This is a rust library for building R1CS gadgets, which are useful in SNARKs and other argument systems.
An R1CS instance is defined by three matrices, A, B and C. These encode the following NP-complete decision problem: does there exist a witness vector w such that Aw ∘ Bw = Cw?
A gadget for some R1CS instance takes a set of inputs, which are a subset of the witness vector. If the given inputs are valid, it extends the input set into a complete witness vector which satisfies the R1CS instance.
A Wire represents an element of the witness vector. An Expression is a linear combination of wires.
A BooleanWire is a Wire which has been constrained in such a way that it can only equal 0 or 1. Similarly, a BooleanExpression is an Expression which has been constrained to be binary.
A BinaryWire is a vector of BooleanWires. Similarly, a BinaryExpression is a vector of BooleanExpressions.
Here's a simple gadget which computes the cube of a field element:
```rust // Create a gadget which takes a single input, x, and computes xxx. let mut builder = GadgetBuilder::new(); let x = builder.wire(); let xexp = Expression::from(x); let xsquared = builder.product(&xexp, &xexp); let xcubed = builder.product(xsquared, x_exp); let gadget = builder.build();
// This structure maps wires to their (field element) values. Since // x is our input, we will assign it a value before executing the // gadget. Other wires will be computed by the gadget. let mut values = values!(x => 5.into());
// Execute the gadget and assert that all constraints were satisfied. let constraintssatisfied = gadget.execute(&mut values); assert!(constraintssatisfied);
// Check the result. asserteq!(FieldElement::from(125), xcubed.evaluate(&values)); ```
The example above involved native field arithmetic, but this library also supports boolean algebra. For example, here is a function which implements the boolean function Maj, as defined in the SHA-256 specification:
rust
fn maj(builder: &mut GadgetBuilder,
x: BooleanExpression,
y: BooleanExpression,
z: BooleanExpression) -> BooleanExpression {
let x_y = builder.and(&x, &y);
let x_z = builder.and(&x, &z);
let y_z = builder.and(&y, &z);
let x_y_xor_x_z = builder.xor(x_y, x_z);
builder.xor(x_y_xor_x_z, y_z)
}
This library also supports bitwise operations, such as bitwise_and, and binary arithmetic operations, such as binary_sum.
This library also supports non-deterministic computations. For a simple example, see GadgetBuilder's inverse method, which is defined in in gadget_builder_arithmetic.rs.
This code has not been thoroughly reviewed or tested, and should not be used in any production systems.