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A smart contract providing secret votes with liquid democracy.

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Quartier

A smart contract on the Secret Network that handles voting in a decentralized manner, and offers a variety of nice features, while aiming at maintaining a set of security and privacy properties.

This project came to life during the Scaling Ethereum hackathon 2021.

1

Original idea

This project started with the goal to connect a neighborhood, creating a place where good deeds can be rewarded, issues discussed and votes be held; for example on allocating budget for a new public garden area and rewarding a neighbor for watching your kids. This governance problem was hard to tackle from scratch initially, which is why for now I focus on the voting aspect, that will lay a good foundation hopefully.

Voting on the Secret Network

As mentioned I started by writing the core voting mechanism, that is kept very general for now.

Some e-voting theory

The main security objectives for any e-voting scheme are the following:

  1. Accuracy: The result reflects the choice of the voters

  2. Secrecy: The vote of each voter remains secret

  3. No provisional results: There is no information about provisional results during the election

The typical risks pertaining to these factors are the following:

  1. Accuracy
    1. Double votes (e.g. over two channels)
    2. Manipulation of votes (e.g. on the voters machine while voting during transmission over Internet, by hacking servers
    3. Fake votes, given without authorization (voting card)
  2. Secrecy
    1. Interception of votes (e.g. on the voters machine while voting, during transmission over Internet, by hacking servers)
  3. No provisional results:
    1. Interception of votes (e.g. on the voters machine while voting, during transmission over Internet, by hacking servers)

Additionally this voting scheme can explore many desirable properties that are hard to implement in other technologies, some of these properties are:

  1. Individual verifiability: An individual has proof that their vote has been correctly taken into account-protects against a man-in-the-browser that changes outgoing votes and incoming confirmation (you think you voted ‘yes’ but you voted ‘no’
  2. Universal verifiability: We have proof that all votes have been correctly counted-protects against attacks on the server, that delete, add or modify some votes1

Other desirable features

  • Set time frame in which people can respond to vote
  • Individual verifiability, (ideally in a way that does not allow to sell your vote
  • Liquid democracy (allowing someone else to cast a vote for you, i.e. voting the same as them)
  • One can change its mind, and change its vote, as long as the vote is still ongoing. (removed in newest version as it conflicts with liquid democracy)
  • Restrict vote to subset of entities/addresses.
  • Add support for mini publics (only randomly selected addresses can vote, more on that below)

How the contract works

Disclaimer: The following template 4 was used to create the contract. The basic structure of the contract is taken from 5 and is also inspired by 6 .

The contract is written in Rust, and while not extensively tested yet, aims to satisfy the aforementioned security properties, while adding some features on top (see task list for currently implemented features)

Liquid democracy

The contract allows for people to delegate their vote to someone else. If someone casts a ballot, delegating his vote to someone who has already voted, his vote is immediately added to the tally. If the appointed delegate hasn't voted yet, the delegate's vote will have increased impact upon voting. If the appointed delegate doesn't vote before the vote is over however, the vote is lost.

Note that chains of delegates are possible, and might require a series of reads from the database, thus increasing the fees of the contract call. However some optimizations are in place to keep this effect low, while limiting the writes to the database.

Useful links

Sources

Footnotes

  1. The entire section was taken from "Crypto for e-voting protocols", a lecture given by Prof. Oechslin at EPFL in 2019.

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