Zokrates is a toolbox for zkSNARKs on Ethereum.
This is a proof-of-concept implementation. It has not been tested for production.
Ethereum runs computations on all nodes of the network, resulting in high costs, limits in complexity, and low privacy. SNARKs have been enabling to only verify computations on-chain for a fraction of the cost of running them, but are hard to grasp and work with.
Zokrates bridges this gap. It helps you create offchain programs and link them to the Ethereum blockchain, expanding the possibilities for your Dapp.
Using Docker is currently the recommended way to get started with Zokrates.
docker run -ti kyroy/zokrates /bin/bashOr build yourself with the following commands.
git clone https://github.com/JacobEberhardt/ZoKrates
cd ZoKrates
docker build -t zokrates .
docker run -ti zokrates /bin/bash
cd ZoKrates/target/releaseTo execute the program, perform the setup for the program, generate a proof
def add(a, b, c):
return a + b + c
with add(1, 2, 3), call
./zokrates compile -i 'add.code_path'
./zokrates compute-witness -a 1 2 3
./zokrates setup
./zokrates generate-proof
./zokrates export-verifier
Zokrates provides a command line interface. You can see an overview of the available subcommands by running
./zokrates
./zokrates compile -i /path/to/add.code
Compile a .code file.
Creates a compiled .code file at ./out.code.
./zokrates compute-witness -a 1 2
Computes a witness for the compiled program found at ./out.code and arguments to the program.
A witness is a valid assignment of the variables, which include the results of the computation.
Creates a witness file at ./witness
./zokrates setup
Generates a trusted setup for the compiled program found at ./out.code.
Creates a proving key and a verifying key at ./proving.key and ./verifying.key.
./zokrates export-verifier
Using the verifying key at ./verifying.key, generates a Solidity contract enabling to verify proofs for computations of the compiled program at ./out.code.
Creates a verifier contract at ./verifier.sol
./zokrates generate-proof
Using the proving key at ./proving.key, generates a proof for a computation of the compiled program ./out.code resulting in ./witness.
Returns the proof, for example:
A = 0x45582d7906c967b1fd1cac0aad3efefa526e4cd888b8ecb5907b46c2eb1f781, 0x8158089a63a6aafa4afc3bbfd5ebf392e5ef61d0c5faf2e2445c9112450f29c
A_p = 0x5e4fe0bfa79a571b8918138ee5d7b3d0ad394c9bb8f7d2e1549f7e3c3bab7e9, 0x1708b5ba3d138e433406c792f679ae6902fc9f7c6131305a9a5f826dbe2d71fb
B = [0x34f5c5b7518597452e55a69bf9171a63837a98a1c1c1870b610b2cfe79c4573, 0x18e56afd179d67960db838a8fdb128eb78d5dd2c1ffcd564f9d0dada928ed71f], [0xf160ea8d2dc33b564a45c0998309b4bf5a050cc8f6288793b7401b37d1eb1a2, 0x23ade8ba2c64300b5ff90e18641516407054a21179829252fd87f1bd61a3be34]
B_p = 0xc88b87d45f90da42b9c455da16dad76996ef5b1e859a4f0db7dcef4f7e3b2fd, 0x20ed7c62dd8c6c47506e6db1d4837daa42ae80b931227153054539dcbf6f3778
C = 0x2c230cbffbcb6211d2cf8f434df291a413721e3bef5ada4030d532d14b6ea504, 0x21421565f75429d0922c8cf00b68e4da23c61670e787ce6a5de14a5a86ebdcb0
C_p = 0xce11fe724ce1ce183c15c4f5405d9607d6c769422aa9f62f4868478324a2f5, 0x1e585b35ed22ef32fd70ef960818f1514d1dd94b3517c127e782de24173c69f9
H = 0x2306e74a1a7e318d2d3c40cbea708b0e0b91cd1548c9db6261fc2bd815740978, 0xde538e4e99b0e20e84cdbbd3bc08c37bca0af21edd67faf52bc4027a9b00f7c
K = 0x1868436121f271e9fbf78a8f75bb4077e2d4f208891793fd5b468afc3b05c0e4, 0x1021c3ecb15c3fd7340d4eb5bf446e1ad457020e4f8b7cc82f8af64507a35fbe
Passed to the verifier contract, this proof can be checked.
For example, using web3, a call would look like the following:
Verifier.at(<verifier contract address>).verifyTx(A, A_p, B, B_p, C, C_p, H, K, [...publicInputs, ...outputs])
Where A, ..., K are defined as above (adding brackets and quotes: A = ["0x123", "0x345"]), publicInputs are the public inputs supplied to witness generation and outputs are the results of the computation.
Run normal tests with
cargo test
and run long and expensive tests with
cargo test -- --ignored