class PreMlsagHasher: """ Iterative construction of the pre_mlsag_hash """ def __init__(self): self.state = 0 self.kc_master = crypto.get_keccak() self.rsig_hasher = crypto.get_keccak() self.rtcsig_hasher = KeccakXmrArchive() def init(self): if self.state != 0: raise ValueError("State error") self.state = 1 def set_message(self, message: bytes): self.kc_master.update(message) def set_type_fee(self, rv_type: int, fee: int): if self.state != 1: raise ValueError("State error") self.state = 2 self.rtcsig_hasher.uint(rv_type, 1) # UInt8 self.rtcsig_hasher.uvarint(fee) # UVarintType def set_ecdh(self, ecdh: bytes): if self.state not in (2, 3, 4): raise ValueError("State error") self.state = 4 self.rtcsig_hasher.buffer(ecdh) def set_out_pk_commitment(self, out_pk_commitment: bytes): if self.state not in (4, 5): raise ValueError("State error") self.state = 5 self.rtcsig_hasher.buffer(out_pk_commitment) # ECKey def rctsig_base_done(self): if self.state != 5: raise ValueError("State error") self.state = 6 c_hash = self.rtcsig_hasher.get_digest() self.kc_master.update(c_hash) self.rtcsig_hasher = None def rsig_val(self, p: bytes | list[bytes] | Bulletproof, raw: bool = False): if self.state == 8: raise ValueError("State error") if raw: # Avoiding problem with the memory fragmentation. # If the range proof is passed as a list, hash each element # as the range proof is split to multiple byte arrays while # preserving the byte ordering if isinstance(p, list): for x in p: self.rsig_hasher.update(x) else: self.rsig_hasher.update(p) return # Hash Bulletproof self.rsig_hasher.update(p.A) self.rsig_hasher.update(p.S) self.rsig_hasher.update(p.T1) self.rsig_hasher.update(p.T2) self.rsig_hasher.update(p.taux) self.rsig_hasher.update(p.mu) for i in range(len(p.L)): self.rsig_hasher.update(p.L[i]) for i in range(len(p.R)): self.rsig_hasher.update(p.R[i]) self.rsig_hasher.update(p.a) self.rsig_hasher.update(p.b) self.rsig_hasher.update(p.t) def get_digest(self) -> bytes: if self.state != 6: raise ValueError("State error") self.state = 8 c_hash = self.rsig_hasher.digest() self.rsig_hasher = None self.kc_master.update(c_hash) return self.kc_master.digest()
class PreMlsagHasher: """ Iterative construction of the pre_mlsag_hash """ def __init__(self): self.is_simple = None self.state = 0 self.kc_master = crypto.get_keccak() self.rsig_hasher = crypto.get_keccak() self.rtcsig_hasher = KeccakXmrArchive() def init(self, is_simple): if self.state != 0: raise ValueError("State error") self.state = 1 self.is_simple = is_simple def set_message(self, message): self.kc_master.update(message) def set_type_fee(self, rv_type, fee): if self.state != 1: raise ValueError("State error") self.state = 2 self.rtcsig_hasher.uint(rv_type, 1) # UInt8 self.rtcsig_hasher.uvarint(fee) # UVarintType def set_pseudo_out(self, out): if self.state != 2 and self.state != 3: raise ValueError("State error") self.state = 3 # Manual serialization of the ECKey self.rtcsig_hasher.buffer(out) def set_ecdh(self, ecdh): if self.state != 2 and self.state != 3 and self.state != 4: raise ValueError("State error") self.state = 4 self.rtcsig_hasher.buffer(ecdh) def set_out_pk_commitment(self, out_pk_commitment): if self.state != 4 and self.state != 5: raise ValueError("State error") self.state = 5 self.rtcsig_hasher.buffer(out_pk_commitment) # ECKey def rctsig_base_done(self): if self.state != 5: raise ValueError("State error") self.state = 6 c_hash = self.rtcsig_hasher.get_digest() self.kc_master.update(c_hash) self.rtcsig_hasher = None def rsig_val(self, p, bulletproof, raw=False): if self.state == 8: raise ValueError("State error") if raw: # Avoiding problem with the memory fragmentation. # If the range proof is passed as a list, hash each element # as the range proof is split to multiple byte arrays while # preserving the byte ordering if isinstance(p, list): for x in p: self.rsig_hasher.update(x) else: self.rsig_hasher.update(p) return if bulletproof: self.rsig_hasher.update(p.A) self.rsig_hasher.update(p.S) self.rsig_hasher.update(p.T1) self.rsig_hasher.update(p.T2) self.rsig_hasher.update(p.taux) self.rsig_hasher.update(p.mu) for i in range(len(p.L)): self.rsig_hasher.update(p.L[i]) for i in range(len(p.R)): self.rsig_hasher.update(p.R[i]) self.rsig_hasher.update(p.a) self.rsig_hasher.update(p.b) self.rsig_hasher.update(p.t) else: for i in range(64): self.rsig_hasher.update(p.asig.s0[i]) for i in range(64): self.rsig_hasher.update(p.asig.s1[i]) self.rsig_hasher.update(p.asig.ee) for i in range(64): self.rsig_hasher.update(p.Ci[i]) def get_digest(self): if self.state != 6: raise ValueError("State error") self.state = 8 c_hash = self.rsig_hasher.digest() self.rsig_hasher = None self.kc_master.update(c_hash) return self.kc_master.digest()