End-to-end auditable voting systems

End-to-end auditable voting systems
Election technology
Terminology
Testing
Technology
Manufacturers
v · cryptographic methods to craft receipts that allow voters to verify that their votes were not modified, without revealing which candidates were voted for. As such, these systems are sometimes referred to as receipt-based systems.

Contents

Overview

Electronic voting systems arrive at their final vote totals by a series of steps:

  1. each voter has an original intent,
  2. voters express their intent on physical ballots (whether transient, as on the display of a DRE voting machine, or durable, as in systems with voter verifiable paper trails),
  3. physical ballots are represented electronically,
  4. electronic ballot images are collected into a ballot box,
  5. vote totals are computed from the electronic images, and
  6. where counting is conducted locally, for example, at the precinct or county level, the tallies from each local count are aggregated to produce the final tally.

Classical approaches to election integrity tended to focus on mechanisms that operated at each step on the chain from voter intent to final total. Voting is an example of a distributed system, and in general, distributed system designers have long known that such local focus may miss some vulnerabilities while over-protecting others. The alternative is to use end-to-end measures that are designed to guard the integrity of the entire chain.[1]

The failure of current optical scan voting systems to meet reasonable end-to-end standards was pointed out in 2002.[2] End-to-end coverage of election integrity frequently involves multiple stages. We expect voters to verify that they have marked their ballots as intended, we use recounts or audits to protect the step from marked ballots to ballot-box totals, and we use publication of all subtotals to allow public verification that the overall totals correctly sum the local totals.[3]

While measures such as voter verified paper audit trails and manual recounts increase the end-to-end coverage of our defenses, the offer only weak protection of the integrity of the physical or electronic ballot boxes. Ballots could be removed, replaced, or could have marks added to them (i.e.,to fill in undervoted contests with votes for a desired candidate or to overvote and spoil votes for undesired candidates). This shortcoming motivated the development of the end-to-end auditable voting systems discussed here, sometimes referred to as E2E voting systems. These attempt to cover the entire path from voter attempt to election totals with just two measures:

  • Voter auditing, by which any voter may check that his or her ballot is correctly included in the electronic ballot box, and
  • Universal verifiability, by which anyone may determine that all of the ballots in the box have been correctly counted.

Because of the importance of the right to a secret ballot, all of the interesting E2E voting schemes also attempt to meet a third requirement, usually referred to as receipt freeness.

  • No voter can demonstrate how he or she voted to any third party.

Some researchers argue that end-to-end auditability and receipt-freeness should be considered to be orthogonal properties.[4] These two properties are combined in the 2005 Voluntary Voting System Guidelines promulgated by the Election Assistance Commission.[5] This definition is also predominant in the academic literature.[6][7][8][9]

Note that assertions regarding ballot stuffing are not inherently addressed by the definition of E2E, although they can be externally verified by comparing the number of votes cast with the number of registered voters who voted.

E2E Systems

In 2004, David Chaum proposed a solution that allows a voter to verify that the vote is cast appropriately and that the vote is accurately counted using visual cryptography.[10] After the voter selects their candidates, a DRE machine prints out a specially formatted version of the ballot on two transparencies. When the layers are stacked, they show the human-readable vote. However, each transparency is encrypted with a form of visual cryptography so that it alone does not reveal any information unless it is decrypted. The voter selects one layer to destroy at the poll. The DRE retains an electronic copy of the other layer and gives the physical copy as a receipt to ensure the ballot is not later changed. The system guards against changes to the voter's ballot and uses a mix-net decryption[11] procedure to ensure that each vote is accurately counted. Sastry, Karloff and Wagner pointed out that there are issues with both of the Chaum and VoteHere cryptographic solutions.[12]

Chaum has since developed Punchscan, which has stronger security properties and uses simpler paper ballots.[13] The paper ballots are voted on and then a privacy-preserving portion of the ballot is scanned by an optical scanner.

The Prêt à Voter system, invented by Peter Ryan, uses a shuffled candidate order and a traditional mix network. As in Punchscan, the votes are made on paper ballots and a portion of the ballot is scanned.

The Scratch and Vote system, invented by Ben Adida, uses a scratch-off surface to hide cryptographic information that can be used to verify the correct printing of the ballot.[14]

The ThreeBallot voting protocol, invented by Ron Rivest, was designed to provide some of the benefits of a cryptographic voting system without using cryptography. It can in principle be implemented on paper although the presented version requires an electronic verifier.

The Scantegrity and Scantegrity II systems provide E2E properties, however instead of being a replacement of the entire voting system, as is the case in all the proceeding examples, it works as an add-on for existing optical scan voting systems. Scantegrity II employs invisible ink and was developed by a team that included Chaum, Rivest, and Ryan. The city of Takoma Park, Maryland used Scantegrity II for its November, 2009 election.[15][16]

Examples

References

  1. ^ J. H. Saltzer, D. P. Reed and D. D Clark, End-to-End Arguments in System Design, ACM Trans. on Computer Systems (TOCS), Vol 2, No. 4, Nov. 1984, pages 277-288
  2. ^ Douglas W. Jones, End-to-End Standards for Accuracy in Paper-Based Systems, Workshop on Election Standards and Technology (alternate source), Jan 31, 2002, Washington DC.
  3. ^ Douglas W. Jones, Perspectives on Electronic Voting, From Power Outages to Paper Trails (alternate source), IFES, Washington DC, 2007; pages 32-46, see particularly Figure 4, page 39.
  4. ^ Douglas W. Jones, Some Problems with End-to-End Voting, position paper presented at the End-to-End Voting Systems Workshop, Oct. 13-14, 2009, Washington DC.
  5. ^ 2005 Voluntary Voting System Guidelines, Election Assistance Commission
  6. ^ Jeremy Clark, Aleks Essex, and Carlisle Adams. On the Security of Ballot Receipts in E2E Voting Systems. IAVoSS Workshop on Trustworthy Elections 2007.
  7. ^ Aleks Essex, Jeremy Clark, Richard T. Carback III, and Stefan Popoveniuc. Punchscan in Practice: An E2E Election Case Study. IAVoSS Workshop on Trustworthy Elections 2007.
  8. ^ Olivier de Marneffe, Olivier Pereira and Jean-Jacques Quisquater. Simulation-Based Analysis of E2E Voting Systems. E-Voting and Identity 2007.
  9. ^ Ka-Ping Yee. Building Reliable Voting Machine Software. Ph.D. Dissertation, UC Berkley, 2007.
  10. ^ Chaum, David (2004). "Secret-Ballot Receipts: True Voter-Verifiable Elections". IEEE Security and Privacy 2 (1): 38–47. doi:10.1109/MSECP.2004.1264852. 
  11. ^ Reusable anonymous return channels
  12. ^ Chris Karlof, Naveen Sastry, and David Wagner. Cryptographic Voting Protocols: A Systems perspective. Proceedings of the Fourteenth USENIX Security Symposium (USENIX Security 2005), August 2005.
  13. ^ Steven Cherry, Making every e-vote count, IEEE Spectrum, Jan 2007.
  14. ^ Scratch & Vote: Self-Contained Paper-Based Cryptographic Voting (2006)
  15. ^ "Pilot Study of the Scantegrity II Voting System Planned for the 2009 Takoma Park City Election". http://www.takomaparkmd.gov/committees/boe/documents/flyer_workshop_I_(02-19-09).pdf 
  16. ^ Hardesty, Larry. "Cryptographic voting debuts". MIT news. http://web.mit.edu/newsoffice/2009/rivest-voting.html. Retrieved 2009-11-30. 
  17. ^ Helios Voting system

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