

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Challenges:Manageable Configuration

• Complex and error-prone configuration for current systems– Intricate system designs– Changing specifications during design phases– Large and hardly auditable configuration files

• TVA Bradley Substation: 7.4Mbytes and 98K lines XML files– Proprietary configuration tools from multiple vendors– Complexity of current off-the-shelf security protocols and

tools• Security vulnerabilities due to incorrect system

configuration

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• Timing requirements for real-time operations*– PMU: 30 times per second– Substation: event notification for protection

e.g. GOOSE, 2-10ms

Challenges: Latency Requirements

* IEEE Std. 1646: Communication Delivery Time Performance Requirements for Electric Power Substation Automation

• VT: Volt Transformer• CT: Current Transformer

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• Integration with power grid systems– How to partition multicast groups in a particular

domain, like a power substation? – What’s the role of each control device in a group?– How to distribute group keys?

• Standardized security protocols– How to integrate group key management with secure

multicast protocols?

Challenges: Efficient Group Key Management & Configuration

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• Derive group membership by application data dependency in system functional configurations– Observation: data dependency determines publish-

subscribe relationships and group memberships

Approach: Application-Aware Secure Multicast

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<IED name=“IED2” desc=“Switchgear (subsriber) ” >… <LN desc="CircuitBreaker" inst="1" …> <Inputs> <ExtRef daName="general" doName="Tr" iedName="IED1" …/> <ExtRef daName="q" doName="Tr" iedName="IED1" …/> <ExtRef daName="general" doName="Op" iedName="IED1" …/> <ExtRef daName="q" doName="Op" iedName="IED1" …/> <ExtRef daName="general" doName="Op" iedName="IED1" …/> <ExtRef daName="q" doName="Op" iedName="IED1" …/> </Inputs> </LN></IED>…<IED name=“IED3” desc=“Switchgear (subsriber)” >… <LN desc="CircuitBreaker" inst=“2" …> <Inputs> <ExtRef daName="general" doName="Tr" iedName="IED1" …/> <ExtRef daName="q" doName="Tr" iedName="IED1" …/> <ExtRef daName="general" doName="Op" iedName="IED1" …/> <ExtRef daName="q" doName="Op" iedName="IED1" …/> <ExtRef daName="general" doName="Op" iedName="IED1" …/> <ExtRef daName="q" doName="Op" iedName="IED1" …/> </Inputs> </LN></IED>

<IED name="IED1" desc=“Protective relay (publisher)">… <GSE cbName="gcbTrip" ldInst="PROT">… <Address>… <P type="MAC-Address">01-0C-CD-01-01-46</P> </Address> </GSE> <DataSet name="dsTripLogic"> <FCDA daName="general" doName="Tr" …/> <FCDA daName="q" doName="Tr“ …/> <FCDA daName="general" doName="Op" …/> <FCDA daName="q" doName="Op" …/> <FCDA daName="general" doName="Op …/> <FCDA daName="q" doName="Op" …/> </DataSet>…</IED>

Data Dependency in Substation Configuration Language (SCL)

Trip command

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• Derive group membership by application data dependency in system functional configuration

• Detect inconsistent configurations automatically

• Configure group key management system based on the derived group memberships and extended configuration files

• Raise the link layer multicast to the network layer and secure multicast traffic using IPsec

Approach: Application-Aware Secure Multicast

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• D, the set of data objects• E, the entities which have relationships with data

objects– O, the set of data owners– C, the set of data consumer– P, the set of publishers– S, the set of subscribers

• G, the set of group controllers

A Formal Multicast Model: Components

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A Formal Multicast Model:Publish-Subscribe Model

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<IED name="IED1" type="SecureIED" desc="Protective Relay">... <LDevice inst="PROT"> <LN0 lnClass="LLN0" lnType="IED1-LLN0-Type"> <DataSet name="dsTripLogic">

<FCDA daName="general" doName="Tr" ... ldInst="PROT" lnInst="1"/><FCDA daName="general" doName="Op" ... ldInst="PROT" lnInst="1"/>...

</DataSet> <GSEControl appID="TripGoose" datSet="dsTripLogic" name="gcbTrip".../> </LN0> ... <LN inst="1" lnClass="PTRC" lnType="IED1-PTRC-Type"/> </LDevice>...</IED>...<DataTypeTemplates> <LNodeType id="IED1_PTRC_Type" lnClass="PTRC"> <DO name="Tr" type="tPTRC_TrOp"/> <DO name="Op" type="tPTRC_TrOp"/> </LNodeType></DataTypeTemplates>

Publish-Subscribe Model in SCL:Ownership & Publication

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<IED name="IED2" desc="Switchgear" type="SecureIED">... <LDevice inst="CTRL"> <LN desc="CircuitBreaker" inst="1" lnClass="XCBR" lnType="IED2-CTRL-XCBR"> <Inputs> <ExtRef doName="Tr" ldInst="PROT”, iedName="IED1".../> <ExtRef doName="Op" ldInst="PROT”, iedName="IED1".../> </Inputs> </LN> <\LDevice><\IED>

Publish-Subscribe Model in SCL:Consumption & Subscription

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Multicast Configuration Anomaly:Publication Anomaly

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Multicast Configuration Anomaly:Subscription Anomaly

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Architecture of SecureSCL

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• Preserves a variety of security properties, proved by a degree of formal analysis

• Supports wide area multicast, important to inter-substation communications and PMU networks

• Obtains strong support from security communities

• Capable of addressing latency constraints in medium scale networks

Benefits of IPsec Based Multicast in Power Grid Networks

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• Test Bed Setup – Hardware

• Deterlab: 8, 16, 32, 64-node scenarios• Xeon Quad 3.00GHz PCs

– Software• Platform: Ubuntu 8.04• Process Control Emulation System*

– Measure round trip latency

Performance Analysis of IPsec Based Multicast

* Credits to Chris Grier and Sam King 20

Performance of IPsec Multicast

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• Application-aware secure multicast is an efficient solution for multicast in power grid systems– Automate group configuration and minimize errors– Integrate security configurations with functional

configurations• IPsec is a promising solution for secure multicast in

power grid systems• Future work

– WAN or Inter-substation network multicast communication and configuration

– Dynamic group management

Conclusion

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Questions?

http://seclab.illinois.edu/web/

Dr. Jianqing ZhangIntel Labs, RNB6-612200 Mission College Blvd.Santa Clara, CA 94054Tel: (408)653-5461Email: [email protected]

Professor Carl A. Gunter4304 Siebel Center for Computer Science201 N. Goodwin Ave.Urbana, IL 61801Tel: (217)244-1982 Email: [email protected]

1. Propose a formal multicast data model and a publish-subscribe model depicting the publish-subscribe relationships

2. Classify a number of configuration anomalies in multicast systems

3. Design algorithms detecting the anomalies4. Design a multicast and group key management architecture5. Develop a prototype system, SecureSCL6. Provide a case study of secure GOOSE in IEC 61850

substations7. Evaluate the performance of IPsec based multicast

Contributions

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• IEC 62351: sign each GOOSE frame using RSA

• Gjermundrod, H. et al. GridStat: A Flexible QoS-Managed Data

Dissemination Framework for the Power Grid, IEEE Transactions on

Power Delivery, Jan. 2009

• Ehab S. et al. Discovery of Policy Anomalies in Distributed Firewalls.

INFOCOM 2004

Related Work

Header Authentication Value GOOSE PDU

Length

CRC

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System Working Phases

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• Group Domain of Interpretation (GDOI, RFC 3547): IKEv1 based group key management protocol for IPsec multicast

GDOI Based Group Key Management Architecture

1. IKEv1 Phase1: Reg. SA2. Phase 2 GROUPKEY-PULL: (first) Rekey SA and Data SA3. GROUPKEY-PUSH: subsequent Rekey SAs and Data SAs

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