solana_poseidon/
lib.rs

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//! Hashing with the [Poseidon] hash function.
//!
//! [Poseidon]: https://www.poseidon-hash.info/

use thiserror::Error;

/// Length of Poseidon hash result.
pub const HASH_BYTES: usize = 32;

// PoseidonSyscallError must be removed once the
// simplify_alt_bn128_syscall_error_codes feature gets activated
#[derive(Error, Debug)]
pub enum PoseidonSyscallError {
    #[error("Invalid parameters.")]
    InvalidParameters,
    #[error("Invalid endianness.")]
    InvalidEndianness,
    #[error("Invalid number of inputs. Maximum allowed is 12.")]
    InvalidNumberOfInputs,
    #[error("Input is an empty slice.")]
    EmptyInput,
    #[error(
        "Invalid length of the input. The length matching the modulus of the prime field is 32."
    )]
    InvalidInputLength,
    #[error("Failed to convert bytest into a prime field element.")]
    BytesToPrimeFieldElement,
    #[error("Input is larger than the modulus of the prime field.")]
    InputLargerThanModulus,
    #[error("Failed to convert a vector of bytes into an array.")]
    VecToArray,
    #[error("Failed to convert the number of inputs from u64 to u8.")]
    U64Tou8,
    #[error("Failed to convert bytes to BigInt")]
    BytesToBigInt,
    #[error("Invalid width. Choose a width between 2 and 16 for 1 to 15 inputs.")]
    InvalidWidthCircom,
    #[error("Unexpected error")]
    Unexpected,
}

impl From<u64> for PoseidonSyscallError {
    fn from(error: u64) -> Self {
        match error {
            1 => PoseidonSyscallError::InvalidParameters,
            2 => PoseidonSyscallError::InvalidEndianness,
            3 => PoseidonSyscallError::InvalidNumberOfInputs,
            4 => PoseidonSyscallError::EmptyInput,
            5 => PoseidonSyscallError::InvalidInputLength,
            6 => PoseidonSyscallError::BytesToPrimeFieldElement,
            7 => PoseidonSyscallError::InputLargerThanModulus,
            8 => PoseidonSyscallError::VecToArray,
            9 => PoseidonSyscallError::U64Tou8,
            10 => PoseidonSyscallError::BytesToBigInt,
            11 => PoseidonSyscallError::InvalidWidthCircom,
            _ => PoseidonSyscallError::Unexpected,
        }
    }
}

impl From<PoseidonSyscallError> for u64 {
    fn from(error: PoseidonSyscallError) -> Self {
        match error {
            PoseidonSyscallError::InvalidParameters => 1,
            PoseidonSyscallError::InvalidEndianness => 2,
            PoseidonSyscallError::InvalidNumberOfInputs => 3,
            PoseidonSyscallError::EmptyInput => 4,
            PoseidonSyscallError::InvalidInputLength => 5,
            PoseidonSyscallError::BytesToPrimeFieldElement => 6,
            PoseidonSyscallError::InputLargerThanModulus => 7,
            PoseidonSyscallError::VecToArray => 8,
            PoseidonSyscallError::U64Tou8 => 9,
            PoseidonSyscallError::BytesToBigInt => 10,
            PoseidonSyscallError::InvalidWidthCircom => 11,
            PoseidonSyscallError::Unexpected => 12,
        }
    }
}

/// Configuration parameters for the Poseidon hash function.
///
/// The parameters of each configuration consist of:
///
/// - **Elliptic curve type**: This defines the prime field in which the
///   cryptographic operations are conducted.
/// - **S-Box**: The substitution box used in the cryptographic rounds.
/// - **Full rounds**: The number of full transformation rounds in the hash
///   function.
/// - **Partial rounds**: The number of partial transformation rounds in the
///   hash function.
///
/// Each configuration variant's name is composed of its elliptic curve type
/// followed by its S-Box specification.
#[repr(u64)]
pub enum Parameters {
    /// Configuration using the Barreto–Naehrig curve with an embedding degree
    /// of 12, defined over a 254-bit prime field.
    ///
    /// Configuration Details:
    /// - **S-Box**: \( x^5 \)
    /// - **Width**: \( 2 \leq t \leq 13 \)
    /// - **Inputs**: \( 1 \leq n \leq 12 \)
    /// - **Full rounds**: 8
    /// - **Partial rounds**: Depending on width: [56, 57, 56, 60, 60, 63, 64,
    ///   63, 60, 66, 60, 65]
    Bn254X5 = 0,
}

impl TryFrom<u64> for Parameters {
    type Error = PoseidonSyscallError;

    fn try_from(value: u64) -> Result<Self, Self::Error> {
        match value {
            x if x == Parameters::Bn254X5 as u64 => Ok(Parameters::Bn254X5),
            _ => Err(PoseidonSyscallError::InvalidParameters),
        }
    }
}

impl From<Parameters> for u64 {
    fn from(value: Parameters) -> Self {
        match value {
            Parameters::Bn254X5 => 0,
        }
    }
}

/// Endianness of inputs and result.
#[repr(u64)]
pub enum Endianness {
    /// Big-endian inputs and result.
    BigEndian = 0,
    /// Little-endian inputs and result.
    LittleEndian,
}

impl TryFrom<u64> for Endianness {
    type Error = PoseidonSyscallError;

    fn try_from(value: u64) -> Result<Self, Self::Error> {
        match value {
            x if x == Endianness::BigEndian as u64 => Ok(Endianness::BigEndian),
            x if x == Endianness::LittleEndian as u64 => Ok(Endianness::LittleEndian),
            _ => Err(PoseidonSyscallError::InvalidEndianness),
        }
    }
}

impl From<Endianness> for u64 {
    fn from(value: Endianness) -> Self {
        match value {
            Endianness::BigEndian => 0,
            Endianness::LittleEndian => 1,
        }
    }
}

/// Poseidon hash result.
#[repr(transparent)]
pub struct PoseidonHash(pub [u8; HASH_BYTES]);

impl PoseidonHash {
    pub fn new(hash_array: [u8; HASH_BYTES]) -> Self {
        Self(hash_array)
    }

    pub fn to_bytes(&self) -> [u8; HASH_BYTES] {
        self.0
    }
}

#[cfg(target_os = "solana")]
solana_define_syscall::define_syscall!(fn sol_poseidon(parameters: u64, endianness: u64, vals: *const u8, val_len: u64, hash_result: *mut u8) -> u64);

/// Return a Poseidon hash for the given data with the given elliptic curve and
/// endianness.
///
/// # Examples
///
/// ```rust
/// use solana_poseidon::{hashv, Endianness, Parameters};
///
/// # fn test() {
/// let input1 = [1u8; 32];
/// let input2 = [2u8; 32];
///
/// let hash = hashv(Parameters::Bn254X5, Endianness::BigEndian, &[&input1, &input2]).unwrap();
/// assert_eq!(
///     hash.to_bytes(),
///     [
///         13, 84, 225, 147, 143, 138, 140, 28, 125, 235, 94, 3, 85, 242, 99, 25, 32, 123,
///         132, 254, 156, 162, 206, 27, 38, 231, 53, 200, 41, 130, 25, 144
///     ]
/// );
///
/// let hash = hashv(Parameters::Bn254X5, Endianness::LittleEndian, &[&input1, &input2]).unwrap();
/// assert_eq!(
///     hash.to_bytes(),
///     [
///         144, 25, 130, 41, 200, 53, 231, 38, 27, 206, 162, 156, 254, 132, 123, 32, 25, 99,
///         242, 85, 3, 94, 235, 125, 28, 140, 138, 143, 147, 225, 84, 13
///     ]
/// );
/// # }
/// ```
#[allow(unused_variables)]
pub fn hashv(
    // This parameter is not used currently, because we support only one curve
    // (BN254). It should be used in case we add more curves in the future.
    parameters: Parameters,
    endianness: Endianness,
    vals: &[&[u8]],
) -> Result<PoseidonHash, PoseidonSyscallError> {
    // Perform the calculation inline, calling this from within a program is
    // not supported.
    #[cfg(not(target_os = "solana"))]
    {
        use {
            ark_bn254::Fr,
            light_poseidon::{Poseidon, PoseidonBytesHasher, PoseidonError},
        };

        #[allow(non_local_definitions)]
        impl From<PoseidonError> for PoseidonSyscallError {
            fn from(error: PoseidonError) -> Self {
                match error {
                    PoseidonError::InvalidNumberOfInputs { .. } => {
                        PoseidonSyscallError::InvalidNumberOfInputs
                    }
                    PoseidonError::EmptyInput => PoseidonSyscallError::EmptyInput,
                    PoseidonError::InvalidInputLength { .. } => {
                        PoseidonSyscallError::InvalidInputLength
                    }
                    PoseidonError::BytesToPrimeFieldElement { .. } => {
                        PoseidonSyscallError::BytesToPrimeFieldElement
                    }
                    PoseidonError::InputLargerThanModulus => {
                        PoseidonSyscallError::InputLargerThanModulus
                    }
                    PoseidonError::VecToArray => PoseidonSyscallError::VecToArray,
                    PoseidonError::U64Tou8 => PoseidonSyscallError::U64Tou8,
                    PoseidonError::BytesToBigInt => PoseidonSyscallError::BytesToBigInt,
                    PoseidonError::InvalidWidthCircom { .. } => {
                        PoseidonSyscallError::InvalidWidthCircom
                    }
                }
            }
        }

        let mut hasher =
            Poseidon::<Fr>::new_circom(vals.len()).map_err(PoseidonSyscallError::from)?;
        let res = match endianness {
            Endianness::BigEndian => hasher.hash_bytes_be(vals),
            Endianness::LittleEndian => hasher.hash_bytes_le(vals),
        }
        .map_err(PoseidonSyscallError::from)?;

        Ok(PoseidonHash(res))
    }
    // Call via a system call to perform the calculation.
    #[cfg(target_os = "solana")]
    {
        let mut hash_result = [0; HASH_BYTES];
        let result = unsafe {
            sol_poseidon(
                parameters.into(),
                endianness.into(),
                vals as *const _ as *const u8,
                vals.len() as u64,
                &mut hash_result as *mut _ as *mut u8,
            )
        };

        match result {
            0 => Ok(PoseidonHash::new(hash_result)),
            _ => Err(PoseidonSyscallError::Unexpected),
        }
    }
}

/// Return a Poseidon hash for the given data with the given elliptic curve and
/// endianness.
///
/// # Examples
///
/// ```rust
/// use solana_poseidon::{hash, Endianness, Parameters};
///
/// # fn test() {
/// let input = [1u8; 32];
///
/// let result = hash(Parameters::Bn254X5, Endianness::BigEndian, &input).unwrap();
/// assert_eq!(
///     result.to_bytes(),
///     [
///         5, 191, 172, 229, 129, 238, 97, 119, 204, 25, 198, 197, 99, 99, 166, 136, 130, 241,
///         30, 132, 7, 172, 99, 157, 185, 145, 224, 210, 127, 27, 117, 230
///     ],
/// );
///
/// let hash = hash(Parameters::Bn254X5, Endianness::LittleEndian, &input).unwrap();
/// assert_eq!(
///     hash.to_bytes(),
///     [
///         230, 117, 27, 127, 210, 224, 145, 185, 157, 99, 172, 7, 132, 30, 241, 130, 136,
///         166, 99, 99, 197, 198, 25, 204, 119, 97, 238, 129, 229, 172, 191, 5
///     ],
/// );
/// # }
/// ```
pub fn hash(
    parameters: Parameters,
    endianness: Endianness,
    val: &[u8],
) -> Result<PoseidonHash, PoseidonSyscallError> {
    hashv(parameters, endianness, &[val])
}

#[cfg(test)]
mod tests {
    use super::*;

    #[test]
    fn test_poseidon_input_ones_be() {
        let input = [1u8; 32];

        let hash = hash(Parameters::Bn254X5, Endianness::BigEndian, &input).unwrap();
        assert_eq!(
            hash.to_bytes(),
            [
                5, 191, 172, 229, 129, 238, 97, 119, 204, 25, 198, 197, 99, 99, 166, 136, 130, 241,
                30, 132, 7, 172, 99, 157, 185, 145, 224, 210, 127, 27, 117, 230
            ]
        );
    }

    #[test]
    fn test_poseidon_input_ones_le() {
        let input = [1u8; 32];

        let hash = hash(Parameters::Bn254X5, Endianness::LittleEndian, &input).unwrap();
        assert_eq!(
            hash.to_bytes(),
            [
                230, 117, 27, 127, 210, 224, 145, 185, 157, 99, 172, 7, 132, 30, 241, 130, 136,
                166, 99, 99, 197, 198, 25, 204, 119, 97, 238, 129, 229, 172, 191, 5
            ],
        );
    }

    #[test]
    fn test_poseidon_input_ones_twos_be() {
        let input1 = [1u8; 32];
        let input2 = [2u8; 32];

        let hash = hashv(
            Parameters::Bn254X5,
            Endianness::BigEndian,
            &[&input1, &input2],
        )
        .unwrap();
        assert_eq!(
            hash.to_bytes(),
            [
                13, 84, 225, 147, 143, 138, 140, 28, 125, 235, 94, 3, 85, 242, 99, 25, 32, 123,
                132, 254, 156, 162, 206, 27, 38, 231, 53, 200, 41, 130, 25, 144
            ]
        );
    }

    #[test]
    fn test_poseidon_input_ones_twos_le() {
        let input1 = [1u8; 32];
        let input2 = [2u8; 32];

        let hash = hashv(
            Parameters::Bn254X5,
            Endianness::LittleEndian,
            &[&input1, &input2],
        )
        .unwrap();
        assert_eq!(
            hash.to_bytes(),
            [
                144, 25, 130, 41, 200, 53, 231, 38, 27, 206, 162, 156, 254, 132, 123, 32, 25, 99,
                242, 85, 3, 94, 235, 125, 28, 140, 138, 143, 147, 225, 84, 13
            ]
        );
    }

    #[test]
    fn test_poseidon_input_one() {
        let input = [
            0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
            0, 0, 1,
        ];

        let expected_hashes = [
            [
                41, 23, 97, 0, 234, 169, 98, 189, 193, 254, 108, 101, 77, 106, 60, 19, 14, 150,
                164, 209, 22, 139, 51, 132, 139, 137, 125, 197, 2, 130, 1, 51,
            ],
            [
                0, 122, 243, 70, 226, 211, 4, 39, 158, 121, 224, 169, 243, 2, 63, 119, 18, 148,
                167, 138, 203, 112, 231, 63, 144, 175, 226, 124, 173, 64, 30, 129,
            ],
            [
                2, 192, 6, 110, 16, 167, 42, 189, 43, 51, 195, 178, 20, 203, 62, 129, 188, 177,
                182, 227, 9, 97, 205, 35, 194, 2, 177, 134, 115, 191, 37, 67,
            ],
            [
                8, 44, 156, 55, 10, 13, 36, 244, 65, 111, 188, 65, 74, 55, 104, 31, 120, 68, 45,
                39, 216, 99, 133, 153, 28, 23, 214, 252, 12, 75, 125, 113,
            ],
            [
                16, 56, 150, 5, 174, 104, 141, 79, 20, 219, 133, 49, 34, 196, 125, 102, 168, 3,
                199, 43, 65, 88, 156, 177, 191, 134, 135, 65, 178, 6, 185, 187,
            ],
            [
                42, 115, 246, 121, 50, 140, 62, 171, 114, 74, 163, 229, 189, 191, 80, 179, 144, 53,
                215, 114, 159, 19, 91, 151, 9, 137, 15, 133, 197, 220, 94, 118,
            ],
            [
                34, 118, 49, 10, 167, 243, 52, 58, 40, 66, 20, 19, 157, 157, 169, 89, 190, 42, 49,
                178, 199, 8, 165, 248, 25, 84, 178, 101, 229, 58, 48, 184,
            ],
            [
                23, 126, 20, 83, 196, 70, 225, 176, 125, 43, 66, 51, 66, 81, 71, 9, 92, 79, 202,
                187, 35, 61, 35, 11, 109, 70, 162, 20, 217, 91, 40, 132,
            ],
            [
                14, 143, 238, 47, 228, 157, 163, 15, 222, 235, 72, 196, 46, 187, 68, 204, 110, 231,
                5, 95, 97, 251, 202, 94, 49, 59, 138, 95, 202, 131, 76, 71,
            ],
            [
                46, 196, 198, 94, 99, 120, 171, 140, 115, 48, 133, 79, 74, 112, 119, 193, 255, 146,
                96, 228, 72, 133, 196, 184, 29, 209, 49, 173, 58, 134, 205, 150,
            ],
            [
                0, 113, 61, 65, 236, 166, 53, 241, 23, 212, 236, 188, 235, 95, 58, 102, 220, 65,
                66, 235, 112, 181, 103, 101, 188, 53, 143, 27, 236, 64, 187, 155,
            ],
            [
                20, 57, 11, 224, 186, 239, 36, 155, 212, 124, 101, 221, 172, 101, 194, 229, 46,
                133, 19, 192, 129, 193, 205, 114, 201, 128, 6, 9, 142, 154, 143, 190,
            ],
        ];

        for (i, expected_hash) in expected_hashes.iter().enumerate() {
            let inputs = vec![&input; i + 1]
                .into_iter()
                .map(|arr| &arr[..])
                .collect::<Vec<_>>();
            let hash = hashv(Parameters::Bn254X5, Endianness::BigEndian, &inputs).unwrap();
            assert_eq!(hash.to_bytes(), *expected_hash);
        }
    }
}