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use super::VmApiImpl;
use elrond_wasm::{
api::CryptoApi,
types::{BoxedBytes, MessageHashType, H256},
Box,
};
extern "C" {
fn sha256(dataOffset: *const u8, length: i32, resultOffset: *mut u8) -> i32;
fn keccak256(dataOffset: *const u8, length: i32, resultOffset: *mut u8) -> i32;
fn ripemd160(dataOffset: *const u8, length: i32, resultOffset: *mut u8) -> i32;
fn verifyBLS(
keyOffset: *const u8,
messageOffset: *const u8,
messageLength: i32,
sigOffset: *const u8,
) -> i32;
fn verifyEd25519(
keyOffset: *const u8,
messageOffset: *const u8,
messageLength: i32,
sigOffset: *const u8,
) -> i32;
fn verifySecp256k1(
keyOffset: *const u8,
keyLength: i32,
messageOffset: *const u8,
messageLength: i32,
sigOffset: *const u8,
) -> i32;
fn verifyCustomSecp256k1(
keyOffset: *const u8,
keyLength: i32,
messageOffset: *const u8,
messageLength: i32,
sigOffset: *const u8,
hashType: i32,
) -> i32;
fn encodeSecp256k1DerSignature(
rOffset: *const u8,
rLength: i32,
sOffset: *const u8,
sLength: i32,
sigOffset: *const u8,
) -> i32;
}
impl CryptoApi for VmApiImpl {
fn sha256(&self, data: &[u8]) -> H256 {
unsafe {
let mut res = H256::zero();
sha256(data.as_ptr(), data.len() as i32, res.as_mut_ptr());
res
}
}
fn keccak256(&self, data: &[u8]) -> H256 {
unsafe {
let mut res = H256::zero();
keccak256(data.as_ptr(), data.len() as i32, res.as_mut_ptr());
res
}
}
fn ripemd160(&self, data: &[u8]) -> Box<[u8; 20]> {
unsafe {
let mut res = [0u8; 20];
ripemd160(data.as_ptr(), data.len() as i32, res.as_mut_ptr());
Box::new(res)
}
}
fn verify_bls(&self, key: &[u8], message: &[u8], signature: &[u8]) -> bool {
unsafe {
verifyBLS(
key.as_ptr(),
message.as_ptr(),
message.len() as i32,
signature.as_ptr(),
) == 0
}
}
fn verify_ed25519(&self, key: &[u8], message: &[u8], signature: &[u8]) -> bool {
unsafe {
verifyEd25519(
key.as_ptr(),
message.as_ptr(),
message.len() as i32,
signature.as_ptr(),
) == 0
}
}
fn verify_secp256k1(&self, key: &[u8], message: &[u8], signature: &[u8]) -> bool {
unsafe {
verifySecp256k1(
key.as_ptr(),
key.len() as i32,
message.as_ptr(),
message.len() as i32,
signature.as_ptr(),
) == 0
}
}
fn verify_custom_secp256k1(
&self,
key: &[u8],
message: &[u8],
signature: &[u8],
hash_type: MessageHashType,
) -> bool {
unsafe {
verifyCustomSecp256k1(
key.as_ptr(),
key.len() as i32,
message.as_ptr(),
message.len() as i32,
signature.as_ptr(),
hash_type.as_u8() as i32,
) == 0
}
}
fn encode_secp256k1_der_signature(&self, r: &[u8], s: &[u8]) -> BoxedBytes {
unsafe {
let mut sig_length = 6 + r.len() + s.len();
let mask = 0x80;
if r[0] & mask != 0 {
sig_length += 1;
}
if s[0] & mask != 0 {
sig_length += 1;
}
let mut sig_output = BoxedBytes::allocate(sig_length);
encodeSecp256k1DerSignature(
r.as_ptr(),
r.len() as i32,
s.as_ptr(),
s.len() as i32,
sig_output.as_mut_ptr(),
);
sig_output
}
}
}