import base64 import json import random import secrets as scrts import uuid from typing import List import requests import core.b_dhke as b_dhke from core.base import ( BlindedMessage, BlindedSignature, CheckPayload, MeltPayload, MintPayloads, Proof, SplitPayload, ) from core.db import Database from core.secp import PublicKey from core.settings import DEBUG from core.split import amount_split from wallet.crud import get_proofs, invalidate_proof, store_proof, update_proof_reserved class LedgerAPI: def __init__(self, url): self.url = url self.keys = self._get_keys(url) @staticmethod def _get_keys(url): resp = requests.get(url + "/keys").json() return { int(amt): PublicKey(bytes.fromhex(val), raw=True) for amt, val in resp.items() } @staticmethod def _get_output_split(amount): """Given an amount returns a list of amounts returned e.g. 13 is [1, 4, 8].""" bits_amt = bin(amount)[::-1][:-2] rv = [] for (pos, bit) in enumerate(bits_amt): if bit == "1": rv.append(2**pos) return rv def _construct_proofs(self, promises: List[BlindedSignature], secrets: List[str]): """Returns proofs of promise from promises.""" proofs = [] for promise, (r, secret) in zip(promises, secrets): C_ = PublicKey(bytes.fromhex(promise.C_), raw=True) C = b_dhke.step3_alice(C_, r, self.keys[promise.amount]) proof = Proof(amount=promise.amount, C=C.serialize().hex(), secret=secret) proofs.append(proof) return proofs def _generate_secret(self, randombits=128): """Returns base64 encoded random string.""" return scrts.token_urlsafe(randombits // 8) def request_mint(self, amount): """Requests a mint from the server and returns Lightning invoice.""" r = requests.get(self.url + "/mint", params={"amount": amount}) return r.json() def mint(self, amounts, payment_hash=None): """Mints new coins and returns a proof of promise.""" payloads: MintPayloads = MintPayloads() secrets = [] rs = [] for amount in amounts: secret = self._generate_secret() secrets.append(secret) B_, r = b_dhke.step1_alice(secret) rs.append(r) payload: BlindedMessage = BlindedMessage( amount=amount, B_=B_.serialize().hex() ) payloads.blinded_messages.append(payload) promises_list = requests.post( self.url + "/mint", json=payloads.dict(), params={"payment_hash": payment_hash}, ).json() if "error" in promises_list: raise Exception("Error: {}".format(promises_list["error"])) promises = [BlindedSignature.from_dict(p) for p in promises_list] return self._construct_proofs(promises, [(r, s) for r, s in zip(rs, secrets)]) def split(self, proofs, amount): """Consume proofs and create new promises based on amount split.""" total = sum([p["amount"] for p in proofs]) fst_amt, snd_amt = total - amount, amount fst_outputs = amount_split(fst_amt) snd_outputs = amount_split(snd_amt) secrets = [] payloads: MintPayloads = MintPayloads() for output_amt in fst_outputs + snd_outputs: secret = self._generate_secret() B_, r = b_dhke.step1_alice(secret) secrets.append((r, secret)) payload: BlindedMessage = BlindedMessage( amount=output_amt, B_=B_.serialize().hex() ) payloads.blinded_messages.append(payload) split_payload = SplitPayload(proofs=proofs, amount=amount, output_data=payloads) promises_dict = requests.post( self.url + "/split", json=split_payload.dict(), ).json() if "error" in promises_dict: raise Exception("Error: {}".format(promises_dict["error"])) promises_fst = [BlindedSignature.from_dict(p) for p in promises_dict["fst"]] promises_snd = [BlindedSignature.from_dict(p) for p in promises_dict["snd"]] # Obtain proofs from promises fst_proofs = self._construct_proofs(promises_fst, secrets[: len(promises_fst)]) snd_proofs = self._construct_proofs(promises_snd, secrets[len(promises_fst) :]) return fst_proofs, snd_proofs async def check_spendable(self, proofs: List[Proof]): payload = CheckPayload(proofs=proofs) return_dict = requests.post( self.url + "/check", json=payload.dict(), ).json() return return_dict async def pay_lightning(self, proofs: List[Proof], amount: int, invoice: str): payload = MeltPayload(proofs=proofs, amount=amount, invoice=invoice) return_dict = requests.post( self.url + "/melt", json=payload.dict(), ).json() return return_dict class Wallet(LedgerAPI): """Minimal wallet wrapper.""" def __init__(self, url: str, db: str, name: str = "no_name"): super().__init__(url) self.db = Database("wallet", db) self.proofs: List[Proof] = [] self.name = name async def load_proofs(self): self.proofs = await get_proofs(db=self.db) async def _store_proofs(self, proofs): for proof in proofs: await store_proof(proof, db=self.db) async def request_mint(self, amount): return super().request_mint(amount) async def mint(self, amount: int, payment_hash: str = None): split = amount_split(amount) proofs = super().mint(split, payment_hash) if proofs == []: raise Exception("received no proofs.") await self._store_proofs(proofs) self.proofs += proofs return proofs async def redeem(self, proofs: List[Proof]): return await self.split(proofs, sum(p["amount"] for p in proofs)) async def split(self, proofs: List[Proof], amount: int): assert len(proofs) > 0, ValueError("no proofs provided.") fst_proofs, snd_proofs = super().split(proofs, amount) if len(fst_proofs) == 0 and len(snd_proofs) == 0: raise Exception("received no splits.") used_secrets = [p["secret"] for p in proofs] self.proofs = list( filter(lambda p: p["secret"] not in used_secrets, self.proofs) ) self.proofs += fst_proofs + snd_proofs await self._store_proofs(fst_proofs + snd_proofs) for proof in proofs: await invalidate_proof(proof, db=self.db) return fst_proofs, snd_proofs async def pay_lightning(self, proofs: List[Proof], amount: int, invoice: str): """Pays a lightning invoice""" status = await super().pay_lightning(proofs, amount, invoice) if status["paid"] == True: await self.invalidate(proofs) else: raise Exception("could not pay invoice.") return status["paid"] @staticmethod async def serialize_proofs(proofs: List[Proof]): proofs_serialized = [p.to_dict() for p in proofs] token = base64.urlsafe_b64encode( json.dumps(proofs_serialized).encode() ).decode() return token async def split_to_send(self, proofs: List[Proof], amount): """Like self.split but only considers non-reserved tokens.""" if len([p for p in proofs if not p.reserved]) <= 0: raise Exception("balance too low.") return await self.split([p for p in proofs if not p.reserved], amount) async def set_reserved(self, proofs: List[Proof], reserved: bool): """Mark a proof as reserved to avoid reuse or delete marking.""" uuid_str = str(uuid.uuid1()) for proof in proofs: proof.reserved = True await update_proof_reserved( proof, reserved=reserved, send_id=uuid_str, db=self.db ) async def check_spendable(self, proofs): return await super().check_spendable(proofs) async def invalidate(self, proofs): """Invalidates all spendable tokens supplied in proofs.""" spendables = await self.check_spendable(proofs) invalidated_proofs = [] for idx, spendable in spendables.items(): if not spendable: invalidated_proofs.append(proofs[int(idx)]) await invalidate_proof(proofs[int(idx)], db=self.db) invalidate_secrets = [p["secret"] for p in invalidated_proofs] self.proofs = list( filter(lambda p: p["secret"] not in invalidate_secrets, self.proofs) ) @property def balance(self): return sum(p["amount"] for p in self.proofs) @property def available_balance(self): return sum(p["amount"] for p in self.proofs if not p.reserved) def status(self): print( f"Balance: {self.balance} sat (Available: {self.available_balance} sat in {len([p for p in self.proofs if not p.reserved])} tokens)" ) def proof_amounts(self): return [p["amount"] for p in sorted(self.proofs, key=lambda p: p["amount"])]