zerokit/utils/tests/merkle_tree.rs

// Tests adapted from https://github.com/worldcoin/semaphore-rs/blob/d462a4372f1fd9c27610f2acfe4841fab1d396aa/src/merkle_tree.rs
#[cfg(test)]
mod test {
    use hex_literal::hex;
    use tiny_keccak::{Hasher as _, Keccak};
    use zerokit_utils::{
        FullMerkleConfig, FullMerkleTree, Hasher, OptimalMerkleConfig, OptimalMerkleTree,
        ZerokitMerkleProof, ZerokitMerkleTree,
    };
    #[derive(Clone, Copy, Eq, PartialEq)]
    struct Keccak256;

    impl Hasher for Keccak256 {
        type Fr = [u8; 32];

        fn default_leaf() -> Self::Fr {
            [0; 32]
        }

        fn hash(inputs: &[Self::Fr]) -> Self::Fr {
            let mut output = [0; 32];
            let mut hasher = Keccak::v256();
            for element in inputs {
                hasher.update(element);
            }
            hasher.finalize(&mut output);
            output
        }
    }

    #[test]
    fn test_root() {
        let leaves = [
            hex!("0000000000000000000000000000000000000000000000000000000000000001"),
            hex!("0000000000000000000000000000000000000000000000000000000000000002"),
            hex!("0000000000000000000000000000000000000000000000000000000000000003"),
            hex!("0000000000000000000000000000000000000000000000000000000000000004"),
        ];

        let default_tree_root =
            hex!("b4c11951957c6f8f642c4af61cd6b24640fec6dc7fc607ee8206a99e92410d30");

        let roots = [
            hex!("c1ba1812ff680ce84c1d5b4f1087eeb08147a4d510f3496b2849df3a73f5af95"),
            hex!("893760ec5b5bee236f29e85aef64f17139c3c1b7ff24ce64eb6315fca0f2485b"),
            hex!("222ff5e0b5877792c2bc1670e2ccd0c2c97cd7bb1672a57d598db05092d3d72c"),
            hex!("a9bb8c3f1f12e9aa903a50c47f314b57610a3ab32f2d463293f58836def38d36"),
        ];

        let mut tree =
            FullMerkleTree::<Keccak256>::new(2, [0; 32], FullMerkleConfig::default()).unwrap();
        assert_eq!(tree.root(), default_tree_root);
        for i in 0..leaves.len() {
            tree.set(i, leaves[i]).unwrap();
            assert_eq!(tree.root(), roots[i]);
        }

        let mut tree =
            OptimalMerkleTree::<Keccak256>::new(2, [0; 32], OptimalMerkleConfig::default())
                .unwrap();
        assert_eq!(tree.root(), default_tree_root);
        for i in 0..leaves.len() {
            tree.set(i, leaves[i]).unwrap();
            assert_eq!(tree.root(), roots[i]);
        }
    }

    #[test]
    fn test_proof() {
        let leaves = [
            hex!("0000000000000000000000000000000000000000000000000000000000000001"),
            hex!("0000000000000000000000000000000000000000000000000000000000000002"),
            hex!("0000000000000000000000000000000000000000000000000000000000000003"),
            hex!("0000000000000000000000000000000000000000000000000000000000000004"),
        ];

        // We thest the FullMerkleTree implementation
        let mut tree =
            FullMerkleTree::<Keccak256>::new(2, [0; 32], FullMerkleConfig::default()).unwrap();
        for i in 0..leaves.len() {
            // We set the leaves
            tree.set(i, leaves[i]).unwrap();

            // We compute a merkle proof
            let proof = tree.proof(i).expect("index should be set");

            // We verify if the merkle proof corresponds to the right leaf index
            assert_eq!(proof.leaf_index(), i);

            // We verify the proof
            assert!(tree.verify(&leaves[i], &proof).unwrap());

            // We ensure that the Merkle proof and the leaf generate the same root as the tree
            assert_eq!(proof.compute_root_from(&leaves[i]), tree.root());

            // We check that the proof is not valid for another leaf
            assert!(!tree
                .verify(&leaves[(i + 1) % leaves.len()], &proof)
                .unwrap());
        }

        // We test the OptimalMerkleTree implementation
        let mut tree =
            OptimalMerkleTree::<Keccak256>::new(2, [0; 32], OptimalMerkleConfig::default())
                .unwrap();
        for i in 0..leaves.len() {
            // We set the leaves
            tree.set(i, leaves[i]).unwrap();

            // We compute a merkle proof
            let proof = tree.proof(i).expect("index should be set");

            // We verify if the merkle proof corresponds to the right leaf index
            assert_eq!(proof.leaf_index(), i);

            // We verify the proof
            assert!(tree.verify(&leaves[i], &proof).unwrap());

            // We ensure that the Merkle proof and the leaf generate the same root as the tree
            assert_eq!(proof.compute_root_from(&leaves[i]), tree.root());

            // We check that the proof is not valid for another leaf
            assert!(!tree
                .verify(&leaves[(i + 1) % leaves.len()], &proof)
                .unwrap());
        }
    }

    #[test]
    fn test_override_range() {
        let initial_leaves = [
            hex!("0000000000000000000000000000000000000000000000000000000000000001"),
            hex!("0000000000000000000000000000000000000000000000000000000000000002"),
            hex!("0000000000000000000000000000000000000000000000000000000000000003"),
            hex!("0000000000000000000000000000000000000000000000000000000000000004"),
        ];

        let mut tree =
            OptimalMerkleTree::<Keccak256>::new(2, [0; 32], OptimalMerkleConfig::default())
                .unwrap();

        // We set the leaves
        tree.set_range(0, initial_leaves.iter().cloned()).unwrap();

        let new_leaves = [
            hex!("0000000000000000000000000000000000000000000000000000000000000005"),
            hex!("0000000000000000000000000000000000000000000000000000000000000006"),
        ];

        let to_delete_indices: [usize; 2] = [0, 1];

        // We override the leaves
        tree.override_range(
            0, // start from the end of the initial leaves
            new_leaves.iter().cloned(),
            to_delete_indices.iter().cloned(),
        )
        .unwrap();

        // ensure that the leaves are set correctly
        for i in 0..new_leaves.len() {
            assert_eq!(tree.get_leaf(i), new_leaves[i]);
        }
    }
}
test: separate out tests (#103) * test: move tests for rln, multiplier and private-settlements to tests folder * test: fix rln test for poseiden tree * test: move tests for rln-wasn to standalone tests folder * test: move tests for semaphore and utils to standalone tests folder * chore: cargo fmt * test: rename test files * test: move tests out from rln/src/public to test folder * test: fix rln tests, move tests accessign private fields back to relevant source file * chor: run cargo fmt * test: move all semaphore tests to tests folder * chore: cargo fmt 2023-01-31 15:57:28 +00:00			`// Tests adapted from https://github.com/worldcoin/semaphore-rs/blob/d462a4372f1fd9c27610f2acfe4841fab1d396aa/src/merkle_tree.rs`
			`#[cfg(test)]`
			`mod test {`
			`use hex_literal::hex;`
			`use tiny_keccak::{Hasher as _, Keccak};`
utils: fix benches and tests 2023-07-28 09:31:53 +00:00			`use zerokit_utils::{`
feat(rln): ability to pass rln tree config in ffi (#150) * feat(rln): pass config in rln ffi * fix: for rln-wasm * fix: ffi tests * fix: clippy * fix: test cursor 2023-05-05 09:45:33 +00:00			`FullMerkleConfig, FullMerkleTree, Hasher, OptimalMerkleConfig, OptimalMerkleTree,`
			`ZerokitMerkleProof, ZerokitMerkleTree,`
			`};`
Integrate pmtree into rln (#147) * feat: integrate pmtree with zerokit * fix: tests 2023-04-28 04:32:21 +00:00			`#[derive(Clone, Copy, Eq, PartialEq)]`
test: separate out tests (#103) * test: move tests for rln, multiplier and private-settlements to tests folder * test: fix rln test for poseiden tree * test: move tests for rln-wasn to standalone tests folder * test: move tests for semaphore and utils to standalone tests folder * chore: cargo fmt * test: rename test files * test: move tests out from rln/src/public to test folder * test: fix rln tests, move tests accessign private fields back to relevant source file * chor: run cargo fmt * test: move all semaphore tests to tests folder * chore: cargo fmt 2023-01-31 15:57:28 +00:00			`struct Keccak256;`

			`impl Hasher for Keccak256 {`
			`type Fr = [u8; 32];`

			`fn default_leaf() -> Self::Fr {`
			`[0; 32]`
			`}`

			`fn hash(inputs: &[Self::Fr]) -> Self::Fr {`
			`let mut output = [0; 32];`
			`let mut hasher = Keccak::v256();`
			`for element in inputs {`
			`hasher.update(element);`
			`}`
			`hasher.finalize(&mut output);`
			`output`
			`}`
			`}`

			`#[test]`
			`fn test_root() {`
			`let leaves = [`
			`hex!("0000000000000000000000000000000000000000000000000000000000000001"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000002"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000003"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000004"),`
			`];`

			`let default_tree_root =`
			`hex!("b4c11951957c6f8f642c4af61cd6b24640fec6dc7fc607ee8206a99e92410d30");`

			`let roots = [`
			`hex!("c1ba1812ff680ce84c1d5b4f1087eeb08147a4d510f3496b2849df3a73f5af95"),`
			`hex!("893760ec5b5bee236f29e85aef64f17139c3c1b7ff24ce64eb6315fca0f2485b"),`
			`hex!("222ff5e0b5877792c2bc1670e2ccd0c2c97cd7bb1672a57d598db05092d3d72c"),`
			`hex!("a9bb8c3f1f12e9aa903a50c47f314b57610a3ab32f2d463293f58836def38d36"),`
			`];`

feat(rln): ability to pass rln tree config in ffi (#150) * feat(rln): pass config in rln ffi * fix: for rln-wasm * fix: ffi tests * fix: clippy * fix: test cursor 2023-05-05 09:45:33 +00:00			`let mut tree =`
			`FullMerkleTree::<Keccak256>::new(2, [0; 32], FullMerkleConfig::default()).unwrap();`
test: separate out tests (#103) * test: move tests for rln, multiplier and private-settlements to tests folder * test: fix rln test for poseiden tree * test: move tests for rln-wasn to standalone tests folder * test: move tests for semaphore and utils to standalone tests folder * chore: cargo fmt * test: rename test files * test: move tests out from rln/src/public to test folder * test: fix rln tests, move tests accessign private fields back to relevant source file * chor: run cargo fmt * test: move all semaphore tests to tests folder * chore: cargo fmt 2023-01-31 15:57:28 +00:00			`assert_eq!(tree.root(), default_tree_root);`
			`for i in 0..leaves.len() {`
			`tree.set(i, leaves[i]).unwrap();`
			`assert_eq!(tree.root(), roots[i]);`
			`}`

feat(rln): ability to pass rln tree config in ffi (#150) * feat(rln): pass config in rln ffi * fix: for rln-wasm * fix: ffi tests * fix: clippy * fix: test cursor 2023-05-05 09:45:33 +00:00			`let mut tree =`
			`OptimalMerkleTree::<Keccak256>::new(2, [0; 32], OptimalMerkleConfig::default())`
			`.unwrap();`
test: separate out tests (#103) * test: move tests for rln, multiplier and private-settlements to tests folder * test: fix rln test for poseiden tree * test: move tests for rln-wasn to standalone tests folder * test: move tests for semaphore and utils to standalone tests folder * chore: cargo fmt * test: rename test files * test: move tests out from rln/src/public to test folder * test: fix rln tests, move tests accessign private fields back to relevant source file * chor: run cargo fmt * test: move all semaphore tests to tests folder * chore: cargo fmt 2023-01-31 15:57:28 +00:00			`assert_eq!(tree.root(), default_tree_root);`
			`for i in 0..leaves.len() {`
			`tree.set(i, leaves[i]).unwrap();`
			`assert_eq!(tree.root(), roots[i]);`
			`}`
			`}`

			`#[test]`
			`fn test_proof() {`
			`let leaves = [`
			`hex!("0000000000000000000000000000000000000000000000000000000000000001"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000002"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000003"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000004"),`
			`];`

			`// We thest the FullMerkleTree implementation`
feat(rln): ability to pass rln tree config in ffi (#150) * feat(rln): pass config in rln ffi * fix: for rln-wasm * fix: ffi tests * fix: clippy * fix: test cursor 2023-05-05 09:45:33 +00:00			`let mut tree =`
			`FullMerkleTree::<Keccak256>::new(2, [0; 32], FullMerkleConfig::default()).unwrap();`
test: separate out tests (#103) * test: move tests for rln, multiplier and private-settlements to tests folder * test: fix rln test for poseiden tree * test: move tests for rln-wasn to standalone tests folder * test: move tests for semaphore and utils to standalone tests folder * chore: cargo fmt * test: rename test files * test: move tests out from rln/src/public to test folder * test: fix rln tests, move tests accessign private fields back to relevant source file * chor: run cargo fmt * test: move all semaphore tests to tests folder * chore: cargo fmt 2023-01-31 15:57:28 +00:00			`for i in 0..leaves.len() {`
			`// We set the leaves`
			`tree.set(i, leaves[i]).unwrap();`

			`// We compute a merkle proof`
			`let proof = tree.proof(i).expect("index should be set");`

			`// We verify if the merkle proof corresponds to the right leaf index`
			`assert_eq!(proof.leaf_index(), i);`

			`// We verify the proof`
			`assert!(tree.verify(&leaves[i], &proof).unwrap());`

			`// We ensure that the Merkle proof and the leaf generate the same root as the tree`
			`assert_eq!(proof.compute_root_from(&leaves[i]), tree.root());`

			`// We check that the proof is not valid for another leaf`
			`assert!(!tree`
			`.verify(&leaves[(i + 1) % leaves.len()], &proof)`
			`.unwrap());`
			`}`

			`// We test the OptimalMerkleTree implementation`
feat(rln): ability to pass rln tree config in ffi (#150) * feat(rln): pass config in rln ffi * fix: for rln-wasm * fix: ffi tests * fix: clippy * fix: test cursor 2023-05-05 09:45:33 +00:00			`let mut tree =`
			`OptimalMerkleTree::<Keccak256>::new(2, [0; 32], OptimalMerkleConfig::default())`
			`.unwrap();`
test: separate out tests (#103) * test: move tests for rln, multiplier and private-settlements to tests folder * test: fix rln test for poseiden tree * test: move tests for rln-wasn to standalone tests folder * test: move tests for semaphore and utils to standalone tests folder * chore: cargo fmt * test: rename test files * test: move tests out from rln/src/public to test folder * test: fix rln tests, move tests accessign private fields back to relevant source file * chor: run cargo fmt * test: move all semaphore tests to tests folder * chore: cargo fmt 2023-01-31 15:57:28 +00:00			`for i in 0..leaves.len() {`
			`// We set the leaves`
			`tree.set(i, leaves[i]).unwrap();`

			`// We compute a merkle proof`
			`let proof = tree.proof(i).expect("index should be set");`

			`// We verify if the merkle proof corresponds to the right leaf index`
			`assert_eq!(proof.leaf_index(), i);`

			`// We verify the proof`
			`assert!(tree.verify(&leaves[i], &proof).unwrap());`

			`// We ensure that the Merkle proof and the leaf generate the same root as the tree`
			`assert_eq!(proof.compute_root_from(&leaves[i]), tree.root());`

			`// We check that the proof is not valid for another leaf`
			`assert!(!tree`
			`.verify(&leaves[(i + 1) % leaves.len()], &proof)`
			`.unwrap());`
			`}`
			`}`
combined batch operations (insert + delete) (#160) * fix(rln): clippy error * feat: batch ops in ZerokitMerkleTree * chore: bump pmtree * fix: upstream root calc 2023-05-15 01:41:43 +00:00
			`#[test]`
			`fn test_override_range() {`
			`let initial_leaves = [`
			`hex!("0000000000000000000000000000000000000000000000000000000000000001"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000002"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000003"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000004"),`
			`];`

			`let mut tree =`
			`OptimalMerkleTree::<Keccak256>::new(2, [0; 32], OptimalMerkleConfig::default())`
			`.unwrap();`

			`// We set the leaves`
			`tree.set_range(0, initial_leaves.iter().cloned()).unwrap();`

			`let new_leaves = [`
			`hex!("0000000000000000000000000000000000000000000000000000000000000005"),`
			`hex!("0000000000000000000000000000000000000000000000000000000000000006"),`
			`];`

			`let to_delete_indices: [usize; 2] = [0, 1];`

			`// We override the leaves`
			`tree.override_range(`
			`0, // start from the end of the initial leaves`
			`new_leaves.iter().cloned(),`
			`to_delete_indices.iter().cloned(),`
			`)`
			`.unwrap();`

			`// ensure that the leaves are set correctly`
			`for i in 0..new_leaves.len() {`
			`assert_eq!(tree.get_leaf(i), new_leaves[i]);`
			`}`
			`}`
test: separate out tests (#103) * test: move tests for rln, multiplier and private-settlements to tests folder * test: fix rln test for poseiden tree * test: move tests for rln-wasn to standalone tests folder * test: move tests for semaphore and utils to standalone tests folder * chore: cargo fmt * test: rename test files * test: move tests out from rln/src/public to test folder * test: fix rln tests, move tests accessign private fields back to relevant source file * chor: run cargo fmt * test: move all semaphore tests to tests folder * chore: cargo fmt 2023-01-31 15:57:28 +00:00			`}`